Balancing Modes - Hofmann geodyna 2600 Operation Manual

Entry of balancing mode and wheel size
2 1
12
32
1
ALU
33
18
1 2
2
1 2 2 2
- +

7.1 Balancing modes

The use of different types on a standard (alloy) wheel and the
resulting different fitting positions of the weights on the rim
produce differences between the rim data which have been
entered and the actual correction dimensions.
Fig. 32 Possible positions of the balance weights
- nominal rim data / actual correction data
1 Nominal rim dimensions to be entered
2 Actual correction data (center of gravity of weights) which
are used for determination of unbalance
The mode chosen is read out on the display, showing the
relative rim symbol (Fig. 33), or on the digital displays when
the Alu key is pressed (reading e.g. Alu 1).
• Press and hold the Alu key (Fig. 33, item 1) and rotate
the wheel to set the desired balancing mode (weight
fitting positions - Fig. 33).
• Release the Alu key as soon as the desired mode is
read out.
Fig. 33 Rim symbols showing weight position
nor. Standard balancing mode where hammer-on weights
are attached to the rim flanges
Alu 1 Fitting of adhesive weights to the bead seats
Alu 2 Adhesive weights - hidden adhesive weight attached
(Alu 2P) in the rim so as not to impair the decorative appear-
ance of alloy wheels or to balance PAX wheels
Alu 3 Hammer-on weight on left rim flange, adhesive
weight
(Alu 3P) attached in hidden position in the rim disc
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
Operation manual geodyna 2600 EEWB703D