KR200453130Y1 - Street Light Network Wiring Connection Structure - Google Patents

Abstract

The present invention can prevent the entire street light connected to the wiring from being turned off by disconnection, and in the event of a disconnection, the street light network wiring connection can be restored quickly and at low cost without the need for excavation or the replacement of piping and wiring. It's about structure.
According to the street lamp network wiring connection structure according to the present invention, the first and second distribution boxes 30 and 40 are connected to opposite ends of the first and second power supply lines 10 and 20, respectively, even if a disconnection occurs. The entire street lamps 51 and 52 connected to the first and second power supply lines 10 and 20 may be prevented from being turned off. In addition, when disconnection occurs, an opposite end of the first power supply line 10 may be electrically connected to the second distribution box 40, or one end of the second power supply line 20 may be connected to the first distribution box 30. Since the electrical connection can be easily restored, there is an advantage that the electricity supply can be restored quickly and inexpensively without the need for excavation or replacement of piping and wiring.

Description

Streetlight power supply structure

The present invention relates to a street light network wiring connection structure, and more particularly, it is possible to prevent the entire street light connected to the wiring to be turned off by disconnection, and in the event of a disconnection, there is no need to excavate or replace piping and wiring quickly. It relates to a street light network wiring connection structure that can restore electricity supply at low cost.

In general, as shown in FIG. 1, a street light wiring connection structure for supplying power to a street light includes a distribution box 1 having first and second breakers 1a and 1b, and first and second breakers 1. And first and second power supply lines 2 and 3 connected to 1a and 1b, respectively, and the first and second breakers 1a and 1b are connected to a power source. Therefore, the street lamps 4a and 4b are connected to the first and second power supply lines 2 and 3 to supply power to the street lamps 4a and 4b.

In this case, the street lights 4a and 4b are four first street lights 4a connected to the first power supply line 2 and three second street lights 4b connected to the second power supply line 3. The first street light 4a and the second street light 4b are alternately arranged so that the second street light 4b is positioned one by one between the first street light 4a.

Therefore, when a problem occurs in the first or second power supply line (2, 3), only a part of the first or second street light (4a, 4b) is turned off to ensure the minimum illumination.

However, according to the wiring connection structure of the street lights 4a and 4b, when flooding or breakage occurs, the first and second power supply lines 2 and 3 are simultaneously disconnected and thus the first street light 4a and All of the second street lights 4b are turned off. Therefore, there is a problem that an accident may occur because the lighting is not secured until the power supply is restored.

In addition, since the first and second power supply lines 2 and 3 are connected to the street lamps 4a and 4b through pipes buried in the ground, disconnection is formed between the first and second power supply lines 2 and 3. If it occurs, the ground must be excavated to open the pipe, the problem of repairing the electricity supply is very cumbersome and time-consuming and expensive.

Therefore, there is a need for a new wiring connection structure to solve this problem.

The present invention is to solve the above problems, it is possible to prevent the entire street lamp connected to the wiring to be turned off by the disconnection, and if a disconnection occurs, quickly supplying electricity at low cost without the need to excavate or replace the piping and wiring The purpose is to provide a street light network wiring connection structure that can be recovered.

The present invention for achieving the above object, the first and second power supply line (10, 20) buried in the basement along the installation position of the street lights (51, 52) is distributed and connected to the street lamps (51, 52) And a first distribution box 30 disposed at one end of the first and second power supply lines 10 and 20 and having a first breaker 32 to which the first power supply line 10 is connected. And a second distribution box 40 having a second breaker 42 disposed at opposite ends of the first and second power supply lines 10 and 20 and connected to opposite ends of the second power supply line 20. Street light network wiring connection structure is provided comprising a).

According to another feature of the present invention, the first distribution box 30 is provided with a first auxiliary circuit breaker 33 to which one side end of the second power supply line 20 is selectively connected, and the second distribution box 40 ) Is provided with a streetlight network wiring connection structure, which is provided with a second auxiliary circuit breaker 43 to which the opposite end of the first power supply line 10 is selectively connected.

According to another feature of the present invention, the first and second power supply lines (10, 20) are each composed of two rows of power lines, the street light (51, 52) to each power supply line (10, 20) Street light network wiring connection structure is provided, characterized in that connected in parallel.

According to another feature of the present invention, the opposite end of the first power supply line 10 extends into the case 41 of the second distribution box 40, one side of the second power supply line 20 An end portion of the first distribution box 30 is provided with a street light network wiring connection structure, which is characterized in that it extends into the case 31.

According to another feature of the present invention, when the first or second power supply line (10, 20) is disconnected, the opposite end of the first power supply line 10 is electrically connected to the second distribution box (40) or One end of the second power supply line 20 may be electrically connected to the first distribution box 30 to restore power to the disconnected portions of the first or second power supply lines 10 and 20. Street light network wiring connection structure is provided.

According to the street lamp network wiring connection structure according to the present invention, the first and second distribution boxes 30 and 40 are connected to opposite ends of the first and second power supply lines 10 and 20, respectively, even if a disconnection occurs. The entire street lamps 51 and 52 connected to the first and second power supply lines 10 and 20 may be prevented from being turned off. In addition, when disconnection occurs, an opposite end of the first power supply line 10 may be electrically connected to the second distribution box 40, or one end of the second power supply line 20 may be connected to the first distribution box 30. Since the electrical connection can be easily restored, there is an advantage that the electricity supply can be restored quickly and inexpensively without the need for excavation or replacement of piping and wiring.

