CN218733053U - Assembled indoor power distribution system - Google Patents

Abstract

The utility model provides an assembled indoor power distribution system, which comprises a bus plug-in, a bus connecting piece, a bus electricity-getting adapter and a terminal equipment branch plug-in; the bus connectors are connected with the bus electricity-taking connectors in an inserting manner through the bus connectors to form a bus system, and one end of the bus system is directly connected with a bus outlet end of an indoor distribution box in an inserting manner; the electricity taking port of the bus electricity taking connecting piece is in plug-in connection with one end of the terminal equipment branch line plug-in piece through the bus electricity taking adapter; the other end of the terminal equipment branch line plug-in is directly connected with terminal equipment in an inserting mode. The utility model provides a pair of indoor distribution system of assembled adopts the grafting mode, and the complete indoor distribution system of assembly that can be simple swift has the installation swiftly, maintains and overhauls advantages such as convenient.

Description

Assembled indoor power distribution system

Technical Field

The utility model belongs to the technical field of indoor distribution, concretely relates to indoor distribution system of assembled.

Background

The fabricated building is a building fabricated on site by adopting prefabricated components in a factory. The fabricated building has the advantages of high construction speed, low labor cost and the like, and a large number of fabricated buildings are put into use at present.

Because the prefabricated component assembly of assembly type structure adoption forms, consequently, for the commonality that realizes the prefabricated component, indoor distribution system does not adopt the mode of pre-buried pipeline, and the mode that currently usually adopts is: after the assembly of the assembly type building is completed, the indoor power distribution system is arranged in a mode of slotting, burying electric pipelines and threading on an indoor wall body. This approach has the following problems: the installation period is long, the workload is large, and the maintenance and the overhaul are inconvenient.

SUMMERY OF THE UTILITY MODEL

The defect to prior art exists, the utility model provides an indoor distribution system of assembled can effectively solve above-mentioned problem.

The utility model adopts the technical scheme as follows:

the utility model provides an assembled indoor power distribution system, which comprises a bus plug-in (1), a bus connecting piece (2), a bus electricity-taking connecting piece (3), a bus electricity-taking adapter (4) and a terminal equipment branch plug-in (5);

the bus connectors (2) and the bus electricity-taking connectors (3) are connected in an inserting mode to form a bus system, and one end of the bus system is directly connected with a bus outlet end of an indoor distribution box in an inserting mode;

the electricity taking port (3-1) of the bus electricity taking connecting piece (3) is in plug-in connection with one end of the terminal equipment branch line plug-in piece (5) through the bus electricity taking adapter (4); the other end of the terminal equipment branch line plug-in (5) is directly connected with terminal equipment in a plug-in manner.

Preferably, the bus bar insert (1) is a linear bus bar insert, the two ends of the linear bus bar insert are respectively provided with a plug structure, and the plug structures at the two ends are electrically connected.

Preferably, the bus bar insert (1) comprises a bus bar insert outer shell (1-1) and a plurality of bus bar insert rows (1-2) arranged in parallel; the left end of each bus socket (1-2) is positioned outside the left end of the bus plug outer shell (1-1) to form a left end plug structure; the right end of each bus bar socket (1-2) penetrates through the interior of the bus bar plug-in shell (1-1) and extends to the exterior of the right end of the bus bar plug-in shell (1-1) to form a right end plug structure; each bus socket (1-2) is fixed with the inside of the bus plug-in shell (1-1), and the position fixing effect on each bus socket (1-2) is realized.

Preferably, the bus bar connecting piece (2) comprises a linear bus bar connecting piece (2-1), an L-shaped bus bar connecting piece (2-2) and a T-shaped bus bar connecting piece (2-3);

the two ends of the linear bus connecting piece (2-1) are respectively provided with socket structures, and the socket structures at the two ends are electrically connected;

the two ends of the L-shaped bus connecting piece (2-2) are respectively provided with a socket structure, and the socket structures at the two ends are electrically connected;

the three ends of the T-shaped bus connecting piece (2-3) are respectively provided with a socket structure, and the three socket structures are electrically connected;

the socket structures of the linear bus connecting piece (2-1), the L-shaped bus connecting piece (2-2) and the T-shaped bus connecting piece (2-3) are matched with the plug structure of the bus plug-in (1), and the plug structure is inserted into the socket structure to realize plug-in type conductive connection.

