Feed arc, Feed arc relationship – Rapid-Air SERVO FEED: 100C, 100D series User Manual



To explain how the “feed arc” is

related to the servo feed calculation,

we must first explain what the feed

arc is in relation to a press.

The press has a die that has two

halves. The lower half is stationary

and the top half is moveable in an up

and down motion which is one cycle

from the full open to the full closed to

the full open again. The component

that makes all of this happen is named

“crankshaft”. The crankshaft makes

a 360 degree revolution for one cycle

of the die from open to close to open

again. When the die is fully open, the

crankshaft would be at “0” degree

position. When the die is fully closed

the crankshaft is at 180 degrees or

one-half of a revolution.

We ask that a switch be set at 270

degrees to activate the feed because

Feed Arc Relationship

at this position, the die is completely

clear of the material. This is also a

good starting point to explain the

“feed arc” portion of the auto

calculation in the Rapid Air program.

If the feed input switch was tripped

at 270 degrees of the total revolution

of the crankshaft and the arc calcula-

tion was 180 degrees then the servo

feed would complete it’s feed by 90

degrees of the press cycle or 180

degrees past the 270 degree mark.

The feed arc could be set at 90

degrees so the feed cycle would be

complete by 360 degrees or when the

press was at the top of the stroke.

The feed arc could be set at 270

degrees so the feed cycle would be

complete when the press was at 180

degrees. This example would not

work if the feed cycle started at

270 degrees as the feed would still be

trying to move the material when the

die was closed or together. To use a

270 degree feed arc the feed would

have to start at 230 degrees or 240

degrees to be finished moving the

material before the die was closed

or together. This example could not

be possible if the die had pilot pins

installed in it for precise locating of

the stamped part. The cam switch

drawing in the back of the manual

will help you visualize the above feed

arc explanation.

In essence, the larger the feed arc

number up to 270 degrees, the lower

the acceleration/deceleration rate.

The smaller the feed arc the higher

the acceleration/deceleration rate

and the fewer strokes per minute for

a given feed length.

FEED ARC