KR100780035B1 - Surge protective device for cabinet and distributing panel - Google Patents

Abstract

A surge protective device for a distribution panel is provided to protect electrical facilities when an overvoltage transmitted to a power distribution system is generated within instruments of the electrical facilities due to lightening. A surge protective device for a distribution panel protects electrical facilities from an overvoltage transmitted to a power distribution system and an open/close overvoltage generated within instruments of the electrical facilities. The distribution panel includes a connection conductor(210), a surge protecting unit(220), and a load(230). The surge protecting unit is horizontally connected to the connection conductor via a connection line(221). The damage of the load due to flow of a surge voltage and a surge current in the load is prevented by making a connection line(231) of the load connected to the connection conductor longer than the connection line of the surge protecting unit.

Description

Surge Protective Device For Cabinet and Distributing Panel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surge protection device for distribution and distribution panels, and more particularly, to a surge protection device for preventing a surge voltage and a current from flowing into a load connected to the secondary side of the distribution panel.

Recently, due to the development of the industry and the popularization of information and communication, electronic communication devices having high density integrated circuits have been widely used. Since devices of such high density integrated circuits are susceptible to temporary failure or permanent damage to surge voltage and current, a protection device for preventing surge voltage and current from entering the load connected to the secondary side of the branch circuit breaker in the distribution panel (or switchboard) is provided. It became necessary.

Thus, an example of a surge interruption device is disclosed by following Document 1.

The technique disclosed in the document 1 relates to a switchboard with a built-in surge blocking device, and protects a circuit breaker installed in the switchboard against surge voltage and current invading the switchboard from an external power system, and securely protects a communication device connected to the circuit breaker secondary side. It is described to provide. That is, in the technique disclosed in Document 1, as shown in Fig. 1, the parking breaker 1, one side is connected to the parking breaker 1, the other side is connected to the load circuit breaker 2 and the parking breaker ( The surge interrupter 3 connected between 1) and the branch circuit breaker 2 is installed in one enclosure, and performs a function unique to the distribution panel, and when the surge voltage and current are generated, it blocks the surge interrupter. It is described for the distribution panel.

In addition, another example of a general surge protection device is disclosed in Document 2 below.

The technique disclosed in Document 2 relates to a technical guide on the selection and installation of a surge protection device, and to lightning protection in accordance with the provisions of Article 329 2 (High Current Protection Device) and Article 357 (Installation of Lightning Rod) of the Industrial Safety Standards. This section describes the technical matters related to the establishment and installation of a surge protection device (SPD) that protects an electrical installation against transient voltages propagated to the distribution system and switching voltages generated by equipment in the installation.

That is, in the technique disclosed in Document 2, as shown in FIG. 2, when the conductor is connected to the protective conductor at or near the inlet of the facility or there is no neutral wire, between the conductor and the main ground terminal or between the conductor and the protective conductor. If there is no direct connection between the neutral conductor and the protective conductor at the inlet of the facility, or between the upper conductor and the main earth terminal or protective conductor, and between the main conductor and the main earth terminal or between the protective conductor, surge protection device Is installed on the power supply side of the earth leakage breaker, it is stated to be installed between the upper conductor and the neutral conductor and between the neutral conductor and the main earth terminal or the protective conductor.

[Document 1] Korean Utility Model Registration Publication No. 0190028 (Registered on May 12, 2000)

[Document 2] Rules on Occupational Safety Standards (Articles 329, 2 and 357) (published Dec. 31, 2006)

However, in the technique disclosed in Documents 1 and 2, there is a problem in that the connecting line of the surge protection device and the connecting line of the load are vertically connected to the connecting conductor, so that the breakage of the surge voltage and current flows into the load side before being interrupted. .

