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China Best Sales 26*10*12mm High Quality KRV 26 PP Stud Type Track Rollers Cam Follower Bearing For Machine Tools

Product Description

26*10*12mm High Quality KRV 26 PP Stud Type Track Rollers Cam Follower Bearing For Machine Tools


                                                             Application

                       Agriculture                                                       Turntable, fishing rod   
   
                       Tools, robots                                                     Assembly lines, industrial machinery

                       Cars, motorcycles                                            Office fans
                       
Track Roller Bearings are the roller bearings with cylindrical roller elements, compared with the diameter, the needle roller
are both thin and long, so they are called needle roller. Although the section is small, the type of bearings still has the high
ablity of load, it specially can be used tothe situation of being restricted of the radial space.

krv…pp Stud Type Track Rollers Specification

Product Name Stud Type Track Rollers 
Precision Rating P6, P0, P5, P4, P2
Material Bearing Steel (GCr15)
Clearance  C1 C2 C3 
Vibration & Noisy Z1, Z2, Z3 V1, V2, V3
Features Inch Size, with Eccentric Colla, with Hexagon Hole
Application Machine Tools, Auto Parts, Power Generators,and other Industrial Applications
Certification ISO 9001: 2008
Packing 1. Neutral Packing Bearing 2. Industrial Packing 3. Commercial Packing Bearing 4. Customize
Delivery Time 30 – 45 Days After The Order is Confirmed
Shippment 1. By Sea 2. By Air 3. By Express

Bearing No. Dimensions (mm) Basic Load Rating (KN) Limited
Speed
Mass
Sealed  Type D d C r
min
B B1 B2 G G1 M1 C1 d2 C Co rpm kg
KRV 16 PP 16 6 11 0.2 28 16.0 M6X1 8 0.6 12 3.88 5.20 3040 0.571
KRV 19 PP 19 8 11 0.2 32 20.0 M8X1.25 10 0.6 14 4.40 6.32 2480 0.032
KRV 22 PP 22 10 12 0.3 36 23.0 M10X1 12 0.6 17 5.04 7.28 2080 0.045
KRV 26 PP 26 10 12 0.3 36 23.0 M10X1 12 0.6 17 5.84 9.04 2080 0.061
KRV 30 PP 30 12 14 0.6 40 25.0 6 M12X1.5 13 3 0.6 23 7.60 11.68 1680 0.089
KRV 32 PP 32 12 14 0.6 40 25.0 6 M12X1.5 13 3 0.6 23 8.00 12.64 1680 0.100
KRV 35 PP 35 16 18 0.6 52 32.5 8 M16X1.5 17 3 0.8 27 10.24 18.40 1280 0.171
KRV 40 PP 40 18 20 1.0 58 36.5 8 M18X1.5 19 3 0.8 32 11.84 21.20 1120 0.249
KRV 62 PP 62 24 29 1.0 80 49.5 11 M24X1.5 25 4 0.8 44 27.20 60.80 880 0.802
KRV 72 PP 72 24 29 1.1 80 49.5 11 M24X1.5 25 4 0.8 44 29.60 68.00 880 1.045
KRV 80 PP 80 30 35 1.1 100 63.0 15 M30X1.5 32 4 1.0 53 39.60 96.00 680 1.561
KRV 90 PP 90 30 35 1.1 100 63.0 15 M30X1.5 32 4 1.0 53 42.40 104.00 680 1.970

                                                             About Us

HENGLI Machinery Company is a well-established Chinese bearing supplier. We design, manufacture and wholesale bearings. 

Our specialized manufacturer of Spherical Roller Bearing Cylindrical Roller Bearing, XIHU (WEST LAKE) DIS. Rolling Bearing Co., Ltd was
established in 1970 and is accredited by the Chinese Ministry of Machine Building. 

We invested in 2 additional specialized bearing factories, which allow us to provide our clients with top of the line products 
such as Needle Roller Bearings, Cam Follower Bearings, Thrust Bearings, Spherical Plain Bearings, Rod Ends Bearings, 
Ball Joint Bearings, Tapered Roller Bearings, Wheel Hub Bearings and Non-Standard Bearings. 

FAQ
Q1 – What is our advantages? 

A – Manufacturer – Do it only with the Best; 

-Your Choice make different. 

Q2 – Our Products

A – Spherical Roller Bearing, Cylindrical Roller Bearing, Needle Roller Bearing, Cam Followers, Thrust Bearing

– Spherical Plain Bearing, Rod End, Ball Joint, Wheel Hub, Tapered Roller Bearing

Q3 – Process of our production

A – Heat Treatment – Grinding – Parts Inspection – Assembly – Final Inspection – Packing

Q4 – How to customize bearing(non-standard) from your company? 

A -We offer OEM, Customized(Non-standard) service and you need to provide drawing and detailed Technical Data. 

Q5 – What should I care before installation? 

A – Normally, the preservative with which new bearings are coated before leaving the factory does not need to be

Removed; It is only necessary to wipe off the outside cylin­drical surface and bore, if the grease is not compatible

With the preservative, it is necessary to wash and carefully dry the bearing. 

-Bearings should be installed in a dry, dust-free room away from metal working or other machines producing

Swarf and dust. 

Q6 – How to stock and maintenance my bearings right? 

A – Do not store bearings directly on concrete floors, where water can condense and collect on the bearing; 

-Store the bearings on a pallet or shelf, in an area where the bearings will not be subjected to high humidity

Or sudden and severe temperature changes that may result in condensation forming; 

-Always put oiled paper or, if not available, plastic sheets between rollers and cup races of tapered roller bearings. 

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: 6mm-30mm
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Radial Bearing
Samples:
US$ 1/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

cam roller

Can you provide insights into the importance of proper installation and alignment of cam rollers?

Proper installation and alignment of cam rollers are crucial for achieving optimal performance, longevity, and reliability of the tracking system. The installation and alignment process directly impacts the functionality, efficiency, and lifespan of the cam rollers. Here are some key insights into the importance of proper installation and alignment:

  • Accurate Tracking: Proper installation ensures that the cam rollers are positioned correctly and aligned with the cam profile or track. Accurate alignment is essential for achieving precise and consistent tracking of objects or components. Even a slight misalignment can result in deviations from the desired path, causing positioning errors, reduced accuracy, and compromised system performance.
  • Smooth Motion: Correct installation and alignment play a significant role in enabling smooth and uninterrupted rolling motion of the cam rollers. Misalignment or improper installation can introduce friction, uneven loading, or binding, which can lead to jerky or erratic motion. On the other hand, proper alignment facilitates smooth and efficient rolling, minimizing energy losses, reducing wear, and ensuring seamless operation.
  • Load Distribution: Proper alignment helps distribute the load evenly among the cam rollers and the associated components. Uniform load distribution prevents excessive stress on individual rollers, bearings, or tracks, reducing the risk of premature wear, fatigue, or failure. By ensuring proper load distribution, proper installation and alignment contribute to the longevity and reliability of the cam roller system.
  • Reduced Wear and Damage: Correct installation and alignment minimize friction and wear between the cam rollers and the track. Improper alignment can cause rubbing, scraping, or uneven contact, leading to accelerated wear, surface damage, or deformation of the rollers or track. Proper alignment reduces these issues, extending the lifespan of the cam rollers and reducing the frequency of maintenance or replacements.
  • Optimized Performance: Properly installed and aligned cam rollers maximize the performance of the tracking system. When the cam rollers are aligned correctly, they can operate at their intended design parameters, ensuring efficient power transmission, accurate tracking, and smooth motion. This optimization leads to improved productivity, reduced downtime, and enhanced overall system performance.
  • Alignment Sensitivity: Cam roller systems are often sensitive to misalignment due to their precise nature. Small deviations in alignment can have a significant impact on the performance and functionality of the system. Therefore, it is crucial to follow manufacturer guidelines and recommended alignment procedures during installation to ensure proper alignment and avoid potential issues.
  • Ease of Maintenance: Proper installation and alignment facilitate easier maintenance and servicing of the cam rollers. When the cam rollers are correctly aligned, it becomes simpler to access and replace individual components, such as bearings or rollers, during routine maintenance or repairs. This reduces downtime, simplifies maintenance procedures, and ensures efficient upkeep of the tracking system.

In summary, proper installation and alignment of cam rollers are essential for achieving accurate tracking, smooth motion, load distribution, reduced wear, optimized performance, and ease of maintenance. By following proper installation procedures and ensuring precise alignment, the longevity, efficiency, and reliability of the cam roller system can be maximized, leading to improved overall system performance and longevity.

cam roller

How do cam rollers contribute to precise and controlled motion in machinery?

Cam rollers play a significant role in ensuring precise and controlled motion in various machinery applications. Their design and functionality contribute to accurate tracking, smooth operation, and controlled movement. Here’s a detailed explanation of how cam rollers contribute to precise and controlled motion in machinery:

  • Cam Profile Following: Cam rollers are specifically designed to follow the profile of a cam or track. The outer ring of the cam roller is shaped to match the contour of the cam surface. As the cam rotates or moves, the cam roller maintains contact with the cam profile, ensuring precise tracking and controlled motion along the desired path. This cam profile following capability enables machinery to achieve accurate and repeatable motion.
  • Rolling Motion: Cam rollers utilize rolling motion to traverse the cam profile. The rolling motion reduces friction compared to sliding or rubbing contact, resulting in smoother operation and improved energy efficiency. The rolling action of cam rollers allows for controlled movement with minimal resistance, ensuring precise motion and minimizing wear and tear.
  • Load Distribution: Cam rollers are designed to distribute the applied load evenly among the rolling elements. This load distribution capability minimizes stress concentrations and prevents excessive wear on individual rollers. By distributing the load effectively, cam rollers contribute to maintaining precise and controlled motion without compromising performance or causing premature failure.
  • High Rigidity: Cam rollers are constructed to provide high rigidity, which is vital for precise and controlled motion. The materials and design of cam rollers ensure minimal deformation or flexing during operation, allowing for accurate positioning and controlled movement. The high rigidity of cam rollers enables machinery to maintain tight tolerances and achieve the desired motion without unwanted deviations.
  • Roller Retainers: Some cam roller designs incorporate roller retainers or cages that hold the rolling elements in place and maintain proper spacing. These retainers prevent roller skewing and ensure controlled movement by guiding the rollers along the cam profile. The use of roller retainers enhances precision and eliminates the risk of roller misalignment, contributing to precise and controlled motion in machinery.
  • Precision Bearings: Cam rollers are equipped with precision bearings that provide smooth rolling motion and reduce internal friction. These bearings are designed to handle both radial and axial loads, ensuring stable and controlled motion in various directions. The precision bearings in cam rollers contribute to the overall precision and controlled movement of the machinery.

By incorporating these design features and functionalities, cam rollers contribute to precise and controlled motion in machinery. They enable accurate tracking of cam profiles, utilize rolling motion with reduced friction, distribute loads evenly, provide high rigidity, use roller retainers for proper alignment, and utilize precision bearings for smooth operation. All these factors work together to ensure precise positioning, controlled movement, and reliable performance in a wide range of machinery applications.

In summary, cam rollers contribute to precise and controlled motion in machinery through their cam profile following capability, rolling motion, load distribution, high rigidity, roller retainers, and precision bearings. These features enable machinery to achieve accurate positioning, smooth operation, and controlled movement, resulting in improved performance and productivity.

cam roller

How does the design of a cam roller contribute to efficient motion and tracking?

The design of a cam roller plays a crucial role in ensuring efficient motion transmission and tracking along the surface profile of a cam or track. Various design features are incorporated to optimize performance, reliability, and smooth operation. Here’s a detailed explanation of how the design of a cam roller contributes to efficient motion and tracking:

  • Bearing Element: The choice of the bearing element, such as cylindrical rollers, needle rollers, or ball bearings, is a critical design consideration. The bearing element should be selected based on the specific application requirements, including load capacity, speed, and precision. The bearing element allows for smooth rolling motion and efficient load distribution, minimizing friction and wear.
  • Outer Ring Profile: The outer ring of a cam roller has a profile that matches the shape of the cam or track. This design feature ensures accurate tracking and follows the contour of the cam or track surface. The outer ring provides guidance and support to the roller, allowing it to smoothly traverse the cam profile without slipping or deviating from the desired path.
  • Stud or Yoke: The stud or yoke is the component that attaches the cam roller to the moving part of the mechanical system. It is designed to provide secure attachment and proper alignment. The stud or yoke may have additional features such as threaded ends, lubrication provisions, or seals to enhance functionality and ease of maintenance.
  • Roller Retainers: In some cam roller designs, roller retainers are used to maintain proper spacing and alignment of the rollers within the outer ring. These retainers prevent roller skewing and ensure even load distribution among the rollers. By maintaining precise roller alignment, efficient motion transmission and tracking are achieved.
  • Sealing and Lubrication: Proper sealing and lubrication are essential for the efficient functioning of cam rollers. Seals prevent contaminants from entering the bearing and protect against lubricant leakage. Lubrication reduces friction and wear, ensuring smooth rolling motion. The design of cam rollers may include sealing elements and lubrication provisions to facilitate effective sealing and lubrication maintenance.

The careful consideration of these design factors contributes to efficient motion and tracking in cam rollers. When the cam roller is in operation, these design features enable it to smoothly follow the profile of the cam or track, ensuring accurate and reliable motion transmission. Efficient tracking minimizes energy losses, reduces wear, and enhances the overall performance of the mechanical system.

It is important to note that the design of a cam roller should be selected based on the specific requirements of the application. Factors such as load capacity, speed, operating conditions, and precision requirements should be taken into account to ensure optimal performance and longevity of the cam roller in the mechanical system.

In summary, the design of a cam roller, including the bearing element, outer ring profile, stud or yoke, roller retainers, sealing, and lubrication, contributes to efficient motion transmission and tracking. These design features enable smooth rolling motion, accurate tracking along the cam profile, and reliable performance in various mechanical systems.

China Best Sales 26*10*12mm High Quality KRV 26 PP Stud Type Track Rollers Cam Follower Bearing For Machine Tools  China Best Sales 26*10*12mm High Quality KRV 26 PP Stud Type Track Rollers Cam Follower Bearing For Machine Tools
editor by CX 2024-04-09

China Best Sales CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG One Way Track Roller Needle Roller Bearing Nutr1542 Motorcycle Bearing Cam Follower Bearing Nutr1747 Nutr2052

Product Description

Specifications of Bearing

Product Description of CHINAMFG Cam Follower Bearing 

Inch Needle Roller Bearing Professional Manufacturer Factory (CYR-1-7/8-S/CCYR-1-7/8-S/CYR-2/CYR-2-S/CYR-2-1/4/CYR-2-1/4-S/CYR-2-1/2/CYR-2-1/2-S/CYR-2-3/4)
Inch Track Rollers and Cam Follower Bearing of Professional Manufacturer

Neddle roller bearing of all kinds are our main product and our advantag

CYR-3/4/CYR-3/4-S/CCYR-3/4-S/CYR-7/8/CYR-7/8-S/CCYR-7/8-S/CYR-1/CYR-1-S /CCYR-1-S /CYR-1-1/8/CYR-1-1/8-S/CCYR-1-1/8-S/CYR-1-1/4/CYR-1-1/4-S/CCYR-1-1/4-S/CYR-1-3/8/CYR-1-3/8-S/CCYR-1-3/8-S/CYR-1-1/2/CYR-1-1/2-S/CCYR-1-1/2-S /CYR-1-5/8/CYR-1-5/8-S/CCYR-1-5/8-S/CYR-1-3/4/CYR-1-3/4-S/CCYR-1-3/4-S/CYR-1-7/8/CYR-1-7/8-S/CCYR-1-7/8-S/CYR-2/CYR-2-S/CYR-2-1/4/CYR-2-1/4-S/CYR-2-1/2/CYR-2-1/2-S/CYR-2-3/4/CYR-2-3/4-S/CYR-3/CYR-3-S/CYR-3-1/4/CYR-3-1/4-S

Showing of Bearing

 

