KR101884290B1 - Insulator fixed supporter for adjustment tension of overhead electric power distribution line - Google Patents

Abstract

The present invention relates to an insulator fixing type arm for adjusting tension of an overhead distribution line which connects left and right side overhead distribution lines to left and right side operation screws having a male thread part threaded on left and right side female thread parts formed by different helix directions in a left half and a right half of an inner circumference surface of a motor shaft of a driving motor which is fixed and installed between left and right side arms through left and right side suspension insulators and mitigates tension and sagging of the left and right side overhead distribution lines. Also, the present invention supports a jump line in a more stable state by raising and lowering a line post insulator in cooperation with tension and sagging mitigating action. The jump line is located on the same vertical plane as the left and right side overhead distribution lines and the center part is supported by the line post insulator, thereby more stably maintaining the jump line.

Description

[0001] The present invention relates to an insulator fixed supporter for adjusting tension of a power distribution line,

More particularly, it is possible to adjust tension sufficiently according to the tension change of the processing distribution line and to maintain the processing distribution line more stably. And more particularly to an insulator fixed rigid body for adjusting the tension of a processing power distribution line so as to minimize constraints in actual application and to support jump lines connecting left and right machining distribution lines in a more stable state.

In general, a working distribution line includes a pole disposed at a predetermined distance on the road side, a pair of left and right coils fixed to the upper end of the pole, and one end fixed to each of the right and left coils, And a structure in which a processing distribution line is fixed to the other end of the insulator and a pair of left and right processing distribution lines are connected by a jump line.

Such a processing distribution line will cause a change in tension as the temperature changes. That is, it is stretched due to high temperature in summer, and contracted due to low temperature in winter, resulting in change of tension.

Recently, the daytime temperature difference between the minimum temperature and the maximum temperature is gradually increasing due to environmental pollution. In the summer, an abnormal high temperature phenomenon continues and in winter, an abnormal low temperature phenomenon continues. Such a large temperature difference gradually increases the tension applied to the processing distribution line In fact.

Such a change in the tension of the processing distribution line causes an increase in the stress applied to the processing distribution line and interferes with the stable distribution of the processing distribution line. Therefore, it is necessary to relax and adjust the tension so that the processing distribution line can be stably maintained.

The tension control device of the conventional distribution line by means of a linear electric actuator or the like relieves tension or relieves deflection of the processing distribution line by pulling or relaxing the left and right processing distribution lines, The jump line connecting the left and right distribution lines through the left and right connection ports is supported in an insulated state with respect to the bare metal through the line post insulator. The left and right side distribution lines are relaxed to relax the tension The left and right machining distribution lines and the left and right connection ports connecting the jump line become farther away so that the radius of curvature of the jump line becomes large and when the left and right machining distribution lines are pulled to relieve deflection, The distance between the left and right connection ports connecting the jump lines becomes closer, The radius of curvature becomes small.

In this case, when the left and right machining distribution lines are loosened to relax the tension, the jump line becomes taut and the radius of curvature becomes large. Since the middle of the jump line is supported at a constant height by the line post insulator, the tension of the jump line can be increased, If the jump line is not provided with a sufficiently long length, there is a problem that a contact failure occurs at the left and right connection ports.

In addition, when the left and right machining distribution lines are pulled to relieve deflection, the jump line relaxes and the radius of curvature becomes small. Since the middle of the jump line is supported at a constant height by the line post insulator, The supporting posture is higher than the supporting point of the line post insulator.

As a prior art for tension control, Korean Patent Laid-Open Publication No. 10-2014-0100175 entitled " Chain tension adjuster capable of adjusting the length of a processed power transmission line "(hereinafter referred to as Prior Art 1) The wire tension adjusting mechanism is a technique that allows the length of the working transmission line to be adjusted without a wire break by using a chain type tension adjusting mechanism instead of a ball chain which connects the light end wire and the suspending insulator without disassembling the dead end clamp connected to the wire .

