KR100966591B1 - The apparatus and method of checking a switchgear with test socket - Google Patents

Abstract

PURPOSE: An apparatus and a method of checking a switchgear with test socket is provided to inspect the switchgear accurately without limitation in measuring space by utilizing a test sock structure. CONSTITUTION: A backend supporting part(130) comprises a first nut groove(131), a second nut groove(132), a third nut groove(133), a fourth nut groove(134), a fifth nut groove(135) and a sixth nut groove(136) formed along the circumference of a supporting plate. A socket is fixed to a switchgear by applying a M8 bolt to the first nut groove, the third nut groove, and the fifth nut groove.

Description

Test socket-mounted switchboard inspection device and its manufacturing method {THE APPARATUS AND METHOD OF CHECKING A SWITCHGEAR WITH TEST SOCKET}

The present invention relates to a test socket-mounted switchboard inspection apparatus and a method of manufacturing the same.

Switchgear converts the special high voltage electricity supplied from KEPCO to factories, buildings, hospitals, apartment complexes, and various industrial facilities that require electric power to low voltage and rated capacity that meet the ratings of the actual equipment and equipment. It is a device that operates, controls and monitors electrical facilities so that they can be used safely.

The switchgear is composed of a special high voltage plate to which a special high voltage of 25.8 kV rated voltage supplied from KEPCO is applied, a transformer (power transformer) for transforming power, a low voltage switchgear and an MCC panel (MOTOR CONTROL CENTER).

At present, as the consumption of electricity increases day by day, the facilities of electricity are becoming larger and more advanced, and the facilities of switchboards (water and distribution devices) are also becoming larger.

In other words, in order to meet the increase in size of the electric consumer, when the power unit, the transformer unit, the power distribution unit, and the rectifier unit are enclosed, each unit enclosure is enclosed in a row. There is a problem in utilizing the space because it is expanded more than necessary and occupies a lot of installation area when installed indoors.

In order to solve these problems, the so-called reduced type switchgear which is integrated with a switchgear unit enclosure before and after, but consists of a low-voltage switchgear at the front part, and a special high-voltage transformer at the rear part is widely used. .

However, when measuring the commercial frequency withstand voltage and shock withstand voltage and the resistance of the main circuit, since the door of the switchgear must be opened and closed one by one, the measurement takes a lot of time, and there is a problem that a lot of measurement errors occur due to incorrect grounding.

In addition, because there are so many types of switchboards and the internal structure is complicated, it is difficult to connect the test lead cable and the current testing connector, so that a separate test cable is applied directly inside the switchboard to directly test lead cables (Test Lead). Cable) and current testing connector.

In order to solve the above problems, the present invention has a structure in which test sockets are installed in advance when fabricating switchboards, and thus, commercial frequency withstand voltage, impact withstand voltage, and main circuit resistance can be easily measured, and the switchboard can be accurately checked without limitation of measurement space. It is an object of the present invention to provide a test socket-mounted switchboard check device and a method of manufacturing the switchgear that can prevent an accident in advance by checking the deterioration state of the switchboard and the insulator at all times.

In order to achieve the above object, the test socket-mounted switchboard check apparatus according to the present invention includes a disconnecting unit (DS) for separating contact from a bus (BUS BAR) connecting conductor through which power is supplied when connecting or replacing a wire or a connecting cable; A circuit breaker (CB) connected to the disconnector (DS) to block when an abnormal current flows to protect the connection cable or the transformer (CT, PT) for the instrument; a bus (BUS BAR) connection conductor, a disconnector (DS), Connection cable for connecting the breaker (CB), transformers (CT, PT) for the instrument; consisting of a device for checking the switchboard configured,

The switchboard inspection device is connected to the connection cable and the socket head installed in the rear of the switchboard, and one side of the rear support part is exposed and formed to the outside to test the test lead cable (Test Lead Cable) and the circumference of the commercial frequency withstand voltage A test socket 100 for checking a switchboard by inserting a current testing connector measuring a furnace resistance from the outside into the inside direction is achieved.

