Product Description

Product Description

CNC Machining Milling Turning Aluminum Stainless Steel Low Force Link Slimline Strain Sensor Connect Body Liner Stage  Liner Stage Thread Adaptor Beam Coupling

Product Parameters

Processing	CNC Machining, CNC Milling and Turning, Drilling, Grinding, Stamping, Tapping, Bending
Surface Finishing	Electroplating, Anodizing, Polishing, Chrome Plating, Zinc plating, Nickel plating, Electrophoresis, Sandblasting, Passivation, Powder Coating, Painting, etc.
Certification standards	ISO9001:2015  IAFT16949:2016
Service type	OEM and ODM
Tolerance	+/-0.005mm
Surface Roughness	Ra0.8
Dimensions	According to Customer’s Drawing
Processing Equipments	CNC Machining Center, CNC Milling Machine, CNC Turning Machine, CNC Gantry, Vertical CNC center, Horizantal CNC center, Drilling Machine,Grinding Machine, etc.
Testing Equipments	CMM,Laser Precision Detection Projector, Pull Tester, Automatic Optical Inspector, Salt Spray Tester, Durometer, Tensile Machine Calipers
Application	Automotive industry, Medical DeviceS, UAV Industry, Communication Electronics Appliance, Robot, Mold Components Processed and Fixrure, 0il, Gas and Other Heavy Equipments.
Drawing Format	PDF/JPEG/AI/PSD/CAD/Dwg/Step/LGS
MOQ	1 piece
QC Policy	100% inspection with report, random inspection before shipment, third-party inspections can be provided CHINAMFG request
Packaging	PE bags or bubble bags, boxes, cartons, pallet or as per customers’ requirements
Trade Terms	EXW, FOB, CIF, As per customers’ request
Payment Terms	L/C, T/T, D/P, Western Union, Paypal, Money Gram, etc.
Delivery Time	7-14 working days after deposit payment received for samples,official orders negotiable
Production Capacity	1000000pcs/Months

 

Company Profile

Production Line

 

 

Equipments List

Certifications

FAQ

1: Are You a Manufacturer?
Yes, we specialize in manufacturing of CNC machining parts over 20 years.

2. When Can I Get the Price?
Quotation will be provid within 24 hours after inquiry is received with full product information and drawing.

3: How Long is Your Delivery Time?
It’s depends on the products requirements ang quantity. Normally the mass order lead time is around 14-20days.

4: How Can You Asure the Quality?
100% inspection and we could provide full inspection reports as customer requests before shipment.

5: Do You Provide Samples ? 
Yes, we can provide samples, please provide full product information and drawing.

6: Why Choose Us?
We have advanced technology and equipment, world-class team for techincal and aftersales service. We provide high quality product ,competitive price with fast lead time

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Torque and Speed Ratings for Different Sizes and Materials of Beam Couplings

The torque and speed ratings of beam couplings vary depending on their size, design, and material composition. Different manufacturers offer beam couplings in various configurations to meet specific application requirements. Here are some general considerations regarding torque and speed ratings for different sizes and materials of beam couplings:

• Size and Design:

  Beam couplings come in different sizes and designs to accommodate various shaft diameters and misalignment compensation needs. Larger beam couplings typically have higher torque ratings, as their size allows for more robust construction and increased torsional rigidity. Likewise, different designs, such as single-beam, multi-beam, or bellows couplings, can affect the torque and speed capabilities.

• Material Composition:

  The choice of material for beam couplings significantly impacts their torque and speed ratings. Common materials used in beam couplings include stainless steel, aluminum, and other high-strength alloys. Stainless steel couplings generally have higher torque ratings and are more suitable for high-speed applications due to their excellent mechanical properties and resistance to wear and corrosion.

• Manufacturer Specifications:

  Each manufacturer provides specific torque and speed ratings for their beam coupling products. These ratings are determined through extensive testing and analysis to ensure reliable and safe operation within the specified limits. Always refer to the manufacturer’s datasheets and technical documentation for accurate and up-to-date information on torque and speed ratings.

• Operating Environment:

  The operating environment can also influence the torque and speed ratings of beam couplings. Factors such as temperature, humidity, and exposure to chemicals or harsh conditions may affect the material properties and performance of the coupling. Consider the application’s specific environment when selecting the appropriate coupling.

It is crucial to choose a beam coupling that matches the torque and speed requirements of your application. Exceeding the rated torque or speed can lead to premature wear, coupling failure, and potential damage to other system components. Conversely, selecting a coupling with excessive torque or speed capacity may result in unnecessary costs and reduced system efficiency.

When selecting a beam coupling, always consult the manufacturer’s documentation and consider the specific application requirements to ensure that the chosen coupling can handle the intended torque and speed levels effectively and safely.

