KR102070250B1 - Power distribution stabilizer for underground distribution lines - Google Patents

Abstract

The present invention relates to a power distribution stabilization device for underground distribution lines. More specifically, the present invention relates to an improved power distribution stabilization device for underground distribution lines which easily and conveniently performs installation, wiring and removal works during wiring or relocation, or removal for new replacement of distribution cables on a shelf installed in a concrete structure forming a distribution power tunnel so as to increase work efficiency and prevent safety accidents such as cable break and the like, thereby preventing unsuspected safety accidents generated by sagging of the distribution cables by compensating the sagging in the event of the sagging.

Description

Power distribution stabilizer for underground distribution lines

The present invention relates to a distribution control device for underground distribution lines in the distribution technology field, and more particularly, when the distribution cables are removed for wiring or relocation or new replacement on a shelf installed in a concrete structure constituting a distribution power port. It is easy and convenient for wiring and removal work to improve work efficiency and prevent safety accidents such as cable breakage, and to compensate for deflections to prevent accidental safety accidents caused by sagging distribution cables. The distribution stabilizer of the underground underground distribution line.

In general, the line construction method for wiring underground distribution cables can be largely divided into direct sales, pipeline, power old, and bridge addition, in which power old is also called culmination or dynamic road, and in such old power distribution lines To arrange the furnace, it consists of sheaths and shelves protecting them.

For example, the conventional power distribution line protection tube constituting the power distribution sphere is composed of a tubular concrete structure 10 is buried in the ground, and the shelf 20 is installed in the concrete structure 10, as shown in FIG.

At this time, the shelf 20 is in close contact with the wall on the left and right inner wall surface of the concrete structure, and fixedly spaced apart in the height direction with a predetermined distance from the bottom surface, the distribution cables are installed on the shelf 20.

By the way, when the distribution cables are placed on the shelf 20, the length is long and heavy, and thus it is very difficult and difficult to remove when mounting or replacing them.

Therefore, there is a demand for a distribution line mounting / detachment method that can be easily and quickly mounted on the shelf 20 to be mounted and wired as well as easy to remove when replacing.

In addition, if the distribution cable sags due to various factors, it becomes a risk factor of various safety accidents.

In particular, since damage may occur due to safety accidents such as cable breaks, that is, cable breakage, there is a need for means for protecting the cable.

Republic of Korea Patent Registration No. 10-1585953 (2016.01.11) 'Underground distribution line connection device for stable connection between underground distribution lines'

The present invention has been created in view of the above-described problems in the prior art, and is installed to remove the distribution cables for wiring or relocation or new replacement on the shelves installed in the concrete structure constituting the power distribution. It is easy and convenient for wiring and removal work to improve work efficiency and prevent safety accidents such as cable breakage, and to compensate for deflections to prevent accidental safety accidents caused by sagging distribution cables. Its main purpose is to provide a power distribution stabilizer for underground distribution lines.

