KR100988946B1 - Surge protection apparatus, protection apparatus for supplying power having the same - Google Patents

Abstract

PURPOSE: A surge protection apparatus and a protection apparatus for supplying power having the same are provided to prevent the failure of a watt-hour meter by absorbing surge from a power line and a load line. CONSTITUTION: A surge protection device comprises an input protection unit(400) and an output protection unit(500). The input protection unit includes a plurality of power protecting elements which are respectively connected with a plurality of input terminals and a plurality of power lines. The output protection unit is connected to the input protection unit. The output protection unit has a plurality of equipotential protection units(520,540) which are respectively connected with the power lines and the load lines.

Description

Surge protection device and power supply protection device including the same {SURGE PROTECTION APPARATUS, PROTECTION APPARATUS FOR SUPPLYING POWER HAVING THE SAME}

The present invention relates to a surge protection device, and in particular, the present invention relates to a surge protection device and a power supply protection device including the same.

Recently, the trend of high integration and automation of building and industrial equipment has led to the rapid increase in the installation of information and communication devices, including computers, central processing units (CPUs) and microprocessors, which are vulnerable to high voltages in information, communications, signal and video systems. The quality of power supply is very important.

In the modern social system, social demand for stable supply of electricity and qualitative information communication network is increasing due to advanced information, urban functionalization, and the use of electric energy.

The electricity meter, a necessary component for supplying power to information and communication devices, is damaged and destroyed due to transient current abnormalities such as lightning strikes and switching surges, and intrusion of surges. These surges are a common occurrence around us, and there are many types and characteristics, but there are no protection measures in the power supply system for consumers.

Lightning surges generated in the event of lightning strikes not only destroy electrical, electronic, and communication equipment, but also break down critical meters in the power supply system. When a fault occurs in the electricity meter, all information communication devices connected to the electricity meter do not receive power from the electricity meter. For example, livestock farms, poultry farms, and fish farms in farming and fishing villages can damage farming in the moment if they are not powered, and companies can lose money or stop providing services if they are not powered. . Accordingly, measures must be taken to protect the electricity meter, which is an essential component of the power supply system, from surges.

The present invention provides a surge protection device capable of protecting a wattmeter from a surge and a power supply protection device including the same.

In addition, the present invention is to provide a surge protection device that can protect the input terminal and the output terminal of the electricity meter at the same time, and a power supply protection device including the same.

According to one aspect of the invention, there is provided a surge protection device of a wattmeter.

According to an embodiment of the present invention, a surge protection device of a wattmeter, comprising: an input protection unit connected to a plurality of input terminals included in the wattmeter; And an output protection unit connected to the plurality of output terminals included in the electricity meter and connected to the input protection unit, the output protection unit including a plurality of equipotential protection units connected to each of the plurality of power supply lines and the load lines connected to the electricity meter. A surge protection device is provided.

Here, the input protection unit includes a plurality of power supply side protection elements connected to each of the plurality of input terminals and the plurality of power supply lines.

The input protection unit further includes an input side protection element connected to the plurality of power supply lines.

The input protection unit further includes a ground side protection element connected to the plurality of surge protection elements and a ground line connected to the electricity meter.

In this case, when the surge flows into at least one of the power line and the load line, the input protection unit absorbs the surge using a circuit element, wherein the circuit element includes at least one of a power side protection element, an input side protection element, and a ground side protection element. It includes one.

The circuit device may be a varistor device.

Meanwhile, the equipotential protection part includes a surge protection element.

Here, when the surge is introduced into at least one of the power line and the load line, the equipotential protection part absorbs the surge by using the surge protection element.

In this case, the surge protection device may be at least one of a Gate Control Arrestor (GCA) and a Gas Discharge Tube (GDT).

And according to one aspect of the present invention, a power supply protection device is provided.

According to an embodiment of the present invention, a power supply protection device comprising: a power meter for receiving power from a plurality of power lines connected to each of a plurality of input terminals and outputting power to a plurality of load lines connected to each of the plurality of output terminals; And a surge protection device including an input protection unit connected to the power supply line and a plurality of equipotential protections connected to the input protection unit and connected to each of the plurality of power supply lines and the load line. A protective device is provided.

