CN211351615U - Indoor wiring system - Google Patents

Abstract

The utility model discloses an indoor wiring system, which comprises a strong electric box and a weak electric box which are arranged on a wall body, wherein the strong electric box is connected with a strong electric box inlet pipe, the weak electric box is connected with a weak electric box inlet pipe, and the strong electric box inlet pipe and the weak electric box inlet pipe are respectively and fixedly arranged on the wall body; the wall body is also provided with a first wire slot and a second wire slot; the first wire groove is connected with a wire outlet hole of the strong power box, and the second wire groove is connected with a wire outlet hole of the weak power box; still be provided with first wiring pipe and second wiring pipe on the wall body first wire casing with be connected with the end box of transition between the first wiring pipe the second wire casing with also be connected with between the second wiring pipe the end box of transition. The wiring can be realized without grooving, modular design and assembly can be carried out, the installation convenience is improved, the wiring period is shortened, and the condition that field construction is dirty and poor is avoided.

Description

Indoor wiring system

Technical Field

The utility model relates to an interior decoration technical field especially relates to an indoor wiring system.

Background

In the installation process of constructing an electric wiring system in most of the existing houses, indoor strong and weak electric wire lines, switches, sockets, strong and weak electric boxes, television lines and the like are independently laid, the lines are relatively dispersed and are usually laid on a blank room according to a construction drawing, and a proprietor almost carries out secondary decoration after living, so that the laying is troublesome again. Therefore, the existing electrical routing space system has several obvious defects as follows: 1. the modularization degree is low, the installation is inconvenient, the construction price is high, the construction period is long, and the time is wasted; 2. in the secondary decoration process of an owner, most lines are laid again, and the assembly and disassembly are time-consuming and labor-consuming, which inevitably causes huge waste; 3. when the residential user refits the electrical system, the safety and the reliability of laying the electrical circuit can not be ensured, and simultaneously, higher requirements are provided for the influence of civil engineering.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can the modularized design, realize the batch production equipment, improve the indoor wiring system of installation convenience.

The technical proposal of the utility model provides an indoor wiring system, which comprises a strong current box and a weak current box which are arranged on a wall body,

the strong box is connected with a strong box wire inlet pipe, the weak box is connected with a weak box wire inlet pipe, and the strong box wire inlet pipe and the weak box wire inlet pipe are respectively and fixedly installed on the wall body;

the wall body is also provided with a first wire slot and a second wire slot; the first wire groove is connected with a wire outlet hole of the strong power box, and the second wire groove is connected with a wire outlet hole of the weak power box;

still be provided with first wiring pipe and second wiring pipe on the wall body first wire casing with be connected with the end box of transition between the first wiring pipe the second wire casing with also be connected with between the second wiring pipe the end box of transition.

Furthermore, a plurality of wall penetrating pipes are arranged on the wall body;

each wall penetrating pipe comprises an outer layer sleeve and an inner layer wire pipe, and a blocking layer is filled between the outer layer sleeve and the inner layer wire pipe;

strong electric box inlet wire pipe weak electric box inlet wire pipe first wiring pipe with the second wiring pipe corresponds respectively and passes correspondingly the inlayer spool.

Furthermore, the first wire groove is connected with a wire outlet hole of the strong electric box through a wire groove connecting cup comb; the second wire groove is connected with the wire outlet hole of the weak current box through a wire groove connecting cup comb;

the wire groove connecting cup comb comprises a wire groove connecting end and a wire outlet hole connecting end;

the wire casing connecting end comprises a connecting groove.

Furthermore, each first wiring pipe and each second wiring pipe are provided with a buckle;

the buckle comprises a buckle main body, and a buckle clamping groove is arranged below the buckle main body;

the first wiring pipe and the second wiring pipe are clamped in the clamping groove respectively;

a buckle self-tapping element is arranged at the top of the buckle main body.

