China supplier High Speed Transmission Shaft Flange Shaft Snake Spring Grid Falk Flexible Coupling

Product Description

High speed transmission shaft flange serpentine shaft snake spring grid falk flexible coupling

Description:

JS grid coupling vibration, JS grid coupling and long service life. JS grid coupling under high load range, JS grid coupling
starting safety, high transmission efficiency, reliable operation.

Features:

1.The serpentine spring as the elastic element, the elastic strong at the same time, greatly improves the grid coupling torque, widely used in heavy machinery and general machinery.The serpentine spring special technology department, has long service life, allowing higher speed, has good ability to compensate in the axial, radial and angle
2.High transmission efficiency, start safety. Transmission efficiency of up to 99.47%, short-time overload capacity is 2 times the rated torque, operation safety.
3.Simple structure, convenient assembly and disassembly, long service life
4.Damping effect is good to avoid the resonance.

Advantages:

1. Good vibration reduction and long service life

The coupling is axially embedded in the 2 halves by more than 36% of the serpentine spring. The trapezoidal cross-section serpentine spring piece is made of high-quality spring steel, which has undergone strict heat treatment and is specially processed. It has good mechanical properties, so that the service life of the coupling is much longer than that of non-metal elastic element Column pin coupling, nylon rod pin coupling) greatly increased.

2. Wide range of variable loads and safe starting

The tooth surfaces where the 2 half-couplings contact the reed are arc-shaped. When the transmission torque increases, the spring leaf will deform along the tooth arc surface, so that the force points of the 2 half-couplings acting on the reed are close. The contact point between the reed and the tooth surface, that is, the change of the torque, changes with the magnitude of the transmitted torque, and its transmission characteristics are variable stiffness. Therefore, it has a greater load variation than ordinary elastic couplings. The buffer effect produced when the transmission force makes the reed deform along the tooth arc, especially when the machine is started or when a strong impact load occurs, can protect the safety of the supporting parts to a certain extent.

3. High transmission efficiency and reliable operation

The transmission efficiency of the coupling has been determined to reach 99.47%, and its short-term overload capacity is twice the rated torque, and the operation is safe and reliable.

4. Low noise and good lubrication

The aluminum alloy casing protects the spring from being thrown out during operation, and the casing is filled with butter, which not only ensures good lubrication, but also eliminates the noise when the reeds engage by being absorbed by the grease damping.

5. Simple structure, easy assembly and disassembly

The whole machine has few parts, small size, and light weight. The spring piece designed as a trapezoidal cross-section fits the trapezoidal tooth groove very conveniently and tightly, so that the assembly, disassembly and maintenance are easier than ordinary couplings.

6. Large installation deviation is allowed

Since the spring piece is in point contact with the arc surface of the tooth, the coupling can obtain greater flexibility. It can be installed to work normally with radial, angular and axial deviations at the same time.

Packing & Delivery:

Tight packaging to protect the product from damage. Support a variety of payment and transportation methods.

About us:

HangZhou CHINAMFG machinery technology Co., Ltd is an industry transmission solutions manufacuturer and service provider.

We offer 1 stop solution for power transmission products for different factories, such as chemicals, energy, material handling, environmental, extraction, pulp and paper, steel and metal, food and beverage, and construction industries.

We supply: Customised gears, Small gearmotors, Industrial gearboxes, Motors, Brand product sourcing.

Our industrial Gear, Gearbox, gearmotor and motor are sold to more than 30 countries. High quality, good price, in time response and sincere service are our value and promises. We aim at making happy cooperation with our customers, bring them reliable and comfortable service. /* 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

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How to Select the Right Motor Coupling for Specific Torque and Speed Requirements

Selecting the right motor coupling for specific torque and speed requirements is crucial to ensure efficient power transmission and avoid premature failure. Here are the steps to help you make an informed coupling selection:

1. Identify Torque and Speed Requirements: Determine the maximum torque and speed (RPM) demands of the driven equipment. Torque is typically given in pound-feet (lb-ft) or Newton-meters (Nm), while speed is measured in revolutions per minute (RPM).
2. Consider Service Factor: Factor in the service conditions and potential overload situations to calculate the required torque capacity of the coupling. The service factor is a safety margin applied to the calculated torque to ensure the coupling can handle occasional peak loads or unexpected shock loads.
3. Define Misalignment: Assess the potential misalignments that may occur between the motor and driven shafts. Determine the angular, parallel, and axial misalignment expected during operation.
4. Choose Coupling Type: Based on the torque and speed requirements, as well as misalignment considerations, choose the appropriate coupling type. Different coupling types, such as elastomeric, grid, gear, or disc couplings, offer various torque capacities and misalignment capabilities.
5. Material Selection: Consider the environmental conditions and the properties of the materials used in the coupling. Factors like temperature, chemical exposure, and corrosion resistance should be taken into account when choosing coupling materials.
6. Check Size and Dimensions: Ensure that the selected coupling’s size and dimensions are compatible with the motor and driven equipment’s shaft sizes and connection requirements.
7. Consult Manufacturer’s Catalog: Refer to the manufacturer’s catalog or coupling datasheets for detailed technical information, torque-speed curves, and misalignment data to match your specific application requirements.
8. Factor in Cost and Longevity: Evaluate the cost-effectiveness and expected service life of the coupling. A higher initial investment in a high-quality coupling may result in longer service life and reduced maintenance costs in the long run.
9. Seek Expert Advice: If you are unsure about the best coupling for your application, consult with coupling manufacturers or industry experts who can provide recommendations based on your specific requirements.

