KR20010108583A - Home Panel Board for Electromagnetic Compatibility - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic distribution panel capable of blocking electrical surges and absorbing power line disturbances. The present invention relates to a unit household distribution panel used in general houses, apartments, shopping malls, hotels, officetels, and the like. It is designed to add surge blocking device with the function of absorbing the interference wave to suit the electrical characteristics.

The unit-generation distribution board with the built-in surge suppression device can prevent the malfunction or physical damage of the parking circuit breaker (ELB) in the distribution board against the surge voltage and current invading from the outside, and the secondary side (load connection terminal) Various electrical, electronic and communication devices connected to the system can be safely protected from electrical surges and power line disturbances.

Recently, malfunctions and damages of earth leakage breakers to surge voltage and current have been raised as serious problems, and surge voltage, current and power line disturbance waves have increased due to the high functional miniaturization and light weight of household electrical, electronic and communication devices, and the rapid use of high speed information communication networks. There is an urgent need for the protection of these devices against.

Description

Unit generation distribution panel for electromagnetic wave {Home Panel Board for Electromagnetic Compatibility}

An object of the present invention is to protect a circuit breaker installed in a distribution panel against surge voltage and current penetrating the distribution panel from an external power system, and to safely protect electrical, electronic and communication equipment connected to the secondary side of the circuit breaker from surge voltage, current and power line disturbances. It is to provide a device for protection.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a unit generation switchboard for electromagnetic wave incorporating a surge suppressor, and includes a surge voltage and current in a unit generation switchboard or switchboard (hereinafter, referred to as a "distribution board") used in general houses, apartments, shopping malls, hotels, and officetels. By designing and adding a surge suppressor with the function of blocking (1.2 / 50 ㎲, 8/20 ㎲) and absorbing power line disturbance waves (150 kHz to 30 MHz) to suit electrical characteristics, surge voltage and current The present invention relates to a technology for eliminating or minimizing damage to electrical, electronic, and communication devices against power line interference waves.

Recently, due to the advancement of the industry and the popularization of information and communication, electric, electronic, and communication devices with high-density integrated circuits have been widely used. Devices using these high-density integrated circuits are susceptible to temporary failure or permanent damage to surge voltage, current, and power line disturbances. Therefore, surge voltage, current, and power line disturbances flow into the load connected to the secondary circuit breaker in the distribution panel. There is a need for a device that prevents this from happening.

However, in the case of unit generation distribution boards used so far, only an earth leakage circuit breaker, which is a parking circuit breaker, and a wiring circuit breaker, which is a branch circuit breaker, are provided so that the secondary load can be protected only against an overload or a short circuit. The power line disturbance wave was defenseless.

As such, the conventional distribution panel alone does not adequately protect the secondary load against surge voltage, current, and power line disturbances. Therefore, a strong surge voltage and current that occurs temporarily malfunctions the circuit breaker and stops supplying power to a running load. Not only can this cause economic losses, but surge voltages, currents, and power line disturbances can also flow directly into electrical, electronic, and communications equipment connected to the breaker's secondary, resulting in malfunctions or fatal damage.

The present invention to solve the above problems to provide an electromagnetic distribution panel that can safely protect the electrical, electronic and communication equipment in the consumer from surge voltage, current and power line disturbance, and prevent the malfunction of the parking short circuit in the distribution panel. do.

1 is a schematic view of a conventional distribution board

2 is a schematic diagram of an electromagnetic wave distribution panel according to the present invention;

Figure 3 is an embodiment installed in the distribution board surge suppression apparatus according to the present invention

4 is a circuit diagram of an electromagnetic wave distribution panel of the present invention.

5 is a basic configuration of a surge suppression device according to the present invention.

[Description of Code for Major Code in Drawing]

1: parking breaker, 2: branch breaker, 3: surge breaker,

4: grounding terminal, 5: enclosure 6: trunk conductor

7: zinc oxide varistor, 8: condenser

1 is a schematic diagram of a conventional unit generation distribution panel composed of only a parking breaker 1 and a branch breaker 2.

In general, a power distribution board is installed between a lead wire and a load in the power consumer, and the distribution board functions to properly distribute and supply power to the secondary load, and at the same time, the power accident occurring at the secondary load spreads to other loads or external sources. It will be in charge of preventing it.

However, until now, loads connected to the secondary side of branch circuit breakers were not sensitive to surge voltage and current, and most of them did not cause much problem even if the power supply was temporarily stopped due to breaker malfunction. Therefore, in the related art, even if the distribution panel is constituted only by the parking breaker 1 and the branch breaker 2 as described above, there is no problem.

