Product Description
Product Description
The roller chain coupling is a flexible coupling of amazingly simple construction. It consists of a combination of 1 coupling chain and a pair of coupling sprockets. Flexible and strong, the roller chain coupling is suitable for a wide range of coupling applications.
Roller chain coupling can used for the environment which with high temperature, wet and dirty conditions. It is not suitable for the occasion which is in high speed and with strong impact load. Roller chain coupling should working with excellent lubrication and protection cover conditions.
The common chain coupling includes double roller chain coupling, single row roller chain coupling, tooth shape chain coupling, nylon chain coupling. Its scale is compact and its weight is light. But roller chain coupling don’t have high requirement to installation precision.
Generally speaking, it is usually in long service life. Production line equipment for various kinds of frozen food and dehydrated vegetables should transport by stainless steel chain. Roller chains are widely applied to household, industrial and agricultural machinery, includes conveyor, drawing machine, printing machine, automobile, motorcycle and bicycle.
Main Features
1.Simple structure,easy assembly and disassembly.
2.Light weight,and long service life.
3.Have a certain ability to compensate for installation less precision.
4.Suitable for high temperature,wet and dusty industrial environment.
5.Can not for high speed,violent vibration.
Techncial Date
| KASIN No. | Chain Type | d | L | G | S | D | H | C | Weight/Kg | A | B | Casing Weight/Kg |
| 3012 | 06B-2 × 12 | 12~16 | 64.8 | 29.8 | 5.2 | 35 | 45 | 10.2 | 0.31 | 69 | 63 | 0.22 |
| 4012 | 40-2 × 12 | 12~22 | 79.4 | 36 | 7.4 | 35 | 62 | 14.4 | 0.73 | 77 | 72 | 0.3 |
| 4014 | 40-2 × 14 | 12~28 | 79.4 | 36 | 7.4 | 43 | 69 | 14.4 | 1.12 | 84 | 75 | 0.31 |
| 4016 | 40-2 × 16 | 14~32 | 87.4 | 40 | 7.4 | 50 | 77 | 14.4 | 1.5 | 92 | 72 | 0.35 |
| 5014 | 50-2 × 14 | 15~35 | 99.7 | 45 | 9.7 | 55 | 86 | 18.1 | 2.15 | 101 | 85 | 0.47 |
| 5016 | 50-2 × 16 | 16~40 | 99.7 | 45 | 9.7 | 62 | 93 | 18.1 | 2.75 | 110 | 87 | 0.5 |
| 5018 | 50-2 × 18 | 16~45 | 99.7 | 45 | 9.7 | 70 | 106 | 18.1 | 3.6 | 122 | 85 | 0.6 |
| 6018 | 60-2 × 18 | 20~56 | 123.5 | 56 | 11.5 | 85 | 127 | 22.8 | 6.55 | 147 | 105 | 1.2 |
| 6571 | 60-2 × 20 | 20~60 | 123.5 | 56 | 11.5 | 1/8822 0571 -57152031 Fax: 86~/8822 0571 -57152030
How to Select the Right Shaft Coupling for Specific Torque and Speed RequirementsSelecting the appropriate shaft coupling involves considering the specific torque and speed requirements of the application. Here’s a step-by-step guide to help you choose the right coupling: 1. Determine Torque and Speed:Identify the torque and speed requirements of the application. Torque is the rotational force required to transmit power between the shafts, usually measured in Nm (Newton-meters) or lb-ft (pound-feet). Speed refers to the rotational speed of the shafts, typically measured in RPM (revolutions per minute). 2. Calculate Torque Capacity:Check the torque capacity of various shaft couplings. Manufacturers provide torque ratings for each coupling type and size. Ensure that the selected coupling has a torque capacity that exceeds the application’s torque requirements. 3. Consider Misalignment:If the application involves significant shaft misalignment due to thermal expansion, vibration, or other factors, consider flexible couplings with good misalignment compensation capabilities. Elastomeric or beam couplings are popular choices for such applications. 4. Assess Operating Speed:For high-speed applications, choose couplings with high rotational speed ratings to avoid resonance issues and potential coupling failure. High-speed couplings may have specialized designs, such as disk or diaphragm couplings. 5. Evaluate Environmental Conditions:If the coupling will operate in harsh environments with exposure to chemicals, moisture, or extreme temperatures, select couplings made from corrosion-resistant materials or with protective coatings. 6. Check Torsional Stiffness:In applications requiring precision motion control, consider couplings with high torsional stiffness to minimize torsional backlash and maintain accurate positioning. Bellows or Oldham couplings are examples of couplings with low torsional backlash. 7. Size and Space Constraints:Ensure that the selected coupling fits within the available space and aligns with the shaft dimensions. Be mindful of any installation limitations, especially in confined spaces or applications with limited radial clearance. 8. Consult Manufacturer’s Data:Refer to the manufacturer’s catalogs and technical data sheets for detailed information on each coupling’s torque and speed ratings, misalignment capabilities, materials, and other relevant specifications. 9. Consider Cost and Maintenance:Compare the costs and maintenance requirements of different couplings. While some couplings may have higher upfront costs, they could offer longer service life and reduced maintenance costs in the long run. By following these steps and considering the specific torque and speed requirements of your application, you can select the right shaft coupling that will ensure efficient power transmission and reliable performance for your mechanical system. “` Real-World Examples of Shaft Coupling Applications in Different IndustriesShaft couplings play a crucial role in various industries by connecting rotating shafts and transmitting torque between them. Here are some real-world examples of shaft coupling applications in different industries: 1. Manufacturing Industry:In manufacturing plants, shaft couplings are used in various equipment such as conveyor systems, pumps, compressors, and mixers. For example, in a conveyor system, shaft couplings connect the motor shaft to the conveyor belt, allowing efficient material handling and transportation. 