Furthermore, a side clamping groove is formed in one side of the buckle main body, and a side protrusion capable of being clamped in the side clamping groove is formed in the other side of the buckle main body;

two adjacent buckles on any two first wiring pipes are clamped together, and two adjacent buckles on any two second wiring pipes are clamped together;

the side protrusion on one buckle of two adjacent buckles is clamped in the side groove on the other buckle.

Further, the device also comprises a partition wall connecting structure;

the partition wall connecting structure comprises a partition wall plate assembly and a top wall plate positioned above the partition wall plate assembly;

the partition plate assembly comprises a back side partition plate and a front side partition plate positioned in front of the back side partition plate;

a partition installation space is formed between the back-side partition and the front-side partition;

a ceiling is connected to the front side partition plate, and a top installation space is formed between the ceiling and the top wallboard;

a wiring bottom box is arranged on the back side partition plate, and comprises a bottom box main body and a bottom box cover plate buckled on the bottom box main body;

the bottom box cover plate is arranged on the front side partition plate, the bottom box main body is positioned in the partition plate installation space, and the bottom box cover plate is positioned in the top installation space;

the lower surface of the top wallboard is provided with the first wiring pipe, and the first wiring pipe is connected with the bottom box cover plate through a flexible bent pipe;

the flexible elbow is located within the top mounting space.

Furthermore, a glass wool layer is arranged on the back side partition plate, and a sound insulation felt layer is arranged between the glass wool layer and the back side partition plate.

Further, a sealing connector is arranged between the top end of the partition wall plate assembly and the top wall plate;

the sealing connector is provided with an L-shaped connecting piece, and the connecting piece comprises a connecting piece flat plate and a connecting piece vertical plate connected with the connecting piece flat plate;

the connecting piece flat plate is connected with the top wallboard through a first fastener;

the connector riser is connected to the back side bulkhead by a second fastener.

Furthermore, the bottom box main body comprises a bottom box bottom plate and bottom box side plates arranged on the periphery of the bottom box bottom plate, and side plate through holes are formed in the bottom box side plates;

still be provided with the third wiring pipe on the dorsal part baffle, the third wiring pipe through connect the tube head with the curb plate through-hole is connected.

Further, still be provided with the clamp on the third wiring pipe, the clamp fastening is in on the preceding side baffle.

By adopting the technical scheme, the method has the following beneficial effects:

the utility model provides an indoor wiring system need not the fluting and can realize the wiring, can carry out modular design and equipment, has improved the installation convenience, has shortened the wiring cycle to the dirty indiscriminate poor situation of site operation has been avoided.

Drawings

Fig. 1 is a schematic diagram of an indoor wiring system according to an embodiment of the present invention;

FIG. 2 is a top plan view of the in-house wiring system shown in FIG. 1;

FIG. 3 is an enlarged view of the strong current box and the weak current box mounted on the wall;

FIG. 4 is a schematic diagram of a strong power inlet pipe and a first wire slot connected to a strong power box;

FIG. 5 is a schematic view of a weak current inlet pipe and a second trunking connected to the weak current box;

FIG. 6 is a partially enlarged view of the connection between the first wire chase, the first wire routing tube, the second wire chase, the second wire routing tube, and the transition boot;

FIG. 7 is a schematic view of a wall penetrating pipe;

FIG. 8 is a perspective view of a wire chase attachment cup comb;

FIG. 9 is a side view of a wire chase attachment cup comb;

FIG. 10 is a schematic view of the first wire conduit fastened by a snap;

FIG. 11 is a schematic view of two snaps connected together;

FIG. 12 is a schematic view of a partition wall connection structure;

FIG. 13 is a schematic view of the back box body;

FIG. 14 is a schematic view of an in-line connector;

fig. 15 is a schematic view of a connector.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 5, an embodiment of the present invention provides an indoor wiring system, which includes a strong current box 2 and a weak current box 3 installed on a wall 1.

The strong electric box 2 is connected with a strong electric box inlet pipe 21, the weak electric box 3 is connected with a weak electric box inlet pipe 31, and the strong electric box inlet pipe 21 and the weak electric box inlet pipe 31 are respectively and fixedly installed on the wall body 1.

