China Hot selling RGW65CC RGR65 CHINAMFG cam roller linear guide rails for Transportation equipment

Product Description

RGW-CC Series / Heavy Load Roller Type

RGW20CC RGW25CC RGW30CC RGW35CC RGW45CC RGW55CC RGW65CC

Model Number H
(mm)
W
(mm)
B
(mm)
L
(mm)
G
(mm)
WR
(mm)
Block Weight
(kg)
Rail Weight
(kg)
RGW20CC 30 63 53 86 5.3 20 0.47 2.76
RGW25CC 36 70 57 97.9 12 23 0.72 3.08
RGW30CC 42 90 72 109.8 12 28 1.16 4.41
RGW35CC 48 100 82 124 12 34 1.75 6.06
RGW45CC 60 120 100 153.2 12.9 45 3.43 9.97
RGW55CC 70 140 116 183.7 12.9 53 5.43 13.98
RGW65CC 90 170 142 232 12.9 63 11.63 20.22

Packing:
Please contact us for more pictures of different packing.

Universal Packing

Without any logo on bearings or packing.

CHINAMFG Packing

With our brand CHINAMFG on bearings and packing.

Customized Packing

Depends on buyer’s requirements.

Original Brand Packing

Bearing and packing are both original. Please contact us for pictures.

OEM Service:
Custom the size, logo, packing of linear guides.

Certificate:
Our bearings comes with CE certificate and our company has been verified by SGS Group. Please contact us for clear certificate photos.

To get price list of linear gudies, please contact us. /* 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

Application: Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane
Material: Steel
Structure: Tyre Crane
Installation: All-Terrain Crane
Driven Type: Hydraulic
Carrying Capacity: Weight Level
Samples:
US$ 156.26/Piece
1 Piece(Min.Order)

|

Customization:
Available

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linear rail

Are there specific considerations for choosing linear rails in applications with varying environmental conditions or precision requirements?

Yes, specific considerations come into play when choosing linear rails for applications with varying environmental conditions or precision requirements. These considerations ensure that the selected linear rail system is well-suited to the specific challenges and demands of the application. Here are key factors to consider:

Environmental Conditions:

  • Temperature: In environments with extreme temperatures, the linear rail materials and coatings must withstand thermal expansion or contraction. High-temperature environments may require materials with enhanced heat resistance, while low-temperature settings may demand materials that remain durable and flexible in cold conditions.
  • Corrosion Resistance: For applications in corrosive environments, such as those with exposure to moisture or chemicals, choosing corrosion-resistant materials or coatings is crucial. Stainless steel or specialized coatings can protect against corrosion and extend the lifespan of the linear rail.
  • Contaminant Resistance: Environments with dust, debris, or other contaminants require linear rails with effective sealing mechanisms. Sealed or covered linear rail systems prevent the ingress of contaminants, preserving the integrity of the system and ensuring reliable performance.

Precision Requirements:

  • Accuracy and Repeatability: Applications demanding high precision, such as in CNC machining or optical systems, require linear rails with superior accuracy and repeatability. Choosing rails with tight tolerances, precision-ground surfaces, and advanced manufacturing processes ensures consistent and reliable linear motion.
  • Load Capacity: Precision applications may have stringent load requirements. Selecting linear rails with the appropriate load-bearing capacity ensures that the system can handle the specific loads without compromising precision or accuracy.
  • Smooth Operation: Precision linear motion often requires smooth and quiet operation. Rails with anti-friction coatings, self-lubricating properties, or advanced bearing technologies contribute to smooth and silent linear movement, meeting the demands of precision applications.

It’s essential to thoroughly evaluate the environmental conditions and precision requirements of the application before selecting linear rails. Collaborating with experienced suppliers or manufacturers can provide valuable insights and assistance in choosing the most suitable linear rail system that meets the specific challenges posed by varying environmental conditions and precision standards.

linear rail

Can you explain the principles behind linear rail operation and load-bearing capabilities?

The operation of linear rails and their load-bearing capabilities are governed by fundamental principles:

1. Rolling Contact: Linear rails typically utilize rolling contact elements, such as recirculating ball or roller bearings, between the rail and the carriage. These elements reduce friction and enable smooth motion by rolling along the profiled surface of the rail.

2. Profiled Rail Design: The rail is designed with a specific profile, often featuring raceways for the rolling elements. This profile provides guidance to the carriage, ensuring that it moves along a predetermined path without deviations.

3. Load Distribution: The load-bearing capabilities of linear rails are achieved through the distribution of the applied load across the rolling elements. This design allows for the effective support of loads, both radial and axial, while minimizing stress on individual components.

4. Rigidity: Linear rails are designed to be rigid, preventing deflection or bending during operation. This rigidity is essential for maintaining accuracy and precision, especially in applications where high loads or forces are involved.

5. Lubrication: Proper lubrication is crucial for reducing friction and minimizing wear between the rolling elements and the rail. Lubrication also helps dissipate heat generated during operation, contributing to the overall efficiency and longevity of the linear rail system.

6. Materials and Construction: The materials used in the construction of linear rails, such as hardened steel or reinforced alloys, contribute to their load-bearing capabilities. The choice of materials ensures durability and resistance to wear under various operating conditions.

Overall, the combination of rolling contact, profiled rail design, load distribution, rigidity, lubrication, and appropriate materials enables linear rails to operate efficiently and support varying loads in industrial applications. Understanding these principles is essential for selecting the right linear rail system based on the specific requirements of a given application.

linear rail

What are linear rails, and how are they used in linear motion systems?

Linear rails, also known as linear guides or linear slides, are mechanical components used in linear motion systems to facilitate smooth and precise movement along a straight path. They typically consist of a rail and a carriage. The rail is a long, rigid structure with a specially designed profile, while the carriage is mounted on the rail and holds the load to be moved.

Linear rails are widely used in various applications, including manufacturing machinery, robotics, 3D printers, and automated systems. They provide guidance and support to the moving components, minimizing friction and ensuring accurate and repeatable motion. The design of linear rails allows for high load-carrying capacity and can accommodate different types of loads, such as radial or axial loads.

Linear motion systems incorporating linear rails offer advantages such as improved precision, reduced wear and tear, and increased efficiency in comparison to traditional sliding mechanisms. The choice of linear rails depends on factors such as load capacity, speed, accuracy requirements, and environmental conditions in the specific application.

China Hot selling RGW65CC RGR65 CHINAMFG cam roller linear guide rails for Transportation equipment  China Hot selling RGW65CC RGR65 CHINAMFG cam roller linear guide rails for Transportation equipment
editor by CX 2024-04-16