Here, the input protection unit includes a circuit element, wherein the circuit element includes a plurality of power side protection elements connected to each of the plurality of power lines.

The circuit element further includes an input side protection element positioned between the first power line and the second power line of the power line.

The power supply protection device further includes a neutral line and a ground line connected to the electricity meter.

The circuit element further includes a ground side protection element, wherein one side of the ground side protection element is connected to the plurality of power side protection elements and the neutral line, and the other side of the ground side protection element is connected to the ground line. do.

On the other hand, the power supply protection device of the surge protection element included in the circuit element of the input protection unit and the output protection unit when a surge flows into at least one of the power line, the load line, the neutral line and the ground line. At least one is used to absorb the surge.

The power supply protection device absorbs the surge by using the circuit element of the input protection unit when a surge is introduced between the power lines.

The power supply protection device absorbs the surge by using the surge protection element of the output protection unit and the circuit element of the input protection unit when a surge flows between the load lines.

That is, the electric power supply protection device may include the surge protection element of the equipotential protection part connected to the first load line and the input protection unit when a surge flows between the first load line and the second load line among the plurality of load lines. The surge is absorbed by using the surge protection element of the equipotential protection portion connected to the circuit element and the second load line.

The power supply protection device absorbs the surge using a surge protection element of the output protection unit when a surge flows between the power supply line and the load line.

The power supply protection device absorbs the surge by using the surge protection element of the equipotential protection part connected to the load line and the circuit element of the input protection unit when a surge flows between the power line and the load line.

On the other hand, the power supply protection device absorbs the surge by using a circuit element of the input protection unit when a surge flows between the neutral line or the ground line and the power line.

The power supply protection device absorbs the surge by using a circuit element of the input protection unit when a surge flows between the neutral line and the ground line.

The power supply protection device absorbs the surge by using the circuit element of the input protection unit and the surge protection element of the output protection unit when a surge flows between the neutral line or the ground line and the load line.

The surge protection device and the power supply protection device including the same according to the present invention have an effect of protecting the electricity meter from a surge.

In addition, the surge protection device and the power supply protection device including the same according to the present invention has the effect of simultaneously protecting the input terminal and the output terminal of the electricity meter.

In addition, the surge protection device and the power supply protection device including the same according to the present invention have an effect that can be easily manufactured.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, an embodiment of a surge protection device and a power supply protection device including the same according to the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components are the same. The reference numerals will be given and overlapping description thereof will be omitted.

Referring to FIG. 1, the power supply protection device 100 includes a power meter 200 and a surge protection device 300.

The electricity meter 200 is a device which is generally attached to a wall or mounted with a breaker in a power distribution box to measure and record the total amount of power used for a certain period of time. The electricity meter 200 is connected to the power line 110 and the load line 150. At this time, the power line 110 is connected to the power supply device and the load line 150 is connected to the customer. When the electricity meter 200 receives power through the power line 110 from the power supply device, the electricity meter 200 supplies power to the customer through the load line 150. The electricity meter 200 may be a single-phase electricity meter or a three-phase electricity meter according to the wire type.

The surge protection device 300 is connected to the electricity meter 200 and protects the electricity meter 200 from the surge when a surge is introduced. To this end, the surge protection device 300 includes an input protection unit 400 and an output protection unit 500. The input protection unit 400 is connected to the power line 110 and the electricity meter 200 and absorbs the surge when the surge is introduced into at least one of the power line and the load line 150. The output protection unit 500 is connected to the load line 150 and the electricity meter 200 and absorbs the surge when a surge flows into at least one of the power line and the load line 150. Therefore, the surge protection device 300 may absorb the surge when the surge is introduced through the power line and the load line 150 to prevent the power meter 200 from failing due to the surge.

2 is a circuit diagram illustrating a power supply protection device including a single phase electricity meter according to an embodiment of the present invention.

Referring to FIG. 2, the power supply protection device 100 includes a single phase electricity meter 230 and a surge protection device 300.

