China OEM Stainless Steel Aluminum Miniature Flexible Beam Coupling Encoder Coupling

Product Description

Product Description

A beam coupling, also known as helical coupling, is a flexible coupling for transmitting torque between 2 shafts while allowing for angular misalignment, parallel offset and even axial motion, of 1 shaft relative to the other. This design utilizes A single piece of material and becomes flexible by removal of material along a spiral path resulting in a curved flexible beam of helical shape. Since it is made from a single piece of material, the Beam Style coupling does not exhibit the backlash found in some multi-piece couplings. Another advantage of being an all machined coupling is the possibility to incorporate features into the final product while still keep the single piece integrity.

 

Changes to the lead of the helical beam provide changes to misalignment capabilities as well as other performance characteristics such as torque capacity and torsional stiffness. It is even possible to have multiple starts within the same helix.

 

The material used to manufacture the beam coupling also affects its performance and suitability for specific applications such as food, medical and aerospace. Materials are typically aluminum alloy and stainless steel, but they can also be made in acetal, maraging steel and titanium. The most common applications are attaching encoders to shafts and motion control for robotics.
Features
1.Materail: Aluminium alloy or steel
2.Elastic Spider: Three type of Elatic Spider can be choosed 86SH. A 92SH. A 98SH. A 
3.Surface treatment: black finished / Anodizing 
4.High sensitivity  High torque rigid Zero back lash 
5.Type of shaft lock: Set screw or Clamp type 

6.Stock to ensure a prompt delivery with in 2 weeks.

7.High-performance with competitive prices.
Except our standard parts, we also can make the parts according customers’ drawing or design according customer requirement, please send us enquiry if there any need.

Detailed Photos

Product Parameters

Packaging & Shipping

Package  Standard suitable package / Pallet or container.
 Polybag inside export carton outside, blister and Tape and reel package available.
 If customers have specific requirements for the packaging, we will gladly accommodate.
Shipping

 10-20working days ofter payment receipt comfirmed (based on actual quantity).
 Packing standard export packing or according to customers demand.   

 Professional goods shipping forward.

Company Profile

FAQ

Q: Are you trading company or manufacturer?

A: We are factory.

Q: How long is your delivery time?

A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.

Q: Do you provide samples ? is it free or extra ?

A: Yes, we could offer the sample for free charge but do not pay the cost of freight.

Q: What is your terms of payment ?

A: Payment=1000USD, 30% T/T in advance ,balance before shippment.

We warmly welcome friends from domestic and abroad come to us for business negotiation and cooperation for mutual benefit. To supply customers excellent quality products with good price and punctual delivery time is our responsibility.

/* 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

shaft coupling

High-Speed Rotations and Signal Accuracy in Encoder Couplings

Encoder couplings are designed to handle high-speed rotations while maintaining accurate signal transmission between the encoder and the driven shaft. Several factors contribute to their ability to achieve this:

1. Precision Manufacturing: Encoder couplings are manufactured with high precision to ensure minimal runout and concentricity errors. This precision minimizes vibrations and ensures accurate signal transmission at high speeds.

2. Low Backlash: Many encoder couplings are designed to have minimal or zero backlash. Backlash refers to the play or movement between the coupling’s mating components. Low backlash reduces signal inaccuracies caused by sudden changes in direction or speed.

3. Balanced Design: Balanced design helps distribute forces and torques evenly across the coupling, reducing the likelihood of vibration-induced signal distortions during high-speed rotations.

4. Material Selection: The choice of materials with suitable mechanical properties plays a role in achieving high-speed performance. Materials with low density and high strength help minimize the coupling’s mass while maintaining structural integrity.

5. Vibration Damping: Some encoder couplings incorporate vibration-damping features, such as elastomeric inserts, to mitigate vibrations and oscillations generated during high-speed rotations.

6. Dynamic Balance: Encoder couplings may undergo dynamic balancing to ensure that any uneven mass distribution is corrected, further reducing vibrations at high speeds.

