KR20120087584A - Surge protection device - Google Patents

Abstract

PURPOSE: A surge protection device is provided to prevent damage and fire due to consecutive surges by comprising a plurality of bypass circuits cutting off high voltage and high currents. CONSTITUTION: A number of bypass units(110) are installed between an input power line(AC) and a ground wire(GND). The bypass unit cuts off electrical surge flowing through the input power line. The bypass unit includes a varistor element, a fuse, a sensor unit and a relay unit. A controller(120) controls bypass units. A display unit(130) displays the condition of the bypass unit.

Description

Surge Protection Device {SURGE PROTECTION DEVICE}

The present invention relates to a surge protection device, and more particularly, to configure a plurality of bypass circuits that block high voltage and high current in the event of an electrical surge such as a lightning strike, thereby preventing fire and breakage due to continuous surge generation and supplying power. It relates to a surge protection device that allows it to be maintained.

Generally, when an electric surge occurs due to lightning or electromagnetic waves in an electric circuit, the circuit is damaged.In case of such a case, a fuse and a metal oxide varistor element are installed to cut off high voltage and high current when a surge occurs. Install a surge protection device (SPD) in the electrical circuit to prevent faults.

The surge protection device according to the related art is used by mounting a single varistor element 11 and a single fuse 12 in the surge protection device 10 as shown in FIG.

However, in the surge protection device 10 according to the related art, one varistor element 11 and a fuse 12 are installed in an electric circuit to be protected in the event of a surge, and thus the safety may be maintained. There is a problem that the blocked electrical circuit does not operate because it is blocked.

In addition, the conventional surge protection device 10 has a problem that it is not possible to prevent the damage of the electrical circuit to be protected due to the surge due to the breakage of the surge protection device 10 when another surge occurs continuously.

In addition, the conventional surge protection device 10 has a problem in that a blank of the protection operation occurs until the repair of the surge protection device 10 is completed when broken by a surge.

In order to solve this problem, the present invention constitutes a plurality of bypass circuits that cut off high voltage and high current in the event of an electrical surge such as a lightning strike to prevent fire and breakage due to continuous surge and to maintain power supply. An object of the present invention is to provide a surge protection device.

In order to achieve the above object, the present invention provides a plurality of bypass portions provided between an input power line and a ground line to protect a circuit by blocking an electric surge flowing through the input power line; And outputs an on signal to an arbitrary bypass unit such that only one bypass unit of the plurality of bypass units is connected between the input power line and the ground line, and receives the on signal to bypass the circuit between the input power line and the ground line. When the bypass unit is damaged due to the occurrence of an electrical surge during monitoring of the bypass unit having a plurality of times, an off signal is output to the bypass unit in which the bypass circuit is formed. And a controller configured to output an on signal to the next-order bypass unit to form a bypass circuit between ground lines.

The present invention may further include a display unit displaying a damaged bypass unit among the plurality of bypass units.

In addition, the bypass unit according to the present invention is provided between the input power line and the ground line varistor element for protecting a circuit from an electrical surge; A sensor unit installed at the varistor element to detect whether the varistor is damaged due to an electric surge occurrence; And a relay unit installed between the varistor and the ground line to selectively connect the varistor and the ground line according to an on / off signal output from the control unit.

The bypass unit may further include a fuse installed between the varistor element and the ground line to block excessive current flow when a short circuit breakage of the varistor element occurs due to the generation of an electrical surge.

In addition, the present invention provides a plurality of bypass portions installed between the input power line and the ground line to protect the circuit by blocking the electrical surge flowing through the input power line; Outputs a switching signal for selecting an arbitrary bypass section such that only one bypass section of the plurality of bypass sections is connected between the input power line and the ground line, and a damage signal caused by electrical surge from the selected bypass section A control unit for outputting a switching signal for selecting the next-order bypass unit so that a next-order bypass unit among the plurality of bypass units forms a bypass circuit between the input power line and the ground line; And a switching unit installed between the plurality of bypass units and the ground line to connect any bypass unit selected from the plurality of bypass units and the ground line according to a switching signal output from the controller.

The present invention may further include a switching relay unit for supplying switching power to the switching unit according to the switching signal output from the control unit.

The present invention may further include a switching detector installed between the plurality of bypass units and the switching unit to detect a bypass unit connected to the ground line among the plurality of bypass units.

The present invention may further include a display unit connected to the controller to display a broken bypass unit among the plurality of bypass units.

