Product Description

Features:
1. Right-angle fasteners: Right-angle fasteners are suitable for connecting 2 steel pipes at right angles and are used to construct the corner sections of scaffolding. They are usually made through a forging process to provide excellent strength and stability.
2. Rotary fasteners: Rotary fasteners are suitable for connections that require adjustable angles, providing greater flexibility. They are also forged to ensure a CHINAMFG structure.
3. Fixed fasteners: Fixed fasteners are used to connect steel pipes and are suitable for connection points that require stability. They are also made through a forging process to ensure a strong structure.
4. Pig ear fasteners: Pig ear fasteners are suitable for occasions that require high-strength connections, and are usually used in special projects such as suspension beams. The forging process is also used to meet special needs.
5. Suspended beam fasteners: Suspended beam fasteners are mainly used to support or hang heavier objects to provide additional support. They are also forged to ensure safety.
6. Outer pipe tip: The outer pipe tip is used to protect the end of the steel pipe and reduce the risk of damage. It is the only fastener that uses stamping technology.
AFQ
1. : What types of scaffolding services does your company provide?
We provide many types of scaffolding services, including cantilever scaffolding, portal scaffolding, cantilever scaffolding, etc., as well as disc systems, steel treads, fasteners, steel supports and other products.

2. :What safety standards does your company’s scaffolding comply with?
We strictly follow international, national and local safety standards to ensure that all scaffolding operations comply with relevant regulations and safety requirements.

3.: How to get a quotation from your company?
You can submit project details through the online quotation form on our official website, or contact our sales team directly for detailed quotation information.

4. :What successful scaffolding project experience does your company have?
We have been involved in many successful projects over the past 3 years including multi-storey buildings, bridge projects and more. Please refer to our project case page for specific cases.

5: Does your company provide services for customized scaffolding products?
Yes, we can provide customized scaffolding products according to customers’ specific needs, including customization of size, shape and load capacity.
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Specific Maintenance Requirements for Prolonging the Life of Beam Couplings

Proper maintenance is essential for prolonging the life and ensuring the optimal performance of beam couplings in motion control systems. While beam couplings are designed for reliability and low maintenance, some specific maintenance practices can help maximize their longevity. Here are the key maintenance requirements:

• Regular Inspection:

  Perform regular visual inspections of the beam couplings to check for signs of wear, damage, or misalignment. Look for any visible cracks, deformations, or signs of corrosion. Detecting issues early can prevent further damage and potential coupling failure.

• Lubrication:

  For couplings with movable components, such as beam couplings with elastomeric elements or bellows, proper lubrication is crucial. Follow the manufacturer’s recommendations for lubrication intervals and use the appropriate lubricants. Lubrication helps reduce friction and wear, ensuring smooth operation.

• Torque Checks:

  Periodically check the tightness of the coupling’s fasteners, such as set screws or clamps. Over time, vibrations and loads can cause these fasteners to loosen. Make sure they are properly tightened to maintain a secure connection between the shafts and the coupling.

• Environmental Protection:

  If the beam couplings are exposed to harsh environments, consider implementing protective measures. Shield the couplings from dirt, dust, moisture, and corrosive substances that could impact their performance and lead to premature wear.

• Alignment Checks:

  Regularly check the alignment of the connected shafts. Misalignment can place additional stress on the coupling and reduce its lifespan. Make any necessary adjustments to ensure proper shaft alignment within the coupling’s specified tolerance.

• Load Capacity:

  Ensure that the beam coupling is operating within its rated load capacity. Avoid exceeding the maximum torque or axial load to prevent overloading the coupling and potential failure.

• Replace Worn Components:

  If any components of the beam coupling show signs of wear or damage beyond their limits, replace them promptly. Continuing to use worn or damaged couplings can lead to unsafe operation and compromise system performance.

By following these specific maintenance requirements, you can prolong the life of beam couplings, reduce the risk of unexpected failures, and maintain the overall efficiency and reliability of your motion control system. Regular inspections and proactive maintenance practices are crucial to ensure trouble-free operation and maximize the lifespan of beam couplings in various applications.