In addition, the manufacturing method of the test socket of the test socket switchboard inspection apparatus according to the present invention

Insulator is injected around the socket head part inside the test socket mold coated with carbon black, and then hardened at 100 to 130 ° C for 1 hour, and cured at 120 to 140 ° C for 1 to 2 hours to form an insulator around the socket head part. Made up of

The insulator is epoxy resin having a specific gravity of 2.0 g / cm 3 (25 ° C.), tensile strength of 60 to 80 N / mm 2, and water absorption of 0.1 to 0.2% (23 ° C./10 days). 70wt%,

Hardener 29-50 wt%,

0.1 to 5 wt% of a curing accelerator was mixed to first cure at 100 to 130 ° C., and 200 mesh calcium carbonate (CaCO ₃ ), a filler, was maintained at an isothermal temperature within a range of 120 to 140 ° C. based on the amount of the epoxy resin. It is characterized in that the composition is added to ~ 60phr (part per hundred resin).

As described above, in the present invention, the commercially available frequency withstand voltage, impact withstand voltage, and main circuit resistance can be easily measured with the test socket structure, can be quickly checked, and the switchboard can be accurately checked without the measurement space limitation. Compared to the switchboard inspection device of the compatibility is good effect.

First, as illustrated in FIG. 4, the switchboard 10 described in the present invention separates contact from a bus bar connecting conductor 11 through which power flows when connecting or replacing a wire or a connecting cable therein. A circuit breaker (DS) 12 connected to the circuit breaker (DS) and a circuit breaker (CB) (13) to protect the connection cable or the transformer (CT, PT) 14 by blocking when an abnormal current flows. And a connection cable 15 for connecting the bus bus connecting conductor, the disconnecting device DS, the breaker CB, and the transformers CT and PT for the instrument.

The test lead cable 300 described in the present invention is a device for measuring the commercial frequency withstand voltage and the shock withstand voltage of a switchgear, which is illustrated in FIG. 6, an outdoor termination (A). ), The cable (B), the connector (C), and the head (D).

Herein, the connector C is formed by protruding the first bolt, the second bolt, and the third bolt along the circumference, and are inserted into the second nut groove, the fourth nut groove, and the sixth nut groove of the rear end of the test socket, respectively. Bolt is tightened.

Test lead cable (Test Lead Cable) described in the present invention has a characteristic that the maximum operating voltage is 42kV [Um], the commercial frequency withstand voltage is 80kV [1min], and the lightning shock withstand voltage (BIL) is 200kV.

In addition, the current testing connector (Current Testing Connector) 400 described in the present invention is a device for measuring the main circuit resistance of the switchboard, which is, as shown in Figure 7, the closed circuit connection (A '), the spring connector ( B), the head part C is comprised.

Herein, the spring connector C is formed by protruding the fourth bolt, the fifth bolt, and the sixth bolt along the circumference, respectively, in the second nut groove, the fourth nut groove, and the sixth nut groove of the rear end of the test socket. Inserted and bolted.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a test socket-mounted switchboard inspection apparatus according to the present invention, which comprises a test socket 100 and a dummy plug 200.

First, the test socket 100 according to the present invention will be described.

The test socket 100 is installed in the rear side of the switchboard, and the socket head part is connected to the connection cable inside the switchboard, and one side of the rear end is exposed and formed outside to test the commercial frequency withstand voltage and impact withstand voltage ( Test Lead Cable) and the current testing connector (Current Testing Connector) to measure the resistance of the main circuit is inserted from the outside to check the switchboard, which is the socket head portion 110, the socket body portion 120, the rear end support portion It consists of 130.

The socket head part 110 is protruded in a rod shape and is connected to the connection cable inside the switchboard, which is made of Cu, and a bus lead connection bus of the switchboard is connected to the test lead cable through a connection cable. It serves as a seam to flow to the head of the head and the head of the current testing connector (Current Testing Connector).

As shown in FIG. 2, the socket head 110 includes a head of a test lead cable inserted into a multi-stage insertion space of a socket body and a head of a current testing connector. A Cu conductor layer is formed along the perimeter.