The single phase electricity meter 230 is used when the wire type is a single phase three wire type. The single phase electricity meter 230 is connected to the power line 110 through the input terminal 240 and is connected to the load line 150 through the output terminal 250. That is, the single phase electricity meter 230 is connected to the first power line 120 through the first input terminal 243 and to the second power line 130 through the second input terminal 245. The single phase electricity meter 230 is connected to the first load line 160 through the first output terminal 253 and the second load line 170 through the second output terminal 255.

The surge protection device 300 is connected to the single-phase power meter 230, the power supply line 110, and the load line 150. The surge protection device 300 includes an input protection unit 400 and an output protection unit 500.

The input protection unit 400 is positioned between the first power line 120 connected to the first input terminal 243 and the second power line 130 connected to the second input terminal 245 and the first power line 120. ) And the second power supply line 130. The input protection unit 400 is connected to the output protection unit 500. The input protection unit 400 includes circuit elements to absorb surges introduced into at least one of the power line 110 and the load line 150. The circuit device may be a varistor device. The input protection unit 400 will be described in detail with reference to FIG. 3.

The output protection unit 500 is connected to the first load line 160 connected to the first output terminal 253 and the second load line 170 connected to the second output terminal 255. The output protection unit 500 is connected with the input protection unit 400. The output protection unit 500 includes a first equipotential protection unit 520 and a second equipotential protection unit 540.

One side of the first equipotential protection unit 520 is connected to the first power line 120, and the other side is connected to the first load line 160. The first equipotential protection unit 520 is connected to the input protection unit 400 through the first power line 120. One side of the second equipotential protection unit 540 is connected to the second power line 130, and the other side is connected to the second load line 170 and the input protection unit 400.

The first equipotential protection part 520 and the second equipotential protection part 540 include a surge protection element. In this case, the surge protection device may be at least one of a Gate Control Arrestor (GCA) and a Gas Discharge Tube (GDT).

3 is a circuit diagram showing in detail the input protection unit shown in FIG.

Referring to FIG. 3, the input protection unit 400 protects power when a surge is introduced and absorbs only a surge component. To this end, the input protection unit 400 includes a power supply side protection element 410 and an input side protection element 450.

The power side protection element 410 is connected to the power line 110 and includes a first power side protection element 420 and a second power side protection element 430. The first power side protection element 420 and the second power side protection element 430 are connected in parallel. One side of the first power supply protection element 420 is connected to the first power supply line 120, and the other side of the first power supply protection element 420 is connected to the ground line 135. One side of the second power source protection element 430 is connected to the second power line 130, and the other side of the second power line 130 is connected to the ground line 135. Accordingly, the input protection unit 400 may implement a grounding method using the power supply side protection element 410.

The input side protection element 450 is connected to the first power line 120 and the second power line 130 and is positioned between the first power line 120 and the second power line 130.

4 is a circuit diagram showing a movement path of a surge in the power supply protection device shown in FIG. 2.

Referring to FIG. 4, the power supply protection device 100 absorbs the surge by using the input protection unit 400 when a surge flows in between the power line 110. That is, the surge moves from the first power supply line 120 to the input protection unit 400 and from the input protection unit 400 to the second power supply line 130 as shown by reference numeral 111. Accordingly, since the surge introduced between the power line 110 is absorbed by the circuit element of the input protection unit 400, the potential difference between the first input terminal 243 and the second input terminal 245 is lowered.

The power supply protection device 100 absorbs the surge using the output protection unit 500 and the input protection unit 400 when a surge flows between the load lines 150. For example, the surge moves from the first load line 160 to the first equipotential protection unit 520 and from the first equipotential protection unit 520 to the input protection unit 400 as shown by reference numeral 113. Move to the equipotential protection part 540. Accordingly, the surge introduced between the load lines 150 is caused by the surge protection device of the first equipotential protection part 520, the circuit device of the input protection unit 400, and the surge protection device of the second equipotential protection part 540. Because of the absorption, the potential difference between the first output terminal 253 and the second output terminal 255 may be lowered.

