China Good quality Inch Size Track Rollers, Stud Type Cam Follower Bearings (CF-11/16-SB, CF-3/4-SB, CF-7/8-SB, CF-1-SB, CF-1 1/8-SB)

Product Description

 

Product Description

Product Name Tracker roller bearing, Cam follower bearing
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 Collar, 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

 

Product Parameters

 

Bearing No. Dimensions (mm) Basic Load Rating(KN) Limited Mass
Speed
Without seals Sealed Type D d C B B1 B2 G1 C Co rpm kg
CF-1/2-N-B CF-1/2-N-SB 12.7 4.83 8.73 22.23 12.7 6.35 3.44 3.84 12000 0.009
CF-1/2-B CF-1/2-SB 12.7 4.83 9.53 26.19 15.88 6.35 3.84 4.4 12000 0.01
CF-9/16-B CF-9/16-SB 14.29 4.83 9.53 26.19 15.88 6.35 4.3 5.3 10000 0.015
CF-5/8-N-B CF-5/8-N-SB 15.88 6.35 10.32 26.99 15.88 7.94 4.72 6.24 8800 0.019
CF-5/8-B CF-5/8-SB 15.88 6.35 11.11 30.96 19.05 7.94 5.2 7 8800 0.571
CF-11/16-B CF-11/16-SB 17.46 6.35 11.11 30.96 19.05 7.94 6.5 8.5 8000 0.03
CF-3/4-B CF-3/4-SB 19.05 9.53 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.037
CF-7/8-B CF-7/8-SB 22.23 9.53 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.048
CF-1-B CF-1-SB 25.4 11.11 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.076
CF-1 1/8-B CF-1 1/8-SB 28.58 11.11 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.087
CF-1 1/4-B CF-1 1/4-SB 31.75 12.7 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.14
CF-1 3/8-B CF-1 3/8-SB 34.93 12.7 19.05 51.59 31.75 7.94 15.88 19.2 25.9 4400 0.163
CF-1 1/2-B CF-1 1/2-SB 38.1 15.88 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.235
CF-1 5/8-B CF-1 5/8-SB 41.28 15.88 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.27
CF-1 3/4-B CF-1 3/4-SB 44.45 19.05 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.379
CF-1 7/8-B CF-1 7/8-SB 47.63 19.05 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.426
CF-2-B CF-2-SB 50.8 22.23 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.64
CF-2 1/4-B CF-2 1/4-SB 57.15 22.23 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.774
CF-2 1/2-B CF-2 1/2-SB 63.5 25.4 38.1 96.04 57.15 14.29 28.58 54 102.3   1.126
CF-2 3/4-B CF-2 3/4-SB 69.85 25.4 38.1 96.04 57.15 14.29 28.58 54 102.3   1.316
CF-3-B CF-3-SB 76.2 31.75 44.45 108.7 63.5 15.88 31.75 72.3 155   1.905
CF-3 1/4-B CF-3 1/4-SB 82.55 31.75 44.45 108.7 63.5 15.88 31.75 72.3 155   2.17
CF-3 1/2-B CF-3 1/2-SB 88.9 34.93 50.8 121.4 69.85 17.46 34.93 104.8 196.7   2.878
CF-4-B CF-4-SB 101.6 38.1 57.15 146.8 88.9 19.05 38.1 138 278   4.253

 