1 is a configuration diagram showing a conventional street light wiring connection structure,
2 is a block diagram showing a streetlight network wiring connection structure according to the present invention,
3 and 4 is a reference diagram illustrating the operation of the street light network wiring connection structure according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 illustrate a streetlight network wiring connection structure according to the present invention, and the first and second power supply lines 10 and 20 to which the streetlights 51 and 52 are distributed and connected within a predetermined section, and The first and second power supply line (10, 20) is composed of first and second distribution boxes (30, 40) disposed at one end and the opposite end. In this case, one side end refers to a left end of the first and second power supply lines 10 and 20 in the drawing, and the opposite end is a right end of the first and second power supply lines 10 and 20. Jing.

The first and second power supply lines 10 and 20 are buried underground along the installation positions of the street lights 51 and 52, and the street lights 51 and 52 are sequentially arranged in the first power supply line 10. ) And is distributed to the second power supply line 20. That is, the street lights 51 and 52 are seven first street lights 51 connected to the first power supply line 10 and seven second street lights 52 connected to the second power supply line 20. The first street lamp 51 and the second street lamp 52 are alternately arranged so that the second street lamps 52 are positioned one by one between the first street lamps 51. In this case, the first and second power supply lines (10, 20) are each composed of two rows of power lines, the first and second street light (51, 52) in parallel to each power supply line (10, 20) Connected.

The first and second distribution boxes 30 and 40 may include cases 31 and 41, first and second breakers 32 and 42 installed inside the cases 31 and 41, and first and second distribution boxes 30 and 40. A second auxiliary circuit breaker (33, 43), the first and second breakers 32, 42 and the first and second auxiliary circuit breakers (33, 43) are connected to a power source.

In detail, the first distribution box 30 is disposed at one end of the first and second power supply lines 10 and 20 and supplies the first power to the first breaker 32 provided therein. One end of the line 10 is electrically connected to supply power to the first street light 51 through the first power supply line 10. The first auxiliary circuit breaker 33 is installed inside the case 31 in a state in which one end of the second power supply line 20 is not connected to prepare for disconnection of the second power supply line 20.

In addition, the second distribution box 40 is configured to be opposite to the first distribution box 30. That is, the second distribution box 40 has the first and second power supply lines 10 and 20 disposed at opposite ends thereof, and the second power supply line 20 to the second breaker 42 provided therein. Opposite end of the) is electrically connected to the second street light 52 through the second power supply line (20). The second auxiliary circuit breaker 43 is installed inside the case 41 in a state where the opposite end of the first power supply line 10 is not connected to prepare for disconnection of the first power supply line 10.

To this end, the opposite end of the first power supply line 10 is fixed to extend into the case 41 of the second distribution box 40, one side end of the second power supply line 20 1 is extended into the case 31 of the distribution box 30 is fixed. Therefore, when necessary, one end of the opposite end of the first power supply line 10 or one side of the second power supply line 20 can be quickly connected to the first or second auxiliary circuit breakers 33 and 43.

According to the street lamp network wiring connection structure, as shown in FIG. 3, when disconnection occurs in the first power supply line 10 and the second power supply line 20, as illustrated in FIG. 1 connects the opposite end of the power supply line 10 to the second auxiliary circuit breaker 43 of the second power distribution box 40 and the one end of the second power supply line 20 to the first end of the first power distribution box 30. By connecting to the auxiliary circuit breaker 33, it is possible to supply electricity to the disconnected portion. Therefore, there is an advantage that can restore the electricity supply quickly and at low cost without digging or replacing the pipes and wiring.

In addition, the first and second power supply lines 10 and 20 are constituted by two rows of power lines, and the street lamps 51 and 52 are connected in parallel to the respective power supply lines. Even if the supply lines 10 and 20 are disconnected at the same time, as shown in FIG. 3, at least one street lamp 51, 52 is kept on, so that the entire street lamp 51, 52 within a specific section is turned on. Can be turned off. Therefore, there is an advantage in that an accident can be prevented by securing a minimum of lighting for a time until the power supply is restored.

In addition, since the seven streetlights (51, 52) are connected to one distribution box, compared to the conventional connection structure there is an advantage that the effect as described above can be obtained without an increase in the electrical load or cost.

10. First Power Supply Line 20. Second Power Supply Line
30. First Distribution Box 40. Second Distribution Box
51,52. Street lamp

Claims (5)

Includes first and second power supply lines (10, 20) are buried underground, along the installation position of the street lights (51, 52), the street lamps (51, 52) are distributed and connected,
The first and second power supply lines 10 and 20 are each composed of two rows of power lines, and the street lights 51 and 52 are connected in parallel to the respective power supply lines 10 and 20;
One side of the first circuit breaker 32 and the second power supply line 20 disposed at one end of the first and second power supply lines 10 and 20 and to which the first power supply line 10 is connected. A first distribution box 30 having a first auxiliary circuit breaker 33 to which an end thereof is selectively connected;
The second breaker 42 and the first power supply line 10 disposed at opposite ends of the first and second power supply lines 10 and 20 and connected to opposite ends of the second power supply line 20. Including a second distribution box 40 is provided with a second auxiliary circuit breaker 43 is selectively connected to the opposite end of,
The opposite end of the first power supply line 10 extends into the case 41 of the second power distribution box 40, and one end of the second power supply line 20 is connected to the first power distribution box 30. Extends into the casing 31;
When the first or second power supply lines 10 and 20 are disconnected, the opposite end of the first power supply line 10 is electrically connected to the second distribution box 40 or the second power supply line 20 is connected. Street light network wiring connection structure characterized in that the one end of the electrical connection to the first distribution box 30 is electrically connected to restore the power to the disconnected portion of the first or second power supply line (10,20) . delete delete delete delete

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