KR101101981B1 - Circuit breaker for surge protective device - Google Patents

Abstract

The present invention relates to an SPD disconnect device, and more particularly, to an SPD disconnect device installed between a power system for supplying power to a telecommunication facility and an SPD. The voltage measuring sensor for detecting the transient AC abnormal voltage having a rated frequency component of the power system at all times; A single current measuring sensor that constantly detects leakage current and impulsive surge current having a rated frequency component of the power system, or a redundant redundant sensing of leakage current and impulse surge current having a rated frequency component of the power system at all times Current measuring sensor; It is installed inside the speedy disconnection unit disconnecting unit for separating the speedy from the power system; An arithmetic controller configured to receive and calculate data acquired from the voltage measuring sensor and the current measuring sensor and to control the disconnecting unit accordingly; And a return device unit configured to perform a return operation of reconnecting the speedy system to the power supply system by the operation control unit. According to the present invention has a so-called secondary backup function that can block the degradation of the speedy SP to ensure the safety of the power system, transient transient abnormalities due to frequent accidents in the area of poor power quality When the voltage is generated, there is an excellent effect to prevent the SPD malfunction and failure.

Description

Speedy Disconnector {CIRCUIT BREAKER FOR SURGE PROTECTIVE DEVICE}

The present invention relates to an SPD disconnector device installed in a low voltage power system having an AC voltage of 1,000 V or less, and an impulse current of an SPD installed on a secondary side of an SPD disconnect device. Impulse current immunity over limit value and so-called secondary backup function to cut off SPD's deterioration can secure safety of low voltage power system under AC voltage 1,000V and poor power quality The present invention relates to a new speedy disconnection device that can prevent the speedy operation and failure in the event of an AC overvoltage caused by a system accident that occurs frequently.

Recently, due to the development and popularization of information and communication, electric, electronic, and communication devices with high-density integrated circuits are widely used. Telecommunication facilities with high-density integrated circuits are temporarily or permanently damaged by an impulse surge voltage or surge current. Easy to get Therefore, a device to cut off the surge voltage or surge current flowing into the load side of the electrical, electronic or communication equipment connected to the low voltage side parking breaker or branch circuit breaker secondary side in the distribution panel (distribution box) corresponding to the low voltage power system of AC voltage less than 1,000V. Is needed.

In order to solve this problem, the low voltage side parking short circuit 30 of the switchgear 20 is installed with SPD 60, 60 ', 60 "on the primary side or the secondary side, and the telecommunication facilities 80 from surge voltage or surge current. It is common to protect (see Fig. 1, the configuration showing the installation state of the SPD in the conventional switchgear).

When the speedy 60 is installed at the primary side of the parking short circuit 30 of the low voltage power system having an AC voltage of 1,000 V or less, the upper circuit breaker of the parking short circuit 30 must be turned off for maintenance of the speedy 60. In addition, when directly input from the upper transformer to the parking short circuit 30, the live work for the maintenance of the speedy 60, so there was a risk of electric shock accidents, disconnection, fire.

On the other hand, when the SPD 60 ', 60 "is installed on the secondary side of the parking breaker 30 of the low-voltage power system, it is advantageous in terms of maintenance compared to the case where it is installed on the primary side of the parking breaker 30. , There is still a hassle to turn off the parking short (30) during maintenance.

Recently, the SPD 60 'is installed on the secondary side of the parking breaker 30 of the low voltage power system, and a separate branch breaker 40 is installed between the parking breaker 30 and the SPD 60'. It is a trend to solve the inconvenience as described above.

However, as the separate branch circuit breaker 40 as described above uses a general load circuit breaker defined by AC current rating, voltage capacity, and breaking capacity, it may cause confusion to the operator during maintenance. As a result, the branch circuit breaker 40 fails or unnecessarily shuts down the circuit even when an impulse current of less than that flows in the surge protection device defined by the impulse maximum surge current capacity rating.

