KR100871897B1 - Frame for underground distribution line - Google Patents

Abstract

An electric line fixing frame for controlling a distribution position of a distribution wire is provided to prevent an electric accident and the reduction of the lifespan due to water leakage of the concrete structure. A guide rail(100) includes a rack(110) and is installed horizontally in a width direction in an upper portion of a concrete structure. A shelf(200) is installed in the concrete structure and supports the distribution wire. A bracket includes a pinion(313) geared with the rack and is movably fixed in the guide rail. A transfer device(300) includes a driving motor(320) forcedly driving the pinion which is installed in a bracket and reciprocates the shelf in the width direction of the concrete structure along the guide rail. A control unit receives a control signal from a first input unit(500) or a second input unit(600) and controls the operation of the driving motor. The first input unit is installed in the right inner wall side of the concrete structure and outputs the operation signal of the driving motor to the control unit. The second input unit is installed in the left inner wall side of the concrete structure and outputs the operation signal of the driving motor to the control unit.

Description

Wire line holder for adjusting wiring position of distribution line {Frame for Underground Distribution Line}

The present invention relates to a wire line holder, and more particularly, to a wire line holder capable of adjusting the wiring position of the distribution line is installed to be movable in the width direction of the concrete structure.

In general, Korea's overhead processing line was started in 1973 by distributing the distribution lines that were intricately installed from Hyo Auto to Gwanghwamun. The trend is expanding.

For reference, underground construction works can be divided into direct sales, pipeline, electric power and bridges.

Of these, electric power is also called culvert type or isometric type, and the wire line holder supporting the distribution line is installed in the concrete structure in the form of a simple shelf. In other words, as shown in Figure 1, the concrete structure (H) of about 2 meters horizontally and vertically, respectively, in the ground to be in close contact with the left and right sides of the wall inside the concrete structure (H) made by connecting like a pipe The shelf 200 'is fixedly arranged, and distribution lines C are installed on the shelf 200'. Meanwhile, a passage P is provided between the shelf 200 'and the shelf 200' to allow an operator to pass through.

By the way, in such an old-fashioned construction, the shelf 200 'is simply fixed while forming a layer on both side walls of the inside of the concrete structure H. Therefore, when leakage occurs in the concrete structure H, the shelf 200' is installed on both side walls. There was a problem that the moisture is moved along to wet the distribution line (C), and if this situation is repeated repeatedly, oxidation is promoted and the life of the distribution line (C) is shortened. In addition, when the distribution line (C) is wet, it is not easy to dry due to its characteristics installed in an enclosed space in the basement, there was also a problem inconvenient work.

In addition, the oxidized distribution line (C) has a problem in that the occurrence rate of electrical accidents such as a power failure or an electric shock increases because the possibility that the current flowing through the oxidized portion is exposed.

In addition, conventionally, since the shelf 200 'is firmly fixed to both side walls of the concrete structure H, when the earthquake or vibration occurs, the shelf 200' is not only separated from the wall but also bent or cut. 200 ') caused breakage.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a wire line holder that can adjust the wiring position of the distribution line to reduce the life of the distribution line due to the leakage of the concrete structure and prevent the electrical accident in advance. .

The present invention for solving the above problems, having a rack, the guide rail which is installed in the horizontal direction in the width direction of the upper portion of the concrete structure; A shelf built in the concrete structure and supporting the distribution line; Bracket fixed to the guide rail with a pinion engaged with the rack, and a drive motor installed on the bracket to force the pinion to drive, the transfer device for reciprocating the shelf in the width direction of the concrete structure along the guide rail Wow; A control unit which receives a control signal from the first input unit to the second input unit and controls the operation of the driving motor; A first input unit installed on the right inner wall of the concrete structure and outputting an operation signal of the driving motor to the control unit; It is installed on the left inner wall surface of the concrete structure is composed of a second input unit for outputting the operation signal of the drive motor to the control unit.