Bearing No. Dimensions (mm) Solid Eccentric Basic Load Rating(KN) Limited Mass
Speed
Without Seals Sealed Type D C B B1 G1 d1 B3 e C Co rpm kg
CFE-1/2-B CFE-1/2-SB 12.7 9.53 26.19 15.88 6.35 6.35 9.53 0.25 3.84 4.4 12000 0.011
CFE-9/16-B CFE-9/16-SB 14.29 9.53 26.19 15.88 6.35 6.35 9.53 0.25 4.3 5.3 10000 0.016
CFE-5/8-B CFE-5/8-SB 15.88 11.11 30.96 19.05 7.94 9.53 11.11 0.38 5.2 7 8800 0.571
CFE-11/16-B CFE-11/16-SB 17.46 11.11 30.96 19.05 7.94 9.53 11.11 0.38 6.5 8.5 8000 0.033
CFE-3/4-B CFE-3/4-SB 19.05 12.7 35.72 22.23 9.53 12.7 12.7 0.38 7.12 10 6400 0.042
CFE-7/8-B CFE-7/8-SB 22.23 12.7 35.72 22.23 9.53 12.7 12.7 0.38 7.12 10 6400 0.054
CFE-1-B CFE-1-SB 25.4 15.88 42.07 25.4 12.7 15.88 12.7 0.76 10.64 18.5 5200 0.086
CFE-1 1/8-B CFE-1 1/8-SB 28.58 15.88 42.07 25.4 12.7 15.88 12.7 0.76 10.64 18.5 5200 0.097
CFE-1 1/4-B CFE-1 1/4-SB 31.75 19.05 51.59 31.75 15.88 17.46 15.88 0.76 19.2 25.9 4400 0.154
CFE-1 3/8-B CFE-1 3/8-SB 34.93 19.05 51.59 31.75 15.88 17.46 15.88 0.76 19.2 25.9 4400 0.177
CFE-1 1/2-B CFE-1 1/2-SB 38.1 22.23 61.12 38.1 19.05 22.23 19.05 0.76 23 32.7 3600 0.263
CFE-1 5/8-B CFE-1 5/8-SB 41.28 22.23 61.12 38.1 19.05 22.23 19.05 0.76 23 32.7 3600 0.298
CFE-1 3/4-B CFE-1 3/4-SB 44.45 25.4 70.64 44.45 22.23 25.4 22.23 0.76 28.7 45.4 3200 0.418
CFE-1 7/8-B CFE-1 7/8-SB 47.63 25.4 70.64 44.45 22.23 25.4 22.23 0.76 28.7 45.4 3200 0.466
CFE-2-B CFE-2-SB 50.8 31.75 83.34 50.8 25.4 30.16 25.4 0.76 37.3 65.8 2800 0.705
CFE-2 1/4-B CFE-2 1/4-SB 57.15 31.75 83.34 50.8 25.4 30.16 25.4 0.76 37.3 65.8 2800 0.839
CFE-2 1/2-B CFE-2 1/2-SB 63.5 38.1 96.04 57.15 28.58 34.93 28.58 0.76 54 102.3   1.227
CFE-2 3/4-B CFE-2 3/4-SB 69.85 38.1 96.04 57.15 28.58 34.93 28.58 0.76 54 102.3   1.417
CFE-3-B CFE-3-SB 76.2 44.45 108.7 63.5 31.75 44.45 31.75 1.52 72.3 155   2.095
CFE-3 1/4-B CFE-3 1/4-SB 82.55 44.45 108.7 63.5 31.75 44.45 31.75 1.52 72.3 155   2.36
CFE-3 1/2-B CFE-3 1/2-SB 88.9 50.8 121.4 69.85 34.93 46.04 34.93 1.52 104.8 196.7   3.072
CFE-4-B CFE-4-SB 101.6 57.15 146.8 88.9 38.1 50.8 50.8 1.52 138 278   4.607

 

Bearing No.

Dimensions (mm) Basic Load Rating(KN) Limited Mass
Speed
Hexagon Hole Sealed Type D d C B B1 B2 G1 C Co rpm kg
CFH-1/2-B CFH-1/2-SB 12.7 6.35 9.53 26.19 15.88 6.35 3.84 4.4 12000 0.012
CFH9/16B CFH9/16-SB 14.29 6.35 9.53 26.19 15.88 6.35 4.3 5.3 10000 0.015
CFH-5/8-B CFH-5/8-SB 15.88 7.94 11.11 30.96 19.05 7.94 5.2 7 8800 0.571
CFH11/16-B CFH-11/16-SB 17.46 7.94 11.11 30.96 19.05 7.94 6.5 8.5 8000 0.571
CFH-3/4-B CFH-3/4-SB 19.05 11.11 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.039
CFH-7/8-B CFH-7/8-SB 22.23 11.11 12.7 35.72 22.23 6.35 9.53 7.12 10 6400 0.049
CFH-1-B CFH-1-SB 25.4 15.88 15.88 42.07 25.4 6.35 12.7 10.64 18.5 5200 0.093
CFH-1 1/8-B CFH-1 1/8-SB 28.58 15.88 15.88 42.07 25.4 6.35 12.7 10.64 18.5 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 15.88 19.2 25.9 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 15.88 19.2 25.9 4400 0.2
CFH-1 1/2-B CFH-11/2SB 38.1 22.23 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.296
CFH-1 5/8-B CFH-1 5/8-SB 41.28 22.23 22.23 61.12 38.1 9.53 19.05 23 32.7 3600 0.329
CFH-1 3/4-B CFH-1 3/4-SB 44.45 25.4 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.463
CFH-1 7/8-B CFH-1 7/8-SB 47.63 25.4 25.4 70.64 44.45 11.11 22.23 28.7 45.4 3200 0.508
CFH-2-B CFH-2-SB 50.8 28.58 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.722
CFH-2 1/4-B CFH-2 1/4-SB 57.15 28.58 31.75 83.34 50.8 12.7 25.4 37.3 65.8 2800 0.858
CFH-2 1/2-B CFH-2 1/2-SB 63.5 31.75 38.1 96.04 57.15 14.29 28.58 54 102.3   1.26
CFH-2 3/4-B CFH-2 3/4-SB 69.85 31.75 38.1 96.04 57.15 14.29 28.58 54 102.3   1.46
CFH-3-B CFH-3-SB 76.2 38.1 44.45 108.7 63.5 15.88 31.75 72.3 155   2.031
CFH-3 1/4-B CFH-3 1/4-SB 82.55 38.1 44.45 108.7 63.5 15.88 31.75 72.3 155   2.291
CFH-3 1/2-B CFH-3 1/2-SB 88.9 44.45 50.8 121.4 69.85 17.46 34.93 104.8 196.7   3.13
CFH-4-B CFH-4-SB 101.6 50.8 57.15 146.8 88.9 19.05 38.1 138 278   4.75
  CFH-5-SB 127 63.5 69.85 200 128.6 22.23 65.07 214 422   9.54
  CFH-6-SB 152.4 76.2 82.55 236.5 152.4 25.4 76.2 276 500   16.2
  CFH-7-SB 177.8 88.9 95.25 292 195.25 31.75 104.8 347 665   24.6