The present invention is a means for achieving the above object, comprising a plurality of shelves (20) fixed to the shelf fixing band 24 of the distribution power sphere to support the distribution cable and the distribution guide 100 on the shelf (20) Further installed, the distribution guide 100 is a guide body 110 of the rectangular block shape, the through hole 120 is formed through the guide body 110 and fitted to the shelf 20 and the guide A distribution line guide plate 130 fixed to an upper end of the body 110 in an arc shape, and a sliding member 140 fixed to the distribution line guide plate 130 to guide the distribution line in contact with the cloud;
A guide stopper 200 is further installed at the end of the shelf 20 to prevent the distribution guide 100 from being separated. The guide stopper 200 has a square block shape and is larger than the shelf 20. A stopper body 210 having a recess, a recess deeply inserted into one side surface of the stopper body 210, and a fitting groove 220 into which an end of the shelf 20 is inserted, and is fitted at an opposite side of the fitting groove 220. It is made of a fixing knob 230 is screwed to the knob fixing groove 22 formed in one end surface of the shelf 20 through the groove 220 so that the distribution cable is not caught by the stopper body 210;
The end of the shelf 20 opposite the guide stopper 200 fixed to the shelf fixing stand 24 is configured to be bent at an angle downward through the cable protection unit 500,
The cable protection unit 500 may include a protective housing 510 having a rectangular box shape at one side thereof, a housing cover 520 sealing the opened one side of the protective housing 510, and the protective housing 510. Some of the upper and lower portions of the through hole 530 with the through hole 530 formed at one side and the center of the housing cover 520 and the through hole 530 interposed between the protective housing 510. A pair of upper elastic plates 540 and lower elastic plates 550 installed in parallel to each other protrude from the center of one side surface of the end of the shelf 20 and inserted into the through-hole 530 so as to be fitted with the upper elastic pieces 540. Square shaft projection 560 disposed between the lower elastic piece 550, the shaft hole 562 formed through the square shaft projection 560, and a circular flange having a radius larger than the through hole 530 at one end A bush 580 integrally provided with a bush head 582 in the shape and fitted through the through hole 530; An end shaft 570 having a circular flange-shaped shaft head 572 having a radius larger than that of the shaft hole 562 is integrally inserted into the shaft hole 562 and then screwed to the tip of the bush 580. It includes;
The shelf 20 may be further provided with a sag prevention unit 300 at any point to prevent sagging of the distribution cable, and the sag prevention unit 300 is fitted to each of the adjacent pair of shelves 20. Protruding in a direction perpendicular to the center of the length of the first and second brackets (310,320), the first and second brackets (310, 320) and the opposite side of the first and second brackets (310,320), A fixed mounting plate 340, a limit switch L installed on an upper end of the mounting plate 340 to detect whether the power distribution cable is drooped, and a controller provided on one side of the upper surface of the mounting plate 340. And a deflection restoration motor 400 driven and controlled by the controller 350 by receiving the signal of the limit switch L, and a ball screw motor shaft 410 of the deflection restoration motor 400. It includes a lifting platform 420 screwed up and down in accordance with the driving direction of the deflection recovery motor 400 Provides a distribution stabilizer in the distribution line to the ground, characterized in that.

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According to the present invention, when the distribution cables are removed for wiring or relocation or new replacement on the shelves installed in the concrete structure constituting the power distribution, the installation wiring and removal work is easy and convenient to increase the work efficiency, cable break, etc. In addition to preventing safety accidents, it is possible to compensate for this when a deflection occurs, thereby preventing an inadvertent safety accident caused by a distribution cable deflection.

1 is an exemplary interior photo of a power distribution bulb according to the prior art.
2 is a partial excerpt diagram showing a distribution example of a distribution cable mounted on a shelf in a distribution power sphere for implementing a distribution stabilizer according to the present invention.
Figure 3 is an exemplary view showing an extract of the distribution guide that is the main part of FIG.
4 is an exemplary view showing an extract of the guide stopper in FIG.
5 is an exemplary view of a distribution cable sag prevention unit for implementing a power distribution stabilizer according to the present invention.
6 is an exemplary view showing an improved structure of a distribution cable protection shelf for implementing a power distribution stabilizer according to the present invention.
7 is an exemplary view showing an installation example of a cable protection unit for implementing a power distribution stabilizer according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Prior to the description of the present invention, the following specific structures or functional descriptions are merely illustrated for the purpose of describing embodiments according to the inventive concept, and the embodiments according to the inventive concept may be embodied in various forms, It should not be construed as limited to the embodiments described herein.

In addition, embodiments in accordance with the concepts of the present invention can be variously modified and have a variety of forms, specific embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As shown in Figures 2 to 4, the distribution stabilizer of the underground distribution line according to the present invention includes a distribution guide 100 that is detachably mounted to the shelf (20).

