KR102301952B1 - Tension adjustment system for power distribution cable - Google Patents

Abstract

The present invention relates to a system for controlling the tension of a distribution line for a power distribution utility pole, which includes left and right movable bars which are installed on left and right fixtures fixed to an arm to be movable left and right, and have a suspension insulator connected thereto; left and right forward ropes and left and right forward rope guide sheaves; and left and right retraction ropes and left and right retraction rope guide sheaves. Accordingly, the power distribution pole distribution line tension control system can adjust sufficient tension according to the change in tension and deflection of a distribution line, maintain the distribution line in a more stable manner, and control the tension, as one motor, with respect to one left and right distribution line, thereby reducing installation cost and maximizing a tension control range to realize sufficient tension and deflection relief.

Description

Electric pole distribution line tension adjustment system for power distribution {Tension adjustment system for power distribution cable}

The present invention relates to a power distribution pole distribution line tension control system, more specifically, to a power distribution line tension control system among distribution field technologies, and more specifically, sufficient tension control is possible according to changes in the tension and sag of the distribution line, and enables the distribution line to be maintained more stably and 1 It relates to a power distribution pole distribution line tension control system that enables tension control as one motor for both left and right distribution lines, thereby reducing installation costs and maximizing the tension control width to enable sufficient tension and sag relief.

In general, an overhead distribution line has one end fixed to a pole installed on the side of the road at a certain distance, a pair of left and right arms fixed to the upper part of the pole, and a pair of left and right arm irons, respectively, and a pair of left and right for one distribution line It includes an insulator disposed as a , and has a structure in which a distribution line is fixed at the other end of the insulator, and a pair of left and right distribution lines are connected by a jump line.

These distribution lines expand and contract according to changes in temperature, resulting in a change in tension. That is, in summer, it is stretched due to high temperature, and in winter, it is contracted due to low temperature, resulting in a change in tension.

Recently, due to environmental pollution, the daily temperature difference between the daily minimum and maximum temperature is gradually increasing, and the abnormal high temperature phenomenon in summer and abnormal low temperature phenomenon in winter continues. the current situation.

Such a change in the tension of the distribution line causes an increase in the tension applied to the distribution line and interferes with the stable distribution of the distribution line.

As a prior art for tension control of conventional distribution lines, Republic of Korea Patent Registration No. 10-1884290 (Aug. 29, 2018 Announcement) "Insulator-fixed full iron for tension control of overhead distribution lines" (hereinafter referred to as 'prior art 1') is the left , Left and right suspension insulators on left and right operating screws having male threads engaged with left and right female threads formed by different helical directions on the left and right half of the inner peripheral surface of the motor shaft of the drive motor fixed between the right and right arm It discloses a technology to relieve tension and sagging of left and right overhead distribution lines by connecting left and right overhead distribution lines through the

However, in Prior Art 1, since the drive motor is configured with a length corresponding to the distance between the left and right arms, and the maximum stroke for tension relief and deflection relief is limited to 1/2 of the distance between the left and right arm irons, tension relief and deflection relief are provided. There is a limit to the effect of tension relief and deflection relief because sufficient strokes cannot be obtained for

In addition, as a prior art, Republic of Korea Patent Registration No. 10-1731328 (2017.04.28. Announcement) "Insulator-fixed full iron for tension control of movable distribution lines" (hereinafter referred to as 'prior art 2') is A first insulator supported rotatably up and down on A rotation driving means, a second rotation driving means for rotating the second insulator up and down, and a control means for driving the first rotation driving means and the second rotation driving means according to the tension applied to the overhead power distribution line, the first insulator and By rotating the second insulator up and down, the tension can be adjusted in various postures, the tension control width is widened, so that the overhead distribution line can be maintained more stably, and a technology that can minimize the restrictions in actual application is disclosed.

However, the prior art 2 has a problem in that it does not provide a sufficient tension control width as it has a tension control width corresponding to the length of one insulator out of two insulators on the left and right, although it is said that the tension control width is wide. .