An object of the present invention is to solve the problems as described above, the horizontal connection to the connecting conductor in the position in front of the connecting line contact of the load vertically connected to the connecting conductor of the surge protection device connected to the inlet of the facility In addition, by extending the length of the connection line of the load, to provide a device to prevent the surge voltage and current flows into the load (single-phase or three-phase) connected to the secondary side of the distribution panel, before the interruption.

In order to achieve the above object, a first feature of the present invention is a surge protection device that protects an electrical installation against a transient voltage propagated to a distribution system and an opening and closing overvoltage occurring in a device in a facility, the plurality of connections being connected to the inlet of the facility. And a plurality of surge protection parts each connected to the plurality of connection conductors horizontally at a position preceding the connection line of the load connected vertically to the two connection conductors, and surge protection of the length of the connection line of the load connected to the connection conductors. It extends longer than the negative connection line.

According to a second aspect of the present invention, in the first aspect, the connecting line of the load is wound in a spiral form having a predetermined distance from each other.

A second feature of the present invention is the first feature, wherein the surge protection part is any one of voltage switching type, voltage limiting type, or combination type.

As described above, according to the surge protection device of the distribution panel according to the present invention, the electrical installation in the case of the transient voltage propagated to the distribution system due to lightning and the like during the normal operation of the distribution panel, the electrical equipment in the facility In addition to protecting the circuit, it is possible to prevent the breakage and inflow to the load side before the surge voltage and current are interrupted.

Briefly describing the present invention, the present invention is composed of the inlet 100, the minute, the switchboard 200 and the main ground terminal 300 of the installation. In particular, the distribution panel 200 includes a connection conductor 210, a surge protection unit 220, and a load 230, and the double surge protection unit 220 is horizontally connected to the connection conductor 210, respectively. Before the surge voltage and current are cut off by connecting a connection line and extending the length of the connection line 231 of the load 230 connecting to the connection conductor 210 longer than the connection line 221 of the surge protection unit 220. It is possible to manage to prevent the inflow to the load side and damage.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. In addition, in describing this invention, the same code | symbol is attached | subjected and the repeated description is abbreviate | omitted.

FIG. 3 is a circuit diagram briefly illustrating a configuration of a distributor and a distribution board incorporating a surge protection device according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the distribution and distribution board 200 according to the present invention has surge protection against a surge voltage and a current between a plurality of connecting conductors 210 and a load 230 connected to an inlet 100 of a facility. The unit 220 is located, and the surge protection unit 220 and the load 230 is connected to the main ground terminal 300. Here, a protection device (eg, a fuse, a circuit breaker, an earth leakage breaker, etc. 240) is added between the connection conductor 210 and the surge protection part 220 to perform the function of the parking breaker.

In addition, the surge protection unit 220 is largely divided into a voltage switch type, a voltage limit type, and a combination type according to its function. The voltage switch type has a high impedance state when no surge is applied, and suddenly when there is a voltage surge. It has the function of lowering impedance and uses air gap, gas discharge tube, thyristor, triac, etc.

The voltage limiting type has a high impedance state when no surge is applied and has a function of continuously decreasing impedance when the surge current and the voltage increase, and use a varistor, a suppression diode, or the like.

The combination type has a voltage switching type device and a voltage limiting type device, and performs two operations of voltage switching, voltage limiting, or voltage switching and voltage limiting according to the characteristics of an applied voltage, and a combination of a gas discharge tube and a varistor is mainly used. use.

Due to such a configuration, the surge protector 220 has a function of the normal distribution and distribution panel, and the surge voltage and current enter the protection system 240 of the power supply system, that is, the distribution and distribution panel 200. The non-linear resistance characteristic disperses and absorbs the surge voltage and the current, thereby preventing the surge voltage and the current from flowing into the protection device 240 and the load 230 on the secondary side in advance.

4A to 4E are schematic views showing an example of installing a surge protection device in a distribution panel according to an embodiment of the present invention.

4A to 4B show an example of installation of the surge protection unit 220 in the TT system in which the surge protection unit 220 is positioned below or above the leakage current protection device RCD 400.