Parameters of Bearing

More Details of CHINAMFG Cam Follower Bearing CF11/2S

CCF-3/4-SB CF-1/2 CCFH-3/4-S CCF-11/16-SB CF-4
CF-1-SB CFH-1/2 CCF-7/8-SB CFE-11/16-SB CF-4-B
CF-1/2-SB CF-1/2-B CF-7/8-SB CCFE-11/16-SB CF-4-S
CF-1 1/2-SB CF-1/2-S CF-7/8-S CFH-11/16-SB CF-4-SB
CCYR-1 3/4-S CCF-1/2-S CCF-7/8-S CCFH-11/16-SB CCF-4-S
CCYR-1 5/8-S CFH-1/2-S CFH-2-SB CF-3/4 CCF-4-SB
CFE-2-SB CCFH-1/2-S CFH-2-S CF-3/4-B CFE-4-SB
CYR-3/4S CF-1/2-SB CFH-2 CF-3/4-S CCFE-4-SB
CYR-1-S CCF-1/2-SB CCFH-2-S CF-3/4-SB CFH-4
CYR-5 CFE-1/2-SB CCFH-2-SB CCF-3/4-S CFH-4-S
CYR-5-S CCFE-1/2-SB CFH-2-1/4-S CCF-3/4-SB CFH-4-SB
CCYR-5-S CFH-1/2-SB CCFH-2-1/4-S CFE-3/4-SB CCFH-4-S
CF-3/4 CCFH-1/2-SB CFH-2-1/2-S CCFE-3/4-SB CCFH-4-SB
CF-3/4-B CF-5/8-N CFH-2-1/2-SB CFH-3/4 CYR-4-S
CF-3/4-S CF-5/8-NB CYR-3/4 CFH-3/4-S CCYR-4-S
CF-3/4-SB CF-5/8-NSB CF-1/2-N CFH-3/4-SB CF-5-SB
CCF-3/4-S CF-5/8-NS CF-1/2-NB CCFH-3/4-S CCF-5-SB
CCF-3/4-SB CCF-5/8-NS CF-3-1/4-SB CCFH-3/4-SB CFH-5-SB
CF-1/2-B CCF-5/8-NSB CCF-3-1/4-S CYR-3/4 CCFH-5-SB
CFH-3/4-SB CF-5/8 CCF-3-1/4-SB CYR-3/4-S CCYR-5-S
CF-1/2-NS CFH-5/8 CFE-3-1/4-SB CCYR-3/4-S CF-6-SB
CF-1/2-SB CF-5/8-B CCFE-3-1/4-SB CF-7/8 CCF-6-SB
CF-1/2-NSB CF-5/8-S CFH-3-1/4 CF-7/8-B CFH-6-SB
CCF-1/2-NS CCF-5/8-S CFH-3-1/4-S CF-7/8-S CCFH-6-SB
CCF-1/2-NSB CFH-5/8-S CFH-3-1/4-SB CF-7/8-SB CYR-6-S
CFH-1-3/4-S CCFH-5/8-S CCFH-3-1/4-S CCF-7/8-S CCYR-6-S
CCFH-1-3/4-S CF-5/8-SB CCFH-3-1/4-SB CCF-7/8-SB CCF-9/16-SB
CCFH-1-3/4-SB CCF-5/8-SB CYR-3-1/4 CFE-7/8-SB CYR-7-S
CFH-1-3/4-SB CFE-5/8-SB CYR-3-1/4-S CCFE-7/8-SB CFH-7-SB
CF-1/2-S CCFE-5/8-SB CCYR-3-1/4-S CFH-7/8 CF-3-1/4-S
CFH-1-3/4 CFH-5/8-SB CF-3-1/2 CFH-7/8-S CCFH-3-1/2-SB
CFH-1-5/8-S CCFH-5/8-SB CF-3-1/2-S CFH-7/8-SB CCFH-1-1/2-SB
CFH-1-5/8-SB CF-11/16 CF-3-1/2-B CCFH-7/8-S CFH-3-1/2-S
CFH-1-5/8-SB CFH-11/16 CF-3-1/2-SB CCFH-7/8-SB CFH-3-1/2-SB
CCFH-1-5/8-S CF-11/16-B CCF-3-1/2-S CYR-7/8 CCFH-3-1/2-S
CCFH-1-5/8-SB CF-11/16-S CCF-3-1/2-SB CYR-7/8-S CF-11/16-SB
CCFH-1-1/2-S CCF-11/16-S CFE-3-1/2-SB CCYR-7/8-S CYR-3-1/2
CFH-1-1/2-S CFH-11/16-S CCFE-3-1/2-SB CF-3-1/4 CCYR-3-1/2-S
CFH-1-1/2 CCFH-11/16-S CFH-3-1/2 CF-3-1/4-B CFH-1-5/8

Cam follower roller bearing structure: 
 

Precision P0,p6,p5
Tolerance grade GB/T307.1-205
Greese/Oil As you requirement, such as SRL ,PS2, Alvania R12 and so on
Quality standard ISO 9

We have all kinds of bearings, just tell me your item number and quantity,best price will be offered to you soon
The material of the bearings, precision rating, seals type,OEM service,etc, all of them we can make according to your requirement

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Cage: With Cage
Rows Number: Single
Load Direction: Radial Bearing
Style: With Outer Ring, With Inner Ring
Material: Bearing Steel
Type: Open
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

cam roller

What are the signs that indicate a need for cam roller replacement or maintenance, and how can they be diagnosed?

Proper maintenance and timely replacement of cam rollers are essential for ensuring their optimal performance and longevity. Several signs indicate the need for cam roller replacement or maintenance, and diagnosing these signs can help identify potential issues. Here are some common signs and diagnostic methods:

  • Abnormal Noise: Unusual or excessive noise during the operation of cam rollers can indicate problems. Grinding, squeaking, or rattling sounds may suggest issues such as worn bearings, misalignment, or insufficient lubrication. Conduct a thorough inspection and listen for any abnormal noise while the cam rollers are in motion.
  • Irregular Motion: If the cam rollers exhibit irregular or jerky motion instead of smooth and consistent rolling, it may indicate problems. This can be caused by misalignment, damaged cam profiles, worn bearings, or debris accumulation. Observe the motion of the cam rollers carefully to detect any irregularities or inconsistencies.
  • Inconsistent Tracking: Cam rollers should provide accurate and consistent tracking of objects or components along the designated path. If there are deviations or errors in the tracking, it may indicate misalignment, worn cam profiles, damaged rollers, or track irregularities. Monitor the tracking performance of the cam rollers and check for any inconsistencies or deviations from the desired path.
  • Excessive Wear: Visual inspection of the cam rollers can reveal signs of excessive wear. Check for signs such as worn or flattened surfaces, pitting, cracks, or deformation. Excessive wear can occur due to high loads, misalignment, inadequate lubrication, or prolonged usage. Regularly inspect the cam rollers for any visible signs of wear or damage.
  • Uneven Load Distribution: Improper load distribution across the cam rollers can lead to premature wear or failure. Inspect the cam rollers and associated components for any signs of uneven loading, such as uneven wear patterns, excessive wear on specific rollers, or track distortions. Uneven load distribution may result from misalignment, damaged components, or improper installation.
  • Increased Friction: Excessive friction during the rolling motion of cam rollers can impair their performance and lead to accelerated wear. Monitor the rolling motion and check for signs of increased friction, such as resistance, overheating, or uneven movement. Excessive friction can be caused by misalignment, inadequate lubrication, debris accumulation, or worn components.
  • Loss of Efficiency: A decrease in the efficiency of the cam roller system can indicate underlying issues. If the system requires more power, shows reduced speed, or exhibits decreased accuracy compared to its normal operation, it may indicate problems with the cam rollers. Monitor the system’s performance and compare it with the expected efficiency to identify any loss in performance.

When diagnosing these signs, it is important to follow manufacturer guidelines and recommended maintenance procedures. Diagnostic methods may include visual inspection, listening for abnormal sounds, measuring performance parameters, checking alignment, conducting lubrication analysis, or consulting with qualified technicians or maintenance professionals.

Regular maintenance and inspection schedules should be established to monitor the condition of cam rollers. By identifying signs of wear, misalignment, or other issues early on, timely maintenance or replacement can be performed to prevent further damage, maintain optimal performance, and extend the lifespan of the cam roller system.

cam roller

Can you provide examples of products or machinery that commonly use cam rollers?

Cam rollers are widely used in various products and machinery across different industries. Their unique design and functionalities make them suitable for applications that require precise motion, controlled tracking, and efficient operation. Here are some examples of products or machinery that commonly utilize cam rollers:

  • Printing Machinery: Cam rollers are commonly found in printing machinery, such as offset printers, flexographic printers, and digital printers. They are used to precisely guide the movement of paper or printing substrates through the printing process, ensuring accurate registration and consistent print quality.
  • Material Handling Systems: Cam rollers are extensively used in material handling systems, including conveyor systems, packaging equipment, and automated storage and retrieval systems (ASRS). They help in guiding and tracking the movement of items, pallets, or containers, ensuring smooth and controlled transportation within the system.
  • Industrial Robots: Cam rollers play a vital role in industrial robots, particularly in robotic arms and manipulators. They facilitate precise and controlled motion, allowing the robot to perform accurate positioning, pick-and-place operations, and assembly tasks with high repeatability and reliability.
  • Textile Machinery: Cam rollers are commonly utilized in textile machinery, such as weaving looms, knitting machines, and spinning machines. They assist in guiding the movement of yarns, threads, or fabrics, ensuring proper tension and alignment during the manufacturing process.
  • Automotive Manufacturing: Cam rollers are employed in various stages of automotive manufacturing, including assembly lines, paint booths, and body-in-white operations. They contribute to the smooth and precise movement of car bodies, parts, or components, enabling efficient production processes.
  • Packaging Machinery: Cam rollers are commonly integrated into packaging machinery, such as form-fill-seal machines, cartoners, and labeling machines. They assist in guiding the packaging materials, ensuring accurate positioning, and controlled movement during the packaging process.
  • Food Processing Equipment: Cam rollers find applications in food processing equipment, including filling machines, sorting systems, and packaging lines. They aid in the smooth and precise movement of food products, containers, or packaging materials, maintaining the integrity and quality of the processed food items.
  • Medical Devices: Cam rollers are utilized in medical devices and equipment, such as diagnostic machines, laboratory automation systems, and surgical robots. They contribute to the precise movement and positioning required for accurate diagnostic results, sample handling, or surgical procedures.

These examples represent just a few of the many products and machinery where cam rollers are commonly used. Their versatility, precision, and reliability make them suitable for a wide range of applications in industries like printing, material handling, robotics, textiles, automotive manufacturing, packaging, food processing, and medical devices.

In summary, cam rollers are widely employed in various products and machinery across different industries. Their usage in printing machinery, material handling systems, industrial robots, textile machinery, automotive manufacturing, packaging machinery, food processing equipment, and medical devices demonstrates their significance in achieving precise motion, controlled tracking, and efficient operation in diverse applications.

cam roller

Can you describe the factors to consider when selecting cam rollers for specific applications?

When selecting cam rollers for specific applications, several factors need to be considered to ensure optimal performance, reliability, and longevity. The suitability of a cam roller for a particular application depends on various parameters and requirements. Here’s a detailed explanation of the factors to consider when selecting cam rollers:

  • Load Capacity: One of the primary considerations is the anticipated load capacity of the cam roller. The cam roller should have sufficient load-carrying capacity to support the expected radial and axial loads in the application. It is important to consider both static and dynamic loads, as well as any potential shock or impact loads that may occur.
  • Speed and Acceleration: The speed at which the cam roller will operate, as well as the acceleration and deceleration rates, should be taken into account. High-speed applications require cam rollers that can accommodate the associated centrifugal forces and provide smooth rolling motion without excessive heat generation. Additionally, the roller should be able to handle the acceleration and deceleration forces without compromising performance.
  • Precision Requirements: Depending on the application, precision requirements may vary. Some applications demand high positioning accuracy and minimal deviation, while others may have looser tolerances. It is important to select a cam roller that can meet the desired precision requirements, ensuring accurate tracking and motion control.
  • Operating Conditions: Consider the operating conditions in which the cam roller will be used. Factors such as temperature, humidity, dust, and corrosive environments can impact the performance and longevity of the cam roller. Choose a cam roller that is designed to withstand the specific operating conditions of the application, ensuring durability and reliability.
  • Lubrication and Maintenance: Proper lubrication is crucial for the smooth operation and longevity of cam rollers. Consider the lubrication requirements of the cam roller and whether it has provisions for effective lubrication. Additionally, assess the maintenance needs and accessibility of the cam roller for periodic inspection, lubrication replenishment, and potential replacement.
  • Mounting and Attachment: Evaluate the mounting and attachment options available for the cam roller. Different applications may require stud-type cam rollers or yoke-type cam rollers, depending on the attachment method and space constraints. Ensure that the chosen cam roller can be securely mounted and aligned with the moving parts of the system.
  • Cost and Availability: Finally, consider the cost and availability of the cam roller. Evaluate the overall cost-effectiveness of the selected cam roller, taking into account its performance, longevity, and maintenance requirements. Additionally, ensure that the chosen cam roller is readily available from reliable suppliers to avoid delays or compatibility issues.

By considering these factors, you can select the most suitable cam roller for a specific application, ensuring optimal performance, reliability, and longevity. It is advisable to consult with manufacturers or industry experts to obtain guidance and recommendations tailored to your specific requirements.

In summary, the factors to consider when selecting cam rollers for specific applications include load capacity, speed and acceleration requirements, precision needs, operating conditions, lubrication and maintenance considerations, mounting and attachment options, as well as cost and availability. Assessing these factors will help in choosing the appropriate cam roller that meets the unique demands of the application.

China Best Sales CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG One Way Track Roller Needle Roller Bearing Nutr1542 Motorcycle Bearing Cam Follower Bearing Nutr1747 Nutr2052  China Best Sales CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG CHINAMFG One Way Track Roller Needle Roller Bearing Nutr1542 Motorcycle Bearing Cam Follower Bearing Nutr1747 Nutr2052
editor by CX 2024-04-04

China Best Sales Yoke Type Track Rollers Cam Follower Bearing NA22/6-2RS for Railway

Product Description

Yoke Type Track Rollers Cam Follower Bearing (NA22/6-2RS NA22/8-2RS NA2200-2RS NA2201
NA2202 NA2203 NA2205 NA2206 NA2207 NA2208 NA2209 NA2210-2RS) For Railway

                                                             Application
                            Metals                                                          Mining, mineral processing and cement       
                  
                        Railways                                                      Material handling

                        Agriculture                                                    Construction

Yoke-Type Track Rollers(Support Rollers)are designed to run on all types of tracks and to be used in cam drives, conveyor systems, etc.

They are based on needle or cylindrical roller bearings

NA22…2RS Yoke-Type Track Rollers Specification

Product Name NA22…2RS Yoke-Type Track Rollers 
Precision Rating P6, P0, P5, P4, P2
Material Bearing Steel (GCr15)
Clearance C0 C2 C3 
Vibration & Noisy Z1, Z2, Z3 V1, V2, V3
Cage Brass, Nylon, Steel
Seal 2RS
Features Without Axial Guidance, Lip Seals on Both Sides, With Inner Ring
Application Metals, Mining, Mineral Processing and Cement, Railways Material handling  Agriculture 
Certification ISO 9001: 2008
Packing 1. Neutral Packing Bearing 2. Industrial Packing 3. Commercial Packing Bearing 4. Customize
Delivery Time 30 – 45 Days After The Order is Confirmed
Shippment 1. By Sea 2. By Air 3. By Express
   

Model Dimensions (mm) Basic Load Rating (KN) Limited Speed Mass
d D C B Fw D1 r r1 C Co rpm kg
min min
NA22/6.2RS 6 19 11.8 12 10 16 0.3 0.3 3.12 2.92 7200 0.02
NA22/8.2RS 8 24 11.8 12 12 18 0.3 0.3 3.84 3.84 5600 0.03
NA2200.2RS 10 30 13.8 14 14 20 0.6 0.3 5.6 6.4 4400 0.06
NA2201.2RS 12 32 13.8 14 16 22 0.6 0.3 6 7.2 3760 0.07
NA2202.2RS 15 35 13.8 14 20 26 0.6 0.3 6.08 7.6 2720 0.08
NA2203.2RS 17 40 15.8 16 22 28 1 0.3 7.92 10.96 2400 0.11
NA2204.2RS 20 47 17.8 18 25 33 1 0.3 12.16 14.64 1840 0.18
NA2205.2RS 25 52 17.8 18 30 38 1 0.3 12.56 16 1440 0.21
NA2206.2RS 30 62 19.8 20 35 42 1 0.3 14.72 20.4 1120 0.32
NA2207.2RS 35 72 22.7 23 42 50 1.1 0.6 18.4 28.4 880 0.51
NA2208.2RS 40 80 22.7 23 48 57 1.1 0.6 22 32.4 680 0.63
NA2209.2RS 45 85 22.7 23 52 62 1.1 0.6 22.8 34.4 640 0.66
NA2210.2RS 50 90 22.7 23 58 68 1.1 0.6 22.4 34 520 0.69

                                                           About Us

HENGLI Machinery Company is a well-established Chinese bearing supplier. We design, manufacture and wholesale bearings. 

Our specialized manufacturer of Spherical Roller Bearing Cylindrical Roller Bearing, XIHU (WEST LAKE) DIS. Rolling Bearing Co., Ltd was
established in 1970 and is accredited by the Chinese Ministry of Machine Building. 

We invested in 2 additional specialized bearing factories, which allow us to provide our clients with top of the line products 
such as Needle Roller Bearings, Cam Followers Bearings,  Thrust Bearings, Spherical Plain Bearings, Rod Ends Bearings, Ball
Joint Bearings, Tapered Roller Bearings,  Wheel Hub Bearings 
and Non-Standard Bearings. 

FAQ
Q1 – What is our advantages? 

A – Manufacturer – Do it only with the Best; 

-Your Choice make different. 

