KR102515392B1 - Prevention apparatus for disconnection of electric cable - Google Patents

Abstract

The present invention relates to a transmission and distribution line disconnection prevention device and, more specifically, to a transmission and distribution line disconnection prevention device that prevents a wire supported by a utility pole from being disconnected by an external force. The transmission and distribution line disconnection prevention device allows a weight piston to rise and a wire to sag when an object such as snow or a bird is seated on the wire and an external force is applied to the wire to cushion the shock applied to the wire and prevent the wire from being disconnected by an external force. In addition, the transmission and distribution line disconnection prevention device of the present invention is lowered by its weight and an auxiliary recovery unit and automatically restored to the position to keep the wire taut with the weight piston blocking an air inlet when the external force acting on the wire is released.

Description

Transmission and distribution line disconnection prevention device {Prevention apparatus for disconnection of electric cable}

The present invention relates to a transmission and distribution line disconnection prevention device, and more particularly, to a transmission and distribution line disconnection prevention device for preventing disconnection of an electric wire supported by a telephone pole by an external force.

In general, electric power is transmitted from a power plant to a substation and goes through several stages of transformation, and the voltage that has undergone this transformation process is transmitted to a user facility after passing through a pole-type transformer in a final stage through a transmission and distribution line. Transmission and distribution lines are installed in the transverse direction on top of poles installed at regular intervals and supported by the poles.

These electric wires have a problem in that they may be disconnected by sagging downward due to an increase in external force caused by wind blowing toward the electric wire or by a mounting object such as snow or a bird, or by bending a portion connected to a telephone pole.

In order to solve the above problems, Korean Patent Registration No. 10-2307235 discloses a sagging prevention device for an overhead power distribution line capable of keeping a transmission and distribution line taut by pulling the distribution line by a load of a weight body part.

In the sagging prevention device for an overhead power distribution line, when an object such as a bird or snow is seated on a wire, the weight increases and the wire may stretch. In addition, in a state where excessive external force such as strong wind continuously acts on the wire, the manager separates the weight from the weight body so that the distribution cable can be stretched to the maximum. There is a disadvantage in that the manager has to recombine the weight body and the weight in order to maintain the wire in a taut state.

Republic of Korea Patent Registration No. 10-2307235: Sagging prevention device for distribution lines

The present invention is to improve the above problems, and an object of the present invention is to provide a transmission and distribution line disconnection prevention device for preventing disconnection of the wire by allowing the wire to sag when an external force is applied to the wire.

In addition, an object of the present invention is to provide a transmission and distribution line disconnection prevention device that maintains the wire in a taut state by automatically pulling the wire in both directions when the external force applied to the wire is released.

In order to solve the above problems, the transmission and distribution cable disconnection prevention device of the present invention is installed on a telephone pole, has a lift part with an open top, an air inlet part is formed on the side, and a check valve is installed at the bottom so that air can flow out of the lift part. a cylinder to be; a tilting bracket hinged to the cylinder to which an end of the electric wire is connected and capable of tilting as the electric wire sags due to the seating object being seated on the electric wire; It is arranged to be able to move up and down in the lifting part to form a sealed space in the cylinder and is connected to the tilting bracket through a connecting wire, so that the tilting bracket is pulled upward by the connecting wire when tilting, thereby applying vacuum pressure to the sealed space a weight piston that exhibits a restoring force so that the position is restored by forming and relieves the vacuum pressure by communicating the air inlet and the air inlet to prevent disconnection of the wire when rising to a position higher than the air inlet; When the weight piston rises to a position higher than the air inlet, an auxiliary restoration unit for restoring the position of the tilting bracket tilted downward upwards, wherein the weight piston has an internal space with an open top and the lifting A piston body arranged to be able to move up and down in the unit, and a lift plate installed to be able to move up and down in the inner space and having an upper part connected to the connection wire, and an impact on the wire to separate the seat on the wire. It further includes an impact generating unit that generates an electromagnet installed on the lower surface of the piston body, a metal plate installed on the lifting plate to face the electromagnet, and installed on the cylinder to generate the weight piston. A position detection sensor for generating a position detection signal when a rise is detected, and a control unit for controlling alternately supplying and shutting off power to the electromagnet when receiving the position detection signal is further provided.

