•
Then insert the WQV without fixing
screw and insulated part.
This now makes possible to
integrate safe test point. the
same time, insert unmodified
WQV parallel produce
an overlap the connection.
Screw the socket this point. is
then possible bridge individual or
several terminals.
•
No end plates partition plates
needed for adjacent WQV
up 400 V.
Any number poles (extending)
Pre-fitted cross-connections can be
set one after the other produce any
required number poles.378 3029140000
.
Screw connection with clamping-yoke technology (W-Series)
Accessories Potential distribution
A
Universal
range
A. The
connection screwed tight using
the fixing screw the unmodified
WQV.
•
First, remove the fixing screw and
screwdriver guide (insulated part)
at one the outer contact points of
one the WQVs.
•
Snap onto the clamped support –
simple overhead assembly.
•
Individual WQV segments can be
broken out bending over using
the WAW1 tool (9004500000).
See the photo “parallel bridging”
(see the next page).WQV screw-in cross-connection
Thanks the many possible ways
in which the WQV cross-connection
system can used break-out of
individual layers, creation any
number poles running two
voltages parallel one another –
individual modules can realised very
easily!
Technical instructions
•
The full rated current the
terminals can routed across any
number poles.
WQV combination with socket
contact and test plug
•
Remove the fixing screw and
insulation part the WQV.
• Captive fixing screws.
Routing potentials parallel
•
In spite only having channel, the
QV cross-connection system can still
be used for offset cross-connections.
Assembly
•
Place the WQV the cross-
connection channel the middle of
the terminal and screw tight.
To so, arrange the last and first
contact points two identical WQVs
so that they overlap
