RU186664U1 - AUTOGAS LOAD SWITCH - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely, the design of a high-voltage autogas load switch of an indoor installation with fuses. The technical result, which the utility model aims to achieve, is the ability to automatically detect a fuse. The technical result indicated above is achieved in the design of an autogas load switch, including fuses equipped with strikers, and lever mechanisms with levers driven by Exposure to the striker actuated predohranitelya.Ukazanny technical result is achieved in that the switch is provided with individual sensors tripping fuses, wherein a part of each sensor includes a micro-control body which is mechanically coupled with the lever of the lever mechanism, driven by the impact of the firing pin corresponding fuse. 4 ill.

Description

The utility model relates to the field of electrical engineering, namely to the design of a high-voltage autogas load switch of an indoor installation with fuses.

High-voltage autogas load breakers are widely known in the prior art, see, e.g. USSR SU 266887, IPC Н01Н 33/76, publ. 04/01/1970

The closest analogue of the claimed utility model is the design of the load switch stated in the aforementioned patent RU 2143148 C1, which includes fuses equipped with strikers, and a device for issuing a shutdown command when one of these fuses is triggered, containing a lever mechanism, while the lever the mechanism is driven by the action of the striker of any fuse that has tripped.

The disadvantage of the closest analogue is the absence in its composition of a device for automatically detecting a fuse that has tripped.

The objective of the proposed utility model is to create an autogas load switch with fuses, equipped with a device for automatically detecting a fuse.

The technical result, which the utility model aims to achieve, is the ability to automatically detect a fuse that has tripped.

The above technical result is achieved in the design of a high-voltage autogas load switch, which includes fuses equipped with strikers, and lever mechanisms with levers driven by the action of the fuse of the fuse.

The specified technical result is achieved by the fact that the switch is equipped with sensors for operating individual fuses, and each sensor includes a micro switch, the control body of which is mechanically connected to the lever of the lever mechanism, driven by the action of the striker of the corresponding fuse.

The utility model is illustrated by the following images. In FIG. 1 shows a high-voltage three-phase gas supply circuit breaker with fuses, side view.

In FIG. 2 shows a high-voltage three-phase gas supply circuit breaker with fuses, top view.

In FIG. 2, for illustrative purposes, a high-voltage three-phase autogas switch with one fuse installed is shown.

In FIG. 3 shows a part of the switch, side view.

In FIG. 3, for clarity, a part of a high-voltage three-phase autogas switch with two fuses installed is shown.

In FIG. 4 shows a part of the switch, top view.

With reference to FIG. 1-4 are indicated:

1 - autogas switch assembly; 2 - frame base; 3 - insulator; 4 - single phase autogas switch; 5 - fuse;

6 - firing pin; 7, 8, 9, 10 - levers; 11 - microswitch.

The utility model can be implemented in the design of a high-voltage three-phase autogas load switch 1 with fuses, see FIG. 1-4, including a frame base 2, insulators 3, single-phase autogas switches 4 phases, fuses 5 with strikers 6 and lever mechanisms with levers 7-10, driven by the action of the striker fuse 5.

To implement the utility model, the following changes are made in the design of a high-voltage three-phase autogas load switch. The switch 1 is equipped with three (according to the number of fuses) sensors fuses.

The composition of each sensor includes a microswitch 11, the control body of which is mechanically connected with the lever 10 of the lever mechanism, driven by the action of the striker of the corresponding fuse 5.

The microswitch 11 contains contact leads, the electrical resistance between which depends on the position of the governing body.

The microswitch 11 is included in the electrical circuit with a light and / or sound signaling device (not shown in Fig.).

The signaling devices can be installed either directly on the frame base 2 of the switch 1, or remotely, for example, on the switchboard of the switchgear.

The load switch 1 in the part relating to the considered technical result, operates as follows.

When one of the fuses 5 of the circuit breaker 1 is triggered, its firing pin 6 extends and pushes the lever 7 opposite. In this case, the levers 8, 9, 10 of the lever mechanism connected to the firing pin 6 of the fuse 5 come into action. As a result, the position of the control body of the microswitch 11 also changes corresponding to the fuse 5, and the electrical resistance between the terminals of the microswitch 11.

When the resistance between the contact terminals of the microswitch changes, the signaling device automatically turns on, which indicates the operation of a specific fuse.

Due to the presence in the design of the load switch of the pickup sensors of individual fuses, it becomes possible to automatically detect a fuse that has tripped.

Patent studies have shown that the technical solution meets the patentability condition of the “world novelty” utility model.

The manufacture and operation of the prototypes confirmed the industrial applicability of the utility model and the achievement of the claimed technical result.

Claims (1)

A switch of a high-voltage autogas load switch, including fuses equipped with strikers, and lever mechanisms with levers driven by the action of the fuse of a fuse, characterized in that the switch is equipped with sensors for operating individual fuses, and each sensor includes a micro switch, a control body which is mechanically connected with the lever of the lever mechanism, driven by the action of the striker of the corresponding fuse.

Images