However, in recent years, most of the electrical, electronic and communication equipments used have low-power, high-density integrated circuits, so that not only fatal damages to low surge voltages and currents and malfunctions from power line disturbances are frequently caused, As they are used for value-added work, significant economic damage can be caused by temporary power outages.

FIG. 2 is a schematic diagram of an electromagnetic wave compatible distribution board incorporating a surge protection device (SPD) according to the present invention.

As shown in Fig. 2, in the distribution panel according to the present invention, a surge interruption device 3 is provided between the parking breaker 1 and the branch breaker 2 to protect the load and the breaker against surge voltage and current. . Here, the parking circuit breaker 1 may be a general circuit breaker or an earth leakage circuit breaker, and the circuit breaker 2 may be a general circuit breaker. In addition, the surge interrupting device 3 is shown as a configuration connected to the secondary side of the parking breaker 1, but may be installed on the primary side of the parking breaker 1 in structure. However, in the manufacturing process it is advantageous to install on the secondary side of the parking short.

3 shows an embodiment in which the surge interruption device 3 is installed in the distribution panel according to the present invention, and the parking breaker 1, the surge breaker 3, and the branch breaker 2 are installed from the left side. Although it can be shown, even if the branch circuit breaker (2) to increase to eight circuits, or change the position of each other does not affect the operation and effect.

In addition, the surge interruption device 3 of FIG. 3 not only enables to be standardized and installed in a unit generation distribution board used in Korea, but also looks at the appearance of the surge interrupter 3 in consideration of aesthetics. It is shown that it can be manufactured and installed in the same manner, but may also be installed without limiting the appearance of the surge blocking device 3 to the above embodiment.

Fig. 4 shows a circuit diagram of an electromagnetic wave distribution panel incorporating the surge interruption device of the present invention.

FIG. 4 is a diagram illustrating a connection relationship between components in the distribution panel, in which a plurality of surge interrupters 3 and branch breakers 2 are connected in parallel to the secondary side of the parking breaker 1. As mentioned above, in FIG. 4, the surge interrupter 3 is connected in parallel between the parking breaker 1 and the branch breaker 2, but the surge interrupter 3 is connected to 1 of the parking breaker 1. Parallel connection to the vehicle side is also possible. With such a configuration, it performs a function unique to a normal distribution panel. However, when a surge voltage and a current penetrate the primary side of a power supply system, that is, a parking circuit breaker, the surge voltage and current are controlled by the nonlinear resistance characteristic of the surge interrupter. By absorbing and suppressing, it is possible to prevent damages caused by surge voltage and current to the parking breaker on the secondary side as well as the branch breaker on the secondary side. In addition, for the power line disturbance wave, the LC electromagnetic wave filter is composed of the inductance of the trunk breaker primary side, that is, the inductance of the trunk conductor 6 and the condenser 8 in the surge interrupter, absorbs the power line interference wave and attenuates it. Let's do it. Here, the inductance obtained by the trunk conductor 6 in the distribution panel can be calculated as shown in Equation (1), and depends on the length and width of the trunk conductor 6 and thus depends on the number of branch circuits of the distribution panel.

5 shows the basic configuration of the surge suppression device used in the present invention. The surge suppressor of FIG. 5 is composed of three capacitors (8) and three zinc oxide varistors (7). It blocks the surge voltage and current invading between the line and the ground (LN, NG) and absorbs the power line disturbance wave. It is a configuration that can be done. Between the line (LN) and line-to-ground (NG), the response speed to surge voltage is fast and there is no problem of upstream, and the zinc oxide varistor (MOV) of the clamping element with the capacitance of several nF is used. It was.

As described above, the electromagnetic wave distribution panel according to the present invention performs a unique function of the distribution panel in normal times, and when the surge voltage and current invade, the surge voltage and current are cut off quickly to effectively prevent malfunction of the electrical, electronic and communication equipment. In addition, by installing a surge suppressor in the distribution panel that can absorb power line disturbances, it does not need to be installed separately in each electrical, electronic, or communication equipment, so it is very economical in terms of cost and is very easy to manufacture and install. It has a retarding effect. In addition, the electromagnetic wave distribution panel of the present invention satisfies the national standard KSC 0266 (surge resistance test) and the international standard IEC 61000-4-5 (SurgeImmunity Test) for the surge resistance test of electrical and electronic equipment.

Claims (1)

In the distribution panel for distributing and supplying power to customers, Parking breaker 1, a branch breaker 2 connected to the parking breaker 1 and the other side connected to the load, and a surge interruption device connected between the parking breaker 1 and the branch breaker 2 (3) is provided in one enclosure (5), and the surge interruption device (3) is formed by the LC filter configuration due to the inductance of the trunk conductor (6) in the distribution panel and the condenser (8) in the surge interruption device (3). An electromagnetic wave response distribution panel having a function of absorbing power line interference waves.