36
15.5
15.5
15.5
normal
Alu 1
Alu 2
7.5
MZV
Alu 2 P
Alu 3
7.5
MZV
Alu 3 P
Alu 4
Alu 5
15.5
15.5
20
Operation manual geodyna 2600 EEWB703D
Entry of balancing mode and wheel size
7.2.2 Gauge head applications
In order to be able to determine unbalance in a single measur-
ing run, the rim dimensions have to be entered correctly.
Fig. 36
shows correct application (with and without adhesive
weight) of the gauge on various rims and for various weight
positions. There are either one, or two positions where the
gauge has to be applied.
normal
Standard balancing mode where hammer-on weights
are attached to the rim flanges
Alu 1
Attachment of adhesive weights to the bead seats
Alu 2
Adhesive weights - adhesive weight on bead seat, hid-
den adhesive weight attached in the rim: the correc-
tion planes for the adhesive weights are determined
automatically by the machine
Alu 2P
Adhesive weights - adhesive weight on bead seat,
hidden adhesive weight attached in the rim; the
correction planes for the adhesive weights can be
determined exactly
Alu 3
Hammer-on weight on left rim flange, adhesive weight
attached in hidden position in the rim; the correction
plane for the adhesive weight is determined auto-
matically by the machine
Alu 3P
Hammer-on weight on left rim flange, adhesive
weight attached in hidden position in the rim; the
correction plane for the adhesive weight can be de-
termined exactly
Alu 4
Hammer-on weight on left rim flange, adhesive
weight attached to right bead seat
Alu 5
Hammer-on weight on right rim flange, adhesive
weight attached to left bead seat
Point of application of gauge arm
Given weight position
Point of appliction of gauge arm = weight position