KR101742456B1 - High-voltage cable connection structure - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connecting structure for connecting a high-voltage cable, and more particularly, to a connecting structure for connecting a high-voltage cable, So that a fast and close connection can be achieved by a simple operation. Further, a structure in which the end portion of the inner cable connected to the horizontal connecting rod is pressed and fixed can provide a firm connection fixing force, And more particularly to a connection structure for connecting a high voltage cable for preventing exposure and thereby preventing a safety accident by forming a structure in which an end of a horizontal connecting rod is closed with a finishing cap.

Description

[0001] High-voltage cable connection structure [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure for connecting a high voltage cable, and more particularly, to a high voltage cable connection structure for connecting a high voltage cable to both sides of a diaphragm, Structure.

Generally, a connector for connecting a high-voltage cable located on both sides of a diaphragm is an example of an L-shaped connector. A conventional L-shaped connector is fixed to the outer surface of a partition or a diaphragm to connect a high-voltage cable located inside the diaphragm to a high-voltage cable located outside the diaphragm.

However, in the conventional high-voltage cable connection connector, the high-voltage cable located inside the diaphragm is connected to the high-voltage connector through the through hole formed in the diaphragm with the connector for connection fixed to the outer surface of the diaphragm. Therefore, when the high-voltage cable located inside the diaphragm is connected using the conventional high-voltage connecting connector, the high-voltage cable located inside the diaphragm passes through the through-hole of the diaphragm, so that the high-voltage cable and the diaphragm become close to each other.

At this time, the high voltage cable is wrapped with an insulating sheath, but when the diaphragm is made of a conductive metal, an arc is generated or a short circuit occurs between the diaphragm and the high voltage cable due to the current induced in the high voltage cable. These arcs and short circuits may cause fire or safety accidents.

In order to prevent such an accident, an insulating gas is filled in the inner space of the diaphragm to prevent arc or electric leakage. For example, in an electric room provided in a building, a factory or an apartment, there is installed a switchboard for receiving high-voltage or extra-high-voltage electricity supplied by an electric power company and distributing the electric power to the load of each customer, and a high- Voltage cable inside the switchgear through the connector for power supply.

Therefore, in order to securely connect a high-voltage cable inside and outside a switchboard using a conventional high-voltage connector, a conventional switchboard is filled with an insulating gas or other gas to insulate it. There is a possibility of continuing. In recent years, it has been found that materials used as insulating gases are harmful to the environment. Thus, there is a demand for a new type of high-voltage connecting connector capable of safely connecting high-voltage cables inside and outside the switchgear without using insulating gas.

In order to solve the above-mentioned problems, an inner connecting rod provided with an inner cable is spaced apart from the diaphragm by a vertical portion of the insulating case of the high-voltage connecting connector, There has been proposed an end wall connector for high voltage cable connection which is enclosed by a bushing portion and can prevent a fire or a safety accident caused by discharge even when the diaphragm is made of conductive metal or insulated gas is not filled in the internal space.

However, since the connector structure as described above has a complicated structure, the connection time of the high voltage cable is considerably delayed. In particular, since the outer cable forms a connection structure through the connection end, The risk of exposure to safety accidents was included.

Korean Utility Model Registration No. 20-0447586.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a connecting structure in which a connecting member to which an outer cable is connected through the operation of a push rod and a horizontal connecting rod to which an inner cable is connected can be quickly and closely connected. The present invention provides a connection structure for connecting a high-voltage cable for enabling quick and close connection with a simple operation according to the present invention.

In addition, by providing a structure in which the end portion of the inner cable connected to the horizontal connecting rods is pressed and fixed, a firm connection fixing force can be given, and in particular, the end portion of the horizontal connecting rod is finished with the closing cap, The present invention provides a connection structure for connecting a high-voltage cable for preventing a safety accident in advance.

In order to accomplish the above object, there is provided a high-voltage cable connection structure provided on a partition plate for partitioning an inner space and an outer space,

And a plurality of through holes are formed in the periphery of the coupling hole, and a first internal thread portion is formed on an inner peripheral surface of the rear end of the coupling hole, A second female screw portion formed at an upper center thereof to connect an insulating stopper having a second male screw portion and a lower connecting protrusion protruding downwardly at an upper portion thereof and having a cable inlet pipe through which an outer cable is inserted;

A coupling protrusion that is inserted from the rear of the outer connection box and has a screw hole formed at the rear end thereof to communicate with the through hole of the coupling protrusion and which is engaged with and screwed on the coupling protrusion; An inner connection port formed of an insulator having horizontal through holes formed in the form of grooves extending horizontally at the center thereof;