As a prior art for adjusting the tension, Korean Registered Patent No. 10-1002422 entitled " Prior Art 2 "for adjusting the tension of a machining distribution line (hereinafter referred to as " Prior Art 2 " A spring buffering device for buffering the insulator support, a pressure sensor for sensing a pressure according to the tension applied to the processing distribution line, and a screw and a screw driver for moving the insulator support up and down, To drive the screw driving device to adjust the tension of the processing distribution line while the insulator support part is lifted and lowered.

As a prior art for tension control, Korean Patent No. 10-1466138 entitled " Prior Art 3 " for a power transmission tower of a transmission-dedicated wire is a central drive motor Right and left drive screws are screwed to the female screw portions of the right and left drive screws, respectively. The left and right drive screws are screwed to the left and right drive screws, It is possible to simultaneously reduce the tension of the transmission work line by using the central drive motor and both drive motors without using high pressure gas to minimize the installation cost of the transmission tower. And components for reducing the tension of the first driving motor, the left and right second driving motors, the first driving screw, the left and right second driving screws, the connecting means, the tension sensor, etc., Since the structure of the arc cover is arranged in an inline structure and the structure of the arc cover is simple and the protective cover is fixed to the arm of the transmission tower so that the installation of the tension relaxer is completed, So that it is not contaminated by snow, rain, dust, or the like, so that a malfunction or an inoperable state does not occur. The first drive motor and the left and right second drive motors are provided at the center, The second driving screw moves the left and right second driving motors to the left and right and the left and right second driving screws which are moved to the left and right by the left and right second driving motors, And the transmission-purpose working wire is doubled to multiply the operating force for relieving the tension of the transmission-dedicated working wire so that the tension relief operation is smoothly performed Technology.

However, these prior arts do not solve the problems of the prior art as described above, such as relaxing the tension of the left and right machining distribution lines or relaxing deflection as in the prior art.

Therefore, it is possible to adjust the tension according to the change of the tension of the power distribution line, to keep the power distribution line more stable, to minimize the limitation in actual application, There is a demand for development of a technique for supporting the substrate in a stable state.

Korean Patent Laid-Open No. 10-2014-0100175 "Chain tension adjusting mechanism capable of controlling the length of the processed power transmission line" Korean Registered Patent No. 10-1002422 entitled "Insulator Fixed Wand for Adjusting the Tension of a Processing Distribution Line" Korean Patent No. 10-1466138 entitled "Tension Relief Device for Power Transmission Tower for Transmission &

Accordingly, it is an object of the present invention to provide a method and apparatus for controlling the tension of a processing distribution line, which can sufficiently control the tension according to a change in the tension of the processing distribution line and can more stably maintain the processing distribution line, And to provide an insulator fixing rigid body for adjusting the tension of a processing distribution line so that the connecting jump line can be supported in a more stable state.