Q2 – Our Products

A – Spherical Roller Bearing, Cylindrical Roller Bearing, Needle Roller Bearing, Cam Followers, Thrust Bearing

– Spherical Plain Bearing, Rod End, Ball Joint, Wheel Hub, Tapered Roller Bearing

Q3 – Process of our production

A – Heat Treatment – Grinding – Parts Inspection – Assembly – Final Inspection – Packing

Q4 – How to customize bearing(non-standard) from your company? 

A -We offer OEM, Customized(Non-standard) service and you need to provide drawing and detailed Technical Data. 

Q5 – What should I care before installation? 

A – Normally, the preservative with which new bearings are coated before leaving the factory does not need to be

Removed; It is only necessary to wipe off the outside cylin­drical surface and bore, if the grease is not compatible

With the preservative, it is necessary to wash and carefully dry the bearing. 

-Bearings should be installed in a dry, dust-free room away from metal working or other machines producing

Swarf and dust. 

Q6 – How to stock and maintenance my bearings right? 

A – Do not store bearings directly on concrete floors, where water can condense and collect on the bearing; 

-Store the bearings on a pallet or shelf, in an area where the bearings will not be subjected to high humidity

Or sudden and severe temperature changes that may result in condensation forming; 

-Always put oiled paper or, if not available, plastic sheets between rollers and cup races of tapered roller bearings. 

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: 19mm-90mm
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Radial Bearing
Samples:
US$ 1/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

cam roller

Are there innovations or advancements in cam roller technology that have emerged recently?

Yes, there have been several innovations and advancements in cam roller technology in recent years. These developments aim to improve performance, durability, efficiency, and versatility of cam rollers in various applications. Here are some notable innovations and advancements in cam roller technology:

  • Advanced Materials: Manufacturers are continually exploring new materials and coatings to enhance the performance and durability of cam rollers. Advanced materials such as ceramic or composite materials with high strength-to-weight ratios and excellent wear resistance are being used to improve the longevity and efficiency of cam rollers. Additionally, specialized surface coatings, such as diamond-like carbon (DLC) coatings or low-friction coatings, are being applied to reduce friction, minimize wear, and optimize performance.
  • Optimized Designs: Cam roller designs have evolved to optimize performance and functionality. Innovative design features, such as optimized cam profiles, improved roller geometries, and enhanced bearing arrangements, are being employed to reduce friction, increase load-carrying capacity, improve tracking accuracy, and minimize noise and vibration. These optimized designs help achieve smoother motion, higher efficiency, and improved overall performance of cam rollers.
  • Lubrication Technologies: Advancements in lubrication technologies are contributing to the efficiency and longevity of cam rollers. Specialized lubricants with enhanced properties, such as higher temperature resistance, extended lubrication intervals, and reduced friction coefficients, are being developed. Self-lubricating cam rollers incorporating solid lubricants or oil-impregnated polymers are also gaining popularity, reducing the need for frequent maintenance and lubrication while ensuring smooth operation.
  • Integrated Sensor Technology: Integration of sensors directly into cam rollers is an emerging trend in recent advancements. Position sensors, force sensors, or temperature sensors can be integrated within the cam roller assembly to provide real-time data on motion, load, or operating conditions. This information enables precise control, condition monitoring, and predictive maintenance of the cam roller system, improving overall performance and reliability.
  • Smart and Connected Features: With the rise of Industry 4.0 and the Internet of Things (IoT), cam rollers are being equipped with smart and connected features. Wireless connectivity, embedded microcontrollers, and communication protocols enable real-time monitoring, remote control, and data exchange with other components or systems. These smart and connected features enhance the functionality, diagnostics, and integration capabilities of cam rollers in automated and interconnected environments.
  • Simulation and Modeling: Advances in computer-aided design (CAD) and simulation tools have facilitated the optimization of cam roller systems. Virtual modeling and simulation techniques help engineers analyze and fine-tune the design parameters, kinematics, and performance characteristics of cam rollers before physical prototyping. This enables faster development cycles, improved performance predictions, and reduced time-to-market for innovative cam roller designs.

These recent innovations and advancements in cam roller technology are driving improvements in performance, efficiency, reliability, and functionality. They are expanding the capabilities of cam rollers and enabling their application in a wider range of industries and challenging environments.

cam roller

How do cam rollers contribute to precise and controlled motion in machinery?

Cam rollers play a significant role in ensuring precise and controlled motion in various machinery applications. Their design and functionality contribute to accurate tracking, smooth operation, and controlled movement. Here’s a detailed explanation of how cam rollers contribute to precise and controlled motion in machinery:

  • Cam Profile Following: Cam rollers are specifically designed to follow the profile of a cam or track. The outer ring of the cam roller is shaped to match the contour of the cam surface. As the cam rotates or moves, the cam roller maintains contact with the cam profile, ensuring precise tracking and controlled motion along the desired path. This cam profile following capability enables machinery to achieve accurate and repeatable motion.
  • Rolling Motion: Cam rollers utilize rolling motion to traverse the cam profile. The rolling motion reduces friction compared to sliding or rubbing contact, resulting in smoother operation and improved energy efficiency. The rolling action of cam rollers allows for controlled movement with minimal resistance, ensuring precise motion and minimizing wear and tear.
  • Load Distribution: Cam rollers are designed to distribute the applied load evenly among the rolling elements. This load distribution capability minimizes stress concentrations and prevents excessive wear on individual rollers. By distributing the load effectively, cam rollers contribute to maintaining precise and controlled motion without compromising performance or causing premature failure.
  • High Rigidity: Cam rollers are constructed to provide high rigidity, which is vital for precise and controlled motion. The materials and design of cam rollers ensure minimal deformation or flexing during operation, allowing for accurate positioning and controlled movement. The high rigidity of cam rollers enables machinery to maintain tight tolerances and achieve the desired motion without unwanted deviations.
  • Roller Retainers: Some cam roller designs incorporate roller retainers or cages that hold the rolling elements in place and maintain proper spacing. These retainers prevent roller skewing and ensure controlled movement by guiding the rollers along the cam profile. The use of roller retainers enhances precision and eliminates the risk of roller misalignment, contributing to precise and controlled motion in machinery.
  • Precision Bearings: Cam rollers are equipped with precision bearings that provide smooth rolling motion and reduce internal friction. These bearings are designed to handle both radial and axial loads, ensuring stable and controlled motion in various directions. The precision bearings in cam rollers contribute to the overall precision and controlled movement of the machinery.

By incorporating these design features and functionalities, cam rollers contribute to precise and controlled motion in machinery. They enable accurate tracking of cam profiles, utilize rolling motion with reduced friction, distribute loads evenly, provide high rigidity, use roller retainers for proper alignment, and utilize precision bearings for smooth operation. All these factors work together to ensure precise positioning, controlled movement, and reliable performance in a wide range of machinery applications.

In summary, cam rollers contribute to precise and controlled motion in machinery through their cam profile following capability, rolling motion, load distribution, high rigidity, roller retainers, and precision bearings. These features enable machinery to achieve accurate positioning, smooth operation, and controlled movement, resulting in improved performance and productivity.

cam roller

In what industries or scenarios are cam rollers commonly employed?

Cam rollers, also known as cam followers or track rollers, find extensive usage in various industries and scenarios due to their versatile capabilities. These specialized roller bearings are employed in applications that require motion transmission, guidance, support, load handling, and compensation for misalignment. Here’s a detailed explanation of the industries and scenarios where cam rollers are commonly employed:

  • Automotive Industry: Cam rollers play a vital role in the automotive industry. They are used in engines to control valve timing, ensuring precise opening and closing of valves. Cam rollers are also utilized in suspension systems, where they guide the movement of suspension arms and provide support.
  • Material Handling and Conveyor Systems: Cam rollers are extensively employed in material handling and conveyor systems. They guide the movement of belts, chains, or rollers, ensuring smooth and controlled transportation of goods. Cam rollers provide support and help maintain proper alignment, contributing to efficient material handling operations.
  • Printing and Packaging Machinery: In printing and packaging machinery, cam rollers are commonly utilized. They are used to control tension and guide the movement of printing substrates or packaging materials. Cam rollers ensure consistent and accurate positioning of materials, enabling high-quality printing and precise packaging.
  • Textile Industry: Cam rollers have significant applications in the textile industry. They are employed in textile machinery to control the feeding and positioning of fabrics. Cam rollers contribute to the precise movement and tension control of fabrics during various textile processes.
  • Construction and Heavy Machinery: Cam rollers are extensively used in construction machinery and heavy equipment. They provide support and handle heavy loads in applications such as excavators, cranes, and loaders. Cam rollers ensure smooth operation and reliable load-bearing capabilities in demanding construction environments.
  • Industrial Automation: Cam rollers find wide usage in industrial automation systems. They are employed in robotics, assembly lines, and automated machinery to transmit motion, guide components, and handle loads. Cam rollers contribute to the precise movement and positioning of components in automated processes.
  • Aerospace and Defense: Cam rollers have applications in the aerospace and defense industries. They are utilized in aircraft landing gear systems, missile guidance mechanisms, and other critical mechanical systems. Cam rollers provide reliable motion transmission, support, and load handling capabilities in aerospace and defense applications.

These are just a few examples of the industries and scenarios where cam rollers are commonly employed. Their versatility and reliability make them suitable for a wide range of applications that require precise motion control, load handling, and guidance. The specific design, size, and material of cam rollers are selected based on the requirements of each industry or scenario.

In summary, cam rollers find extensive usage in industries such as automotive, material handling, printing and packaging, textile, construction, industrial automation, aerospace, and defense. They are employed in scenarios that require motion transmission, guidance, support, load handling, and compensation for misalignment. Cam rollers contribute to the efficient and reliable operation of mechanical systems across diverse industries and applications.

China Best Sales Yoke Type Track Rollers Cam Follower Bearing NA22/6-2RS for Railway  China Best Sales Yoke Type Track Rollers Cam Follower Bearing NA22/6-2RS for Railway
editor by CX 2024-04-03

China Best Sales Cam Follower F-231019.01 Types of Bearings Track Roller Bearing

Product Description

Cam Follower F-231019.01 Types of Bearings Track Roller Bearing

NO 1. our adwantages

1. 14 years bearing products manufacturing and exporting experiences.
2. OEM order and non-standard bearing order can be accepted.
3. Many sizes of bearing are available. Large quantity bearing can be provided.
4. To respect customers, you can choose the loading port.
5. A certain number of free sample can be provide to support our customer’s after-sale services and warranty.

NO 2. OEM all brand bearing

 NO 3. Cam Follower bearing Specification: 

Seals Types OPEN
Vibration Level Z1V1,Z2V2,Z3V3
Clearance C2,C0,C3,C4,C5
Tolerance Codes ABEC-1,ABEC-3,ABEC-5
Materral GCr15-China/AISI52100-USA/Din100Cr6-Germany
MOQ 1Set at least
Delivery Time Stock or 5-15 days after contract
Payment Terms TT/PAPAL/WESTERN UNION
Package Tube package+outer carton+pallets;
Single box+outer carton+pallets;
Tube packge+middle box+outer carton+pallets;
According to your requirement

NO 3. Track Roller Bearing Models and Size:   
 

Model D d H
KR16-PP 16 6 28
KR16-SK-PP 16 6 28
KR19-PP 19 8 32
KR19-SK-PP 19 8 32
KR22-PP 22 10 36
KR26-PP 26 10 36
KR30-PP 30 12 40
KR32-PP 32 12 40
KR35-PP 35 16 52
KR40-PP 40 18 58
KR47-PP 47 20 66
KR52-PP 52 20 66
KR62-PP 62 24 80
KR72-PP 72 24 80
KR80-PP 80 30 100
KR90-PP 90 30 100
KR16 16 6 28
KR19 19 8 32
KR22 22 10 36
KR26 26 10 36
KR30 30 12 40
KR32 32 12 40
KR35 35 16 52
KR40 40 18 58
KRE16-PP 16 9 28
KRE19-PP 19 11 32
KRE22-PP 22 13 36
KRE26-PP 26 13 36
KRE30-PP 30 15 40
KRE32-PP 32 15 40
KRE35-PP 35 20 52
KRE40-PP 40 22 58
KRE47-PP 47 24 66
KRE52-PP 52 24 66
KRE62-PP 62 28 80
KRE72-PP 72 28 80
KRE80-PP 80 35 100
KRE90-PP 90 35 100
KRV16-PP 16 6 28
KRV19-PP 19 8 32
KRV22-PP 22 10 36
KRV26-PP 26 10 36
KRV30-PP 30 12 40
KRV32-PP 32 12 40
KRV35-PP 35 16 52
KRV40-PP 40 18 58
KRV47-PP 47 20 66
KRV52-PP 52 20 66
KRV62-PP 62 24 80
KRV72-PP 72 24 80
KRV80-PP 80 30 100
KRV90-PP 90 30 100
NUKR35 35 16 52
NUKR40 40 18 58
NUKR47 47 20 66
NUKR52 52 20 66
NUKR62 62 24 80
NUKR72 72 24 80
NUKR80 80 30 100
NUKR90 90 30 100
NUKRE35 35 20 52
NUKRE40 40 22 58
NUKRE47 47 24 66
NUKRE52 52 24 66
NUKRE62 62 28 80
NUKRE72 72 28 80
NUKRE80 80 35 100
NUKRE90 90 35 100
PWKR35-2RS-XL 35 16 52
PWKR40-2RS-XL 40 18 58
PWKR47-2RS-XL 47 20 66
PWKR52-2RS-XL 52 20 66
PWKR62-2RS-XL 62 24 80
PWKR72-2RS-XL 72 24 80
PWKR80-2RS-XL 80 30 100
PWKR90-2RS-XL 90 30 100
PWKR35-2RS-RR-XL 35 16 52
PWKR40-2RS-RR-XL 40 18 58
PWKR47-2RS-RR-XL 47 20 66
PWKR52-2RS-RR-XL 52 20 66
PWKR62-2RS-RR-XL 62 24 80
PWKR72-2RS-RR-XL 72 24 80
PWKR80-2RS-RR-XL 80 30 100
PWKR90-2RS-RR-XL 90 30 100
PWKRE35-2RS 35 20 52
PWKRE40-2RS 40 22 58
PWKRE47-2RS 47 24 66
PWKRE52-2RS 52 24 66
PWKRE62-2RS 62 28 80
PWKRE72-2RS 72 28 80
PWKRE80-2RS 80 35 100
PWKRE90-2RS 90 35 100

                 

Why Choose Us:
We are an industrial and trading company.We have our own brand: SFNB .If you interested in our product,I can take you to visit our factory.
Our factory have advanced testing equipment,before the every product leave the factory,we will be testing.We can send samples to you,you can test the quality,and if you accept the sample quality,we can promise: the follow-up orders’ quality will be the same as samples.
About ordinary standard type of bearing ,We have rich inventory,not have MOQ,if your need a product is Non-standard size,need customize,we will according the product size to determine the MOQ.
Our company can accept OEM,you can send sample to me,we can manufacturing products the same as sample.Meanwhile,we also can accept some CHINAMFG brands of OEM,
If the amount of money is less,you can pay it by Paypal .Of course you can payment by TT or Western Union etc. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: Small and Medium-Sized (60-115mm)
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Radial Bearing
Customization:
Available

|

cam roller

What are the signs that indicate a need for cam roller replacement or maintenance, and how can they be diagnosed?

Proper maintenance and timely replacement of cam rollers are essential for ensuring their optimal performance and longevity. Several signs indicate the need for cam roller replacement or maintenance, and diagnosing these signs can help identify potential issues. Here are some common signs and diagnostic methods:

  • Abnormal Noise: Unusual or excessive noise during the operation of cam rollers can indicate problems. Grinding, squeaking, or rattling sounds may suggest issues such as worn bearings, misalignment, or insufficient lubrication. Conduct a thorough inspection and listen for any abnormal noise while the cam rollers are in motion.
  • Irregular Motion: If the cam rollers exhibit irregular or jerky motion instead of smooth and consistent rolling, it may indicate problems. This can be caused by misalignment, damaged cam profiles, worn bearings, or debris accumulation. Observe the motion of the cam rollers carefully to detect any irregularities or inconsistencies.
  • Inconsistent Tracking: Cam rollers should provide accurate and consistent tracking of objects or components along the designated path. If there are deviations or errors in the tracking, it may indicate misalignment, worn cam profiles, damaged rollers, or track irregularities. Monitor the tracking performance of the cam rollers and check for any inconsistencies or deviations from the desired path.
  • Excessive Wear: Visual inspection of the cam rollers can reveal signs of excessive wear. Check for signs such as worn or flattened surfaces, pitting, cracks, or deformation. Excessive wear can occur due to high loads, misalignment, inadequate lubrication, or prolonged usage. Regularly inspect the cam rollers for any visible signs of wear or damage.
  • Uneven Load Distribution: Improper load distribution across the cam rollers can lead to premature wear or failure. Inspect the cam rollers and associated components for any signs of uneven loading, such as uneven wear patterns, excessive wear on specific rollers, or track distortions. Uneven load distribution may result from misalignment, damaged components, or improper installation.
  • Increased Friction: Excessive friction during the rolling motion of cam rollers can impair their performance and lead to accelerated wear. Monitor the rolling motion and check for signs of increased friction, such as resistance, overheating, or uneven movement. Excessive friction can be caused by misalignment, inadequate lubrication, debris accumulation, or worn components.
  • Loss of Efficiency: A decrease in the efficiency of the cam roller system can indicate underlying issues. If the system requires more power, shows reduced speed, or exhibits decreased accuracy compared to its normal operation, it may indicate problems with the cam rollers. Monitor the system’s performance and compare it with the expected efficiency to identify any loss in performance.

