KR20120054212A - Multi-function instantaneous trip apparatus based surge protect device - Google Patents

Abstract

PURPOSE: An instantaneous trip apparatus having a multi-function based on a SPD(Surge Protect Device) is provided to increase stability by controlling the size of an instantaneous operating current to prevent the flow of overcurrents. CONSTITUTION: A SPD(Surge Protect Device) receiving chamber(102) for an SPD is divided by a partition wall(103) by extending one side of casing of a breaker(100). A breaker contact point receiving chamber(101) is provided to accept a contact point of the breaker. The SPD receiving chamber is provided to accept a SPD PCB. A cover(104) is covered on the contact point receiving chamber and the SPD receiving chamber. The cover is formed in the receiving chamber and the SPD receiving chamber to be separated respectively. The cover selectively is separated when the separated cover is used.

Description

Multi-Function Instantaneous Trip Apparatus Based Surge Protect Device}

The present invention relates to a surge suppressor-based multi-function instantaneous trip device, and more particularly, to a surge suppressor-based multi-function instantaneous trip device by installing an SPD using a surge suppressor such as a metal oxide varistor (MOV) integrally with a circuit breaker. .

As is well known, the SPD must effectively suppress various abnormal voltages invading the power line and signal line to supply stable power and signals to the load. Therefore, impulsiveness with large and steep waveform characteristics such as switching surge and brain surge The load circuit can be protected against abnormal voltage and the surge protector itself must be designed to have sufficient dielectric strength and energy content.

To this end, it is common to design and manufacture the maximum continuous operating voltage (mcov) higher than the rated voltage in the design of the surge protector. In many cases, temporary overvoltage caused by ground fault or short circuit of the phase line is larger than the rated voltage temporarily applied to the line due to the failure or ground fault of the line. As such, the transient overvoltage lasting several hundreds to several seconds has a relatively large energy compared to the surge having a duration of several tens to hundreds of ㎲, and when the voltage is greater than the maximum continuous use voltage of the surge protector, Burnout is caused.

The surge protection device burned out by this process has a low resistance value of several ohms or less, which short-circuits the protector circuit. When the short circuit current flows, the circuit is cut off when the circuit breaker is installed together, but in a line situation in which only a switch is present, the short circuit current cannot be blocked, and a fire may occur due to overheating.

Therefore, the SPD should be designed to have a certain energy content that can withstand the transient overvoltage generated in the event of a system accident, and can be quickly disconnected to prevent secondary damage such as fire when the circuit is shorted due to the burnout of the protection device. In order to prevent the over-current blocking using the fuse to be configured in parallel.

A representative example thereof is disclosed by Korean Patent Publication No. 10-0353268 (name of the invention: an electromagnetic wave unit generation panel), which is shown in FIG. 1.

On the other hand, the MOV (Metal Oxide Varistor) used as the SPD is connected to the secondary side of the parking breaker (1) which is embedded in a separate enclosure and connected to the incoming line, and the branch breaker connected to the secondary load in the SPD (3). Since one or more (2) was to be connected, it should be installed separately from the parking breaker (1) and the branch breaker (2), which was shown in FIG.

As shown in the related art, since the SPD 3 is placed in a separate enclosure and installed in the distribution box together with other breakers, there is a problem that an increase in the total volume of the distribution box is inevitable.

In addition, in the case of instantaneous excessive voltage inflow, the current suddenly increases in the SPD (3), which causes a thermal runaway phenomenon and at this time, the intensity of the surge suppression device explodes according to the amount of current flowing in the SPD (3). There is a problem.

Republic of Korea Patent Registration 10-0353268 (Name of the invention: electromagnetic wave unit generation panel panel)

The first object of the present invention is to provide a surge suppression device-based multi-function instantaneous trip device to eliminate the need for a separate storage space for the SPD. In addition, the second object of the present invention is to adjust the instantaneous operating current in consideration of the limit voltage tripped when the excessive voltage applied to the surge suppression element used in the SPD, the surge suppression element to improve the stability To provide a multi-function instantaneous trip device.

The present invention proposes a surge suppression device-based multi-function instantaneous trip device by integrating the breaker and the SPD by installing the SPD in the storage compartment partitioned in the parking short circuit to achieve the first object.

The present invention is to connect the surge suppression element such as MOV of the SPD to the secondary side of the circuit breaker to achieve the second purpose, by providing the instantaneous trip means to the circuit breaker to adjust the magnitude of the instantaneous operating current to prevent the excessive current flow A surge suppressor-based multifunction instantaneous trip device is proposed.

In this way, the present invention does not need to separately install the SPD in the circuit breaker and perform separate wiring, which can contribute to compactness of the switchboard, reduce the occupied space, and contribute to simplifying the assembly process of the switchboard. It is effective.

In addition, the present invention can increase the stability by controlling the magnitude of the instantaneous operation current so that excessive current does not flow in the surge suppression element installed on the secondary side of the circuit breaker can have a selective cut-off characteristic to increase the stability of the power system There is.