The wall body 1 is further provided with a first wire groove 22 and a second wire groove 32, the first wire groove 22 is connected with a wire outlet hole of the strong current box 2, and the second wire groove 32 is connected with a wire outlet hole of the weak current box 3.

The wall 1 is further provided with a first wiring pipe 23 and a second wiring pipe 33, a transition bottom box 5 is connected between the first wire groove 22 and the first wiring pipe 23, and a transition bottom box 5 is also connected between the second wire groove 32 and the second wiring pipe 33.

Wall body 1 can be concrete wall body, and strong case 2 is exactly the block terminal, and the voltage of block terminal the inside generally is 380/220V for the electric energy distribution can take various electrical equipment such as light, fan, water pump below. The switch box of house-to-house is just one kind of block terminal. The weak-current box 3 is a box-type device used for communication, intelligent control, and the like. The voltage inside the weak current box 3 does not exceed 36V safety voltage. Generally used in modern home decoration, such as network cable, telephone line, computer monitor, USB cable, VGA of television, antenna, etc. can be placed in the weak current box 3.

The strong power box 2 comprises a wire inlet hole and a wire outlet hole and is used for wiring harness switching. The wire inlet hole of the strong electric box 2 is connected with a strong electric box wire inlet pipe 21, and the strong electric box wire inlet pipe 21 is inserted into the wire inlet hole of the strong electric box 2 through a direct-insertion connector. The first wire slot 22 is plugged on the wire outlet hole of the strong power box 2 through the connecting cup comb.

The strong electric box wire inlet pipe 21 is used for connecting a strong electric wire harness on the outer side of the wall body 1 into the strong electric box 2, and then the switching wire harness penetrates through the first wire groove 22 to switch out the strong electric wire.

A transition bottom box 5 is connected between the first wire groove 22 and the first wiring duct 23. The first wiring duct 23 is used to arrange a wiring harness so that a strong electric power transferred from the strong electric box 2 can be connected to a desired location, for example, the electricity-using area 10.

The weak current box 3 comprises a wire inlet hole and a wire outlet hole and is used for wiring harness switching. The inlet hole of the weak current box 3 is connected with a weak current box inlet pipe 31, and the weak current box inlet pipe 31 is inserted into the inlet hole of the weak current box 3 through a direct insertion connector. The second wire slot 32 is inserted into the wire outlet hole of the weak current box 3 through the connecting cup comb.

The weak current box wire inlet pipe 31 is used for connecting a weak current harness on the outer side of the wall body 1 into the weak current box 3, and then enabling the switching harness to pass through the second wire slot 32 to switch out the weak current.

A transition bottom box 5 is connected between the second wire groove 32 and the second wiring duct 33. The second wiring duct 33 is used to arrange a wiring harness so that weak electricity from the weak electricity box 3 can be diverted to a desired location, for example, the electricity-using area 10.

Therefore, the utility model provides an indoor wiring system need not the fluting and can realize the wiring, can carry out modular design and equipment, has improved the installation convenience, has shortened the wiring cycle to the dirty indiscriminate poor situation of site operation has been avoided.

The first wire groove 22 is connected to the transition bottom box 5 by a first elbow 23, and the first elbow 24 is a flexible bellows. One end of the first elbow 24 is connected to the first wire casing 22 through a first casing pipe connector 241, and the other end thereof is connected to the through hole of the transition bottom case 5 through a first straight connector 242.

The second wire groove 32 is connected to the transition bottom box 5 by a second elbow 33, the second elbow 34 being a flexible bellows. One end of the second elbow 34 is connected to the second wire groove 32 through a second groove pipe connector 341, and the other end is connected to the through hole of the transition bottom case 5 through a second straight-insertion joint 342.

Preferably, as shown in fig. 6, a plurality of wall penetrating pipes 6 are provided on the wall body 1.