When diagnosing these signs, it is important to follow manufacturer guidelines and recommended maintenance procedures. Diagnostic methods may include visual inspection, listening for abnormal sounds, measuring performance parameters, checking alignment, conducting lubrication analysis, or consulting with qualified technicians or maintenance professionals.

Regular maintenance and inspection schedules should be established to monitor the condition of cam rollers. By identifying signs of wear, misalignment, or other issues early on, timely maintenance or replacement can be performed to prevent further damage, maintain optimal performance, and extend the lifespan of the cam roller system.

cam roller

What advantages do cam rollers offer compared to other tracking components?

Cam rollers offer several advantages compared to other tracking components, making them a preferred choice in many applications. Their unique design and features provide distinct benefits that contribute to improved performance, reliability, and efficiency. Here’s a detailed explanation of the advantages that cam rollers offer compared to other tracking components:

  • Precision Tracking: Cam rollers are specifically designed to follow the profile of a cam or track with high precision. The cam profile following capability ensures accurate tracking along the desired path, allowing for precise positioning and controlled motion. Other tracking components may not provide the same level of precision, leading to deviations or inaccuracies in the motion system.
  • Rolling Motion: Cam rollers utilize rolling motion, where the rolling elements rotate instead of sliding or rubbing against the track. This rolling action reduces friction, resulting in smoother operation, improved energy efficiency, and reduced wear on both the cam roller and the track. In contrast, components that rely on sliding or rubbing contact may experience higher friction, leading to increased wear and decreased efficiency.
  • Load Distribution: Cam rollers distribute the applied load evenly among the rolling elements. This load distribution capability minimizes stress concentrations and ensures that no single point bears an excessive load. As a result, cam rollers can handle higher loads while maintaining stability and longevity. Other tracking components may experience localized stress concentrations, leading to premature wear or failure under heavy loads.
  • High Rigidity: Cam rollers are designed to provide high rigidity, allowing for accurate positioning and controlled motion. The materials and construction of cam rollers ensure minimal flexing or deformation during operation, maintaining tight tolerances and preventing unwanted deviations. In comparison, some other tracking components may exhibit lower rigidity, leading to less precise motion and increased susceptibility to external forces.
  • Wide Range of Configurations: Cam rollers are available in various configurations, such as stud-type cam rollers and yoke-type cam rollers, to accommodate different attachment and mounting requirements. This versatility makes them suitable for a wide range of applications and machinery configurations. In contrast, some other tracking components may have limited options or may not offer the same level of adaptability to diverse mounting or attachment needs.
  • Cost-Effectiveness: Cam rollers are generally cost-effective solutions for motion tracking. They offer a good balance between performance and cost, making them a preferred choice in many applications. Their durability, reliability, and long service life contribute to overall cost savings by minimizing maintenance, replacement, and downtime expenses. Other tracking components with similar performance characteristics may be more expensive or may not provide the same level of reliability.

By offering precision tracking, rolling motion, load distribution, high rigidity, versatile configurations, and cost-effectiveness, cam rollers stand out as advantageous tracking components in comparison to other alternatives. These advantages make cam rollers suitable for a wide range of applications, including machinery, conveyors, material handling systems, and automation equipment.

In summary, cam rollers offer distinct advantages compared to other tracking components. Their precision tracking, rolling motion, load distribution, high rigidity, versatile configurations, and cost-effectiveness contribute to improved performance, reliability, and efficiency in motion systems.

cam roller

Can you describe the factors to consider when selecting cam rollers for specific applications?

When selecting cam rollers for specific applications, several factors need to be considered to ensure optimal performance, reliability, and longevity. The suitability of a cam roller for a particular application depends on various parameters and requirements. Here’s a detailed explanation of the factors to consider when selecting cam rollers:

  • Load Capacity: One of the primary considerations is the anticipated load capacity of the cam roller. The cam roller should have sufficient load-carrying capacity to support the expected radial and axial loads in the application. It is important to consider both static and dynamic loads, as well as any potential shock or impact loads that may occur.
  • Speed and Acceleration: The speed at which the cam roller will operate, as well as the acceleration and deceleration rates, should be taken into account. High-speed applications require cam rollers that can accommodate the associated centrifugal forces and provide smooth rolling motion without excessive heat generation. Additionally, the roller should be able to handle the acceleration and deceleration forces without compromising performance.
  • Precision Requirements: Depending on the application, precision requirements may vary. Some applications demand high positioning accuracy and minimal deviation, while others may have looser tolerances. It is important to select a cam roller that can meet the desired precision requirements, ensuring accurate tracking and motion control.
  • Operating Conditions: Consider the operating conditions in which the cam roller will be used. Factors such as temperature, humidity, dust, and corrosive environments can impact the performance and longevity of the cam roller. Choose a cam roller that is designed to withstand the specific operating conditions of the application, ensuring durability and reliability.
  • Lubrication and Maintenance: Proper lubrication is crucial for the smooth operation and longevity of cam rollers. Consider the lubrication requirements of the cam roller and whether it has provisions for effective lubrication. Additionally, assess the maintenance needs and accessibility of the cam roller for periodic inspection, lubrication replenishment, and potential replacement.
  • Mounting and Attachment: Evaluate the mounting and attachment options available for the cam roller. Different applications may require stud-type cam rollers or yoke-type cam rollers, depending on the attachment method and space constraints. Ensure that the chosen cam roller can be securely mounted and aligned with the moving parts of the system.
  • Cost and Availability: Finally, consider the cost and availability of the cam roller. Evaluate the overall cost-effectiveness of the selected cam roller, taking into account its performance, longevity, and maintenance requirements. Additionally, ensure that the chosen cam roller is readily available from reliable suppliers to avoid delays or compatibility issues.

By considering these factors, you can select the most suitable cam roller for a specific application, ensuring optimal performance, reliability, and longevity. It is advisable to consult with manufacturers or industry experts to obtain guidance and recommendations tailored to your specific requirements.

In summary, the factors to consider when selecting cam rollers for specific applications include load capacity, speed and acceleration requirements, precision needs, operating conditions, lubrication and maintenance considerations, mounting and attachment options, as well as cost and availability. Assessing these factors will help in choosing the appropriate cam roller that meets the unique demands of the application.

China Best Sales Cam Follower F-231019.01 Types of Bearings Track Roller Bearing  China Best Sales Cam Follower F-231019.01 Types of Bearings Track Roller Bearing
editor by CX 2024-03-06

China Best Sales CF 6 BR Yoke Type Cam Follower Bearing For Machine Tool Spindles

Product Description

CF 6 BR Yoke Type Cam Follower Bearing For Machine Tool Spindles

                                                             Application

                        Metals                                                      Mining, Mineral Processing and Cement   
   
                        Railways                                                  Industrial Applications.

                        Material Handling                                     Agriculture

                        Construction                                             Machine Tools
                       
                         Auto Parts                                                Power Generators 

Cam Followers Stud-Type Track Rollers are designed to run on all types of tracks and to be used in cam drives, conveyor systems, etc.

They are based on either needle or cylindrical roller bearings. Instead of an inner ring, they have a threaded CHINAMFG stud (pin)

CFVBR/CFVBUUR Stud Type Track Rollers Specification

Product Name CFVBR CFVBUUR  Stud Type Track Rollers 
Precision Rating P6, P0, P5, P4, P2
Material Bearing Steel (GCr15)
Clearance C0 C1 C2 C3 C4 C5
Vibration & Noisy Z1, Z2, Z3 V1, V2, V3
 Features With Axial Guidance, Axial Plain Washers on Both Sides,full complement needle roller set
CFVBR Features  Shiled Type
CFVBUUR Features Sealed Type
Application Machine Tools, Auto Parts, Power Generators,and other Industrial Applications
Certification ISO 9001: 2008
Packing 1. Neutral Packing Bearing 2. Industrial Packing 3. Commercial Packing Bearing 4. Customize
Delivery Time 30 – 45 Days After The Order is Confirmed
Shippment 1. By Sea 2. By Air 3. By Express

 

CF V B UU R
Standard Type Full Complement Type Hexagon Socket Sealed Type Crowned Outer Ring

CF..VBR / CF..VBUUR Specification

Model Dimensions (mm) Basic Load Rating 
(KN)
Limited Mass
Speed
Shield Type Sealed Type D d C r B B1 B2 G G1 A/F M1 C1 B3 C Co rpm kg
min max max
CF 6 VBR CF 6 VBUUR 16 6 11 0.3 12.2 28.2 16 M6X1 8 3   0.6   5.68 6.96 9600 0.019
CF 8 VBR CF 8 VBUUR 19 8 11 0.3 12.2 32.2 20 M8X1.25 10 4   0.6   6.64 9.12 7200 0.571
CF 10 VBR CF 10 VBUUR 22 10 12 0.3 13.2 36.2 23 M10X1.25 12 4   0.6   7.76 11.84 5600 0.046
CF10-1 VBR CF10-1VBUUR 26 10 12 0.3 13.2 36.2 23 M10X1.25 12 4   0.6   7.76 11.84 5600 0.061
CF 12 VBR CF 12 VBUUR 30 12 14 0.6 15.2 40.2 25 M12X1.5 13 6 6 0.6 6 10.96 16.08 4800 0.097
CF12-1 VBR CF12-1VBUUR 32 12 14 0.6 15.2 40.2 25 M12X1.5 13 6 6 0.6 6 10.96 16.08 4800 0.107
CF 16 VBR CF 16 VBUUR 35 16 18 0.6 19.6 52.1 32.5 M16X1.5 17 6 6 0.8 8 16.88 30.72 3600 0.173
CF 18 VBR CF 18 VBUUR 40 18 20 1 21.6 58.1 36.5 M18X1.5 19 8 6 0.8 8 20.64 41.92 2800 0.255
CF20-1 VBR CF20-1VBUUR 47 20 24 1 25.6 66.1 40.5 M20X1.5 21 8 8 0.8 9 27.04 52.64 2800 0.39
CF 20 VBR CF 20 VBUUR 52 20 24 1 25.6 66.1 40.5 M20X1.5 21 8 8 0.8 9 27.04 52.64 2800 0.465
CF 24 VBR CF 24 VBUUR 62 24 29 1 30.6 80.1 49.5 M24X1.5 25 12 8 0.8 11 38 75.12 2400 0.82
CF24-1 VBR CF24-1VBUUR 72 24 29 1 30.6 80.1 49.5 M24X1.5 25 12 8 0.8 11 38 75.12 2400 1.14
CF 30 VBR CF 30 VBUUR 80 30 35 1 37 100 63 M30X1.5 32 17 8 1 15 55.2 60.08 1600 1.87
CF30-1 VBR CF30-1VBUUR 85 30 35 1 37 100 63 M30X1.5 32 17 8 1 15 55.2 60.08 1600 2.03
CF30-2 VBR CF30-2VBUUR 90 30 35 1 37 100 63 M30X1.5 32 17 8 1 15 55.2 60.08 1600 2.22

                                                            About Us

HENGLI Machinery Company is a well-established Chinese bearing supplier. We design, manufacture and wholesale bearings. 
Our specialized manufacturer of Spherical Roller Bearing Cylindrical Roller Bearing, XIHU (WEST LAKE) DIS. Rolling Bearing Co., Ltd was
established in 1970 and is accredited by the Chinese Ministry of Machine Building. 

We invested in 2 additional specialized bearing factories, which allow us to provide our clients with top of the line products 
such as Needle Roller Bearings, Cam Follower Bearings, Thrust Bearings, Spherical Plain Bearings, Rod Ends Bearings,
Ball Joint Bearings,Tapered Roller Bearings, Wheel Hub Bearings and Non-Standard Bearings. 

FAQ
Q1 – What is our advantages? 

A – Manufacturer – Do it only with the Best; 

-Your Choice make different. 

Q2 – Our Products

A – Spherical Roller Bearing, Cylindrical Roller Bearing, Needle Roller Bearing, Cam Followers, Thrust Bearing

– Spherical Plain Bearing, Rod End, Ball Joint, Wheel Hub, Tapered Roller Bearing

Q3 – Process of our production

A – Heat Treatment – Grinding – Parts Inspection – Assembly – Final Inspection – Packing

Q4 – How to customize bearing(non-standard) from your company? 

A -We offer OEM, Customized(Non-standard) service and you need to provide drawing and detailed Technical Data. 

Q5 – What should I care before installation? 

A – Normally, the preservative with which new bearings are coated before leaving the factory does not need to be

Removed; It is only necessary to wipe off the outside cylin­drical surface and bore, if the grease is not compatible

With the preservative, it is necessary to wash and carefully dry the bearing. 

-Bearings should be installed in a dry, dust-free room away from metal working or other machines producing

Swarf and dust. 

Q6 – How to stock and maintenance my bearings right? 

A – Do not store bearings directly on concrete floors, where water can condense and collect on the bearing; 

-Store the bearings on a pallet or shelf, in an area where the bearings will not be subjected to high humidity

Or sudden and severe temperature changes that may result in condensation forming; 

-Always put oiled paper or, if not available, plastic sheets between rollers and cup races of tapered roller bearings. 

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rolling Body: Roller Bearings
The Number of Rows: Single
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Radial Bearing
Separated: Unseparated
Samples:
US$ 1/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

cam roller

What safety considerations should be taken into account when using cam rollers in industrial settings?

When using cam rollers in industrial settings, several safety considerations should be taken into account to ensure the well-being of personnel, prevent accidents, and maintain a safe working environment. Here are some important safety considerations when using cam rollers:

  • Proper Guarding: Cam rollers should be properly guarded to prevent accidental contact with moving parts. Depending on the specific application and the level of exposure, appropriate guarding measures such as barriers, enclosures, or safety covers should be in place to protect operators and other personnel from potential hazards associated with rotating cam rollers.
  • Lockout/Tagout Procedures: Before performing maintenance or repair tasks on cam rollers or associated equipment, appropriate lockout/tagout procedures should be followed. Lockout/tagout procedures help ensure that energy sources are isolated, machinery is de-energized, and appropriate warning devices are in place to prevent unintentional startup or release of stored energy, minimizing the risk of injury.
  • Training and Awareness: Adequate training should be provided to operators and maintenance personnel working with cam rollers. They should be trained on safe operating procedures, potential hazards, emergency protocols, and proper use of personal protective equipment (PPE). Regular refresher training sessions and ongoing awareness programs can help reinforce safe practices and promote a safety-conscious culture.
  • Risk Assessment: Conducting a thorough risk assessment specific to the application and environment is crucial. Identify potential hazards associated with cam rollers, such as pinch points, entanglement risks, or flying debris. Assess the severity of each hazard and implement appropriate control measures to mitigate the risks, such as installing physical barriers, implementing safety interlocks, or providing warning signage.
  • Maintenance and Inspections: Regular maintenance and inspections of cam rollers are essential for identifying and addressing any issues that may compromise safety. Inspect the rollers, bearings, tracks, and associated components for signs of wear, damage, or misalignment. Follow manufacturer recommendations for maintenance intervals, lubrication schedules, and component replacements to ensure the safe and reliable operation of cam rollers.
  • Proper Load Handling: Ensure that cam rollers are not subjected to loads or forces beyond their specified capacity. Overloading cam rollers can lead to premature wear, component failure, or dangerous conditions. Consider the weight, size, and distribution of the load being tracked and ensure that the cam rollers and associated components are designed to handle the applied loads safely.
  • Proper Installation and Alignment: Follow proper installation procedures and ensure accurate alignment of cam rollers. Improper installation or misalignment can result in unexpected movements, excessive friction, or component failures, posing safety risks. Adhere to manufacturer guidelines and recommended alignment procedures to ensure safe and reliable operation.
  • PPE Usage: Personal protective equipment (PPE) should be provided and used appropriately by personnel working with or in the vicinity of cam rollers. Depending on the specific hazards involved, PPE such as safety glasses, gloves, hearing protection, or safety shoes may be required to mitigate the risk of injuries due to flying debris, contact with moving parts, noise exposure, or other potential hazards.

It is important to consult relevant safety regulations, industry standards, and guidelines specific to the application and location to ensure full compliance with safety requirements when using cam rollers in industrial settings. Regular safety audits, hazard assessments, and open communication with personnel can help identify and address potential safety concerns, creating a safer working environment for everyone involved.

cam roller

How do cam rollers contribute to precise and controlled motion in machinery?