According to an aspect of the present invention, there is provided a bipolar electric machine including left and right rigid iron fixed to an upper end of a pole, left and right machined power distribution lines supported in an insulated state through left and right suspension arms of the left and right rigid iron, And a jump line connecting the left and right machining distribution lines through the right connection port and being supported in an insulated state by the line post insulator left and right right soldering iron, and inner and outer insulator rings at both ends of the left and right suspending insulators, Wherein the line post insulator includes a lower threaded rod provided at the lower end and fixed to the left and right rigid iron, and a jump line fastener provided at the upper end and fixing the intermediate portion of the jump line, and the left connection port includes a hook provided at the right end, And the right connection port is connected to the outer end of the right hanging insulator by hooking the hook provided at the left end of the right hanging insulator, The present invention relates to an insulator fixed barrel for adjusting the tension of a processing power distribution line connected to a right suspender insulator while walking against a loop, Wherein the tension adjusting device is fixedly installed between the left and right rigid wheels, the left inner thread portion of the right spiral is formed in the left inner half portion of the inner circumference, A drive motor having a hollow motor shaft having a right helical threaded portion formed on its left side; A left operating screw having a right screw male screw portion threaded into the left internal thread portion and horizontally penetrating the left wing iron and having a left end connected to an inner insulator ring of the left suspender insulator; A right operating screw having a male thread portion threaded into the right female thread portion and horizontally penetrating the right wing iron and having a right end connected to an inner insulator ring of the right suspender; An elevating fixed to which a lower end of the line post insulator is fixed; A left interlocking rod hinged to both ends of the left end of the left operating screw and the left end of the lifting and lowering arm; And a right interlocking rod hinged to both ends of the right end of the right operating screw and the right end of the elevating and retreating fixed frame, wherein the driving motor has flanges formed at both ends thereof, The left operating screw is fixedly coupled to the left end by a bolt passing through the base and a nut fastened to the bolt. The left operating bolt is fixedly coupled to the left end of the left operating bolt, And the right operating connector is fixedly coupled to a right end of the right operating screw by a hinge nut which is inserted through the hinge bolt passing through the right insulator, By the hinge bolt passing through the inner insulator ring of the right suspender insulator and the hinge nut fastened thereto, Wherein the left insulator connecting hole is formed in a U shape and integrally joined to the left end of the left operating screw by welding, and the right insulator connecting hole is formed in an inverted U shape, And the left operating screw is fixed to the inside of the left eyelet connecting hole, and the right operating screw is fixed to the inside of the right eyelet connecting hole by being welded integrally with the right end of the right operating screw, Wherein the left hinge connector includes a left upper connector having a semicircular coupling groove surrounding the upper half of the outer peripheral surface of the left operating screw, a coupling piece extending in the front-rear direction, and a hinge formed on the upper surface; A semicircular coupling groove surrounding the lower half of the outer circumferential surface of the left operating screw and a left lower coupling port provided with a coupling piece extending in the front and rear direction, the right hinge coupling includes a semicircular coupling groove surrounding the upper half of the outer peripheral surface of the right operating screw, A right upper connector having a hinge part formed on an upper surface thereof; A semicircular coupling groove surrounding the lower half of the outer circumferential surface of the right operating screw and a right lower connection port provided with a coupling piece extending in the forward and backward directions and the lifting and lowering coupling includes a left hinge portion and a right hinge portion formed at both ends, And the left hinge portion is formed in a U-shape so that the upper end of the left interlocking rod can be inserted. The right hinge portion is formed in an inverted U shape so that the upper end of the right interlocking rod is inserted The left interlocking rod is formed at the upper end and is hinged by a hinge pin to the left hinge portion of the lifting and lowering member. The left upper hinge portion is formed at the lower end of the left interlocking rod and hinged to the hinge portion of the left hinge connecting portion by a hinge pin. And the right interlocking rod is formed at the upper end, and the right interlocking rod is hinged to the right hinge portion of the lift- And a right lower hinge portion formed at a lower end of the right hinge connection portion and hinged by a hinge pin to a hinge portion of the right hinge connection portion. .

According to the insulator fixed rail for adjusting the tension of the processing power distribution line of the present invention, screws are provided on the left and right internal thread portions formed on the right and left halves of the motor shaft inner peripheral surface of the drive shaft fixedly installed between the left and right wedge bars, It is possible to relieve the tension and deflection of the left and right machining distribution lines by connecting the left and right machining distribution lines to the left and right operation screws through the left and right operation insulators having the male thread part to be interlocked. The jump line can be held in a more stable state by lifting the post insulator and the jump line is positioned on the same vertical plane as the left and right machining distribution lines and the center post is supported by the line post insulator to maintain the jump line more stably have.

1 to 5 show a preferred embodiment of an insulator fixed iron for tension control of a processing distribution line according to the present invention,
BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an insulator fixing rigid iron for tension control of a processing distribution line according to the present invention, Fig.
2 is an exploded perspective view of an insulator fixing rigid iron for tension control of a processing distribution line according to the present invention,
3 is a front view showing the initial installation state,
4 is a front view showing a state in which tension is relaxed,
5 is a front view showing a state of relieving deflection.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an insulator fixed iron for adjusting tension of a processing distribution line according to the present invention will be described in detail with reference to the preferred embodiments illustrated in the accompanying drawings.

In the following description, directions in which solid iron bars are installed on the basis of the pole are described as left and right, and the other directions will be described with reference to them.