Each wall penetrating pipe 6 comprises an outer layer sleeve 61 and an inner layer pipe 62, and a blocking layer 63 is filled between the outer layer sleeve 61 and the inner layer pipe 62.

The strong current box inlet pipe 21, the weak current box inlet pipe 31, the first wiring pipe 22 and the second wiring pipe 32 respectively penetrate through the corresponding inner layer pipe 62.

The blocking layer 63 can be a fireproof blocking material layer, and has fireproof and filling functions. The blocking layer 63 fills the gap between the outer sleeve 61 and the inner conduit 62.

The outer sleeve 61 is fastened in the through hole of the wall. During wiring, the wiring harness penetrates through the inner layer through pipe 62 to be connected with the electric box.

The wiring harness can be protected from abrasion by the wiring pipe 6.

The strong electric box inlet pipe 21, the weak electric box inlet pipe 31, the first wiring pipe 22 and the second wiring pipe 32 need to penetrate through the through holes in the wall body 1 respectively, one wall penetrating pipe 6 is arranged in each through hole of the wall body, and the strong electric box inlet pipe 21, the weak electric box inlet pipe 31, the first wiring pipe 22 and the second wiring pipe 32 correspondingly penetrate through the corresponding inner layer wire pipes 62 respectively, so that various wire harnesses can be protected.

The outer sleeve 61 is a metal sleeve and the inner conduit 62 is a plastic tube. The metal sleeve can be a steel pipe with the diameter of 32mm, and the plastic pipe can be a PVC pipe with the diameter of 20 mm.

Preferably, as shown in fig. 3-4 and 8-9, first wire groove 22 is connected with wire outlet hole of strong power box 2 through wire groove connecting cup comb 4; the second wire slot 32 is connected with the wire outlet hole of the weak current box 2 through the wire slot connecting cup comb 4.

The wire slot connecting cup comb 4 comprises a wire slot connecting end 41 and a wire outlet connecting end 42, and the wire slot connecting end 41 comprises a connecting slot 43.

During connection, the first wire slot 22 and the second wire slot 32 can be respectively clamped in the corresponding connecting slots 43, and the wire outlet connecting ends 42 of the wire slot connecting cup combs 4 are correspondingly inserted into the wire outlets of the strong current box 2 and the weak current box 3.

A tapping member 44 is connected to the slot connection end 41. The self-tapping member 44 includes an expansion pipe 441 and self-tapping screws 442, the expansion pipe 441 is driven into the wall body 1, one end of the self-tapping screws 442 is fixedly connected to the wire chase connecting end 41, and the other end thereof passes through the expansion pipe 441 and is fastened in the wall body 1.

Preferably, as shown in FIGS. 6 and 10-11, a snap 7 is provided on each of the first routing tubes 23 and each of the second routing tubes 33.

The clip 7 includes a clip main body 71, and a clip groove 711 is provided below the clip main body 71.

The first and second wiring pipes 23 and 33 are engaged with the engaging grooves 711, respectively.

A clip self-tapping element 72 is provided on the top of the clip main body 71.

The wiring duct is engaged in the engaging groove 711, and the engaging self-tapping element 72 is connected to the top support, thereby fixing the wiring duct.

The buckle self-tapping element 72 comprises an expanded plastic tube 721 and a self-tapping screw 722, the expanded plastic tube 721 is driven into the top support, one end of the self-tapping screw 722 is fastened on the buckle body 71, and the other end of the self-tapping screw passes through the expanded plastic tube 721 and is fastened in the top support, so that fastening is realized.

Preferably, as shown in fig. 10 to 11, a side catch 713 is provided at one side of the catch body 71, and a side protrusion 712 capable of being caught in the side catch 713 is provided at the other side of the catch body 71.

Two adjacent buckles 7 on two arbitrary first wiring pipes 23 are in the same place of joint, and two adjacent buckles 7 on two arbitrary second wiring pipes 33 are in the same place of joint.

The side projection 712 on one catch 7 of two adjacent catches 7 snaps into the side groove 713 on the other catch 7.

