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The safety couplings work exclusively with
specially selected disk springs with a pronounced degressive characteristic
(see figures 3 and 4). This advantage guarantees shortest switching
times (2 – 4 msec) and a low residual torque, less than 5%
in a disengaged state. The coupling disengages immediately when
the cut-out torque is exceeded.
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| Figure 3 |
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| Figure 4 |
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The torque
drops immediately to a small residual value, typically 2 to
5%. The switching work required of our couplings corresponds
to only a fraction of that of conventional safety couplings
with progressive characteristic (see figure 3). This is a decisive
advantage because even ultra-short surges in speed are rendered
harmless by the safety coupling. |
Adjustment of the cut-out
torque
Autogard backlash-free safety couplings are delivered with set cut-out
torque. There are two possibilities for this, namely:
1) The user/operator names the cut-out torque in his order.
2) The coupling is set on the lowest cut-out torque in its torque
range.
Figure 5 shows the spring travel we use for our
safety couplings.
Point A stands for the highest spring force = highest cut-out torque.
Point B stands for the lowest spring force = lowest cut-out torque.
Note!
The spring travel corresponds approximately to three-quarters of
a revolution of the set collar. Every required cut-out torque is
progressively adjustable.
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| Figure 5 |
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Due to the degressive characteristic,
the cut-out torque is reduced when the set collar is turned
in a clockwise direction (towards min.) and raised when turned
in an anti-clockwise direction (towards max.).
Note! The set collar may only be turned between min. and max.! |
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Figure 6
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