Preferably, the linear bus bar connecting piece (2-1), the L-shaped bus bar connecting piece (2-2) and the T-shaped bus bar connecting piece (2-3) respectively comprise a bus bar connecting piece outer shell (2-4) and a plurality of rectangular conductor socket units (2-5) with the same shape as the bus bar connecting piece; the number of the rectangular conductor socket units (2-5) is the same as the number of the bus socket units (1-2) arranged on the bus plug-in (1), and each bus socket unit (1-2) is tightly inserted into one end of the corresponding rectangular conductor socket unit (2-5), so that the bus socket units (1-2) and the rectangular conductor socket units (2-5) are electrically connected.

Preferably, the bus electricity-taking connecting piece (3) comprises at least two socket structures and at least one electricity-taking port (3-1); the socket structure is electrically connected with the electricity taking port (3-1).

Preferably, the structure of the terminal equipment branch line insert (5) is the same as that of the bus bar insert (1).

Preferably, the busbar insert (1) is arranged horizontally or vertically; the terminal equipment branch line plug-in (5) is arranged horizontally or vertically.

Preferably, the end equipment comprises a lamp and a socket.

The utility model provides a pair of indoor distribution system of assembled has following advantage:

the utility model provides a pair of indoor distribution system of assembled adopts the grafting mode, and the complete indoor distribution system of assembly that can be simple swift has the installation swiftly, maintains and overhauls advantages such as convenient.

Drawings

Fig. 1 is a schematic view of a specific assembly of the assembled indoor power distribution system provided by the present invention;

fig. 2 is a perspective view of a bus bar insert provided by the present invention;

fig. 3 is an internal structure view of the bus bar connector provided by the present invention;

fig. 4 is a perspective view of a busbar socket of the busbar insert provided by the present invention;

fig. 5 is a perspective view of the linear bus bar connector provided by the present invention;

fig. 6 is an internal structure view of the linear bus bar connector provided by the present invention;

fig. 7 is a perspective view of a rectangular conductor socket unit of the linear bus bar connector according to the present invention;

fig. 8 is a perspective view of the L-shaped bus bar connector provided by the present invention;

fig. 9 is a perspective view of the T-shaped bus bar connector provided by the present invention;

fig. 10 is an assembly view of the linear bus bar connector and the bus bar insert provided by the present invention;

fig. 11 is a perspective view of the bus-bar electricity-taking connecting piece provided by the present invention;

fig. 12 is a perspective view of the bus power adapter provided by the present invention;

fig. 13 is a perspective view of a terminal device spur insert provided by the present invention;

figure 14 is the utility model provides an assembly drawing of connecting piece is got to the generating line, adapter and terminal equipment branch line plug-in components are got to the generating line.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to further explain the present invention in detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides an assembled indoor power distribution system, refer to fig. 1, including bus plug-in 1, bus connecting piece 2, bus electricity-getting connecting piece 3, bus electricity-getting adapter 4 and terminal equipment branch line plug-in 5;

the bus plug-in units 1 are connected with the bus electricity-taking connecting piece 3 through the bus connecting piece 2 in an inserting manner to form a bus system, and one end of the bus system is directly connected with a bus outlet end of the indoor distribution box in an inserting manner;

the electricity taking port 3-1 of the bus electricity taking connecting piece 3 is in plug connection with one end of the terminal equipment branch line plug-in 5 through a bus electricity taking adapter 4; the other end of the end equipment spur plug-in 5 is directly connected with end equipment in a plug-in mode.

The utility model discloses in, bus plug-in components 1 can be prefabricated for different length, also can be for same length. The bus plug-in units 1 are horizontally or vertically arranged, and a plurality of bus plug-in units 1 are connected in an inserting manner to form a bus of an indoor power distribution system through a bus connecting piece 2 and a bus electricity taking connecting piece 3; wherein, bus connector 2 and bus get electric connector 3's structure is the same basically, all is used for 2 plug-in connections of many bus connector, and the only difference lies in: compared with the bus connecting piece 2, the bus electricity-taking connecting piece 3 is provided with an electricity-taking port 3-1 for being inserted with a terminal equipment branch plug-in piece 5 which is horizontally or vertically arranged through a bus electricity-taking adapter 4, so that the effect of branching branches from the bus and further connecting different terminal equipment is realized.

The utility model discloses in, end equipment includes but not limited to indoor consumer such as lamps and lanterns, socket and flush mounting plate of switch.

The utility model provides an indoor distribution system of assembled adopts the grafting mode, realizes from the indoor block terminal to the electric power wiring between the various end equipment, has the mode of arrangement nimble, and the installation is swift, maintains and overhauls advantages such as convenient.

