RU157734U1 - EMERGENCY STOP SWITCH RACK - Google Patents

Abstract

The emergency shutdown rail of the circuit breaker, made with the possibility of interaction with the return springs and the bracket of the free trip mechanism, characterized in that it contains an axis made of high-temperature electrical engineering plastic with segments and anchors rigidly fixed in them and made of ferromagnetic material, while the first segment is equipped with completed integrally with it, the interaction area with the thermal release and the interaction area with the test button of the operation object ii, the second segment is equipped with integral interactions with the thermal release, protrusions for attaching the return springs and the support protrusion of the interaction with the free release bracket, and the third segment is equipped with interactions with the thermal release and the interaction with additional nodes .

Description

The utility model relates to electrical engineering and is used in conjunction with the free trip mechanism of circuit breakers to disconnect electrical circuits when currents flow above acceptable limits, as well as when checking the operability of the free trip mechanism when the test button is manually operated.

A technical solution is known, selected as a prototype, according to patent No. 136232, according to which a separate emergency trip rail with a return spring is used in each pole of the circuit breaker. This solution has a large number of parts, it is difficult to manufacture and configure.

The technical task is to create a device that provides reliable operation of the free trip mechanism in any acceptable modes of operation of the device of the object of operation.

The technical result is to increase the reliability and speed of the facility with a minimum number of parts.

The utility model is illustrated by the following illustrations:

FIG. 1 - Rail emergency shutdown, view from the side of the output terminal of the circuit breaker,

FIG. 2 - Rail emergency shutdown, view from the side of the free trip mechanism of the circuit breaker,

FIG. 3 - Rail emergency shutdown, view in the case of a circuit breaker,

Where

1. Emergency shutdown rail

2. The axis of the emergency shutdown rail

3. Support ledge

4. The protrusion of the return spring

5. Platform for interaction

6. Anchor

7. Interaction platform

8. A bracket of the mechanism of free release

9. The lever of the mechanism of free release

10. Return spring

11. Adjustment screws

12. Interaction platform

13. The first segment

14. Second segment

15. The third segment

The technical result is achieved due to the fact that the emergency shutdown rail of the circuit breaker, made with the possibility of interaction with the return springs and the bracket of the free trip mechanism, contains an axis made of high-temperature electrotechnical plastic with segments and anchors rigidly fixed in them and made of ferromagnetic material, while the first segment is equipped with a completely integrated platform for interaction with a thermal release and a platform for interaction with a test a button of the object of operation, while the second segment is equipped with interactions with the thermal release, protrusions for attaching return springs and the support protrusion of the interaction with the bracket of the free trip mechanism, and the third segment is equipped with interactions with the thermal release and the interaction with additional nodes.

The emergency shutdown rail 1 of the circuit breaker is configured to interact with return springs 10 and bracket 8 of the free trip mechanism.

The emergency shutdown rail 1 contains an axis 2 made of high-temperature electrotechnical plastic with segments 13, 14 and 15 and anchors 6 rigidly fixed in them and made of ferromagnetic material.

The first segment 13 is provided with a completely integrated interaction area 5 with a thermal release and an interaction area 7 with a test button (not shown) of the operation object.

The second segment 14 is provided with a completely integrated platform 5 for interacting with a thermal release, fastening tabs 4 of the return springs and a supporting protrusion 3 for interacting with the bracket 8 of the free trip mechanism.

The third segment 15 is equipped with integral parts of the interaction with the thermal release and the interaction area 12 with additional nodes.

When translating the control handle (not shown in FIG.) Of the operation object in the direction of arrow “A”, the free trip mechanism is cocked.

When moving the control handle (not shown in FIG.) In the direction of the arrow “B”, the operating object is switched on.

The operation of the mechanism of free uncoupling of the object of operation from the effects of the thermal release is as follows.

When an overload current exceeding the rated current flows through the operation object, the heater bus (not shown) is heated, and the bimetal plate (not shown) is heated by the thermal release. Since it is located close to the heater bus, it bends towards the emergency shut-off rail 1. The adjusting screws 11 of the bimetallic plate act on the emergency shut-off rail 1, which rotates on its axis 2 towards the free trip mechanism, while the support protrusion 3 disengages from bracket 8 of the mechanism of free trip, which leads to the release of the lever 9 of the mechanism of free trip from engagement with the bracket 8 and the mechanism of free trip, triggering, disables pi power load.

The operation of the mechanism of free uncoupling of the object of operation from the occurrence of short circuit currents is as follows.

When short-circuit currents flow through the facility, the armature 6 is attracted to the core of the electromagnetic release (not shown in Fig.). As a result of this, the anchor 6 causes the emergency shutdown rail 1 to turn on its axis 2 towards the free trip mechanism, while the support protrusion 3 disengages from the free trip mechanism bracket 8, which releases the lever 9 of the free trip mechanism from the gear bracket 8 free trip. The release mechanism is triggered. The load power circuit is disconnected.

Triggering of the mechanism of free uncoupling of the operation object from the impact of the test button of the operation object

The object of operation, for example, a circuit breaker, is exposed to the external environment, as a result of which it is periodically necessary to check its operability in modes requiring its shutdown.

For this, the test button is used in the operation object (not shown in Fig.), Acting on which, by pressing, the device is turned off. The test button (not shown in Fig.) With its pusher acts on the interaction area 7 with the test button, the emergency disconnect rail 1 turns toward the free trip mechanism, the support protrusion 3 disengages from the bracket 8 of the free trip mechanism, and the gear lever 9 of the free mechanism the disengagement disengages from the bracket 8. The release mechanism is triggered. The load power circuit is disconnected.

Claims (1)

The emergency shutdown rail of the circuit breaker, made with the possibility of interaction with the return springs and the bracket of the free trip mechanism, characterized in that it contains an axis made of high-temperature electrical engineering plastic with segments and anchors rigidly fixed in them and made of ferromagnetic material, while the first segment is equipped with completed integrally with it, the interaction area with the thermal release and the interaction area with the test button of the operation object ii, the second segment is equipped with integral interactions with the thermal release, protrusions for attaching the return springs and the support protrusion of the interaction with the free release bracket, and the third segment is equipped with interactions with the thermal release and the interaction with additional nodes .

Images