Beam Couplings Accommodating Different Shaft Diameters and Mounting Configurations

Beam couplings are highly versatile and can accommodate different shaft diameters and mounting configurations, making them suitable for a wide range of motion control applications. Their design and construction allow for flexibility in adapting to various shaft sizes and mounting setups. Here’s how beam couplings achieve this:

• Multiple Bore Sizes:

  Beam couplings are available in various bore sizes to match different shaft diameters. Manufacturers offer a wide range of coupling sizes, ensuring that there is an appropriate coupling size available to fit the specific shaft diameter of your application. Some beam couplings come with set screws or clamps that securely fasten onto the shafts, accommodating shafts of different sizes within the coupling’s specified range.

• Clamp or Set Screw Mounting:

  Beam couplings commonly employ clamp or set screw mounting methods to connect to the shafts. Clamp-style couplings use split hubs that can be tightened around the shaft with screws, providing a secure and concentric connection. Set screw couplings, on the other hand, utilize screws to press against the shaft, achieving a firm and non-marring grip.

• Step Bores and Adapters:

  In cases where the shafts have significantly different diameters or when transitioning between metric and imperial measurements, some beam couplings offer step bores or adapter options. Step bores feature multiple bore sizes within the same coupling, allowing for flexibility in accommodating various shaft diameters. Adapters are also available to bridge the gap between different shaft sizes.

• Customization:

  For unique or specialized applications, manufacturers may offer customization options for beam couplings. This could include modifying the bore sizes, lengths, or other design parameters to suit specific shaft dimensions and mounting configurations.

• Compatibility with Misalignment:

  Beam couplings are designed to handle misalignment between the shafts. This characteristic provides additional flexibility during installation, as it can compensate for slight positioning errors or misalignment during assembly.

When selecting a beam coupling for your application, ensure that the chosen coupling size matches the shaft diameters within the specified range. Also, consider the mounting method that best suits your setup, whether it’s clamp-style or set screw-type. For applications with specific requirements, such as adapting between different shaft sizes, explore options with step bores or adapters or inquire about custom solutions from coupling manufacturers.

Overall, the ability of beam couplings to accommodate different shaft diameters and mounting configurations makes them a versatile and widely-used choice in motion control systems across various industries.

Beam Coupling: Function and Role in Mechanical Systems

A beam coupling, also known as a helical coupling or helical beam coupling, is a type of flexible coupling used in mechanical systems to connect two shafts while compensating for misalignment and transmitting torque. It consists of one or more helical beams (usually made of metal) that connect the shafts and allow for angular, axial, and parallel misalignment while maintaining a torsionally rigid connection. Here’s how a beam coupling functions in mechanical systems:

Structure:

A beam coupling typically has two ends, each with a helical beam. The beams are oriented at opposite angles to create a helix shape. The beams can vary in number, and some designs may include additional features like slits or keyways to enhance flexibility or improve torque capacity.

Misalignment Compensation:

When the two shafts connected by a beam coupling are misaligned, the helical beams flex, allowing the coupling to compensate for different types of misalignment. Angular misalignment occurs when the shafts are not collinear, axial misalignment when they are not on the same axis, and parallel misalignment when the shafts are not at the same height. The flexibility of the helical beams allows the coupling to accommodate these misalignments, reducing the stresses on the connected components.

Torque Transmission:

The helical beams of a beam coupling efficiently transmit torque from one shaft to the other. The beams twist and deform slightly under the applied torque but return to their original shape once the torque is removed. This torsional rigidity ensures that the coupling efficiently transfers rotational power while minimizing backlash and maintaining accurate positioning in motion control systems.

Damping and Vibration Absorption:

Beam couplings can provide some level of vibration dampening due to their inherent flexibility. The slight deformation of the beams can absorb shocks and vibrations, reducing the transmission of vibrations between the connected shafts.

Applications:

Beam couplings find applications in various mechanical systems, including robotics, CNC machines, stepper motor drives, and other motion control systems. They are especially useful in applications that require moderate misalignment compensation, high torsional rigidity, and low backlash.

Considerations:

While beam couplings offer several advantages, they do have some limitations. They may not be suitable for applications with high misalignment requirements or high torque loads, as excessive misalignment or torque can cause premature wear or failure of the coupling. Additionally, beam couplings may have limited axial stiffness, making them less suitable for applications with significant axial loads.

In summary, a beam coupling is a flexible coupling with helical beams that allows for misalignment compensation, efficient torque transmission, and some vibration dampening. Its design and flexibility make it an excellent choice for various mechanical systems, particularly those that require moderate misalignment compensation and high torsional rigidity.

editor by CX 2024-04-23