The distribution guide 100 includes a guide body 110 having a rectangular block shape, a through hole 120 formed through the guide body 110 and fitted into the shelf 20, and the guide body 110. A distribution cable guide plate 130 fixed in an arc shape at the top and a sliding member 140 fixed to the distribution cable guide plate 130 to guide the distribution cable in contact with the cloud.

Here, the through hole 120 is formed in a rectangular shape, which is intended to be fitted to the shelf 20 because the shelf 20 has a rectangular bar or a square block shape.

The sliding member 140 has a lower plate 142 having a plurality of ball grooves formed at regular intervals in a longitudinal direction on an upper surface thereof, and is assembled and fixed to an upper portion of the lower plate 142 and has a ball hole at a position corresponding to the ball groove. The upper plate 144 is formed and a sliding ball 146 that is locked in the ball groove and the ball hole to rotate.

Therefore, when the distribution cable moves in rolling contact with the sliding ball 146, the distribution cable can move very smoothly without a great force.

In addition, a guide stopper 200 is installed at an end of the shelf 20 to prevent the distribution guide 100 from being separated. The guide stopper 200 has a rectangular block shape as illustrated in FIG. 4. A stopper body 210 having a larger size than the shelf 20, a fitting groove 220 inserted into one side of the stopper body 210 so that an end of the shelf 20 is inserted, and the fitting groove The stopper body 210 is screwed into the knob fixing groove 22 by penetrating through the fitting groove 220 at the opposite side of the 220 so that the distribution cable is not separated.
At this time, the knob fixing groove 22 is formed at the end of the shelf (20).

On the other hand, in the example of FIG. 1, the distance between the communication line distribution power grid shelf 20 is tightly installed, but in the case of the distribution cable power port constituting a typical distribution line, since the distance between the shelves 20 is a long distance is long. In use, there is a risk of sagging due to a decrease in tension and a sagging even more as the temperature rises in the summer. In this case, there is a high risk of a safety accident that is broken by interference when workers pass.

In order to solve this problem, the present invention further includes a sag prevention unit 300 as illustrated in FIG. 5.

The sag prevention unit 300 includes first and second brackets 310 and 320 having a '∩' shape that is fitted to a pair of adjacent shelves 20, respectively.

Since the first and second brackets 310 and 320 are open downward, the first and second brackets 310 and 320 may be inserted into the shelf 20 and disposed at a desired position.

In addition, the connecting table 330 is fixed to the facing surfaces of the first and second brackets 310 and 320.

In addition, the installation plate 340 is fixed to protrude in the direction perpendicular to the length of the connecting table 330, the limit switch (L) is installed on the upper end surface of the mounting plate 340.

That is, the installation plate 340 is extended to the position directly below the wiring distribution cable, the limit switch (L) is located directly below the distribution cable is configured to sense through the switching function when the distribution cable sag. do.

At this time, the distance between the power distribution cable and the limit switch (L) can be designed in consideration of the normal deflection amount of the power distribution cable.

In addition, a controller 350 is further installed on one side of the upper surface of the mounting plate 340, and the controller 350 controls the driving of the deflection restoration motor 400 to be described later by receiving a signal of the limit switch L. Done.

In addition, a battery 360 is installed on the upper surface of the connecting table 330. If the commercial power can be used by adapting, the battery 360 does not need to be used.

In addition, the sag prevention unit 300 according to the present invention is not installed on every shelf 20, but is installed at a certain interval, that is, several places at a considerable interval.

In addition, the deflection restoration motor 400 is fixed to each outer surface of the first and second brackets 310 and 320, and the deflection restoration motor 400 is driven and controlled by the controller 350.

In particular, the ball screw type motor shaft 410 of the deflection restoring motor 400 is arranged in parallel with the mounting plate 340, one end of the lifting platform 420 is disposed at a position higher than the mounting plate 340 It has a structure to be fastened, and is disposed in an interview state on one side of the first and second brackets 310 and 320.

