CN219226949U - Power distribution cabinet connection structure - Google Patents

Abstract

The utility model relates to a power distribution cabinet connecting structure, which is characterized in that concave parts corresponding to each other are arranged on the side walls of cabinet bodies, and are used in combination with positioning blocks corresponding to the shapes of the concave parts, so that the connection between the cabinet bodies is completed, and the integrity of the outer walls of the cabinet bodies is not affected; meanwhile, in actual use, the concave part and the positioning block can be arranged into a strip-shaped structure corresponding to each other, so that the positioning can be realized in a larger area, and the cutting damage to the stud caused by mutual cutting of the cabinet body is reduced.

Description

Power distribution cabinet connection structure

Technical Field

The utility model relates to the technical field of power distribution engineering, in particular to a power distribution cabinet connecting structure.

Background

The power distribution cabinet is the most common equipment in the technical field of power distribution, is a device for installing components and connecting input and output to wires, and has the effect of intensively arranging and protecting the components.

In actual use, in particular to a power distribution room, a plurality of groups of electric cabinets are commonly placed for use, copper bars or wires are connected between the groups of electric cabinets, so that the electric cabinets need to be fixed in use, the stability of the electric cabinets is guaranteed, the structure adopted at present is relatively simple, namely the electric cabinets are connected through bolts, and thus the electric cabinets are inconvenient to position in actual use, and certain shearing force is provided for the bolts.

The utility model patent with the authorized bulletin number of CN217769158U and the name of a rapid cabinet combining structure of a power distribution cabinet discloses a cabinet combining structure, which is characterized in that a positioning groove and a positioning protrusion are arranged on the power distribution cabinet, and the positioning is realized through the matching of the positioning groove and the positioning protrusion, so that the rapid positioning effect can be achieved, but the fatal defect is that the positioning protrusion arranged outside the cabinet body can damage the integrity of the vertical face of the cabinet body.

Disclosure of Invention

The utility model relates to a power distribution cabinet connecting structure, which is characterized in that concave parts corresponding to each other are arranged on the side walls of cabinet bodies, and are used in combination with positioning blocks corresponding to the shapes of the concave parts, so that the connection between the cabinet bodies is completed, and the integrity of the outer walls of the cabinet bodies is not affected; meanwhile, in actual use, the concave part and the positioning block can be arranged into a strip-shaped structure corresponding to each other, so that the positioning can be realized in a larger area, and the cutting damage to the stud caused by mutual cutting of the cabinet body is reduced.

The utility model realizes the above purpose by adopting the following technical scheme:

the power distribution cabinet connecting structure comprises a concave part which is arranged at a corresponding position on the side wall of a cabinet body, wherein a through hole for a stud to pass through is arranged in the concave part; the concave parts are internally provided with positioning blocks, and when the cabinet bodies are spliced with each other, the positioning blocks are inserted into the concave parts corresponding to the adjacent cabinet bodies to position the cabinet bodies; the studs penetrate through the concave parts and the positioning blocks to splice the adjacent cabinet bodies.

The concave part is of a trapezoid structure, and conical protruding structures corresponding to the concave part are respectively arranged at two ends of the corresponding positioning block.

Furthermore, the concave part is of a strip-shaped structure with a trapezoid end face, and the corresponding positioning block is also of a strip-shaped structure; the concave part is provided with a plurality of groups of through holes which are uniformly distributed; the cabinet body is connected through a plurality of groups of studs when being connected.

Furthermore, the locating block adopts the rubber coating structure, and the outside of locating block parcel has one deck cushioning rubber.

Further, studs are arranged at positions, corresponding to the through holes in the concave parts, on two sides of the positioning block, and when the positioning block is arranged in the concave parts, the studs penetrate through the outer parts of the through holes and are connected through nuts.

Furthermore, the recessed part is provided with four channels outside the cabinet body and is respectively positioned at the edge close to the cabinet body, so that a square annular structure is integrally formed.

The technical scheme adopted by the utility model has the following beneficial effects:

in the connecting structure, a concave structure is adopted, so that no protruding structure exists, and the integrity of the outer vertical surface of the cabinet body is relatively ensured; the positioning block is used for effectively positioning the cabinet body and reducing shearing of the stud in later use; the concave part and the positioning block of the strip-shaped structure can well position and connect all sides, and the phenomenon of unstable connection caused by single stud connection is prevented.

