KR101777411B1 - Insertion apparatus structure of transmission and distribution power cable - Google Patents

Abstract

The present invention relates to a lead-in apparatus structure of a high voltage power distribution cable, and more particularly, to a lead-in apparatus structure of a high voltage power distribution cable in which a pulling wire and a high voltage cable are connected to each other not to be twisted, so the high voltage cable is freely led in and is prevented from being separated and damaged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drawing device structure of a high-voltage cable for transmission and distribution, and more particularly to a drawer device for a high- The present invention relates to a structure of an inlet device for a high-voltage cable.

The electric power generated by the power plant is supplied through transmission lines and substations, and then is subjected to water distribution facilities installed close to those receptors or power use facilities to be supplied to the final consumer or power use facility.

Meanwhile, although the voltage used for transmission varies slightly depending on the technological development, it is known that it includes more than 66 KV class due to increase of power generation capacity, improvement of transmission technology, and expansion of electric power demand. The likelihood of a change is very high.

These water supply facilities are provided through ground equipment and electric pole installed on the roadside.

Specifically, an underground high-voltage cable of a substation is drawn out from the ground to the ground and fixed to the pole, and the three-phase cable in the high-voltage cable is connected to the receiving-side three-phase waterproof cable via the connector.

On the other hand, the high-voltage cable in the water distribution facility may penetrate the wall of the building when it is wired to each receiving side.

As such, a cable pipe (protective pipe) is used when the high-voltage cable is routed through the wall of the building. That is, a cable pipe is inserted (buried) in a wall of a building, and a high-voltage cable is wired inside the cable pipe.

When the cable is drawn into the conventional cable tube, the pulling wire is passed from the other side of the cable tube to one side, a high-tension cable is connected to the end of the pulling wire, and pulled from one side to the other side, To the cable pipe.

However, according to the high-voltage cable pull-in method according to the related art, since the high-voltage cable is merely knotted, the connection and disconnection of the high-voltage cable and the pulling wire are troublesome and the pulling wire is twisted or the high- There is a problem.

Further, when pulling the pulling wire, there is a problem that the high-voltage cable comes into contact with the inner circumferential surface of the cable pipe, and the coating of the high-voltage cable is damaged by the friction.

As a conventional technique which partially improves such a problem, Korean Patent Registration No. 10-0786374 (Dec. 14, 2007) discloses a " pulling-in apparatus for high-voltage cable in a transmission and distribution system ".

However, such a conventional transmission / distribution high-voltage cable line pull-in device has a problem that it is difficult to smoothly pull the high-voltage cable when the cable pull-in cable is positioned at one side of the cable bundle.

Korea Patent Registration No. 10-0786374 (December 14, 2007) 'Inlet Device in High-voltage Cable Tube for T & D'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a transmission and distribution high-voltage cable capable of preventing the pulling wire and the high-voltage cable from being twisted, To provide a lead-in device structure.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention is to pull the high-voltage cable (2) through the pulling wire (1) from one side of the cable pipe (3) penetrating the building to the other side, The housing 110 having the through holes 111 and 112 at both sides thereof is inserted into the through hole 111 to be rotatable in the housing 110 via the washer 121, A first rotating anchor 120 which is fixed to be detached from the housing 120 through the first opening 122 and connected to the pulling wire 1 on the other side, Bearing means 100 comprising a second rotating anchor 130 which is supported to be rotatable in place within the first rotating anchor 110 and to be prevented from being dislodged through the nut 132; And a cylindrical cable holder 210 having a cable insertion groove 211 opened at one side thereof and a second side of the second rotary anchor 130 at the other side, The cable 220 is inserted into the cable holder 210 through the coupling 220 so as to penetrate the cable holder 210 at the periphery of the cable holder 210, 2 is a perspective view of a high voltage cable according to a second embodiment of the present invention; FIG. 2 is a perspective view of a high voltage cable according to a second embodiment of the present invention; FIG. And a guiding part 400 for guiding the guiding part 400 to be guided smoothly into the tube 3. The guiding part 400 is provided at one side of the inside of the cable tube 3 and supports the high- A rear guide part 410 for guiding the rear guide part 410; A cable guiding part 200 for supporting the cable connecting part 200 from an inner bottom of the cable tube 3 and a cable guiding part 200 for guiding the cable connecting part 200 smoothly, (420); And a central guide part 430 provided inside the cable tube 3 and positioned to be positioned between the front and rear guide parts 420 and 410 to support the high voltage cable 2. The front guide part 420, Includes a cradle (421) on which the cable binding hole (200) is seated; And the cable coupling hole 200 from the bottom of the cable tube 3 together with the cradle 421 while being rotatably connected to the cradle 421 while pulling the high voltage cable 2 forward And a plurality of wheels 422 guiding the movement of the high-voltage cable 2 while being moved together with the cage 421. The cage 421 extends in the longitudinal direction of the high-voltage cable 2 on both sides, A mounting plate 423 on which the mounting plate 423 is mounted; And a pair of side plates 424 extending upward from both sides of the mounting plate 423 and having through holes 424a through which the high voltage cable 2 passes, A support pipe 431 for supporting and guiding the high-voltage cable 2 passing through the inside while being opened on both sides; And a pair of pressing means 432 disposed above and below the supporting tube 431 and supporting the supporting tube 431 from the cable tube 3 while pressing the inside of the cable tube 3, And a cable connecting portion for connecting the cable to the cable.

