KR101092528B1 - The polymer insulating auto section switch built in metering outfit - Google Patents

Abstract

PURPOSE: An automatic polymer insulation type fault section opening/closing device with a metering outfit is provided to embed an electronic metering outfit and a winding type metering outfit with a vacuum valve, thereby reducing the volume of the installation space of the automatic polymer insulation type fault section opening/closing device and the metering outfit. CONSTITUTION: A vacuum valve(12) is connected to the end of a main conductor(15). The vacuum valve comprises a fixing axis(19). An electronic metering outfit(13) is formed on the external surface of the main conductor in a ring shape. A metering outfit cable(17) is connected to the electronic metering outfit. An electronic transformer(14) is connected to the end of the main conductor.

Description

The polymer insulating auto section switch built in metering outfit

The present invention relates to a fault zone automatic switch, and more particularly, to remove the oil or solid-insulated winding type transformer transformer of the conventional separate components, winding transformer transformer or electronic transformer transformer transformer The invention relates to a polymer insulated failure section automatic switch formed by molding a polymer together with a vacuum valve.

The switchgear is a device that presses high voltage power supplied through a substation to a commercial voltage and supplies it to a customer. In other words, the switchgear is a power receiving facility for receiving high voltage power supplied to each customer through a substation, a substation facility for stepping down the high voltage power supplied from the substation to a commercial voltage, and the electric power of each part in the customer. It includes distribution equipment, switch equipment and other safety devices for supply.

ASS (Auto Section Switch) is a device that is installed to protect the transformer, transformer, etc. (MOF: Metering Outfit), which is the receiving equipment of the customer. Most of the power distribution methods currently used mainly use three-phase four-wire multi-grounding. In the case of three-phase four-wire multi-grounding, a ground fault current in a ground fault can be as large as a short circuit current. In order to prevent such an accident spreading by automatically separating the accident section by cooperating with the circuit breaker of the substation and the recloser installed in the distribution line, the fault section is automatically cut off or opened. Is used. In Korea, installation of breakdown automatic switchgear is mandatory as a drawer switch when the capacity exceeds 300 kVA for a special high voltage simple power distribution facility capacity of less than 1000 kVA on a 22.9 kV distribution line. Figure 1 illustrates this.

As shown in FIG. 1, the conventional failure section automatic switch (ASS) has been manufactured and installed as a separate product from the transformer transformer current transformer (MOF). Figure 2 is a view showing the external appearance of a conventional fault automatic switch (ASS), Figure 3 is a view showing the external appearance of a conventional transformer current transformer. As described above, the conventional breakdown automatic switchgear and the transformer transformer current transformer have been manufactured as a separate product, and thus require a large installation space and are manufactured as a separate product. In addition, an oil insulation interruption method or a gas insulation method using SF6 gas has been used as an automatic failure switch. As the failure section automatic switchgear and the transformer transformer current transformer is formed separately, each installation position is required, and the installation space is inevitably increased, and a technique for solving such a conventional problem is illustrated in FIG. 4. In the case of Figure 4, Patent No. 0905500 proposes a technique for a slim type fault zone automatic switch with a transformer transformer current transformer and a partial discharge sensor. As shown in Figure 4, the inside of the switch is insulated using SF6 gas. In FIG. 4, the breaker 200 and the inner space 150 formed inside the enclosure 100 and the inner case 100 of the failure section automatic switchgear are represented, and the SF6 gas is filled in the inner space 150. .

As described above, in the prior art, there is a problem in that the volume becomes large in that the failure section automatic switchgear and the transformer transformer current transformer are separately installed, and if the gas leaks by using SF6 gas, it will be a new pollution problem. There was a problem that can be, there was also a problem that a separate treatment device is required for the post-treatment of waste gas.

The present invention has been made to solve the above problems, built-in electronic or winding type transformer transformer current transformer with a vacuum valve failure zone that can reduce the volume of the installation space of the automatic switchgear and transformer transformer current transformer To provide automatic switchgear.

In addition, an object of the present invention is to provide a breaker automatic switchgear that is easy to handle and easy to install as a polymer insulator, which is formed with a vacuum circuit breaker and built-in a transformer or transformer winding transformer through a polymer insulator.

In addition, an object of the present invention is to provide a failure section automatic switch without using the gas insulation method.

