3.5 Tool constant settings
First, align the cursor with the
program No., input here the number of
which is not currently being used, and press the [Enter] key.
>>This is the number of the
program which will now be created for
setting the center of gravity (COG) and
weight of tool. An unused
specified here without fail.
input a comment directly from this setting screen.
Align the cursor with the com
ment field, and press the [ENA
The soft keyboard appears so that a
comment can be registered.
Switch on the motor power,
and use the axis operating keys
unbalanced torque (load resulting from the
effect of the gravity) is applied to the J3, J5 and J6 axes.
>>The posture shown in the figure below, for instance, is ideal. At this time, any
posture may be assumed for the J1 and
as a bar graph on the torque monitor at the bottom right of
which the bar graph is the longest for the
J3, J5 and J6 axes is the ideal one. However,
pay particular attention to the
resulting movements of the cables since a posture in
which tension is applied to the application cable or which causes the cables to rub
against the robot body will
adversely affect the accuracy.
J3,J5,J6 torque bar should be long
The Torque monitor (bar graph) displays the torque as a ratio to the stalling current of
each axis motor. The higher is this ratio, the greater will be the unbalanced torque
which is applied and the better suited will be the posture to the automatic center of
gravity (COG) and weight of tool
If the COG (center of gravity) of the tool is not on the rotational center axis of the J6,
please use the posture like the following picture. If
the COG in on the rotational center
<OK>Unbalance torque forJ6 is large
<NG> Unbalance torque for J6 is small
checked by the yellow bar)
J3 should be approx. 0[deg]
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