KR100978696B1 - system of the street lamp for preventing of an electric shock - Google Patents

Abstract

The present invention is configured such that the secondary winding of a transformer installed adjacent to a street light is directly grounded through a grounding switch, and when grounding is concerned, the grounding switch is turned off so that the ground is opened. By repeatedly performing short turn-on and turn-off once in a certain time, it provides street lamp system with both the advantages of grounding system which is easy to detect ground fault and the advantages of ungrounded system that can prevent electric shock.

Description

Street light system for preventing electric shock {system of the street lamp for preventing of an electric shock}

The present invention relates to a street lamp system, and more particularly, to a street lamp system for preventing an electric shock by improving the grounding method of the street lamp system that opens the ground and performs instantaneous ground switching when the flooding concerns.

In recent years, electric shocks caused by street lamps have continued to occur every year, resulting in a great loss of life. In particular, the main cause was an electric shock due to the leakage of street lamps in flooded areas. According to the National Emergency Management Agency's statistics, the most electric shock accidents occurred in July and August over the last five years, and the number of deaths was 37, which is a very serious accident.

However, in the prevention of electric shock of such street lights, no method has been studied until the earth leakage breaker has been installed. In addition, such a streetlight circuit leakage breaker has been made a lot of performance improvements, but nevertheless there are a lot of defect rate and it is difficult to properly manage a number of street lights installed in a large area.

The present invention is configured such that the secondary winding of a transformer installed adjacent to a street light is directly grounded through a grounding switch, and when grounding is concerned, the grounding switch is turned off so that the ground is opened. The purpose of the present invention is to provide a street lamp system that has both the advantages of a grounding system that is easy to detect a ground fault and the advantages of an ungrounded system that can prevent an electric shock by repeatedly performing a short turn-on and a turn-off once every predetermined time. .

Street lamp system according to an embodiment of the present invention to achieve the above object, a plurality of transformers are provided for converting the power provided from the power supply to the power provided to the plurality of street lights; A plurality of street lights driven by receiving the power converted by the transformer; A streetlight-only transformer is provided between the plurality of transformers and the streetlight, and the secondary winding of the streetlight-only transformer is configured to be grounded through a ground switch.

Here, each of the transformers are grid grounded, each street lamp is implemented in a separate grounding method in which the enclosure and the ground is grounded for each one.

In addition, the streetlight-only transformer is provided with a ground switch between the secondary winding of the internal and the ground formed on the ground, the ground switch is a system ground in the turn-on state, characterized in that the ground switch is not grounded in the turn-off state .

In addition, the power supply may be a single-phase or three-phase system, and when supplied in the three-phase system, the secondary winding of the transformer-only transformer is composed of a Y connection, and the neutral point of the Y connection and the system ground of the earth. Between the ground switch is provided, the ground switch is characterized in that the turn-on, turn-off is repeatedly performed at a short time interval once every predetermined time.

According to the present invention, the secondary winding of the transformer installed adjacent to the street lamp is configured to be directly grounded through the ground switch, when the grounding switch is grounded to turn off the ground to be open, and also to detect ground faults By repeatedly performing the turn-on / turn-off for a short time, the ground switch has a merit that it is easy to detect a ground fault and prevent an electric shock.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be clear to those who have knowledge of.

Generally, streetlight system can be divided into direct grounding system and non-grounding system according to the grounding system of the system.

The direct grounding system refers to a method of directly grounding the neutral point of the transformer provided in the street lamp system to the ground. In the case of a one-line ground fault, there is a smallest increase in the sound phase voltage, which significantly reduces the insulation of the power device. There is an advantage that the protective relay operates quickly in case of ground fault.

However, in this case, the ground fault current generated during the ground fault is large, causing equipment accidents during the ground fault, and there is a disadvantage that a high induction voltage on the communication line may cause an obstacle.

Therefore, in the case of the direct grounding system, the system should be designed with sufficient insulation, and in the event of an accident, a protective relay and a circuit breaker capable of high-speed selective interruption may be installed to minimize the duration of the ground fault current flowing into the line. Measures are needed.

배까지 상승된다. 만약 고장전류가 간헐적으로 발생되거나 계속 흐르도록 방치하면 심각한 과도 이상전압이 대지 간에 발생할 수 있으며, 그 크기가 상 전압의 6배 내지 8배에 이르게 되어, 절연을 파괴시키고 동시 다발의 전동기 소손사고를 일으키는 원인이 될 수 있다. 과도 이상전압은 계통 캐패시턴스의 반복 충전 때문이거나 계통 캐패시턴스와 기기의 인덕턴스간의 공진에 의하여 발생된다. In addition, the non-grounded system refers to a method of operating in a non-grounded state without grounding the system. In the event of a ground fault, the fault current is an effective current through the charging current and the GPT and is only a few [A] degrees. On the other hand, if the ground fault occurs,

Up to the ship. If the fault current is intermittently generated or allowed to continue to flow, a severe transient abnormal voltage may occur between the grounds, and the magnitude thereof may be 6 to 8 times the phase voltage, destroying insulation and causing simultaneous motor burnout. Can cause. Transient transients are caused by repetitive charging of the system capacitance or by resonance between the system capacitance and the inductance of the device.

In this case, in the case of the direct grounding system, a ground fault accident is difficult to detect in a fault state, and the second ground fault is likely to be left in a faulty state. In the second ground fault, a large current flows and the distribution line immediately trips.

An object of the present invention is to provide a street lamp system having both the advantages of a grounding system that is easy to detect ground faults and the advantages of an ungrounded system that can prevent an electric shock, and for this purpose, a secondary winding of a transformer installed adjacent to a street lamp. It is configured to be directly grounded through the grounding switch, and the grounding switch is turned off when the fear of flooding, characterized in that configured to open the ground.

