B.8.1 influence of the mass on force control, B.8.1, Influence of the mass on force control – Festo Контроллер позиционирования CPX-CMAX User Manual

B. Basic controlling principles

B−36

Festo P.BE−CPX−CMA X−CONTROL−EN en 0908NH

B.8.1

Influence of the mass on force control

The moving mass consists of the workpiece mass and the tool
mass (or basic load). Often the exact basic load is not known.

m = m

total

= m

current tool mass

+ m

current workpiece mass

As with any other positioning process, the workpiece mass
needs to be specified for the identification, too.

m

ident.

= m

tool mass ident.

+ m

workpiece mass ident.

During static identification the controller identifies the force
at which the drive is safely held at a standstill. It also deterĆ
mines the forces that are required to let the drive break away
in both directions of movement. The mean value of these
break−away forces is stored as the standstill force in the
identification data.

If you do not take into account the friction forces, the standĆ
still force F

0

must only just compensate the force due to

weight of the moving mass:

F

0

= p

01

* A

1

ć p

02

* A

2

= m

ident.

* g * sin

α

The total mass m

ident

specified during identification is also

stored in the identification data.

During force control, the identified standstill force F

0

serves

as basic value for the force to be controlled. It compensates
the gravitational force and other external axial forces. Due to
identification (i.e. measurement) of the standstill force F

0

, an

error in the specification of m

ident.

leads to no error in force

control.

If the user specifies different workpiece masses per record,
the difference m

delta

to the identification mass is taken into

account and additionally compensated. The workpiece mass
in the records should therefore be specified precisely, so that
the standstill force can be tracked as best as possible.