beautypg.com

Vacuum interrupter/ operator – Siemens vacuum circuit breaker 38-3AH3 38 kV User Manual

Page 38

background image

Vacuum interrupter/
operator

Figure 35: CLOSED circuit-breaker interlock mechanism in stored-energy mechanism

Close-latch lever

Closing-spring release cam

Normal operating position

Trip-pushrod cam

Trip-latch lever

Trip-free pushrod

Interlock levers

Trip-pushrod cam

Enclosure rear

Spring-dump tube

Retaining rings

The racking-cam profile on the

racking mechanism allows the trip-
free racking-interlock to be in the
lowest position (reset) only when
the circuit breaker is in the TEST or
the CONNECT position. Thus, during
racking, the trip-free interlock is held
in an elevated condition except
when the circuit breaker reaches the
TEST or the CONNECT position. The
circuit breaker can be closed only
when the interlock plunger is down,
and will trip if the plunger is moved
up.

The operation of the trip-free

racking-interlock may be seen in
Figure 34: Interlock mechanisms on
the type 38-3AH3 vacuum circuit
breaker on page 37. As the interlock
(6.0) rises, it moves a series of
linkages, that cause a guided tube
(4.0) to rise, and enter the
operating-mechanism enclosure.

Figure 35: CLOSED circuit breaker

interlock mechanism in stored-
energy mechanism shows the
operating mechanism detail
components that establish a trip-
free condition as the tube (4.0)
rises. The rising tube raises a lever
attached to the base of the
operating-mechanism enclosure.
This lever raises the trip-free
pushrod.

The rising trip-free pushrod elevates

the trip-free pushrod cam, that
pushes the trip-free coupling lever
(62.8.3) (refer to Figure 15: Stored-
energy operating mechanism on
page 20) toward the rear of the
enclosure.

The movement of the trip-free

coupling lever toward the rear of the
enclosure is transmitted through the
trip-free coupling link (62.8.2) to the
spring-return latch (62.8.1). With the
latch displaced from a normal reset
position, the trip-free coupling rod
(62.8) cannot apply closing effort to
the jack shaft (63.0). Thus, upon
release, the closing-spring energy
will not be transmitted to the jack
shaft.

C. Automatic closing-spring energy

release

The automatic closing-spring

energy-release (spring-dump) (refer
to Figure 32: Circuit-breaker
interlocks and ground disconnect on
page 33) is a plunger with a roller on
the lower end. The spring dump has
a return spring that returns the
spring dump to the reset or lowered
position.

The plunger roller tracks the shape

of the spring discharge cam on the
racking mechanism in the
switchgear (refer to Figure 33:
Circuit-breaker compartment (MOC/
TOC switch cover removed for
photo) on page 34).

38