The power supply protection device 100 absorbs the surge using the output protection unit 500 when a surge flows between the power supply line 110 and the load line 150. In other words, the surge moves from the first power line 120 to the first equipotential protection unit 520 and the first load line 160 as shown by reference numeral 115. Surge introduced between the first power supply line 120 and the first load line 160 is absorbed by the surge protection element of the first equipotential protection part 520, and thus, the first input terminal 243 and the first output terminal 253. ), The potential difference between them becomes low. Since the surge moves to the second equipotential protection part 540 and the second load line 170 on the second power supply line 130 as shown by reference numeral 117, the surge is prevented by the surge protection element of the second equipotential protection part 540. Is absorbed. Accordingly, the potential difference between the second input terminal 245 and the second output terminal 255 of the single phase electricity meter 230 becomes low.

On the other hand, the power supply protection device 100 absorbs the surge using the input protection unit 400 and the output protection unit 500 when a surge flows between the power supply line 110 and the load line 150. That is, the surge moves from the first power supply line 120 to the input protection unit 400, the second equipotential protection unit 540, and the second load line 170 as shown by reference numeral 119. Surge introduced between the first power supply line 120 and the second load line 170 is absorbed by the circuit element of the input protection unit 400 and the surge protection element of the second equipotential protection part 540 and the first input terminal. The potential difference between the 243 and the second output terminal 255 may be lowered. In addition, the surge moves from the second power supply line 130 to the input protection unit 400, the first equipotential protection unit 520, and the first load line 160 as shown by reference numeral 121. The surge introduced between the second power supply line 130 and the first load line 160 is absorbed by the circuit protection element of the input protection unit 400 and the surge protection element of the first equipotential protection part 520. The potential difference between the input terminal 245 and the first output terminal 253 may be lowered.

5 is a circuit diagram showing a power supply protection device including a three-phase electricity meter according to another embodiment of the present invention.

Referring to FIG. 5, the power supply protection device 100 includes a three-phase power meter 270 and a surge protection device 300.

The three-phase electricity meter 270 is used when the wire type is three-phase three-wire or three-phase four-wire. Here, the case where the wire is a three-phase four-wire system will be described as an example.

Three-phase power meter 270 includes an input terminal 240 and an output terminal 250. The input terminal 240 includes the first input terminal 243 to the third input terminal 247, and the output terminal 250 includes the first output terminal 253 to the third output terminal 257. The three-phase electricity meter 270 is connected to the power line 110 through the input terminal 240 and is connected to the load line 150 through the output terminal 250. Specifically, the three-phase electricity meter 270 is connected to the first power line 120 through the first input terminal 243, and is connected to the second power line 130 through the second input terminal 245, and is connected to the third input. The terminal 247 is connected to the third power line 140. The three-phase power meter 270 is connected to the first load line 160 through the first output terminal 253, and is connected to the second load line 170 through the second output terminal 255 and the third output terminal 257. It is connected to the third load line 180 through). In addition, the three-phase power meter 270 is connected to the neutral lines 145 and 147 (hereinafter collectively referred to as 145).

The surge protection device 300 is connected to the three-phase power meter 270 and is connected to the power supply line 110, the load line 150, the neutral line 145, and the ground line 135. The surge protection device 300 includes an input protection unit 400 and an output protection unit 500.

The input protection unit 400 is connected to the power supply line 110 and is connected to the output protection unit 500. The input protection unit 400 includes a circuit element. The circuit element includes a power supply side protection element 410 and a ground side protection element 460 and may be a varistor.

The power supply side protection element 410 includes first power supply protection elements 420 to third power supply protection element 440. The first power side protection element 420 to the third power side protection element 440 are connected in parallel. The first power supply side protection element 420 is connected to the first power line 120 and is connected to the first load line 160 through the first equipotential protection unit 520. The second power supply side protection element 430 is connected to the second power line 130 and is connected to the second load line 170 through the second equipotential protection unit 540. The third power supply side protection element 440 is connected to the third power line 140 and is connected to the third load line 180 through the third equipotential protection unit 560.