According to the present invention, first, since the pulling wire and the high-voltage cable are connected so as not to be twisted, the high-voltage cable can be pulled in and the damage of the pulled-out high-voltage cable can be prevented.

Second, since the high-voltage cable is connected to the cable holder through the coupling, damage due to the tightening of the high-voltage cable is prevented, and the escape of the high-voltage cable can be prevented by increasing the contact force.

Third, since the high-voltage cable is spaced from the inner circumferential surface of the cable tube through the center retaining bar, frictional resistance is not generated in the high-voltage cable, so that damage to the high-voltage cable can be prevented.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a cross-sectional view illustrating a structure of a drawing device for a transmission / distribution high-voltage cable according to the present invention.
2 is an exploded perspective view showing a structure of a drawing apparatus for a transmission and distribution high voltage cable according to the present invention.
3 is a state diagram illustrating a structure of a drawing device for a transmission and distribution high voltage cable according to the present invention.
And
FIG. 4 is a state diagram illustrating a state in which a guide unit is provided in the structure of a pulling-out apparatus for a transmission and distribution high voltage cable according to the present invention.

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

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention utilizes the same as described in the above-mentioned Japanese Patent Application No. 0786374, and therefore all of the features of the device configuration described below can be understood as the matters described in Patent Registration No. 0786374.

However, according to the present invention, the 'pulling-in device for high voltage cable in the transmission and distribution' is replaced by the 'pulling device structure for high voltage cable for transmission and distribution' in the configurations disclosed in the above-mentioned Japanese Patent No. 0786374, And a description of the operation thereof is further included, and this part is the most important constitutional feature.

Therefore, the device structure, characteristics and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 0786374, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 3, the drawing device structure of a transmission / distribution high-voltage cable according to the present invention includes a bearing means 100 connected to a pulling wire 1, a high-voltage cable (not shown) coupled to the rear of the bearing means 100, 2 is fixed to the cable binding hole 200 and the pulling wire 1 is connected to the bearing means 100. The pulling wire 1 is connected to the bearing means 100, Is inserted into the cable tube (3) and pulled from one side to the other side, so that the high-voltage cable (2) is drawn into the cable tube (3).

As shown in FIG. 1, the bearing means 100 includes a housing 110 having a hollow portion formed therein and having through holes 111 and 112 on both sides in the longitudinal direction thereof, and through holes 111 and 112 on both sides of the housing 110, And first and second rotary anchors 120 and 130 that are rotatably supported in the housing 110 via intermediate members 121 and 131, respectively.

That is, even when the pulling wire 1 or the high-tension cable 2 rotates during the pulling-in process of the high-tension cable 2, the pulling wire 1 and the high-tension cable 2 are not twisted by the bearing means 100.

The first and second rotating anchors 120 and 130 are threaded on the outer circumferential surface of the end portion of the first and second rotating anchors 120 and 130 so that the nuts 122 and 132 passing through the washers 121 and 131 are fastened and not separated from the housing 110.

The housing 110 may have a semicylindrical shape in which the washers 121 and 131 and the nuts 122 and 132 are inserted, respectively, or a cap may be coupled to both sides of the housing 110 in the longitudinal direction.

The first and second rotary anchors 120 and 130 of the bearing means 100 are used to connect the pulling wire 1 and the cable coupling hole 200. The first rotary anchor 120 has a head bolt shape, A wire loop 123 is provided and connected to the pulling wire 1 and the second rotating anchor 130 is supported by a cable holder 210 to be described later.