In addition, the prior art 2 requires 4 motors to correspond to one left and right distribution line, and considering that three left and right distribution lines are installed for one electric pole, 12 motors are required for one electric pole, so the installation cost increases. There is a problem being

Republic of Korea Patent No. 10-1884290 (2018.08.29. Announcement) "Insulator-fixed full iron for tension control of overhead distribution lines" Republic of Korea Patent No. 10-1731328 (2017.04.28. Announcement) "Insulator-fixed full iron for tension control of movable distribution lines"

Therefore, an object of the present invention is to enable sufficient tension control according to the change in tension and sag of the distribution line, to maintain the distribution line more stably, and to adjust the tension as one motor for one left and right distribution line. The purpose of this is to provide a distribution line tension control system for electric distribution poles that allows sufficient tension and sag relief by maximizing the width of tension control while reducing energy consumption.

The present invention includes a pair of left and right left and right fixtures each fixed to the upper surface of the left and right armcheols in order to achieve the above object; A left movable bar that is supported so as to be capable of moving forward and retracted to the left on the left end and connected to the right end of the left suspension insulator at the left end, and supported so as to be able to move forward and retract to the left on the right end, and the left end of the right suspension insulator is connected to the right end right movable arm; a left forward rope having one end fixed to the right end of the left movable table and being reversely guided by a leftward forward rope guide sheave provided at the left end of the left moving table; a leftward retracting rope having one end fixed to the right end of the left moving stand and being reversely guided by a rightward retracting rope guide sheave provided at the left end of the left moving stand; a rightward forwarding rope having one end fixed to the left end of the right moving unit and being reversely guided by a rightward forwarding rope guide sheave provided at the right end of the right moving unit; a leftward retracting rope having one end fixed to the left end of the right moving stand and being reversely guided by a leftward retracting rope guide sheave provided at the right end of the right moving stand; a driving motor in which a motor shaft is installed to protrude vertically upward between the left and right arms; It is coupled to the motor shaft, and the other end of the left and right forward rope and the left and right retracting rope are fixed, and when rotating in a counterclockwise direction, the left and right forward rope is wound and the left and right retracting rope is unwound, and when rotating clockwise a winding drum installed so that the left and right retracting ropes are wound and the left and right forward ropes are unwound; and a control means for rotating the driving motor forward or reverse according to the tension of the left and right distribution lines; provides a distribution line tension control system for distribution, comprising: a.

According to the power distribution pole distribution line tension control system for distribution of the present invention, it is installed movably left and right on the left and right fixtures fixed to the armrest, and the left and right movable bars to which the current insulators are connected, the left and right forward ropes and the left and right forward rope guide sheaves, and the left and right reverse ropes and left and right retracting rope guide sheave, sufficient tension can be adjusted according to the change in tension and deflection of distribution line Thus, the installation cost can be reduced and the tension control range is maximized, so that sufficient tension and deflection can be relieved.

1 to 4 show a preferred embodiment of a power distribution pole distribution line tension control system for distribution according to the present invention,
1 is a perspective view of a power distribution pole distribution line tension control system for distribution according to the present invention;
2 is a functional block diagram of the control means;
3 is an exploded perspective view of a power distribution pole distribution line tension control system for distribution according to the present invention;
4 is a front view showing an initial installation state, a state in which the tension is relieved, and a state in which the sagging is relieved.

Hereinafter, a system for adjusting the tension of a power distribution pole distribution line according to the present invention will be described in detail according to a preferred embodiment illustrated in the accompanying drawings.

1 to 4 show a preferred embodiment of a system for adjusting the tension of a power distribution pole distribution line according to the present invention.

As shown in FIGS. 1 to 4, the power distribution pole distribution line tension control system according to this embodiment is fixed to the upper end of the electric pole (not shown) installed at regular intervals along the roadside (10, 20) and , Left and right distribution lines 50 and 60 supported in an insulated state through left and right suspension insulators 30 and 40 on the left and right arm irons 10 and 20, and left and right distribution lines 50 and 60 through left and right connection ports 70 and 80 It is applied to an overhead distribution line including a jump line 90 connecting the

The left and right arm irons (10, 20) are fixed to the electric pole by a full iron fastener (not shown).