Safety Considerations for Installing or Using Beam Couplings in Industrial Setups

When installing or using beam couplings in industrial setups, several safety considerations should be taken into account to ensure the safe and reliable operation of the motion control systems. Here are some important safety considerations:

• Proper Installation:

  Ensure that beam couplings are correctly installed according to the manufacturer’s instructions. Follow the recommended torque values for tightening set screws or clamps to avoid over-tightening or under-tightening, which could lead to coupling failure or excessive wear.

• Shaft Alignment:

  Accurate shaft alignment is crucial to prevent unnecessary stress on the coupling and connected components. Misalignment can lead to premature wear, vibrations, and reduced system performance. Utilize alignment tools and techniques to achieve precise shaft alignment within the coupling’s specified tolerances.

• Overloading:

  Avoid exceeding the beam coupling’s rated torque capacity or maximum axial load. Overloading the coupling can lead to deformation, coupling failure, or damage to connected equipment. Ensure that the coupling is appropriately sized for the application’s torque requirements.

• Regular Inspection:

  Perform routine inspections of beam couplings to check for signs of wear, damage, or misalignment. Address any issues promptly and replace worn or damaged couplings to prevent unexpected failures.

• Environmental Conditions:

  Consider the operating environment when selecting beam couplings. Different materials offer varying levels of resistance to corrosion, temperature extremes, and other environmental factors. Choose a material that can withstand the specific conditions of the industrial setup.

• Protective Enclosures:

  If the beam couplings are exposed to moving parts or hazardous equipment, consider using protective enclosures or guards to prevent accidental contact and ensure operator safety.

• Regular Maintenance:

  Follow a regular maintenance schedule for the entire motion control system, including beam couplings. Lubricate moving parts as recommended by the manufacturer and replace worn components to maintain reliable operation.

• Training and Awareness:

  Ensure that personnel involved in the installation, operation, and maintenance of the motion control system are properly trained and aware of safety procedures. Emphasize the importance of following safety guidelines to prevent accidents and injuries.

By taking these safety considerations into account, industrial setups can enhance the safety and efficiency of their motion control systems. Regular maintenance, proper installation, and adherence to safety guidelines are essential to ensuring the longevity and reliable performance of beam couplings and the overall safety of the workplace.

Considerations for Using Beam Couplings in High-Speed Applications

When using beam couplings in high-speed applications, several specific considerations are essential to ensure optimal performance, safety, and reliability. High-speed operation introduces additional challenges that need to be addressed to maximize the benefits of beam couplings. Here are the key considerations:

• 1. Balance and Runout:

  Ensure that the beam coupling and connected components are well-balanced and have minimal runout. Imbalanced couplings can cause vibration and resonance at high speeds, leading to reduced precision and potential damage to the system. Minimizing runout helps maintain smooth and stable operation.

• 2. Material Selection:

  Choose high-quality materials for the beam coupling that can withstand the forces and stresses experienced during high-speed operation. High-strength alloys, such as stainless steel or aluminum, are commonly used for beam couplings in high-speed applications due to their excellent mechanical properties and fatigue resistance.

• 3. Torsional Rigidity:

  Consider the required torsional rigidity for your specific high-speed application. While beam couplings offer good torsional rigidity, extremely high-speed applications might demand specialized couplings with even higher rigidity to ensure accurate torque transmission and minimize torsional deformation.

• 4. Critical Speed:

  Be aware of the critical speed of the beam coupling, which is the rotational speed at which the coupling’s natural frequency coincides with the operating speed. At critical speed, the coupling can experience excessive vibration and become susceptible to resonance, leading to potential failure. Operating below the critical speed is essential to avoid such issues.

• 5. Lubrication:

  For high-speed applications, proper lubrication of the beam coupling is crucial to reduce friction, wear, and heat generation. Lubrication also helps dissipate any generated heat, maintaining the coupling’s integrity during prolonged operation.

• 6. Cooling:

  In applications with extended high-speed operation, consider implementing cooling mechanisms to prevent overheating of the beam coupling. Excessive heat can affect the material properties and lead to premature wear or failure.

• 7. Dynamic Balancing:

  For high-speed systems, it is essential to dynamically balance the rotating components, including the beam coupling, to minimize vibration and prevent potential damage to the system and surrounding equipment.

• 8. Regular Inspection and Maintenance:

  Perform regular inspections and maintenance to detect any signs of wear, fatigue, or misalignment in the beam coupling. Addressing issues promptly can prevent unexpected failures and costly downtime.

By carefully considering these factors and ensuring proper selection, installation, and maintenance of beam couplings in high-speed applications, you can enhance performance, extend the life of the coupling, and promote safe and reliable operation in your motion control system.

editor by CX 2024-02-09