In the following description, a bolt through hole through which a bolt or the like passes is simply referred to as a bolt fastener for fastening the bolt, but the reference numerals and explanations thereof are omitted.

FIGS. 1 to 5 show a preferred embodiment of an insulator fixed iron for adjusting the tension of a machining distribution line according to the present invention.

The insulator fixing rigid iron for adjusting the tension of the processing distribution line according to the present invention includes left and right rigid rods 21 and 22 fixed to the upper end of a pole 10 installed at regular intervals on the road side, Right machining distribution lines 41 and 42 and left and right connection lines 51 and 52 that are supported in an insulated state via left and right suspending insulators 31 and 32 to left and right machining distribution lines 41 and 42 And a jump line 70 connected to the left and right brass bars 21 and 22 via the line post insulator 60 and connected in an insulated manner.

The left and right brass bars 21 and 22 are fixed to the middle of the bolt and nut and the brass band so as to fix the conventional brass band and the brass band to the outer peripheral surface of the electric pole 10, And is fixed to the electric pole 10 by a conventional wand fixture 23 composed of a bolt and a nut for fixing the plate and the plate to the electric pole 10, and a detailed description thereof will be omitted.

The line post insulator 60 is provided at the lower end of the left and right suspending insulators 31 and 32 and includes left and right bridges 21 And a jumping line fixture 62 provided at the upper end and fixing the intermediate portion of the jump line 70. The jumping line fixture 62 is provided at the upper end of the jumping line fixture 62,

The left connection port 51 is connected to the left suspender 31 by hooking the hook 53 provided at the right end of the left connection port 51 to the outer insulator ring 35 of the left suspending insulator 31, The hook 54 provided at the left end is engaged with the outer insulator ring 36 of the right suspender insulator 32 and is connected to the right suspender insulator 32. [

As shown in FIGS. 1 to 5, the insulator fixing rigid iron for adjusting the tension of the machining distribution line according to the present embodiment alleviates the tension of the left and right machining distribution lines 41 and 42 and alleviates sagging And a tension regulating device A for elevating the line post insulator 60 and supporting the jump line 70 in a stable state in conjunction therewith.

The tension adjusting device A is fixed between the left and right joint bars 21 and 22 and has a right-handed internal thread portion 130 formed on the left half of the inner peripheral surface thereof and a right- A drive motor (100) having a hollow motor shaft (120) with a part (140) formed therein; And a right threaded screw portion 210 threaded into the left internal thread portion 130 and horizontally penetrating the left leg rail 21 and having a left end connected to the inner insulator ring 33 of the left suspender insulator 31 A left operating screw 200 to be connected; And a left threaded male thread portion 310 threaded into the right female threaded portion 140 and horizontally penetrating the right wand rail 22 and a right end connected to the inner insulator ring 34 of the right suspender insulator 32 A right operative screw (300) connected thereto; A lifting support 400 to which a lower end of the line post insulator 60 is fixed; A left interlocking rod 500 hingedly connected to the left end of the left operating screw 200 and the left end of the lifting and lowering stand 400; And a right interlocking rod 600 hinged to both ends of the right end of the right operating screw 300 and the right end of the lifting and lowering stand 400.

The driving motor 100 includes flanges 110 formed at both ends thereof and includes a bolt 111 penetrating the left and right bare bars 21 and 22 and the flange 110 and a nut 112 fastened thereto Right fixed bars 21 and 22, respectively.

Through holes 23 and 24 through which the left and right operating screws 200 and 300 pass are formed in the left and right rigid bars 21 and 22, respectively.

The left operating screw 200 is fixedly coupled to a left insulator connector 220 at a left end thereof and a hinge bolt 231 passing through the left insulator connector 220 and the inner insulator ring 33 of the left- And the hinge nuts 232 fastened thereto are rotatably connected to the inner insulator ring 33 of the left hanging insulator 31 in a relatively rotatable manner.