The ground side protection element 460 is connected to the input protection unit 400, the neutral line 145, and the ground line 135. That is, one side of the ground side protection element 460 is connected to the power supply side protection element 410 and the neutral line 145, and the other side of the ground side protection element 460 is connected to the ground line 135. Therefore, the input protection unit 400 may implement a grounding method using the ground side protection element 460.

The output protection unit 500 is connected to the input protection unit 400, the first load line 160 connected to the first output terminal 253, the second load line 170 connected to the second output terminal 255, and The third load line 180 is connected to the third output terminal 257. The output protection unit 500 includes the first equipotential protection unit 520 to the third equipotential protection unit 560. Each of the first equipotential protection unit 520 to the third equipotential protection unit 560 includes a surge protection device made of a gate control discharge tube or a gas-filled discharge tube. Since the surge protection device has less residual power than the circuit device, the surge protection device can absorb the surge even when a large surge is introduced.

One side of the first equipotential protection unit 520 is connected to the first power line 120, and the other side of the first equipotential protection unit 520 is connected to the first load line 160. The first equipotential protection part 520 is connected to the first power supply side protection element 420 of the input protection unit 400. One side of the second equipotential protection unit 540 is connected to the second power line 130, and the other side of the second equipotential protection unit 540 is connected to the second load line 170. The second equipotential protection unit 540 is connected to the second power supply side protection element 430 of the input protection unit 400. One side of the third equipotential protection unit 560 is connected to the third power supply line 140, and the other side of the third equipotential protection unit 560 is connected to the third load line 180. The third equipotential protection part 560 is connected to the third power supply side protection element 440 of the input protection unit 400.

6 to 9 are circuit diagrams showing a movement path of a surge in the power supply protection device shown in FIG.

Referring to FIG. 6, when the surge is introduced between the neutral line 145 and the ground line 135, the power supply protection device 100 absorbs the surge using the input protection unit 400. That is, the surge introduced between the neutral line 145 and the ground line 135 moves from the neutral line 145 to the ground side protection element 460 and the ground line 135 of the input protection unit 400 and protects the ground side. Absorbed by element 460.

The power supply protection device 100 absorbs the surge by using the input protection unit 400 when a surge flows in between the power line 110. In detail, the surge introduced between the first power line 120 and the second power line 130 is the first power side protection element 420 of the input protection unit 400 in the first power line 120 as shown by reference numeral 131. ) Is absorbed by the first power supply side protection element 420 and the second power supply side protection element 430 while moving to the second power supply side protection element 430 and the second power supply line 130. Surge introduced between the first power line 120 and the third power line 140 is the first power side protection element 420, the first power side of the input protection unit 400 in the first power line 120, as shown by reference numeral 133 The first power supply side protection element 440 and the third power supply side protection element 440 are absorbed while moving to the third power supply side protection element 440 and the third power supply line 140. Surge introduced between the second power supply line 130 and the third power supply line 140 may include the second power supply side protection element 430 of the input protection unit 400 and the second power supply line 130 in the second power supply line 130 as shown by reference numeral 135. While absorbed by the third power supply side protection element 440 and the third power supply line 140, they are absorbed by the second power supply protection element 430 and the third power supply protection element 440.

When the surge is introduced between the power line 110 and the neutral line 145, the power supply protection device 100 absorbs the surge using the input protection unit 400. In other words, the surge introduced between the first power line 120 and the neutral line 145 is the first power side protection element 420 of the input protection unit 400 in the first power line 120, as shown by reference numeral 137, It is absorbed by the first power supply side protection element 420 while moving to the neutral line 145. The surge introduced between the second power line 130 and the neutral line 145 is connected to the second power line protection element 430 and the neutral line of the input protection unit 400 on the second power line 130 as shown by reference numeral 139. It is absorbed by the second power supply side protection element 430 while moving to 145. In addition, the surge introduced between the third power line 140 and the neutral line 145 is the third power supply side protection element 440 and the neutral of the input protection unit 400 in the third power line 140 as shown by reference numeral 141. It is absorbed by the third power supply side protection element 440 while moving to the line 145.