In order to achieve the above object, the present invention provides a main conductor 15, a vacuum valve 12 connected to an end of the main conductor, a fixed shaft 19 of the vacuum valve 12, and the main conductor. An electric current transformer 13 formed in an annular shape at a predetermined interval on the outer circumferential surface of the 15, a current transformer cable 17 connected to the electric current transformer, an electronic transformer 14 connected to an end of the main conductor 15, and And a switch 10 formed of a polymer housing 16 in which a transformer cable 18 connected to the electronic transformer 14 is integrally injection molded; and the power is opened by the operation of the vacuum valve 12 of the switch. Or a manipulator unit 30 to be introduced or provided; provides a polymer insulated failure section automatic switch with a transformer transformer current transformer built therein.

In addition, the present invention is the main conductor 15, the vacuum valve 12 connected to the end of the main conductor, the fixed shaft 19 of the vacuum valve 12 and the outer peripheral surface of the main conductor 15 The winding type transformer current transformers 13 'and 14', which are formed and mounted in an annular shape at predetermined intervals, and the transformer transformer cable 17 'connected to the winding type transformer current transformers 13' and 14 ', A switch 10 formed integrally with the injection molded polymer housing 16; and a manipulator 30 which is opened or powered by the operation of the vacuum valve 12 of the switch; Provides a polymer insulated fault zone automatic switch with a transformer transformer.

The present invention has the advantage of increasing the reliability of the product quality as a polymer insulation type built-in electronic or winding transformer current transformer and a vacuum valve, and also has the advantage that can open and close the failure section without using the conventional SF6 gas.

The polymer to be injection molded in the present invention may use epoxy, silicone or EPDM.

In the present invention, the signal measured by the electronic transformer 14 and the current transformer 13 is transmitted to the controller 62 through the cable 40, the controller 62 can be mounted to the control box 60 formed separately. have. In addition, in the present invention, the signal measured by the transformer current transformer 13 ', 14' for the winding type instrument is transmitted to the controller 62 through the cable 40, the controller 62 is formed separately control unit 60 ) Can be mounted.

The signal measured by the electronic transformer and the current transformer may be transmitted to the control unit, and the amount of power may be indicated on the electronic wattmeter provided in the control unit. In addition, the control unit 60 may further include an amplification device and a power supply device in addition to the electronic wattmeter, and not only control the switch through the controller, but also signals measured by the electronic transformer and the current transformer through the power supply device and the amplification device. The signal can also be amplified and transmitted to an existing meter. In the case of the transformer-type transformer for winding type instruments, the measured signal may be transmitted to the control compartment, and the power level signal may be transmitted to the wattmeter provided in the control compartment via a controller provided in the control compartment and marked on the wattmeter.

In the present invention, the information of the electronic electricity meter included in the control unit 60 may be wirelessly transmitted to the outside. The signal measured by the electronic transformer and the current transformer may be amplified by using the amplification device and the power supply device provided in the control unit 60 to the outside, and may be displayed on the conventional power meter 70. In addition, the signal measured by the transformer current transformer for winding type instrument may be transmitted to the outside by using the power supply 66 'provided in the controller to be displayed on the power meter 70 previously used.

The present invention has an effect of reducing the installation space of the conventional inlet and SF6 gas insulation failure zone automatic switch and the transformer transformer transformer by incorporating an electronic or winding transformer transformer in the vacuum valve and the polymer insulator.

In addition, the present invention has the advantage of being easy to handle and easy to install as a polymer insulated valve formed of a vacuum valve and the transformer current transformer for electronic or winding type in the polymer housing.

In addition, the present invention does not use a gas insulation method has the advantage of being environmentally friendly.

1 is a connection diagram of a power receiving equipment showing the arrangement of the faulty automatic switchgear and transformer transformer current transformer.
Figure 2 is a cross-sectional view of a conventional fault automatic switchgear.
3 is a cross-sectional view of a conventional transformer current transformer.
Figure 4 is a cross-sectional view of the conventional failure interval automatic switch.
5 is a side view of a failure section automatic switch according to an embodiment of the present invention.
6 is a cross-sectional view of a failure section automatic switch according to an embodiment of the present invention.
Figure 7 is a schematic diagram showing a state connected to the failure interval automatic switch and the control box according to an embodiment of the present invention.
Figure 8 is a schematic diagram showing a state connected to the failure interval automatic switch and the control box according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention in which the above object can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same members and the same reference numerals are used for the same members, and additional description thereof will be omitted below.

