Power Transmission Reference Guide 2019

Page 24

POWER TRANSMISSION REFERENCE GUIDE

Overview of

clutches and brakes P

ower-transmission and motion designs rely on stopping loads predictably, especially to ensure machinery and operator safety. To that end, torque limiters, clutches, and brakes stop, hold or index loads. Migration towards application-specific designs has quickened as several industries are pushing the performance envelope of stock components. Brakes stop loads (typically rotating loads) and go in applications that need accurate stopping of the load with motors that stop as well. Clutches transfer torque and go in applications where the machinery must engage or disengage a load and motor while letting the motor continuously run. With a clutch, the design usually lets the load coast to a stop. Clutch and brake combinations go where a machine stops and starts a load while the motor continues to rotate. In fact, both clutches and clutch-brake combinations can mount to a motor shaft or mount to a base and engage the drive shaft with a belt drive, chain drive or coupling. A machine’s motor frame size and horsepower dictate brake and clutch types suitable for a given design. The general steps to pick a given unit are to categorize axis orientation; determine total axis load and kinetic energy to stop it; and calculate 1. Allowable travel before stopping or slowing and time of engagement 2. Maximum load velocity and required clutch or brake force 3. Driving and backdriving torque and 4. Required brake or clutch geometry. Manufacturers provide quick-selection charts that list clutch and brake sizes for given motor horsepower ranges and shaft speed. Most of these charts are based on the dynamic torque capacity of the clutch or brake and the motor’s torque capacity plus an overload factor of some value. This presumes that the motor is appropriately sized to the application. Tip: Designs with aggressive cycle rates need manufacturer input to address heat-dissipation capacities. Harmonization of international safety standards is a factor in brake and clutch selection even as controls have come to integrate more safety features. Those include ANSI B11 Series and OSHA rules in the U.S. and EN ISO 13849 as a global standard on safety to sufficiently mitigate risk — with EN ISO 13849 and EN IEC 62061 possibly merging (as IEC/ISO 17305 should it go forward) requiring compliance of machines that go through the E.U. Many OEMs adhere to these standards for competitive advantage.

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DESIGN WORLD — MOTION

Brakes Clutches & Limiters — Power Transmission HB 05.19 V3.indd 20

5 • 2019

This is a slip clutch from Mach III Clutch Inc. adapted to diameter restriction. In fact, brakes and clutches from the manufacturer come in torque capacities to 62,000 lb-in. and with mounting configurations for through-shaft, end-of-shaft, flange, NEMA frame, IEC frame, and custom motor-rame mounting.

Sizing to torque, speed, and cycles Expressed in lb/ft, N/m, or lb/in., static and dynamic torque values express clutch or brake output capability. Applications needing dynamic braking are those in which the brake controls rotating-axis motion by absorbing kinetic-energy changes. Dynamic clutching is that during which a clutch brings a stationary output to the input

motioncontroltips.com | designworldonline.com

5/15/19 3:19 PM


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