When the surge is introduced between the load line 150 and the ground line 135, the power supply protection device 100 absorbs the surge using the output protection unit 500 and the input protection unit 400. That is, the surge introduced between the first load line 160 and the ground line 135 is applied to the first equipotential protection part 520 and the input protection unit 400 in the first load line 160 as shown by reference numeral 143. The surge protection element of the first equipotential protection part 520, the first power side protection element 420, and the ground side protection while moving to the first power supply side protection element 420, the ground side protection element 460, and the ground line 135. Absorbed by element 460. In addition, the surge introduced between the second load line 170 and the ground line 135 is formed by the second equipotential protection part 540 and the input protection unit 400 in the second load line 170 as shown by reference numeral 145. The surge protection element of the second equipotential protection part 540, the second power side protection element 430, and the ground side protection element while moving to the second power side protection element 430, the ground side protection element 460, and the ground line 135; 460 is absorbed. The surge introduced between the third load line 180 and the ground line 135 is the third power supply side of the third equipotential protection part 560 and the input protection unit 400 on the third load line 180 as shown by reference numeral 147. The surge protection element of the third equipotential protection part 560, the third power supply side protection element 440, and the ground side protection element 460 while moving to the protection element 440, the ground side protection element 460, and the ground line 135. Is absorbed by

Referring to FIG. 7, when the surge is introduced between the load lines 150, the power supply protection device 100 absorbs the surge by using the output protection unit 500 and the input protection unit 400. Specifically, the surge introduced between the first load line 160 and the second load line 170 is the first equipotential protection unit 520 and the input protection unit 400 in the first load line 160 as shown by reference numeral 149. The first equipotential protection unit 520 and the second equipotential protection unit 540 while moving to the first power supply side protection unit, the second power supply side protection unit, the second equipotential protection unit 540, and the second load line 170. ) Is absorbed by the surge protection element, the first power supply side protection element 420, and the second power supply protection element 430. In addition, the surge introduced between the first load line 160 and the third load line 180 is the first equipotential protection unit 520 and the input protection unit 400 in the first load line 160 as shown by reference numeral 151. The first equipotential protection unit 520 and the third equipotential protection unit 560 while moving to the first power supply side protection unit, the third power supply side protection unit, the third equipotential protection unit 560, and the third load line 180. Is absorbed by the surge protection element and the circuit element of the input protection unit 400. Surge introduced between the second load line 170 and the third load line 180 may be applied to the second equipotential protection part 540 and the input protection unit 400 at the second load line 170 as shown by reference numeral 153. The surge of the second equipotential protection part 540 and the third equipotential protection part 560 while moving to the second power supply side protection unit, the third power supply side protection unit, the third equipotential protection part 560 and the third load line 180. It is absorbed by the protection element, the 2nd power supply side protection element 430, and the 3rd power supply side protection element 440. As shown in FIG.

When the surge is introduced between the load line 150 and the neutral line 145, the power supply protection device 100 absorbs the surge by using the output protection unit 500 and the input protection unit 400. That is, the surge introduced between each of the first load line 160 to the third load line 180 and the neutral line 145 is the first load line 160 to the third load line as shown by reference numerals 155, 157, and 159. Each of the first and second equipotential protection parts 520 to 3rd equipotential protection part 560 moves from each of the first and second equipotential protection parts 520 to 560, respectively. It moves to the neutral line 145 through each of the first power side protection element 420 to the third power side protection element 440 of 400. Accordingly, the surge introduced between each of the first load line 160 to the third load line 180 and the neutral line 145 is a surge of each of the first and third equipotential protection parts 520 and 560. It is absorbed by each of the first power supply side protection device 420 to the third power supply protection device 440 of the protection device and the input protection unit 400.

Referring to FIG. 8, the power supply protection device 100 absorbs the surge using the input protection unit 400 when a surge flows between the power supply line 110 and the ground line 135. In other words, the surge introduced between each of the first power line 120 to the third power line 140 and the ground line 135 is protected by the first power side of the input protection unit 400 as shown by reference numbers 161, 163, and 165. It is moved to each of the unit to the third power source side protection unit, and is absorbed by the circuit element of the input protection unit 400 while moving to the ground line 135 in each of the first power source side protection unit to the third power source side protection unit.