5 is a side view of a failure section automatic switchgear according to an embodiment of the present invention, FIG. 6 is a cross-sectional view of a failure section automatic switchgear according to an embodiment of the present invention, and FIG. 7 is a control section of a failure section automatic switchgear according to an embodiment of the present invention. 8 is a schematic diagram showing a connected state, and FIG. 8 is a schematic diagram showing a state in which a failure section automatic switchgear and a control box are connected according to another embodiment of the present invention.

5 to 7 will be described in detail an embodiment according to the present invention. The failure section automatic switch according to the present invention includes a main conductor 15, a vacuum valve 12 connected to an end of the main conductor, a fixed shaft 19 of the vacuum valve 12, and the main conductor ( An electric current transformer 13 formed in an annular shape at a predetermined interval on the outer circumferential surface of the 15), a current transformer cable 17 connected to the electric current transformer, an electronic transformer 14 connected to an end of the main conductor 15, A switch 10 formed of a polymer housing 16 in which a transformer cable 18 connected to the electronic transformer 14 is integrally injection molded; and the power is opened by the operation of the vacuum valve 12 of the switch. It is composed of a manipulator 30 is injected. A feature in the embodiment of the present invention is that a vacuum valve is used as the switch. By using the vacuum valve 12 has the advantage that it is not necessary to insulate the SF6 gas in a separate space. In addition, the embodiment of the present invention is characterized in that the electronic current transformer 13 and the transformer 14 are injection molded with a polymer together with the vacuum valve 12. This has the advantage of significantly reducing the reliability, installation space and installation cost compared to the conventional failure section automatic switchgear. The polymer housing 16 used in the present invention may use epoxy, silicone or EPDM. The injection molding of the vacuum valve and the electronic transformer current transformer together with the polymer housing 16 takes the form of the electronic transformer current transformer built into the vacuum valve. Therefore, the structure may be simple, easy to manufacture, and simple to install. In addition, the automatic operation of the failure section is operated by the operation of the vacuum valve, and thus does not require a large volume of installation space as in the prior art, there is an advantage that the installation is easy.

The manipulator 30 is mounted to the lower part of the switch 10. The manipulator section 30 is a configuration for manipulating opening and closing of power by the switch. The opening and closing of the power supply by the operation unit can be performed automatically and manually. The manipulator section 30 is also provided with a cable 40 for transmitting signals measured by an electronic current transformer and a transformer, through which the signal is transmitted to the control compartment 60. The electronic power meter 61 is mounted on the upper portion of the control box 60, and the controller 62 is mounted on the lower portion of the control box 60. The controller 62 receives the signals of the electronic current transformer 13 and the electronic transformer 14 to control the failure section automatic switch 10. The amplification device 67 and the power supply unit 66 of the control unit 60 amplifies the measurement signal of the transformer current transformer for the electronic instrument, and transmits the amplified signal for the power amount to the electronic wattmeter, to express the amount of power through the wattmeter have.

In addition, the information of the electronic electricity meter included in the control unit 60 may be transmitted to the outside wirelessly. The control unit 60 is provided with an amplifying device 67 and a power supply device 66, by amplifying the signal by the amplifying device 67 it is possible to transmit the signal to the existing power meter (70).

8 is a view showing another embodiment according to the present invention. The configuration of the failure section automatic switchgear according to the present embodiment includes a main conductor 15, a vacuum valve 12 connected to an end of the main conductor, a fixed shaft 19 of the vacuum valve 12, and the main Transformer-type transformer current transformers 13 'and 14', which are formed and mounted in an annular shape at a predetermined interval on the outer circumferential surface of the conductor 15, and transformers connected to the transformer-type transformers 13 'and 14'. A switch 10 formed of a polymer housing 16 into which the current transformer cable 17 'is integrally injection molded; and a manipulator 30 to which power is opened or input by operation of the vacuum valve 12 of the switch; It consists of. Conventional winding transformers 13 'and 14' are formed by injection molding with a polymer together with a vacuum valve 12, thereby ensuring product reliability, simplifying structure and manufacturing costs, and providing installation space and It also has the advantage of reducing installation costs. By winding the transformer-type transformers 13 'and 14' for polymers in the vacuum valve 12 with polymer, the structure can be simplified.