By following these steps and carefully evaluating your torque and speed requirements, as well as misalignment considerations, you can select the right motor coupling that ensures reliable and efficient power transmission in your mechanical system.

Real-world examples of motor coupling applications in various industrial setups.

Motor couplings find extensive applications across diverse industrial setups, connecting motors to driven equipment and transmitting torque efficiently. Here are some real-world examples of motor coupling applications:

1. Conveyor Systems

In manufacturing and logistics industries, motor couplings are used in conveyor systems to transfer goods and materials from one point to another. Flexible couplings accommodate misalignments between conveyor sections, while backlash in certain couplings helps absorb shocks from the load and avoid damage.

2. Pumps and Compressors

In water treatment plants, chemical processing facilities, and oil refineries, motor couplings are employed in pumps and compressors. Rigid couplings are often used in high-torque applications where precise alignment is critical to maintain pump efficiency and prevent shaft misalignment issues.

3. CNC Machines

In computer numerical control (CNC) machines, motor couplings connect the spindle motor to the cutting tool or workpiece. High precision and low backlash couplings are used to ensure accurate and repeatable movements during machining operations.

4. Printing Presses

In the printing industry, motor couplings are utilized in printing presses to drive paper feeders, ink rollers, and other components. Flexible couplings help absorb vibrations and misalignments, reducing wear on machine parts and improving print quality.

5. Packaging Machinery

Motor couplings are integral to packaging machinery, such as form-fill-seal machines, capping machines, and labeling systems. Couplings facilitate smooth and reliable motion transmission, allowing for precise and efficient packaging processes.

6. Textile Machinery

In textile manufacturing, motor couplings are used in spinning, weaving, and dyeing machines. Couplings accommodate frequent starts and stops, shock loads, and speed variations, ensuring stable and consistent operation.

7. Robotics

In industrial robotics, motor couplings are vital components that connect the motor to the robotic arms and joints. High-performance couplings with low backlash and high torsional stiffness are used to achieve precise and responsive robot movements.

8. Food Processing Equipment

Motor couplings are found in food processing equipment, including mixers, grinders, and slicers. Stainless steel couplings are often used to meet hygiene standards, while flexible couplings protect motors and gearboxes from sudden loads during food processing.

These examples highlight the versatility of motor couplings in various industrial applications. The choice of coupling type depends on factors such as load characteristics, speed requirements, misalignment allowances, and specific environmental conditions in each industrial setup.

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How to Properly Install a Grid Coupling for Reliable Performance

Proper installation of a grid coupling is crucial for ensuring reliable performance and maximizing its lifespan. Here are the steps to install a grid coupling correctly:

1. Preparation: Before installation, ensure that the shafts and coupling hubs are clean and free from any debris or contaminants. Inspect the grid coupling and its components for any signs of damage or wear.
2. Align the Shafts: Make sure that the shafts to be connected are properly aligned. Grid couplings can accommodate some degree of misalignment, but it is essential to minimize it for optimal performance.
3. Assemble the Grid: Insert the serrated grid element between the two coupling hubs. Ensure that the grid is centered and aligned with the hubs’ teeth.
4. Tighten the Fasteners: Use the appropriate torque wrench to tighten the fasteners that secure the coupling hubs together. Follow the manufacturer’s recommended torque values to avoid over-tightening or under-tightening.
5. Check Runout: After installation, check the coupling’s runout by rotating the connected shafts. Excessive runout indicates a potential misalignment or installation issue.
6. Lubrication: Some grid couplings require lubrication for optimal performance. Refer to the manufacturer’s guidelines and apply the recommended lubricant to the coupling components.
7. Check for Smooth Operation: Start the machinery and observe the coupling’s operation. Listen for any unusual noises or vibrations that may indicate a problem. If any issues are detected, stop the machinery and inspect the coupling again.
8. Regular Maintenance: Schedule regular maintenance checks to ensure the coupling’s ongoing reliability. Inspect for signs of wear, misalignment, or damage, and replace any worn or damaged components as needed.

It is essential to follow the manufacturer’s installation guidelines and recommendations specific to the grid coupling model being used. Proper installation and regular maintenance will ensure the grid coupling performs reliably and efficiently, providing effective power transmission in industrial machinery and equipment.

editor by CX 2024-03-06