In addition, the present invention is characterized in that the ground switch repeatedly turns on and off for a short time at a predetermined time to detect a ground fault.

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

1 is a schematic block diagram of a streetlight system according to an embodiment of the present invention.

Referring to FIG. 1, a street light system 100 according to an embodiment of the present invention includes a plurality of transformers 110a, which are provided to convert power provided from an initial power supply unit into power 140 provided in a plurality of street lights. 110b, ..., 110n); It is composed of a plurality of street lights (120a, 120b, ..., 120n) driven by receiving the power converted through the transformer 110, at this time, dedicated between the plurality of transformers 110 and the street lamp 120 A transformer 130 is provided, and the secondary winding (not shown) of the streetlight-only transformer is configured to be directly grounded through the ground switch 134.

Here, each of the transformers 110 are all grounded, and each street lamp 120 has a separate grounding system in which an enclosure and a ground are grounded for each one.

However, a transformer installed directly adjacent to the street lamp 120, that is, a street lamp dedicated transformer 130, unlike the other transformer 110 mentioned above, the ground switch 134 between the secondary winding and the system ground formed on the ground. When the ground switch 134 is turned on, the system is grounded like a direct grounding system, and when the ground switch 134 is turned off, the grounded switch 134 is not grounded like a non-grounded system.

That is, the embodiment of the present invention is a general transformer as a separate transformer that is different from the existing system in order to improve the existing neutral grounding method (direct grounding system) and to overcome the problem of the ungrounded system, that is, the voltage fluctuation caused by the load unbalance. The streetlight-only transformer 130 is provided with a circuit separate from the consumer circuit.

In this case, the streetlight-only transformer 130 opens the neutral ground through the ground switch 134 when the flooding concern, and the ground switch 134 repeatedly turns on and off for a short time at regular intervals. By grounding, the advantages of the direct grounding system and the non-grounding system mentioned above can be maintained, thereby significantly reducing the risk of electric shock while ensuring smooth system operation of the street lamp system.

FIG. 2 is a diagram illustrating an internal configuration of a streetlight-only transformer shown in FIG. 1.

In the case of the street lamp system shown in FIG. 1, power supply of the street lamp may be performed in both three-phase and single-phase systems, but the embodiment of the present invention describes a three-phase grounding system as an example.

Referring to FIG. 2, the streetlight only transformer 130 according to an embodiment of the present invention is provided between the plurality of transformers 110 and the streetlights 120 and is installed adjacent to the plurality of streetlights. That is, the plurality of street lights 120 is applied to the power converted through the street lamp dedicated transformer 130.

As shown in FIG. 2, the streetlight-only transformer 130 includes a secondary winding 132 of the transformer circuit in the transformer as a Y connection, and a ground switch 134 between a neutral point of the Y connection and a system ground of the earth. Characterized in that is provided.

At this time, the ground switch 134 is normally turned on so that the neutral point of the secondary winding 132 is grounded to the ground, but when flooding concerns, the ground switch 134 is turned off so that the secondary winding ( The neutral point of 132 is opened and becomes ungrounded.

In this way, even if a short circuit accident occurs in a predetermined street light when flooded, the neutral point is not grounded, so an accident corresponding to single-phase grounding prevents a short circuit current from flowing through the system, thereby preventing an electric shock due to a short circuit. will be.

In addition, in the embodiment of the present invention, when the ground switch 134 is turned off when the flood is concerned, the ground switch 134 is not once maintained at a predetermined time so that the ground fault can be detected instead of maintaining the turn-off state. It characterized in that the turn on, turn off is repeatedly performed at intervals of a short time (for example, 0.05 ~ 0.1 seconds).

At this time, the ground switch 134 is preferably implemented as a remote control system that can be controlled remotely for easy operation.

In addition, the operation of the ground switch 134 may be implemented to operate automatically, or may be manually operated in a batch by the competent authority for each region.

1 is a schematic block diagram of a streetlight system according to an embodiment of the present invention.

2 is a view showing the internal configuration of a streetlight-only transformer shown in FIG.

<Explanation of symbols for the main parts of the drawings>

100: street light system 110: transformer

120: street light 130: street light transformer

132: secondary winding 134: grounding switch

Claims (5)

A plurality of transformers provided to convert power provided from the power supply into power provided to the plurality of street lights; A plurality of street lights driven by receiving the power converted by the transformer; It includes a streetlight-only transformer provided between the plurality of transformers and the streetlight, The secondary winding of the streetlight-only transformer is configured to be grounded through a grounding switch, the grounding switch is a streetlight system for preventing an electric shock, characterized in that the turn-on, turn-off is repeatedly performed at a short time interval at a predetermined time. The method of claim 1, Each of the transformer is grid grounded, each street lamp is a street lamp system for preventing an electric shock, characterized in that each one is implemented in a separate grounding method of the case and the ground is grounded. The method of claim 1, The streetlight-only transformer is provided with a ground switch between the secondary winding inside the ground and the ground formed on the ground, the ground switch is a system ground in the turn-on state, an electric shock characterized in that the ground switch is not grounded in the turn-off state Streetlight system for protection. The method of claim 1, The power supply can be performed in both single-phase and three-phase systems, and when supplied in the three-phase system, the secondary winding of the transformer-only transformer is composed of a Y connection, and is grounded between the neutral point of the Y connection and the system ground of the earth. Street light system for preventing electric shock, characterized in that the switch is provided. delete

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