The auxiliary restoration unit is formed in the cylinder and protrudes laterally from the lower end of the hinge coupling part to which the tilting bracket can be hinged, and a long hole-shaped guide hole extending in the longitudinal direction of the electric wire is formed at the center of the plate-shaped movement guide A plate, a spring support plate having a lower portion penetrating the guide hole and being able to move forward and backward in the extension direction of the guide hole and having an upper portion having a larger diameter than the width of the guide hole, and a lower portion fixed to the spring support plate and extending upward in length An elastic spring and a pressure support plate coupled to an upper end of the elastic spring and formed with a receiving groove drawn downward at the upper portion, and mounted rotatably in the longitudinal direction of the electric wire at the lower end of the tilting bracket and having a smaller diameter than the receiving groove It is formed, it is preferable to further include a pressing member for pressing the pressing support plate downward by receiving a lower part as an accommodation groove when the tilting bracket is tilted downward.

A control valve is installed at the lower part of the cylinder to control the formation of vacuum pressure in the closed space when the weight piston rises, and the control unit controls the closed space so that the weight piston can move freely in a strong wind situation. It is preferable to switch the control valve to an open state so that atmospheric pressure is maintained.

The transmission and distribution line disconnection prevention device of the present invention, when an external force such as snow or algae is seated on the wire and an external force is applied to the wire, the weight piston rises and allows the wire to sag, thereby buffering the impact applied to the wire and reducing the wire to the external force. It has the advantage of preventing disconnection by

In addition, when the external force acting on the wire is released, the transmission and distribution cable disconnection prevention device of the present invention is lowered by its own weight and auxiliary restoration unit in the state where the air inlet is blocked, automatically restoring to the position to keep the wire taut has the advantage of being

1 is a cross-sectional view of an apparatus for preventing disconnection of a transmission and distribution line according to a first embodiment of the present invention;
2 is a cross-sectional view showing a state in which the weight piston is raised to allow sagging of the electric wire of FIG. 1;
3 is a cross-sectional view showing a state in which the weight piston of FIG. 1 is raised and the vacuum pressure in the closed space is released;
Figure 4 is a cross-sectional view for explaining the action of the impact prevention device of Figure 1
5 is a cross-sectional view of an apparatus for preventing disconnection of transmission and distribution lines according to a second embodiment of the present invention.
FIG. 6 is a block diagram for explaining the control structure of the control unit of FIG. 5 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for preventing disconnection of transmission and distribution lines according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show an apparatus for preventing disconnection of a transmission and distribution line according to a first embodiment of the present invention.

Transmission and distribution line disconnection prevention device according to the first embodiment of the present invention

A cylinder 10 installed on a telephone pole 1, having an elevation part 11 with an open top, an air inlet 13 formed on the side, and a check valve installed at the bottom so that air from the elevation part 11 can flow out. ) and the end of the wire (2) is connected and the tilting bracket (20) hinged to the cylinder (10) so that the wire (2) can be tilted as the wire (2) sags due to the seating object on the wire (2), and lifting The tilting bracket ( 20) is pulled upward by the connecting wire 30 during tilting, so that the restoring force is exerted so that the position is restored by forming vacuum pressure in the closed space 15, and when rising to a position higher than the air inlet 13, the wire ( In order to prevent disconnection of 2), the air inlet 13 and the closed space 15 communicate with the weight piston 40 to relieve the vacuum pressure, and to the wire 2 to separate the seat on the wire 2 An auxiliary restoration unit (60) that elastically presses the tilting bracket (20), which is tilted downward when the impact generating unit (50) generates an impact and the weight piston (40) is tilted downward when it rises to a position higher than the air inlet (13). )class; A controller (not shown) for controlling the shock generating unit 50 is provided.

The cylinder 10 is formed in the shape of an enclosure with an open top and a closed bottom. Cylinder 10 is formed vertically long. The cylinder 10 is installed on top of the telephone pole 1.

The lifting part 11 is drawn downward from the upper end of the cylinder 10 and is a space into which the weight piston 40 can be inserted to be able to move up and down.

The air inlet 13 is penetrated from the side of the cylinder 10 to communicate the inside of the cylinder 10 with the outside.

The check valve 14 is installed in the lower part of the cylinder 10. The check valve 14 is opened when the air pressure in the closed space 15 rises above the atmospheric pressure, and allows air to flow out of the closed space 15 . The check valve 14 blocks outside air from entering the closed space 15 even when the pressure in the closed space 15 is reduced to less than atmospheric pressure.

The cylinder 10 is provided with a hinge coupling part 16 to which the tilting bracket 20 can be hinged on the upper outer circumferential surface. At the upper end of the cylinder 10, a plurality of guide rollers 17 and 18 for guiding the connecting wire to be drawn into the cylinder 10 are installed.

