Product Description
GL Aluminum alloy double diaphragm clamping coupling
Description of GL Aluminum alloy double diaphragm clamping coupling
>High torque rigidity, can accurately control the rotation of the shaft, can carry out high-precision control
>Designed for servo and stepping motor
>No gap between the shaft and sleeve connection, general for positive and negative rotation
>Low inertia, suitable for high speed operation
>The diaphragm is made of spring steel with excellent fatigue resistance
>Fastening method of clamping screw
Dimensions of GL Aluminum alloy double diaphragm clamping coupling
| model parameter | common bore diameter d1,d2 | ΦD | L | LF | LP | d3 | S | F | M | tightening screw torque (N.M) |
| GL-19X27 | 3,4,5,6,6.35,7,8 | 19 | 27 | 9.1 | 5.2 | Φ9 | 1.8 | 3.3 | M2.5 | 1 |
| GL-26X35 | 5,6,6.35,7,8,9,9.525,10,11,12,14 | 26 | 35 | 11.65 | 6.5 | Φ12.5 | 2.6 | 3.9 | M3 | 1.5 |
| GL-32X41 | 5,6,6.35,7,8,9,9.525,10,11,12,12.7,14,15, | 32 | 45 | 12.25 | 9.5 | Φ15 | 3.5 | 3.85 | M3 | 1.5 |
| GL-34X45 | 5,6,6.35,7,8,9,9.525,10,11,12,12.7,14,15,16 | 34 | 45 | 14.25 | 9.5 | Φ16 | 4.5 | 4.85 | M4 | 2.5 |
| GL-39X50 | 8,9,9.525,10,11,12,12.7,14,15,16,17,18,19 | 39 | 50 | 14.9 | 11.2 | Φ9.3 | 4.5 | 5 | M4 | 2.5 |
| GL-44X50 | 8,9,9.525,10,11,12,12.7,14,15,16,17,18,19,20,22 | 44 | 50 | 14.9 | 11.2 | Φ2.5 | 4.5 | 5 | M4 | 2.5 |
| GL-50X63 | 8,9,9.525,10,11,12,12.7,14,15,16,17,18,19,20,22,24,25 | 50 | 63 | 20.6 | 12.5 | Φ23 | 4.8 | 6 | M5 | 7 |
| GL-56X64 | 10,12,14,15,16,17,18,19,20,22,24,25,28,30,32 | 56 | 64 | 19.75 | 13.5 | Φ2.5 | 5.5 | 6.4 | M5 | 7 |
| GL-68X75 | 12,14,15,16,17,18,19,20,22,24,25,28,30,32,35,38 | 68 | 75 | 23.35 | 15.7 | Φ38.3 | 6.3 | 7.7 | M6 | 12 |
| GL-82X98 | 17,18,19,20,22,24,25,28,30,32,35,38,40,42 | 82 | 98 | 30 | 22 | Φ45.5 | 8 | 9.7 | M8 | 20 |
| model parameter | Rated torque (N.M)* |
allowable eccentricity (mm)* |
allowable deflection angle (°)* |
allowable axial deviation (mm)* |
maximum speed rpm |
static torsional stiffness (N.M/rad) |
moment of inertia (Kg.M2) |
Material of shaft sleeve | Material of shrapnel | surface treatment | weight (g) |
| GL-19X27 | 1 | 0.12 | 1.5 | ±0.18 | 10000 | 170 | 9.1×10-7 | High strength aluminum alloy | SUS304Spring steel | Anodizing treatment | 14.6 |
| GL-26X35 | 1.5 | 0.15 | 1.5 | ±0.3 | 10000 | 820 | 3.0×10-6 | 37 | |||
| GL-32X41 | 2 | 0.17 | 1.5 | ±0.36 | 10000 | 1750 | 1.0×10-5 | 67 | |||
| GL-34X45 | 3 | 0.17 | 1.5 | ±0.36 | 10000 | 1860 | 1.1×10-5 | 77 | |||
| GL-39X50 | 6 | 0.22 | 1.5 | ±0.45 | 10000 | 2860 | 3.0×10-5 | 118 | |||
| GL-44X50 | 9 | 0.22 | 1.5 | ±0.54 | 10000 | 3300 | 3.8×10-5 | 144 | |||
| GL-50X63 | 18 | 0.1 | 1.5 | ±0.54 | 10000 | 3300 | 3.0×10-5 | 235 | |||
| GL-56X64 | 25 | 0.27 | 1.5 | ±0.72 | 10000 | 9480 | 1.6×10-4 | 318 | |||
| GL-68X75 | 60 | 0.31 | 1.5 | ±0.8 | 9000 | 19000 | 2.0×10-4 | 492 | |||
| GL-82X98 | 100 | 0.55 | 1.5 | ±0.8 | 8000 | 28450 | 2.5×10-4 | 1013 |
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Materials Used to Manufacture Diaphragm Couplings and Their Impact on Performance
Diaphragm couplings are manufactured using various materials, and the choice of material significantly impacts their performance in different applications. Here are some common materials used in diaphragm couplings and their impact on performance:
- Metallic Alloys:
- High-Temperature Alloys:
- Titanium:
- Elastomers:
- Non-Metallic Materials:
Stainless steel and other high-strength metallic alloys are widely used in diaphragm couplings. These materials offer excellent durability, high torsional stiffness, and resistance to wear and fatigue. They are well-suited for high-torque applications and environments with demanding operating conditions.
In applications where diaphragm couplings are exposed to elevated temperatures, specialized high-temperature alloys like Inconel and Hastelloy are used. These alloys can withstand extreme heat without losing their mechanical properties, making them ideal for use in industries such as steel processing and power generation.