The left and right suspension insulators 30 and 40 are provided with inner and outer insulator rings 31, 32, 41 and 42 at inner and outer ends, respectively.

The left and right distribution lines 50 and 60 are covered wires in which conductors are covered with an insulating coating.

Hanging hooks 71 and 72 connected to the outer insulator rings 32 and 42 are provided at inner ends of the left and right connection ports 70 and 80 .

The power distribution pole distribution line tension adjustment system for distribution of the present invention includes a tension adjustment device (A) for adjusting the tension of the left and right distribution lines (50, 60).

The tension adjusting device (A) includes a pair of left and right fixing brackets (110, 120) fixed to the upper surfaces of the left and right arms (10, 20), respectively; The left movable bar 210 is supported so as to be capable of moving forward and backward in the left direction on the left fixture 110 and the right end of the left suspension insulator 30 is connected to the left end, and the right fixture 120 is capable of moving forward and retracting leftward. a right movable stand 220 supported and connected to the left end of the right suspension insulator 40 at the right end; a left forward rope 310 having one end fixed to the right end of the left movable table 210 and being reversely guided to a leftward forwarding rope guide sheave 330 provided at the left end of the left movable table 110; A left retracting rope 320 having one end fixed to the right end of the left fixing unit 110 and being reversely guided to the right retracting rope guide sheave 340 provided at the left end of the left moving stand 210; a right-hand advancing rope 410 having one end fixed to the left end of the right movable bar 220 and being reversely guided to a right-hand advancing rope guide sheave 430 provided at the right end of the right moving bar 110; a right-hand retracting rope 420 having one end fixed to the left end of the right-side stationary 120 and being reversely guided by a left-back retracting rope guide sheave 440 provided at the right end of the right movable bar 220; a driving motor 500 in which a motor shaft 510 is installed to protrude vertically upward between the left and right arm ribs 10 and 20; It is coupled to the motor shaft 510, and the other ends of the left and right forward ropes 310 and 410 and the left and right reverse ropes 320 and 420 are fixed, and when rotated counterclockwise, the left and right forward rope 310 , 410) is wound and the left and right retracting ropes 320 and 420 are unwound, and when rotating in a clockwise direction, the left and right retracting ropes 320 and 420 are wound and the left and right forward ropes 310 and 420 are unwound. drum 600; and a control means 700 for forward or reverse rotation of the driving motor 500 according to the tension of the left and right distribution lines 50 and 60 .

The left and right fixtures 110 and 120 are formed at the front and rear edges of the left and right fixture bodies 111 and 121 in the shape of a square plate and the left and right fixture bodies 111 and 121, and guide grooves 113 and 123 on the inner surfaces facing each other. It is composed of the formed guide rail portions (112, 122).

The left and right fixtures 110 and 120 are configured to have left and right lengths corresponding to the left and right widths of the left and right arms 10 and 20.

The left and right fixtures 110 and 120 are formed in a U-shape, and a pair of left and right coupling parts 131 surrounding the left and right arm ribs 10 and 20, and a mounting plate 132 for connecting a pair of left and right coupling parts 131 ), and a fixing bolt (B1) passing through the coupling part 131 and the left and right arm ribs 10, 20 left and right, and a fixing nut (N1) fastened to the fixing bolt (B1). It can be fixed to the left and right arm cheol (10, 20).

The left and right movable bars 210 and 220 are formed at the front and rear edges of the left and right movable base bodies 211 and 221 in the shape of a square plate, and the left and right movable base bodies 211 and 221 are inserted and guided into the guide grooves 113 and 123. It is composed of guides (212, 222).

A left insulator connection piece 213 for connecting the left suspension insulator 30 is provided at the left end of the left movable stand 210 , and the right insulator connection piece for connecting the right suspension insulator 40 to the right end of the right movable stand 220 . (223) is provided.

In FIG. 2, the right movable arm 220 shown within the dashed-dotted line is shown in a state seen from the bottom.