In addition, the bypass unit according to the present invention is provided between the input power line and the ground line varistor element for protecting a circuit from an electrical surge; And a sensor unit installed at the varistor element to detect whether the varistor is damaged due to an electrical surge.

The surge protection device according to the present invention has an advantage of maintaining a stable power supply by preventing the power supplied to the protected circuit from being cut off along with the protection of the protected circuit due to the generation of the electrical surge.

In addition, the surge protection device according to the present invention has the advantage that even if the primary surge protection device is broken due to the continuous electrical surge occurs, the next-order protection device is operated to prevent damage to the circuit to be protected by the electrical surge. .

In addition, the surge protection device according to the present invention has the advantage that can be easily confirmed when broken by the electrical surge can provide a quick maintenance.

1 is an electrical circuit diagram showing a configuration of a surge protection device according to the prior art.
2 is a block diagram showing a schematic configuration of a surge protection device according to the present invention;
3 is an electrical circuit diagram showing a bypass configuration of the surge protection device according to FIG. 2;
4 is an electrical circuit diagram showing the detailed configuration of the surge protection device according to FIG.
5 is an electrical circuit diagram showing another embodiment of the surge protection device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the surge protection device according to the present invention.

(Embodiment 1)

2 is a block diagram showing a schematic configuration of a surge protection device according to the present invention, FIG. 3 is an electric circuit diagram showing a bypass configuration of the surge protection device according to FIG. 2, and FIG. 4 is a surge protection device according to FIG. An electrical circuit diagram showing a detailed configuration of the circuit.

As shown in FIGS. 2 to 4, the surge protection device 100 according to the present invention includes a plurality of bypass units 110 installed between an input power line AC and a ground line GND, and the plurality of bypasses. A control unit 120 for controlling the unit 110 and a display unit 130 for displaying whether the bypass unit 110 is malfunctioning.

The plurality of bypass units 110 are installed between the input power line AC and the ground line GND to block an electric surge flowing through the input power line AC to protect the electric circuit to be protected. As a configuration, it is possible to configure at least n bypass portions up to the n-th bypass portion 110c, including at least the first bypass portion 110a and the second bypass portion 110b.

The bypass unit 110 includes a varistor element 111, a fuse 112, a sensor unit 113, and a relay unit 114.

The varistor element 111 is provided between the input power line AC and the ground line GND to protect the electric circuit to be protected from an electrical surge. The varistor element 111 may have a large capacity or a small capacity according to an installation purpose or location. It is preferably made of a metal oxide varistor (MOV).

The fuse 112 is installed between the varistor element 111 and the ground line GND so that a short circuit breakage of the varistor element 111 due to the generation of an electrical surge prevents excessive current from being flown and is disconnected from the power source. do.

The sensor unit 113 is installed in the varistor element 111 and detects whether or not the varistor element 111 is damaged due to a change in voltage or current caused by an electrical surge and outputs it to the control unit 120. .

When the sensor unit 113 detects a voltage resulting from an electrical surge, the sensor unit 113 is connected in parallel with the varistor element 111 to detect a change in voltage, and the current according to the electrical surge occurs. When detecting, the sensor unit 113 is connected in series with the varistor element 111 to detect a change in current.

The detected voltage or current variation information indicates whether the controller 120 has exceeded a threshold voltage or a threshold current for determining whether an electrical surge is generated and whether a varistor element 111 or a fuse 112 is damaged. It is used as information for judgment.

In addition, the sensor unit 113 detects whether a short circuit occurs due to damage of the varistor element 111 when the varistor element 111 is damaged due to an electrical surge, and provides the sensor 120 to the control unit 120.

The relay unit 114 is installed between the fuse 112 and the ground line GND so that the bypass unit 110 for blocking electric surges is alternatively set. The relay unit 114 outputs from the control unit 120. The fuse 112 and the ground line GND may be selectively connected according to the on / off operation control signal to configure an bypass circuit for blocking an electric surge.

The control unit 120 may include any bypass unit 110a such that only one bypass unit 110a, 110b and 110c of the plurality of bypass units 110 are connected between the input power line AC and the ground line GND. , 110b and 110c output the on signal.

The on signal is output in a plurality of bypass units 110 sequentially arranged in a preset order.

In addition, the controller 120 receives the output on signal to monitor the bypass unit forming a bypass circuit between the input power line AC and the ground line GND, and the monitoring bypass unit 110. ) Is broken due to the generation of an electrical surge, and outputs an off signal to the monitoring bypass unit 110.