The present invention is configured as described above, the effect of optimizing the size of the concrete structure is expected while reducing the service life shortening of the distribution line even if the leakage occurs in the concrete structure.

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

2 is a partially exploded perspective view of a wire line holder for adjusting a wiring position of a distribution line according to the present invention, FIG. 3 is a view for explaining an operating state of a wire line holder according to the present invention, and FIG. 4 is according to the present invention. As a block diagram of a drive motor, a control unit, a first input unit and a second input unit, the wire line holder according to the present invention includes a guide rail 100, a shelf 200, a conveying device 300, and a control unit 400. ), The first input unit 500 and the second input unit 600.

In general, the concrete structure (H) forms a rectangular tubular shape in which the hollow is formed in the longitudinal direction in order to protect the distribution line (C) buried in the ground, and the wire line fixture is installed.

The guide rail 100 constituting the wire line holder according to the present invention has a rectangular bar shape, a predetermined section rack 110 is formed at both ends with respect to the center. Here, the guide rail 100 is inserted and fixed to the upper portion of the concrete structure (H) so as to be horizontally installed in the width direction of the concrete structure (H).

In addition, the shelf 200 is a conventional multilayer shelf built in a concrete structure (H) to support the power distribution line (C), and is composed of a pedestal 210, a panel 220, and a separation preventing member 230. do. Here, the pedestal 210 is fitted in the binding hole (314a) so that the upper surface is a flat bar shape, arranged horizontally around the fixing stand 314. In addition, the panel 220 is a flat plank having a width that sufficiently covers the upper surface of one side of the pedestal 210 with respect to the holder 314. The detachment preventing member 230 is a kind of bolt in which the head 231 is formed to be long, and the head 231 protrudes upward from the panel 220 while fixing the panel 220 and the pedestal 210. Even if this is moved, the arranged distribution line C is protected so that the distribution line C may not fall downward. On the other hand, when the buffer material (not shown) of the rubber material is reinforced on the head 231, even when the distribution line C shakes when the shelf 200 moves, the shock is alleviated so that the breakage of the distribution line C is reduced. Is prevented. On the other hand, the shelf 200 according to the present invention, a plurality of pedestal 210 and the panel 220 is provided to form a multi-layered structure formed horizontally around the fixing table 314.

The transfer device 300 according to the present invention includes a bracket 310 and a drive motor 320. The bracket 310 is composed of a mounting table 311, the fastening table 312, the pinion 313 and the fixing table 314. Here, the seating stand 311 is bent in a '∪' shape, it is arranged in a form in which the guide rail 100 is seated in the bent portion. In addition, the fastening table 312 extends downward from the center of the mounting table 311. The pinion 313 is rotatably fixed to the upper end of the seating plate 311 so that the rotation shaft 313a is movably fixed to the guide rail 100 by engaging the rack 110. In addition, the fixing stand 314 is a bar shape, a plurality of binding holes () are formed to be spaced apart from each other at a predetermined distance, the upper end is fixed to the fastening table 312 and the bottom of the shelf 200 is fixedly installed . The drive motor 320 is a known motor, and is installed through the fixing member a to the bracket 310 to force the pinion 313 to be forced. In addition, the drive shaft 321 of the drive motor 320 is fixed to the rotation shaft 313a of the pinion 313, forcibly driving the pinion 313 in the rotation direction of the drive shaft 321 while the drive shaft 321 is rotated. . Therefore, when the driving motor 320 is operated, the bracket 310 is moved to one side of the width direction of the concrete structure (H) along the guide rail 100, the shelf 200 is also moved in the same direction accordingly. .

Subsequently, the control unit 400, the first input unit 500, and the second input unit 600 will be described with reference to FIG. 4.

The control unit 400 is installed in the concrete structure (H), and receives the control signal from the first input unit 500 and the second input unit 600 to control the operation of the drive motor 320. In addition, the control unit 400 is a control signal is simultaneously input from the first input unit 500 and the second input unit 600, or the first and second push button switch (510, 520) of the first input unit 500 When the control signal is inputted at the same time or the control signal is input at the same time from the third, fourth push button switch (610, 620) of the second input unit 600 is set to stop the drive motor (320).