The cable binding member 200 includes a cylindrical cable holder 210 having a cable insertion groove 211 opened at one side thereof and a second rotating anchor 130 of the bearing means 100 at the other side, A pair of couplings 220 which surround the high voltage cable 2 and a cable holder 210 which is fastened to the periphery of the cable holder 210 so as to penetrate the cable holder 210, And one or more fasteners 230 for tightening the high-voltage cable 2 inserted in the fastening part 230.

The pulling-in method by the pulling-in and pulling-out high-voltage cable conduit according to the present invention is as follows.

2 to 3, a pair of couplings 220 are covered on the outer periphery of the end portion of the high-voltage cable 2, then the end of the high-voltage cable 2 is inserted into the cable holder 210, And the high voltage cable 2 is connected to the cable holder 210 by tightening the hole 230.

The high voltage cable 2 is covered and protected by the coupling 220 so that disconnection or the like does not occur during tightening of the tightening tool 230 and is in surface contact with the coupling 220 so that the tightening tool 230 and the high voltage cable 2 Can be increased.

Then, when one end (one side of the cable 3) of the pulling wire 1 is knotted to the wire loop 123 and then the other side (the other side of the cable 3) of the pulling wire 1 is pulled, The bearing means 100 and the cable binding port 200 are pulled together with the pulling wire 1 from one side of the cable tube 3 to the other side by the force applied through the wire 1, And is slowly drawn into the cable tube 3 together with the cable binding hole 200. [

Thus, the pulling wire 1 can be twisted when the high-voltage cable 2 is pulled, but the high-tension cable 2 can be pulled without being twisted.

This is because when the pulling wire 1 is twisted, only the first rotating anchor 120 rotates together with the pulling wire 1 inside the housing 110, so that the cable connecting hole 200 connected to the second rotating anchor 130 rotates I will not go.

Conversely, when the high-voltage cable 2 is twisted, the pulling wire 1 is not twisted.

The high voltage cable 2 is pulled out to the other side of the cable tube 3 through the cable tube 3 and the high voltage cable 2 is separated from the cable holder 210 by loosening the tightening tool 230. Thus, the high voltage cable 2 is completely drawn.

The present invention includes a guide part 400 for guiding the high-tension cable 2 to be smoothly drawn into the cable pipe 3 by pulling the pulling wire 1 as shown in FIG. 4, Is further implemented.

The guide part 400 is provided on one side of the inside of the cable tube 3 and includes a rear guide part 410 for supporting the high voltage cable 2 and a cable coupling part 200 from the inner bottom of the cable tube 3 The cable guide 3 is positioned between the front guide portion 420 and the front guide portion 420 and the rear guide portion 420 to smoothly advance the cable coupling hole 200 as the pulling wire 1 pulls. And a central guide part 430 provided inside the support part 430 to support the high-voltage cable 2. [

It can be understood that the front and rear guide portions 420 and 410 are divided into front and rear portions based on the advancing direction of the high-voltage cable 2 as the pulling wire 1 is pulled. Therefore, it can be understood that one end of the cable tube 3 can be understood as a rear end portion and the other end can be regarded as a front end portion, and the rear end portion of the high-voltage cable 2 is pulled as the front end portion is pulled.

The rear guide part 410 includes a plate 413 which is rotatably connected to the roller 411 and a roller 411 for supporting the high voltage cable 2 and is seated on the bottom of the cable 3, And a retaining plate 412 extending downward from one end of the cable tube 3 and having an engagement protrusion 414 which is engaged with one end of the cable tube 3.

Even when the front end portion of the high-voltage cable 2 is positioned at one side of the cable tube 3, the rear guide portion 410 smoothly pulls the cable tube 3 into the cable tube 3, .

It is preferable that the plate 413 is stably stood on the inner circumferential surface of the cable tube 3 while having the same curved shape as the inner circumferential surface of the cable tube 3. [

The roller 411 is rotatably connected to the upper portion of the plate 413 and is rotated in accordance with the progress of the high voltage cable 2 so that the high voltage cable 2 can smoothly proceed.

It is preferable that the roller 411 has a groove portion 411a on which the high-voltage cable 2 is inserted.

The latching jaw 414 extends downward from the rear end of the plate 413 and is hooked on a lower side of the cable tube 3 so that the support plate 412 can be prevented from moving due to the pulling of the pulling wire 1 do.

