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Dynamic balance improves motion systems’ performance and longevity

17/07/2017 16:21:28
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ImagesClick Image for 300dpi jpg fileDynamic balance improves motion systems’ performance and longevityDynamic balance improves motion systems’ performance and longevity

High speed precision motion systems have to be dynamically balanced, otherwise they will vibrate in use, lose precision, suffer excessive wear and fail prematurely. Ian Carr of Drive Lines Technologies in Bedford reviews procedures and techniques for balancing high speed precision couplings.

Precision drive systems are generally required to have a relatively long working life, during which they must maintain their ability to perform accurately. Excessive vibrations within the system would compromise these goals of longevity and precision, so motion system builders know they have to be finely balanced. Ideally each component in a drive system will be balanced, so will not induce vibration into the drive line. To achieve this balance the mass of the component must be evenly distributed about the centre of the shaft so that it maintains an even centrifugal force about the axis of rotation.

If a component is not balanced it will vibrate in use, the magnitude of the centrifugal force causing the vibration being proportional to the distance of the centre of mass of the component from the axis of rotation. Identifying the centre of mass may seem like a daunting prospect, but because couplings and other rotating components are usually round and rotationally symmetrical it is a relatively easy task,

A simple technique is to think of static balance about an axis, similar to an old- fashioned balance scale or a see-saw. An eccentric rotating mass works in essentially the same way: during each rotation, the centre of mass effectively moves towards and then away from the axis of rotation. Thus the centrifugal force increases and decreases in proportion to the instantaneous degree of rotation.

If memories of school are not too painful, one may recall that in physics lessons one learned the moment of inertia calculation:

I = mr2 (inertia = mass times radius squared)

Imbalance of essentially round couplings and other rotating components comes into play when additional parts such as clamping screws or shaft keys are added. Also, it is possible for the manufacturing processes to cause imbalance due to imperfections such as a tiny air pocket in a casting. Clearly, adding or subtracting mass in one area of a part causes imbalance, which can be corrected by adding or subtracting compensating mass on the opposite side of the part.

A simple way to do this is to drill holes into the body of the component. Typically these are positioned near the outside diameter so that less material will need to be removed, thus preserving the structural integrity as much as possible.

Manufacturers of precision parts such as coupling hubs may design-in balancing holes to compensate for asymmetries within the hub, while system builders may need to drill further holes to account for the inertial effects of additional drive components.

It should be noted that precision couplings are designed and supplied with a speed rating. Quality small to medium sized machined couplings typically come with a speed rating of about 10,000rpm, which means they can be balanced for speeds between about 20rpm and 80,000rpm. Larger couplings will not be used on very high speed applications, but can be balanced within their expected speed ranges.

It is also important to understand that there are other issues that also have to be considered, such as torque transfer at high speed. For example, centrifugal forces at high speeds may cause holding screws to loosen or clamps to open, for which engineers must find a solution, such as using conical clamping rings that offer better symmetry and more even stress distribution.

Drive Lines is the UK representative for R+W, a German manufacturer of both standard and custom precision couplings for high rotational speeds. R+W have a great deal of knowledge and experience about balancing rotational loads and can manufacture couplings balanced for speeds of up to 120,000rpm.

Photo Caption 1:High quality precision couplings can be balanced for speeds of up to 80,000rpm (R+W Antriebselemente GmbH (R+W) assumes no liability.

Photo Caption 2: Balancing an eccentric rotating mass works in essentially the same way as static balance about an axis (R+W Antriebselemente GmbH (R+W) assumes no liability.

About Drive Lines

We are an independent, privately-owned company representing a number of manufacturers from across the world within the mechanical power transmission and processing industry in Great Britain and Ireland. Established in 1985 and BS EN ISO 9001:2015 approved, we are proud to serve market leaders in many machinery disciplines. Our mission is to provide reliable, versatile and cost-effective solutions. Service, quality and product excellence is at the heart of our success.

The image(s) distributed with this press release may only be used to accompany this copy, and are subject to copyright. Please contact DMA Europa if you wish to license the image for further use.

Editor Contact

DMA Europa Ltd. : David Bedford
Tel: +44 (0)1562 751436 Fax: +44 (0)1562 748315

Company Contact

Drive Lines Technologies Ltd : Meena Iyer
Tel: +44 (0)1234 360689 Fax: +44 (0)1234 345673

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