CN216872747U - Indoor electric wiring structure of integrated building - Google Patents

Abstract

The utility model provides an indoor electric wiring structure of an integrated building. The indoor electric wiring structure of the integrated building comprises a rail wiring groove, wherein the rail wiring groove comprises an edge A, an edge B and an edge C which are sequentially connected, the edge A and the edge C are vertically connected at two ends of the edge B, and the edge A and the edge C are positioned at the same side of the edge B, so that a containing cavity for wiring is formed in the rail wiring groove; the side B is simultaneously attached to the two spliced module boxes, and the abutted seams are sealed; the A-side distance tiles have a spacing of L1, the B-side distance tiles have a spacing of L2, and L1 > L2. The utility model does not need a top plate, a groove and a pipe for wiring, thereby greatly reducing the field workload, improving the efficiency, reducing the labor cost, and generating no building rubbish, pollution noise and harmful dust.

Description

Indoor electric wiring structure of integrated building

Technical Field

The utility model relates to the technical field of assembly type buildings, in particular to an indoor electric wiring structure of an integrated building.

Background

The modular box is a new project developed in industrial buildings, which is a fully assembled building assembled by box-shaped components produced in factories. The traditional building decoration adopts the site operation method, adopts more manual works, cuts a hole in the wall and slots, and often breaks the wall and the floor reinforcing steel bars, influences the structure safety, and the construction wastes time and energy, and is inefficient, and the cost of labor is big, and produces building rubbish, the noise pollution, harmful dust.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an integrated building indoor electric wiring structure which does not need to chisel a wall and slot and reduces the field workload.

The technical scheme of the utility model is as follows: an integrated building indoor electric wiring structure comprises a rail wiring groove, wherein the rail wiring groove comprises an A side, a B side and a C side which are sequentially connected, the A side and the C side are vertically connected at two ends of the B side, and the A side and the C side are positioned on the same side of the B side, so that a containing cavity for wiring is formed in the rail wiring groove;

the side B is simultaneously attached to the two spliced module boxes, and the abutted seams are sealed;

the A-side distance tiles have a spacing of L1, the B-side distance tiles have a spacing of L2, and L1 > L2.

Preferably, the track wire passing groove further comprises a side D, the side D is arranged on the side A and the side B, the side D extends in the direction close to each other, and the side D is parallel to the side B.

Preferably, a gap is formed between the extended ends of the D sides at the two ends.

Preferably, the side B is fixed to the module case by a tapping screw.

Preferably, L1-25 mm and L2-10 mm.

Compared with the related technology, the utility model has the beneficial effects that:

firstly, by adopting the wiring structure, the wiring of a top plate groove chiseling and pipe distributing is not needed, and the track wiring groove is only required to be moved to the box seam splicing part on site (the purpose of moving to the seam splicing is to shield the seam splicing, so that the seam splicing is not exposed, and the appearance is not influenced), and the wiring structure is fixed by adopting screws, so that the installation of all the construction workload of the electrical system is completed; the field workload is greatly reduced, the efficiency is improved, the labor cost is reduced, and no construction waste, pollution noise and harmful dust are generated;

and secondly, from the actual installation and use effects on site, the process is consistent, the connection is stable and reliable, and the connection is neat and attractive due to the fact that the main work is completed by workers on a factory assembly line, so that the whole construction process on site is simple and convenient, and a user performs zero-maintenance and zero-maintenance in the use process, which is a great progress of the traditional construction technology.

Drawings

Fig. 1 is a schematic view of an indoor electrical wiring structure of an integrated building provided by the present invention;

FIG. 2 is a schematic view of the cartridge as it exits the factory.

In the drawings: 1. a module box; 11. splicing; 2. a track wire-passing groove; 21. a cavity; 3. a temporary screw; 4. a self-tapping screw; 5. and (4) conducting wires.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. For convenience of description, the words "upper", "lower", "left" and "right" in the following description are used only to indicate the correspondence with the upper, lower, left and right directions of the drawings, and do not limit the structure.

As shown in fig. 1, the integrated building indoor electrical wiring structure provided by this embodiment is disposed on the top plates of two spliced module boxes 1, and includes a track wire passing groove 2. The track wire passing groove 2 comprises an A side, a B side, a C side and a D side. The side A and the side C are vertically connected at two ends of the side B, and the side A and the side C are located on the same side of the side B. The D limit is in A limit and B edge all have the setting, and both ends the D limit is in the direction that draws close each other on the parallel direction on B limit extends. And a containing cavity 21 is formed in the track wire passing groove 2 after the edge D, the edge A, the edge B and the edge C are enclosed.

The extending ends of the sides D at both ends have a gap W therebetween, that is, the cavity 21 has an opening.

As shown in fig. 2, the factory produced modular box 1 can be put into service immediately, the track wire channels 2 are fixed to the top plate of one of the modular boxes 1 by temporary screws 3, and all the lighting plug-in circuits are threaded in place. During the site operation, as shown in fig. 1, only need to remove the track crosses line groove 2 to piece 11 department, make the B limit simultaneously with two concatenations module box 1 laminating to the piece 11 is sealed and covered, lets piece 11 not expose, guarantees the aesthetic property of top smallpox fitment. And during installation, the A-side distance seam is ensured to have a distance L1, the B-side distance seam has a distance L2, and L1 is more than L2. In this embodiment, L1 is 25mm, and L2 is 10 mm. And fixing the B side and one of the module boxes 1 by self-tapping screws 4, wherein the self-tapping screws 4 are arranged at intervals along the length direction of the track wire-passing groove 2. Thus, a 'small wire slot' is formed, a wire 5 is arranged in the cavity 21, and BV-4mm can be arranged in the cavity 21²The number of the conducting wires is six. And finishing the installation of all the construction workloads of the electrical system.

When the integrated building indoor electric wiring structure provided by the utility model is manufactured in a factory, the standard is consistent, the electric wire connection process is reliable, neat and attractive, and when the integrated building indoor electric wiring structure is constructed on site, the integrated building indoor electric wiring structure is convenient and simple, a large amount of labor cost is saved, the efficiency is extremely high, no building rubbish exists, no noise and no dust exist in a construction site, and meanwhile, the later-period use quality is also ensured.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. An integrated building indoor electric wiring structure is arranged on top plates of two spliced module boxes and is characterized by comprising a track wiring groove, wherein the track wiring groove comprises an A edge, a B edge and a C edge which are sequentially connected, the A edge and the C edge are vertically connected at two ends of the B edge, and the A edge and the C edge are positioned on the same side of the B edge, so that a containing cavity for wiring is formed in the track wiring groove;

the side B is simultaneously attached to the two spliced module boxes, and the abutted seams are sealed;

the A-side distance tiles have a spacing of L1, the B-side distance tiles have a spacing of L2, and L1 > L2.

2. The integrated building indoor electrical routing structure of claim 1, wherein the track wire passing groove further comprises a side D, the side D is disposed on both the side a and the side B, the side D at both ends extends in a direction approaching each other, and the side D is parallel to the side B.

3. The integrated building indoor electrical routing structure of claim 2, wherein there is a gap between the extended ends of the D-sides at both ends.

4. The integrated building indoor electrical routing structure of claim 1, wherein the B-side is fixed with the module box by a self-tapping screw.

5. The integrated architectural indoor electrical routing structure of claim 1, wherein L1-25 mm and L2-10 mm.

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