Cam rollers play a significant role in ensuring precise and controlled motion in various machinery applications. Their design and functionality contribute to accurate tracking, smooth operation, and controlled movement. Here’s a detailed explanation of how cam rollers contribute to precise and controlled motion in machinery:

  • Cam Profile Following: Cam rollers are specifically designed to follow the profile of a cam or track. The outer ring of the cam roller is shaped to match the contour of the cam surface. As the cam rotates or moves, the cam roller maintains contact with the cam profile, ensuring precise tracking and controlled motion along the desired path. This cam profile following capability enables machinery to achieve accurate and repeatable motion.
  • Rolling Motion: Cam rollers utilize rolling motion to traverse the cam profile. The rolling motion reduces friction compared to sliding or rubbing contact, resulting in smoother operation and improved energy efficiency. The rolling action of cam rollers allows for controlled movement with minimal resistance, ensuring precise motion and minimizing wear and tear.
  • Load Distribution: Cam rollers are designed to distribute the applied load evenly among the rolling elements. This load distribution capability minimizes stress concentrations and prevents excessive wear on individual rollers. By distributing the load effectively, cam rollers contribute to maintaining precise and controlled motion without compromising performance or causing premature failure.
  • High Rigidity: Cam rollers are constructed to provide high rigidity, which is vital for precise and controlled motion. The materials and design of cam rollers ensure minimal deformation or flexing during operation, allowing for accurate positioning and controlled movement. The high rigidity of cam rollers enables machinery to maintain tight tolerances and achieve the desired motion without unwanted deviations.
  • Roller Retainers: Some cam roller designs incorporate roller retainers or cages that hold the rolling elements in place and maintain proper spacing. These retainers prevent roller skewing and ensure controlled movement by guiding the rollers along the cam profile. The use of roller retainers enhances precision and eliminates the risk of roller misalignment, contributing to precise and controlled motion in machinery.
  • Precision Bearings: Cam rollers are equipped with precision bearings that provide smooth rolling motion and reduce internal friction. These bearings are designed to handle both radial and axial loads, ensuring stable and controlled motion in various directions. The precision bearings in cam rollers contribute to the overall precision and controlled movement of the machinery.

By incorporating these design features and functionalities, cam rollers contribute to precise and controlled motion in machinery. They enable accurate tracking of cam profiles, utilize rolling motion with reduced friction, distribute loads evenly, provide high rigidity, use roller retainers for proper alignment, and utilize precision bearings for smooth operation. All these factors work together to ensure precise positioning, controlled movement, and reliable performance in a wide range of machinery applications.

In summary, cam rollers contribute to precise and controlled motion in machinery through their cam profile following capability, rolling motion, load distribution, high rigidity, roller retainers, and precision bearings. These features enable machinery to achieve accurate positioning, smooth operation, and controlled movement, resulting in improved performance and productivity.

cam roller

Can you explain the primary functions and roles of cam rollers in various applications?

Cam rollers, also known as cam followers or track rollers, serve a variety of functions and play crucial roles in various applications across different industries. These specialized roller bearings are designed to follow the surface profile of a cam or track, enabling them to transmit motion, provide guidance, support, and handle loads. Here’s a detailed explanation of the primary functions and roles of cam rollers in various applications:

  • Motion Transmission: One of the primary functions of cam rollers is to transmit motion from a rotating cam to a reciprocating or oscillating component. They are commonly used in applications such as engines, where they transfer the motion of the camshaft to the valves, controlling the opening and closing of the valves at the appropriate timing. Cam rollers ensure precise and reliable motion transmission in these systems.
  • Guidance and Support: Cam rollers are frequently utilized to provide guidance and support to moving components in mechanical systems. They help maintain proper alignment and prevent lateral movement or deflection. In conveyor systems, for example, cam rollers guide the movement of belts or chains, ensuring smooth and controlled operation.
  • Load Bearing: Cam rollers are designed to bear high loads and provide support in heavy-duty applications. They are commonly found in machinery and equipment where there is a need for reliable load-bearing capabilities. Construction machinery, material handling equipment, and industrial automation systems often rely on cam rollers to handle substantial loads and ensure stable and efficient operation.
  • Compensating for Misalignment: In some applications, cam rollers are employed to compensate for misalignment between components. The rolling motion of the cam follower allows it to adjust and accommodate slight deviations in the cam or track profile. This feature ensures smooth operation even when there are minor misalignments, improving the overall performance and reliability of the system.
  • Application-Specific Functions: Cam rollers can also serve application-specific functions based on the requirements of a particular system. For example, in printing and packaging machinery, cam rollers may be used to control the tension and guide the movement of printing substrates or packaging materials. In textile machinery, cam rollers may play a role in controlling the feeding and positioning of fabrics. The versatility of cam rollers allows them to be tailored to the specific needs of diverse applications.

The choice of cam roller design, size, and material depends on the specific demands of the application. Factors such as load capacity, speed, operating conditions, precision requirements, and environmental factors are taken into consideration when selecting the appropriate cam roller. Regular maintenance, including lubrication and inspection, is vital to ensure optimal performance and longevity of cam rollers in various applications.

In summary, cam rollers fulfill essential functions and play significant roles in a wide range of applications. They enable motion transmission, provide guidance and support, bear heavy loads, compensate for misalignment, and serve application-specific functions. Cam rollers contribute to the efficiency, reliability, and smooth operation of mechanical systems across diverse industries.

China Best Sales CF 6 BR Yoke Type Cam Follower Bearing For Machine Tool Spindles  China Best Sales CF 6 BR Yoke Type Cam Follower Bearing For Machine Tool Spindles
editor by CX 2024-01-30

China Best Sales CFH-2 1/4-B Stud Type Track Rollers Cam Follower Bearing For Machine Tools

Product Description

CFH-2 1/4-B Stud Type Track Rollers Cam Follower Bearing For Machine Tools

                                                             Application

                        Metals                                                      Mining, Mineral Processing and Cement   
   
                        Railways                                                  Industrial Applications.

                        Material Handling                                     Agriculture

                        Construction                                             Machine Tools
                       
                         Auto Parts                                                Power Generators 

Cam Followers Stud-Type Track Rollers are designed to run on all types of tracks and to be used in cam drives, conveyor systems, etc.

They are based on either needle or cylindrical roller bearings. Instead of an inner ring, they have a threaded CHINAMFG stud (pin)

CFH-…B/CFH-…SB Stud Type Track Rollers Specification

Product Name Stud Type Track Rollers 
Precision Rating P6, P0, P5, P4, P2
Material Bearing Steel (GCr15)
Clearance C1 C2 C3
Vibration & Noisy Z1, Z2, Z3 V1, V2, V3
Features Inch Size, with Hexagon Hole
Application Machine Tools, Auto Parts, Power Generators,and other Industrial Applications
Certification ISO 9001: 2008
Packing 1. Neutral Packing Bearing 2. Industrial Packing 3. Commercial Packing Bearing 4. Customize
Delivery Time 30 – 45 Days After The Order is Confirmed
Shippment 1. By Sea 2. By Air 3. By Express

 

Bearing No. Dimensions (mm) Basic Load Rating(KN) Limited
Speed
Mass
Hexagon Hole Sealed Type D d C B B1 B2 G G1 C Co rpm kg
CFH-1/2-B CFH-1/2-SB 12.70 6.35 9.53 26.19 15.88 1/4-28 6.35 3.84 4.40 12000 0.012
CFH9/16B CFH9/16-SB 14.29 6.35 9.53 26.19 15.88 1/4-28 6.35 4.30 5.30 10000 0.015
CFH-5/8-B CFH-5/8-SB 15.88 7.94 11.11 30.96 19.05 5/16-24 7.94 5.20 7.00 8800 0.571
CFH11/16-B CFH-11/16-SB 17.46 7.94 11.11 30.96 19.05 5/16-24 7.94 6.50 8.50 8000 0.571
CFH-3/4-B CFH-3/4-SB 19.05 11.11 12.70 35.72 22.23 6.35 7/16-20 9.53 7.12 10.00 6400 0.039
CFH-7/8-B CFH-7/8-SB 22.23 11.11 12.70 35.72 22.23 6.35 7/16-20 9.53 7.12 10.00 6400 0.049
CFH-1-B CFH-1-SB 25.40 15.88 15.88 42.07 25.40 6.35 5/8-18 12.70 10.64 18.50 5200 0.093
CFH-1 1/8-B CFH-1 1/8-SB 28.58 15.88 15.88 42.07 25.40 6.35 5/8-18 12.70 10.64 18.50 5200 0.109
CFH-1 1/4-B CFH-1 1/4-SB 31.75 19.05 19.05 51.59 31.75 7.94 3/4-16 15.88 19.20 25.90 4400 0.176
CFH-1 3/8-B CFH-1 3/8-SB 34.93 19.05 19.05 51.59 31.75 7.94 3/4-16 15.88 19.20 25.90 4400 0.200
CFH-1 1/2-B CFH-11/2SB 38.10 22.23 22.23 61.12 38.10 9.53 7/8-14 19.05 23.00 32.70 3600 0.296
CFH-1 5/8-B CFH-1 5/8-SB 41.28 22.23 22.23 61.12 38.10 9.53 7/8-14 19.05 23.00 32.70 3600 0.329
CFH-1 3/4-B CFH-1 3/4-SB 44.45 25.40 25.40 70.64 44.45 11.11 1-14 22.23 28.70 45.40 3200 0.463
CFH-1 7/8-B CFH-1 7/8-SB 47.63 25.40 25.40 70.64 44.45 11.11 1-14 22.23 28.70 45.40 3200 0.508
CFH-2-B CFH-2-SB 50.80 28.58 31.75 83.34 50.80 12.70 1 1/8-12 25.40 37.30 65.80 2800 0.722
CFH-2 1/4-B CFH-2 1/4-SB 57.15 28.58 31.75 83.34 50.80 12.70 1 1/8-12 25.40 37.30 65.80 2800 0.858
CFH-2 1/2-B CFH-2 1/2-SB 63.50 31.75 38.10 96.04 57.15 14.29 1 1/4-12 28.58 54.00 102.30   1.260
CFH-2 3/4-B CFH-2 3/4-SB 69.85 31.75 38.10 96.04 57.15 14.29 1 1/4-12 28.58 54.00 102.30   1.460
CFH-3-B CFH-3-SB 76.20 38.10 44.45 108.70 63.50 15.88 1 1/2-12 31.75 72.30 155.00   2.031
CFH-3 1/4-B CFH-3 1/4-SB 82.55 38.10 44.45 108.70 63.50 15.88 1 1/2-12 31.75 72.30 155.00   2.291
CFH-3 1/2-B CFH-3 1/2-SB 88.90 44.45 50.80 121.40 69.85 17.46 1 3/4-12 34.93 104.80 196.70   3.130
CFH-4-B CFH-4-SB 101.60 50.80 57.15 146.80 88.90 19.05 2-12 38.10 138.00 278.00   4.750
  CFH-5-SB 127.00 63.50 69.85 200.00 128.60 22.23 2 1/2-12 65.07 214.00 422.00   9.540
  CFH-6-SB 152.40 76.20 82.55 236.50 152.40 25.40 3-12 76.20 276.00 500.00   16.200
  CFH-7-SB 177.80 88.90 95.25 292.00 195.25 31.75 3 1/2-12 104.80 347.00 665.00   24.600

                                                         
                                                               About Us

HENGLI Machinery Company is a well-established Chinese bearing supplier. We design, manufacture and wholesale bearings. 
Our specialized manufacturer of Spherical Roller Bearing Cylindrical Roller Bearing, XIHU (WEST LAKE) DIS. Rolling Bearing Co., Ltd was
established in 1970 and is accredited by the Chinese Ministry of Machine Building. 

We invested in 2 additional specialized bearing factories, which allow us to provide our clients with top of the line products
 such as Needle Roller Bearings, Cam Follower Bearings, Thrust Bearings,Spherical Plain Bearings, Rod Ends Bearings, Ball
Joint Bearings, Tapered Roller Bearings, Wheel Hub Bearings 
and Non-Standard Bearings.

FAQ
Q1 – What is our advantages? 

A – Manufacturer – Do it only with the Best; 

-Your Choice make different. 

Q2 – Our Products

A – Spherical Roller Bearing, Cylindrical Roller Bearing, Needle Roller Bearing, Cam Followers, Thrust Bearing

– Spherical Plain Bearing, Rod End, Ball Joint, Wheel Hub, Tapered Roller Bearing

Q3 – Process of our production

A – Heat Treatment – Grinding – Parts Inspection – Assembly – Final Inspection – Packing

Q4 – How to customize bearing(non-standard) from your company? 

A -We offer OEM, Customized(Non-standard) service and you need to provide drawing and detailed Technical Data. 

Q5 – What should I care before installation? 

A – Normally, the preservative with which new bearings are coated before leaving the factory does not need to be

Removed; It is only necessary to wipe off the outside cylin­drical surface and bore, if the grease is not compatible

With the preservative, it is necessary to wash and carefully dry the bearing. 

-Bearings should be installed in a dry, dust-free room away from metal working or other machines producing

Swarf and dust. 

Q6 – How to stock and maintenance my bearings right? 

A – Do not store bearings directly on concrete floors, where water can condense and collect on the bearing; 

-Store the bearings on a pallet or shelf, in an area where the bearings will not be subjected to high humidity

Or sudden and severe temperature changes that may result in condensation forming; 

-Always put oiled paper or, if not available, plastic sheets between rollers and cup races of tapered roller bearings. 

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Rolling Body: Roller Bearings
The Number of Rows: Single
Outer Dimension: 26.19mm-292mm
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Radial Bearing
Samples:
US$ 1/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

cam roller

How do electronic or computer-controlled components integrate with cam rollers in modern applications?

In modern applications, electronic or computer-controlled components play a significant role in integrating with cam rollers to enhance functionality, precision, and automation. The integration of electronic or computer-controlled components with cam rollers enables advanced control, monitoring, and synchronization of the motion system. Here’s a detailed explanation of how electronic or computer-controlled components integrate with cam rollers in modern applications:

  • Sensor Integration: Electronic sensors can be integrated with cam rollers to provide real-time feedback on various parameters such as position, speed, acceleration, and load. Position sensors, such as encoders or linear displacement sensors, can be used to precisely determine the position of the cam rollers and the objects or components they are tracking. This information can then be used for closed-loop control, ensuring accurate tracking and motion control.
  • Control Systems: Electronic or computer-controlled systems can be employed to manage the operation of cam rollers. These control systems can receive input from sensors and use algorithms to calculate the desired motion profiles. They can then generate signals to drive motors or actuators that control the movement of the cam rollers. By integrating control systems, precise motion control, synchronization, and programmability can be achieved, enabling complex motion sequences and adaptive tracking capabilities.
  • Communication Protocols: Electronic or computer-controlled components can utilize various communication protocols to exchange data and commands with other system components. For example, in industrial automation applications, cam rollers may be integrated into a larger control network using protocols such as Modbus, CAN bus, or Ethernet. This integration enables seamless communication, coordination, and synchronization with other components or systems, enhancing overall system performance and functionality.
  • Human-Machine Interface (HMI): In applications where human interaction is involved, electronic or computer-controlled components can provide a user interface for monitoring and controlling the cam rollers. This interface can include touch screens, graphical displays, or control panels that allow operators to set parameters, monitor performance, and adjust settings as needed. The integration of HMIs with cam rollers simplifies operation, facilitates troubleshooting, and enhances user experience.
  • Data Logging and Analysis: Electronic or computer-controlled components can capture and log data related to the operation of cam rollers and the overall tracking system. This data can include parameters such as position, speed, acceleration, forces, and system status. By analyzing this data, performance trends, anomalies, and optimization opportunities can be identified. The integration of data logging and analysis capabilities enables proactive maintenance, performance optimization, and continuous improvement of the cam roller system.
  • Integration with Automation Systems: In automated systems, electronic or computer-controlled components can integrate cam rollers into the overall automation framework. This integration allows for seamless coordination with other automated processes, robotics, or material handling systems. By integrating cam rollers with automation systems, precise tracking, synchronized motion, and efficient production workflows can be achieved.

The integration of electronic or computer-controlled components with cam rollers brings advanced capabilities to modern applications. It enables precise control, adaptive tracking, real-time monitoring, data-driven optimization, and seamless integration with automation systems. This integration enhances the functionality, flexibility, and efficiency of cam roller systems, opening up possibilities for a wide range of applications in industries such as manufacturing, robotics, packaging, material handling, and more.

cam roller

How do cam rollers contribute to precise and controlled motion in machinery?

