KR101161850B1 - Connector of transmitting special high voltage for input - Google Patents

Abstract

The present invention is relatively easy to combine and disconnect the line for inputting a special high voltage to the transformer for long-distance transmission of electricity while maintaining a stable electrical contact transmission and distribution to prevent the occurrence of short circuit, short circuit, spark, electric shock It is related to the lead wire connector of the special high voltage line.The lower part is connected to the center conductor, and the special high pressure line is connected to the upper side to make electrical contact and to separate the high voltage line by external force applied to the separation groove. The extra high voltage line and the lead-in connector, which are installed in the upper side by screwing in the screw and electrically contact with the core wire of the extra high voltage line, and the extra high voltage line includes a finish to block separation by external force from the connection part. It is easy to combine and detach with the product, and the electrical contact is simple and stable. Without a short-circuit, short circuit, sparks and electric shock accident may occur, maintenance is easy to effect.

Description

Connector of transmitting special high voltage for input

The present invention relates to a lead wire connector of a special high-voltage line for transmission and distribution, and more particularly, the electrical contact is stably maintained while the coupling and separation of the line for inputting the high voltage to the transformer transformed for long distance power distribution of electricity. The present invention relates to a lead wire connector of a special high voltage line for power transmission and distribution that prevents occurrence of short circuit, short circuit, spark, electric shock, and the like.

In power plants including thermal power plants, hydro power plants, and nuclear power plants, electricity generated at a voltage of about 20,000 V is boosted to an ultra-high voltage (154 KV or 345 KV) suitable for transmission, and the boosted electricity is transferred to the primary substation through an ultra-high voltage line. It is transmitted.

The primary substation drops the distributed high voltage electricity to 22.9 KV, which is a special high voltage, and transmits or distributes it to each customer including a factory along a secondary substation or distribution line located near a large capacity customer.

Electricity distributed from the primary substation or secondary substation is transmitted or distributed to the receiving facility of each customer through the transmission and distribution system consisting of overhead distribution lines and underground distribution lines, and is distributed to the special high voltage consumer, the high pressure consumer, and the general consumer through various transformers. .

The inlet or outlet connector of the transformer installed in the transformer and connected to the extra-high voltage line (cable) for remote transmission should be free from the risk of short circuits and sparks, and the wire should be easily attached and detached and the electrical connection should be kept stable.

As a related art, a technology related to a lead wire connector of a special high voltage line for power transmission and distribution is a “bushing mounted on the high pressure side and the low pressure side of a column transformer” according to Patent Registration No. 10-388853 (2003.06.12.).

1 is a block diagram of a lead wire connector of a special high-voltage line for transmission and distribution according to an embodiment of the prior art.

Hereinafter, with reference to the accompanying drawings in the center of the insulator or bushing 10 is fixedly installed on a part of the transformer 100 to connect the outside and the inside in an insulating state in a state in which the central hole 11 is penetrated Formed.

The central conductor 11 penetrates and is installed in the central hole 11, and one end thereof is electrically connected to the inside of the transformer 100, and the other end thereof is a transformer lead-out or lead-in connector 50 of a special high-voltage dedicated line for long distance transmission. ) Is installed.

A transformer (transformer) for converting the level of the input voltage and the output voltage is installed inside the transformer 100, and each end of the conductor wound on the transformer is electrically connected to one end of the center conductor (30).

Since a special high pressure of 22.9 KV flows inside the transformer 100, an electrical insulating oil is insulated from the circuit 100 to prevent a short circuit.

Since the electrical insulating oil is a liquid, it may be leaked to the outside of the transformer 100 through the central hole 11 of the bushing 10, and the transformer lead wire connector 50 and the bushing of the special high-voltage dedicated line for remote transmission and distribution in order to block the oil leakage. The packing 70 is installed between the 10 blocks the leakage of the insulating oil.

The transformer lead wire connector 50 of the special high voltage dedicated line for remote transmission and distribution has a groove formed in the center for smooth and accurate contact with the high voltage cable.