The first input unit 500 includes a first push button switch 510 and a second push button switch 520 which are conventional push button switches, and are installed on the right inner wall of the concrete structure H, and While in the state, the control signal is output to the control unit 400. For example, when the first push button switch 510 is pressed in the on state, a control signal is output to the control unit 400 such that the driving motor 320 is rotated in the forward direction until the first push button switch 510 is turned on. . When the second push button switch 520 is turned on, the control unit 400 outputs a control signal for driving the drive motor 320 in the reverse direction until the second push button switch 520 is turned on. When the first push button switch 510 and the second push button switch 520 are switched from an on state to an off state, a control signal for stopping driving of the driving motor 320 is output.

The second input unit 600 includes a third push button switch 610 and a fourth push button switch 620 which are ordinary push button switches, and are installed on the left inner wall of the concrete structure H, and While in the state, the control signal is output to the control unit 400. For example, when the third push button switch 610 is pressed in the on state, the control unit 400 outputs a control signal for rotating the drive motor 320 in the reverse direction until the on state is switched to the off state. . When the fourth push button switch 620 is turned on, the control unit 400 outputs a control signal for rotating the driving motor 320 in the forward direction until the fourth push button switch 620 is turned on. When the third push button switch 610 and the fourth push button switch 620 are switched from the on state to the off state, a control signal for stopping driving of the driving motor 320 is output.

Hereinafter, with reference to Figures 3, 5 and 6 the operation of the wire line holder that can adjust the wiring position of the distribution line according to the present invention is as follows.

As shown in FIG. 3, when the installation of the first shelf 200 is completed, the shelf 200 is installed to be movable in both directions from the center of the guide rail 100. That is, the first, second, third, and fourth push button switches 510, 520, 610, and 620 are in an off state.

And, as shown in Figure 5, when the worker needs to work on the right side of the shelf 200, by switching the first push button switch 510 from the off state to the on state, the bracket 310 The guide rail 100 is moved in the left direction. In addition, when the bracket 310 is moved to the left side of the guide rail 100 to the maximum and the shelf 200 is as close as possible to the left wall of the concrete structure H, the first push button switch 510 is turned off in an on state. Switch to to stop the driving of the drive motor 320. Then, a passage P, which is a space in which the worker can move, is formed to the right side of the shelf 200. When the operation is completed, the second push button switch 520 is switched from the off state to the on state, and the bracket 310 is moved in the right direction of the guide rail 100, while the shelf 200 is a concrete structure. When placed in the center of (H), the shelf 200 is returned to its original state by switching from the on state to the off state.

And, as shown in Figure 6, when the worker needs to work on the left side of the shelf 200, by switching the third push button switch 610 from the off state to the on state, the bracket 310 The guide rail 100 is moved in the right direction. In addition, when the bracket 310 is moved to the right of the guide rail 100 to the maximum and the shelf 200 is as close as possible to the right wall of the concrete structure H, the third push button switch 610 is turned off in an on state. Switching to, the driving of the drive motor 320 is stopped. Then, a passage P, which is a space in which the worker can move, is formed on the left side of the shelf 200. When the operation is completed, the fourth push button switch 620 is switched from the off state to the on state, and the bracket 310 is moved to the left side of the guide rail 100, and the shelf 200 is a concrete structure. When placed in the center of (H), the shelf 200 is returned to its original state by switching from the on state to the off state.