1 is a circuit diagram related to MOV connected to a conventional unit generation.
2 is an explanatory view showing the inside of a conventional unit generation panel.
Figure 3 is an exploded perspective view showing a surge suppression device based multi-function instantaneous trip device according to the present invention.
4 is a cross-sectional view taken along the line AA of FIG.
5 is a cross-sectional view taken along line BB of FIG.
6 to 8 are exemplary views showing the electrical configuration of the SPD PCB according to the present invention.

With reference to the accompanying drawings, the present invention will be described in detail with reference to the embodiments of the present invention to be easily carried out by those skilled in the art.

First, the overall structure of the surge suppression device-based multi-function instantaneous trip device according to the present invention is shown in FIG.

As can be seen from this, the present invention is provided with an SPD storage chamber 102 for the SPD partitioned by the partition wall 103 by extending one side of the casing of the breaker 100.

The present invention is divided into a breaker contact storage room 101, in which the breaker 100 contacts are stored, and an SPD storage room 102 in which the SPD PCB is accommodated, based on the partition wall 103 installed in the casing. The cover 104 is covered and fixed on the chamber 101 and the SPD storage chamber 102. As described above, the present invention may allow one cover 104 to cover both the contact storage chamber 101 and the SPD storage chamber 102, as shown in the cross-sectional view of FIG.

If necessary, as illustrated in FIG. 5, the covers 104 and 104 ′ separately formed in the contact storage chamber 101 and the SPD storage chamber 102 may be covered.

When the cover 104, 104 'separated in this way is used, the cover 104, 104' can be selectively opened and closed when a need for repair occurs.

In the present invention, the SPD accommodated in the SPD storage chamber 102 may be implemented in various forms.

For example, as shown in FIG. 6, the line RST and the neutral line N of each phase are connected to three MOVs 200, and the ground line G and the neutral line N are connected to the gas discharge device GDT. One PCB is configured, and the ground line G may be connected to the ground terminal G additionally installed at one side of the SPD storage room 102.

In addition, the embodiment shown in FIG. 6 is an example of using a MOV as a surge suppression device, and various devices such as SCR, GDT (Gas Discharge Tube), and TVS (Transient Voltage Suppressor) may be used.

As shown in FIG. 7, another type of PCB includes a plurality of voltage divider resistors 308 connected to a plurality of MOVs 200 connected to respective phases, and a plurality of voltage divider resistors 308 connected to each phase. The multiplexer 300 is configured to sequentially output the input voltage by the voltage dividing resistor 308 by the control, a surge detection unit 301 connected to the output of the multiplexer 300, and an output of the surge detection unit 301. It may be composed of an A / D converter 302, a microprocessor 303 connected to the A / D converter 302, a display unit 305 connected to the microprocessor 303, and a MOV abnormal display lamp 306. have.

In this type of PCB, when the surge voltage is applied through the RST line, the voltage divided by the voltage dividing resistor 308 is changed due to the current flowing across the MOV 200, and the voltage change is any of the multiplexers 300. It is applied to the surge detection unit 301 via one input side, and the surge detection unit 301 amplifies the signal waveform corresponding to the surge voltage, shape the waveform, and applies it to the A / D conversion unit 302 so that the digital corresponds to the surge voltage. Will print the data. The data is analyzed by the microprocessor 303 and accumulated as data in internal and external memories, and stored as data such as the number of surge inflows, the surge voltage, and the surge holding time. Therefore, the microprocessor 303 may indicate that the display unit 305 needs to be replaced based on these data by a built-in program.

When the voltage detected by the voltage dividing resistor 308 is below a predetermined range, since it is deteriorated and a leakage current is generated, it is possible to immediately drive the MOV abnormality display lamp 306 to replace it immediately.

In addition, in the present invention, the amount of transient surge current flowing through the MOV 200 may be calculated by the microprocessor 303 and displayed on the display unit 305. For this purpose, the surge current during the time when the voltage of the voltage divider resistor 308 drops. Multiplying the time the surge current is determined by the flow time and the voltage detected by the voltage dividing resistor and dividing it by the transient impedance of the MOV (200) can calculate the amount of transient surge current, the amount of such transient surge current to the display unit 305 By displaying, the operation state of the MOV 200 can be grasped.

In this manner, in the embodiment shown in FIG. 7, the degree of deterioration of the MOV 200 is measured, and the result of the replacement is determined according to the result, and the type of surge is analyzed to optimize the design of line wiring and equipment, and the arrangement of equipment. Etc. are possible.

Another type of PCB includes a plurality of temperature sensors 304 for sensing the surface temperatures of the plurality of MOVs 200 and a multiplexer 300 for selectively outputting the outputs of the plurality of temperature sensors 304 as shown in FIG. 8. A differential amplifier 307 for amplifying the output of the multiplexer 300, an A / D converter 302 for converting it to digital data, and a microprocessor to which the output of the A / D converter 302 is applied ( 303 and a display unit 306 for displaying the output of the microprocessor 303.