The transformer lead wire connector 50 of the special high voltage line for transmission and distribution according to the prior art may draw or draw the extra high pressure from the transformer 100 by making electrical contact with the high voltage line through a groove formed in the center thereof.

However, the lead wire connector 50 of the special high-voltage line for transmission and distribution according to the prior art has a problem that it is difficult and time-consuming to insert the high-voltage line in the groove formed in the center.

On the other hand, the prior art has a problem that a short circuit, a short circuit, a spark and an electric shock may occur because the connection state with the extra-high voltage cable is poor over time.

In addition, the prior art has a problem that the removal and attachment of the lead wire connector 50 and the extra-high voltage line is difficult, inconvenient and time-consuming and difficult to maintain.

Therefore, there is a need to develop a technology that is easy to maintain and maintain a stable contact state between the special high voltage line for transmission and distribution and the lead wire connector of the transformer so that a short circuit, a short circuit, a spark and an electric shock are not generated.

In order to solve the problems and necessity of the prior art as described above, the present invention can be easily coupled to the high-voltage line to the lead wire connector of the transformer while maintaining a stable electrical contact state and easy to remove special high pressure for maintenance Provides lead-in connector for the line.

In order to achieve the object of the present invention, the lead wire connector of the special high-pressure line for transmission and distribution is sealed by inserting the center conductor 30, one end of which is in contact with the transformer of the high-voltage transformer 100 into the through hole of the insulator 10 In the special high voltage line connector fixed in the state and installed in contact with the other end of the center conductor 30, the lower portion is connected to the center conductor 30 and the special high pressure line 900 is coupled to the upper side to electrically contact And connecting portion 1000 for separating the extra-high voltage line 900 by an external force applied to the separation groove; And a screw fastening of the screw 2300 at an upper side of the connection part 1000 and is in electrical contact with the core wire of the combined high pressure line 900, and the special high pressure line 900 is connected to the connection part 1000. Finish 2000 to block the separation by the external force from the; Including, the connection part 1000 is the body portion 1100 connected to the other end portion and the lower side of the central conductor 30 in electrical contact state; The upper and both sides of the upper portion of the body portion 1100 has an open shape and forms the same width as the diameter of the extra-high pressure line 900 and the extra-high pressure line 900 is 3 to 6 times the length of the width. Detachable space portion 1200 is inserted into the coupling; A plurality of sidewalls each having a height equal to the diameter of the extra-high voltage line 900 in both longitudinal directions of the detachable space part 1200 and having at least one screw hole 1310 in which the screw 2300 is screwed; (1300); Part of the side wall portion 1300 is opened in the longitudinal middle portion of the removable space portion 1200, the separation groove for separating and separating the extra-high pressure line inserted and coupled to the removable space portion 1200 by an external force ( 1400); A bottom portion 1500 which forms a bottom surface of the detachable space portion 1200 and connects the plurality of side wall portions 1300 and on which the combined high pressure line 900 is seated; The core wire 920 penetrates and protrudes in a row on the bottom 1500 and is coupled to the detachable space 1200 and penetrates through the sheath 910 of the extra-high voltage line 900 seated on the bottom 1500. A plurality of bottom protrusion contact portions 1600 in electrical contact with the bottom protrusion contact portion 1600; And a blade formed in the sidewall part 1300 and protruding into the detachable space part 1200 and supported by elastic force to cut and cover the sheath 910 of the extra-high pressure line 900 to electrically contact the core wire 920. A blade contact portion 1700; The blade contact portion 1170 is formed in a portion connected to one end portion of a large cylinder forming a large cross-sectional area therein and a small cylinder forming a small cross-sectional area while penetrating through the side wall portion 1300. A through hole 1720 having a stepped portion 1710 formed therein; Inserted from the large cylinder of the through-hole 1720 and moving inside, penetrating through the small cylinder protruding into the detachable space portion 1200 to form a stop step portion 1730 to stop the movement by the step portion 1710 Vertical blade portion 1740; A spring portion 1750 inserted into a large cross-sectional area cylinder of the through hole 1720 to generate an elastic force on a rear surface of the vertical blade portion 1740 where the stop jaw portion is formed; And a stopper 1770 for fastening one end of the spring part 1750 by screwing with a screw thread 1760 formed at the other end of the large cross-sectional area cylinder of the through hole 1720; The finishing part 2000 is a screw 2300 penetrating the screw hole 2400 while blocking the open upper end of the detachable space portion 1200 by the screw hole 1310 and the plurality of screw fastening A flat plate portion 2100 installed at an upper portion of the side wall portion 1300; And a plurality of finishing protrusion contact parts 2200 protruding in a line in the middle direction of the rear surface of the flat plate part 2100 so as to be in electrical contact with the core wire 920 of the extra high pressure line 900. It may be made of.