The right operating screw 300 is fixedly coupled to the right side insulator connector 320 at the right end and has a hinge bolt 331 passing through the right insulator connector 320 and the inner insulator ring 34 of the right side insulator 32 And the hinge nuts 332 fastened thereto are rotatably connected to the inner insulator rings 34 of the right suspender insulator 32. [

The left insulator connector 220 is formed in a U shape and integrally joined to the left end of the left operating screw 200 by welding. The right insulator connector 320 is formed in a C-shape, (Not shown).

The left operating screw 200 further includes a left hinge connector 240 fixed to the inside of the left insulator connector 220. The right operating screw 300 is fixed to the inside of the right insulator connector 320 (Not shown).

The left hinge connector 240 includes a semicircular coupling groove 243 surrounding the upper half of the outer peripheral surface of the left operating screw 200, a coupling piece 245 extending in the front and rear direction, and a hinge portion 247 formed on the upper surface. A left upper connector 241; A semicircular coupling groove 244 surrounding the lower half of the outer peripheral surface of the left operating screw 200 and a left lower coupling 242 having a coupling piece 246 extending in the front and rear direction.

The left hinge connector 240 is formed so that the coupling groove 244 of the left upper coupling hole 241 and the coupling groove 244 of the left lower coupling hole 242 are overlapped on the upper half portion and the lower half portion of the outer peripheral surface of the left operating screw 200 The left upper operating end 241 and the left lower operating end 242 are coupled to each other by the bolts 248 passing through the coupling pieces 245 and 246 and the nuts 249 fastened to the left operating screws 200 .

The right hinge connector 340 includes a semicircular coupling groove 343 surrounding the upper half of the outer peripheral surface of the right operating screw 300, a coupling piece 345 extending in the front and rear direction, and a hinge portion 347 formed on the upper surface. A right upper connector 341; A semicircular coupling groove 344 surrounding the lower half of the outer peripheral surface of the right operating screw 300 and a right lower coupling 342 having a coupling piece 346 extending in the front and rear direction.

The right hinge connector 340 is formed so that the coupling groove 344 of the right upper coupling hole 341 and the coupling groove 344 of the right lower coupling hole 342 are overlapped on the upper half portion and the lower half portion of the outer peripheral surface of the right operating screw 300 The right upper connection 341 and the lower right connection 342 are coupled by the bolts 348 passing through the coupling pieces 345 and 346 and the nuts 349 fastened to the coupling pieces 345 and 346, .

The lifting and lowering stand 400 includes left and right hinge portions 410 and 420 formed at both ends thereof and through holes 430 formed at the center thereof.

The left hinge part 410 is formed in a C shape so as to be able to insert the upper end of the left interlocking rod 500. The right hinge part 420 is formed in a C shape such that the right interlocking rod 600 Can be inserted.

The lifting and lowering platform 400 includes a lower end of the line post insulator 70 and a lower end of the lower end of the lifting and lowering bar 400. The upper and lower ends of the lifting and lowering platform 400 The nuts 441 and 442 are fastened to the line post insulator 70 to fix the line post insulator 70.

The left interlocking rod 500 includes a left upper hinge part 510 formed at an upper end thereof and hinged to a hinge pin 530 at a left hinge part 410 of the lifting and lowering stand 400, And a left lower hinge part 520 hingedly connected to the hinge part 247 of the hinge connector 240 by a hinge pin 540.

The right interlocking rod 600 includes a right upper hinge portion 610 formed at an upper end thereof and hinged to a hinge pin 630 at a right hinge portion 420 of the lifting and lowering stand 400, And a right lower hinge portion 620 hingedly connected to a hinge portion 347 of the hinge connector 340 by a hinge pin 640.

In addition, a temperature sensor installed on a pole of a working distribution line to which an insulator fixed bar for applying tension of the processing distribution line according to the present embodiment is applied, or the like, and a driving motor 100 according to a temperature sensing signal of the temperature sensor. So that the tension of the left and right machining distribution lines 41 and 42 can be relaxed or sagging can be mitigated in real time by controlling the drive motor 100 in accordance with the temperature And the detailed description thereof will be omitted.

Hereinafter, the action of the insulator fixed type iron for adjusting the tension of the processing distribution line according to the present embodiment will be described.

