Product Description
Product Description
Flexible coupling model FCL is widely used for its compact designing, easy installation, convenient maintenance, small size and light weight. It is greatly demanded in medium and minor power transmission system driven by moters, such as speed reducers, hoists, compressos, conveyers, Spinning and weaving machines and ball mills.
| SIZE: FCL90 FCL100 FCL112 FCL125 FCL140 FCL160 FCL180 FCL200 FCL224 FCL220 FCL280 FCL315 FCL355 FCL400 FCL455 FCL560 FCL630 |
Detailed Photos
Product Parameters
Contact us to check more series and parameters!
Our Advantages
Competitive Price
Shorter Delivery Date
Technical R&D Team
Professional Manufacturer for 20+ years
Strict QC Management:ISO9001:2015
Supplier of Well-known Brands
Main Products
Timing Pulley
V Belt Pulley
Taper Lock Bush
Locking Device
Sprockets
Gears& Racks
Shaft Collar
Transmission Belts
Universal Joint
Couplings
Packaging & Shipping
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Company Profile
ZheJiang Mighty Machinery Co., Ltd. specializes in manufacturing mechanical power transmission components. We Mighty is the branch of SCMC Group, a wholly state-owned company, established in 1980.
About us:
-3 manufacturing factories
We have 5 technical staff, our FTY have strong capacity for design and process design, and more than 70 workers and double shift eveyday.
-Large quality of material purchase and stock
We ensure both the quality and low cost for material and production.
-Strick quality control
We have strict process inspection and final production inspection to ensure the perfect quality.
-20 years of machinery experience
MIGHTY’s products are mainly exported to Europe, America and the Middle East market. With the top-ranking management, professional technical support and abundant export experience, MIGHTY has established lasting and stable business partnership with many world famous companies and has gained good reputation from CHINAMFG customers.
FAQ
1. Are you a trading company or manufacturer?
We are a manufacturer for 20+ years with owning 3+ factories and also do exporting business.
2. What’s your MOQ?
Usually 1 piece for ones in stock.
3. How long is your delivery time?
It takes around 3-5 days for ones in stock and 30 days around for bulk production.
4. Do you offer sample and is that free?
Yes, we could offer free sample for testing and the shipping cost is covered by our customers.
5. What if I don’t see the product specification I want?
No worries, we offer a complete line and you’re welcome for asking more specifications.
6. What is your payment terms?
T/T, Paypal, L/C, D/P, D/A, Western Union, etc. and it’s decided by customers’ requirements.
If you have another question, pls feel free to contact me without hesitation as below:
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Handling Angular and Axial Misalignments with Flexible Flange Couplings
Yes, flexible flange couplings are designed to handle both angular and axial misalignments simultaneously. These couplings use flexible elastomeric elements between the flanges, allowing them to accommodate different types of misalignments that may occur during the operation of rotating machinery.
Angular Misalignment: When the shafts are not perfectly aligned and form an angle with each other, it results in angular misalignment. Flexible flange couplings can tolerate a certain degree of angular misalignment due to the flexibility of the elastomeric elements. As the shafts rotate and the angle changes, the elastomeric material can flex and adapt to the varying positions, transmitting torque smoothly without inducing excessive stress on the machinery.
Axial Misalignment: Axial misalignment occurs when the shafts are not in the same straight line along their axis. This type of misalignment can lead to axial movement of the shafts relative to each other during operation. Flexible flange couplings can also handle axial misalignment to some extent due to the elastomeric material’s ability to absorb and compensate for the axial movements. This helps to prevent additional forces or loads being transmitted to the connected equipment and minimizes wear on the coupling itself.
It is important to note that while flexible flange couplings can accommodate certain degrees of misalignment, excessive misalignment beyond their specified limits can still cause premature wear and reduce the coupling’s efficiency. Therefore, it is crucial to install and operate the couplings within the manufacturer’s recommended tolerances for angular and axial misalignments to ensure their optimal performance and longevity.