The following detailed description of the main components:

bus bar plug-in

The bus plug-in 1 is a linear bus plug-in, and both ends of the linear bus plug-in are respectively provided with a plug structure, and the plug structures at both ends are electrically connected.

Specifically, referring to fig. 2, 3 and 4, the bus bar insert 1 includes a bus bar insert outer casing 1-1 and a plurality of bus bar insert rows 1-2 arranged in parallel; the bus plug-in shell 1-1 is an insulating shell; the bus socket 1-2 is a conductive piece;

the left end of each bus socket 1-2 is positioned outside the left end of the bus plug-in shell 1-1 to form a left end plug structure; the right end of each bus socket 1-2 penetrates through the inside of the bus plug-in shell 1-1 and extends to the outside of the right end of the bus plug-in shell 1-1 to form a right-end plug structure; each bus socket 1-2 is fixed with the inside of the bus plug-in shell 1-1, so that the position fixing effect on each bus socket 1-2 is realized.

The bus socket 1-2 is adopted to directly form the plug structures at two ends, and the reliability of conductive connection between the plug structures at two ends can be ensured due to the integrated structure.

(II) bus connecting piece

As a specific embodiment, in order to conveniently realize flexible bus connection wiring according to an indoor building structure, the bus connecting piece 2 is designed into structural forms with different shapes, and specifically comprises a linear bus connecting piece 2-1, an L-shaped bus connecting piece 2-2 and a T-shaped bus connecting piece 2-3;

as shown in fig. 5, the linear bus bar connector 2-1 has socket structures disposed at both ends, and the socket structures at both ends are electrically connected to each other;

as shown in fig. 8, the two ends of the L-shaped bus bar connector 2-2 are respectively provided with socket structures, and the socket structures at the two ends are electrically connected with each other;

as shown in fig. 9, the three ends of the T-shaped bus connector 2-3 are respectively provided with a socket structure, and the three socket structures are electrically connected with each other;

the socket structures of the linear bus connecting piece 2-1, the L-shaped bus connecting piece 2-2 and the T-shaped bus connecting piece 2-3 are matched with the plug structure of the bus plug-in 1, and the plug structure is inserted into the socket structure to realize plug-in type conductive connection.

The linear bus connecting piece 2-1, the L-shaped bus connecting piece 2-2 and the T-shaped bus connecting piece 2-3 respectively comprise a bus connecting piece outer shell 2-4 and a plurality of rectangular conductor socket units 2-5 which are the same as the bus connecting piece in shape; the number of the rectangular conductor jack units 2-5 is the same as that of the bus plug-in units 1-2 arranged on the bus plug-in unit 1, and each bus plug-in unit 1-2 is tightly inserted into one end of the corresponding rectangular conductor jack unit 2-5, so that the bus plug-in units 1-2 and the rectangular conductor jack units 2-5 are electrically connected.

The linear bus connecting piece 2-1, the L-shaped bus connecting piece 2-2 and the T-shaped bus connecting piece 2-3 have the same main design concept except different shapes, and only take the linear bus connecting piece 2-1 as an example, refer to fig. 6 and 7, wherein the linear bus connecting piece 2-1 is provided with an insulating shell and a plurality of rectangular conductor socket units 2-5, the rectangular conductor socket units 2-5 are conductive pieces, for example, copper conductors, and a one-piece structure is adopted, so that stable and reliable electric connection of sockets at two ends can be ensured. As shown in FIG. 10, the bus bar coupler 2-1 and the bus bar insert 1 are assembled.

(III) bus electricity-taking connecting piece

The bus electricity taking connecting piece 3 comprises at least two socket structures and at least one electricity taking port 3-1; the socket structure is electrically connected with the electricity taking port 3-1.

As shown in fig. 11, a perspective view of the bus bar electricity-taking connector 3 is shown, which is different from the bus bar connector 2 only in that: the electricity taking port 3-1 is added, and the other structures are the same as the structure principle of the bus connecting piece 2. Therefore, the bus electricity-taking connecting piece 3 can be designed into a linear type, an L type and a T type correspondingly.

The bus electricity-taking connector 3 realizes the plug-in connection with the terminal equipment branch line plug-in 5 through the bus electricity-taking adapter 4 shown in fig. 12. Fig. 14 is an assembly view of the three components.

Terminal equipment branch line plug-in component

The structure of the terminal equipment branch line plug-in 5 is the same as that of the bus plug-in 1, and the difference is only that: the bus bar insert 1 is wider in cross section and the end device spur insert 5 is narrower in cross section.

