4—opening operation (refer to figure 15), 5—trip-free operation, 1—visual inspection – GE Industrial Solutions Power-Vac ML-20 Mechanism User Manual

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the linkage to rise until the prop (11, view D) can slip under

the close roller (10, view D) and hold the linkage in place. As

the linkage moves, the output crank (12, view D) rotates the

cross shaft (13, view D) which in turn rotates the phase bell
cranks and compresses the two opening springs (15, view E)

on poles 1 and 3, this closes the vacuum interrupters, and

compresses the three wipe springs (16, view E) on each pole.

The rotation of the cross shaft (13, view D) also changes the

auxiliary switch (7, view D) position. The position flag on the

front panel will then indicate “CLOSED”. After the breaker is
closed, the charging motor is again energized and the closing

spring is charged as described under “CLOSE SPRING

CHARGING”. Spring charging is possible when the breaker is

in the closed position because the linkage is held in place by

the prop.

5.4—Opening Operation (refer to Figure 15)

By either energizing the trip solenoid or depressing the

manual trip button (23, view B), the trip latch (19, view D) is
rotated, permitting the linkage to collapse and the vacuum

interrupter contacts to open under the force of the wipe

springs (16, view E) and opening springs (15, view E). At the

end of the opening stroke, the center phase wipe spring

assembly hits a stop block on the frame that limits overtravel
and rebound. Rotation of the cross shaft from the closed to

the open position operates the auxiliary switch (17, view D)

which opens the trip coil circuit. If the closing spring has been

recharged, the linkage will be reset and the trip latch will be in

place on the trip roller, ready for another closing operation.

5.5—Trip-free Operation

The linkage is mechanically trip free in any location on the

closing stroke. Electrically energizing the trip coil while closing

will, after the auxiliary switch contacts change position, rotate
the trip latch and permit the circuit breaker to open fully.

The linkage will reset as in a normal open operation, and the

closing spring will recharge as described under SPRING
CHARGING.

SECTION 6—Electric Control circuit

A typical PowerVac

®

circuit breaker ML-20 mechanism wiring

diagram is shown in Figure 16. Check the wiring diagram

supplied with the actual circuit breaker for its wiring.

The close spring-charging motor circuit is established through

the CL/MS (close latch monitor switch) switch if the close

latch is reset the SM/LS (spring motor limit switch) if the
closing spring is discharged and the IL/MS (Negative Interlock

Monitoring Switch). When the closing spring is charged, the

SM/LS interrupts the circuit.

The close coil circuit is established through two normally
closed 52Y relay contacts, and the latch-checking switch LCS,

if the trip latch is reset. An auxiliary switch contact 52b is also

in series with the close coil and closes when the breaker is

open and opens when the breaker is closed. During a close

operation, cam rotation closes the SM/LS contact allowing the

52Y relay to be energized; opening its contacts in the close
coil circuit and sealing itself in through one of its own contacts

to the close signal. This seal-in action prevents re-closing on a

sustained close command as the close signal must be

removed to drop out the Y relay, and reestablish the close

circuit, thereby providing an anti-pump feature.

Circuit breaker mounted auxiliary switch contacts not used in

the control circuit are bought out for control and indication

functions. The metalclad equipment may provide a breaker

operated stationary auxiliary switch for additional contacts
(3, 6 or 10 stages are available).

SECTION 7—Mechanical Checking and Slow Closing

7.1—Visual Inspection

Visually inspect the circuit breaker for any signs of damage or

loose hardware.

7.2—Closing Spring Charging

Manually charge the breaker closing spring using the charging

handle provided (1, Figure 4). The closing spring is charged by

a ratcheting mechanism that advances by one ratchet tooth at

a time. When the spring is fully charged and the spring load is
held by the closing latch, the spring indicator (3, Figure 1) will

change from “DISCHGD” to “CHARGED”, and a positive snap

will be heard as the spring travels over center.

CAUTION: AFTER THE SPRING IS COMPLETELY

CHARGED, AS INDICATED IN FIGURE 4, FURTHER FORCING

CHARGING HANDLE MAY CAUSE DAMAGE TO THE
CLOSING LATCH AND ITS ASSOCIATED PARTS.

Figure 4 Manual charging

1. Manual charging handle

2. Close spring gag hole

(shown in closed position)

3. Spring charge indication

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