China Hot selling 3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Guide Slide Rail for 3D Printer

Product Description

3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Xihu (West Lake) Dis. Slide Rail for 3d Printer

Quality Control
1. ISO 9001:2000 quality management system.
2. Self design and process hardware parts, ultra accuracy control and low defective rate.
3. Self built large factory buildings equipped with totally new assembly lines, control production time accurate to hours. 
4. Large scale lab room with professional machine testing system, well trained staff 360-degree inspection each machine before shipping.

Product Keywords

Easy to Equipped Good Price Quality Ratio Energy Saving

Products & Staff Pictures

FAQ
1. Q: Your products looks nice, can I get a full product catalog with specification for study?
A: Yes, send your inquiry to CHINAMFG sales team.

2. Q: Can you tell me what is your company main business?
A: We mainly design and produce linear modules/actuators/motors by self, then provide OEM and export service for overseas clients.

3. Q: Which famous enterprise use your machines?
A: In China domestic, include BYD, Foxconn, LENS Technology and HUAWEI/Apple/OPPO/VIVO etc. supply chain manufacturers are our key account.

4. Q: If so, is it possible get sample machines before trial order?
A: Yes, mail your request details to CHINAMFG sales team, we can modify the 3D drawing, prepare 1 or pair of customized sample meet your special needs.

5. Q: Good, how long is your lead-time?
A: 7 working days for sample prepare, 10-15 working days for large quantity order production. (Confirm each bill of international payment need extra 3 working days)

6. Q: Sounds good, how long is the warranty period of your machines?
A: 12-months warranty is provided for our linear modules/actuators/motors, strictly based on sales contract.

7. Q: Wow, I want to do business with your company, what kind of payment terms?
A: Sample order, trial order, repeat order, we accept T/T payment, 30% deposit when signing contract, rest amount pay before shipping. (L/C payment only available for designated countries’ client)

8. Q: What is the best shipment way for your products?
A: For sample machines, the best delivery way is through airplane transport(or land transport), takes 1 week transfer to destination airport, for large quantity goods, the best shipping way is via CHINAMFG ship(or land transport), takes 1 month to destination port, FOB HangZhou, HangZhou, HangZhou, ZheJiang or other main port in China. 
/* 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: PC, LCD, PCB,PDP, Biotechnology, Semiconductor,etc
Material: Aluminium
Structure: Semi-Sealed
Installation: All Automation Machines
Driven Type: Servo Motor
Carrying Capacity: 10 Kg
Samples:
US$ 200/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

linear rail

Can you explain the role of linear rails in reducing friction and wear in linear motion applications?

Linear rails play a pivotal role in reducing friction and wear in linear motion applications through several key mechanisms:

  • 1. Precision Design: Linear rails are precision-engineered with specific profiles and tolerances. The precise design minimizes contact points between the rail and the carriage, reducing friction and wear to a minimum during linear motion.
  • 2. Rolling Contact: Many linear rails utilize rolling contact elements, such as recirculating ball bearings or roller bearings. These elements roll along the profiled surface of the rail, significantly reducing friction compared to sliding contact. Rolling contact also distributes the load evenly, further minimizing wear on specific points.
  • 3. Low-Friction Coatings: Some linear rails feature low-friction coatings on their surfaces. These coatings, often made of materials like Teflon or similar compounds, create a smooth and slippery surface, reducing the coefficient of friction. This results in smoother linear motion and less wear on the rail and carriage components.
  • 4. Lubrication: Proper lubrication is essential for reducing friction and wear in linear motion systems. Lubricants applied to the rolling elements or the rail surface create a thin film that separates the moving parts, minimizing direct contact and friction. Regular lubrication intervals are crucial for maintaining optimal performance and extending the lifespan of the linear rail system.
  • 5. Sealing Mechanisms: Linear rails often incorporate sealing mechanisms to protect against contaminants. Dust, debris, and moisture can contribute to increased friction and wear. Effective sealing prevents the ingress of contaminants, preserving the integrity of the rail and reducing wear on critical components.
  • 6. Material Selection: The choice of materials for both the rail and carriage components influences friction and wear. High-quality materials with good wear resistance, such as hardened steel or specialized alloys, contribute to the long-term durability of the linear rail system.
  • 7. Regular Maintenance: Implementing a regular maintenance schedule is crucial for reducing friction and wear. Inspections, cleaning, and lubrication ensure that the linear rail system operates smoothly and efficiently. Identifying and addressing any signs of wear early can prevent more significant issues and extend the overall lifespan of the system.

By incorporating these design features and maintenance practices, linear rails effectively minimize friction and wear in linear motion applications. This not only enhances the efficiency and accuracy of the system but also contributes to the long-term reliability and durability of the linear rail.

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

Can you provide examples of products or equipment that rely on linear rails for accurate linear motion?

Many products and equipment across various industries rely on linear rails for accurate linear motion. Some examples include:

  • CNC Machines: CNC milling machines, lathes, and routers use linear rails to achieve precise and controlled movement of cutting tools, ensuring accurate machining processes.
  • Robotic Systems: Industrial robots, collaborative robots, and robotic arms incorporate linear rails for precise and repeatable linear movement in tasks such as assembly, pick-and-place, and material handling.
  • 3D Printers: Linear rails are essential components in 3D printers, enabling the precise positioning of print heads and build platforms during the additive manufacturing process.
  • Automated Conveyor Systems: Linear rails contribute to the accurate movement of products on conveyor systems in industries such as logistics, manufacturing, and distribution.
  • Medical Imaging Equipment: Linear rails are used in medical devices like MRI machines and CT scanners to ensure precise linear movement in the imaging process.
  • Aerospace Testing Equipment: Linear rails play a crucial role in aerospace testing equipment, providing accurate linear motion for testing components and systems under various conditions.
  • High-Precision Measurement Devices: Instruments used for precision measurements, such as coordinate measuring machines (CMMs), rely on linear rails to achieve accurate and repeatable positioning of measurement probes.

These examples highlight the diverse applications of linear rails across industries where precise linear motion is essential for the functionality and performance of the equipment.

China Hot selling 3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Guide Slide Rail for 3D Printer  China Hot selling 3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Guide Slide Rail for 3D Printer
editor by Dream 2024-05-16