The power supply protection device 100 absorbs the surge using the output protection unit 500 when a surge flows between the power supply line 110 and the load line 150. In detail, the surge introduced between the first power line 120 and the first load line 160 is transmitted through the first equipotential protection unit 520 in the first power line 120 as shown by reference numeral 167. As it moves to 160, it is absorbed by the surge protection element of the first equipotential protection part 520. In addition, the surge introduced between the second power line 130 and the second load line 170 is the second equipotential protection part 540 and the second load line 170 in the second power line 130 as shown by reference numeral 169. Is absorbed by the surge protection element of the second equipotential protection part 540. Surge introduced between the third power line 140 and the third load line 180 is transferred to the third load line 180 through the third equipotential protection part 560 in the third power line 140 as shown by reference numeral 171. Is absorbed by the surge protection element of the third equipotential protection part 560 while moving to.

Referring to FIG. 9, when the surge is introduced between the power line 110 and the load line 150, the power supply protection device 100 absorbs the surge by using the output protection unit 500 and the input protection unit 400. do. That is, the surge introduced between the first power line 120 and the second load line 170 is the first power side protection element 420 of the input protection unit 400 in the first power line 120 as shown by reference numeral 173. The first power supply side protection device 420, the second power supply protection device 430, and the second power supply side protection device 430 and the second equipotential protection part 540 move to the second load line 170. Surge is absorbed by the surge protection element of the equipotential protection part 540. Surge introduced between the first power supply line 120 and the third load line 180 may include a first power supply side protection element 420 and a third power supply protection element 420 of the input protection unit 400 in the first power supply line 120. 440, the surge is absorbed by the circuit element of the input protection unit 400 and the surge protection element of the third equipotential protection part 560 while moving to the third equipotential protection part 560 and the third load line 180. .

In addition, surges introduced into the second power line 130, the first load line 160, and the third load line 180, respectively, are input protection units (eg, reference numerals 179 and 181) in the second power line 130. The first equipotential protection part 520 is moved to the second power supply protection element 430 of the second power supply protection element 430 through the first power supply protection element 420 and the third power supply protection element 440, respectively. ) And the third equipotential protection part 560, respectively, and each of the first load line 160 and the third load line 180 in the first equipotential protection part 520 and the third equipotential protection part 560, respectively. While being absorbed by the circuit elements of the input protection unit 400 and the surge protection elements of the output protection unit 500.

In addition, the surge introduced between the third power line 140 and the first load line 160 is the third power supply side protection element 440 of the input protection unit 400 in the third power line 140 as shown by reference numeral 181. The third power supply side protection device 440, the first power supply protection device 420, and the first power supply side protection device 420 and the first equipotential protection part 520 move to the first load line 160 while moving. It is absorbed by the surge protection element of the equipotential protection part 520. Surge introduced between the third power supply line 140 and the second load line 170 is connected to the third power supply line 140 by the third power supply side protection element 440 and the second power supply protection element 430 as shown by reference numeral 183. And absorbed by the circuit element of the input protection unit 400 and the surge protection element of the second equipotential protection part 540 while moving to the second load line 170 through the second equipotential protection part 540.

Accordingly, the power supply protection device 100 according to the present invention, if a surge flows through at least one of the power line 110, the load line 150, the neutral line 145, and the ground line 135, the input protection unit. Since the surge is absorbed through the circuit element 400 and the surge protection element of the output protection unit 300, the wattmeter 200 may be protected from the surge.

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 as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

1 is a circuit diagram schematically showing a power supply protection device according to an embodiment of the present invention.

2 is a circuit diagram illustrating a power supply protection device including a single phase electricity meter according to an embodiment of the present invention.

3 is a circuit diagram showing in detail the input protection unit shown in FIG.

4 is a circuit diagram showing a movement path of a surge in the power supply protection device shown in FIG. 2.

5 is a circuit diagram showing a power supply protection device including a three-phase electricity meter according to another embodiment of the present invention.

6 to 9 are circuit diagrams showing a movement path of a surge in the power supply protection device shown in FIG.