The front end portion of the inner connection port projects through the horizontal through hole and the front end projects into the inner space and the rear end projects into the outer connection port. A horizontal connecting rod in the form of a round bar and a rear circular bar;

A finishing cap made of an insulator coupled to a distal end of the extension of the inner connection port to fix the inner cable;

An outer connecting member whose upper end is supported by the stopper within the outer connection case, the outer cable is connected to the lower end by a connection, and the horizontal connection rod is connected to the periphery;

An outer closure member having a first male screw portion formed on an outer circumference thereof and having a rear end connected and fastened to the first female screw portion of the outer connecting housing and having a screw hole horizontally formed at the center thereof; And

And a pressing member made of an insulator for pressing the periphery of the outer connecting member toward the horizontal connecting rod by a screwing and tightening force to the screw hole of the outer casing finishing member, You can do it.

As described above, the connection structure for connecting the high-voltage cable of the present invention has a structure in which the connection member to which the outer cable is connected and the horizontal connection rod to which the inner cable are connected are in pressure contact with each other when the push rod is rotated, It is possible to achieve a quick and close connection with a simple operation while being simplified.

Further, since the end portion of the inner cable connected to the horizontal connecting rod is bent and fixed when the pressure is adjusted by using the pushing rod, the connection and fixing can be firmly performed. Particularly, It is possible to prevent a safety accident such as exposure of a connection part being prevented.

1 is an exploded perspective view of a high-voltage cable connection structure according to the present invention.
2 is an assembled perspective view of a high voltage cable connection structure of the present invention.
3 is an assembled cross-sectional view of a high voltage cable connection structure of the present invention.
4 is a schematic perspective view of a high voltage cable connection structure of the present invention.
Fig. 5 is a state in which the inner and outer cables of the high voltage cable connection structure of the present invention are connected. Fig.
Fig. 6 is a view showing an inner cable fixing state of the high voltage cable connection structure of the present invention. Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is an exploded perspective view of a high-voltage cable connection structure according to the present invention, FIG. 2 is an assembled perspective view of a high-voltage cable connection structure of the present invention, FIG. It is a louvre perspective of the structure.

1 to 4, the high-voltage cable connecting structure of the present invention is configured to be installed on a diaphragm 10 for partitioning an inner space A and an outer space B, and includes an outer connecting box 100, A connection member 200, a horizontal connecting rod 300, a finishing cap 400, an outer connecting member 500, an enclosure closing member 600, and a pressing member 700.

Here, the outer connection box 100 is formed in a cylindrical shape provided in the outer space B on the outer side of the diaphragm 10, and is first bent inward at its front end (inner space side) A plurality of through holes 112 are formed radially in the engaging protrusion 110. The engaging protrusion 110 is formed as a coupling hole 111 communicating with the installation hole 11. [

In addition, the outer connection box 100 has a first internal thread 120 formed on the inner surface of its rear end.

The outer connection case 100 is constructed such that a stopper 140 made of an insulator having a second female thread portion 141 and having a second male threaded portion 141 is fastened and protruded inside.

In addition, a cable inlet pipe (150) communicating with the inside of the outer connection box (100) is protruded downward at a central lower portion.

The inner connection port 200 is configured such that the inner connection port and the tip end thereof are inserted into the inner space A from the open rear end of the outer connection port 100 in a state where the stopper 140 is removed, do.

At this time, the inner connection port 200 is formed first with a coupling protrusion 210 which is hooked on the coupling protrusion 110 at the rear end inside the outer connection box 100, And a plurality of screw holes 211 communicating with the through holes 112 of the housing 110 are formed.

The inner connection port 200 has an extension part 220 at the tip of the coupling protrusion 210 and the extension part 220 is connected to the coupling hole 111 of the outer connection box 100 and the installation And is drawn out to the inner space (A) through the hole (11).

The inner connection port 200 is formed with a horizontal through hole 230 penetrating the coupling protrusion 210 and the extension 220 at the center thereof. The horizontal through hole 230 preferably has a rectangular shape Respectively.

That is, the inner connection port 200 is inserted from the rear end of the outer connection box 100 and is supported by the coupling protrusions 210 on the coupling protrusions 110. The through holes 112 of the coupling protrusions 110 and the through holes 211 Are screwed and fixed from the inside of the diaphragm 10 in a communicated state, and the outer connection box 100 is also fixed together when fixed.