As shown in FIG. 3, the left and right operating screws 200 and 300 are installed in a state where the operating screws 200 and 300 are protruded at the time of initial installation, in order to adjust the tension of the processing distribution line according to the present embodiment.

In this state, when the temperature is low as in winter, the tension of the left and right machining distribution lines 41 and 42 increases.

In this case, the motor shaft 120 of the drive motor 100 is rotated in the tension reducing direction by the conventional control means including the temperature sensor and the control unit, and the left internal thread portion 130 of the right spiral of the motor shaft 120 The left operating screw 200 moves to the left side by the screw action of the right screw thread portion 210 of the left operating screw 200 and the right operating screw 140 of the left spiral of the motor shaft 120 moves to the left side, And the right operating screw 300 moves to the right side by the screw action of the left screw threaded portion 310 of the right operating screw 300. [

The left hanging insulator 31 connected to the inner insulator hook 33 by the hinge bolt 231 and the hinge nut 232 is connected to the left insulator connecting hole 220 provided at the left end of the left operating screw 200 to the left The connection port 51 and the left processing power distribution line 41 in which the hook 53 is engaged are moved to the left side and the right working screw 300 is moved to the left side, The right hanging insulator 32 connected to the right insulator connecting hole 320 provided at the right end of the right hanging insulator 31 by the hinge bolts 331 and 332 moves to the right side, The connection port 52 and the right machining distribution line 42 in which the hooks 54 are engaged with the ring 36 are moved to the right side and thus the tension of the left and right machining distribution lines 41 and 42 is relaxed.

At this time, the left upper hinge portion 510 of the left interlocking rod 500 is hinged by the hinge pin 530 to the left hinge portion 410 of the lifting and lowering stand 400, The left lower hinge portion 520 of the left interlocking rod 500 is hingedly connected to the hinge portion 247 of the left hinge connector 240 by the hinge pin 540, The right upper hinge portion 610 of the right interlocking rod 600 is hinged by the hinge pin 630 and the hinge portion 347 of the right hinge connector 340 coupled to the right operating screw 300 Since the right lower hinge portion 620 of the right interlocking rod 600 is hinged to the hinge pin 640 by the hinge pin 640, the left interlocking rod 500 interlocks with the left movement of the left operating screw 200, The right interlocking rod 600 rotates in the clockwise direction in conjunction with the right movement of the right operating screw 300, The lift table 400 descends.

The support post of the line post insulator 60 is lowered and the supporting point of the line post insulator 60 is lowered so that the supporting state of the jump line 70 by the line post insulator 60 is stably maintained (See FIG. 4 above).

On the other hand, when the temperature is high as in summer, deflection of the left and right machining distribution lines 41 and 42 increases.

In this case, the motor shaft 120 of the drive motor 100 is rotated in the slackening reducing direction by the normal control means including the temperature sensor and the control unit, and the left internal thread portion 130 of the right spiral of the motor shaft 120 is rotated, The left operating screw 200 is moved to the right by the screw action of the right screw thread portion 210 of the left operating screw 200 and the right operating screw 140 of the left spiral of the motor shaft 120 The right operating screw 300 is moved to the left side by the screw action of the male screw portion 310 of the left spiral of the right operating screw 300. [

The left hanging insulator 31 connected to the inner insulator hook 33 by the hinge bolt 231 and the hinge nut 232 is connected to the left insulator connecting hole 220 provided at the left end of the left operating screw 200 to the right side The connection port 51 and the left machining distribution line 41 to which the hook 53 is engaged are moved to the right side in the outer insulator ring 35 of the left suspending insulator 31,

The right hanging insulator 31 connected to the right inserting hole 320 provided at the right end of the right operating screw 300 by the hinge bolt 331 and the hinge nut 332 moves to the left Whereby the deflection of the left and right machining distribution lines 41 and 42 is relaxed.

At the same time, the left interlocking rod 500 is rotated in the clockwise direction in conjunction with the right movement of the left operating screw 200, and the right interlocking rod 600 is interlocked with the left movement of the right operating screw 300 So that the lifting and lowering table 400 is lifted.