At this time, the control unit 120 checks the output of the voltage value, current value or the short circuit signal detected by the sensor unit 113 to determine whether the bypass unit 110 is damaged due to the generation of the electrical surge. It is determined whether or not, and according to the determination result whether or not the output of the off signal.

That is, when the generated electric surge is determined to be a voltage or current above a threshold that may damage the varistor element 111 of the bypass unit, or when a short circuit signal is input, an OFF signal is output and a voltage or current below the threshold is output. Or if the short circuit signal is not input, the current setting is maintained.

In addition, when the control unit 120 outputs an off signal to the monitoring bypass unit 110, a bypass unit 110 having a next next priority is bypassed between the input power line AC and the ground line GND. An on-signal is output to the next-order bypass unit 110 to form a circuit, and the next-order bypass unit 110 having a bypass circuit formed between the input power line AC and the ground line GND is monitored.

The display unit 130 is configured to display a state in which the plurality of bypass units 110 are operating. The bypass unit 110 forms a bypass circuit between the current input power line AC and the ground line GND. The display of the bypass unit 110 in which the damage has occurred due to the generation of the electric surge, and the bypass unit 110 in the inoperative state are displayed.

The display unit 130 includes a plurality of LEDs such that the bypass unit 110 emits light of different colors according to a normal operation / malfunction / non-operation state, and may be displayed on a screen through an LCD or the like. .

The following describes the operation of the surge protection device according to the present invention.

When a bypass circuit for protecting a circuit from an electrical surge is formed between the input power line AC and the ground line GND through the first bypass unit 110a, the controller 120 controls the first bypass unit ( An ON signal is output to the first relay unit 114 ′ of 110a so that a bypass circuit is formed between the input power line AC and the ground line GND to protect the circuit from an electrical surge.

After the bypass circuit is formed through the first bypass unit 110a, the controller 120 monitors whether the voltage or current of the first sensor unit 113 'is changed or monitors whether a short circuit signal is output. Monitor whether surges occur.

Afterwards, when an electrical surge caused by a lightning strike or electromagnetic waves flows into the input power line AC, the first varistor element 111 'and the first fuse 112' of the first bypass unit 110a flow in. The surge is bypassed to the ground line GND, and at this time, the output of the short circuit signal due to the surge voltage, surge current, or damage that is bypassed by the first sensor unit 113 'is detected and provided to the controller 120.

The controller 120 compares the detected surge voltage or surge current with a threshold that may damage the first varistor element 111 'or the first fuse 112', and detects the detected surge voltage or surge current. Is less than or equal to a threshold to maintain the bypass path of the electrical surge through the first bypass unit 110a. If the detected surge voltage or surge current is greater than or equal to the threshold, the bypass path of the first bypass unit 110a may be It is determined that the first varistor element 111 'or the first fuse 112' is broken and outputs an OFF signal to the first relay unit 114 '.

In addition, when the short circuit signal is output, the controller 120 determines that the first varistor element 111 ′ or the first fuse 112 ′ of the first bypass unit 110a is damaged and the first relay is damaged. The OFF signal is output to the negative section 114 '.

In addition, the controller 120 includes a second bypass unit 110b such that a new bypass circuit is formed between the input power line AC and the ground line GND at the same time as the off signal output of the first relay 114 ′. Outputs an on signal to the second relay unit 114 "

That is, if it is determined that the first bypass unit 110a is damaged by an electrical surge, the controller 120 allows the bypass circuit to be formed through the second bypass unit 110b which is a preset bypass unit.

Subsequently, a continuous electric surge occurs, so that a surge voltage or current detected through the second sensor unit 113 "degrades or damages the performance of the second varistor element 111" or the second fuse 112 ". In the case of an electric surge having a value of not being so high, the bypass circuit formed through the second bypass unit 110b is maintained, and in the opposite case, an off signal is sent to the second relay unit 114 ". And a new bypass circuit between the input power line AC and the ground line GND through the n-th bypass unit 110c, which is a next lower bypass unit of the second bypass unit 110b. To form.

Meanwhile, when the short circuit signal is output from the second sensor unit 113 ″, the control unit 120 includes the second varistor element 111 ″ or the second fuse 112 ″ of the second bypass unit 110 b. It is determined that it is damaged, and outputs an OFF signal to the second relay unit 114 ".