The left and right insulator connection pieces 213 and 223 are connected to the left and right suspension insulators 30 and 40 through the left and right insulator connectors 250 and 260 .

The left insulator connector 250 is formed in an inverted U-shape, the left insulator connector body 251 into which the inner insulator ring 31 is inserted, and the left insulator connector body 251 and the inner insulator ring 31 back and forth A connecting bolt (B2) passing through, a connecting nut (N2) fastened thereto, and a connecting screw rod (B3) integrally coupled to the right end of the left insulator connector body (251) and passing through the left insulator connecting piece (213) And, it is configured to include a connection nut (N3) fastened thereto.

The right insulator connector 260 is formed in a U-shape, and the right insulator connector body 261 into which the inner insulator ring 41 is inserted, and a connection bolt (B4) passing through the right insulator connector body 261, A connection nut N4 fastened thereto, a connection screw rod B5 integrally coupled to the left end of the right insulator connector body 261 and passing through the right insulator connection piece 223, and a connection nut N5 fastened thereto ) is included.

The leftward forward rope 310 forms a ring portion 311 at one end, passes a fixing bolt 312 through the ring portion 311 and fastens it to the left movable table 210. It is fixed, and the leftward retracting rope 320 forms a ring portion 321 at one end, passes a fixing bolt 322 through the ring portion 321, and fastens it to the left fixture 110 by fastening it to the left fixture ( 110) is fixed.

The right moving rope 410 forms a ring portion 411 at one end, passes a fixing bolt 412 through the ring portion 411 and fastens it to the right movable portion 220, so that it is attached to the right movable portion 220. It is fixed, and the rightward retracting rope 420 forms a ring portion 421 at one end, passes a fixing bolt 422 through the ring portion 421 and fastens it to the right fixture 120 by fastening it to the right fixture ( 120) is fixed.

In fixing the other ends of the left and right forward ropes 310 and 410 and the left and right backwards ropes 320 and 420 to the winding drum 600, a conventional method of fixing the ends of the ropes to the home sheave may be used.

For example, a horizontal groove formed toward the center formed in the front-rear direction in each groove and a vertical groove that communicates with the horizontal groove and is formed vertically upward or vertically downward of the winding drum 600 are formed, and the left and right forward rope 310 is formed. , 410) and the other ends of the left and right retracting ropes 320 and 420 are inserted into the horizontal groove and the vertical groove to form a head having an outer diameter larger than the inner diameter of the vertical groove at the end protruding from the upper or lower surface of the winding drum 600 By doing so, the right and left forward ropes 310 and 410 and the left and right backwards and retreat ropes 320 and 420 can be fixed in a state not to be separated from the vertical groove and the horizontal groove.

The left forward rope guide sheave 330 is rotatably supported on a support shaft 331 fixed to the left fixture 110 , and the right retracting rope guide sheave 340 is a support shaft fixed to the left movable bracket 210 ( 341) is rotatably supported.

The rightward forward rope guide sheave 430 is rotatably supported on a support shaft 431 fixed to the right fixture 120, and the leftward retracting rope guide sheave 440 is a support shaft fixed to the right movable bracket 220 ( 441) is rotatably supported.

The support shafts 331 , 341 , 431 , and 441 may consist of bolts fastened to screw holes formed in the left and right fixtures 110 and 120 and the left and right movable bars 120 , 220 , respectively, and the head of the bolt is oriented in the left and right directions. It is to prevent the departure of the forward rope guide sheave (333, 430) and the left and right retraction rope guide sheave (340, 440).

The driving motor 500 is vertically mounted so that the upper end is fixed to the lower surface of the mounting plate 132 , and the motor shaft 510 penetrates the shaft hole 133 formed in the mounting plate 130 and is installed to protrude upward. .

The coupling of the winding drum 600 to the motor shaft 510 may use a method of coupling a conventional shaft and a rotating body, and thus the illustration and description thereof will be omitted.

