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FCL Coupling (PIN) is a highly reliable and widely used mechanical component designed for secure and efficient connections in various industrial applications. These couplings are engineered to provide exceptional strength, durability, and precision, making them ideal for use in machinery, automotive systems, and heavy equipment. The pin design ensures easy assembly and disassembly while maintaining a robust connection under high stress and vibration conditions. With years of innovation and quality manufacturing, FCL Couplings are trusted by professionals worldwide for their performance and longevity.
The following table outlines the detailed specifications for our standard FCL Coupling (PIN) series. These parameters are based on rigorous testing and industry standards to ensure optimal performance.
| Parameter | Specification | Unit |
|---|---|---|
| Material | Stainless Steel (Grade 304 or 316), Carbon Steel | - |
| Pin Diameter | 5 - 50 | mm |
| Shaft Size Range | 10 - 100 | mm |
| Maximum Torque Capacity | 100 - 5000 | Nm |
| Operating Temperature | -40 to +200 | °C |
| Weight (depending on size) | 0.1 - 5.0 | kg |
| Surface Treatment | Zinc Plating, Black Oxide, or Passivation | - |
| Standards Compliance | ISO 9001, ANSI, DIN norms | - |
FCL Couplings (PIN) are versatile and suitable for a wide range of industries, including:
What is an FCL Coupling (PIN) used for?
An FCL Coupling (PIN) is primarily used to connect two shafts together, transmitting torque and motion while allowing for slight misalignments. It is commonly applied in industrial settings where reliability and ease of maintenance are critical, such as in manufacturing equipment, vehicles, and machinery that experience high loads or vibrations.
How do I select the right size of FCL Coupling (PIN) for my application?
To select the appropriate size, consider factors like shaft diameter, torque requirements, operational speed, and environmental conditions (e.g., temperature and exposure to chemicals). Refer to the product parameter table above for standard sizes, and consult engineering specifications or a professional if unsure. Always ensure the coupling matches the shaft dimensions and torque capacity to avoid failure.
Are FCL Couplings (PIN) resistant to corrosion?
Yes, FCL Couplings (PIN) are often made from corrosion-resistant materials like stainless steel (e.g., Grade 304 or 316) or treated with coatings such as zinc plating or black oxide. This makes them suitable for harsh environments, including outdoor, marine, or chemical-exposed applications, ensuring longevity and reduced maintenance.
Can FCL Couplings (PIN) handle high torque applications?
Absolutely. These couplings are designed to withstand high torque levels, with capacities ranging from 100 Nm to 5000 Nm depending on the size and material. They are engineered for durability and can perform reliably in demanding industrial scenarios, but it's essential to choose a model that exceeds your application's maximum torque to ensure safety and efficiency.
How do I install and maintain an FCL Coupling (PIN)?
Installation is straightforward: align the shafts, insert the pin through the coupling holes, and secure it with provided fasteners. Use basic tools like wrenches, and follow the manufacturer's guidelines for torque settings. Maintenance involves regular inspections for wear, corrosion, or looseness, with lubrication if specified. Typically, these couplings require minimal upkeep due to their robust design, but periodic checks are recommended for optimal performance.
What standards do FCL Couplings (PIN) comply with?
FCL Couplings (PIN) adhere to international standards such as ISO 9001 for quality management, as well as ANSI and DIN norms for mechanical components. This ensures they meet rigorous safety, performance, and interoperability requirements, making them suitable for global use in various industries.
Where can I purchase genuine FCL Couplings (PIN)?
Genuine FCL Couplings (PIN) are available through authorized distributors, industrial suppliers, or directly from manufacturers. Always verify the product authenticity by checking for certifications and purchasing from reputable sources to avoid counterfeit parts that may compromise performance and safety.
