Product Description

Precision Cross Roller Bearing, the inner structure of which adopts the vertical and cross arrangement of cylindrical rollers with 90°, can bear radial load, double-direction thrust loads and overturning moment at the same time. Combined with its high rigidity, it can be applied to the joints and rotating parts of industrial robots, rotary tables of machining centers, rotating parts of manipulators, precision rotary tables, medical equipments, measuring instruments, IC manufacturing machines, etc.

Precision Cross Roller Bearing has 3 structure types, including bearing   with cage, with separator, and with full complement. Cage and separator types are suitable to low friction moment and high-speed rotation, while full complement is suitable to low-speed rotation and heavy load.
Precision Cross Roller Bearing has the following 7 structure series:

 RB Series
 RE Series
 RU Series
 RA Series
 RA-C Series
 CRB Series
 CRBH Series

 

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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: Axial Bearing
Customization:
Available

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Customized Request

cross roller bearing

What are the challenges and solutions for managing complex loads and rotational accuracy in cross roller bearings?

Managing complex loads and maintaining rotational accuracy are crucial challenges in cross roller bearings. These bearings often encounter demanding operating conditions that require effective solutions to ensure optimal performance.

  • Challenges:
  • 1. Complex Loads: Cross roller bearings may experience a combination of radial, axial, and moment loads. These loads can vary in magnitude, direction, and frequency, posing challenges in distributing the loads evenly across the bearing structure and minimizing stress concentrations.

    2. Rotational Accuracy: Maintaining precise rotational accuracy is essential in applications where accurate positioning, motion control, and alignment are critical. Factors such as manufacturing tolerances, bearing clearance, and external disturbances can affect the rotational accuracy of cross roller bearings.

  • Solutions:
  • 1. Optimized Bearing Design: Cross roller bearings are designed with specific load capacities and rigidity to handle complex loads. Manufacturers optimize the bearing’s internal geometry, material selection, and heat treatment processes to enhance load distribution and minimize stress concentrations. This enables the bearing to withstand varying loads and maintain structural integrity.

    2. Precision Manufacturing: Achieving high rotational accuracy starts with precision manufacturing processes. Tight manufacturing tolerances and stringent quality control measures help ensure consistent dimensions and geometries of the bearing components. This minimizes variations and deviations that can impact rotational accuracy.

    3. Preload and Clearance Adjustment: Proper preload and clearance adjustment are crucial for managing complex loads and maintaining rotational accuracy. Preload, achieved through controlled axial displacement or the use of spacers, eliminates internal clearance and enhances rigidity, reducing the effects of external forces. Careful adjustment of clearance ensures smooth operation while minimizing excessive play and maintaining accuracy.

    4. Lubrication: Lubrication plays a vital role in managing complex loads and rotational accuracy. Appropriate lubrication reduces friction, minimizes wear, and dissipates heat generated during operation. The selection of the right lubricant, based on operating conditions and load requirements, ensures smooth rotation and helps maintain accuracy over extended periods.

    5. Sealing and Contamination Control: Proper sealing and contamination control measures are essential for protecting cross roller bearings from external contaminants such as dust, dirt, and moisture. Seals and shields prevent ingress of harmful particles, maintaining the integrity of the bearing surfaces and minimizing wear that can affect rotational accuracy.

    6. Mounting and Alignment: Accurate mounting and alignment of cross roller bearings are critical for achieving optimal performance. Careful attention should be given to the mounting surfaces, ensuring flatness and perpendicularity, to minimize misalignment and stress concentrations that can impact load distribution and rotational accuracy.

In summary, managing complex loads and rotational accuracy in cross roller bearings requires optimized bearing design, precision manufacturing, proper preload and clearance adjustment, appropriate lubrication, sealing and contamination control, as well as accurate mounting and alignment. By addressing these challenges and implementing effective solutions, cross roller bearings can deliver reliable and precise performance in a wide range of applications.

cross roller bearing

How do cross roller bearings contribute to the proper functioning of aerospace components?

Cross roller bearings play a crucial role in ensuring the proper functioning of aerospace components. These bearings offer several benefits and contribute to the reliable and efficient operation of various aerospace systems. Here’s a detailed look at how cross roller bearings contribute to the proper functioning of aerospace components:

  • Compact Design:
  • Cross roller bearings have a compact design that allows for efficient use of space in aerospace components. Their thin and lightweight structure enables them to be integrated into tight spaces without adding excessive weight or bulk. This compact design is especially advantageous in aerospace applications where weight reduction and space optimization are critical factors.

  • High Load Capacity:
  • Cross roller bearings are designed to handle high radial, axial, and moment loads. They feature crossed rollers arranged at right angles to one another, which enables them to distribute load forces in multiple directions. This high load capacity is essential in aerospace components that experience significant forces and loads during operation, such as landing gear systems, control surfaces, and actuators.