Cam rollers play a significant role in ensuring precise and controlled motion in various machinery applications. Their design and functionality contribute to accurate tracking, smooth operation, and controlled movement. Here’s a detailed explanation of how cam rollers contribute to precise and controlled motion in machinery:

  • Cam Profile Following: Cam rollers are specifically designed to follow the profile of a cam or track. The outer ring of the cam roller is shaped to match the contour of the cam surface. As the cam rotates or moves, the cam roller maintains contact with the cam profile, ensuring precise tracking and controlled motion along the desired path. This cam profile following capability enables machinery to achieve accurate and repeatable motion.
  • Rolling Motion: Cam rollers utilize rolling motion to traverse the cam profile. The rolling motion reduces friction compared to sliding or rubbing contact, resulting in smoother operation and improved energy efficiency. The rolling action of cam rollers allows for controlled movement with minimal resistance, ensuring precise motion and minimizing wear and tear.
  • Load Distribution: Cam rollers are designed to distribute the applied load evenly among the rolling elements. This load distribution capability minimizes stress concentrations and prevents excessive wear on individual rollers. By distributing the load effectively, cam rollers contribute to maintaining precise and controlled motion without compromising performance or causing premature failure.
  • High Rigidity: Cam rollers are constructed to provide high rigidity, which is vital for precise and controlled motion. The materials and design of cam rollers ensure minimal deformation or flexing during operation, allowing for accurate positioning and controlled movement. The high rigidity of cam rollers enables machinery to maintain tight tolerances and achieve the desired motion without unwanted deviations.
  • Roller Retainers: Some cam roller designs incorporate roller retainers or cages that hold the rolling elements in place and maintain proper spacing. These retainers prevent roller skewing and ensure controlled movement by guiding the rollers along the cam profile. The use of roller retainers enhances precision and eliminates the risk of roller misalignment, contributing to precise and controlled motion in machinery.
  • Precision Bearings: Cam rollers are equipped with precision bearings that provide smooth rolling motion and reduce internal friction. These bearings are designed to handle both radial and axial loads, ensuring stable and controlled motion in various directions. The precision bearings in cam rollers contribute to the overall precision and controlled movement of the machinery.

By incorporating these design features and functionalities, cam rollers contribute to precise and controlled motion in machinery. They enable accurate tracking of cam profiles, utilize rolling motion with reduced friction, distribute loads evenly, provide high rigidity, use roller retainers for proper alignment, and utilize precision bearings for smooth operation. All these factors work together to ensure precise positioning, controlled movement, and reliable performance in a wide range of machinery applications.

In summary, cam rollers contribute to precise and controlled motion in machinery through their cam profile following capability, rolling motion, load distribution, high rigidity, roller retainers, and precision bearings. These features enable machinery to achieve accurate positioning, smooth operation, and controlled movement, resulting in improved performance and productivity.

cam roller

Can you explain the primary functions and roles of cam rollers in various applications?

Cam rollers, also known as cam followers or track rollers, serve a variety of functions and play crucial roles in various applications across different industries. These specialized roller bearings are designed to follow the surface profile of a cam or track, enabling them to transmit motion, provide guidance, support, and handle loads. Here’s a detailed explanation of the primary functions and roles of cam rollers in various applications:

  • Motion Transmission: One of the primary functions of cam rollers is to transmit motion from a rotating cam to a reciprocating or oscillating component. They are commonly used in applications such as engines, where they transfer the motion of the camshaft to the valves, controlling the opening and closing of the valves at the appropriate timing. Cam rollers ensure precise and reliable motion transmission in these systems.
  • Guidance and Support: Cam rollers are frequently utilized to provide guidance and support to moving components in mechanical systems. They help maintain proper alignment and prevent lateral movement or deflection. In conveyor systems, for example, cam rollers guide the movement of belts or chains, ensuring smooth and controlled operation.
  • Load Bearing: Cam rollers are designed to bear high loads and provide support in heavy-duty applications. They are commonly found in machinery and equipment where there is a need for reliable load-bearing capabilities. Construction machinery, material handling equipment, and industrial automation systems often rely on cam rollers to handle substantial loads and ensure stable and efficient operation.
  • Compensating for Misalignment: In some applications, cam rollers are employed to compensate for misalignment between components. The rolling motion of the cam follower allows it to adjust and accommodate slight deviations in the cam or track profile. This feature ensures smooth operation even when there are minor misalignments, improving the overall performance and reliability of the system.
  • Application-Specific Functions: Cam rollers can also serve application-specific functions based on the requirements of a particular system. For example, in printing and packaging machinery, cam rollers may be used to control the tension and guide the movement of printing substrates or packaging materials. In textile machinery, cam rollers may play a role in controlling the feeding and positioning of fabrics. The versatility of cam rollers allows them to be tailored to the specific needs of diverse applications.

The choice of cam roller design, size, and material depends on the specific demands of the application. Factors such as load capacity, speed, operating conditions, precision requirements, and environmental factors are taken into consideration when selecting the appropriate cam roller. Regular maintenance, including lubrication and inspection, is vital to ensure optimal performance and longevity of cam rollers in various applications.

In summary, cam rollers fulfill essential functions and play significant roles in a wide range of applications. They enable motion transmission, provide guidance and support, bear heavy loads, compensate for misalignment, and serve application-specific functions. Cam rollers contribute to the efficiency, reliability, and smooth operation of mechanical systems across diverse industries.

China Best Sales CFH-2 1/4-B Stud Type Track Rollers Cam Follower Bearing For Machine Tools  China Best Sales CFH-2 1/4-B Stud Type Track Rollers Cam Follower Bearing For Machine Tools
editor by CX 2024-01-24

China Best Sales W 605-2z 625zz 635zz Single Row Radial Small Ball Bearing bearing driver

Product Description

Metric series inner diameter 5 ~ 9mm    Miniature Bearing         
Product Description
Among the miniature bearings with ultra-small diameter, the types of miniature deep groove ball bearings include the metric 68 series, 69 series, 60 series, etc., and the British R series has 6 types. On this basis, they can also be divided into the bearing series with ZZ steel dust cover, the miniature bearing series with RS rubber seal ring, the bearing seal ring series, and the flange retaining ring series, etc.

Miniature bearings refer to metric series with outer diameter less than 9mm; English series, all kinds of bearings with outer diameter less than 9.525mm! The main materials include carbon steel, bearing steel, stainless steel, plastic, ceramic, etc., of which the minimum inner diameter can be 0.6 mm, and the general inner diameter is 1 mm.
Application
Miniature bearings are applicable to various industrial equipment, small rotary motors and other fields with high speed and low noise, such as: office equipment, micro-motor, instrument, laser carving, small clock, soft drive, pressure rotor, dental drill, hard disk motor, stepping motor, magnetic drum of video recorder, toy model, computer cooling fan, cash counter, fax machine and other related fields.
Specification
Product Show
Work shop
FAQ
Q1: Are you a factory or trading company?
A1: We are not only a factory, we are also the trading company ,we can guarantee our price is first-hand, very cheap and competitive.

Q2: How does your factory do regarding quality control?
A2: All the products will be 100% checked before the shipment,also will take video or pictures send to you.

Q3: When can I get the price?
A3: We will arrange the sale manager 1 to 1 to quote you within 1 hour after we get your inquiry.

Q4: How could I get a sample?
A4: If you can not buy our product in your local area, we will ship a sample to you.You will be charged a sample price plus all related shipping costs.Express delivery charge depends on the quantity of the samples.also ,we are the gold supplier of Alibaba, you can get the most preferential delivery costs.

Q5: What are the way of the transportation?
A5: Depending upon the weight of goods ,we can ship by express ,air and shipping ,including DHL ,UPS ,TNT and Fedex.

 

Contact Angle: 0
Aligning: Non-Aligning Bearing
Separated: Unseparated
Rows Number: Single
Load Direction: Radial Bearing
Material: Chrome Steel, Carbon Steel, Stainless Steel
Samples:
US$ 0.15/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

bearing

Choosing the Right Ball Bearing for Your Application

When choosing a Ball Bearing, there are several things to consider. These factors include: the size, lubricant type, presence of corrosive agents, stray electrical currents, and more. It can be challenging to choose the right type, size, and type of ball bearing for your application. You should also carefully calculate the loads to determine the right size. Here are some tips for choosing the right Ball Bearing for your application.

Single-row

The single-row ball bearing is one of the most popular types of bearings. The inner and outer ring are designed with raceway grooves that are shaped slightly larger than the balls. This type of bearing has a low torque and can handle high-speed applications with minimal power loss. The radial dimensions of single-row ball bearings also vary, so it is possible to find one that fits your specific application. Besides the above-mentioned advantages, single-row ball bearings are also available with varying grease levels and are widely applicable to applications where the space is limited.
Single-row ball bearings are also called angular-contact ball bearings. Because of their single-row design, they are not separable and can accommodate a high-speed, heavy-duty application. Single-row angular-contact ball bearings can only handle axial load in one direction, and they must be installed in pairs for pure radial loads. Single-row ball bearings are a popular type of rolling bearings and can be used for a wide range of applications.

Self-aligning

The self-aligning ball bearing was invented by Sven Wingquist, a plant engineer for a textile company in Sweden. While he was responsible for making production as efficient as possible, he soon realized that the machinery he had in place wasn’t working as efficiently as it could. Although ball bearings are great for reducing friction, they were not flexible enough to compensate for misalignments in the machine.
Self-aligning ball bearings have two rows of balls and a common sphered raceway. The inner ring is curved and combines the two rows of balls into one cage. These bearings can tolerate shaft misalignment and compensate for static angular defects. They can be used in simple woodworking machinery, ventilators, and conveying equipment. They are often the preferred choice for applications where shaft alignment is an issue.

Ceramic

A Ceramic ball bearing is a type of high-performance bearing that is available in both full-ceramic and hybrid forms. The main differences between ceramic and steel ball bearings are their construction, lubrication, and mobility. High-quality ceramic ball bearings are durable, and they are ideal for corrosive and high-temperature applications. The material used to create these bearings helps prevent electrolytic corrosion. They are also ideal for reducing the friction and lubrication requirements.
Ceramic balls are harder and less brittle than steel balls, which gives them a higher degree of rigidity. Ceramics also have a higher hardness, with a hardness of Rc75-80 compared to Rc58-64 for steel balls. Their high compressive strength is approximately 5 to 7 times greater than steel. In addition, they have a very low coefficient of friction, which allows them to spin at higher speeds and with less friction. This increases their lifespan and durability, and decreases the energy needed to turn cranks.

Steel

Unlike traditional bearings, steel balls have a relatively uniform hardness. Carbon steel, for instance, is 2.1% carbon by weight. According to the American Iron and Steel Institute, copper content must be no more than 0.40% and manganese content should not be more than 1.65 g/cm3. After carbonizing, steel balls undergo a process called sizing, which improves their roundness geometry and hardness.
The main differences between steel ball bearings and ceramic ball bearings can be traced to their different materials. Ceramic balls are made from zirconium dioxide or silicon nitride. Silicon nitride is harder than steel and resists shocks. The result is increased speed and longer service life. Polyoxymethylene acetal (PMMA) bearing balls are known for their stiffness, strength, and tolerance, but are not as common as steel ball bearings.

Plastic

The most popular types of plastic ball bearings are made of polypropylene or PTFE. These bearings are used in applications requiring higher chemical resistance. Polypropylene is a structural polymer that offers excellent physical and chemical properties, including excellent resistance to organic solvents and degreasing agents. Its lightweight, low moisture absorption rate, and good heat resistance make it an excellent choice for high-temperature applications. However, plastic bearings are not without their drawbacks, especially when operating at very high temperatures or under heavy loads.
Compared to metal bearings, plastic ball-bearings do not require lubrication. They also are highly corrosion-resistant, making them an excellent choice for wash-down applications. They are also post-, autoclave-, and gamma sterilizable. Many conventional steel ball-bearings cannot handle the high temperatures of food processing or swimming pools. In addition to high temperature applications, plastic ball bearings are resistant to chemicals, including chlorine.
bearing

Glass

Plastic sliding bearings are molded bearings made of engineering plastic. With self-lubricating modification technology, these bearings can be produced by injection molding of plastic beads. They are widely used in various industries such as office equipment, fitness and automotive equipment. In addition to plastic bearings, glass balls are used in a variety of other applications, including medical equipment. Glass ball bearings have excellent corrosion resistance, excellent mechanical properties, and are electrically insulators.
Plastic ball bearings are made of all-plastic races and cages. These bearings are suitable for applications that are exposed to acids and alkalis. Because they are cheaper than glass balls, plastic ball bearings are popular in chemical-exposed environments. Stainless steel balls are also resistant to heat and corrosion. But the main disadvantage of plastic ball bearings is that they are not as strong as glass balls. So, if weight and noise is your main concern, consider using plastic balls instead.

Miniature

The global miniature ball bearing market is expected to reach US$ 2.39 Billion by 2027, at a CAGR of 7.2%. Growth in the region is attributed to technological advancement and government initiatives. Countries such as India and China are attracting FDIs and emphasizing the establishment of a global manufacturing hub. This is boosting the market for miniature ball bearings. The miniscule ball bearings are manufactured in small quantities and are very small.
Some manufacturers produce miniature ball bearings in different materials and designs. Chrome steel is the most popular material for miniature ball bearings because of its high load capacity, low noise properties, and lower cost. But the cost of stainless steel miniature bearings is low, since the amount of steel used is minimal. Stainless steel miniature bearings are the smallest in size. Therefore, you can choose stainless steel mini ball bearings for high-speed applications.

Angular-contact

Angular-contact ball bearings have three components: a cage, inner ring, and balls. Angular-contact ball bearings can support high axial and radial loads. Various design and manufacturing attributes make angular-contact ball bearings suitable for a variety of applications. Some features of this bearing type include a special lubricant, different cage materials, and different coatings.
The size of an angular-contact ball bearing is determined by the design units: outer ring width, axial load, and radial load. Depending on the type of application, an angular-contact ball bearing may be manufactured in double-row, triple-row, or quadruple-row configurations. Angular contact ball bearings can be classified according to their design units, which range from metric to imperial. A higher ABEC number means tighter tolerances. To determine the tolerance equivalent of a particular bearing, consult a standard Angular-contact ball bearing table.
Angular-contact ball bearings feature high and low-shoulder configurations. They have two-dimensional races that accommodate axial and radial loads. They are available in self-retaining units with solid inner and outer rings, and ball and cage assemblies. Cages made of cast and wrought brass are the most popular, but lightweight phenolic cages are also available. The latter is a better choice because it doesn’t absorb oil and has lower rolling friction.
bearing

Materials

When it comes to the construction of a ball bearing, high-quality raw materials are a crucial component. These materials not only affect the overall quality of a ball bearing, but also influence the cost. That’s why you should pay close attention to raw material quality. In addition to that, raw materials should be tested several times before the manufacturing process to ensure quality. Read on for some information about the different types of materials used to make ball bearings.
Steel is the most common material for ball bearings. Most ball bearings contain stainless steel balls, which are remarkably corrosion-resistant. They are also resistant to saltwater and alkalis. However, stainless steel balls are heavier than plastic ones, and they are also magnetic, which may be a drawback in some applications. If you’re looking for a metal-free option, glass balls are the way to go. They’re sturdy, lightweight, and resistant to a wide range of chemicals.

China Best Sales W 605-2z 625zz 635zz Single Row Radial Small Ball Bearing   bearing driverChina Best Sales W 605-2z 625zz 635zz Single Row Radial Small Ball Bearing   bearing driver
editor by CX 2023-05-30

China Best Sales High Quality Powder Metallurgy Copper Base Bearing /Bushing Fan Motor bearing example

Product Description

Iron alloy base sintered oil sleeve bushing by powder metallurgy

Product Name SINTERED PARTS
Material Iron powder, alloy powder,precious metal powder
Technology Sintering – Powder Metallurgy
  Certificate ISO9001/TS16949
Surface Treatment High frequency quenching, oil impregnation,CNC,vacuum cleaning,polishing,
Apperance No crumbling, cracks, exfoliation, voids, metal pitting and other defects
 
Process Flow
Powder mixing – Forming – Sintering – Oil impregnation – Sizing -Ultrasonic cleaning – Steam oxidation – Oil impregnation – Final inspection – Packing
Application Motorcycle parts, auto parts, Power Tools parts, Motor parts, electric Bicycle,

Production process of powder metallurgy
Powder mixing – Forming – Sintering – Oil impregnation – Sizing -Ultrasonic cleaning – Steam oxidation – Oil impregnation – Final inspection – Packing

A trained, qualified, and dedicated work force

  1. Engineering is our strength – we will help your designers convert your parts to cost-effective powdered metal parts.
  2. Every employee is trained to a standard of excellence.

