CN215116642U - Switch cabinet grounding switch contact in-place detection device - Google Patents

Abstract

The utility model discloses a cubical switchboard earthing switch contact detection device that targets in place, a serial communication port, include: the grounding switch comprises a grounding switch bracket, wherein an insulator is arranged on the grounding switch bracket, and the insulator is connected with a static contact of a grounding switch through a copper bar under the condition of ensuring a safe distance; the rotating shaft and the spring positioning column of the moving contact of the grounding switch are arranged on the grounding switch bracket, and the spring arranged on the rotating shaft and the spring positioning column are compressed and stretched in a rotating way, so that the moving contact of the grounding switch is driven to rotate, and the moving contact of the grounding switch is contacted with or separated from the static contact of the grounding switch; and an opening cam and a closing cam are arranged on the grounding switch moving contact rotating shaft through a grounding switch moving contact connecting plate, and rotate along with the rotation of the grounding switch moving contact rotating shaft. The utility model discloses a deciliter state feedback precision is higher, and ageing is better, has reduced the earthing switch state detection lag problem that current product idle stroke arouses. Thereby solved because cubical switchboard ground protection state inaccurate incident problem that arouses.

Description

Switch cabinet grounding switch contact in-place detection device

Technical Field

The utility model relates to an on-line measuring technical field, concretely relates to cubical switchboard earthing switch contact detection device that targets in place.

Background

The switch cabinet grounding switch is a mechanical grounding device for guaranteeing the personal safety of operation and maintenance personnel in power failure. The current of certain time can be endured under the trouble condition such as cubical switchboard short circuit, does not pass load current under equipment normal operating condition. However, when the grounding switch is in the on state, the vacuum circuit breaker may damage the grounding switch of the switch cabinet when the vacuum circuit breaker is loaded in the working position. At present, the on-off state of the grounding switch is mostly formed by installing a travel switch at a position such as a transmission shaft, and the actual in-place condition of a grounding switch contact cannot be truly reflected, so that how to more accurately reflect the on-off state of the grounding switch becomes the key for researching the safety and grounding overhaul reliability of a switch cabinet.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that the prior art can not accurately reflect the closing and separating state of the grounding switch, the utility model aims to provide a switch cabinet grounding switch contact detection device that targets in place.

In order to realize the utility model discloses an aim, the technical scheme that adopts is:

a cubical switchboard earthing switch contact detection device that targets in place includes:

the grounding switch comprises a grounding switch bracket, wherein an insulator is arranged on the grounding switch bracket, and the insulator is connected with a static contact of a grounding switch through a copper bar under the condition of ensuring a safe distance;

the rotating shaft and the spring positioning column of the moving contact of the grounding switch are arranged on the grounding switch bracket, and the spring arranged on the rotating shaft and the spring positioning column are compressed and stretched in a rotating way, so that the moving contact of the grounding switch is driven to rotate, and the moving contact of the grounding switch is contacted with or separated from the static contact of the grounding switch;

the grounding switch moving contact rotating shaft is provided with an opening cam and a closing cam through a grounding switch moving contact connecting plate, and the opening cam and the closing cam rotate along with the rotation of the grounding switch moving contact rotating shaft;

when the moving contact of the grounding switch is switched off to a designated position, the switching-off cam can accurately and timely trigger the switching-off travel switch, and the switching-off travel switch reflects that the grounding switch is in a switching-off state to the switch cabinet control protection system;

when the moving contact of the grounding switch is switched on to a designated position, the switching-on cam can accurately and timely trigger the switching-on travel switch, and the switching-on travel switch reflects that the grounding switch is in a switching-on state to the switch cabinet control and protection system.

In a preferred embodiment of the present invention, the two sides of the grounding switch moving contact connecting plate are respectively provided with an opening cam and a closing cam, and the middle openings of the opening cam, the grounding switch moving contact connecting plate and the closing cam form an installation channel and are integrally installed on the grounding switch moving contact rotating shaft.

In a preferred embodiment of the present invention, the opening travel switch is disposed on a rotation contact surface of the opening cam.

In a preferred embodiment of the present invention, the closing stroke switch is disposed on a rotating contact surface of the closing cam.

In a preferred embodiment of the present invention, the opening cam or the closing cam is of a water drop structure, and the opening cam or the closing cam faces in different directions.

The beneficial effects of the utility model reside in that:

the feedback precision of the on-off state is higher, the timeliness is better, and the problem of the detection lag of the state of the grounding switch caused by the idle stroke of the existing product is reduced. Thereby solved because the inaccurate accident problem that arouses of cubical switchboard ground protection state.

Drawings

Fig. 1 is a schematic view of the assembly structure of the present invention.

Fig. 2 is a schematic view of a partial structure of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Detailed Description

The switch cabinet grounding switch contact in-place detection device shown in fig. 1-3 comprises a grounding switch bracket 2, wherein an insulator 1 is installed on the grounding switch bracket 2, and the insulator 1 is connected with a grounding switch static contact 5 through a copper bar under the condition of ensuring a safe distance.