  • Stiffness and Precision:
  • Cross roller bearings offer high stiffness and precision, making them suitable for aerospace applications that require precise positioning and motion control. Their unique design and preloaded arrangement of rollers result in minimal deflection and high rigidity, ensuring accurate and repeatable performance. Aerospace components, such as robotic arms, control mechanisms, and guidance systems, benefit from the stiffness and precision of cross roller bearings.

  • Low Friction and Energy Efficiency:
  • Cross roller bearings are designed to minimize friction and energy losses. The rolling contact between the crossed rollers and raceways reduces friction, resulting in smooth and efficient motion. This low friction characteristic contributes to energy efficiency in aerospace systems, where reducing power consumption and maximizing operational efficiency are crucial considerations.

  • High-Speed Capability:
  • Cross roller bearings are capable of operating at high speeds without sacrificing performance. Their low rotational inertia and optimized design allow them to handle rotational speeds encountered in aerospace applications, such as turbine engines, gearbox systems, and rotating assemblies. The ability to maintain performance and reliability at high speeds is essential for aerospace components that operate under demanding conditions.

  • Reliability and Durability:
  • Cross roller bearings are engineered to provide high reliability and durability in aerospace environments. They are designed to withstand harsh operating conditions, including high temperatures, vibration, shock, and contamination. Aerospace components, such as aircraft engines, landing gear, and control systems, rely on the robustness and longevity of cross roller bearings to ensure continuous and safe operation throughout their service life.

In summary, cross roller bearings play a vital role in the proper functioning of aerospace components. Their compact design, high load capacity, stiffness, precision, low friction, high-speed capability, and reliability contribute to the efficiency, performance, and safety of various aerospace systems. By providing reliable motion control, load support, and durability, cross roller bearings are essential components in aerospace applications, enabling the successful operation of aircraft, spacecraft, and other aerospace platforms.

cross roller bearing

Can you explain the design principles of cross roller bearings and their functions?

Cross roller bearings are designed based on specific principles to achieve their unique performance characteristics. The design principles of cross roller bearings encompass various aspects, including the arrangement of rollers, the structure of rings, and the preload mechanism. Understanding these design principles helps in comprehending the functions and advantages of cross roller bearings. Here’s an explanation of the design principles and functions of cross roller bearings:

  • Arrangement of Rollers:
  • The key design principle of cross roller bearings is the arrangement of cylindrical rollers in a cross configuration between inner and outer rings. The rollers are oriented at right angles to each other and are alternately crossed, forming an X-shaped pattern. This arrangement allows for efficient load distribution, enabling cross roller bearings to support both radial and axial loads simultaneously. The crossed roller design enhances the load-carrying capacity while maintaining a compact profile.

  • Structure of Rings:
  • The rings of cross roller bearings have a specific structure to accommodate the arrangement of rollers. The inner and outer rings are typically thin-walled, which helps reduce weight and improve the flexibility of the bearing. The thin-walled structure also contributes to the compactness of cross roller bearings, making them suitable for applications with limited space. The rings are precision-machined to ensure accuracy and rigidity, providing a stable foundation for the rollers.

  • Preload Mechanism:
  • Cross roller bearings incorporate a preload mechanism to enhance rigidity and minimize clearance. Preloading refers to applying a controlled axial force on the bearing components to eliminate any internal clearance. This axial force is achieved through various methods, such as using spacers, adjusting the ring thickness, or applying a preloading spring. The preload mechanism ensures that the rollers are in constant contact with the raceways, reducing backlash and improving the bearing’s precision and rigidity.

  • Functions of Cross Roller Bearings:
  • The design principles of cross roller bearings result in several important functions that make them advantageous in various applications:

    • Load Carrying Capacity: Cross roller bearings can support high radial, axial, and moment loads simultaneously. The cross arrangement of rollers allows for efficient load distribution, enabling the bearings to handle complex loads with high capacity.
    • Compact and Space-Saving: The arrangement of rollers and the thin-walled ring structure contribute to the compactness of cross roller bearings. They occupy less space compared to other bearing types, making them suitable for applications with limited installation space.
    • High Rigidity and Precision: The crossed roller design and the preload mechanism enhance the rigidity and precision of cross roller bearings. They minimize clearance, reduce deflection, and provide accurate positioning and motion control, making them ideal for applications that require high precision and stability.
    • Moment Load Capability: Cross roller bearings can withstand both radial and axial moments. This capability enables them to support rotational movements and resist forces acting perpendicular to the bearing axis, making them suitable for applications with complex loads and moments.
    • Low Friction and Wear: The rolling motion of cylindrical rollers reduces sliding friction, resulting in improved efficiency and reduced heat generation. Advanced lubrication techniques and high-quality materials further minimize friction and wear, contributing to extended bearing life and reduced maintenance requirements.

In summary, the design principles of cross roller bearings involve the arrangement of rollers, the structure of rings, and the preload mechanism. These principles result in cross roller bearings with functions such as high load-carrying capacity, compactness, high rigidity and precision, moment load capability, and low friction and wear. Understanding these design principles and functions helps in appreciating the advantages and applications of cross roller bearings in various industrial sectors.

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editor by CX 2024-04-08