It detects the surface temperature of the MOV 200 with the temperature sensor 304 and applies it to the multiplexer 300, the multiplexer 300 sequentially applies the surface temperature value of the MOV 200 to the differential amplifier 307, The analog output value amplified and compared with the reference voltage in the differential amplifier 307 is converted into digital data by the A / D converter 302 and analyzed by the microprocessor 303, thereby allowing any of the surfaces of the plurality of MOVs 200 to be analyzed. If any one or more of the set temperature is determined to be deterioration, it is possible to display the MOV (200) to be replaced is easy to maintain.

In addition, the SPD PCB that can be used in the present invention may be a simple form by connecting the MOV 200 and the fuse in series.

In addition, although the MOV is used as the surge suppression device in the embodiment shown in FIGS. 7 and 8 of the present invention, this can also use various devices such as SCR, Gas Discharge Tube (GDT), and Transient Voltage Suppressor (TVS). Of course.

These various types of PCB are installed in the SPD storage room 102 to be wired with the inlet terminal and the secondary terminal of the circuit breaker 100, the ground terminal is wired, and then can be used by covering and assembling the cover 104.

In addition, in the present invention, by installing such a circuit breaker 100 is provided with an instantaneous trip means, by adjusting the magnitude of the instantaneous operating current so that excessive current does not flow in the MOV (200) installed on the secondary side of the circuit breaker 100 stability It can increase and have selective shutdown characteristics, which can increase the stability of the power system. To this end, in the present invention, it is preferable to provide the fastest thermal electromagnetic trip means. That is, the thermal electronic trip means sucks the movable core by the magnetic field generated from the fixed core when an overcurrent flows, and operates the trip cross bar to realize the instantaneous operation to automatically cut off, thereby obtaining the fastest operating speed. When the short circuit due to deterioration of the MOV (200) can be cut off the excessive current most quickly contributes to the stable operation of the line.

In addition, in the present invention, the instantaneous trip means may be installed in a fully electronic manner, and when the large current of 8 to 10 times or more of the rated current flows in the coil wound outside the oil dash pot (ODP), the coil is amateur. Is sucked to operate the Trip Cross Bar, and instantaneous operation is performed to automatically shut off, so that excessive current is rapidly cut off in the event of a short circuit due to the deterioration of the MOV 200 due to the high operating speed, thereby ensuring stable operation of the line. Will contribute.

In addition, the present invention is not limited to the above-described embodiments, and of course, the present invention may be embodied in various forms by combining various elements known within the spirit and concept of the present invention.

100: breaker 101: contact storage room
102: SPD storage room 103: partition wall
104,104 ': Cover 200: MOV
300: multiplexer 301: surge detection unit
302: A / D converter 303: microprocessor
304: temperature sensor 305: display unit
306: Abnormal display lamp 307: Differential amplifier
308: voltage divider resistance

Claims (7)

A breaker contact and an operating lever are provided inside the casing of the breaker,
The casing extends one side and is divided into a breaker contact compartment for storing breaker contacts based on the partition wall additionally installed, and an SPD storage compartment for storing the SPD PCB. Surge suppressor based multi-function instantaneous trip device. The method of claim 1,
The cover is a surge suppressor element-based multi-function instantaneous trip device, characterized in that the breaker contact compartment cover and the SPD storage compartment cover is formed separately. The method of claim 1,
The SPD PCB has a multiplexer connected to both ends of the plurality of MOVs and connected to the plurality of voltage divider resistors to sequentially output input voltages of the voltage divider resistors under the control of a microprocessor. And a surge detection unit connected to the output, an A / D conversion unit connected to the output of the surge detection unit, a microprocessor connected to the A / D conversion unit, a display unit connected to the microprocessor, and a surge suppression element fault display lamp. Multifunction instantaneous trip device based on suppressor element. The method of claim 3, wherein
The microprocessor multiplies the duration of the surge current by the voltage detected by the voltage dividing resistor, divides it by the transient impedance of the MOV, calculates the amount of transient surge current, and then displays it on the display unit 305 to display the amount of transient surge current flowing through the MOV. Surge suppression element based multi-function instantaneous trip device, characterized in that to enable. The method of claim 1,
The SPD PCB includes a plurality of temperature sensors detecting surface temperatures of a plurality of MOVs, a multiplexer selectively outputting a plurality of temperature sensor outputs, a differential amplifier for amplifying the outputs of the multiplexers, and A / A surge suppressor-based multifunction instantaneous trip device, comprising: a D converter, a microprocessor to which an output of the A / D converter is applied, and a display for displaying the output of the microprocessor. The method of claim 1,
The instantaneous trip means of the circuit breaker is a surge suppression device-based multi-function instantaneous trip device, characterized in that the thermal electronic. The method of claim 1,
The instantaneous trip means of the circuit breaker is a surge suppressor based multi-function instantaneous trip device, characterized in that fully electronic.

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