The tilting bracket 20 is a rotating body 23, one side of which is rotatably hinged up and down to the hinge coupling part 16, and extends upward from the other end of the rotating body 23 to intersect the rotating body 23. It includes a neck portion 21 and a wire fixing portion 22 formed at an end of the neck portion 21 and fixing the wire.

One side of the rotating body 23 is hinged to the hinge coupling part 16 and the other side is tilted by an operation of lifting up and down. The neck portion 21 extends upward from the other side of the rotating body 23 . The wire fixing part 22 is provided at the upper end of the neck part 21 . A clamp fixing the end of the wire 2 may be applied to the wire fixing part 22 .

The connecting wire 30 is formed of a long metal wire. One side of the connection wire 30 is connected to the wire fixing part 22 and the other side is coupled to the weight piston 40 . A portion between one side and the other side of the connection wire 30 is mounted on the guide rollers 17 and 18.

The weight piston 40 includes a piston body 41 disposed in the lifting unit 11 to be able to move up and down, and a lifting plate 45 disposed inside the piston body and having an upper portion connected to the connection wire 30.

The piston body 41 is formed in a cylindrical shape having an inner space 42 with an open top. The piston body 41 protrudes from the upper inner circumferential surface and has a locking jaw 43 that limits the separation of the lifting plate therein.

The outer circumferential surface of the piston body 41 is in close contact with the inner circumferential surface of the cylinder 10 to form a closed space 15 together with the cylinder 10 under the piston body 41 in a state mounted on the elevation part 11.

On the outer circumferential surface of the piston body 41, while maintaining the airtightness of the closed space 15 so that the piston body 41 can be smoothly raised and lowered, the frictional force acting between the inner circumferential surface and the cylinder 10 is minimized by using a piston ring or labyrinth. A run seal may be installed.

The lifting plate 45 is formed in a plate shape. The lifting plate 45 is disposed to be able to move up and down in the inner space 42 . The lifting plate 45 protrudes upward from the upper surface and is provided with a wire coupling portion 46 to which the connection wire 30 can be coupled. The wire coupling part 46 is formed to protrude upward from the piston body 41 in a state in which the lifting plate 45 is raised. The lift plate 45 interferes with the locking jaw 43 when raised by the traction force of the connection wire 30, and the lift position is limited.

The piston body 41 and the lifting plate 45 are preferably made of a non-metallic material so as not to affect the magnetic force generated from the electromagnet 51 to be described later.

The impact generating unit 50 is installed on an electromagnet 51 installed on the bottom surface of the piston body 41, a metal plate 52 installed on the lifting plate 45 to face the electromagnet 51, and a cylinder 10. and a position detection sensor 53 for generating a position detection signal when the lifting of the weight piston 40 is detected.

The electromagnet 51 is formed in a plate shape. The electromagnet 51 is installed so that its upper surface is exposed to the inner space 42 and faces the lift plate 45 .

The electromagnet 51 is connected to an external power source through a control unit. The electromagnet 51 is magnetized when power is supplied from an external power source and exerts a magnetic force that attracts the metal plate 52 to each other.

The metal plate 52 is formed in a plate shape. The metal plate 52 is installed below the lift plate 45 so that its lower surface is exposed to the inner space 42 and faces the electromagnet 51 . The metal plate 52 is pulled toward the electromagnet 51 together with the lifting plate 45 as shown in FIG. 4 by the magnetic force of the electromagnet 51 . Through this, the metal plate 52 and the lifting plate 45 collide with the bottom surface of the piston body 41 and the electromagnet 51, and impact force is exerted.

The position sensor 53 is installed on the cylinder 10. The position sensor 53 is installed at a higher position than the air inlet 13 . The position sensor 53 is installed so that the transducer is exposed to the elevation part 11 . The position sensor 53 is connected to the control unit, and when the piston body 41 rises, when it comes into contact with the piston body 41, a proximity sensor is applied that generates a lift detection signal and transmits the lift detection signal to the control unit.

As the control unit, a PLC panel connected to the electromagnet 51 is applied. The controller may be wirelessly connected to the position sensor 53 to receive a position detection signal from the position sensor 53 . The electromagnet 51 is electrically connected to an external power source through a controller, and the supply of power is controlled by the controller. When receiving a position detection signal from the position sensor, the control unit controls supply and cut-off of power to the electromagnet 51 to be alternately repeated.