Quality is designed into the process

  1. Consistent and committed attitude to quality first.

Critical characteristics are measured and controlled using the latest statistical methods

  1. Quality is always the first priority.
  2. Our subcontractors are held to the same high standards.

 

Certification: TS16949, ISO9001
Binder Type: Oil Based Binder
Powder Type: MIM
Transport Package: Carton + Wooden Pallet
Specification: Iron base
Trademark: HF
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

bushing

Advantages and disadvantages of different types of bushings

Bushings are a simple but essential part of machinery with sliding or rotating shaft assemblies. This type of bearing is used in a wide variety of industries because its high load-carrying capacity and excellent anti-friction properties make it a necessity for construction, mining, hydropower, transportation and agricultural machinery. In addition to these applications, bushings also play a vital role in material handling and food processing. This article explores the various types of bushings available.

air casing

The air bushing forms a frictionless cylinder that applies the load to the rotating object. Bushings are used to measure torque and provide self-centering force in applications where linear motion is critical. The following are load equations that can be used to select the appropriate air sleeve for your application. To learn more about these air sleeves, read on. This article discusses the benefits and uses of air bushings in linear motion.
Bushings have many advantages over bearings. They are not prone to wear and corrosion. Unlike bearings, they can easily bypass conversion and inspection periods. Their high-quality design guarantees reliable machine performance, yet they are inexpensive and easy to replace. In many industries, air compressors are essential for sports. The air bushing eliminates friction, allowing the compressor to work more efficiently. They can also help eliminate the need for frictionless bearings and improve the overall efficiency of the machine.
Another type of air bearing is the cylindrical bushing. These are used for linear and aerostatic motion. Their low friction properties allow them to support radial loads without wearing out or damaging components. They are usually used for normal sized shafts. Air bushings have several components that can be used with other types of air bearings. Cylindrical air bearings have four o-ring grooves that allow them to be inserted into the structure. They are often used with other types of air bearings for smoother motion.

rubber bushing

If you’re looking to buy a new suspension system, you may be wondering if rubber or polyurethane is the right choice. Rubber is less expensive, but not without its drawbacks. Polyurethane is more durable and offers better handling and suspension. Rubber bushings also reduce road feel, while polyurethane isolates the driver from the road. Both materials will help you improve handling and alignment, but each has advantages and disadvantages.
Typically, rubber bushings are cylindrical components with metal inner and outer surfaces. These metals can be stainless steel, mild steel or aluminum. They are usually stress relieved and prestressed for maximum durability. They are designed to meet the exact specifications of a specific application. For example, shock-absorbing rubber bushings are cushioning pads made of polyurethane that absorb road bumps and noise.
Unlike polyurethane, rubber suspension bushings have a shorter lifespan than polyurethane. This is because rubber is more susceptible to damage from UV rays, road chemicals and oils. The rubber also stretches and warps due to the pressure of the road. The rubber bushing also squeaks, which can be cause for concern. But if the noise persists for a long time, it may be a sign that your vehicle needs a new suspension system.
The main reason why cars use rubber bushings is for shock absorption. During machine use, vibration and noise caused by the movement of parts can cause serious damage. To prevent this, rubber bushings act as shock absorbers and damping agents. Rubber bushings are an excellent choice for automakers, but they are also used in a variety of industrial settings.
bushing

Polyurethane bushing

If you want to make your vehicle handle better, polyurethane bushings may be the answer. They come in different shapes and sizes and can improve a wide range of areas. This article will explore the advantages and disadvantages of polyurethane bushings and their potential place in your car. However, before you decide to upgrade your suspension, you should understand the various advantages and disadvantages of polyurethane bushings.
The main difference between a polyurethane bushing and a rubber bushing is how the bushing rides on the suspension arm. Polyurethane bushings do not have faces that slide against each other like rubber bushings. This means they allow for more rotation and flexion, as well as consistent alignment of the control arms. Polyurethane bushings require lubrication, but only need to be lubricated every five years, much longer than equivalent rubber bushings.
Another difference between polyurethane and rubber bushings is hardness. The former has the least elasticity and is generally the most suitable for street use. While rubber bushings provide the best NVH quality, they are also notorious for changing suspension geometry. Rubber is known to be an excellent choice for street use, but polyurethane has a lifespan that far outlasts rubber.

bronze bushing

There are two main types of bronze bushings, sintered and cast. The latter require additional lubrication and are typically used in applications where powder metal products cannot be secured. The former is cheaper than the latter, but the process is more expensive. Bronze bushings can be used in environments where the material will be exposed to high temperature and vibration. For these reasons, the production process is relatively slow and expensive.
The strength of bronze is the main reason why they are so popular. Brass is a softer metal that deforms and corrodes easily. The bronze casing can withstand continuous immersion in water and can last for hundreds of years with little or no maintenance. However, it is important to note that this metal is not resistant to aggressive chemicals and requires regular maintenance to keep it in good condition.
Bronze bushings offer many advantages, including durability and aesthetics. Bronze bushings are available in a variety of sizes and can be ordered in imperial and metric sizes. They can be built to your specifications and are very durable. You can even custom order them if you want. And because they can be customized, they are an excellent choice for high-end applications. The quality of the bronze bushings is second to none.

Plastic bushing

Engineered composite plastic bushings have been shown to last longer than bronze bushings and have also been found to reduce maintenance costs by up to 40%. Plastic bushings have become the first choice for thousands of applications, including medical equipment, food processing machinery, pumps, and more. Bronze bushings are oil-impregnated, but their performance is limited by their inherent weaknesses: oil-impregnated bronze tends to develop high levels of capillary action and requires rotational motion to maintain an intact oil film. Low speed and intermittent use of bronze bushings can also hinder the ability of the lubricant to provide adequate lubrication.
Advantages of plastic bushings over metal include low friction, non-reactive surfaces, and long life. CZPT offers a variety of engineering plastics that outperform traditional metals in a range of applications. For example, nylon bushings resist wear while requiring little lubrication. In addition, polymer-shaped plastics are lightweight and highly resistant to aggressive cleaning agents and chemicals.
Besides being less expensive than metal bushings, plastic bushings offer many other advantages. They are very durable, have a low coefficient of friction, and are more wear-resistant than metal. Unlike metal, plastic bushings do not require lubrication and do not absorb dust and oil like metal bushings. They are lightweight, easy to maintain and last longer. This makes them an excellent choice for many applications.
bushing

Sleeve bearing

Sleeve bearings are simple pipes with matching components. They facilitate linear motion by absorbing friction and vibration. They can withstand heavy loads and work at high temperatures for long periods of time. Flange bearings are similar to sleeve bearings, but are enclosed and rotated in a housing unit. Sleeve bearings have higher load-carrying capacity and resistance to shock loads. Furthermore, they are lightweight and low cost.
Another name for sleeve bearings is babbitt radial bearings. These bearings are usually made of bronze and have straight inner and outer diameters. They are also impregnated with oil and can withstand radial loads. Typical uses for sleeve bearings are agriculture, automotive and machine tools. Sleeves can also be solid or cored material, depending on the intended use.
The type of sleeve bearing used in the bushing is important in determining which type of bushing to buy. Sleeve bearings are sized based on pressure and speed considerations. Typically, the PV limit is an upper bound on the combined pressure and velocity for a given casing material. In some cases, the sleeve bearing used in the bushing is the same as the plain bearing.
Sleeve bearings are simple in design and made from a variety of materials, including bronze and plastic. They are more affordable than metal, but plastic is still not inaudible. Plastic sleeve bearings will rattle like metal bearings if the gap between the two bushings is not accurate. Additionally, high temperature electronic painting can permanently thin the casing. The stainless steel backing provides a good surface for electronic painting and enhances abrasion resistance.

China Best Sales High Quality Powder Metallurgy Copper Base Bearing /Bushing Fan Motor   bearing exampleChina Best Sales High Quality Powder Metallurgy Copper Base Bearing /Bushing Fan Motor   bearing example
editor by CX 2023-05-12

China Best Sales Linear Guide Carriage Kwve30-B Recirculating Ball Bearing Carriage Linear Ball Bearing supplier

Product Description

Welcome to choose KORTON INDUSTRIAL LIMITED. 

NO 1. Our advantages:

1. 14 years bearing products manufacturing and exporting experiences.

2. OEM order and non-standard bearing order can be accepted.

3. Many sizes of bearing are available. Large quantity bearing can be provided.

4. To respect customers, you can choose the loading port.

5. A certain number of free sample can be provide to support our customer’s after-sale services and warranty.

 

NO 2. Description: Linear bearing
 

Metal linear bearing is a low-cost production of linear motion system for unlimited travel with the cylinder axis. Since the ball bearing point contact with the shaft, so use the load is small. Minimal friction ball rotation, thereby to obtain smooth movement precision. Plastic linear bearings are self-lubricating properties of a linear motion system, the biggest difference is that the metal in the metal linear bearings linear bearings are rolling friction, is the point contact between the bearing and the cylinder axis, so this suited for low load speed movement; while plastic linear bearings are sliding friction is between the bearing surface contact with the cylinder axis, so this low-speed movement for high loads.

Linear bearings are used in conjunction with hardened linear drive shaft. For infinite linear motion systems. Load the ball and quenching transmission shaft because it is the point contact, allowing the load is small, but linear motion, friction smallest, high precision, fast movement.
 

The linear ball bearing (also called ball bushing or shaft guiding) consists of a polymeric cage with raceway segments made of hardened steel to CZPT the ball sets within the complete system. Recirculating balls provide unlimited stroke at low friction movement.

1.Smooth movement,low friction,high rigidity and long life.

2.We can make non-standard linear bearing according to clients samples or drawings.

3.Prompt delivery and OEM service.

4.Nice appearance,complete product system.

LM – UU series

LM – UU OP series

LM – LUU series

LME – UU series

LMF – UU series

LMK – UU series

LMH – UU series

LMF – LUU series

LMK – UU series

LMH – LUU series

SCS – UU  series

SCS – LUU  series

SBR – UU series

TBR – UU series

SK  (SHA) series

 

 NO 3. OEM all brand bearing

1. deep groove ball bearing 6000,6200,6300,6400,61800,61900,Z,RS,ZZ,2RS

2. spherical roller bearing 22200,22300,23000,24000,23100,24100,CA,CC,E,W33

3. cylindrical roller bearing N,NU,NJ,NN,NUP,E,ECP,ECM,ECJ

4. taper roller bearing 35710,30300,32200,32300,31300,32000

5. Aligning ball bearing 1200,1300,2200,2300,

6. needle roller bearing NA,NAV,NK,NKI,RNA,NK,RNAV,ZKLF,ZKLN,ZARF,ZARN

7. thrust ball bearing 51100,51200,51300,51400,E,M

8. angular contact ball bearing7000,7100,7200,7300,AC,BECBM,C 

9. spherical plain bearing GE,GEG,GEEW,U,UC,UG,GX,GAC,SA,SABP
10.Wheel hub bearing /ceramic bearing/plastic bearing/lazy susan bearing

 

 NO 4. Linear Bearing Specification: 

Seals Types OPEN/2RS
Vibration Level Z1V1,Z2V2,Z3V3
Clearance C2,C0,C3,C4,C5
Tolerance Codes ABEC-1,ABEC-3,ABEC-5
Materral GCr15-China/AISI52100-USA/Din100Cr6-Germany
MOQ 1Set at least
Delivery Time 5-15 days after contract
Payment Terms TT/PAPAL/WESTERN UNION
Package Tube package+outer carton+pallets;
Single box+outer carton+pallets;
Tube packge+middle box+outer carton+pallets;
According to your requirement

NO 5. Linear Bearing Models: 

 

MODEL NO. NUMBER OF BALL ROWS MAIN DIMENSIONS ECCEN-TIRICITY(MAX.) BASIC LOAD RATING WEIGHT(g)
INSCRIBED CIRCLE DIAMETER OUTER DIAMETER LENGTH OUTER LOCKING GROOVE W H H1 θ DYNAMIC STATIC
dr TOLERANCE D TOLERANCE L TOLERANCE B TOLERANCE D1 c(kgf) Co(kgf)
LM3 4 3 0 7 0 10 0               0.01          
LM4 4 4 -0.008 8 -0.009 12 -0.12               9 13 3    
LM5 4 5   10   15   10.2 0 9.6 1.1       17 21 4    
LM6 4 6 0 12 0 17 0 13.5 -0.2 11.5 1.1 1     0.01 21 27 6 6  
LM8S 4 8 -0.009 15 -0.011 19 -0.2 11.5   14.3 1.1 1     18 23 9    
LM8 4 8   15   24   17.5   14.3 1.1 1     27 41 14 14  
LM10 4 10   19 0 29   22   18 1.3 1 6.8 80° 38 56 28 27  
LM12 4 12   21 -0.013 30   23   20 1.3 1.5 8 80° 42 61 32 31 24
LM13 4 13   23   32   23   22 1.3 1.5 9 80° 52 79 38 39 32
LM16 5 16   28   37   26.5   27 1.6 1.5 11 80° 79 120 74 73 58
LM20 5 20 0 32 0 42   30.5   30.5 1.6 1.5 11 60° 0.02 88 140 80 80 72
LM25 6 25 -0.01 40 -0.016 59 0 41 0 38 1.9 2 12 50° 100 160 206 205 177
LM30 6 30   45   64 -0.3 44.5 -0.3 43 1.9 2.5 15 50° 160 280 240 230 196
LM35 6 35 0 52 0 70   49.5   49 2.1 2.5 17 50° 0.02 170 320 370 366 320
LM40 6 40 -0.012 60 -0.019 80   60.5   57 2.1 3 20 50° 220 410 589 549 464
LM50 6 50   80   100   74   76.5 2.6 3 25 50° 390 810 1480 1440 1180
LM60 6 60 0 90 0 110   85   86.5 3.2 3 30 50° 0.03 480

 

SCS..UU/SCS..LUU                         Slide bush Basic load rating  
Type
 Designation
Dimension (mm) Type dynamic
CN
static
CoN
Weight
(kg/m)
T h E W L F G B C K S1 S2 L1
SCS 6 UU 6 9 15 30 25 18 15 20 15 5 M4 3.4 8 LM 6UU 206 265 34
SCS 8 UU 6 11 17 34 30 22 18 24 18 5 M4 3.4 8 LM 8UU 274 392 52
SCS 10 UU 8 13 20 40 35 26 21 28 21 6 M5 4.3 12 LM10UU 372 549 92
SCS 12 UU 8 15 21 42 36 28 24 30.5 26 5.75 M5 4.3 12 LM 12UU 510 784 102
SCS 13 UU 8 15 22 44 39 30 24.5 33 26 5.5 M5 4.3 12 LM 13UU 510 784 120
SCS 16 UU 9 19 25 50 44 38.5 32.5 36 34 7 M5 4.3 12 LM 16UU 774 1180 200
SCS 20 UU 11 21 27 54 50 41 35 40 40 7 M6 5.2 12 LM 20UU 882 1370 255
SCS 25UU 12 26 38 76 67 51.5 42 54 50 11 M8 7 18 LM 25UU 980 1570 600
SCS 30UU 15 30 39 78 72 59.5 49 58 58 10 M8 7 18 LM 30UU 1570 2740 735
SCS 35UU 18 34 45 90 80 68 54 70 60 10 M8 7 18 LM 35UU 1670 3140 1100
SCS 40UU 20 40 51 102 90 78 62 80 60 11 M10 8.7 25 LM 40UU 2160 4571 1590
SCS 50UU 25 52 61 122 110 102 80 100 80 11 M10 8.7 25 LM 50UU 3820 7940 3340
SCS 60UU 30 58 66 132 122 114 94 108 90 12 M10 10.7 25 LM 60UU 4700 10000 4270
SCS 8LUU 6 11 17 34 58 22 18 24 42 5 M4 3.4 8 LM 8LUU 274 392 0.1
SCS 10LUU 8 13 20 40 68 26 21 28 456 6 M5 4.3 12 LM 10LUU 372 549 0.18
SCS 12LUU 8 15 21 42 70 28 24 30.5 50 5.75 M5 4.3 12 LM 12LUU 510 784 0.2
SCS 13LUU 8 15 22 44 75 30 24.5 33 50 5.5 M5 4.3 12 LM 13LUU 510 784 0.23
SCS 16LUU 9 19 25 50 85 38.5 32.5 36 60 7 M5 4.3 12 LM 16LUU 774 1180 0.39
SCS 20LUU 11 21 27 54 96 41 35 40 70 7 M6 5.2 12 LM 20LUU 882 1370 0.49
SCS 25LUU 12 26 38 76 130 51.5 42 54 100 11 M8 7 18 LM 25LUU 980 1570 1.165
SCS 30LUU 15 30 39 78 140 59.5 49 58 110 10 M8 7 18 LM 30LUU 1570 2740 1.43
SCS 35LUU 18 34 45 90 155 68 54 70 120 10 M8 7 18 LM 35LUU 1670 3140 2.13
SCS 40LUU 20 40 51 102 175 78 62 80 140 11 M10 8.7 25 LM 40LUU 2160 4571 3.09

 

NO 6. Our Bearing Factory:
                                                                                                 
                                                                                                                                                                                                                                                                                                                                                                                  

NO 7. Our Bearing Packaging Box:


Why Choose Us:

 

  • We are an industrial and trading company.We have our own brand: SFNB .If you interested in our product,I can take you to visit our factory.
  • Our factory have advanced testing equipment,before the every product leave the factory,we will be testing.We can send samples to you,you can test the quality,and if you accept the sample quality,we can promise: the follow-up orders’ quality will be the same as samples.
  • About ordinary standard type of bearing ,We have rich inventory,not have MOQ,if your need a product is Non-standard size,need customize,we will according the product size to determine the MOQ.
  • Our company can accept OEM,you can send sample to me,we can manufacturing products the same as sample.Meanwhile,we also can accept some well-known brands of OEM,
  • If the amount of money is less,you can pay it by Paypal.Of course you can payment by TT or Western Union etc.