The utility model provides an indoor distribution system of assembled can effectively solve circuit fluting, pipe laying, poling, line scheduling problem that the assembly type structure job site related to, adopts the mode of factory standardization production, on-the-spot modularization equipment grafting, reaches and shortens construction cycle, reduces workman's technical ability degree of dependence, reduces the fault rate, the simple and convenient target of later maintenance by a wide margin.

The method has the following specific advantages:

(1) The product is assembled in a customized, standardized and modularized manner, and secondary processing is not needed on site;

(2) The splicing mode is adopted, so that the construction is convenient and quick, and the dependence on technicians is reduced;

(3) The overhaul and the expansion are convenient;

(4) Optimizing the process: the vertical line pipe does not need to be pre-buried, grooved and repaired;

(5) The system reliability is high.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (9)

1. An assembled indoor power distribution system is characterized by comprising a bus plug-in (1), a bus connecting piece (2), a bus electricity-taking connecting piece (3), a bus electricity-taking adapter (4) and a terminal equipment branch plug-in (5);

the bus connectors (2) and the bus electricity-taking connectors (3) are connected in an inserting mode to form a bus system, and one end of the bus system is directly connected with a bus outlet end of an indoor distribution box in an inserting mode;

the electricity taking port (3-1) of the bus electricity taking connecting piece (3) is in plug-in connection with one end of the terminal equipment branch line plug-in piece (5) through the bus electricity taking adapter (4); the other end of the terminal equipment branch line plug-in (5) is directly connected with terminal equipment in a plug-in manner.

2. A modular, indoor power distribution system according to claim 1 wherein the busbar insert (1) is a rectilinear busbar insert having plug formations at each end and the plug formations at each end being electrically connected.

3. A modular indoor power distribution system according to claim 2 wherein the busbar insert (1) comprises a busbar insert outer casing (1-1) and a plurality of busbar inserts (1-2) arranged in parallel; the left end of each bus socket (1-2) is positioned outside the left end of the bus plug outer shell (1-1) to form a left end plug structure; the right end of each bus bar socket (1-2) penetrates through the interior of the bus bar plug-in shell (1-1) and extends to the exterior of the right end of the bus bar plug-in shell (1-1) to form a right end plug structure; and each bus socket (1-2) is fixed with the inside of the bus plug-in shell (1-1), so that the position fixing effect on each bus socket (1-2) is realized.

4. A modular indoor power distribution system according to claim 2 wherein the busbar connectors (2) comprise straight busbar connectors (2-1), L busbar connectors (2-2) and T busbar connectors (2-3);

the two ends of the linear bus connecting piece (2-1) are respectively provided with a socket structure, and the socket structures at the two ends are electrically connected;

the two ends of the L-shaped bus connecting piece (2-2) are respectively provided with a socket structure, and the socket structures at the two ends are electrically connected;

the three ends of the T-shaped bus connecting piece (2-3) are respectively provided with a socket structure, and the three socket structures are electrically connected;

socket structures of the linear bus connecting pieces (2-1), the L-shaped bus connecting pieces (2-2) and the T-shaped bus connecting pieces (2-3) are matched with a plug structure of the bus plug-in (1), and the plug structure is inserted into the socket structure to realize plug-in type conductive connection.

5. An indoor assembled power distribution system according to claim 4 wherein the straight busbar connectors (2-1), the L-shaped busbar connectors (2-2) and the T-shaped busbar connectors (2-3) each comprise a busbar connector housing (2-4) and a plurality of rectangular conductor socket units (2-5) of the same shape as the busbar connectors; the number of the rectangular conductor socket units (2-5) is the same as the number of the bus socket units (1-2) arranged on the bus plug-in (1), and each bus socket unit (1-2) is tightly inserted into one end of the corresponding rectangular conductor socket unit (2-5), so that the bus socket units (1-2) and the rectangular conductor socket units (2-5) are electrically connected.

6. An indoor assembled power distribution system according to claim 4 wherein the busbar powering connection (3) comprises at least two socket configurations and further comprises at least one powering port (3-1); the socket structure is electrically connected with the electricity taking port (3-1).

7. An indoor assembled power distribution system according to claim 2 wherein the terminal equipment branch insert (5) is of the same configuration as the busbar insert (1).

8. An indoor assembled power distribution system according to claim 1 wherein the busbar insert (1) is arranged horizontally or vertically; the terminal equipment branch line plug-in (5) is arranged horizontally or vertically.

9. An assembled indoor power distribution system according to claim 1 wherein said end devices include light fixtures and outlets.

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