2. Oil and Gas Industry:The oil and gas industry utilizes shaft couplings in applications like drilling rigs, pumps, and generators. In drilling rigs, couplings connect the motor to the drill shaft, enabling the drilling process. 3. Marine Industry:In the marine industry, shaft couplings are found in propulsion systems, water pumps, and winches. They connect the ship’s engine to the propeller shaft, providing the necessary torque for propulsion. 4. Power Generation:Power plants use shaft couplings in turbines, generators, and cooling systems. For instance, in a steam turbine, couplings connect the turbine to the electrical generator, allowing the conversion of steam energy into electrical power. 5. Aerospace Industry:Aerospace applications use shaft couplings in aircraft engines, landing gear systems, and auxiliary power units. Couplings enable power transmission between different components of the aircraft systems. 6. Automotive Industry:In vehicles, shaft couplings are present in the drivetrain, steering systems, and transmission. For example, in a car’s transmission system, couplings connect the engine to the gearbox, enabling smooth gear changes and power transmission to the wheels. 7. Mining Industry:The mining industry relies on shaft couplings in heavy-duty machinery such as crushers, conveyor belts, and pumps. Couplings connect motors to various mining equipment, facilitating material extraction and transportation. 8. Agriculture:Agricultural machinery like tractors and harvesters use shaft couplings to connect the engine to implements such as plows, harvesters, and irrigation pumps. These examples demonstrate the wide-ranging applications of shaft couplings across industries. In each case, the specific coupling type is chosen based on factors such as torque requirements, misalignment compensation, environmental conditions, and load characteristics to ensure reliable and efficient operation. “` What is a Shaft Coupling and Its Role in Mechanical Power Transmission?A shaft coupling is a mechanical device used to connect two shafts together at their ends, allowing for the transmission of mechanical power from one shaft to another. It serves as an essential component in various machinery and industrial applications where rotational motion needs to be transmitted between two shafts that are not perfectly aligned or are separated by a distance. The role of a shaft coupling in mechanical power transmission includes the following: 1. Power Transmission:The primary function of a shaft coupling is to transmit power from a driving shaft to a driven shaft. When the driving shaft rotates, the coupling transfers the rotational motion to the driven shaft, enabling the driven equipment to perform its intended function. 2. Misalignment Compensation:In real-world applications, it is often challenging to achieve perfect alignment between two shafts due to manufacturing tolerances or dynamic conditions. Shaft couplings are designed to accommodate different types of misalignment, such as angular, parallel, and axial misalignment, allowing the equipment to function smoothly even when the shafts are not perfectly aligned. 3. Vibration Damping:Shaft couplings can help dampen vibrations and shocks caused by uneven loads or sudden changes in the operating conditions. This vibration damping feature protects the connected components from damage and contributes to the overall system’s reliability. 4. Overload Protection:In some cases, a shaft coupling can act as a safety device by providing overload protection. When the connected machinery experiences excessive torque or shock loads, certain types of couplings can disengage or shear to prevent damage to the equipment. 5. Torque and Speed Conversion:Shaft couplings can be designed to provide torque and speed conversion between the driving and driven shafts. This allows for adaptation to different operating conditions and varying torque requirements in the connected machinery. 6. Flexible Connection:Shaft couplings with flexible elements, such as elastomeric inserts or flexible discs, provide a flexible connection that can absorb shocks and misalignments. This flexibility helps reduce stress on the connected equipment and extends its lifespan. Overall, shaft couplings are essential components in mechanical power transmission systems, enabling the efficient transfer of rotational motion between shafts while accommodating misalignments and providing protection against overloads and vibrations. The selection of the appropriate coupling type and design depends on the specific requirements of the application, including the type of misalignment, torque capacity, and operating conditions. “` Tags: aluminum chain roller | aluminum roller chain | aluminum shaft | aluminum sprockets | chain | Chain Coupling | chain coupling sprockets | chain roller | chain roller chain | china chain | china coupling | china machinery | china roller chain | Coupling | coupling chain | coupling shaft | Flexible Coupling | flexible roller chain | flexible shaft | flexible shaft coupling | machinery | machinery china | machinery machinery | roller chain | roller chain chain | roller chain coupling | roller chain quality | roller chain shaft coupling | roller chain sprockets | roller shaft | roller sprockets chain | roller with chain | roller with shaft | shaft | shaft coupling | shaft part | shaft roller | sprockets chain | sprockets roller chain
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