Figure 4c shows a surge protection unit 220 that is typically installed in the facility inlet 100 in the TN CS system, if necessary to install a surge protection unit 220 ', or to increase the potential of the neutral wire In order to avoid the surge protection unit 220 'can be additionally installed.

4D shows a general method of installing a surge protection unit 220 having a structure of 1 port, in which current flows into the surge protection unit 220, and a magnetic field generated by the current is connected to the terminal of the load 230. Enter the loop formed by This has the effect of adding an induced voltage to the residual voltage of the surge protection unit 220. This combined voltage appears at the terminal of the load 230.

FIG. 4E shows an example of installing the surge protection unit 220 from the EMC side. When the surge protection unit 220 and the load 230 are electromagnetically coupled, the loop area is wide so that d / dt generated by dI / dt is obtained. Avoid large installations (bad examples), narrow the loop area to include less d / dt (a good example), or install the cable so that d / dt inside the shield is '0' (best example).

When the surge protection unit 220 and the load 230 are inductively coupled, the inductive coupling between the connection lines (point A) is generated to reduce efficiency, so the upper connection line 231 and the lower connection line of the load 230 are reduced. Separate (232) so that inductive coupling between connecting lines does not occur.

In addition, the length of the connecting line 231 of the load 230 according to the present invention, as shown in Figure 4a to 4e extends longer than the connecting line 221 of the surge protection unit 220, spirals having a predetermined distance from each other Wound in form. This enhances the effect of extending the time that surge voltage and current flow into the load 230.

That is, as shown in FIG. 5, the speed of the voltage applied to the surge protection unit 220 is the same as in [Equation 1].

Where Vp is the surge suppression voltage (kV), u is the breaking level of the intrusion wave (k / t), S is the distance (m) between the surge protector and the load, and Vt is the voltage applied to the load. .

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Therefore, when the connection line 231 of the load 230 extends spirally longer than the connection line 221 of the surge protection unit 220, the surge voltage and the change according to the time constant change due to the 'L' component of the connection line 231. Since the time that the current flows into the load side is extended, the surge protection unit 220 may block in advance.

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

The present invention relates to a technology capable of protecting an electrical installation against the transient voltage propagated to the distribution system and the opening and closing overvoltage generated in the equipment in the installation. Applications include electricity meters, earth leakage breakers, mobile devices, and home appliances.

1 is a circuit diagram of a conventional surge interrupter built-in distribution panel.

2 is a circuit diagram briefly showing a configuration of a distribution and distribution board incorporating a conventional surge protection device.

Figure 3 is a circuit diagram showing a brief configuration of the distribution, switchboard with a surge protection device according to an embodiment of the present invention.

4A to 4E are schematic views showing an example of installation of a surge protection device in a distribution panel according to an embodiment of the present invention.

5 is a graph showing the speed of the voltage applied to the surge protection device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: Inlet of equipment 200: Minutes, switchboard

210: connecting conductor 220: surge protection unit

221: connection line of the surge protection unit 230: load

231: connection line of the load 240: protection device

300: main ground terminal 400: leakage current protection device

Claims (3)

In the surge protection device to protect the electrical equipment against the transient voltage propagated to the distribution system and the switching overvoltage generated by the equipment in the equipment, It includes a plurality of surge protection unit connected to the plurality of connecting conductors in the horizontal position at the position ahead of the connecting line of the load connected vertically to the plurality of connecting conductors connected to the inlet of the facility, Surge protection device of the distribution panel, characterized in that the length of the connecting line of the load connecting to the plurality of connecting conductors longer than the connecting line of the surge protection unit. The method of claim 1, The connecting line of the load is a surge protection device of minutes, switchboards, characterized in that wound in a spiral form having a predetermined distance from each other. The method of claim 1, wherein the surge protection unit Surge protection device for distribution, switchgear, characterized in that any one of voltage switching type, voltage limiting type or combination type.

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