Adjacent wiring pipes are fastened together through the buckles 7, so that the wiring stability is improved.

Preferably, as shown in fig. 12 to 13, the indoor wiring system further includes a partition wall connection structure.

The partition wall attachment structure includes a partition wall panel assembly 8 and a top wall panel 200 positioned above the partition wall panel assembly 8.

The partition plate assembly 8 includes a back-side partition plate 81 and a front-side partition plate 82 located in front of the back-side partition plate 81. A partition installation space 80 is formed between the back-side partition 81 and the front-side partition 82.

A ceiling 100 is attached to the front side barrier 82, and a ceiling installation space 101 is formed between the ceiling 100 and the ceiling panel 200.

The back-side partition 81 is provided with a junction box 9, and the junction box 9 includes a box body 91 and a box cover 92 fastened to the box body 91.

The back box cover 92 is mounted on the front partition 82, the back box main body 91 is located in the partition mounting space 80, and the back box cover 92 is located in the top mounting space 101.

A first wiring pipe 23 is provided on the lower surface of the top wall panel 200, the first wiring pipe 23 is connected to the back case cover 92 through a flexible bent pipe 93, and the flexible bent pipe 93 is located in the top installation space 101.

The partition plate assembly 8 is composed of a back-side partition plate 81 and a front-side partition plate 82 which are arranged at a spacing to form a partition plate installation space 80 therebetween.

The junction box 9 is mounted on the back-side partition 81 and includes a box main body 91 and a box cover 92, the box main body 91 being located in the partition mounting space 80. The ceiling 100 is connected to the front side partition 82, a ceiling installation space 101 is formed between the ceiling 100 and the ceiling wall panel 200, and the bottom box cover 92 is installed on the bottom box main body 91 and is located in the ceiling installation space 101.

The first and/or second routing tubes 23, 33 extend below the top wall panel 200, and the first and/or second routing tubes 23, 33 are secured to the bottom surface of the top wall panel 200 and are positioned within the top installation space 101. The first wiring pipe 23 is connected to a cover through hole of the back case cover 92 through a flexible bent pipe 93 for switching a wiring harness.

From this, the pencil among the partition plate subassembly 8 can insert in the end box 9 of wiring earlier, then gets into in first wiring pipe 23 and/or the second wiring pipe 33 through the apron through-hole of end box apron 92, flexible return bend 93, realizes the wiring.

The flexible bend 93 may be a threaded bend, which is a plastic tube. The wiring pipes (the first wiring pipe and the second wiring pipe) are plastic pipes or PVC pipes.

One end of the flexible elbow 93 is provided with a straight connector 931 and the other end is provided with an elbow plug 932. The straight plug 931 is inserted into the cover plate through hole of the bottom case cover plate 92, and the elbow plug 932 is inserted into the wiring pipe.

The straight connector 931 is a straight connector, which can be directly connected to the cover plate through hole of the bottom case cover plate 82.

One end of the flexible elbow 93 is plugged with the first wiring pipe 23 or the second wiring pipe 33 through the elbow plug 932, and the straight-through joint 931 is plugged with the cover plate through hole of the bottom box cover plate 92, so that the connection convenience is improved.

As shown in fig. 12 and 14, the in-line connector 931 includes a first connecting end 9311 connected to the flexible bend 93 and a second connecting end 9312 connected to the back case cover plate 92.

A connecting end buckle 9313 for clamping the flexible elbow 93 is arranged on the first connecting end 9311, and a connecting end blocking piece 9314 for preventing the second connecting end 9312 from sliding out of the through hole of the cover plate is arranged on the second connecting end 9312.

The elbow plug 932 is provided with a plug catch 9321 for clamping the wiring pipe.

The connection end buckle 9313 is disposed on the first connection end 9311, and the connection end buckle 9313 may be an elastic buckle. The end of the flexible elbow 93 may be captured within the first connection end 9311 by a connection end clip 9313.