The horizontal connecting rod 300 is configured to pass through the horizontal through hole 230 from the rear end of the inner connecting port 200. The front end of the horizontal connecting rod 300 protrudes into the inner space A and the rear end is connected to the outside 100 so that the inner cable 1 and the outer cable 2 can be electrically connected to each other.

At this time, the horizontal connecting rod 300 has a rectangular bar shape corresponding to the horizontal through-holes 230 forming the grooves, and the rear of the horizontal connecting bar 300 has a circular bar shape having a diameter smaller than that of the rectangular bar. A cable pressing groove 310 in the form of a semicircular groove in which the inner cable 1 can be received is opened at the side and top in the vicinity of the tip end.

That is, when the horizontal through-hole 230 and the horizontal connecting rod 300 are formed as grooves and square rods as described above, the cable pressing grooves 310 of the horizontal connecting rods 300 are always prevented from rotating .

The finishing cap 400 is coupled to the tip of the extension 220 of the inner connection port 200 and is configured to be able to fix the inner cable and is made of an insulator.

In order to engage the inner connection port 200 and the finishing cap 400, first and second rows of guide grooves 240 are opened at the front end of the extended portion 220 of the inner connection port 200, In this case, the guide groove 240 has a wide inner side and a narrow triangular outer side.

The finishing cap 400 is formed at its rear end with two upper and lower rows of guide protrusions 440 which are formed in the guide groove 240 of the inner connection port 200. The finishing cap 400 has a through- (Not shown).

The finishing cap 400 is formed with a cable receiving groove 450 opened at the center of the rear end thereof in a direction perpendicular to the rear and horizontal connecting rods 300. The horizontal connecting rod 300 is inserted into the cable receiving groove 450, And the cable pressing groove 310 of the horizontal connecting rod 300 is inserted into the inside of the mouth.

A cable catching groove 451 is further formed at the center of the cable receiving groove 450 so that the front end of the horizontal connecting rod 300 can further enter the cable receiving groove 450.

The cable receiving groove 450 further includes a pair of cable hooking openings 460 and 460 'through which the inner cable 1 is inserted to both sides of the horizontal connecting rod 300 which is inserted in a plane , The cable hooks 460 and 460 'are preferably configured at positions eccentrically outward at the depth of the cable receiving groove 450.

That is, the inner cable 1 has a connecting and fixing force with the horizontal connecting rod 300 through the finishing cap 400. When the inner cable 1 passes through the cable hooking holes 460 and 460 ' The inner cable 1 exposed through the cable hooking openings 460 and 460 'is slidably inserted into the cable pressing grooves 310 of the horizontal connecting rod 300, As shown in FIG.

5, when the pressing force is applied to the horizontal connecting rod 300, the cable pressing groove 310 enters the inside of the cable receiving groove 450 of the finishing cap 400, and at the same time, As shown in Fig.

The outer connecting member 500 is configured to be received in the outer connecting box 100. The upper end of the outer connecting member 500 is supported by the stopper 140. The outer cable 2 is fitted to the lower end of the stopper 140, So that the inner cable 1 and the outer cable 2 can be electrically connected to each other by being in contact with the rod 300.

The outer connecting member 500 is formed in the shape of a rectangular block having a vertical direction. The outer connecting member 500 includes a connecting rod coupling groove 510, to which the rear end of the horizontal connecting rod 300 is coupled, and a pressing member 700 The pressing member engaging groove 520 to be engaged is further constituted.

At this time, the connecting rod connecting groove 510 firstly has connecting rod guide grooves 511 which are inclined downward from the outer side toward the inner side, and the connecting rod guide grooves 511 are connected to the reduced- And the rod inner groove 512 is configured to extend.

The pressing member engaging groove 520 is first formed with a pressing member guide groove 521 that is inclined downward from the side toward the inside and the reduced diameter end of the pressing member guide groove 521 is formed with a horizontal pressing The member inner groove 522 is configured to extend.

The enclosure closing member 600 is configured to close the rear end of the outer connection box 100 and is formed of an insulator.

At this time, the outer finishing member 600 is formed with a first male threaded portion 610 to be fastened to the first female threaded portion 120 of the outer jointed box 100 at its outer periphery, and is fastened to the rear end of the outer jointed body 100 Lt; / RTI >

The cover finishing member 600 is formed with a screw hole 620 horizontally through the center thereof.

The pressing member 700 is configured to be fastened to the screw hole 620 of the enclosure closing member 600 and is formed of an insulator.

