Product Description

RU178X Cross Cylindrical Roller Bearings Introduction:

RU178X Cross Cylindrical Roller Bearings are the overall structure of the inner and outer rings. Compared with the ERBH model, there are mounting holes on the end face, which is convient for the structural design appliction of end face installation. It can be installed and used without the shaft of bearing seat.
RU178X Cross Cylindrical Roller Bearings Display:
/* 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: Large (200-430mm)
Material: Bearing Steel
Spherical: Non-Aligning Bearings
Load Direction: Axial Bearing
Samples:
US$ 188/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

cross roller bearing

Can you provide examples of scenarios where precision and rigidity are crucial with cross roller bearings?

Precision and rigidity are critical requirements in various scenarios where cross roller bearings are employed. These bearings excel in applications that demand accurate motion control, minimal deflection, and high stiffness. Here are some examples of scenarios where precision and rigidity are crucial with cross roller bearings:

  • Robotic Arm Joints:
  • Robotic arm joints require precise and repeatable motion for tasks such as pick-and-place operations, assembly, and welding. Cross roller bearings provide the necessary rigidity to withstand the loads and maintain accurate positioning, ensuring smooth and controlled movement of the robotic arm.

  • Machine Tool Spindles:
  • In machine tools, such as milling machines and lathes, the spindle's precision and rigidity are crucial for achieving accurate and high-quality machining. Cross roller bearings used in machine tool spindles enable precise rotation with minimal deflection, ensuring the accuracy and surface finish of the machined components.

  • Precision Optical Instruments:
  • In precision optical instruments like telescopes and microscopes, cross roller bearings are employed in stages and mounts to enable precise positioning and alignment. The rigidity of these bearings ensures stability and eliminates unwanted vibrations, allowing for clear and accurate observations or measurements.

  • Coordinate Measuring Machines (CMMs):
  • CMMs are used for dimensional inspection and measurement of complex parts. Cross roller bearings are crucial in the moving stages of CMMs, providing the necessary rigidity and precision to accurately position the probing system. This ensures precise and repeatable measurements with high accuracy.

  • Semiconductor Wafer Handling:
  • In semiconductor manufacturing, cross roller bearings are used in wafer handling robots and stages. These bearings enable precise and controlled motion during wafer loading, alignment, and transfer. The rigidity of cross roller bearings ensures accurate positioning of wafers, critical for the manufacturing of integrated circuits with nanoscale precision.

  • Aircraft Control Surfaces:
  • Aircraft control surfaces, such as ailerons, elevators, and rudders, require precise and responsive movement for safe and efficient flight control. Cross roller bearings are employed in the hinge mechanisms of these control surfaces, providing the necessary rigidity and accuracy to ensure precise control inputs and aerodynamic stability.

  • Surgical Robots:
  • In surgical robots, precision and rigidity are crucial for performing delicate and precise surgical procedures. Cross roller bearings are used in robotic joints and arms to enable precise and controlled movement of surgical tools. The rigidity of these bearings ensures accurate positioning and minimizes any unintended motion during surgery.

  • Solar Tracking Systems:
  • In solar tracking systems, which orient solar panels to maximize energy capture, precision and rigidity are essential for accurate tracking throughout the day. Cross roller bearings used in solar tracking systems provide the necessary stiffness to withstand wind loads and maintain precise alignment, optimizing energy generation from sunlight.

In summary, precision and rigidity are crucial in scenarios where cross roller bearings are utilized. Examples include robotic arm joints, machine tool spindles, precision optical instruments, coordinate measuring machines, semiconductor wafer handling, aircraft control surfaces, surgical robots, and solar tracking systems. In these applications, cross roller bearings ensure accurate motion control, minimal deflection, and reliable performance, allowing for precise operations, measurements, and control in various industries.

cross roller bearing

How do temperature variations and environmental conditions impact the performance of cross roller bearings?

Temperature variations and environmental conditions can significantly impact the performance of cross roller bearings. These factors affect the bearing's materials, lubrication, and overall operation, and can lead to various performance issues. Here's a detailed look at how temperature variations and environmental conditions impact cross roller bearings:

  • Material Expansion and Contraction:
  • Temperature variations cause materials to expand or contract. Cross roller bearings typically consist of different components made of various materials, such as steel, aluminum, or plastics. When exposed to temperature changes, these materials expand or contract at different rates, which can affect the internal clearances and preload of the bearing. Excessive expansion or contraction can lead to changes in bearing tolerances, increased friction, and potential issues with fitting and alignment.

  • Lubrication Performance:
  • Temperature variations can impact the performance of lubricants used in cross roller bearings. Lubricants have specific viscosity characteristics at different temperatures. High temperatures can cause lubricants to thin out, leading to reduced film thickness and increased friction. Conversely, low temperatures can cause lubricants to thicken, making it challenging for them to flow properly and provide sufficient lubrication. Inadequate lubrication due to temperature variations can result in increased wear, higher operating temperatures, and potential bearing failure.

  • Thermal Expansion of Bearing Components:
  • Temperature variations can also cause the bearing components themselves to expand or contract. This can affect the internal clearances and preload within the bearing. If the temperature rises, the bearing components may expand, leading to reduced internal clearances and potential binding or increased friction. On the other hand, lower temperatures can cause the bearing components to contract, resulting in increased internal clearances and potential play or reduced stiffness. These changes in clearances and preload can impact the precision, smoothness, and overall performance of the cross roller bearing.

  • Corrosion and Rust:
  • Environmental conditions, including moisture, humidity, and exposure to corrosive substances, can lead to corrosion and rust formation on the bearing surfaces. Corrosion can degrade the bearing's performance by increasing friction, causing surface damage, and reducing the effectiveness of lubrication. In severe cases, corrosion can lead to pitting, spalling, or premature failure of the cross roller bearing. Proper sealing, lubrication, and protection against corrosive elements are essential to mitigate the impact of environmental conditions on the bearing's performance.

  • Contamination and Particle Ingress:
  • Environmental conditions can introduce contaminants, such as dust, dirt, or debris, into the bearing system. These particles can enter through open seals or shields or when the machine is operating in dusty or dirty environments. Contamination can cause abrasive wear, increase friction, and compromise the bearing's precision and reliability. The presence of contaminants can also accelerate lubricant degradation and lead to lubricant contamination, further impacting the bearing's performance.

  • Operating Life and Durability:
  • Temperature variations and harsh environmental conditions can affect the operating life and durability of cross roller bearings. High temperatures can accelerate the aging and degradation of bearing materials, lubricants, and seals, reducing their overall lifespan. Exposure to extreme environmental conditions, such as high humidity or corrosive substances, can lead to premature wear and failure. Proper selection of materials, lubrication, and protective measures, such as seals and shields, is crucial to ensure the longevity and reliability of cross roller bearings in challenging operating environments.

In summary, temperature variations and environmental conditions have a significant impact on the performance of cross roller bearings. They can affect the materials, lubrication, internal clearances, and overall operation of the bearing. It is essential to consider these factors during the design, selection, and maintenance of cross roller bearings to ensure optimal performance, reliability, and longevity in various operating environments.

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.

China high quality High Rigidity High Load Ru178X Cross Cylindrical Roller Bearings with Medical Devices   bearing blockChina high quality High Rigidity High Load Ru178X Cross Cylindrical Roller Bearings with Medical Devices   bearing block
editor by CX 2024-04-12