7. Bearing Support: Proper bearing support on both sides of the encoder coupling helps maintain alignment and reduces stress on the coupling and encoder shaft, enhancing signal accuracy.

Encoder couplings are engineered to offer high-speed capabilities while preserving signal accuracy, making them suitable for applications where precision motion control and signal integrity are critical.

shaft coupling

Impact of Encoder Resolution on Choice of Coupling

The encoder resolution plays a crucial role in selecting an appropriate coupling for your system. Encoder resolution refers to the number of distinct positions a rotary encoder can detect in one full rotation. Here’s how encoder resolution impacts the choice of coupling:

1. Precision Requirements:

Higher encoder resolutions provide finer position accuracy. If your application demands high precision and accuracy, such as in robotics or CNC machines, a coupling that minimizes backlash and offers precise torque transmission is essential.

2. Backlash Sensitivity:

As encoder resolution increases, the system becomes more sensitive to backlash (play between coupling components). To mitigate this, a coupling with minimal backlash, such as a zero-backlash or low-backlash coupling, is recommended to ensure accurate position feedback.

3. Dynamic Response:

Higher encoder resolutions allow systems to detect even small movements, improving dynamic response. For applications requiring rapid and accurate positioning changes, a coupling that provides high torsional stiffness and low wind-up is beneficial.

4. Mechanical Compliance:

Low-resolution encoders may tolerate some misalignment due to their coarser feedback intervals. However, high-resolution encoders are more sensitive to misalignment, making it important to choose a coupling that accommodates misalignment while maintaining signal accuracy.

5. Coupling Selection:

For high-resolution encoders, consider couplings that provide precision, low backlash, and accurate torque transmission, such as beam couplings, bellows couplings, or Oldham couplings. These couplings help maintain the integrity of position feedback and optimize system performance.

6. Environmental Factors:

The operating environment can affect the choice of coupling. For applications with extreme conditions, such as temperature fluctuations or aggressive chemicals, select a coupling material that can withstand these conditions without compromising the encoder’s accuracy.

Ultimately, the encoder resolution influences the coupling choice by demanding a coupling that complements the precision, accuracy, and dynamic performance required by the application.

shaft coupling

Key Functions and Benefits of Using an Encoder Coupling

An encoder coupling plays a vital role in motion control and automation systems, offering several functions and benefits:

1. Accurate Position and Speed Sensing: Encoder couplings ensure precise transmission of rotational motion between the motor and the encoder, allowing accurate measurement of position and speed.

2. Misalignment Compensation: They can accommodate angular, radial, and axial misalignments between the motor and encoder shafts, maintaining accurate motion even in imperfect alignment conditions.

3. Torsional Stiffness: Encoder couplings provide torsional rigidity to minimize torsional deflection, ensuring that the encoder’s output signals accurately reflect the actual motion of the motor.

4. Signal Integrity: By maintaining precise alignment, they prevent signal distortion or loss, leading to accurate position and speed feedback from the encoder.

5. Reduced Wear: Proper alignment reduces stress on shafts, bearings, and other components, prolonging the lifespan of both the motor and encoder.

6. Increased Efficiency: Encoder couplings help achieve smoother motion control, enhancing overall system efficiency and reducing the likelihood of jerky movements.

7. Enhanced Performance: With accurate position and speed feedback, encoder couplings contribute to improved system performance, consistency, and repeatability.

8. Flexible Design: They come in various designs and materials to suit different applications and requirements.

9. Compatibility: Encoder couplings are compatible with various motor and encoder types, making them versatile solutions for different setups.

10. Easy Installation: Most encoder couplings are designed for straightforward installation, reducing downtime during setup or maintenance.

Overall, encoder couplings are essential components that ensure precise motion control, accurate position sensing, and reliable automation in various industries and applications.

China OEM Stainless Steel Aluminum Miniature Flexible Beam Coupling Encoder Coupling  China OEM Stainless Steel Aluminum Miniature Flexible Beam Coupling Encoder Coupling
editor by CX 2024-03-18