At this time, the pressing member 700 is formed with the threaded portion 710 at the outer periphery thereof and the rotation adjusting groove 720 at the center of the rear end thereof, and the outer closure member 600 is formed through a separate tool (not shown) The outer connecting member 500 is brought into close contact with the horizontal connecting rod 300 by the fastening force and the front end of the horizontal connecting rod 300 As shown in Fig.

Hereinafter, the operation of the high-voltage cable connecting structure of the present invention having the above-described structure will be described in detail with reference to the accompanying drawings.

1 to 4, the high-voltage cable connecting structure of the present invention is characterized in that the inner and outer cables 10 and 20, which are located in the inner space A and the outer space B with the partition 10 therebetween, So that the connection can be made quickly and securely.

5, the inner cable 1 is connected to the horizontal connecting rod 300 through the finishing cap 400 in the inner space A. The inner cable 1 is connected to the finishing cap 400, The finishing cap 400 may be coupled to the inner connection port 200 through the guide groove 240 and the guide protrusion 440 in a state in which the cable is inserted through the cable hooks 460 and 460 ' The inner cable 1 has a connecting force with the horizontal connecting rod 300 in a state of being embedded in the cable pressing grooves 310 of the horizontal connecting rod 300 between the cable hooking holes 460 and 460 '.

The outer cable 2 is fitted to the lower end of the outer connecting member 500 and has a connecting force with the outer connecting member 500.

Thereafter, the connecting force between the inner cable 1 and the outer cable 2 is applied, which is possible by the pressing member 700 inserted into the outer closure member 600 closing the rear end of the outer connecting box 100 do.

That is, when the pressing member 700 is rotated to provide a screwing force, the tip of the pressing member 700 is advanced. In this process, the outer connecting member 500 is pushed out, and the outer connecting member 500 Is brought into contact with the rear end of the horizontal connecting rod 300 to electrically communicate the horizontal connecting rod 300 and the outer connecting member 500.

When the clamping force is applied to the pressing member 700 as described above, the tip of the pressing member 700 is tightly coupled to the pressing member engaging groove 520 of the outer connecting member 500, The guide member can easily enter the guide groove through the guide groove 521 forming the inclination of the groove 520 and then inserted into the presser member inner groove 522 to be tightly coupled.

When the pressing force is applied to the outer connecting member 500 as described above, the rear end of the horizontal connecting rod 300 is tightly coupled to the connecting rod connecting groove 510, The guide groove can be easily guided into the guide groove 511 through the guide groove 511 and then inserted into the connection rod inner groove 512 to be tightly coupled.

That is, a stable pressing force is applied to the outer connecting member 500 due to the tight coupling of the pressing member 700, and the horizontal connecting rod 300 is also tightly coupled to the horizontal connecting rod 300, A stable connecting force of the outer connecting member 500 is applied and the inner cable 1 positioned in the inner space A and the outer cable 2 positioned in the outer space B become electrically connected.

In the high voltage cable connection structure of the present invention, the connecting force of the inner cable 1 connected to the horizontal connecting rod 300 when the horizontal connecting rod 300 and the outer connecting member 500 are connected as described above, When the pressing force is applied to the rear end of the horizontal connecting rod 300 as shown in FIG. 6, the front end of the horizontal connecting rod 300 enters the cable receiving groove 450 side of the closing cap 400 And enters the cable catching groove 451.

The cable pressing grooves 310 of the horizontal connecting rods 300 holding the inner cable 1 between the cable holding holes 460 and 460 'of the cable receiving grooves 450 are moved in the forward direction A bending force is applied to the inner cable 1 and a predetermined fit is inserted in the cable catching groove 451. In this process, the connection with the inner cable 1 and the fixing force due to the bending of the inner cable 1 are given So that stable connection is possible.

INDUSTRIAL APPLICABILITY As described above, the high-voltage cable connecting structure of the present invention enables the inner cable and the outer cable to be connected by a simple coupling structure and simple operation, and particularly, the inner cable can be tightly coupled in the connecting process.

In addition, whether the connection between the inner cable and the horizontal connecting rod is finished by the finishing cap or the inner cable is not exposed to the outside, the safety of the operator is prevented when the operator performs work or the like in the inner space. .

