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Rotochambers
DIAPHRAGM
DIAPHRAGM
INNER
GUIDE
DIAPHRAGM
CLAMP
OUTER
DIAPHRAGM
CLAMP
BODY
DESCRIPTION
The rotochamber is an actuator which converts the energy
of air pressure into mechanical force. The type number of
the rotochamber indicates the actuator's diaphragm effective
area (Type 30 - 30 sq. in. of diaphragm) and the various
sizes available give a wide range of output force and length
of stroke. The rolling type diaphragm provides long life and
gives a constant output force throughout the entire stroke.
One end of the diaphragm is clamped to the inside wall of
the body by the outer clamp. The other end of the diaphragm
is clamped between the diaphragm guide and inner
diaphragm clamp. The cover is fastened to the outer body
by cap screws. Mounting studs are used to mount the
chambers. A boot retained by a boot retainer is used to
prevent entrance of moisture through the hole in the cover.
A lock nut and yoke with pin are screwed on the threaded
push rod. Most rotochambers now have 3/8 in. NPTF inlet
ports. The long stroke Type 50 employ a 1/2 in. NPTF inlet
port.
OPERATION
Controlled air pressure enters the rotochamber through the
inlet port and acts upon the diaphragm, moving the diaphragm
guide and diaphragm forward. The diaphragm moves along
the inside wall of the cylinder body with a smooth rolling
PUSH ROD
SPRING
ASSY.
COVER
YOKE ASSY.
BOOT
LOCK NUT
MOUNTING STUD
motion. The forward motion of the diaphragm guide and
diaphragm forces the push plate and push rod forward.
When the rotochamber is used to actuate cam type foundation
brake assemblies, the yoke is connected to a slack adjuster
which in turn is connected to the brake cam shaft. This
forward motion of the push rod rotates the slack adjuster,
cam shaft and cam applying the vehicle brakes.
The rotochamber is also used in industrial applications and
in such cases may be used in clamping or holding
operations.
The greater air pressure admitted to the rotochamber, the
greater the force applied by the push rod and, conversely,
the less air pressure applied to the rotochamber, the less
force applied by the push rod. Push rod force is determined
by multiplying the air pressure delivered by the effective
diaphragm area. For example, if 60 psi is admitted to the
Type 30 rotochamber the lineal force on the end of the push
rod is approximately 1800 lbs.
When air pressure is released from the rotochamber the
rotochamber spring returns the slack adjuster (if applicable),
push rod, diaphragm guide and diaphragm to the released
position.
1
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Summary of Contents for BENDIX ROTO CHAMBERS
- Page 1 ® Rotochambers PUSH ROD DIAPHRAGM SPRING ASSY. DIAPHRAGM INNER GUIDE DIAPHRAGM CLAMP YOKE ASSY. BOOT OUTER DIAPHRAGM CLAMP LOCK NUT MOUNTING STUD COVER BODY DESCRIPTION motion. The forward motion of the diaphragm guide and diaphragm forces the push plate and push rod forward. The rotochamber is an actuator which converts the energy of air pressure into mechanical force.
- Page 2 PREVENTIVE MAINTENANCE INSTALLING A. Every month, 8,000 miles, or after 300 operating hours, 1. Before installing chamber, check bracket for distortion, depending on type of operation: cracks or any condition which might cause chamber misalignment or malfunction. 1. Check push rod travel and adjust travel at the slack adjuster if needed.
- Page 3 10. Install cover over push rod and into body. Attach cover to ® 8. Use only genuine Bendix replacement parts, body with cap screws, tightening securely. components and kits. Replacement hardware, tubing, hose, fittings, etc. must be of equivalent 11.
- Page 4 BW1561 © 2004 Bendix Commercial Vehicle Systems LLC. All rights reserved. 3/2004 Printed in U.S.A.