     

Bearing Structure: Split Plain Bearing
Type of Lubricant: Oil-Lubricated Bearing
Lubricant & Load: Hydrodynamic Bearing
Bushing Material: Oil-Impregnated Bearing
Bearing Direction: Radial
Lubricating Way: Maintenance-Free Bearing
Customization:
Available

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Customized Request

bushing

Advantages and disadvantages of different types of bushings

Bushings are a simple but essential part of machinery with sliding or rotating shaft assemblies. This type of bearing is used in a wide variety of industries because its high load-carrying capacity and excellent anti-friction properties make it a necessity for construction, mining, hydropower, transportation and agricultural machinery. In addition to these applications, bushings also play a vital role in material handling and food processing. This article explores the various types of bushings available.

air casing

The air bushing forms a frictionless cylinder that applies the load to the rotating object. Bushings are used to measure torque and provide self-centering force in applications where linear motion is critical. The following are load equations that can be used to select the appropriate air sleeve for your application. To learn more about these air sleeves, read on. This article discusses the benefits and uses of air bushings in linear motion.
Bushings have many advantages over bearings. They are not prone to wear and corrosion. Unlike bearings, they can easily bypass conversion and inspection periods. Their high-quality design guarantees reliable machine performance, yet they are inexpensive and easy to replace. In many industries, air compressors are essential for sports. The air bushing eliminates friction, allowing the compressor to work more efficiently. They can also help eliminate the need for frictionless bearings and improve the overall efficiency of the machine.
Another type of air bearing is the cylindrical bushing. These are used for linear and aerostatic motion. Their low friction properties allow them to support radial loads without wearing out or damaging components. They are usually used for normal sized shafts. Air bushings have several components that can be used with other types of air bearings. Cylindrical air bearings have four o-ring grooves that allow them to be inserted into the structure. They are often used with other types of air bearings for smoother motion.

rubber bushing

If you’re looking to buy a new suspension system, you may be wondering if rubber or polyurethane is the right choice. Rubber is less expensive, but not without its drawbacks. Polyurethane is more durable and offers better handling and suspension. Rubber bushings also reduce road feel, while polyurethane isolates the driver from the road. Both materials will help you improve handling and alignment, but each has advantages and disadvantages.
Typically, rubber bushings are cylindrical components with metal inner and outer surfaces. These metals can be stainless steel, mild steel or aluminum. They are usually stress relieved and prestressed for maximum durability. They are designed to meet the exact specifications of a specific application. For example, shock-absorbing rubber bushings are cushioning pads made of polyurethane that absorb road bumps and noise.
Unlike polyurethane, rubber suspension bushings have a shorter lifespan than polyurethane. This is because rubber is more susceptible to damage from UV rays, road chemicals and oils. The rubber also stretches and warps due to the pressure of the road. The rubber bushing also squeaks, which can be cause for concern. But if the noise persists for a long time, it may be a sign that your vehicle needs a new suspension system.
The main reason why cars use rubber bushings is for shock absorption. During machine use, vibration and noise caused by the movement of parts can cause serious damage. To prevent this, rubber bushings act as shock absorbers and damping agents. Rubber bushings are an excellent choice for automakers, but they are also used in a variety of industrial settings.
bushing

Polyurethane bushing

If you want to make your vehicle handle better, polyurethane bushings may be the answer. They come in different shapes and sizes and can improve a wide range of areas. This article will explore the advantages and disadvantages of polyurethane bushings and their potential place in your car. However, before you decide to upgrade your suspension, you should understand the various advantages and disadvantages of polyurethane bushings.
The main difference between a polyurethane bushing and a rubber bushing is how the bushing rides on the suspension arm. Polyurethane bushings do not have faces that slide against each other like rubber bushings. This means they allow for more rotation and flexion, as well as consistent alignment of the control arms. Polyurethane bushings require lubrication, but only need to be lubricated every five years, much longer than equivalent rubber bushings.
Another difference between polyurethane and rubber bushings is hardness. The former has the least elasticity and is generally the most suitable for street use. While rubber bushings provide the best NVH quality, they are also notorious for changing suspension geometry. Rubber is known to be an excellent choice for street use, but polyurethane has a lifespan that far outlasts rubber.

bronze bushing

There are two main types of bronze bushings, sintered and cast. The latter require additional lubrication and are typically used in applications where powder metal products cannot be secured. The former is cheaper than the latter, but the process is more expensive. Bronze bushings can be used in environments where the material will be exposed to high temperature and vibration. For these reasons, the production process is relatively slow and expensive.
The strength of bronze is the main reason why they are so popular. Brass is a softer metal that deforms and corrodes easily. The bronze casing can withstand continuous immersion in water and can last for hundreds of years with little or no maintenance. However, it is important to note that this metal is not resistant to aggressive chemicals and requires regular maintenance to keep it in good condition.
Bronze bushings offer many advantages, including durability and aesthetics. Bronze bushings are available in a variety of sizes and can be ordered in imperial and metric sizes. They can be built to your specifications and are very durable. You can even custom order them if you want. And because they can be customized, they are an excellent choice for high-end applications. The quality of the bronze bushings is second to none.

Plastic bushing

Engineered composite plastic bushings have been shown to last longer than bronze bushings and have also been found to reduce maintenance costs by up to 40%. Plastic bushings have become the first choice for thousands of applications, including medical equipment, food processing machinery, pumps, and more. Bronze bushings are oil-impregnated, but their performance is limited by their inherent weaknesses: oil-impregnated bronze tends to develop high levels of capillary action and requires rotational motion to maintain an intact oil film. Low speed and intermittent use of bronze bushings can also hinder the ability of the lubricant to provide adequate lubrication.
Advantages of plastic bushings over metal include low friction, non-reactive surfaces, and long life. CZPT offers a variety of engineering plastics that outperform traditional metals in a range of applications. For example, nylon bushings resist wear while requiring little lubrication. In addition, polymer-shaped plastics are lightweight and highly resistant to aggressive cleaning agents and chemicals.
Besides being less expensive than metal bushings, plastic bushings offer many other advantages. They are very durable, have a low coefficient of friction, and are more wear-resistant than metal. Unlike metal, plastic bushings do not require lubrication and do not absorb dust and oil like metal bushings. They are lightweight, easy to maintain and last longer. This makes them an excellent choice for many applications.
bushing

Sleeve bearing

Sleeve bearings are simple pipes with matching components. They facilitate linear motion by absorbing friction and vibration. They can withstand heavy loads and work at high temperatures for long periods of time. Flange bearings are similar to sleeve bearings, but are enclosed and rotated in a housing unit. Sleeve bearings have higher load-carrying capacity and resistance to shock loads. Furthermore, they are lightweight and low cost.
Another name for sleeve bearings is babbitt radial bearings. These bearings are usually made of bronze and have straight inner and outer diameters. They are also impregnated with oil and can withstand radial loads. Typical uses for sleeve bearings are agriculture, automotive and machine tools. Sleeves can also be solid or cored material, depending on the intended use.
The type of sleeve bearing used in the bushing is important in determining which type of bushing to buy. Sleeve bearings are sized based on pressure and speed considerations. Typically, the PV limit is an upper bound on the combined pressure and velocity for a given casing material. In some cases, the sleeve bearing used in the bushing is the same as the plain bearing.
Sleeve bearings are simple in design and made from a variety of materials, including bronze and plastic. They are more affordable than metal, but plastic is still not inaudible. Plastic sleeve bearings will rattle like metal bearings if the gap between the two bushings is not accurate. Additionally, high temperature electronic painting can permanently thin the casing. The stainless steel backing provides a good surface for electronic painting and enhances abrasion resistance.

China Best Sales Linear Guide Carriage Kwve30-B Recirculating Ball Bearing Carriage Linear Ball Bearing   supplierChina Best Sales Linear Guide Carriage Kwve30-B Recirculating Ball Bearing Carriage Linear Ball Bearing   supplier
editor by CX 2023-04-19

China Japan Original KOYO STB3372 Pinion Bearing STB3372 Tapered Roller Bearing with Best Sales

Kind: Roller
Composition: Taper
Applicable Industries: Creating Materials Outlets, Manufacturing Plant, Equipment Fix Retailers, Retail, Vitality & Mining
Model Number: STB3372
Precision Ranking: P0 P6 P5 P4 P2
Seals Type: Open up
Number of Row: One row
Title: Japan Original CZPT STB3372 Pinion Bearing STB3372 Bearing
Substance: Chrome Steel
Service: OEM Supplied
Software: Equipment
Certification: ISO9001:2008
Primary Marketplaces: Europe, The usa, South Asia
Characteristic: Steady Performance:minimal Voice
Stock: in inventory
Deal: Solitary Box
Brand name: CZPT CZPT CZPT CZPT ASACHI
Packaging Specifics: Japan Original CZPT STB3372 Pinion Bearing STB3372 Tapered Roller Bearing(1) TUBE package deal(industry package deal) 2RS box,carton,pallet OEM packing as buyer necessary cargo: By sea,by air supply time: 3-10days right after receipt of payment.
We promise the adhering to to you:
1) Popular Manufacturer items: Guarantee100% imported from Japan, Sweden and Germany, and so on. Most of them we have stock, and ship to you ASAP.
two) Substance and strategy promise: the large good quality materials, processed with worldwide approach,and with a hundred% total check to make certain every piece will be higher-certified.
three) packing and delivery: one hundred% bundle and shipping and delivery way in accordance to buyers requirements.
four) Cost and soon after-sale provider: we and make certain to you the best value and the all-spherical after-sale provider, we welcome your second buy, and hope to developed a long-phrase cooperate connection.

DEM Certifications

Choosing the Right Ball Bearing for Your Application

When choosing a Ball Bearing, there are several things to consider. These factors include: the size, lubricant type, presence of corrosive agents, stray electrical currents, and more. It can be challenging to choose the right type, size, and type of ball bearing for your application. You should also carefully calculate the loads to determine the right size. Here are some tips for choosing the right Ball Bearing for your application.

Single-row

The single-row ball bearing is one of the most popular types of bearings. The inner and outer ring are designed with raceway grooves that are shaped slightly larger than the balls. This type of bearing has a low torque and can handle high-speed applications with minimal power loss. The radial dimensions of single-row ball bearings also vary, so it is possible to find one that fits your specific application. Besides the above-mentioned advantages, single-row ball bearings are also available with varying grease levels and are widely applicable to applications where the space is limited.
Single-row ball bearings are also called angular-contact ball bearings. Because of their single-row design, they are not separable and can accommodate a high-speed, heavy-duty application. Single-row angular-contact ball bearings can only handle axial load in one direction, and they must be installed in pairs for pure radial loads. Single-row ball bearings are a popular type of rolling bearings and can be used for a wide range of applications.
bearing

Self-aligning

The self-aligning ball bearing was invented by Sven Wingquist, a plant engineer for a textile company in Sweden. While he was responsible for making production as efficient as possible, he soon realized that the machinery he had in place wasn’t working as efficiently as it could. Although ball bearings are great for reducing friction, they were not flexible enough to compensate for misalignments in the machine.
Self-aligning ball bearings have two rows of balls and a common sphered raceway. The inner ring is curved and combines the two rows of balls into one cage. These bearings can tolerate shaft misalignment and compensate for static angular defects. They can be used in simple woodworking machinery, ventilators, and conveying equipment. They are often the preferred choice for applications where shaft alignment is an issue.

Ceramic

A Ceramic ball bearing is a type of high-performance bearing that is available in both full-ceramic and hybrid forms. The main differences between ceramic and steel ball bearings are their construction, lubrication, and mobility. High-quality ceramic ball bearings are durable, and they are ideal for corrosive and high-temperature applications. The material used to create these bearings helps prevent electrolytic corrosion. They are also ideal for reducing the friction and lubrication requirements.
Ceramic balls are harder and less brittle than steel balls, which gives them a higher degree of rigidity. Ceramics also have a higher hardness, with a hardness of Rc75-80 compared to Rc58-64 for steel balls. Their high compressive strength is approximately 5 to 7 times greater than steel. In addition, they have a very low coefficient of friction, which allows them to spin at higher speeds and with less friction. This increases their lifespan and durability, and decreases the energy needed to turn cranks.

Steel

Unlike traditional bearings, steel balls have a relatively uniform hardness. Carbon steel, for instance, is 2.1% carbon by weight. According to the American Iron and Steel Institute, copper content must be no more than 0.40% and manganese content should not be more than 1.65 g/cm3. After carbonizing, steel balls undergo a process called sizing, which improves their roundness geometry and hardness.
The main differences between steel ball bearings and ceramic ball bearings can be traced to their different materials. Ceramic balls are made from zirconium dioxide or silicon nitride. Silicon nitride is harder than steel and resists shocks. The result is increased speed and longer service life. Polyoxymethylene acetal (PMMA) bearing balls are known for their stiffness, strength, and tolerance, but are not as common as steel ball bearings.

Plastic

The most popular types of plastic ball bearings are made of polypropylene or PTFE. These bearings are used in applications requiring higher chemical resistance. Polypropylene is a structural polymer that offers excellent physical and chemical properties, including excellent resistance to organic solvents and degreasing agents. Its lightweight, low moisture absorption rate, and good heat resistance make it an excellent choice for high-temperature applications. However, plastic bearings are not without their drawbacks, especially when operating at very high temperatures or under heavy loads.
Compared to metal bearings, plastic ball-bearings do not require lubrication. They also are highly corrosion-resistant, making them an excellent choice for wash-down applications. They are also post-, autoclave-, and gamma sterilizable. Many conventional steel ball-bearings cannot handle the high temperatures of food processing or swimming pools. In addition to high temperature applications, plastic ball bearings are resistant to chemicals, including chlorine.
bearing

Glass

Plastic sliding bearings are molded bearings made of engineering plastic. With self-lubricating modification technology, these bearings can be produced by injection molding of plastic beads. They are widely used in various industries such as office equipment, fitness and automotive equipment. In addition to plastic bearings, glass balls are used in a variety of other applications, including medical equipment. Glass ball bearings have excellent corrosion resistance, excellent mechanical properties, and are electrically insulators.
Plastic ball bearings are made of all-plastic races and cages. These bearings are suitable for applications that are exposed to acids and alkalis. Because they are cheaper than glass balls, plastic ball bearings are popular in chemical-exposed environments. Stainless steel balls are also resistant to heat and corrosion. But the main disadvantage of plastic ball bearings is that they are not as strong as glass balls. So, if weight and noise is your main concern, consider using plastic balls instead.

Miniature

The global miniature ball bearing market is expected to reach US$ 2.39 Billion by 2027, at a CAGR of 7.2%. Growth in the region is attributed to technological advancement and government initiatives. Countries such as India and China are attracting FDIs and emphasizing the establishment of a global manufacturing hub. This is boosting the market for miniature ball bearings. The miniscule ball bearings are manufactured in small quantities and are very small.
Some manufacturers produce miniature ball bearings in different materials and designs. Chrome steel is the most popular material for miniature ball bearings because of its high load capacity, low noise properties, and lower cost. But the cost of stainless steel miniature bearings is low, since the amount of steel used is minimal. Stainless steel miniature bearings are the smallest in size. Therefore, you can choose stainless steel mini ball bearings for high-speed applications.

Angular-contact

Angular-contact ball bearings have three components: a cage, inner ring, and balls. Angular-contact ball bearings can support high axial and radial loads. Various design and manufacturing attributes make angular-contact ball bearings suitable for a variety of applications. Some features of this bearing type include a special lubricant, different cage materials, and different coatings.
The size of an angular-contact ball bearing is determined by the design units: outer ring width, axial load, and radial load. Depending on the type of application, an angular-contact ball bearing may be manufactured in double-row, triple-row, or quadruple-row configurations. Angular contact ball bearings can be classified according to their design units, which range from metric to imperial. A higher ABEC number means tighter tolerances. To determine the tolerance equivalent of a particular bearing, consult a standard Angular-contact ball bearing table.
Angular-contact ball bearings feature high and low-shoulder configurations. They have two-dimensional races that accommodate axial and radial loads. They are available in self-retaining units with solid inner and outer rings, and ball and cage assemblies. Cages made of cast and wrought brass are the most popular, but lightweight phenolic cages are also available. The latter is a better choice because it doesn’t absorb oil and has lower rolling friction.
bearing

Materials

When it comes to the construction of a ball bearing, high-quality raw materials are a crucial component. These materials not only affect the overall quality of a ball bearing, but also influence the cost. That’s why you should pay close attention to raw material quality. In addition to that, raw materials should be tested several times before the manufacturing process to ensure quality. Read on for some information about the different types of materials used to make ball bearings.
Steel is the most common material for ball bearings. Most ball bearings contain stainless steel balls, which are remarkably corrosion-resistant. They are also resistant to saltwater and alkalis. However, stainless steel balls are heavier than plastic ones, and they are also magnetic, which may be a drawback in some applications. If you’re looking for a metal-free option, glass balls are the way to go. They’re sturdy, lightweight, and resistant to a wide range of chemicals.

China Japan Original KOYO STB3372 Pinion Bearing STB3372 Tapered Roller Bearing     with Best SalesChina Japan Original KOYO STB3372 Pinion Bearing STB3372 Tapered Roller Bearing     with Best Sales
editor by czh 2023-02-19