The socket body portion 120 is formed around the head portion and is formed in a bushing shape in which the area becomes wider toward the right direction, and the head portion of the test lead cable and a current testing connector therein. A multistage insertion space portion corresponding to the shape of the head portion of 1) is formed to serve to insert the head portion of the test lead cable and the head portion of the current testing connector.

As shown in Figure 2, the outer shape is formed while surrounding the head portion is formed in a bushing shape that the area becomes wider toward the right direction.

Then, the rear end supporting portion made of a hexagonal support plate on one side of the rear end is formed integrally.

As shown in FIG. 2, the socket body portion has a multi-stage insertion that corresponds 1: 1 with a head shape of a test lead cable and a head shape of a current testing connector. The space part 121 is formed.

Here, the multi-stage insertion space portion is, for example, formed of a first insertion space portion 121a into which the head of the test lead cable is inserted, and a larger area than the first insertion space, so that the test lead cable (Test Lead) can be used. And a second insertion space portion 121b into which the lead portion of the cable is inserted.

As such, the reason why the multi-stage insertion space is formed in the socket body is 1: 1 in correspondence with the shape of the head of the test lead cable and the shape of the head of the current testing connector. It is designed to make it easy to measure commercial frequency withstand voltage, shock withstand voltage and main circuit resistance with 1: 1 customized insertion structure.

The rear end support part 130 is formed of a hexagonal support plate having a hollow hole on one side of the rear end of the socket body part, and a plurality of nut grooves are formed along the circumference of the hexagonal support plate and inserted into the socket body part (Test Lead cable) and current testing connector are bolted together to support it from shaking.

As shown in FIG. 3, the rear end support 130 has a first nut groove 131, a second nut groove 132, a third nut groove 133, and a fourth nut groove along the circumference of the hexagonal support plate. 134, the fifth nut groove 135, and the sixth nut groove 136 are formed.

Here, the first nut groove 131, the third nut groove 133, the fifth nut groove 135 is fixed to the switchboard by using an M8 bolt, the second nut groove 132, the fourth nut groove. 134 and the sixth nut groove 136 include the first bolt, the second bolt, the third bolt of the test lead cable, and the fourth bolt and the fifth bolt of the current testing connector. The sixth bolt is inserted into each of the sixth bolts, and the seventh bolt, the eighth bolt, and the ninth bolt of the dummy plug are usually inserted into and fastened.

Next, a dummy plug 200 according to the present invention will be described.

The dummy plug (200) is a socket body portion when the completion of the measurement of the commercial frequency withstand voltage and shock withstand voltage through the test lead cable and the measurement of the main circuit resistance through the current testing connector (Current Testing Connector), In sealing the entrance,

As shown in FIG. 1, the insertion part 210 which seals the socket body part inlet is formed to protrude, and a plurality of bolt fastening parts 220 protrude to the rear end of the insertion part to be fastened to the nut groove of the rear support part. And, the steel cover plate 230 is formed on the rear end of the bolt connection portion serves to protect the test socket from the impact of external pressure.

The insertion part of the dummy plug is made of silicone rubber.

5 is a dummy plug at the socket body inlet when a commercial frequency withstand voltage and impact withstand voltage measurement is completed through a test lead cable and a main circuit resistance measurement is completed through a current testing connector. It also relates to an embodiment showing the sealing to.

Hereinafter, a method of manufacturing a test socket of the test socket switchboard inspection apparatus according to the present invention.

Method of manufacturing a test socket of the test socket switchboard inspection apparatus according to the present invention

The insulator is injected around the socket head inside the test socket mold coated with carbon black, and then hardened at 100 to 130 ° C. for 1 hour to 2 hours at 120 to 140 ° C. to form an insulator around the socket head part. Made up of

The insulator is epoxy resin having a specific gravity of 2.0 g / cm 3 (25 ° C.), tensile strength of 60 to 80 N / mm 2, and water absorption of 0.1 to 0.2% (23 ° C./10 days). 70wt%,

With 29-50 wt% of hardener,

0.1 to 5 wt% of a curing accelerator was mixed to first cure at 100 to 130 ° C., and 200 mesh calcium carbonate (CaCO ₃ ), a filler, was maintained at an isothermal temperature within a range of 120 to 140 ° C. based on the amount of the epoxy resin. ~ 60phr (part per hundred resin) is added to the composition.