Therefore, the surge protection device 100 can maintain a stable power supply by preventing the power supplied to the protected electric circuit from being cut off along with the protection of the protected electric circuit from the continuous electric surge. It is possible to check whether the damage.

(Second Embodiment)

5 is an electrical circuit diagram showing another embodiment of the surge protection device according to the present invention.

As shown in FIG. 5, at least two bypass parts disposed between the input power line AC and the ground line GND to protect the circuit by blocking an electric surge flowing through the input power line AC. Switching signal for selecting an arbitrary bypass portion such that 110d and 110e and only one bypass portion of the plurality of bypass portions 110d and 110e are connected between the input power line AC and the ground line GND. When a damage signal due to an electrical surge is input from the selected bypass unit, the next bypass unit among the plurality of bypass units 110d and 110e receives the input power line AC and the ground line GND. A control unit 120 'which outputs a switching signal for selecting the next-order bypass unit to form a bypass circuit between the plurality of bypass units 110d and 110e and a ground line GND. According to the switching signal outputted from the (120 ') comprises a switch 140 such that any of the bypass section and the ground (GND) selected from the plurality of the bypass section (110d and 110e) the connection.

The difference between the present embodiment and the first embodiment is that the bypass circuit is selected through switching by a rotation means such as a motor, rather than the bypass circuit selection by the relay.

The plurality of bypass parts 110d and 110e are installed between the input power line AC and the ground line GND to protect the circuit from an electrical surge, and the varistor element is installed in the varistor element to generate the electrical surge. Sensor parts 115 and 115 'are provided for detecting whether or not the varistor is damaged.

The sensor units 115 and 115 'are not electrically connected when the varistor element is normally operated, but are electrically connected when the varistor element is damaged by an electrical surge to provide an electrical signal to the controller 120'.

In addition, the controller 120 ′ is safely protected from the effects of electrical surges and is output from the controller 120 ′ between the controller 120 ′ and the switching unit 140 to control the switching unit 140. The switching relay unit 116 is further installed to turn on / off the power supply to the switching unit 140 according to the switching signal.

The switching relay unit 116 configures the control circuit 120 'independently of the bypass circuit so that the control unit 120' can be safely protected from the effects of overvoltage and overcurrent caused by an electrical surge. do.

Since the switching unit 140 uses four contacts (a, b, c, d, and two bypass circuits in the present embodiment, four contacts are described as examples, but the number of contacts is not limited thereto) and The motor (not shown) consists of connecting means for rotating a predetermined angle clockwise or counterclockwise to perform a switching operation between the contacts.

Among the four contacts, a contact and b contact are respectively connected to the first bypass section 110d and the second bypass section 110e, and the c contact and the d contact are connected to the ground line GND. The contacts a and d are connected so that the first bypass section 110d forms a bypass circuit, or the contacts b and c are connected to operate the second bypass section 110e to form a bypass circuit.

In addition, the second embodiment may be disposed between the first and second bypass parts 110d and 110e and the switching part 140 so that the ground line GND is formed among the first and second bypass parts 110d and 110e. The switching detection unit 150 for detecting the bypass unit connected to is installed.

That is, when the connection signal is detected from the connected contact among the contacts a and b, the switching detector 150 outputs the signal to the controller 120 'so that the controller 120' can recognize the currently set bypass path. Make sure

Meanwhile, a display unit 130 ′ is connected to the control unit 120 ′ to display a damaged bypass unit among the first and second bypass units 110 d and 110 e.

The display unit 130 ′ is configured of a plurality of LEDs such that the first and second bypass units 110d and 110e emit light of different colors according to a normal operation / malfunction / non-operation state. It may be displayed on the screen.

Next, an operation process of the surge protection device 100 ′ according to the second embodiment will be described.

When the first bypass unit 110d sets the bypass circuit in a preset order, the controller 120 'outputs an on signal to the switching relay unit 116, and thus power is supplied to the switching unit 140. The motor is rotated so that the contacts a and d are connected so that the first bypass portion 110d forms a bypass circuit.

At this time, the switch detecting unit 150 detects that the contacts a and d of the switching unit 140 are connected to the control unit 120 ', and the control unit 120' switches the switching relay unit 116 through the detection signal. Outputs an off signal.

Thereafter, the controller 120 ′ indicates that the currently configured bypass circuit is set through the display unit 130 ′ through the first bypass unit 110d, and monitors the first bypass unit 110d.

