Air tube disc clutches and brakes, Summary, Selection requirements – Wichita Clutch LK Brake User Manual

B

Air Tube Disc Clutches and Brakes

P-1100-WC 1/12

Wichita Clutch 800-964-3262 25

Summary

As calculated, the torque required to stop the
load in 5 seconds is 14,547 lb.in. Wichita Low
Inertia Brakes are rated at 100 PSI.
This application has only 80 PSI available.

To determine the torque rating of a Low Inertia
brake at 80 PSI apply the following formula:

Application: Torque for a Low Inertia Brake

=

Torque X Catalog Rated Pressure

Available Air Pressure

= 14,547 X = 18,183 lb.in.

Consult pages 26 and 36 for clutch and brake
spec i fi ca tions. A Low Inertia model 114 Brake
pro duc es 27,625 lb.in. torque at 100 PSI.
However, the bore capacity is 4.125 inches.
This application requires a 5 inch bore.
There fore, a Low Inertia 118 is to be
in ves ti gat ed.

Catalog Torque Rating = 64,500 lb.in.

@ 100 PSI

Maximum Bore Capacity = 5.25 in.
Catalog Swept Friction Area = 264 in.

2

Calculations show this application needs at
least 202 in.

2

to absorb the heat.

All of these ratings are acceptable for the given
application data.

Next, check contact velocity of rotating discs.

=

Diameter of centerplate X RPM

3.82

=

18" X 750

3.82

= 3,534 FPM

Standard material is sufficient up to 6,000 FPM
(see page 23). Balancing is recommended
above 3,500 FPM.

Therefore, a Low Inertia ATD-118 brake is
the optimum choice for this application.

A Spring-Set Air Release Brake is also
available (see page 58).

Note:
This application example is for pre lim i nary
sizing only. Contact a Wichita Sales Engineer
or the factory for final selection.

Selection Requirements

The selection of a Low Inertia Brake is
based on:

1. Torque required to stop a load.

2. Friction area necessary to absorb

rotational energy.

3. Contact velocity of rotating discs.

4. Maximum bore capacity of unit.

Selection example

To properly select a Low Inertia Brake for
a controlled deceleration application, the
following information is needed:

Speed . . . . . . . . . . . . . . . . . . 750 RPM
Shaft Dia.. . . . . . . . . . . . . . . . 5 in.
Inertia to Stop . . . . . . . . . . . . 2,473 lb.ft.

2

Stop Time . . . . . . . . . . . . . . . 5 sec.
Air Pressure Available . . . . . . 80 PSI

Calculations

Avg. HP =

WR

2

X (RPM)

2

3.2 x 10

6

x Stop Time

=

2,473 X (750)

2

3.2 x 10

6

x 5 sec.

= 87 HP

Swept Avg. HP
Friction

=

HP ab sorp tion rate for 5 seconds

Area (see page 174)

= 87 HP = 202 in.

2

0.43

Torque =

WR

2

x RPM

25.5 x Stop Time

=

2.473 x 750

25.5 x 5

= 14,547 lb.in.

Using the above calculations, consult the
Low Inertia Specifications Chart on
pages 26 and 27.

100

80

Low Inertia and Very Low Inertia Clutches and Brakes