The rear guide unit 410 may further include a weight 415 provided on the plate 413. [

The weight 415 is provided on the side opposite to where the latching jaw 414 is positioned so that the support plate 412 can not be heard as the high-voltage cable 2 advances. At this time, when the support plate 412 is lifted according to the progress of the high-voltage cable 2, the retaining jaw 414 may be fixed to another structure using bolts or the like.

Accordingly, the support plate 412 can be stably installed on the cable pipe 3 while being in a 'A' shape, and can be stably fixed to the cable pipe 3 along with the progress of the high-voltage cable 2 due to the pulling of the pulling wire 1 So that it is possible to induce stable progression of the high-voltage cable 2 without proceeding.

Further, the support plate 412 is seated on the cable tube 3, so that the support plate 412 can be easily taken out and removed after the introduction of the high-tension cable 2 is completed.

The front guide unit 420 includes a cradle 421 on which the cable binding member 200 is seated and a cradle 421 that is rotatably connected to the cradle 421, And a plurality of wheels 422 which stably support the high voltage cable 2 while guiding the movement of the high voltage cable 2 while being moved together as the high voltage cable 2 is pulled forward.

The cradle 421 is extended from both sides of the cradle plate 423 and the mounting plate 423 on both sides thereof extending in the longitudinal direction of the high voltage cable 2 and on which the cable binding cradle 200 is seated, And a pair of side plates 424 on which through holes 424a through which the base plate 2 passes are formed. Accordingly, the perimeter of the through-hole 424a can be formed in a U-shaped shape with the top open.

The through hole 424a is formed to extend downward from the upper portion of the side plate 424 so that the cable coupling hole 200 is seated in the cable holder 210, It is desirable that the high-voltage cable 2 can be drawn in at the same time. As a result, the cable binding hole 200 can be stably held without being separated from the base 421.

The center guide part 430 includes a support pipe 431 for supporting the high-voltage cable 2 which is opened at both sides and passes through the inside of the cable guide 3, And a pair of pressing means 432 for pressing the support tube 431 from the cable tube 3 while being compressed inside.

It is preferable that the center guide portion 430 is installed so as to be adjacent to the rear guide portion 410 when installed in the cable tube 3. [

This allows the high voltage cable 2 to be smoothly drawn into the central guide portion 430 while being supported by the rear guide portion 410 while allowing the operator to perform an artificial installation of the cable tube 3 So that it can be removed easily.

The support pipe 431 may be made of an insulating material or may be provided with an insulating member (not shown) on the inner circumferential surface thereof.

The support pipe 431 allows the high-voltage cable 2 to be in contact with the high-voltage cable 2, thereby preventing the high-voltage cable 2 from sagging and allowing the high-voltage cable 2 to smoothly proceed.

The pair of pressing means 432 connects the pressing plate 433 contacting the cable tube 3 and the pressing plate 433 and the supporting tube 431 while the pressing plate 433 is connected to the cable tube 3, And a connecting member 434 for pressing the inner peripheral surface of the connecting member 434.

The connecting member 434 includes an external connecting pipe 435 extending from the pressing plate 433 in the direction of the supporting pipe 431 and a connecting pipe 432 having one end connected to the supporting pipe 431 and the other end connected to the external connecting pipe 435 And a spring 437 which is housed inside the inner connecting tube 436 and the inner connecting tube 436 and presses the pressing plate 433 in the direction of the inner circumferential surface of the cable tube 3.

The pair of press plates 433 can be maintained in contact with the inside of the cable tube 3 by the pressing of the spring 437 and the length of the connecting member 434 along the inner diameter of the cable tube 3 Can be variably controlled.

It is preferable that the press plate 433 is in a curved shape and stably contacts the inner circumferential surface of the cable tube 3. [

Therefore, the center guide portion 430 can be stably arranged inside the cable tube 3, and guide the high-tension cable 2 into the cable tube 3 smoothly.