The winding drum 600 has a plurality of grooves so that the left forward rope 310, the leftward backward rope 320, the rightward forward rope 410, and the rightward backwards rope 420 are wound from the bottom without interfering with each other. This formed one is used.

That is, four steps of grooves are formed in the top and bottom, and the left forward rope 310, the leftward backward rope 320, the rightward forward rope 410, and the rightward backward rope 420 are wound from the bottom.

In addition, when the left and right forward ropes 310 and 410 are wound, the left and right forward backward ropes 320 and 420 are unwound, and when the left and right forward backward ropes 320 and 420 are wound, the left and right forward forward ropes 310 and 410 are released. is composed of

At this time, the winding length of the right and left forward ropes 310 and 410 and the unwinding length of the left and right backwards ropes 320 and 420 are the same, and the winding length of the left and right backwards ropes 320 and 420 and the left and right forward rope The unwinding lengths of (310, 410) are also made to be the same.

For this purpose, it is preferable that the winding drum 600 is configured in a standard in which the left and right forward ropes 310 and 410 and the left and right backward and backward ropes 320 and 420 are wound only once each.

The control means 700 includes a tension sensor 710 that is inserted and installed between the left insulator connection piece 213 and the left insulator connector 250 and between the right insulator connection piece 223 and the right insulator connector 260; A control unit 720 that outputs a control command for the driving motor 500 according to a detection signal of the tension sensor 710, and a driving signal for the driving motor 500 according to a control command of the control unit 720 It is configured to include a driving motor driving unit 730 for sending out.

The tension sensor 710 may use a pressure sensor.

The control unit 720 is configured to output a tension relaxation control command when the tension value detected by the tension sensor 710 is greater than a set value, and output a low load relaxation control command when the tension value is less than the set value.

When the tension relaxation control command is output from the control unit 720, the driving motor driving unit 730 transmits a tension relief driving signal to the driving motor 500, and accordingly, the driving motor 500 is operated in the tension relaxation direction to operate the motor The shaft 510 and the winding drum 600 coupled thereto are configured to rotate counterclockwise.

When the control unit 720 outputs the light weight reduction control command, the driving motor driving unit 730 transmits a light weight relief drive signal to the drive motor 500, and accordingly, the drive motor 500 is operated in the light weight relief direction to operate the motor. The shaft 510 and the winding drum 600 coupled thereto are configured to rotate in a clockwise direction.

Hereinafter, the operation of the power distribution pole distribution line tension control system for distribution according to the present invention will be described.

In the first installation of an overhead distribution line to which the power distribution pole distribution line tension control system for distribution according to the present invention is applied, as shown in FIG. , 420) are all wound by 1/2 turn on the winding drum 600, so that the left and right movable arms 210 and 220 are maintained in a state of moving left and right by 1/2 with respect to the maximum stroke.

At this time, the tension value applied to the left and right distribution lines 50 and 60 in this state is stored as a set value in the control unit 720 .

In this state, as the temperature decreases as in winter, the left and right distribution lines 50 and 60 contract, and the tension applied to the left and right distribution lines 50 and 60 increases, and the tension value detected by the tension sensor 710 is controlled by the control unit. Since it is larger than the set value stored in 720, the control unit 720 outputs the tension relaxation control command.

In accordance with the tension relaxation control command of the control unit 720, the driving motor driving unit 730 transmits a tension relief driving signal, and the driving motor 500 is operated in the tension relaxation direction to the motor shaft 510 and the winding drum coupled thereto ( 600) rotates counterclockwise.

When the winding drum 600 rotates counterclockwise, the right and left forward ropes 310 and 410 are wound around the winding drum 600, and the left and right backward and forward ropes 320 and 420 are released from the winding drum 600. comes out

When the left forward rope 310 is wound around the winding drum 600 and the rightward backward rope 320 is released from the winding drum 600 , the left forward rope 310 has one end fixed to the right end of the left movable table 210 . and is installed so as to be reversely guided to the left forward rope guide sheave 330 rotatably installed at the left end of the left fixture 110, so the left movable table 210 moves leftward with respect to the left fixture 110, and the right retracting rope ( 320) is installed so that one end is fixed to the right end of the left fixture 110 and is installed so as to be reversely guided to the right retracting rope guide sheave 340 rotatably installed at the left end of the left movable stand 210 by the left forward rope 310 It does not interfere with the leftward forward operation of the left movable arm 210 .