On the other hand, in the case of Espi (60, 60 ', 60 "), if the thermal runaway prevention circuit is not provided or if the thermal runaway prevention circuit is provided but a failure occurs (the thermal runaway prevention function has failed), the secondary There is a possibility that an electrical accident or fire may occur, and it is required to develop a breaker for an SPD that detects a predetermined leakage current and depresses the SPD from a power system, i.e., a 'secondary backup function'. (The primary backup is by thermal runaway protection circuits inside the SPD or thermal runaway protection fuses outside the SPD).

The present invention has been made to solve the above problems, and an object of the present invention is to provide an speedy disconnection apparatus defined by the surge current capacity rating and the leakage current rating.

In addition, an object of the present invention is to provide an SPD disconnection device that is not provided with a thermal runaway prevention circuit, or is provided with a thermal runaway prevention circuit, but can be blocked if a failure occurs due to the failure of the SPD.

In addition, the present invention detects this when a transient AC abnormal voltage is introduced into the power system, and separates the SPD from the power system, and if the normal voltage is detected after the extinction of the transient AC abnormal voltage, the SPD is connected to the power system. The purpose is to provide a speedy disconnection device.

The present invention for solving the above problems,

In an SPD disconnect device installed between a power system for supplying power to a telecommunication facility and an SPD, the SPD disconnect device always detects a transient AC abnormal voltage having a rated frequency component of the power system. A voltage measuring sensor; A single current measuring sensor that constantly detects leakage current and impulsive surge current having a rated frequency component of the power system, or a redundant redundant sensing of leakage current and impulse surge current having a rated frequency component of the power system at all times Current measuring sensor; It is installed inside the speedy disconnection unit disconnecting unit for separating the speedy from the power system; An arithmetic controller configured to receive and calculate data acquired from the voltage measuring sensor and the current measuring sensor and to control the disconnecting unit accordingly; And a return device unit for performing a return operation of connecting the SPD back to the power system by the operation controller.

In addition, in the speedy disconnection apparatus according to the present invention, when the current sensed by the current measuring sensor is an impulsive surge current that is less than the maximum surge current capacity rating of the speedy speed installed in the secondary side, the disconnection unit is not opened (OFF). It is characterized by.

In addition, the speedy disconnection apparatus according to the present invention, when the transient AC abnormal voltage having a power supply frequency frequency component of the power supply system inflows to detect this and disconnects the speed disconnection (OFF) to separate the speedy from the power supply system When the normal voltage is detected after the transient abnormal voltage is extinguished, the disconnection unit is closed again to connect the SPD to the power system.

In addition, the speedy disconnection apparatus according to the present invention, when the leakage current of a predetermined value having a rated frequency component of the power system by the current measuring sensor due to the degradation of the speedy, the operation control unit is disconnected Opening the unit (OFF) is characterized in that the SPD to separate from the power system.

Espidi disconnection device according to the present invention is a disconnection device dedicated to the SPD, it is defined or marked by the surge current rating, there is no fear that the operator will be confused during maintenance, there is no thermal runaway prevention circuit, or thermal runaway It is equipped with a protection circuit, but it has excellent safety because it has a so-called secondary backup function that can block the failure of SPD due to a failure.

In addition, the speedy disconnection apparatus according to the present invention detects this when the transient AC abnormal voltage flows into the power system and separates the SPD from the power system by the OFF operation, and when the normal voltage is detected after the disappearance of the transient abnormal voltage Has the function of reconnecting the SPD to the power system by the ON operation, and the transient AC abnormal voltage is generated due to the system accident that occurs frequently in the area with poor power quality, and the SPD malfunction and failure There is an excellent effect that can be prevented.

1 is a configuration diagram showing the SPD installation state in the conventional switchgear,
Figure 2 is a block diagram of the speedy disconnection apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

1 is a block diagram showing the installation state of the SPD in the conventional switchgear, Figure 2 is a block diagram of the SPD disconnection apparatus according to the present invention.