10: diaphragm 11: installation hole
100: outer connection box 110:
111: engaging hole 112: through hole
120: first female screw portion 130: second female screw portion
140: stopper 141: second male thread portion
150: cable inlet pipe
200: inner connection port 210:
211: screw hole 220: extension part
230: Horizontal penetration hole 240: Guide groove
300: Horizontal connecting rod 310: Cable pressing groove
400: Finishing cap 440: Guide projection
450: Cable receiving groove 460, 460 ': Cable holding hole
500: outer connecting member 510: connecting rod connecting groove
511: connecting rod guide groove 512: connecting rod inner groove
520: pressing member engaging groove 521: pressing member guide groove
522: pressing member inner groove
600: an enclosing member 610: a first male thread
620:
700: pressure member 710:
720: rotation adjustment groove

Claims (3)

A high-voltage cable connection structure provided on a diaphragm (10) for partitioning an inner space and an outer space,
A plurality of through holes 112 are formed in the periphery of the diaphragm 10 so as to form a coupling hole 111 which is inwardly bent and communicated with the installation hole 11 of the diaphragm 10 at the center thereof, And a second female threaded portion 130 is formed at the upper center of the first female threaded portion 120 to form an insulating stopper 140 having a second male threaded portion 141, And an outer connection box 100 having a lower portion protruding downward and having a cable inlet pipe 150 through which the outer cable 2 is inserted,
And a screw hole 211 communicating with the through hole 112 of the engaging jaw 110 is formed at the rear end of the engaging jaw 110 to engage with the engaging jaw 110, And an extension part 220 extending through the installation hole 111 of the outer connection box 100 and the installation hole 11 of the diaphragm 10 and leading to the inner space, An inner connection port 200 formed of an insulator having horizontal through holes 230 in the form of grooves penetrating horizontally at the center thereof;
The rear end of the inner connection port 200 protrudes from the rear end of the inner connection port 200 through the horizontal through hole 230 and has a front end protruding into the inner space and a rear end protruding into the inside of the outer connection box 100, A horizontal connecting rod 300 having a square bar at the front and formed in the shape of a circular bar at the rear side where the semicylindrical cable pressing grooves 310 accommodating the semicircular cable pressing grooves 310 are formed;
A finishing cap 400 made of an insulator coupled to the tip of the extension 220 of the inner connection port 200 to fix the inner cable 1;
An outer connecting member 500 whose upper end is supported by the stopper 140 in the inside of the outer connecting box 100, the outer cable 2 is fitted to the lower end thereof and the horizontal connecting rod 300 is connected to the periphery thereof;
A first male threaded portion 610 is formed on the outer circumference to fasten and fasten the first female threaded portion 120 of the outer jointed box 100 to the rear end of the hatch 100. The screw hole 620 is horizontally An enclosure closing member 600 of a penetratingly formed insulator; And
A screw 710 is formed on the outer circumference and a rotation adjusting groove 720 is formed at the center of the outer connecting member 500 to horizontally connect the periphery of the outer connecting member 500 to the screw hole 620 of the outer case closing member 600, And a pressing member (700) made of an insulator for pressing the wire (300) toward the high voltage cable connecting structure.
The method according to claim 1,
In the inner connection port 200,
A plurality of guide grooves 240 are formed at the front end of the extension 220 to be opened forward and one side,
In the finishing cap 400,
A guide protrusion 440 slidably coupled to the guide groove 240 is formed at the rear end of the guide groove 240 so as to be slidably engaged with the inner connection port 200 and opened at a rear end thereof in a direction perpendicular to the rear and horizontal connection rods 300, A cable receiving groove 450 into which the tip of the cable 300 is inserted,
In the cable receiving groove 450,
A pair of cable hooking openings 460 and 460 'is formed which penetrates the inner cable 1 to both sides of the horizontal connecting rod 300 and has a smaller size than the cable pressing grooves 310, The cable hooking groove 451 is formed to allow the front end of the horizontal connecting rod 300 to be further inserted,
When the finishing cap 400 is coupled to the inner connection port 200 with the inner cable 1 passed through the cable hooks 460 and 460 ' The inner cable 1 is positioned at the center of the hooks 460 and 460 'so that the inner cable 1 is pushed into the cable catching groove 451 when the pressing force is applied from the rear end of the horizontal connecting rod 300, High voltage cable connection structure.
The method according to claim 1,
In the outer connecting member 500,
A connecting rod coupling groove 510 to which the rear end of the horizontal connecting rod 300 is coupled and a pressing member coupling groove 520 to which the front end of the pressing member 700 is coupled are further formed on both sides,
The connecting rod engaging groove 510 is formed,
A connection bar guide groove 511 having an inclination reduced from the outside to the inside and a horizontal connection rod inner groove 512 extending from the reduced end of the connection bar guide groove 511,
The pressing member engaging groove (520)
And a horizontal pressing member inner groove (522) extending from a reduced end portion of the pressing member guide groove (521). Cable connection structure.

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