When the first bypass unit 110d is damaged due to the occurrence of an electric surge and a conduction (short circuit) signal is output from the first sensor unit 115, the controller 120 ′ outputs an on signal to the switching relay unit 116. The contacts b and c of the switching unit 140 are connected so that the bypass circuit is changed from the first bypass unit 110d to the second bypass unit 110e.

At this time, the switch detection unit 150 detects that the contacts b and c of the switching unit 140 are connected to the control unit 120 ', and the control unit 120' switches the switching relay unit 116 through the detection signal. ) To output the OFF signal to maintain the currently set state.

Thereafter, the control unit 120 ′ indicates that the bypass circuit currently set through the display unit 130 ′ is set through the second bypass unit 110e, and that the first bypass unit 110d due to an electric surge is damaged. Display.

Therefore, the surge protection device 100 ′ can maintain a stable power supply by preventing the power supplied to the protected electric circuit from being cut off along with the protection of the protected electric circuit from the continuous electric surge. It can be easily checked whether the damage.

Meanwhile, in the present embodiment, the single-phase input power source has been described, but it will be apparent to those skilled in the art that the single-phase input power source can be easily implemented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

100, 100 ': Surge protection device 110: Bypass part
110a, 110d: first bypass portion 110b, 110e: second bypass portion
110c: n-th bypass section 111: varistor element
111 ': First varistor element 111 ": Second varistor element
112: fuse 112 ': first fuse
112 ": 2nd fuse 113: sensor part
113 ': first sensor part 113 ": second sensor part
114: relay unit 114 ': first relay unit
114 ": second relay section 115: first sensor section
115 ': second sensor section 116: switching relay section
120, 120 ': control unit 130, 130': display unit
140: switching unit 150: switching detection unit

Claims (9)

A plurality of bypass portions installed between an input power line and a ground line to block an electric surge flowing through the input power line to protect a circuit; And
Outputs an on signal to an arbitrary bypass unit such that only one bypass unit of the plurality of bypass units is connected between the input power line and the ground line, and receives the on signal to provide a bypass circuit between the input power line and the ground line. If the bypass unit is damaged due to the occurrence of an electrical surge during monitoring of the formed bypass unit, an off signal is output to the bypass unit in which the bypass circuit is formed, and the next higher bypass unit among the plurality of bypass units includes the input power line and the ground line. And a control unit for outputting an on signal to the next-order bypass unit to form a bypass circuit therebetween. The method of claim 1,
And a display unit for displaying a broken bypass unit among the plurality of bypass units. The method according to claim 1 or 2,
The bypass unit includes a varistor element disposed between the input power line and the ground line to protect the circuit from an electrical surge;
A sensor unit installed at the varistor element to detect whether the varistor is damaged due to an electric surge occurrence; And
And a relay unit disposed between the varistor and the ground line to selectively connect the varistor and the ground line according to an on / off signal output from the control unit. The method of claim 3, wherein
And the bypass unit further includes a fuse installed between the varistor element and the ground line to block excessive current from flowing in the event of a short circuit breakage of the varistor element due to the generation of an electric surge. A plurality of bypass portions installed between an input power line and a ground line to block an electric surge flowing through the input power line to protect a circuit;
Outputs a switching signal for selecting an arbitrary bypass section such that only one bypass section of the plurality of bypass sections is connected between the input power line and the ground line, and a damage signal caused by electrical surge from the selected bypass section A control unit for outputting a switching signal for selecting the next-order bypass unit so that a next-order bypass unit among the plurality of bypass units forms a bypass circuit between the input power line and the ground line; And
And a switching unit installed between the plurality of bypass units and the ground line to connect an arbitrary bypass unit selected from the plurality of bypass units to the ground line according to a switching signal output from the controller. The method of claim 5, wherein
And a switching relay unit configured to supply power for switching to the switching unit according to the switching signal output from the control unit. The method of claim 5, wherein
And a switching detection unit installed between the plurality of bypass units and the switching unit to detect a bypass unit connected to the ground line among the plurality of bypass units. The method according to any one of claims 5 to 7,
And a display unit connected to the control unit to display a damaged bypass unit among the plurality of bypass units. The method of claim 8,
The bypass unit includes a varistor element disposed between the input power line and the ground line to protect the circuit from an electrical surge; And
And a sensor unit installed at the varistor element to detect whether the varistor is damaged due to the occurrence of an electric surge.

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