Titanium is favored for its lightweight and excellent corrosion resistance. Diaphragm couplings made from titanium are commonly used in aerospace and marine applications where weight reduction and resistance to corrosive environments are critical.
For certain applications that require vibration dampening and shock absorption, diaphragm couplings can be manufactured with elastomeric materials like rubber or urethane. These materials help reduce transmitted vibrations and can be found in pumps, compressors, and automotive drivetrain systems.
In situations where electrical isolation or non-magnetic properties are necessary, non-metallic materials like PTFE (Teflon) or polypropylene may be used. These materials are also highly resistant to chemical corrosion, making them suitable for certain chemical processing and semiconductor applications.
The choice of material impacts several aspects of diaphragm coupling performance, including:
- Torsional Stiffness: Metallic alloys and high-temperature materials provide high torsional stiffness, ensuring efficient torque transmission and accuracy in motion control applications.
- Corrosion Resistance: The selection of corrosion-resistant materials is crucial in applications where diaphragm couplings are exposed to corrosive environments, such as in marine or chemical industries.
- Temperature Resistance: High-temperature alloys enable diaphragm couplings to operate effectively in environments with elevated temperatures, such as steel processing or power generation plants.
- Weight: Materials like titanium offer lightweight advantages, making diaphragm couplings suitable for aerospace and other weight-sensitive applications.
- Vibration Damping: Elastomeric materials provide excellent vibration dampening properties, reducing vibrations and noise in certain applications.
Manufacturers carefully select the appropriate material based on the specific requirements of the application to ensure optimal performance and reliability of the diaphragm coupling in a wide range of industries.
Can Diaphragm Couplings Reduce Noise and Dampen Vibrations in Mechanical Systems?
Yes, diaphragm couplings can help reduce noise and dampen vibrations in mechanical systems. The design and material properties of diaphragm couplings contribute to their ability to minimize vibrations and noise during operation. Here’s how diaphragm couplings achieve this:
- Vibration Dampening:
- Misalignment Compensation:
- Reduced Mechanical Resonance:
- Smooth Torque Transmission:
- Compact Design:
Diaphragm couplings are designed to be flexible and allow a controlled amount of movement between the connected shafts. This flexibility helps dampen vibrations generated during the operation of rotating machinery. When vibrations occur due to load changes or misalignments, the diaphragm absorbs and dissipates these vibrations, preventing them from propagating through the system. As a result, diaphragm couplings can contribute to a smoother and quieter operation of mechanical systems.
As mentioned earlier, diaphragm couplings can accommodate axial, angular, and parallel misalignments between the connected shafts. Misalignment in rotating machinery can lead to increased vibrations and noise. By effectively compensating for misalignment, diaphragm couplings help maintain proper shaft alignment, reducing the risk of vibration-related issues and associated noise.
Mechanical resonance occurs when the natural frequency of a system matches the excitation frequency. It can lead to amplified vibrations and noise. Diaphragm couplings, with their ability to dampen vibrations, can help reduce the occurrence of mechanical resonance in rotating systems. By preventing the build-up of excessive vibrations, diaphragm couplings minimize the likelihood of resonance-related problems.
Diaphragm couplings provide smooth torque transmission between the shafts, resulting in a more uniform and stable power transfer. When torque is transmitted smoothly, there is less likelihood of sudden torque fluctuations that can cause vibrations and noise. The controlled flexibility of the diaphragm ensures that torque is transmitted efficiently, without introducing undesirable harmonics or disturbances in the system.
Diaphragm couplings have a compact and lightweight design compared to some other coupling types, such as gear couplings. This reduced mass and size help minimize inertial forces during operation, leading to lower levels of vibration and noise.
Overall, diaphragm couplings are effective in reducing noise and dampening vibrations in mechanical systems, making them suitable for applications where noise reduction and smooth operation are essential. Their ability to handle misalignments, dampen vibrations, and transmit torque accurately contributes to improved performance and reliability in various industrial settings.
Can Diaphragm Couplings Accommodate Different Shaft Sizes and Handle High Torque Loads?
Yes, diaphragm couplings are designed to accommodate different shaft sizes and handle high torque loads efficiently. Here’s how they achieve these functionalities:
Accommodating Different Shaft Sizes:
Diaphragm couplings are available in various sizes and configurations, allowing them to accommodate different shaft diameters. The hubs of the coupling can be manufactured with different bore sizes to match the specific diameter of the connected shafts. This versatility makes diaphragm couplings suitable for a wide range of applications, where the shafts may have different sizes.
Handling High Torque Loads:
Despite their flexible design, diaphragm couplings are capable of handling high torque loads. The flexible diaphragm, typically made of high-strength metal, can transmit torque effectively between the shafts without significant power loss. The corrugations or convolutions in the diaphragm contribute to its torsional rigidity, ensuring efficient torque transmission even at high levels of power.
Moreover, the metal diaphragm’s ability to flex and absorb misalignment also helps in distributing the torque evenly, minimizing stress concentrations on the coupling and connected machinery. This feature allows diaphragm couplings to maintain their performance and reliability under demanding conditions with high torque requirements.
In summary, diaphragm couplings can accommodate different shaft sizes by offering a range of hub sizes and configurations. Additionally, they are capable of handling high torque loads efficiently due to the torsional rigidity of the flexible metal diaphragm and its ability to absorb misalignment, ensuring smooth and reliable torque transmission in various mechanical systems.
editor by CX 2024-04-25