On the other hand, if a control signal is simultaneously input from the first input unit 500 and the second input unit 600 to the control unit 400, a safety problem may occur. For example, when the shelf 200 is disposed in the center of the concrete structure H, two workers do not know that the other side is on the opposite side, one worker in the off state of the first push button switch 510 While switching to the on state, at the same time or at a time difference, the other operator switches the third push button switch 610 from the off state to the on state, so that the driving signal of the driving motor 320 is simultaneously controlled by the control unit 400. Can be entered. Alternatively, one operator switches the first push button switch 510 from the off state to the on state, and the other operator switches the third push button switch 610 from the off state to the on state and simultaneously controls it. In some cases, a control signal may be input to the unit 400. Alternatively, one operator switches the fourth push button switch 620 from the off state to the on state, and the other operator switches the second push button switch 520 from the off state to the on state at the same time. In some cases, a control signal may be input to the unit 400. When the control signals for driving the drive motor 320 in the forward and reverse directions are simultaneously input from the control unit 400, the drive motor 320 is set not to be driven, and control signals having different directions at different times are input simultaneously. When it is set to stop the drive of the drive motor 320 can secure the safety of the operator is preferable.

In the wire line holder for adjusting the wiring position of the distribution line according to the present invention, the shelf 200 is disposed at a center spaced apart from both side walls of the concrete structure (H). Therefore, even if a leak occurs in the concrete structure (H), since the water flowing along the left and right side walls does not flow into the shelf 200, the distribution line (C) is protected from the inundation has the advantage of extending the service life.

In addition, the wire line holder that can adjust the wiring position of the distribution line according to the present invention, the shelf 200 is arranged to be movable left and right in both directions from the center of the guide rail 100 shelf 200 to the opposite side of the direction to work Since the passage P is formed by moving, it is not necessary to secure a space for the passage P separately. Therefore, since unnecessary space is omitted, the utilization of space is improved, and thus the size of the concrete structure H is optimized.

In addition, the wire line holder that can adjust the wiring position of the distribution line according to the present invention, the transfer device 300, the control unit 400, the first input unit 500 and the second input unit 600, When the first and second input units 500 and 600 are manipulated, the shelf 200 is moved to the left side or the right side of the guide rail 100 so that the passage P may be easily formed.

Figure 1 schematically shows a conventional wire line fixture,

2 is a partially exploded perspective view of a wire line holder for adjusting a wiring position of a distribution line according to the present invention;

Figure 3 schematically shows the operating state of the wire line holder that can adjust the wiring position of the distribution line according to the present invention,

4 is a block diagram of a drive motor, a control unit, a first input unit and a second input unit according to the present invention;

5 and 6 schematically show the operating state of the wire line holder that can adjust the wiring position of the distribution line according to the present invention.

Explanation of the main parts of the accompanying drawings

100: guide rail, 110: rack, 200, 200 ': shelf,

210: stand, 220: panel, 230: release preventing member,

231: head, 300: feeder, 310: bracket,

311: the seating pad, 312: the fastener, 313: the pinion,

313a: rotating shaft, 314: fixed base, 314a: binding hole,

320: drive motor, 321: drive shaft, 400: control unit,

500: first input unit, 510: first pushbutton switch, 520: second pushbutton switch,

600: second input unit, 610: third pushbutton switch, 620: fourth pushbutton switch,

C: distribution line, H: concrete structure, P: passage, a: fixing member.

Claims (1)

With a rack 110, the guide rail 100 is horizontally in the horizontal direction in the upper portion of the concrete structure (H) and; A shelf 200 installed in the concrete structure H to support the distribution line C; Bracket 310 is fixed to the guide rail 100, having a pinion 313 engaged with the rack 110, the drive motor 320 is installed on the bracket 310 to drive the pinion 313 forcibly It is provided with, the conveying apparatus 300 for reciprocating the shelf 200 in the width direction of the concrete structure (H) along the guide rail (100); A control unit 400 for receiving a control signal from the first input unit 500 to the second input unit 600 to control the operation of the driving motor 320; A first input unit 500 installed on the right inner wall of the concrete structure H and outputting an operation signal of the driving motor 320 to the control unit 400; Wires capable of adjusting the wiring position of the power distribution line, characterized in that formed on the left inner wall surface of the concrete structure (H) consists of a second input unit 600 for outputting the operation signal of the drive motor 320 to the control unit 400. Line holder.

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