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

100: power supply protection device

110: power line

150: protection line

200: power meter

240: input terminal

250: output terminal

300: Surge Protection Device

400: input protection unit

410: power supply protection element

450: input side protection element

460 grounding protection element

500: output protection unit

520, 540, 560: equipotential protection

Claims (23)

In the surge protection device of the electricity meter, An input protection unit including a plurality of input terminals and a plurality of power supply side protection elements connected to each of the plurality of power supply lines included in the electricity meter; And And an output protection unit connected to the plurality of output terminals included in the electricity meter and connected to the input protection unit, the output protection unit including a plurality of equipotential protection units connected to each of a plurality of power supply lines and load lines connected to the electricity meter. Surge protection device. delete The method of claim 1, The input protection unit, And an input side protection element connected to the plurality of power lines. The method of claim 1, The input protection unit, And a ground side protection element connected to a plurality of surge protection elements and a ground line connected to the electricity meter. The method of claim 1, The input protection unit absorbs the surge by using a circuit element when a surge flows into at least one of the power line and the load line, And the circuit element comprises at least one of a power supply side protection element, an input side protection element and a ground side protection element. The method of claim 5, The circuit element is a surge protection device, characterized in that the varistor (Varistor) element. The method of claim 1, The equipotential protection part is a surge protection device comprising a surge protection element. The method of claim 7, wherein The equipotential protection part, And when the surge flows into at least one of the power line and the load line, the surge protection device absorbs the surge using the surge protection element. The method of claim 7, wherein The surge protection device is at least one of a gate control discharge tube (GCA) and a gas discharge tube (GDT). Power supply protection device, A power meter for receiving power from a plurality of power lines connected to each of the plurality of input terminals and outputting power to a plurality of load lines connected to each of the plurality of output terminals; And And a surge protection device including an input protection unit connected to the power supply line and a plurality of equipotential protections connected to the input protection unit and connected to each of the plurality of power supply lines and the load line. Device. The method of claim 10, The input protection unit includes a circuit element, And the circuit element includes a plurality of power supply side protection elements connected to each of the plurality of power supply lines. The method of claim 11, The circuit element, And an input side protection element positioned between the first power supply line and the second power supply line of the power supply line. The method of claim 11, The power supply protection device further comprises a neutral line and a ground line connected to the electricity meter. The method of claim 13, The circuit element further comprises a ground side protection element, One side of the ground side protection element is connected to the plurality of power side protection elements and the neutral line, the other side of the ground side protection element is a power supply protection device, characterized in that connected to the ground line. The method of claim 13, When a surge flows into at least one of the power line, the load line, the neutral line, and the ground line, the surge is absorbed by using at least one of the circuit element of the input protection unit and the surge protection element included in the output protection unit. Power supply protection device characterized in that. The method of claim 15, And when the surge flows between the power lines, absorbing the surge by using the circuit element of the input protection unit. The method of claim 15, And when the surge flows between the load lines, absorbing the surge by using the surge protection element of the output protection unit and the circuit element of the input protection unit. The method of claim 17, When a surge flows between a first load line and a second load line of the plurality of load lines, the surge protection element of the equipotential protection part connected to the first load line, the circuit element of the input protection unit, and the second load The power supply protection apparatus characterized by absorbing the surge using the surge protection element of the equipotential protection portion connected to the line. The method of claim 15, And a surge is introduced between the power supply line and the load line to absorb the surge using a surge protection element of the output protection unit. The method of claim 15, And a surge is introduced between the power supply line and the load line to absorb the surge by using a circuit element of the input protection unit and a surge protection element of the equipotential protection part connected to the load line. The method of claim 15, And a surge is introduced between the neutral line or the ground line and the power line to absorb the surge by using a circuit element of the input protection unit. The method of claim 15, And a surge is introduced between the neutral line and the ground line to absorb the surge by using a circuit element of the input protection unit. The method of claim 15, And a surge is introduced between the neutral line or the ground line and the load line to absorb the surge by using a circuit element of the input protection unit and a surge protection element of the output protection unit.

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