The line post insulator 60 fixed to the lifting and lowering table 400 is lifted and the supporting point for the jump line 70 is raised so that the supporting state of the jump line 70 by the line post insulator 60 is stably maintained (See FIG. 5).

When the temperature is higher than the winter season and is lower than the summer season, such as in spring and autumn, it can be controlled to be maintained at the initial installation state as shown in FIG.

The insulator fixing rigid iron for adjusting the tension of the processing distribution line according to the present embodiment is connected to the left and right operating screws 200 and 300 operated by the driving motor 100 through the left and right suspending insulators 31 and 32 A line post insulator 60 (not shown) fixed to the lifting and lowering stand 400 interlocked with the left and right working distribution lines 41 and 42 and the left and right operating screws 200 and 300 via the left and right interlocking rods 500 and 600, And the jump line 70 is supported by the line post insulator 60 so that the supporting state of the jump line 70 is more stably maintained .

While specific embodiments of the invention have been illustrated and described, it will be obvious that the invention may be varied in many ways by a person of ordinary skill in the art. Such modified embodiments should not be individually understood from the technical idea or viewpoint of the present invention, but should be included in the claims attached hereto.

10: pole 21, 22: left,
31, 32: Left and right suspenders 41, 42: Left and right machining distribution lines
51, 52: Left and right connection ports 60: Line post insulator
70: Jump line A: Tension regulator
100: drive motor 120: motor shaft
130, 140: Left and right female threads 200, 300: Left and right operating screws
210, 310: Male threads 220, 320: Left and right insulator connector
240, 340: left and right hinge connectors 400:
500, 600: Left and right interlocking rods

Claims (1)

