A rigid coupling is a type of shaft coupling used to connect two shafts at their ends to transmit power. In the case of these couplings, the shafts provide a fixed union where torsional flexibility is not required, shaft alignment is maintained, and proper bearing support is provided. To reduce shaft deflection shaft support bearing should be located as close to the coupling as possible. Large couplings and those running at high speed may require balancing to reduce vibration. However, they are simple enough to install.
Flange couplings are used to connect shafts of the same or different diameters. The device consists of 2 flanged hubs, bored and keyed to fit their respective shafts and joined by bolts. Some have removable bushings for easier replacement. The couplings usually are made of carbon steel and are available to be over 8” in diameter. The flange-style couplings are primarily designed for heavy-duty applications.
Rigid Flange Coupling by Ringfeder
Sleeve couplings are made from one piece of material; factory bored to accommodate standard shafting. Keyways are broached, and set screws are installed. Shaft keys transmit torque from the shaft to the coupling hubs, and set screws keep the coupling from sliding along the shaft. Sleeve couplings are also made in clamping style. Clamping styles come in two ways: one-piece design and split, two-piece. Split, two-piece couplers can be installed and removed without machine disassembly.
One-piece Sleeve Coupling
Ribbed couplings may be used for heavy-duty services, made of 2 pieces and used to connect shafts of the same diameter. The coupling is keyed to both shafts with bolts. Those permit quick and easy installation and removal.
Ribbed Coupling from TB Woods
In summary, the benefits of rigid couplings include their low price, high torque capacity, torsional stiffness, and zero backlashes.
In the end, we would like you to watch a short demo video below about flange couplings made by RINGFEDER.
Check our article Gear Couplings: Benefits and Applications.
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HVH Industrial Solutions is an authorized distributor of the following coupling manufacturers: Ringfeder, System Components, TB Wood’s, Ameridrives, Bibby Turboflex, and Guardian Couplings.
We work closely with the engineering teams of the above companies to provide superior customer service and engineering support.
Regarding coupling, two terms come to mind – flange and rigid coupling. Both terms can be used interchangeably but are not always the same. In this blog post, we will delve into the differences between flange coupling vs. rigid coupling. This post will serve as a guide for people who need to understand the difference between the two.
Flange coupling connects two components, usually rotating or moving parts, such as in an engine. This connection involves flanges – two circular plates, one from each component to be connected, with holes drilled perpendicular to the circular plate faces for bolting them together. The bolts then clamp the components securely against each other and enable a stable motion transmission from one part to another. Overall, flange couplings are used in applications such as engines and motors when high torque and power transmission are needed.
Rigid Coupling is a mechanical Coupling that joins two independent shafts or rods. It provides high accuracy, strength, and increased torsional stiffness. It has minimal backlash, which makes it suitable for precision applications like machine tool spindles. The most commonly used rigid couplings are sleeve, disc-type, flange, serrated clamping element and double split clamps. They provide either zero or very low angular misalignment and can also be adjusted to compensate for any small misalignment between the coupled elements. Due to their robust design characteristics, these couplings require no lubrication and are highly durable in harsh industrial environments.
The primary difference between flange coupling and rigid coupling is their flexibility. Rigid coupling tends to be less flexible, while flange coupling allows for more flexibility. Rigid coupling can withstand high torque loads but cannot allow for misalignment between shafts. On the other hand, flange coupling allows for some degree of shaft misalignment.
Another difference between flange coupling and rigid coupling is their size and installation. Flange couplings are usually larger than rigid couplings and are installed using bolts. Rigid couplings, on the other hand, come in various sizes and can be installed in various ways, including welding, screws, and shaft clamping.
Flange coupling and rigid coupling have different applications. In cases where there is a need for flexibility, flange coupling is more appropriate. It is commonly used when there are vibrations or a need to transmit high torque from one shaft to another. Conversely, rigid couplings are best suited for situations that do not require flexibility. It is ideal for transmitting torque between two shafts in perfect alignment.
Regarding cost, rigid coupling is usually less expensive than flange coupling. The price difference is due to the difference in materials and design. Flange couplings are designed to provide more flexibility and are made of resilient materials that can withstand vibrations and misalignment. Conversely, rigid couplings are sturdier materials that can withstand high torque loads. The design is also less complicated than that of flange coupling.
Finally, when it comes to maintenance, flange coupling requires more maintenance than rigid coupling. Flange coupling has more parts that must be checked and maintained. In contrast, rigid coupling has fewer parts, which makes it easier to maintain.
In conclusion, flange and rigid coupling have advantages and disadvantages. Flange coupling is more flexible, larger, and expensive than rigid coupling. It is also used when there is a need for vibration damping and shaft misalignment. Rigid coupling, conversely, is less flexible, less expensive, and best suited for transmitting torque between two shafts that are in perfect alignment. In choosing which coupling to use, it is essential to consider the components’ application and cost.
For more information, please visit Flange Rigid Coupling.