 

Workshop

 

Packaging & Shipping

Bearings Package:

    1):Inner Plastic Bag+ Paper Box + Carton(+Pallet)

    2):Small sizes:Plastic Tube + Carton

    3):Big sizes:Wooden Case

 

Bearings Lead time:

   We will prepare your order as soon as possible

    1)2-3 days for ex-stock

    2)7-20 days for others

 

 Shipping & Delivery time:

   1) Less than 45 Kg:DHL TNT Fedex UPS express will be better,( 4-7 days delivered to your address)

   2) Between 45 to 200 Kg:Air transiportation will be better,( 5-14 days delivered to your airport)

   3) Over 200 Kg:Sea transportation will be better.( Cheapest,18-45 days to your port ).

 

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Rows Number: Single
Material: Gcr15
Precision: P0 P6 P5 P4 P2
Clearance: C0 C2 C3 C4 C5
Vibration: Z1V1 Z2V2 Z3V3
Lubricated: Oil or Grease
Customization:
Available

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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

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

What is a cam roller, and how is it utilized in mechanical systems?

A cam roller, also known as a cam follower or track roller, is a specialized type of roller bearing used in mechanical systems. It is designed to follow the surface profile of a cam or track and transmit motion or force between the cam and a moving component. Here’s a detailed explanation of what a cam roller is and how it is utilized in mechanical systems:

A cam roller consists of a cylindrical roller, needle roller, or ball bearing that is mounted in a stud or yoke. The stud or yoke provides a means of attachment to the moving component of the mechanical system. The roller or bearing element is housed within a thick-walled outer ring, which serves as a guide and support for the roller. The outer ring has a profile that matches the shape of the cam or track over which the cam roller operates.

The primary function of a cam roller is to convert rotary motion into linear motion or vice versa. As the cam or track rotates, the cam roller follows the profile, causing the roller to move along the track. This motion can be utilized in various ways depending on the specific application. Here are some common uses of cam rollers in mechanical systems:

  • Motion Transmission: Cam rollers are often used to transmit motion from a rotating cam to a reciprocating or oscillating component. For example, in engines, cam followers are used to transfer the motion of the camshaft to the valves, opening and closing them at the appropriate timing.
  • Guiding and Support: Cam rollers can also provide guidance and support to moving components in a mechanical system. They help maintain proper alignment and prevent lateral movement or deflection. This is particularly useful in applications such as conveyor systems, where cam rollers guide the movement of belts or chains.
  • Load Bearing: Cam rollers are designed to withstand high loads and provide support to heavy-duty applications. They are often used in machinery and equipment where there is a need for reliable load-bearing capabilities. Examples include construction machinery, material handling equipment, and industrial automation systems.
  • Compensating for Misalignment: In some applications, cam rollers are utilized 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, ensuring smooth operation even in imperfect conditions.

The choice of cam roller design, size, and material depends on the specific requirements of the application. Factors such as load capacity, speed, operating conditions, and precision requirements are taken into consideration when selecting the appropriate cam roller. Regular maintenance, including lubrication and inspection of the cam roller, is important to ensure its proper functioning and longevity in the mechanical system.

In summary, a cam roller is a specialized type of roller bearing used in mechanical systems to transmit motion, provide guidance and support, bear loads, and compensate for misalignment. Its ability to follow the profile of a cam or track allows for efficient conversion of rotary motion to linear motion or vice versa. Cam rollers find application in a wide range of industries and play a crucial role in ensuring the smooth and reliable operation of mechanical systems.

China Good quality Inch Size Track Rollers, Stud Type Cam Follower Bearings (CF-11/16-SB, CF-3/4-SB, CF-7/8-SB, CF-1-SB, CF-1 1/8-SB)  China Good quality Inch Size Track Rollers, Stud Type Cam Follower Bearings (CF-11/16-SB, CF-3/4-SB, CF-7/8-SB, CF-1-SB, CF-1 1/8-SB)
editor by CX 2024-04-17