Therefore, even when the deflection restoration motor 400 is driven to rotate, the platform 420 is not rotated and is lowered along one side of the first and second brackets 310 and 320, and the top dead center and the bottom dead center are the first and second brackets. It is desirable to limit not to deviate from the height of (310,320).

At this time, the end of the platform 420 is formed to be upwardly curved curved portion 430 to be opened in the downward direction is configured to be easy to push down while holding the power distribution cable.

That is, according to this arrangement, the distribution cable is to be wired on the space between the platform 420 and the mounting plate 340, and when the deflection occurs, the distribution cable contacts the mounting plate 340, and then the limit switch L detects When the signal is sent, the controller 350 drives the sag restoration motor 400 to lower the lifting platform 420.

Then, the power distribution cable is pushed down from the outside of each shelf 20 while the power distribution cable spans both shelves 20 with the mounting plate 340 interposed therebetween.

Accordingly, since the distribution cables are lowered while being pushed down from the outside of the shelf 20, the point where the installation plate 340 is located is lifted upwards to restore sag.

Subsequently, when the contact release signal of the limit switch L is received, the controller 350 stops driving the deflection restoration motor 400.

Then, at the time when the driving is stopped, the deflection amount remains in a substantially restored state.

Then, if the deflection occurs after the passage of time, the operation to restore the deflection while repeating the above-described process is continuously performed.

In addition, the present invention may have a shelf structure for protecting a distribution cable as illustrated in FIG. 6.

According to FIG. 6, the structure of the shelf 20, which is firmly fixed to prevent movement while keeping the horizontal position on the shelf fixing stand 24 (see FIG. 2), may be improved to protect the distribution cable by allowing the shelf 20 to flow. Can be improved to

That is, the present invention further includes a cable protection unit 500.

The cable protection unit 500 is configured so that the shelf 20 is installed at one end fixed to the shelf fixing wand 24 so that the shelf 20 is bent at an angle downward and returned to its original position. That is, the guide stopper 200 is installed at the opposite end.

To this end, the cable protection unit 500 includes a protective housing 510.

The protective housing 510 has a rectangular box shape in which one side is opened, and the open side is closed by the housing cover 520.

In addition, a through hole 530 is formed at one side of the protective housing 510 and at the center of the housing cover 520.

In addition, the upper and lower portions of the upper elastic plate 540 and the lower elastic plate 550 so that the upper portion and the lower portion of the through hole 530 partially overlap with the through hole 530 therebetween. It is fixed in parallel arrangement.

In this case, the upper elastic plate 540 and the lower elastic plate 550 may be installed in a known manner in which each end is sandwiched between a plurality of ribs (not shown) formed inside the protective housing 510. have.

In addition, a square shaft protrusion 560 protrudes from the center of one end surface of the shelf 20, and the square shaft protrusion 560 is inserted into the through hole 530 and disposed inside the protective housing 510. The shaft projection 560 penetrates the shaft hole 562 is formed therethrough.

In addition, an insertion shaft 570 is fitted into the shaft hole 562, and one end of the shaft head 572 having a radius larger than that of the shaft hole 562 is integrally provided to form the shaft hole 562. It is configured to catch on the side.

In addition, the bush 580 is inserted through the through hole 530 formed in the housing cover 520, and one end of the bush 580 has a circular flange-type bush having a larger radius than the through hole 530. The head 582 is integrally provided to be caught by the surface of the housing cover 520.

In addition, the tip of the insertion shaft 570 is fitted to the tip of the bush 580 and then screwed together to be fixed.

Therefore, the insertion shaft 570 and the bush 580 is the front end is fastened to each other to serve as a kind of rotary shaft.

In addition, the square shaft projection 560 is disposed between the upper elastic piece 540 and the lower elastic piece 550, usually in the same state as (a), but when rotated downward by a predetermined angle (b) As shown in (c), the upper and lower elastic pieces 540 and 550 are rotated while being elastically deformed and returned to their original state. Of course, if there is enough space at the bottom, it can be folded up to 90 °.