Left and right rigid rods 21 and 22 fixed to the upper end of the electric pole 10 and left and right rigid rods 21 and 22 supported in an insulated state via left and right suspending insulators 31 and 32, The left and right machining distribution lines 41 and 42 are connected through the right machining distribution lines 41 and 42 and the left and right connection ports 51 and 52 and the left and right joint rods 21 and 22 are connected through the line post insulator 60, (33, 34, 35, 36) at both ends of the left and right suspending insulators (31, 32), and the jump posts (70) And a jump line fixture 62 provided at the lower end and fixed to the left and right rigid bridges 21 and 22 and a jump line fixture 62 provided at the upper end and fixing the intermediate portion of the jump line 70, The left connection port 51 is connected to the left suspender 31 by hooking the hook 53 provided at the right end of the left connection port 51 to the outer insulator ring 35 of the left suspending insulator 31, The An insulator fixed rigid body for adjusting the tension of a processing power line connected to a right suspender insulator (32) by engaging a hook (54) provided at a left end with an outer insulator ring (36) of the right suspender insulator (32)
A tension adjusting device A (A) for relieving the tension and deflection of the left and right machining distribution lines 41 and 42 and for supporting the jump line 70 in a stable state by raising and lowering the line post insulator 60 in conjunction therewith, ),
The tension adjusting device A is fixed between the left and right joint bars 21 and 22 and has a right-handed internal thread portion 130 formed on the left half of the inner peripheral surface thereof and a right- A drive motor (100) having a hollow motor shaft (120) with a part (140) formed therein; And a right threaded screw portion 210 threaded into the left internal thread portion 130 and horizontally penetrating the left leg rail 21 and having a left end connected to the inner insulator ring 33 of the left suspender insulator 31 A left operating screw 200 to be connected; And has a left threaded male thread portion 310 threaded into the right female threaded portion 140 and horizontally penetrating the right wand rail 22 and having a right end connected to the inner insulator ring 34 of the right suspender insulator 32 A right operative screw (300) connected thereto; A lifting support 400 to which a lower end of the line post insulator 60 is fixed; A left interlocking rod 500 hingedly connected to the left end of the left operating screw 200 and the left end of the lifting and lowering stand 400; And a right interlocking rod 600 hingedly connected at both ends to the right end of the right operating screw 300 and the right end of the lifting and lowering stand 400,
The driving motor 100 includes flanges 110 formed at both ends thereof and includes a bolt 111 penetrating the left and right bare bars 21 and 22 and the flange 110 and a nut 112 fastened thereto The left and right rigid bars 21 and 22,
The left operating screw 200 is fixedly coupled to a left insulator connector 220 at a left end thereof and a hinge bolt 231 passing through the left insulator connector 220 and the inner insulator ring 33 of the left- And a hinge nut 232 fastened to the hinge nut 232 to be rotatable relative to the inner insulator ring 33 of the left hanging insulator 31,
The right operating screw 300 is fixedly coupled to the right side insulator connector 320 at the right end and has a hinge bolt 331 passing through the right insulator connector 320 and the inner insulator ring 34 of the right side insulator 32 And a hinge nut 332 fastened to the hinge nut 332 so as to be rotatable relative to the inner insulator ring 34 of the right suspender 32,
The left insulator connector 220 is formed in a U shape and integrally joined to the left end of the left operating screw 200 by welding. The right insulator connector 320 is formed in a C-shape, Is integrally coupled to the right end of the base 300 by welding,
The left operating screw 200 further includes a left hinge connector 240 fixed to the inside of the left insulator connector 220. The right operating screw 300 is fixed to the inside of the right insulator connector 320 And a right hinge connector (340)
The left hinge connector 240 includes a semicircular coupling groove 243 surrounding the upper half of the outer peripheral surface of the left operating screw 200, a coupling piece 245 extending in the front and rear direction, and a hinge portion 247 formed on the upper surface. A left upper connector 241; A semi-circular coupling groove 244 surrounding the lower half of the outer peripheral surface of the left operating screw 200 and a left lower coupling hole 242 having a coupling piece 246 extending in the front-
The right hinge connector 340 includes a semicircular coupling groove 343 surrounding the upper half of the outer peripheral surface of the right operating screw 300, a coupling piece 345 extending in the front and rear direction, and a hinge portion 347 formed on the upper surface. A right upper connector 341; A semicircular coupling groove 344 surrounding the lower half of the outer peripheral surface of the right operating screw 300 and a right lower coupling 342 having a coupling piece 346 extending in the forward and backward directions,
The left hinge connector 240 is formed so that the coupling groove 244 of the left upper coupling hole 241 and the coupling groove 244 of the left lower coupling hole 242 are overlapped on the upper half portion and the lower half portion of the outer peripheral surface of the left operating screw 200 The left operating screw 241 and the left lower operating screw 242 are coupled by the bolts 248 passing through the coupling pieces 245 and 246 and the nuts 249 fastened to the left and right operating screws 241 and 246, 200,
The right hinge connector 340 is formed such that the semicircular coupling groove 343 surrounding the upper half of the outer peripheral surface of the right operating screw 300 is covered on the upper half and the lower half of the outer peripheral surface of the right operating screw 300, The upper right connection part 341 and the right lower connection part 342 are fixed to the right operating screw 300 by a bolt 348 passing through the upper operating part 346 and a nut 349 fastened thereto,
The lifting and lowering platform 400 includes a left hinge portion 410 and a right hinge portion 420 formed at both ends thereof and a through hole 430 formed at the center of the lifting and lowering mount 400,
The left hinge part 410 is formed in a C shape so as to be able to insert the upper end of the left interlocking rod 500. The right hinge part 420 is formed in a C shape such that the right interlocking rod 600 Is inserted,
The lifting and lowering table 400 includes a lower end of the line post insulator 60 penetrating through the through hole 430 and a lower end of the upper end of the lifting and lowering member 400 61 are fastened with the nuts 441, 442 to fix the line post insulator 70,
The left interlocking rod 500 includes a left upper hinge part 510 formed at an upper end thereof and hinged to a hinge pin 530 at a left hinge part 410 of the lifting and lowering stand 400, And a left lower hinge portion 520 hingedly connected to a hinge portion 247 of the hinge connector 240 by a hinge pin 540,
The right interlocking rod 600 includes a right upper hinge portion 610 formed at an upper end thereof and hinged to a hinge pin 630 at a right hinge portion 420 of the lifting and lowering stand 400, And a right lower hinge part (620) hinged to a hinge part (347) of the hinge connector (340) by a hinge pin (640).

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