Drawings

FIG. 1 is a schematic diagram of the present utility model.

Fig. 2 is a cross-sectional view of a splice structure.

Detailed Description

The utility model is further illustrated below with reference to examples.

The connection structure of the power distribution cabinet shown in fig. 1 and 2 comprises a concave part 101 arranged at a corresponding position on the side wall of a cabinet body 1, wherein a through hole 102 for a stud to pass through is arranged in the concave part 101; the concave part 102 is internally provided with a positioning block 2, and when the cabinet bodies are spliced with each other, the positioning block 2 is inserted into the concave part 101 corresponding to the adjacent cabinet body to position the cabinet body; the stud 3 passes through the concave part 101 and the positioning block 2 to splice adjacent cabinet bodies.

The concave part 101 is in a trapezoid structure, and conical protruding structures corresponding to the concave part 101 are respectively arranged at two ends of the corresponding positioning block 2.

Furthermore, the concave part 101 has a strip-shaped structure with a trapezoid end surface, and the corresponding positioning block 2 also has a strip-shaped structure; the concave part 101 is provided with a plurality of groups of through holes 102 which are uniformly distributed; the cabinets are connected through a plurality of groups of studs 3 when being connected.

Further, the positioning block 2 adopts a rubber coating structure, and a layer of cushioning rubber 201 is wrapped outside the positioning block 2.

Further, studs 3 are arranged at positions on two sides of the positioning block 2 corresponding to the through holes in the concave portion 101, and when the positioning block 2 is installed in the concave portion 101, the studs 3 penetrate through the outer portions of the through holes and are connected through nuts 4.

Further, the recess 101 is provided with four channels at the outer part of the cabinet body, and is respectively located at the edge close to the cabinet body, so that a square annular structure is integrally formed.

In the use process, two cabinet bodies are spliced together, the positioning block is placed in the concave part, the stud penetrates through the through hole, and the splicing and positioning effects can be achieved through the fixation of the nut. The stud is arranged on the positioning block, so that the positioning block can be conveniently installed.

The strip-shaped positioning blocks can better bear the shearing between two cabinet bodies in later use.

The strip-shaped concave parts and the positioning blocks are matched with each other in use, and all sides can be known, so that the splicing effect is ensured.

Claims (6)

1. Switch board connection structure, its characterized in that: the novel anti-theft cabinet comprises a concave part which is arranged at a corresponding position on the side wall of the cabinet body, wherein a through hole for a stud to pass through is arranged in the concave part; the concave parts are internally provided with positioning blocks, and when the cabinet bodies are spliced with each other, the positioning blocks are inserted into the concave parts corresponding to the adjacent cabinet bodies to position the cabinet bodies; the studs penetrate through the concave parts and the positioning blocks to splice the adjacent cabinet bodies.

2. A power distribution cabinet connection structure according to claim 1, characterized in that: the concave part is of a trapezoid structure, and conical protruding structures corresponding to the concave part are respectively arranged at two ends of the corresponding positioning block.

3. A power distribution cabinet connection structure according to claim 2, characterized in that: the concave part is of a strip-shaped structure with a trapezoid end surface, and the corresponding positioning block is also of a strip-shaped structure; the concave part is provided with a plurality of groups of through holes which are uniformly distributed; the cabinet body is connected through a plurality of groups of studs when being connected.

4. A power distribution cabinet connection structure according to claim 3, characterized in that: the locating block adopts the rubber coating structure, and the outside parcel of locating block has one deck bradyseism rubber.

5. The power distribution cabinet connection structure according to claim 4, wherein: and studs are arranged at positions, corresponding to the through holes in the concave parts, on two sides of the positioning block, and penetrate through the outer parts of the through holes and are connected through nuts when the positioning block is arranged in the concave parts.

6. The power distribution cabinet connection structure according to claim 5, wherein: the recessed part is provided with four channels at the outer part of the cabinet body, and the recessed part is respectively positioned at the edge close to the cabinet body, so that a square annular structure is integrally formed.

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