Since the rotating operation structure is provided, when the lowering or raising the distribution cable mounted on the shelf 20, when the shelf 20 is slightly folded downward, the distribution cable can be easily and conveniently wired.

In addition, the present invention is the one side surface of the protective housing 510, that is, one side end surface orthogonal to the surface on which the shelf 20 is assembled, the fixing piece 590 for fastening and fixing to the shelf fixing wand 24 is integrated It includes a structure formed to protrude into.
That is, the fixing piece 590 is firmly fixed to the shelf fixing stand 24, and the shelf 20 is assembled with the above-described rotating structure in the protective housing 510 fixedly fixed to the fixing piece 590. It is installed.

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100: power distribution guide
200: guide stopper

Claims (1)

It includes a plurality of shelves (20) fixed to the shelf fixing stand 24 of the distribution power sphere to support the distribution cable and further install a distribution guide 100 on the shelf 20, the distribution guide 100 is square Block body guide body 110, the through-hole 120 is formed through the guide body 110 and fitted to the shelf 20, and the distribution line fixed in an arc shape on the upper end of the guide body 110 A guide plate (130) and a sliding member (140) fixed to the distribution line guide plate (130) to guide the distribution line in rolling contact;
A guide stopper 200 is further installed at the end of the shelf 20 to prevent the distribution guide 100 from being separated. The guide stopper 200 has a square block shape and is larger than the shelf 20. A stopper body 210 having a recess, a recess deeply inserted into one side surface of the stopper body 210, and a fitting groove 220 into which an end of the shelf 20 is inserted, and is fitted at an opposite side of the fitting groove 220. It is made of a fixing knob 230 is screwed to the knob fixing groove 22 formed in one end surface of the shelf 20 through the groove 220 so that the distribution cable is not caught by the stopper body 210;
The end of the shelf 20 opposite the guide stopper 200 fixed to the shelf fixing stand 24 is configured to be bent at an angle downward through the cable protection unit 500,
The cable protection unit 500 may include a protective housing 510 having a rectangular box shape at one side thereof, a housing cover 520 sealing the opened one side of the protective housing 510, and the protective housing 510. Some of the upper and lower portions of the through hole 530 with the through hole 530 formed at one side and the center of the housing cover 520 and the through hole 530 interposed between the protective housing 510. A pair of upper elastic plates 540 and lower elastic plates 550 installed in parallel to each other protrude from the center of one side surface of the end of the shelf 20 and inserted into the through-hole 530 so as to be fitted with the upper elastic pieces 540. Square shaft projection 560 disposed between the lower elastic piece 550, the shaft hole 562 formed through the square shaft projection 560, and a circular flange having a radius larger than the through hole 530 at one end A bush 580 integrally provided with a bush head 582 in the shape and fitted through the through hole 530; An end shaft 570 having a circular flange-shaped shaft head 572 having a radius larger than that of the shaft hole 562 is integrally inserted into the shaft hole 562 and then screwed to the tip of the bush 580. It includes;
The shelf 20 may be further provided with a sag prevention unit 300 at any point to prevent sagging of the distribution cable, the sag prevention unit 300 is fitted to each of the adjacent pair of shelves 20 ' Protruding in a direction perpendicular to the center of the length of the first and second brackets (310,320), the first and second brackets (310, 320) and the opposite side of the first and second brackets (310,320) and the length of the connection (330) A fixed mounting plate 340, a limit switch L installed on an upper end of the mounting plate 340 to detect whether the power distribution cable is drooped, and a controller provided on one side of the upper surface of the mounting plate 340. And a deflection restoration motor 400 driven and controlled by the controller 350 by receiving the signal of the limit switch L, and a ball screw motor shaft 410 of the deflection restoration motor 400. It includes a lifting platform 420 screwed up and down in accordance with the driving direction of the deflection recovery motor 400 Distribution of the stabilizer in underground distribution line, characterized in that.

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