In the insulator, the breakdown voltage is all dependent on the thickness d of the sample except the thin film region of micrometer or less. However, in the case where the actual high voltage is not applied to the insulator, the material and insulation ability of the epoxy forming the insulator are more than the thickness of the insulation.

The manufacture of the insulator is to inject the epoxy resin around the socket head portion maintaining the temperature of 30 ~ 35 ℃ to be molded in the test socket mold.

That is, a socket head part protruding in a rod shape is connected to the connection cable inside the switchboard, and is formed while surrounding the socket head part, and a socket body part is formed in a bushing shape in which the area becomes wider toward the right direction. The rear end support part which consists of a hexagonal support plate which has a hollow hole in one end part is formed.

Here, the socket head portion is insert molded to have a bar-shaped protrusion at a predetermined size at the upper end of the insert body portion.

The socket head portion is made of Cu.

Then, carbon black is applied to the surface of the test socket mold to prevent internal cracks from being formed during the molding of the insulator. In addition, chlorine ethylene may be applied as a release agent to facilitate separation of the insulator from the test socket mold.

When the amount of the epoxy resin is less than 40wt%, the durability of the test socket is inferior, the molding of the insulator is not easy, and even if it exceeds 70wt%, the durability and insulation properties may be deteriorated. It is preferable to use within the range of%.

The hardener uses phthalic anhydride as a hardener with no moisture at all. When the amount of the curing agent is less than 29wt%, mechanical strength and chemical resistance are inferior, and when it exceeds 50wt%, the insulation may be inferior, so the amount of the curing agent is preferably maintained in the range of 29 to 50wt%.

The hardening accelerator is any one or more amine hardening accelerators selected from phenol, cresol, and nonylphenol. When the amount of the hardening accelerator is less than 0.1wt%, the time for hardening is long. If the required amount exceeds 5wt%, the molding of the insulator is not easy, so the amount of the curing accelerator used is preferably maintained in the range of 0.1 to 5wt%.

When the amount of the filler is less than 45 phr relative to the amount of the epoxy resin, it is difficult to see a large effect on the insulating properties, and when the amount of the filler exceeds 60 phr, the impact strength is lowered, so the amount of the filler is 45 to about the amount of the epoxy resin. It is desirable to keep it in the range of 60 phr.

In addition, the isotherm of the filler is related to the internal temperature of the test socket mold, and the durability of the insulator is high and the incidence of cracking decreases in the range in which the internal temperature of the test socket mold is maintained at 120 to 140 ° C. It is preferable that the addition of is made in the range of 120-140 degreeC.

An example of the specific structure of the insulator is 70kg of bisphenol A type epoxy resin, 29.5kg of phthalic anhydride and 0.5kg of nonylphenol, followed by primary curing at 110 ° C, and CaCO while maintaining an isothermal temperature of 130 ° C. ₃ 35 kg is mixed and cured for 2 hours to form an insulator.

In addition, the apparatus used to manufacture the test socket of the present invention is to prepare a test socket molded body by installing an agitator in a mold provided with a heating means such as a heater.

Hereinafter, a detailed operation process of the test socket-mounted switchboard inspection apparatus according to the present invention will be described.

[Withstand voltage and impact withstand voltage]

First, the bus bar inside the switchboard and the copper conductor 110a inside the socket are connected with a connection cable made of copper material, and the dummy plug which is usually bolted to the rear end support 130 of the test socket is removed. do.

Subsequently, as shown in FIG. 8, the head portion of the test lead cable is inserted into the test socket body portion and fixed to the rear end of the socket head portion.

Subsequently, the first bolt, the second bolt, and the third bolt of the test lead cable are inserted into the second nut groove, the fourth nut groove, and the sixth nut groove of the rear end support 130 to be bolted to each other.