Real-World Examples of Successful Flexible Flange Coupling Installations and Their Benefits
There are numerous real-world examples of successful flexible flange coupling installations that have demonstrated significant benefits in various industrial applications. Here are some notable examples:
Example 1: Industrial Pumps
In an industrial pumping system used for fluid transfer, the existing rigid coupling was causing excessive vibration and wear on the pump and motor bearings. The vibrations were leading to frequent maintenance and downtime. After retrofitting with flexible flange couplings, the system experienced a drastic reduction in vibration levels. The couplings effectively dampened vibrations and accommodated minor misalignments, resulting in smoother operation and longer bearing life. The benefits included reduced maintenance costs and increased overall system reliability.
Example 2: Marine Propulsion
In a marine propulsion system, the conventional coupling was not effectively dampening the torsional vibrations generated by the engine. This vibration was affecting the comfort of passengers and causing stress on the drivetrain components. By installing a flexible flange coupling, the system’s torsional stiffness was optimized, and the vibrations were significantly reduced. The result was a smoother and quieter ride for passengers, reduced wear on components, and improved fuel efficiency.
Example 3: Compressors
In a gas compressor application, the existing coupling was unable to handle the misalignment between the driver and driven shafts, leading to premature coupling failures. By replacing the coupling with a flexible flange coupling that could accommodate both angular and axial misalignment, the system experienced improved reliability and reduced unplanned downtime. The flexible coupling also helped reduce peak torque loads during start-up, minimizing stress on the system and extending the equipment’s lifespan.
Example 4: Wind Turbines
Wind turbines require couplings that can handle varying wind conditions and torque fluctuations. Flexible flange couplings have been successfully implemented in wind turbine drivetrains, allowing them to withstand the dynamic loads and misalignments experienced in the field. The flexibility of these couplings ensures smooth power transmission and helps protect the gearbox and generator from damaging vibrations, contributing to the long-term performance and reliability of the wind turbine.
Overall, flexible flange couplings have proven to be reliable and effective solutions in various industries. Their ability to dampen vibrations, accommodate misalignments, and transmit high torque makes them valuable components for improving the performance, efficiency, and lifespan of mechanical systems and equipment.
These real-world examples highlight the versatility and benefits of flexible flange couplings, and they serve as successful case studies for the advantages of using these couplings in diverse industrial applications.
Accommodation of Misalignment and Vibration Damping in Flexible Flange Couplings
Flexible flange couplings are designed to accommodate misalignment and provide vibration damping during operation, making them suitable for various industrial applications. The following features enable these capabilities:
- Elastomeric Flexibility: Flexible flange couplings often use elastomeric materials, such as rubber or polyurethane, as the flexible element. These materials offer excellent flexibility, allowing the coupling to compensate for both angular and parallel misalignment between the connected shafts. The elastomeric element deforms under misalignment, preventing excessive loads and stress on the shafts and other connected components.
- Torsional Compliance: The elastomeric flexibility of the coupling also provides torsional compliance. During operation, the elastomer can twist and flex to absorb torsional vibrations and shocks generated by the connected machinery. This helps reduce the transmission of vibrations and prevents them from propagating throughout the system, leading to smoother and quieter operation.
- Flange Design: The flanges of flexible flange couplings are typically designed with a series of bolts or screws that secure the elastomeric element between them. The design of the flanges allows for limited axial movement, enabling the coupling to compensate for axial misalignment. This is particularly beneficial in applications where there may be some axial movement or thermal expansion of the shafts.
- Resilient Bushings: Some flexible flange couplings use resilient bushings or inserts within the flange bolt holes. These bushings add an extra layer of vibration damping and help minimize the transmission of shock loads from one shaft to another. The bushings also assist in absorbing radial and axial vibrations, contributing to smoother operation.
- Balanced Design: Properly balanced flexible flange couplings minimize vibrations by ensuring that the center of mass coincides with the rotational axis. This helps prevent excessive vibrations due to uneven distribution of mass, which can occur during rotation at high speeds.
By accommodating misalignment and providing vibration damping, flexible flange couplings enhance the overall reliability and performance of mechanical systems. They help protect machinery from excessive loads and stresses, reduce wear and tear on components, and improve the service life of the entire system.
editor by CX 2024-04-03