When the rightward forward rope 410 is wound around the winding drum 600 and the leftward backwards rope 420 is released to the winding drum 600 , the rightward forward rope 410 has one end at the left end of the right movable table 220 . It is fixed and installed so as to be reversely guided to the right forward rope guide sheave 430 rotatably installed at the right end of the right holder 120 , so the right movable table 220 moves forward with respect to the right fixture 120 , and the left retracting rope (420) is installed so that one end is fixed to the left end of the right holder 120, and is installed so as to be reversely guided to the left retracting rope guide sheave 440 rotatably installed at the right end of the right movable stand 220, the right forward rope 410 It does not interfere with the rightward forward operation of the right movable stand 220 by the

At this time, according to the leftward forward operation of the left movable stand 210, the left insulator connector 250, the left connector 70 and the left suspension insulator 30 are attached to the left insulator connection piece 213 provided at the left end of the left movable stand 210. The left power distribution line 50 connected through the is pushed to the left, and according to the rightward forward operation of the right movable stand 220, the right insulator connector 260 and the right The right distribution line 60 connected through the connection port 80 and the right suspension insulator 40 is pushed to the right, so that the tension applied to the left and right distribution lines 50 and 60 can be reduced.

Accordingly, the tension applied to the left and right distribution lines 50 and 60 is relieved, and when the tension value detected by the tension sensor 710 is equal to the set tension value, the tension relaxation control command of the control unit 720 is stopped, The above-described tension relief operation is stopped, and the left and right forward ropes 310 and 410, the left and right backwards ropes 320 and 420, and the left and right movable arms 210 and 220 stop the operation of the left and right distribution lines 50 and 60. The tension is maintained at the set tension value.

On the other hand, as the temperature rises as in summer, the left and right distribution lines 50 and 60 extend to reduce the tension applied to the left and right distribution lines 50 and 60, and the tension value detected by the tension sensor 710 is controlled by the control unit ( Since it becomes smaller than the set tension value stored in 720), the control unit 720 outputs a sag relaxation control command.

In accordance with the deflection relief control command of the control unit 720, the driving motor driving unit 730 sends a deflection relief control command, and the driving motor 500 is operated in the deflection relief direction to the motor shaft 510 and the winding drum coupled thereto ( 600) rotates clockwise.

When the winding drum 600 rotates clockwise, the left and right retracting ropes 320 and 420 are wound around the winding drum 600, and the left and right forward ropes 310 and 410 are released from the winding drum 600. do.

When the leftward retracting rope 320 is wound around the winding drum 600 and the leftward forward rope 310 is released to the winding drum 600 , the rightward retracting rope 320 has one end fixed to the right end of the left fixture 110 . And since it is installed so as to be guided in reverse on the right retracting rope guide sheave 340 rotatably installed at the left end of the left movable stand 210, the left movable bar 210 is retracted to the right with respect to the left fixed base 110, and the left forward rope ( 310) is installed so that one end is fixed to the right end of the left movable stand 210 and is installed so as to be reversely guided to the left forward rope guide sheave 330 which is rotatably installed at the left end of the left movable table 110, so leftward retracting rope 420 It does not interfere with the rightward retraction operation of the left movable arm 210 .