The link stopper 9314 is provided on the second link end 9312, and the second link end 9312 is inserted in the cover plate through hole. The link stopper 9314 is located in the bottom case main body 91 for preventing the second link 9312 from slipping out from the through hole of the cover plate.

Plug catch 9321 is disposed on elbow plug 932, and plug catch 9321 can be an elastic catch. The end of the wiring conduit can be captured within the elbow plug 932 by the plug clip 9321.

Preferably, as shown in fig. 12, a glass wool layer 83 is provided on the back-side separator 81, and an acoustic felt layer 84 is provided between the glass wool layer 83 and the back-side separator 81. The glass wool layer 83 has the advantages of heat preservation, heat insulation, sound insulation and corrosion resistance, and plays a role in protecting the wiring tube bundle and the wiring bottom box. The sound-deadening felt layer 84 exerts a sound-deadening effect.

Preferably, as shown in fig. 12 and 15, a sealing connector 85 is provided between the top end of the partition wall panel assembly 8 and the top wall panel 200.

The sealing connector 85 is provided with an L-shaped connector 86, and the connector 86 includes a connector plate 861 and a connector riser 862 connected to the connector plate 861.

Connector plates 861 are connected to top wall panel 200 by first fasteners 863 and connector risers 862 are connected to back side partition 81 by second fasteners 864.

The sealed connector 85 may be a block of plastic, wood, or plug material.

Connector risers 862 are connected to connector flats 861 in an L-shape that is used to secure seal connector 85 between bulkhead assembly 8 and top wall panel 200.

The first fastener 863 may be an expansion bolt and the second fastener 864 may be a screw.

The connector plate 861 is fastened to the bottom surface of the top wall panel 200 by the first fasteners 863 and the connector risers 862 are fastened to the back side barrier 81 by the second fasteners 864, which improves the stability of the connection structure.

Preferably, as shown in fig. 12 to 14, the back box main body 91 includes a back box bottom plate 911 and a back box side plate 912 disposed around the back box bottom plate 911, and the back box side plate 912 is provided with a side plate through hole 913.

The rear partition 81 is further provided with a third wiring pipe 94, and the third wiring pipe 94 is connected to the side plate through hole 913 through a connector 941.

The third wiring pipe 94 may be a plastic pipe or a PVC pipe, which is connected to the side plate through hole 913 through a connection pipe joint 941, for transferring the wire harness into or out of the junction box 9.

Preferably, as shown in fig. 12, a clamp 942 is further provided on the third wiring conduit 94, and the clamp 942 is fastened to the front partition 82, so that the third wiring conduit 94 is fixedly installed in the side plate installation space 80 to facilitate connection with the side plate through hole 913.

The indoor wiring system is assembled in the following manner:

s001: the strong current box 2 and the weak current box 3 are installed and connected with an external power supply through a strong current box inlet pipe 21 and connected with an external signal source through a weak current box inlet pipe 31.

S002: the first wire groove 22 is connected to the wire outlet of the strong current box 2, and the second wire groove 32 is connected to the wire outlet of the weak current box 3.

S003: a first wiring pipe 23 and a second wiring pipe 33 are arranged on the wall body 1, the first wiring pipe 23 is connected with the first wire groove 22 through at least one transition bottom box 5, and the second wiring pipe 33 is connected with the second wire groove 32 through at least one transition bottom box 5.

S004: the first wiring duct 23 and the second wiring duct 33 are connected to predetermined positions (power use areas 10), respectively.

To sum up, the utility model provides an indoor wiring system need not the fluting and can realize the wiring, can carry out modular design and equipment, has improved the installation convenience, has shortened the wiring cycle to the dirty indiscriminate poor situation of site operation has been avoided.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (10)

1. An indoor wiring system is characterized by comprising a strong current box and a weak current box which are arranged on a wall body,

the strong box is connected with a strong box wire inlet pipe, the weak box is connected with a weak box wire inlet pipe, and the strong box wire inlet pipe and the weak box wire inlet pipe are respectively and fixedly installed on the wall body;

the wall body is also provided with a first wire slot and a second wire slot; the first wire groove is connected with a wire outlet hole of the strong power box, and the second wire groove is connected with a wire outlet hole of the weak power box;

still be provided with first wiring pipe and second wiring pipe on the wall body first wire casing with be connected with the end box of transition between the first wiring pipe the second wire casing with also be connected with between the second wiring pipe the end box of transition.