A grounding switch moving contact rotating shaft 3 and a spring positioning column 7 are arranged on a grounding switch support 2, a spring 4 arranged on the grounding switch moving contact rotating shaft is compressed and stretched in a rotating mode through the spring positioning column 7, so that the grounding switch moving contact 6 is driven to rotate, the grounding switch moving contact 6 is in contact with or separated from a grounding switch static contact 5, and a brake-off cam 10 and a brake-on cam 11 are arranged on the grounding switch moving contact rotating shaft 3 through a grounding switch moving contact connecting plate 12.

The grounding switch moving contact connecting plate 12, the opening cam 10 and the closing cam 11 are welded to form a whole, the opening cam 10 and the closing cam 11 are arranged on two sides of the grounding switch moving contact connecting plate 12 respectively, the opening cam 10 and the closing cam 11 are of water drop type structures, and horizontal contact surfaces 10a and 11a on the side portions of the opening cam 10 and the closing cam 11 face towards different directions, so that the opening and closing state feedback accuracy can be improved.

The opening holes in the middle parts of the opening cam 10, the grounding switch moving contact connecting plate 12 and the closing cam 11 form an installation channel which is integrally installed on the grounding switch moving contact rotating shaft 3 and rotates along with the rotation of the grounding switch moving contact rotating shaft 3.

Because of possessing the above structure, the utility model discloses a theory of operation lies in:

when the grounding switch moving contact rotating shaft 3 is connected to an opening operation instruction, the grounding switch moving contact rotating shaft 3 drives the grounding switch moving contact 6, the opening cam 10, the closing cam 11 and the grounding switch moving contact connecting plate 12 to rotate.

When the moving contact 6 of the grounding switch is switched off to a designated position, the switching-off cam 10 can accurately and timely trigger the switching-off travel switch 8, and the switching-off travel switch 8 reflects that the grounding switch is in a switching-off state to the switch cabinet control protection system (at the moment, the switching-on and switching-off contact just has the maximum separation travel).

When the grounding switch moving contact rotating shaft 3 is connected with a closing operation instruction, the grounding switch moving contact rotating shaft 3 drives the grounding switch moving contact 6, the opening cam 10, the closing cam 11 and the grounding switch moving contact connecting plate 12 to rotate.

When the moving contact 6 of the grounding switch is switched on to a designated position, the switching-on cam 11 can accurately and timely trigger the switching-on travel switch 9, and the switching-on travel switch 9 reflects that the grounding switch is in a switching-on state (at the moment, the switching-on and switching-off contacts are just contacted) to the switch cabinet control and protection system.

The state of the contact of the grounding switch is to directly acquire the stroke of the moving contact of the grounding switch, and is not influenced by the idle stroke of the rotating shaft 3 of the moving contact of the grounding switch.

The utility model discloses a deciliter state feedback precision is higher, and ageing is better, has reduced the earthing switch state detection lag problem that current product idle stroke arouses. Thereby solved because the inaccurate accident problem that arouses of cubical switchboard ground protection state.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims (4)

1. The utility model provides a cubical switchboard earthing switch contact detection device that targets in place which characterized in that includes:

the grounding switch comprises a grounding switch bracket, wherein an insulator is arranged on the grounding switch bracket, and the insulator is connected with a static contact of a grounding switch through a copper bar under the condition of ensuring a safe distance;

the rotating shaft and the spring positioning column of the moving contact of the grounding switch are arranged on the grounding switch bracket, and the spring arranged on the rotating shaft and the spring positioning column are compressed and stretched in a rotating way, so that the moving contact of the grounding switch is driven to rotate, and the moving contact of the grounding switch is contacted with or separated from the static contact of the grounding switch;

the grounding switch moving contact rotating shaft is provided with an opening cam and a closing cam through a grounding switch moving contact connecting plate, and the opening cam and the closing cam rotate along with the rotation of the grounding switch moving contact rotating shaft;

when the moving contact of the grounding switch is switched off to a designated position, the switching-off cam can accurately and timely trigger the switching-off travel switch, and the switching-off travel switch reflects that the grounding switch is in a switching-off state to the switch cabinet control protection system;

when the moving contact of the grounding switch is switched on to a designated position, the switching-on cam can accurately and timely trigger the switching-on travel switch, and the switching-on travel switch reflects that the grounding switch is in a switching-on state to the switch cabinet control and protection system.

2. The device for detecting the in-place of the grounding switch contact of the switch cabinet as claimed in claim 1, wherein an opening cam and a closing cam are respectively disposed at two sides of the moving contact connecting plate of the grounding switch, and the opening at the middle part of each of the opening cam, the moving contact connecting plate of the grounding switch and the closing cam forms an installation channel integrally installed on the moving contact rotating shaft of the grounding switch.

3. The switch cabinet grounding switch contact in-place detection device as claimed in claim 1, wherein the opening travel switch is arranged on a rotating contact surface of the opening cam.

4. The device for detecting the in-place of the contact of the grounding switch of the switch cabinet as claimed in claim 1, wherein the closing travel switch is arranged on a rotating contact surface of a closing cam.

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