KR102513076B1 - A Surge Protector - Google Patents

Abstract

The present invention relates to surge protectors. The surge protector includes a variable resistance block 11 including at least one variable resistance element; a reactance block 12 connected to the variable resistance block 11 and including at least one inductor; and a capacitance block 13 connected to the reactance block 12.

Description

Surge Protector{A Surge Protector}

The present invention relates to a surge protector, and relates to a surge protector capable of protecting electrical devices from various types of surge voltages generated in electrical devices.

Surge voltage refers to rapid waveform changes in electric circuits in which voltage spikes, current spikes, or energy spikes occur at high speed and for a very short time. When such a surge voltage is generated and flows into an electrical device, it may damage the electrical device itself or cause a malfunction, so various types of surge protectors that protect electronic devices with the surge voltage are used. SPD can be made of non-linear elements such as varistors (Metal Oxide Varistor), gas tubes (Gas Discharge Tubes), diodes (Avalanche Breakdown Diode) or thyristors (Thyristor Surge Suppressor), and various types of surge protectors made of such electrical elements are known in the art. Patent Registration No. 10-2197810 discloses a circuit module for surge protection and afterglow removal and a lighting device having the same. Also, Patent Publication No. 10-2007-0078465 discloses a surge protection circuit. The surge voltage may be generated from various external or internal causes, and may have various durations depending on the occurrence situation. A surge protector needs to have a structure capable of suppressing such various types of surge voltages and at the same time protecting the surge protector itself. However, the prior art does not disclose a surge protector having such a structure.

The present invention is to solve the problems of the prior art and has the following object.

Prior Art 1: Patent Registration No. 10-2197810 (HB Lighting Co., Ltd., 2021.01.0.4. Announcement) Circuit module for surge protection and afterglow removal and LED lighting device having the same Prior Art 2: Patent Publication No. 10-2007-0078465 (LCK Electronics Co., Ltd., published on August 1, 2007) Surge protection circuit

An object of the present invention is to provide a surge protector capable of effectively suppressing surge voltages generated from various causes by means of a reactance block and a capacitance block.

According to a preferred embodiment of the present invention, a surge protector includes a variable resistance block including at least one variable resistance element; a reactance block connected to the variable resistance block and including at least one inductor; and a capacitance block connected to the reactance block.

According to another preferred embodiment of the present invention, the variable resistance block includes first and second varistors connected in series with each other and a third varistor connected in parallel with the first and second varistors, and the third varistor is connected to two inductors.

According to another preferred embodiment of the present invention, the first insulator element connected to the input side and the second and third insulator elements connected to the reactance block are further included.

In the surge protector according to the present invention, the variable resistance module and the reactance module are connected in parallel so that the inflow of surge voltage or surge current generated from various causes is appropriately time-delayed so that the inflow of surge is effectively suppressed. The surge protector according to the present invention may be applied to industrial lighting devices or similar electrical devices, but is not limited thereto.

1 shows an embodiment of a surge protector according to the present invention.
2 shows an embodiment of a circuit structure for a surge protector according to the present invention.
3 shows an embodiment to which the surge protector according to the present invention is applied.

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so repeated descriptions are not made unless necessary for understanding the invention, and well-known components are briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment of.

1 shows an embodiment of a surge protector according to the present invention.

Referring to FIG. 1 , the surge protector includes a variable resistance block 11 including at least one variable resistance element; a reactance block 12 connected to the variable resistance block 11 and including at least one inductor; and a capacitance block 13 connected to the reactance block 12.

Power may be supplied from the input side (IN), and a surge voltage may be introduced. The surge voltage (Surge Spike) may be an inflow of transient voltage, transient current, or excessive electric energy for a short time out of the permissible range, and the surge voltage may be introduced into the input side (IN). A surge voltage introduced through the input side IN may be suppressed by the variable resistance block 11 . The variable resistance block 11 includes, for example, a non-linear resistance element such as a voltage dependent resistor varistor. The variable resistance block 11 may have a voltage dependent characteristic, and for example, a resistance value may increase when the voltage is low and a resistance value may decrease when the voltage is high. The variable resistance block 11 needs to exhibit a fast response to a surge voltage, and may include a zinc oxide (ZnO) resistance element for this purpose. The variable resistance block 11 has a function of stabilizing the voltage while suppressing interference pulses or overvoltage pulses. The reactance block 12 may be electrically connected to the variable resistance block 11 . The reactance block 12 may include at least one inductor in the form of a coil, and may be connected in series or in parallel with the variable resistance block 11 . The reactance block 12 may have a function of suppressing the flow of transient current due to the inflow of a surge voltage. Also, the reactance block 12 may have a function of blocking high frequency pulses. A capacitance block 13 may be connected to the reactance block 12 as described above. The capacitance block 13 may include at least one capacitor or condenser, and may have a function of stabilizing a voltage while delaying the introduction of a transient current. In addition, the capacitance block 13 may have a function of limiting low-frequency pulses. In this way, current and low-frequency pulses are limited so that the surge voltage is effectively suppressed and transmitted to the electric device through the output side (OUT) can be blocked or suppressed. Below, each block having such a structure will be described in detail below.

2 shows an embodiment of a circuit structure for a surge protector according to the present invention.

