CN219304392U - Hidden line type instrument panel frame - Google Patents

Abstract

The utility model aims to provide a hidden line type instrument panel rack which comprises a main beam, wherein a main wire passing groove is formed in an inner cavity of the main beam, and a cable can pass through the main wire passing groove; an instrument stand and an electric box are arranged on the inner side of the main beam; and the wire arranging assembly is fixedly connected to the main beam and communicated with the main wire passing groove, so that cables of the instrument rack and the electric box are mutually penetrated and connected through the wire arranging assembly and the main wire passing groove. The utility model relates to the technical field of electrical equipment, wherein main wire passing grooves are formed in two sides of a main beam, a first wire port capable of leading in a cable is formed in an assembly box, meanwhile, a first wire distribution box and a second wire distribution box are additionally arranged, wire passing holes are formed in the main beam, so that the cable can be hidden in the first wire distribution box and the second wire distribution box, and the wires are communicated with the assembly box through the wire passing holes, standardized arrangement of the cable is realized, and the test frame has a wire hiding function, so that the assembly process, the debugging process and the disassembly process are more convenient to operate.

Description

Hidden line type instrument panel frame

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to a hidden line type instrument panel rack.

Background

When detecting electrical components such as an electrical box and an instrument panel, a meter panel rack is generally used for post-installation testing, and specifically, the electrical box and the meter panel to be detected are fixed on a test rack, and are electrified for working after wiring.

The existing frame body is not provided with wiring grooves, so that all cables are exposed during assembly, the assembling effect is affected by messy cables, and the operation is not easy due to the influence of the cables during debugging. Thus, both the assembly process and the commissioning process or, for example, the disassembly process, cause a number of inconveniences with the exposed cables.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a hidden line type instrument panel rack, which solves the problem of inconvenient use caused by no wire harness or wire hiding function of the existing test rack.

In order to achieve the above purpose, the present utility model is realized by the following technical scheme: a darkline instrument panel rack, the instrument panel rack comprising:

the main beam is provided with a main wire passing groove in the inner cavity, and the main wire passing groove can be used for a cable to pass through; an instrument stand and an electric box are arranged on the inner side of the main beam;

and the wire arranging assembly is fixedly connected to the main beam and communicated with the main wire passing groove, so that cables of the instrument rack and the electric box are mutually penetrated and connected through the wire arranging assembly and the main wire passing groove.

Preferably, the wire arranging assembly comprises an assembling box, a first wiring box and a second wiring box, and the main beam is provided with wire passing holes matched with the assembling box, the first wiring box and the second wiring box, so that cables of the instrument rack and the electric box are connected with each other through the assembling box, the first wiring box, the second wiring box and the penetrating and guiding of the main wire passing groove.

Preferably, the main wire passing groove is arranged in a side upright post of the main beam, and a side buckle plate capable of being buckled with the main wire passing groove is fixedly connected to the side upright post of the main beam.

Preferably, a first partition plate is fixedly connected to the inner wall of the main wire passing groove to divide the main wire passing groove into a left wire passing groove and a right wire passing groove.

Preferably, the assembly box comprises a box groove fixedly connected to the top of the main beam, two ends of the box groove are communicated with the wire passing holes, a box groove buckle plate is fixedly connected to the front face of the box groove, and a plurality of first wire openings for the instrument rack cables to penetrate are formed in the bottom face of the box groove.

Preferably, the first distribution box comprises a first box body, and a box cover plate is fixedly connected to the top of the first box body.

Preferably, the second distribution box includes:

the second box body is fixedly connected to the bottom of the main beam;

the buckle plate is fixedly connected to the top of the second box body, and a plurality of second wire openings through which the cables of the power supply box can penetrate are uniformly formed in the buckle plate of the box body;

the second partition plate is fixedly connected to the middle part of the inner cavity of the second box body and divides the inner cavity of the second box body into a first wire passing groove and a second wire passing groove.

Preferably, the instrument panel rack further comprises an electric box assembly frame for fixing the electric box, wherein the electric box assembly frame comprises a cross beam fixedly connected with the main beam and a plurality of vertical frames fixedly connected on the cross beam, the vertical frames are uniformly distributed, and a plurality of bolt holes are uniformly formed in each vertical frame at equal intervals.

Advantageous effects

According to the concealed wire type instrument panel rack provided by the utility model, the main wire through grooves are formed in the two sides of the main beam, the first wire port capable of leading in the cable is formed in the assembly box, the first wire distribution box and the second wire distribution box are additionally arranged at the same time, the wire through holes are formed in the main beam, so that the cable can be hidden into the first wire distribution box and the second wire distribution box and communicated with the assembly box through the wire through holes, standardized arrangement of the cable is realized, the test rack has a wire hiding function, and the assembly process, the debugging process and the disassembly process are more convenient to operate.