The present invention of the configuration as described above is easy to combine the extra high voltage line and the lead wire connector, and the electrical contact is stable and maintained for a long time, the short circuit, short circuit, sparks, electric shock accidents, etc., easy to remove and maintenance There is an easy advantage.

1 is a configuration diagram of a lead wire connector of a special high-voltage line for transmission and distribution according to one embodiment of the prior art,
2 is a front view of a lead wire connector of a special high voltage line for power distribution according to an embodiment of the present invention;
3 is a side view of a lead wire connector of a special high-voltage line for power distribution according to an embodiment of the present invention,
4 is a plan view of the connection portion constituting the lead-in connector of the extra-high voltage line for power transmission and distribution according to an embodiment of the present invention,
5 is a cross-sectional view of the blade contact portion constituting the lead wire connector of the special high-voltage line for power distribution according to an embodiment of the present invention,
Figure 6 is a perspective view of a state using a special high-voltage line lead wire connector for power distribution according to an embodiment of the present invention,
And
7 is a cross-sectional view of a state using a special high-voltage line lead wire connector for power distribution according to an embodiment of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

In the following description, the lead wire connector has the same meaning as the lead wire connector.

2 is a front view of a lead wire connector of a special high-voltage line for power distribution according to an embodiment of the present invention, Figure 3 is a side view of a lead wire connector of a special high-voltage line for power distribution according to an embodiment of the present invention, 4 is a plan view of the connection portion and the finish portion of the lead portion constituting the lead wire connector of the special high-voltage line for power distribution according to an embodiment of the present invention, Figure 5 is a lead wire connector of the special high-voltage line for power distribution according to an embodiment of the present invention Figure 6 is a cross-sectional view of the blade contact portion constituting the, Figure 6 is a perspective view of a state using a special high-voltage line lead wire connector for power distribution according to an embodiment of the present invention, Figure 7 is a special high pressure for power distribution according to an embodiment of the present invention This is a cross-sectional view of a state where a line lead connector is used.

Hereinafter, with reference to the accompanying drawings, the lead wire connector 800 of the special high-voltage line for transmission and distribution is the center conductor 30 of the transformer and the one end of the high-voltage transformer 100 is in contact with the insulator 10 through Inserted into the hole is fixed in a sealed state and installed in contact with the other end of the center conductor 30 is configured to include a connection portion 1000 and the finish portion (2000).

The connection part 1000 and the finishing part 2000 are made of a conductive metal material which is electrically connected to the whole.

The high voltage line 900 that transmits and distributes 22.9 KV of electricity generally includes only the core wire 920 through which the high voltage of electricity flows, and does not include the sheath 910 for insulation, and recently includes the sheath 910. There is a trend.

The connection part 1000 is connected to the lower part of the center conductor 30 of the extra high voltage transformer 100 by being electrically contacted while installing the extra high voltage line 900 in a coupled state on the upper part of the body part 1100. The detachable space portion 1200, the side wall portion 1300, the separation groove 1400, the bottom portion 1500, the bottom protrusion contact portion 1600, and the blade contact portion 1700 are formed.

In addition, the connection part 1000 may be easily or simply separated or removed by an external force applied to the separation groove 1400 of the extra-high pressure line 900 coupled to the upper portion.

The body portion 1100 is made of a conductive metal and is capable of supporting a load applied from a state where the extra-high voltage line 900 having a sufficiently long length is connected, and the lower portion thereof is electrically connected to the other end portion of the center conductor 30. Connect in contact.