2. The indoor wiring system of claim 1, wherein a plurality of wall penetrating pipes are provided on the wall body;

each wall penetrating pipe comprises an outer layer sleeve and an inner layer wire pipe, and a blocking layer is filled between the outer layer sleeve and the inner layer wire pipe;

strong electric box inlet wire pipe weak electric box inlet wire pipe first wiring pipe with the second wiring pipe corresponds respectively and passes correspondingly the inlayer spool.

3. The indoor wiring system of claim 1, wherein the first raceway is connected to an outlet hole of the highpower box by a raceway connection cup comb; the second wire groove is connected with a wire outlet hole of the weak current box through the other wire groove connecting cup comb;

the wire groove connecting cup comb comprises a wire groove connecting end and a wire outlet hole connecting end;

the wire casing connecting end comprises a connecting groove.

4. The indoor wiring system of claim 1, wherein a snap is provided on each of the first and second wiring conduits;

the buckle comprises a buckle main body, and a buckle clamping groove is arranged below the buckle main body;

the first wiring pipe and the second wiring pipe are clamped in the clamping groove respectively;

a buckle self-tapping element is arranged at the top of the buckle main body.

5. The indoor wiring system according to claim 4, wherein a side catching groove is provided at one side of the catching body, and a side protrusion capable of catching in the side catching groove is provided at the other side of the catching body;

two adjacent buckles on any two first wiring pipes are clamped together, and two adjacent buckles on any two second wiring pipes are clamped together;

the side protrusion on one buckle of two adjacent buckles is clamped in the side groove on the other buckle.

6. The indoor wiring system according to claim 1, further comprising a partition wall connecting structure;

the partition wall connecting structure comprises a partition wall plate assembly and a top wall plate positioned above the partition wall plate assembly;

the partition plate assembly comprises a back side partition plate and a front side partition plate positioned in front of the back side partition plate;

a partition installation space is formed between the back-side partition and the front-side partition;

a ceiling is connected to the front side partition plate, and a top installation space is formed between the ceiling and the top wallboard;

a wiring bottom box is arranged on the back side partition plate, and comprises a bottom box main body and a bottom box cover plate buckled on the bottom box main body;

the bottom box cover plate is arranged on the front side partition plate, the bottom box main body is positioned in the partition plate installation space, and the bottom box cover plate is positioned in the top installation space;

the lower surface of the top wallboard is provided with the first wiring pipe, and the first wiring pipe is connected with the bottom box cover plate through a flexible bent pipe;

the flexible elbow is located within the top mounting space.

7. The indoor wiring system according to claim 6, wherein a glass wool layer is provided on the back-side separator, and an acoustic felt layer is provided between the glass wool layer and the back-side separator.

8. The indoor wiring system of claim 6, wherein a sealing connector is provided between the top end of the partition wall plate assembly and the top wall plate;

the sealing connector is provided with an L-shaped connecting piece, and the connecting piece comprises a connecting piece flat plate and a connecting piece vertical plate connected with the connecting piece flat plate;

the connecting piece flat plate is connected with the top wallboard through a first fastener;

the connector riser is connected to the back side bulkhead by a second fastener.

9. The indoor wiring system according to claim 6, wherein the bottom case main body comprises a bottom case bottom plate and bottom case side plates arranged around the bottom case bottom plate, and side plate through holes are formed in the bottom case side plates;

still be provided with the third wiring pipe on the dorsal part baffle, the third wiring pipe through connect the tube head with the curb plate through-hole is connected.

10. The indoor wiring system of claim 9, wherein a clip is further provided on the third wiring conduit, the clip being secured to the front bulkhead.

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