Drawings

FIG. 1 is a schematic view of a structure of an instrument panel rack according to the present utility model;

FIG. 2 is a left side view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a schematic perspective view of an instrument panel frame according to the present utility model;

FIG. 4 is a schematic view of the structure of the assembly box of the present utility model;

FIG. 5 is a schematic view of a first distribution box according to the present utility model;

FIG. 6 is a schematic diagram of a second distribution box according to the present utility model;

fig. 7 is a schematic view of the structure of the electric box assembly frame of the present utility model.

Description of the symbols in the drawings

1. The main beam, 2, assembly case, 21, first line mouth, 22, case groove buckle, 23, case groove, 3, first distribution case, 31, first box, 32, case cover plate, 4, electric case assembly frame, 41, crossbeam, 42, vertical frame, 5, second distribution case, 51, second box, 52, case buckle, 53, second line mouth, 54, second baffle, 55, first wire passing groove, 56, second wire passing groove, 6, wire passing hole, 7, first baffle, 8, side buckle, 9, main wire passing groove, 10, instrument frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. Various modifications can be made to the embodiments as long as the effects of the present utility model can be exerted.

The components in the present case are sequentially connected by a person skilled in the art, and specific connection and operation sequence should be referred to the following working principle, and the detailed connection means thereof are known in the art, and the following working principle and process are mainly described.

The hidden line type instrument panel rack of the present embodiment will be described with reference to fig. 1 to 7.

The instrument panel rack comprises:

in this embodiment, the main beam 1 is a rectangular frame with a door shape, and the bottom has fixing legs, and the fixing legs are fixed on the bottom surface by bolts. The main beam 1 has a main wire trough 9 in the inner cavity, and specifically, the rectangular frame is two upright frame bodies and a transverse frame body fixed on the top of the two upright frame bodies. The cross section of the frame body is rectangular, and the inner cavity is hollow; the hollow inner cavity forms a main wire passing groove 9, so that a cable can pass through the main wire passing groove 9; the cables are the cables of the instrument frame 10 and the electric box which are arranged on the inner side of the main beam 1.

The wire arranging assembly is fixedly connected to the main beam 1 and is communicated with the main wire passing groove 9, so that the instrument frame 10 and the cable of the electric box are mutually penetrated and connected through the wire arranging assembly and the main wire passing groove 9. In the present embodiment, the cable management assembly functions to integrate and manage the cables of the instrument panel rack 10 and the electric box so as to be hidden in the cable management assembly, thereby making the instrument panel rack look as a wireless cable.

The wire arranging assembly comprises an assembly box 2, a first wiring box 3 and a second wiring box 5, wherein wire passing holes 6 which are matched with the assembly box 2, the first wiring box 3 and the second wiring box 5 are formed in the main beam 1, the number of the wire passing holes 6 is 6, and 2 wire passing holes are in a group and are oppositely arranged; one side face of the main beam 1 is provided with 3, and the other side face is provided with 3. The cables of the instrument rack 10 and the electrical box are interconnected by the assembly box 2, the first and second wiring boxes 3 and 5, and the threading of the main wire chase 9.

Wherein the assembly box 2 is fixed at the top position in the frame of the main girder 1, on which an instrument panel is mounted. The instrument rack 10 is provided below the assembly box 2, and a cable thereof is introduced into the assembly box 2, and the first wiring box 3 is provided below the instrument rack 10. An electric box assembly rack 4 is arranged below the first wiring box 3. The second distribution box 5 is arranged at the bottom position in the frame of the main girder 1.

The main wire passing groove 9 is arranged in a side upright post of the main beam 1, and a side buckle plate 8 capable of buckling the main wire passing groove 9 is fixedly connected to the side upright post of the main beam 1.

The inner wall of the main wire passing groove 9 is fixedly connected with a first baffle 7, and the main wire passing groove 9 is divided into a left wire passing groove and a right wire passing groove. In one embodiment, the number of the first spacers 7 is two, and the two first spacers 7 are disposed so as to avoid the via hole 6.

The assembly box 2 comprises a box groove 23 fixedly connected to the top of the main beam 1, two ends of the box groove 23 are communicated with the wire passing holes 6, a box groove buckle plate 22 is fixedly connected to the front surface of the box groove 23, and a plurality of first wire openings 21 for the wires of the instrument rack 10 to penetrate are formed in the bottom surface of the box groove 23.

The first distribution box 3 comprises a first box body 31, and a box body cover plate 32 is fixedly connected to the top of the first box body 31.

The second wiring box 5 includes:

the second box body 51 is fixedly connected to the bottom of the main beam 1;

the buckle plate 52 is fixedly connected to the top of the second box body 51, and a plurality of second wire openings 53 through which cables of the power supply box can penetrate are uniformly formed in the buckle plate 52 of the box body;

the second partition plate 54 is fixedly connected to the middle part of the inner cavity of the second box body 51, and divides the inner cavity of the second box body 51 into a first wire passing groove 55 and a second wire passing groove 56.