The detachable space part 1200 is a rectangular three-dimensional space area having a shape in which an upper end and both side ends are opened to an upper portion of the body part 1100.

The detachable space portion 1200 is configured to reduce the electrical resistance by contacting with the inserted high voltage line 900 in a large area.

The width and height of the region formed by the detachable space 1200 are the same as the diameter of the extra-high pressure line 900, and the length is preferably 3 to 6 times the width, but preferably 5 times the width.

When the extra-high pressure line 900 has a sheath 910 for insulation, the width and height of the detachable space portion 1200 may be smaller than the diameter of the extra-high pressure line 900, but it is difficult to combine and separate the work time. It takes a lot.

Therefore, even if the extra high voltage line 900 is provided with an insulating sheath 910, the detachable space part has the same value as the diameter of the extra high voltage line 900 in order to facilitate the coupling and separation, lower the electrical resistance and increase the electrical contact. A width and height of 1200 are formed, and the bottom protrusion contact portion 1600, the blade contact portion 1700, and the finish protrusion contact portion 2200, which will be described later, are configured to protrude in the inner region of the detachable space portion 1200. .

In the following description, the high-voltage line 900 will be described as having a configuration in which a periphery of the core wire 920 is wrapped with an insulating coating 910.

On the other hand, the longer the length of the detachable space portion 1200 is preferable, but if it is too long, since the working time of the coupling and separation is longer, it is preferable to form five times the width of the extra-high pressure line 900.

The side wall portions 1300 are formed at both sides of the detachable space portion 1200, respectively, and have at least the same height as the diameter of the extra-high pressure line 900, and form one or more screw holes 1310 to which the screws 2300 are screwed. .

The separation groove 1400 is formed by opening a part of the sidewall part 1300 in the middle portion of the removable space 1200 in the longitudinal direction.

Separation groove 1400 is inserted into the detachable space portion 1200 is mechanically coupled and easily separated by the external force of the extra-high pressure line to be in contact with the external force of the size that can be inserted into the separation tool, such as driver, awl It is formed in width.

The bottom 1500 forms a bottom surface of the detachable space 1200 and connects a plurality of side wall portions 1300 and is fixed by mounting a special high-pressure line 900 mechanically coupled.

The bottom protrusion contact part 1600 is a metallic material, and a plurality of bottom protrusion contact parts 1600 are fixed at a uniform interval in the middle in the longitudinal direction of the bottom part 1500 to protrude.

The bottom contact contact portion 1600 is inserted into the area of the detachable space portion 1200 and is coupled to and penetrates through the sheath 910 of the extra-high voltage line 900 seated on the bottom portion 1500 to electrically connect to the core wire 920. Contact.

The blade contact portion 1700 is formed in the vertical direction in the lower direction from the upper direction of the side wall portion 1300, protrudes into the detachable space portion 1200, and the blade supported by the elastic force such as a spring is covered with the extra high pressure line 900. Cutting and entering 910 is in electrical contact with the core wire 920 and at the same time maintain a stable state of contact by the elastic force.

One or more blade contact portions 1700 are installed on one side wall portion 1300, and may be installed to face each other at the same position as the opposite side wall portion 1300 or to be staggered with each other.

The blade contact portion 1700 has a through hole 1720 having a stepped portion 1710 and a screw thread 1760, a vertical blade portion 1740 having a stopper portion 1730, a spring portion 1750, and a stopper portion ( 1770).

The through hole 1720 forms a step portion 1710 in a portion where one end portion of a large cylinder that forms a large cross-sectional area and penetrates the side wall portion 1300 and one end portion of a small cylinder that forms a small cross-sectional area is connected. Then, a thread 1760 that can be screwed into the other end portion of the large cylinder is formed.

The vertical blade portion 1740 has a shape similar to a cone in which a step is formed, and is inserted from a large cylinder of the through hole 1720 and moves inside and protrudes into the detachable space 1200 by passing through a small cylinder and stepped portion 1710. The stop jaw portion 1730 to stop the movement is formed by.