At this time, as power is supplied and cut off alternately to the electromagnet 51, contact and separation between the piston body 41 and the elevation plate 45 are repeatedly performed, and impact force is repeatedly generated. The impact force by the piston body 41 and the lifting plate 45 is transmitted to the electric wire 2 through the connecting wire 30 and the tilting bracket 20, thereby removing the seat seated on the electric wire 2 from the electric wire 2. let go

The impact generating unit 50 and the control unit may be omitted or replaced with other components as components for separating the seated objects seated on the wire 2 from the wire 2.

The auxiliary restoration unit 60 includes a moving guide plate 61, an elastic support member 63, and a pressing member 68.

The movement guide plate 61 protrudes from the lower end of the hinge coupling part 16 in the direction of extension of the wire 2, and a guide hole 62 in the form of a long hole extending in the longitudinal direction of the wire 2 is formed at the center side. .

The elastic support member 63 includes a spring support plate 64 having a lower portion passing through the guide hole 62 and being able to move forward and backward in the extension direction of the guide hole 62 and having a larger diameter than the width of the upper portion of the guide hole 62; An elastic spring 66, the lower part of which is fixed to the spring support plate 64, extends upward, and a pressure support plate 67 coupled to the upper end of the elastic spring 66 and having a receiving groove 68 drawn downward at the upper part. ).

The spring support plate 64 penetrates the guide hole 62 and protrudes downward through the guide hole 64a, and the guide hole 62 at the top of the guide hole 64a positioned above the guide hole 62. The spring support portion 64b formed larger than the width and diameter of the elastic spring 66, and the spring support portion 64a protrudes upward in a circular shape corresponding to the inner diameter of the elastic spring 66 to form the elastic spring 66. A first spring fixing part 64c for fixing the lower end is provided. A restraining nut 65 is coupled to the lower portion of the guide hole through portion 64a protruding downward with respect to the moving guide plate 61 and constrains the spring support plate 64 to the moving guide plate 61 .

As the elastic spring 66, a general circular coil spring is applied. When the length of the thin spring 66 is reduced by the tilting member 20 that rotates downward, the tilting bracket 20 can be pushed upward along with the rotational pressing member 68 by a repulsive force, that is, an elastic force.

The pressure support plate 67 is formed in a circular shape to correspond to the inner diameter of the elastic spring 66 and has a second spring fixing part 67a for fixing the upper end of the elastic spring 66, and a second spring fixing part 67a. A spring pressing portion 67b having a large diameter and having a receiving groove 67c drawn downward from the top is formed.

The pressing member 68 is rotatably mounted at the bottom of the tilting bracket 20 in the longitudinal direction of the wire 2 and has a lower diameter smaller than the receiving groove 67c of the pressing support plate 67.

The pressing member 68 is spaced upward with respect to the elastic member 63 in a state in which the tilting bracket 20 is not rotated downward.

When the tilting bracket 20 is tilted downward, the pressure member 68 is accommodated in the receiving groove 67c of the pressure support plate 67 and presses the pressure support plate 67 downward, and the length of the elastic support member ( 63) is raised upward along with the tilting bracket (20) by the repulsive force.

As described above, in the transmission and distribution line disconnection prevention device according to the first embodiment of the present invention, the connection wire 30 is pulled by the weight of the weight piston 40, and the wire 2 fixed to the tilting bracket 20 is in a taut state. keep it as

In this state, when a seat such as a bird or snow is seated on the wire (2), the external force applied from the seat is transmitted to the weight piston (40) through the wire (2) and the connecting wire (30) As a result, the weight piston 40 rises. At this time, as the weight piston 40 rises, the pressure in the closed space 15 is lowered and a vacuum pressure is formed. As the weight piston 40 rises, the vacuum pressure in the closed space 15 increases, and the weight of the wire 2 and the external force applied from the seat are balanced with the weight of the weight piston 40 and the vacuum pressure. The weight piston 40 rises.

In addition, when the weight piston 40 rises and contacts the position sensor 53, the impact generating unit 50 is operated and the impact force is transmitted to the wire 2, thereby separating the seat from the wire 2. When the seat is separated from the wire 2 and the external force applied to the wire 2 is released, the weight piston 40 is lowered by vacuum pressure and its own weight, and the position of the weight piston 40 is restored to the initial position.

In addition, the transmission and distribution line disconnection prevention device according to the first embodiment of the present invention is a weight piston (40 As ) rises to a higher position than the air inlet 13, the closed space 15 and the air inlet 13 communicate with each other as shown in FIG. In this state, as air freely flows into the closed space 15 through the air inlet 13, the vacuum pressure in the closed space 15 is released, so that the weight piston 40 can move up and down freely.