When the rightward forward rope 410 is wound around the winding drum 600 and the leftward backwards rope 420 is released to the winding drum 600, the leftward backwards rope 420 has one end at the left end of the right fixing rod 120 . It is fixed and installed so as to be reversely guided to the left retracting rope guide sheave 440 rotatably installed at the right end of the right movable bar 220, so the right movable bar 220 is retracted to the left with respect to the right fixture 120, and the right forward rope (410) is installed so that one end is fixed to the left end of the right movable bar 220 and is installed so as to be reversely guided to the right forward rope guide sheave 430 rotatably installed at the right end of the right movable bar 120, so to the left retracting rope 420. It does not interfere with the leftward retraction operation of the right movable arm 220 by the

At this time, according to the rightward retracting operation of the left movable table 210, the left insulator connection piece 213 provided at the left end of the left movable table 210 is attached to the

The left power distribution line 50 connected through the left insulator connector 250 and the left connector 70 and the left suspension insulator 30 is pulled to the right, and according to the leftward retracting operation of the right movable bar 220, the right movable bar 220 The right distribution line 60 connected through the right insulator connector 260, the right connector 80, and the right suspension insulator 40 to the right insulator connection piece 223 provided at the right end of the 60) can reduce the deflection applied to it, and the tension is increased.

Accordingly, the sagging of the left and right power distribution lines 50 and 60 is alleviated and the tension is increased. Stopped, the deflection relief operation described above is stopped, and the left and right forward ropes 310 and 410, the left and right backward retreat ropes 320 and 420, and the left and right movable arms 210 and 220 stop the operation of the left and right distribution lines 50 and 60 The tension applied to it is maintained at the set tension value.

Figure 4 (a) shows a state in which the left and right movable arms 210 and 220 have advanced left and right by an intermediate stroke as a state of initial installation,

4 (b) shows a state in which the left and right movable arms 210 and 220 have advanced left and right by the maximum stroke Max,

4 (c) shows a state in which the left and right movable arms 210 and 220 are retracted left and right by the maximum stroke Max.

As shown in (a) (b) (c) of Fig. 4, the tension control maximum stroke (Max) for tension relief and deflection relief can be set to an extent corresponding to the distance between the left and right arm ribs 10 and 20, so the tension By maximizing the adjustable width, sufficient tension and deflection can be relieved.

In addition, it is possible to adjust the tension as one motor for one left and right distribution lines, thereby reducing the installation cost.

Although the embodiments have been described above, the present invention is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains without departing from the gist of the invention as claimed in the claims below It will be said that anyone can implement various modifications, and such modifications are also included in the technical spirit of the present invention.

10, 20: Left and right arm braces 30, 40: Left and right suspension insulators
110, 120: Left and right fixing bars 310, 410: Left and right forward rope
320, 420: Left and right retreating rope 330: Leftward forward rope guide sheave
340: rightward retreat rope guide sheave 430: rightward forward rope guide sheave
440: left retracting rope guide sheave 500: drive motor
600: winding drum 700: control means

Claims (1)

a pair of left and right side fixtures respectively fixed to the upper surfaces of the left and right arms; A left movable bar that is supported so as to be capable of moving forward and retracted to the left on the left end and connected to the right end of the left suspension insulator at the left end, and supported so as to be able to move forward and retract to the left on the right end, and the left end of the right suspension insulator is connected to the right end right movable arm; a left forward rope having one end fixed to the right end of the left movable table and being reversely guided by a left forwarding rope guide sheave provided at the left end of the left moving table; a leftward retracting rope having one end fixed to the right end of the left moving stand and being reversely guided by a rightward retracting rope guide sheave provided at the left end of the left moving stand; a right forward rope having one end fixed to the left end of the right movable unit and being reversely guided by a rightward forwarding rope guide sheave provided at the right end of the right moving unit; a leftward retracting rope having one end fixed to the left end of the right moving stand and being reversely guided by a leftward retracting rope guide sheave provided at the right end of the right moving stand; a driving motor in which a motor shaft is installed to protrude vertically upward between the left and right arms; It is coupled to the motor shaft, and the other ends of the left and right forward and left and right backwards ropes are fixed, and the left and right forward and left and right backwards ropes are wound, and when rotated in a counterclockwise direction, the left and right forward ropes are a winding drum installed so that the left and right retracting ropes are wound and the left and right retracting ropes are unwound, and the left and right retracting ropes are wound and the left and right forward ropes are unwound when rotating in a clockwise direction; and a control means for rotating the drive motor forward or reverse according to the tension of the left and right distribution lines.

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