The vertical blade portion 1740 may form a separate protruding key to keep the blade vertically installed while moving the inside of the large cylinder in a straight line. Grooves can be formed.

The spring portion 1750 is inserted from the large cylinder of the through hole 1720 to generate an elastic force on the back surface formed with the stop jaw portion of the vertical blade portion 1740.

The vertical blade portion 1740 protrudes into the detachable space portion 1200 by the elastic force of the spring portion 1750, and when the extra-high pressure line 900 is coupled to the area of the detachable space portion 1200, it retreats backward and is insulated with elastic force. After cutting the sheath 910 it is in electrical contact with the core wire 920.

In addition, since the vertical blade portion 1740 contacts the core wire 920 by the elastic force of the spring portion 1750, the electrical contact force is stably maintained for a long time.

The stopper 1770 is screwed with a screw thread 1760 formed at the other end of the large cylinder of the through hole 1720 so that the spring portion 1750 is not separated from the large cylinder while fixing one end of the spring portion 1750. do.

The finish part 2000 may be installed or removed by screwing the screw 2300 on the upper side of the connection part 1000.

The finish part 2000 is the high voltage line 900 coupled while electrically contacting the core wire 920 of the high voltage line 900 coupled to the detachable space portion 1200 is separated from the connection portion 1000 by external force. Blocking to prevent the protection to form a flat plate portion 2100, the finishing projection contact portion 2200, the screw hole 2400.

The flat plate portion 2100 blocks and blocks the open upper portion of the detachable space portion 1200.

The flat plate portion 2100 is installed in such a state that the screw 2300 penetrating the screw hole 2400 is completely closed so that the upper portions of the plurality of side wall portions 1300 are not exposed while screwing the screw hole 1310. When the screwing of the 2300 is released, the upper side of the plurality of side wall portions 1300 is easily separated.

The finishing protrusion contact portion 2200 is formed on the back surface of the flat plate portion 2100, the longitudinal direction and has a shape protruding in a line in the middle portion.

The finishing protrusion contact part 2200 penetrates the cover of the extra-high voltage line 900 and is in electrical contact with the core wire 920 when the flat plate part 2100 is installed on the upper side of the plurality of side wall parts 1300.

The bottom protrusion contact portion 1600 and the finishing protrusion contact portion 2200 may be formed at the same position of the up and down straight line, it may be formed in a different position to cross each other.

Such a configuration is shown in detail in FIGS. 2 to 5.

Referring to FIG. 6, a state in which the extra-high voltage line 900 is installed to be coupled to the detachable space of the connection part and not separated by the finishing part is illustrated.

In addition, FIG. 7 is a cross-sectional view of the BB in FIG. 6, which includes a special high-pressure line 900 and a core line 920 wrapped around the core 920 by an insulating coating 910. The line 900 is shown in the state installed in each of the incoming line connector 800 of the special high-voltage line for transmission and distribution.

The extra-high voltage transformer is installed with sufficient distance so that each connector in contact with the extra-high voltage line and having different polarity is insulated from each other and is separated by using an insulator for insulation.

The connector for the extra-high voltage line should be simple and easy to be combined and separated from the extra-high voltage line. At the same time, since the transformer installed once is maintained for a relatively long time, the electrical contact should be stable during the installation.

The configuration as described above is simply and easily by simply inserting the extra-high pressure line 900 in the detachable space portion 1200 formed in the connector 800, mechanical coupling and electrical contact is stably maintained so that a short circuit, short circuit, spark, There is an advantage to prevent the occurrence of electric shock.

In addition, the extra-high pressure line 900 coupled to the detachable space portion 1200 has an advantage that the state coupled by the finish portion 2000 is stably maintained.