In this state, when the action of the external force acting on the wire 2 is released, the weight piston 40 descends by its own weight to block the air inlet 13. At this time, the air in the closed space 15 is discharged to the outside through the check valve 14, so that the weight piston 40 can keep the wire 2 taut.

In the auxiliary restoration unit 60, the weight piston 40 is raised to a higher position than the air inlet 13, and the air inlet 13 communicates with the closed space 15, so that the weight piston 40 can be moved freely. assist with movement

Specifically, when the weight piston 40 rises so that the closed space 15 and the air inlet 13 communicate, the pressing member 68 is accommodated in the receiving groove 67c and presses the elastic support member 63 downward. do.

By the tilting bracket 20 that rotates downward, the pressing member 68 presses the elastic support member 63 downward while moving in a direction adjacent to the cylinder when descending. While moving in a direction adjacent to the cylinder 10 along the length is contracted.

The length-contracted elastic support member 63 pushes the tilting bracket 20 upward by the repulsive force of the elastic spring 66.

That is, the auxiliary restoration unit pushes the tilting bracket 20 upward when the vacuum pressure of the closed space 15 is released by the auxiliary restoration unit in a state where the external force acting on the wire 2 is maintained, and the air inlet ( 13) can induce the weight piston 40 to descend so that it is closed.

In the transmission and distribution line disconnection prevention device according to the first embodiment of the present invention, when an external force such as snow or algae is seated on the wire 2 and an external force is applied to the wire, the weight piston 40 rises and the wire 2 sags. By allowing it, it has the advantage of buffering the impact applied to the wire and preventing the wire 2 from being disconnected by an external force.

The apparatus for preventing disconnection of transmission and distribution lines according to the first embodiment of the present invention removes the seated object seated on the electric wire 2 through the impact force exerted from the piston body 41 and the lift plate 45, thereby continuously It has the advantage of preventing the wire from being stretched or disconnected by an external force.

In addition, in the transmission and distribution line disconnection prevention device 5 according to the first embodiment of the present invention, the external force acts on the wire 2 by varying the vacuum pressure in the closed space 15 to correspond to the external force applied to the wire 2 It has the advantage of reducing the tension on the wire 2 by reducing the weight of the weight piston 40 so that the minimum tension is applied to the wire 2 while not doing it.

And, in the transmission and distribution line disconnection prevention device according to the first embodiment of the present invention, when the external force acting on the electric wire 2 is released in a state where the vacuum pressure in the closed space 15 is released, the weight piston 40 moves to the air inlet It has the advantage of automatically returning to the position to cut off (13) and keep the wire (2) taut.

In addition, in the transmission and distribution cable disconnection prevention device according to the first embodiment of the present invention, even if the vacuum pressure of the closed space 15 is released by the auxiliary restoration unit in a state where the external force acting on the wire 2 is maintained, the auxiliary restoration unit As a result, the weight piston 40 can be lowered, thereby minimizing the sagging of the electric wire 2 and further increasing the efficiency of restoring the position of the electric wire 2 .

5 and 6 disclose a transmission and distribution line disconnection prevention device 6 according to a second embodiment of the present invention.

The apparatus 6 for preventing disconnection of a transmission and distribution line according to the second embodiment of the present invention has the same configuration as the first embodiment except for the control valve 70 and the control unit 80, and thus duplicate descriptions are omitted.

A control valve 70 installed below the cylinder 10 to control the formation of vacuum pressure in the closed space 15 when the weight piston 40 rises is further provided.

The control valve 70 is connected to the control unit 80 and closes the closed space 15 by the control unit 80. A solenoid valve controlled to open and close is applied.

The control unit 80 may control the control valve 70 to be switched to an open state so that the closed space 15 is maintained at atmospheric pressure so that the weight piston 40 can move freely in a strong wind situation.

The administrator can remotely control the opening/closing state of the control valve 70 by manipulating the control unit 81 provided in the management office managing the utility pole 1 and connected to the control unit 80.

Unlike this, the control unit 80 is connected to a server (not shown) of the Korea Meteorological Administration so as to receive weather information of the area where the telephone pole 1 is installed, so that the weight piston 40 can be moved freely when a strong wind or heavy snow warning is received. When the valve 70 is switched to an open state and a strong wind or heavy snowfall warning is released, the control valve 70 may be switched to a closed state.