Subsequently, the withstand voltage and impact withstand voltage measurement of the switchboard is completed through the test lead cable.

[Main Circuit Resistance Measurement]

First, the bus bar inside the switchboard and the copper conductor 110a inside the socket are connected with a connection cable made of copper material, and the dummy plug which is usually bolted to the rear end support 130 of the test socket is removed. do.

Subsequently, as shown in FIG. 9, the head portion of the current testing connector is inserted into the test socket body portion and fixed to the rear end of the socket head portion.

Subsequently, the fourth bolt, the fifth bolt, and the sixth bolt of the current testing connector are inserted into the second nut groove, the fourth nut groove, and the sixth nut groove of the rear end supporting part to be bolted.

Then, the main circuit resistance measurement of the switchboard is completed through the current testing connector.

1 is a perspective view showing the configuration of a test socket 100 and a dummy plug 200 of the test socket installation switchboard inspection apparatus according to the present invention,

2 is an internal sectional view showing the internal components of the test socket 100 according to the present invention;

3 is a block diagram showing the configuration of the rear end support 130 of the components of the test socket 100 according to the present invention,

Figure 4 is a cross-sectional view showing the internal components of the switchboard check device configured with a test socket connected to the connection cable inside the switchboard according to the invention,

Figure 5 is a cross-sectional view showing the internal components of the switchboard check device configured with a test socket and a dummy plug connected to the connection cable inside the switchboard according to the invention,

Figure 6 is a perspective view showing the configuration of a test lead cable (Test Lead Cable) is inserted into the inner direction of the test socket according to the present invention for measuring the commercial frequency withstand voltage, impact withstand voltage of the switchboard,

7 is a perspective view showing the configuration of a current testing connector (Current Testing Connector) is inserted into the test socket according to the present invention to measure the main circuit resistance of the switchboard;

 8 is an embodiment showing that the head portion of the test lead cable according to the present invention is inserted into the test socket body portion and fixed to the rear end of the socket head portion.

Figure 9 is an embodiment showing that the head portion of the current testing connector according to the present invention is inserted into the test socket body portion and fixed to the rear end of the socket head portion.

※ Brief description of reference numerals ※

1: switchboard inspection device 10: switchboard

100: test socket 110: socket head portion

120: socket body 130: rear end support

200: dummy plug

Claims (5)

Disconnector (DS) that disconnects the contact from the bus (BUS BAR) connecting conductor that the power flows when connecting or replacing the wire or connecting cable; Connected to the disconnector (DS) and cut off when abnormal current flows Or circuit breaker (CB) to protect transformers (CT, PT), and bus cables (BUS BAR) connection conductors, disconnectors (DS), breakers (CB), and connection cables for connecting transformers (CT, PT) ; Consists of a device (1) for checking the configured switchboard, The switchboard inspection device 1 is a test lead cable for connecting a connection cable and a socket head part installed in the rearward direction of the switchboard, and one side of the rear support part is exposed and formed outside to measure commercial frequency withstand voltage and shock withstand voltage. And a socket head part 110, a socket body part 120, and a rear end support part 130 to check the switchboard by inserting a current testing connector measuring the main circuit resistance from the outside inward. In the test socket-mounted switchboard check device configured to include a socket 100, The rear end support 130 has a first nut groove 131, a second nut groove 132, a third nut groove 133, a fourth nut groove 134, and a fifth nut groove along the circumference of the hexagonal support plate. 135), a sixth nut groove 136 is formed, and the socket is fixed to the switchboard using M8 bolts in the first nut groove 131, the third nut groove 133, and the fifth nut groove 135. The first bolt, the second bolt, the third bolt, and the current testing connector of the test lead cable in the second nut groove 132, the fourth nut groove 134, and the sixth nut groove 136. The fourth, fifth, and sixth bolts of the Current Testing Connector are inserted into the socket body, respectively, so that the test lead cable and the current testing connector are inserted into the socket body so as to be firmly supported. Test socket-type switchboard inspection apparatus characterized in that the configuration. delete delete delete delete

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