Referring to FIG. 2 , the variable resistance block 11 includes first and second varistors 221 and 222 connected in series with each other and a third varistor 223 connected in parallel with the first and second varistors 221 and 222 . and the third varistor 223 is connected to the two inductors 241 and 242.

The input terminal may consist of a line line (L), a ground line (G), and a neutral line (N), and an output terminal connected to an electric device may also have a line line (L1), a ground line (G1), and a neutral line. (N1). The first and second varistors 221 and 222 and the third varistor 223 may be connected in parallel to each other. The first, second or third varistors 221, 222 or 223 may be metal oxide varistors, clamping voltage: 600 to 800 V, peak surge current: 4.0 to 6.0 kA, surge energy: 80 to 800 V. 120 and capacitance of 450 to 600 pF, but may be adjusted in various ways according to the application, but is not limited thereto. The first and second varistors 221 and 222 may be connected to the line line L and the neutral line N while being connected in series. In addition, a ground line G may be connected between the first and second varistors 221 and 222, and a first insulator (insulator) between the ground line G and the first and second varistors 221 and 222 ( 21) can be connected. The first insulator element 21 may have a rated voltage of 300 to 1,000 V, for example. A second insulator element 23 having a rated voltage of 200 to 500 V while the third varistor 223 connects the line line L and the neutral line N in parallel with the first and second varistors 221 and 222 can be connected in series with A first inductor 241 having an inductance of 0.5 to 3 mH while being connected in parallel to a third insulator element 251 having a rated voltage of 500 to 1,500 V is connected to the third varistor 223, with the same rating The second inductor 242 having the same voltage and inductance may be protected by the fourth insulator element 252 while being connected to the other terminal of the third varistor 223 or the second insulator element 23 . As shown in FIG. 2 , the first and second inductors 241 and 242 protected by the third and fourth insulator elements 251 and 252 may be connected in parallel to both terminals of the capacitance block, respectively. The capacitance block may include first, second, and third capacitors 261, 262, and 263, and the second and third capacitors 262 and 263 are connected in series to each other and a Y capacitor having a capacitance of 0.001 to 1.0 μF. It can be. The first capacitor 261 may be an X capacitor having a capacitance of 0.1 to 5.0 μF and may be connected in series with the second and third capacitors 262 and 263. Both terminals of the second and third capacitors 262 and 263 are connected to the output line line L1 and the output neutral line N1, respectively, and the output ground line G1 is connected to the second and third capacitors 262 and 263. can be connected between them. In this structure, the input-side ground line (G) and the output-side ground line (G1) can be short-circuited, and specifically, the input-side ground line (G) is connected between the second and third capacitors (262, 263). can Below, an embodiment to which a surge protector having such a circuit structure is applied will be described.

3 shows an embodiment to which the surge protector according to the present invention is applied.

Referring to FIG. 3 , the surge protector may be installed inside a box-shaped surge protection box C, and the surge protection box C may have a closed structure in which a lid can be opened and closed. A first line line (L1), a first neutral line (N1) and a first ground line (G1) protected by the cable sheath (S1) are connected to the power supply source (PS) to form a second line line (L2), Power may be supplied to the electric device ED through the double wire line N2 and the second ground line G2. The electric device ED may be, for example, industrial lighting or similar various electric energy consuming devices, and the present invention is not limited thereto. In a normal state in which no surge voltage is generated, the electric device ED may be directly connected to the power supply source PS through various types of distributors, relays, or switches. In addition, when a surge voltage is generated, the surge protector is operated to suppress or block the surge voltage from flowing into the electric device ED. The surge protector may include an electronic board 31 on which a surge protection device is mounted. First, second, and third varistors 32a, 32b, and 32c are disposed on the electronic board 31, and the first and second inductors 34a, 34b and the first, second, and third insulator elements 33a, 33b, and 33c can be placed. Also, the capacitance block may be disposed inside the capacitor case 35, and the first, second, and third capacitors described above may be disposed in the capacitor case 35. The surge protection elements can be connected to each other in the electronic board 31 according to the method described above. As such, the surge protector is made of an independent module structure and connects the power supply source (PS) and the electric device (ED) to prevent malfunction or damage of the electric device (ED) from the surge voltage. Surge protectors can be made in various forms and are not limited to the examples presented.

Although the present invention has been described in detail with reference to the presented embodiments above, those skilled in the art will be able to make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

11: variable resistance block 12: reactance block
13: capacitance block 21, 23: insulator element
221, 222, 223: varistor 241, 242: inductor
251, 252: insulated element

Claims (3)

a variable resistance block 11 including at least one variable resistance element;
a reactance block 12 connected to the variable resistance block 11 and including at least one inductor; and
a capacitance block 13 connected to the reactance block 12;
The variable resistance block 11 includes first and second varistors 221 and 222 connected in series with each other and a third varistor 223 connected in parallel with the first and second varistors 221 and 222,
A ground line G is connected between the first and second varistors 221 and 222, and a first insulator 21 is between the ground line G and the first and second varistors 221 and 222 is connected,
The third varistor 223 is connected in series with the second insulator element 23 while connecting the line line L and the neutral line N in parallel with the first and second varistors 221 and 222,
The first inductor 241 connected in parallel to the third insulator element 251 and the second inductor 242 connected in parallel to the fourth insulator element 252 have a line line L and a neutral line N, respectively. Surge protector, characterized in that connected to and connected to both terminals of the capacitance block. delete delete

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