The manipulator 30 is formed at the lower portion of the switch 10, and the manipulator cuts power by the operation of the vacuum valve 12. The opening and closing of the power supply by the operation unit can be performed automatically and manually. The manipulator section 30 is also provided with a cable 40 which transmits a signal measured by the transformer current transformer for winding type instrument, through which the signal is transmitted to the control box 60. The electronic power meter 61 is mounted on the upper portion of the control box 60, and the controller 62 is mounted on the lower portion of the control box 60. The controller 62 receives the signals of the transformer-type transformers 13 'and 14' of the winding type instrument to control the failure section automatic switch 10, and also transmits a signal for the amount of power to the electricity meter 61, 61) power can be expressed.

In addition, the information of the electronic electricity meter included in the control unit 60 may be transmitted to the outside wirelessly. The control box 60 is provided with a power supply 66 ', and also sends a signal measured by the winding transformer 13' and 14 'to the outside by using the power supply 66' provided in the controller. It may be indicated on the electricity meter 70 used in.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention,

Accordingly, the above-described embodiments are to be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

10: vacuum switch
11: inlet 12: vacuum interrupter
13: electronic current transformer 14: electronic transformer
15: withdrawal portion 16: polymer housing
17 current transformer cable 17 'transformer transformer cable
18: transformer cable
19: fixed shaft 20: movable shaft
30: operation unit 31: cable outlet
32: fixed footrest
40: control cable
60: control unit 61: electronic power meter
62, 62 ': controller 63: enclosure
65: signal cable 66, 66 ': power supply
67: amplification device
70: conventional electricity meter

Claims (10)

The main conductor 15, the vacuum valve 12 connected to the end of the main conductor, the fixed shaft 19 of the vacuum valve 12 and the outer peripheral surface of the main conductor 15 at an annular space An electronic current transformer 13, a current transformer cable 17 connected to the electronic current transformer, an electronic transformer 14 connected to an end of the main conductor 15, and a transformer connected to the electronic transformer 14 Switch 10 is formed of a polymer housing 16, the cable 18 is integrally injection molded; and
A manipulator unit 30 to which power is opened or input by operation of the vacuum valve 12 of the switch;
Polymer insulated fault zone automatic switch with transformer current transformer built in, characterized in that consisting of.
The main conductor 15, the vacuum valve 12 connected to the end of the main conductor, the fixed shaft 19 of the vacuum valve 12 and the outer peripheral surface of the main conductor 15 at an annular space The transformer-type transformer transformer (13 ', 14') and the transformer transformer cable (17 ') connected to the wound transformer transformer (13', 14 ') is formed integrally injection molded Switch 10 formed of a polymer housing 16; And
A manipulator unit 30 to which power is opened or input by operation of the vacuum valve 12 of the switch;
Polymer insulated fault zone automatic switch with transformer current transformer built in, characterized in that consisting of.
The method according to claim 1 or 2,
The injection-molded polymer is a polymer insulation failure interval automatic switch with a transformer transformer current transformer, characterized in that using epoxy, silicon or EPDM.
The method according to claim 1,
The signal measured by the electronic transformer 14 and the current transformer 13 is transmitted to the controller 62 through the cable 40, the controller 62 is mounted to the control box 60 formed separately Polymer insulation fault zone automatic switch with built-in transformer current transformer.
The method of claim 4,
The control box 60 is a polymer insulated failure section automatic switchgear built-in transformer current transformer, characterized in that it further comprises an electronic electricity meter.
The method of claim 4,
Information of the electronic watt-hour meter included in the control box 60, the polymer insulation fault zone automatic switch with a transformer transformer current transformer, characterized in that it can be transmitted to the outside wirelessly.
The method of claim 4,
The control unit 60 may further include an amplification device and a power supply device for amplifying the signal of the transformer current transformer for the electronic instrument, and may be displayed on the electronic power meter 61 by receiving the signal amplified by the amplification device. Polymer isolated fault zone automatic switch with transformer current transformer for instrumentation, characterized in that there is.
The method according to claim 2,
The signal measured by the transformer-type transformers 13 ′ and 14 ′ for the winding type instrument is transmitted to the controller 62 through the cable 40, and the controller 62 is mounted to the separately formed control box 60. A polymer insulated fault zone automatic switch with a transformer transformer.
The method according to claim 8,
The control box 60 is a polymer insulated failure section automatic switchgear built-in transformer current transformer, characterized in that it further comprises an electronic electricity meter.
The method according to claim 9,
The control unit 60 includes a power supply 66 'for driving an electronic wattmeter, and the signal measured by the transformer current transformer 13'.14' through the power supply 66 '. A polymer insulated failure section automatic switch with a transformer current transformer for instrumentation, characterized in that the transmission to the outside.

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