The instrument panel frame also comprises an electric box assembly frame 4 for fixing the electric box, wherein the electric box assembly frame 4 comprises a cross beam 41 fixedly connected with the main beam 1 and a plurality of vertical frames 42 fixedly connected on the cross beam 41, the plurality of vertical frames 42 are uniformly distributed, and a plurality of bolt holes are uniformly formed in each vertical frame 42 at equal intervals. In one embodiment, the number of vertical frames 42 is 4, first, second, third and fourth, respectively; when the electric boxes are installed, the electric boxes can be selectively installed on the first vertical frame and the second vertical frame according to the sizes of different electric boxes; or are arranged on the first vertical frame and the third vertical frame; or mounted on the first and fourth vertical frames. If the electric boxes with different sizes appear, the four vertical frames can be transversely adjusted on the cross beam 41, namely, a plurality of holes are formed on the cross beam 41, so that bolts for fixing the vertical frames 42 can be installed in the holes, thereby being convenient for installing and fixing the electric boxes with different sizes.

In use, the cable of the electric box can be led into the first wire passing groove 55 or the second wire passing groove 56 through the second wire opening 53 for transverse laying and hiding, so that the cable enters the main wire passing groove 9 and enters the assembly box 2 through the wire passing hole 6 at the top to be connected with an instrument panel, and the cable is led out from the first wire opening 21 to be connected with the instrument on the instrument frame 10. Meanwhile, the cable can also transversely penetrate into the first wiring box 3 through the wire through hole 6 to be led into the main wire through groove 9 at the other side of the main beam 1, and the wire through hole is punched according to actual conditions.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A wall-mounted instrument panel rack, the instrument panel rack comprising:

the cable guide device comprises a main beam (1), wherein a main wire passing groove (9) is formed in an inner cavity of the main beam (1), and a cable can pass through the main wire passing groove (9); an instrument stand (10) and an electric box are arranged on the inner side of the main beam (1);

the wire arranging assembly is fixedly connected to the main beam (1) and is communicated with the main wire passing groove (9), so that cables of the instrument rack (10) and the electric box are mutually penetrated and connected through the wire arranging assembly and the main wire passing groove (9).

2. The wall panel rack of claim 1, wherein: the wire arrangement assembly comprises an assembly box (2), a first wiring box (3) and a second wiring box (5), wherein a wire passing hole (6) matched with the assembly box (2), the first wiring box (3) and the second wiring box (5) is formed in the main beam (1), so that cables of the instrument rack (10) and the electric box are connected with each other through the assembly box (2), the first wiring box (3), the second wiring box (5) and the main wire passing groove (9).

3. The wall panel rack of claim 2, wherein: the main wire passing groove (9) is arranged in a side upright post of the main beam (1), and a side buckle plate (8) capable of being buckled with the main wire passing groove (9) is fixedly connected to the side upright post of the main beam (1).

4. The wall panel rack of claim 2, wherein: the inner wall of the main wire passing groove (9) is fixedly connected with a first partition plate (7) which divides the main wire passing groove (9) into a left wire passing groove and a right wire passing groove.

5. The wall panel rack of claim 2, wherein: the assembly box (2) comprises a box groove (23) fixedly connected to the top of the main beam (1), two ends of the box groove (23) are communicated with the wire passing holes (6), a box groove buckle plate (22) is fixedly connected to the front surface of the box groove (23), and a plurality of first wire openings (21) for penetrating cables of the instrument rack (10) are formed in the bottom surface of the box groove (23).

6. The wall panel rack of claim 2, wherein: the first wiring box (3) comprises a first box body (31), and a box body cover plate (32) is fixedly connected to the top of the first box body (31).

7. The wall panel rack of claim 2, wherein: the second distribution box (5) comprises:

the second box body (51) is fixedly connected to the bottom of the main beam (1);

the buckle plate (52) is fixedly connected to the top of the second box body (51), and a plurality of second wire openings (53) through which cables of the power supply box can penetrate are uniformly formed in the box body buckle plate (52);

the second partition plate (54) is fixedly connected to the middle part of the inner cavity of the second box body (51) and divides the inner cavity of the second box body (51) into a first wire passing groove (55) and a second wire passing groove (56).

8. The wall panel rack of claim 1, wherein: the instrument panel rack is characterized by further comprising an electric box assembly rack (4) for fixing an electric box, wherein the electric box assembly rack (4) comprises a cross beam (41) fixedly connected with the main beam (1) and a plurality of vertical frames (42) fixedly connected on the cross beam (41), the vertical frames (42) are uniformly distributed, and a plurality of bolt holes are uniformly formed in each vertical frame (42) at equal intervals.

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