1: pull wire 2: high voltage cable
3: Cable tube 100: Bearing means
110: housing 111: mounting plate
112: side plate 120: first rotating anchor
130: second rotating anchor 200: cable coupling port
210: cable holder 220: coupling
230: fastener 400: guide part
410: rear guide portion 411: roller
412: Support plate 413: Plate
414: hanging chin 415: weight chest
420: front guide part 421:
422: wheel 423: mounting plate
430: central guide portion 431: support tube
432: pressing means 433:
434: connection member 435: external connection pipe
436: Inner connector 437: Spring

Claims (1)

The high voltage cable 2 is pulled through the pull wire 1 from the one side of the cable pipe 3 passing through the building to the other side,
The housing 110 has a hollow portion formed therein and has through holes 111 and 112 at both sides in the longitudinal direction thereof. The housing 110 is inserted into the through hole 111 and is rotated in the housing 110 through the washer 121. A first rotating anchor 120 which is fixed to be detached through a nut 122 and is connected to the pulling wire 1 on the other side and a washer 131 which is inserted into the through hole 112, And a second rotating anchor (130) supported to be rotatable in the housing (110) by way of a nut (132) and prevented from being detached through the nut (132); And
A cylindrical cable holder 210 having a cable insertion groove 211 opened at one side thereof and a second side of the second rotary anchor 130 connected to the other side of the cylindrical cable holder 210, The cable 220 is inserted into the cable holder 210 through the coupling 220 so as to penetrate the cable holder 210 to the periphery of the cable holder 210, And a fastening port 230 for fastening the fastening part 230 to the cable fastening port 200,
Further comprising a guide part (400) for guiding the high voltage cable (2) to be smoothly drawn into the cable pipe (3) by pulling the pulling wire (1)
The guide part (400)
A rear guide part 410 provided at one side of the inside of the cable tube 3 and supporting the high voltage cable 2;
A cable guiding part 200 for supporting the cable connecting part 200 from an inner bottom of the cable tube 3 and a cable guiding part 200 for guiding the cable connecting part 200 smoothly, (420); And
And a central guide part 430 provided inside the cable tube 3 to be positioned between the front and rear guide parts 420 and 410 to support the high voltage cable 2,
The rear guide part 410 includes:
A roller (411) for supporting the high-voltage cable (2);
A plate 413 rotatably connected to the roller 411 and seated on the bottom of the cable tube 3 and a plate 413 extending downward from one end of the plate 413, A support plate 412 having a latching protrusion 414 for preventing the pulling of the pulling wire 1 from being pulled while being caught at one end thereof; And
And a weight 415 provided on the plate 413 to prevent the support plate 412 from being lifted in accordance with the progress of the high voltage cable 2,
The roller (411)
And a groove portion 411a into which the high voltage cable 2 is inserted is formed on an outer circumferential surface of the high voltage cable 2 so that the high voltage cable 2 smoothly advances while being rotated together with the progress of the high voltage cable 2,
The front guide part (420)
A cradle 421 on which the cable coupling 200 is seated; And
The cable bundle 200 can be stably supported from the bottom of the cable bundle 3 together with the cradle 421 while being rotatably connected to the cradle 421 while the high- And a plurality of wheels 422 guiding the movement of the high-voltage cable 2 while being moved,
The cradle (421)
A mounting plate 423 having both sides extended in the longitudinal direction of the high-voltage cable 2 and on which the cable binding member 200 is mounted; And
And a pair of side plates (424) extending upward from both sides of the mounting plate (423) and having through holes (424a) through which the high voltage cable (2) passes,
The through hole (424a)
So that the high voltage cable 2 can be drawn in at the same time when the cable binding hole 200 is seated in the receiving stand 421, while being extended downward from the upper side of the side plate 424,
The central guide part 430 is formed of a plate-
A support pipe 431 for supporting and guiding the high-voltage cable 2 passing through the inside while being opened on both sides; And
A pair of pressing means 432 disposed above and below the support tube 431 and supporting the support tube 431 from the cable tube 3 while pressing the inside of the cable tube 3 Including,
The pair of pressing means (432)
A compression plate 433 contacting the cable tube 3, respectively;
And a connecting member 434 connecting the compression plate 433 and the support pipe 431 and pressing the compression plate 433 to the inner circumferential surface of the cable pipe 3,
The connecting member 434,
An external connection pipe 435 extending from the compression plate 433 in the direction of the support pipe 431;
An internal connection pipe 436 having one end connected to the support pipe 431 and the other end connected to the external connection pipe 435; And
And a spring (437) accommodated inside the inner connection pipe (436) to press the compression plate (433) in the direction of the inner circumferential surface of the cable pipe (3)
The pair of press plates 433 are formed by pressing
And a state in which the cable 43 is in contact with the inside of the cable tube 3 by the pressure of the spring 437 is maintained.

Images