Speedy disconnection apparatus 90 according to a preferred embodiment of the present invention, the speedy disconnection device is installed between the power supply system 100 and the speedy 200 to supply power to the telecommunications equipment 80, Voltage measuring sensor 91 for detecting transient AC abnormal voltage having a rated frequency component of the system 100 at all times, and a single or always detecting leakage current and impulsive surge current having a rated frequency component of the power supply system 100 or It is installed in the redundant current measurement sensor 93, the speedy disconnect device 90, the disconnection unit 97 for separating the speedy 200 from the power system 100, and the voltage measuring sensor (91) And the data obtained from the current measuring sensor 93 and calculated, and accordingly, the apidi 200 is operated by the arithmetic controller 95 and the arithmetic controller 95 which control the disconnecting unit 97. Reconnect with (100) Key is configured to include a return device unit 92 to perform a return operation.

The power system 100 may be a primary side or a secondary side of the parking short circuit 30, or may be a secondary side of the branch breakers 40, 40 ', and 40'. Since the speedy disconnection device 90 is installed at the position as described above, the maintenance work of the speedy 200 can be facilitated and the live work is not required, thereby reducing the risk of electric shock, disconnection, and fire.

On the other hand, the conventional load circuit breaker marked with the rated AC current, voltage capacity and breaking capacity is used as the speed disconnect unit for the speedy may cause confusion to the operator during the maintenance of the speedy. In addition, such conventional load circuit breakers (branch circuit breakers) have a problem that most of them fail or malfunction even when the impulse current flows in less than that which may flow to the SPD, which is generally defined as any maximum surge current capacity rating.

Accordingly, in the speedy disconnection apparatus 90 according to the present invention, it is defined as a surge current rating and has a resistance to a defined surge current capacity, and at the same time, to solve the confusion of the worker during maintenance of the speedy 200. To make it possible. That is, in the speedy disconnection apparatus according to the present invention, when the current sensed by the current measuring sensor 93 is an impulsive surge current less than the maximum surge current capacity rating of the speedy speed installed in the secondary side, the disconnection unit 97 is open ( OFF), and is characterized by being resistant to an impulsive surge current.

For example, in the case of the speedy disconnect device 90 according to the present invention defined and indicated by any maximum surge current rating and any AC leakage sensing current, the current sensed by the current measuring sensor 93 is the maximum surge current rating. In the case of a less than impulse current, i.e., a surge current that is much faster than the AC power supply rated frequency of the power system, the disconnection unit 97 is configured to not open (OFF). Accordingly, when an impulsive surge of less than the defined maximum surge current capacity is introduced, the speedy disconnect device 90 is not turned off but is absorbed by the speedy 200 and bypassed through the ground, thereby telecommunication. At 80, no damage due to surge current occurs.

The current measuring sensor 93 always detects a leakage current and / or an impulsive surge current having a rated frequency component of the power system, and detects a detection signal to the operation control unit 95 when a leakage current or the like of a predetermined value or more is detected. It serves to convey. The current measuring sensor 93 may be a single current measuring sensor or a separate redundant current transformer (CT) type current measuring sensor that individually detects each heterogeneous current.

When the leakage current of a predetermined value is detected while having a rated frequency component of the power system due to the deterioration of the speedy 200, the current measuring sensor 93 transmits a detection signal to the operation control unit 95 and calculates. The controller 95 allows the disconnecting unit 97 to be operated. In other words, the trip coil is operated (excited) to open (off) the disconnecting unit 97 to separate (block) the SPD 200 from the power supply system 100.