The transmission and distribution line disconnection prevention device according to the second embodiment of the present invention prevents the disconnection of the wire 2 by allowing the weight piston 40 to move freely in a situation where a continuous external force is generated on the wire due to strong wind, a flock of migratory birds, and heavy snow. has the advantage of being preventable.

The present invention described above has been described with reference to an example shown in the drawings, but this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. will be. Therefore, the scope of true technical protection of the present invention should be determined by the technical spirit of the appended claims.

1: telephone pole 2: electric wire
10: cylinder 20: tilting bracket
30: connecting wire 40: weight piston
70: control valve 80: control unit

Claims (3)

A cylinder installed on a telephone pole, having an elevation part with an open top, an air inlet part formed on a side surface, and a check valve installed at the bottom to allow air to flow out of the elevation part;
a tilting bracket hinged to the cylinder to which an end of the electric wire is connected and capable of tilting as the electric wire sags due to the seating object being seated on the electric wire;
It is capable of moving up and down in the lifting part, but is arranged to close the air inlet, forms a sealed space in the cylinder, and is connected to the tilting bracket through a connecting wire, so that the tilting bracket is pulled upward by the connecting wire when tilting. By forming vacuum pressure in the closed space, restoring force is exerted so that the position is restored, and when it rises to a position higher than the air inlet, the vacuum pressure is relieved by communicating the air inlet and the closed space to prevent disconnection of the wire a weight piston;
An auxiliary restoration unit for restoring the position of the tilting bracket tilted downward when the weight piston rises to a position higher than the air inlet;
The weight piston has an inner space with an open top and a piston body disposed to be able to move up and down in the lift part, and a lift plate installed to be able to move up and down in the inner space and having an upper part connected to the connection wire, ,
Further comprising an impact generating unit for generating an impact on the electric wire in order to disengage the seated object on the electric wire;
The impact generating unit includes an electromagnet installed on the bottom surface of the piston body, a metal plate installed on the lifting plate to face the electromagnet, and a position installed in the cylinder to generate a position detection signal when the lift of the weight piston is detected. Equipped with a sensor,
Further comprising a control unit for controlling the supply and cut-off of power to the electromagnet alternately when receiving the position detection signal,
The auxiliary restoration unit
a plate-shaped moving guide plate formed in the cylinder, protruding laterally from the lower end of the hinge coupling part to which the tilting bracket can be hinged, and having a guide hole in the form of a long hole extending in the longitudinal direction of the wire at the center side;
A spring support plate having a lower portion penetrating the guide hole and moving forward and backward in the extension direction of the guide hole and having an upper portion having a larger diameter than the width of the guide hole, and an elastic spring having a lower portion fixed to the spring support plate and extending in an upward direction; , An elastic support member including a pressure support plate coupled to an upper end of the elastic spring and having a receiving groove drawn downward at the upper part thereof;
It is mounted at the bottom of the tilting bracket to be rotatable in the longitudinal direction of the wire and has a smaller diameter than the receiving groove, so that when the tilting bracket is tilted downward, the lower part is accommodated in the receiving groove to press the pressing support plate downward It is provided with; a pressing member,
The elastic support member, the length of which is reduced by the pressing member, has an elastic force capable of pushing the tilting bracket upward together with the pressing member,
The spring support plate protrudes downward through the guide hole and includes a guide hole through-hole portion having a restraining nut coupled thereto, and a width of the guide hole and the elastic spring at an upper end of the guide through-hole portion positioned above the guide hole. A spring support portion formed larger than the diameter of the spring support portion, and a first spring fixing portion formed to protrude upward in a circular shape corresponding to the inner diameter of the elastic spring in the spring support portion to fix the lower end of the elastic spring,
The pressure support plate is formed in a circular shape corresponding to the inner diameter of the elastic spring and has a second spring fixing part coupled to the upper end of the elastic spring, and has a larger diameter than the second spring fixing part and presses the spring in which the receiving groove is formed. have wealth,
A control valve installed in the lower part of the cylinder to control the formation of vacuum pressure in the closed space when the weight piston rises;
The control unit is connected to the server of the Meteorological Administration so as to receive weather information of the area where the telephone pole is installed, and when receiving information of a strong wind or heavy snowfall warning from the Meteorological Administration, the closed space is maintained at atmospheric pressure so that the weight piston can be freely raised and lowered. A transmission and distribution line disconnection prevention device, characterized in that for switching the control valve to an open state. delete delete

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