On the other hand, if you want to separate the extra high pressure line 900 from the detachable space portion, there is an advantage that can be easily and easily separated by simply inserting a tool such as a screwdriver or awl into the separation groove 1400 to give a little force have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

800: Lead wire connector of special high voltage line for power distribution
900: extra high voltage line 910: sheath
920: core wire 1000: connection part
1100: body 1200: removable space
1300: side wall portion 1310: screw hole
1400: separating groove 1500: bottom
1600: bottom projection 1700: blade contact
1710: step 1720: through hole
1730: stopping jaw portion 1740: vertical blade portion
1750: spring portion 1760: thread
1770: stopper 2000: finish
2100: plate portion 2200: finishing protrusion contact portion
2300 screw 2400 screw hole

Claims (1)

Special high pressure transformer is inserted into the through hole of the insulator 10, the center conductor 30 is in contact with the other end of the transformer (100) of the extra high voltage transformer 100 in a sealed state and installed in contact with the other end of the center conductor 30 In the line connector,
The lower part is connected to the center conductor 30, and the upper part connects and installs the special high pressure line 900 in the upper part to make electrical contact and the connection part 1000 for separating the special high pressure line 900 by an external force applied to the separation groove. ); And
The upper part of the connection part 1000 is installed by screwing the screw 2300 and is in electrical contact with the core wire of the combined high pressure line 900, and the special high pressure line 900 is connected to the connection part 1000. Finish 2000 to block the separation by the external force from the; Including,
The connection part 1000 is
A body portion 1100 connected to the other end portion and the lower portion of the center conductor 30 in an electrical contact state;
The upper and both sides of the upper portion of the body portion 1100 has an open shape and forms the same width as the diameter of the extra-high pressure line 900 and the extra-high pressure line 900 is 3 to 6 times the length of the width. Detachable space portion 1200 is inserted into the coupling;
A plurality of sidewalls each having a height equal to the diameter of the extra-high voltage line 900 in both longitudinal directions of the detachable space part 1200 and having at least one screw hole 1310 in which the screw 2300 is screwed; (1300);
Part of the side wall portion 1300 is opened in the longitudinal middle portion of the removable space portion 1200, the separation groove for separating and separating the extra-high pressure line inserted and coupled to the removable space portion 1200 by an external force ( 1400);
A bottom portion 1500 which forms a bottom surface of the detachable space portion 1200 and connects the plurality of side wall portions 1300 and on which the combined high pressure line 900 is seated;
The core wire 920 penetrates and protrudes in a row on the bottom 1500 and is coupled to the detachable space 1200 and penetrates through the sheath 910 of the extra-high voltage line 900 seated on the bottom 1500. A plurality of bottom protrusion contact portions 1600 in electrical contact with the bottom protrusion contact portion 1600; And
A blade formed in the side wall portion 1300 and protruding into the detachable space portion 1200 and supported by elastic force cuts through the cover 910 of the extra-high pressure line 900 and electrically contacts the core wire 920. Blade contact portion 1700; Lt; / RTI >
The blade contact portion 1170 is
A through hole 1720 having a step portion 1710 formed at a portion where one end portion of a large cylinder forming a large cross-sectional area and one end portion of a small cylinder forming a small cross-sectional area are connected through the side wall portion 1300. ;
Inserted from the large cylinder of the through-hole 1720 and moving inside, penetrating through the small cylinder protruding into the detachable space portion 1200 to form a stop step portion 1730 to stop the movement by the step portion 1710 Vertical blade portion 1740;
A spring portion 1750 inserted into a large cross-sectional area cylinder of the through hole 1720 to generate an elastic force on a rear surface of the vertical blade portion 1740 where the stop jaw portion is formed; And
A stopper portion 1770 for fastening one end of the spring portion 1750 by screwing with a screw thread 1760 formed at the other end portion of the large cross-sectional area cylindrical of the through hole 1720; Lt; / RTI >
The finish part 2000 is
A screw 2300 penetrating the screw hole 2400 while blocking the open upper end of the detachable space 1200 is installed at an upper side of the plurality of side wall portions 1300 by screwing the screw hole 1310. Flat plate portion 2100; And
A plurality of finishing protrusion contact portions 2200 which protrude in a row in the middle of the rear longitudinal direction of the flat plate portion 2100 and are in electrical contact with the core wire 920 of the extra-high pressure line 900; Lead wire connector of a special high-voltage line for transmission and distribution, characterized in that consisting of.

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