On the other hand, in an area where a transient overvoltage (TOV), which is higher than the operating voltage (clamping voltage) of the SPD 200, is frequently generated, the SPD is unnecessary by an AC voltage instead of an impulsive surge voltage. This causes the speedy 200 to deteriorate or cause thermal runaway. In order to solve this problem, the SPD 200 itself is designed to prevent thermal runaway, etc. or to increase the SPD operating voltage (clamping voltage), which reduces the protective effect of the equipment to be protected, the failure of telecommunication equipment It can be cause. Accordingly, in the present invention, when a transient AC abnormal voltage (TOV) flows into the power system 100, the voltage measuring sensor 91 detects this and transfers data to the operation control unit 95, and the operation control unit 95. Accordingly, the trip coil is operated (excited) to open the disconnection unit 97 (OFF) so that the speedy 200 does not operate unnecessarily due to the transient abnormal voltage, thus preventing the speedy or thermal runaway of the speedy. It is effective to prevent.

As such, the speedy disconnection apparatus 90 according to the present invention detects when a transient abnormal voltage (TOV) flows into the power supply system 100 and detects this and immediately opens the disconnection unit 97 to turn off the speedy ( After the 200 is disconnected from the power supply system 100 and the transient AC abnormal voltage disappears, that is, when a normal power supply voltage is detected, the return device 92 returns to the speedy device according to the control signal of the operation control unit 95. It has a function to perform a return operation (closing the disconnection unit) to reconnect (connect) the power supply system 100 to the power supply system 100, and speedy operation is unnecessary due to a system accident that frequently occurs in an environment with poor power quality. And failure can be effectively prevented.

In the case where the SP 200 detects a leakage current having a rated frequency component of the power system by the current measuring sensor 93 due to the previous stage of thermal runaway, that is, the data is received from the current measuring sensor 93. The arithmetic and control unit 95 opens the disconnecting unit 97 and turns off the SPD 200 from the power supply system 100.

If the SPD 200 is not provided with a thermal runaway prevention circuit or if the thermal runaway prevention circuit is provided, but a failure occurs and the speed of the SPD 200 rapidly progresses, a secondary electric accident or a fire may occur. There is a risk of occurrence, the speedy disconnection apparatus 90 according to the present invention is to have a so-called 'secondary backup function' that can effectively block it by the above configuration.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

10: power line 20: switchboard
30: short circuit 40, 40 ': branch breaker
50: branch circuit 60, 60 ', 60 ": SPD
70: ground booth 80: telecommunication equipment
90: speedy disconnect device 91: voltage measuring sensor
92: return unit 93: current measuring sensor
95: operation control unit 97: disconnecting unit
100: power system 200: speedy

Claims (4)

In the speedy disconnection device is installed between the power supply system for supplying power to the telecommunications equipment and SPD,
The speedy disconnect device,
A voltage measuring sensor which constantly detects an transient AC abnormal voltage having a rated frequency component of the power system;
A single current measuring sensor that constantly detects leakage current and impulsive surge current having a rated frequency component of the power system, or a redundant redundant sensing of leakage current and impulse surge current having a rated frequency component of the power system at all times Current measuring sensor;
It is installed inside the speedy disconnection unit disconnecting unit for separating the speedy from the power system;
An arithmetic controller configured to receive and calculate data acquired from the voltage measuring sensor and the current measuring sensor and to control the disconnecting unit accordingly; And
And a return device unit configured to perform a return operation of reconnecting the speedy system to the power supply system by the operation control unit. The method according to claim 1,
And the disconnection unit is not opened when the current sensed by the current measuring sensor is an impulsive surge current less than the maximum surge current capacity rating of the SPD installed on the secondary side. The method according to claim 1,
When a transient AC abnormal voltage having a power rated frequency component of the power system is introduced into the power system, the DC is separated from the power system by detecting and opening the disconnecting unit, and when a normal voltage is detected after the disappearance of the transient abnormal voltage. The speedy disconnect device characterized in that it has a function of connecting the speedy to the power system by closing the disconnection unit (ON) again. The method according to claim 1,
If the leakage current of a predetermined value having a rated frequency component of the power supply system is detected by the current measuring sensor due to deterioration of the speedy speed, the operation control unit opens the disconnection unit (OFF) to turn off the speedy power supply system. Speedy disconnect device, characterized in that separated from.

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