KR100811033B1 - Insulator of the way of keeping a thing immobile for electric wire - Google Patents

Abstract

A fixing type insulator of an electric wire for distribution is provided to prevent drop of the wire between electric poles and shaking of the wire due to a strong wind by uniformly maintaining tension of the wire. A fixing type insulator of an electric wire for distribution includes a parallel cross arm, a motor(400), a central insulator, a guide rail, left and right insulators, a control unit(300), a storage battery(600), and a solar panel(700). The motor rotates and is installed on a center of the parallel cross arm. The control unit measures a temperature of a surrounding environment by a temperature sensor, checks tension change of the wire corresponding to the temperature measured by the temperature sensor, and controls ascending and descending of the central insulator by driving the motor according to the checked tension change of the wire. The storage battery supplies power to the motor and the control unit. The solar panel performs photovoltaic power generation for charging the storage battery.

Description

Insulator of The way of keeping a thing immobile for electric wire}

The present invention is a fixed insulator of a distribution wire, more specifically of the distribution wire for fluidly supporting the distribution wire and maintaining a constant tension of the wire in preparation for expansion and contraction of the distribution wire due to temperature changes. It is about a fixed insulator.

The electric wire installed in the conventional telephone pole repeats expansion and contraction according to the season. As the temperature drops, the wire contracts and hangs tightly on the poles at both ends. On the contrary, when the temperature rises, the electric wire expands and falls on the telephone poles of both ends. If the wire is stretched on the telephone pole, it will not look good and the strong wind will cause the stretched wire to move. If the sagging wire is constantly moved by strong winds, the insulator supporting the wire may be impacted, causing the insulator to break or cause an accident that can lead to the insulator. Breakage of the insulators prevents the smooth supply of electricity, which can lead to an interruption in the area where the accident occurred. In addition, residents living in the area where the accident occurred can not use the electricity until the maintenance work proceeds, it is not possible to use various electronic devices and electrical devices driven by electrical energy.

Therefore, the problem to be solved by the present invention is to provide a fixed insulator of the distribution wire to support the distribution wire fluidly, and to maintain a constant tension of the wire in preparation for expansion and contraction of the distribution wire due to temperature changes. .

In order to achieve the above object, the present invention is a fixed insulator fixed to the wrought iron installed in the telegraph pole body to support the electric wire, the horizontal wrought iron is formed to protrude horizontally to the wire from the wrought iron; A motor installed at the center of the horizontal smooth iron and rotating; A screw fixedly disposed on the horizontal smooth iron while interlocking with a motor; A center insulator having a female thread line inserted into the screw to form an inner surface and supporting the wire at an upper end thereof; A guide rail placed side by side with the center insulator, the other end of the guide bar having one end fixed to the center insulator so as to be movable in a vertical direction; A left insulator and a right insulator having a fixing ring positioned at both ends of the horizontal insulator so as to be rotatable via a spring, and having a fixing ring at the top to move the electric wires; The control unit measures the temperature of the surrounding environment by the temperature sensor, checks the tension change of the wire corresponding to the temperature measured by the temperature sensor, and controls the lifting of the center insulator by driving the motor according to the confirmed tension of the wire. Wow; A storage battery for supplying power to the motor and the controller; It provides a fixed insulator of the distribution wire including a; solar panel for photovoltaic power generation to charge the storage battery.

According to the present invention, the tension of the wire is kept constant in preparation for expansion and contraction of the distribution wire, thereby eliminating the sagging of the wire between the wire poles, and preventing the shaking of the wire due to strong wind, which is applied to the insulator supporting the wire. It has the effect of alleviating the impact of losing.

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

However, embodiments of the present invention illustrated below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the invention are provided to more fully illustrate the invention to those skilled in the art.

1 is a block diagram showing the configuration of a control means for controlling the fixed insulator of the distribution line according to an embodiment of the present invention.

The temperature sensor 100 detects the temperature of the surrounding environment and digitally converts the sensed temperature and outputs a temperature value having a predetermined value.

The input unit 200 receives the length value of the wire and transfers the length value of the wire to the controller 300.

The control unit 300 previously stores the tension change data of the wire that is changed according to the length of the wire and refers to the tension change data of the wire which is stored in advance corresponding to the length value of the wire input by the input unit 200.

The controller 300 calculates a tension change of the wire, which varies according to the contraction and expansion of the wire corresponding to the temperature value measured by the temperature sensor 100. The control unit 300 refers to the tension change data of the wire according to the temperature and the length of the wire in advance, the tension change of the wire corresponding to the temperature value measured by the temperature sensor 100 with reference to the tension change data of the wire Calculates the value of

The controller 300 calculates the rotation amount of the motor corresponding to the calculated tension change of the wire. The control unit 300 previously stores the rotation amount data of the motor 400 corresponding to the tension change of the wire in the ROM as a look-up table, and when data on the tension change of the wire is input, the controller 300 refers to the look-up table. The total amount can be calculated. In addition, the controller 300 prepares a vertical movement amount of the vertical movement device 500 according to the rotation amount of the motor 400 as a look-up table, and calculates a tension change of the wire according to the vertical movement amount of the vertical movement device 500.

The controller 300 detects a position change according to the vertical movement of the vertical movement apparatus 500 by the position detection sensor of the motor 400, and corrects an error of the vertical movement amount of the vertical movement apparatus 500.

The motor 400 is driven by the controller 300 to rotate in a clockwise or counterclockwise direction. The screw of the vertical movement apparatus 500 is formed in the rotating shaft of the motor 400. When the motor 400 rotates, the screw installed on the rotating shaft of the motor 400 also rotates.

The vertical movement device 500 includes a motor 400 that rotates, a guide rail having a slot in the slot, a guide bar moving along the slot in the guide rail, and a guide bar moving along the slot in the guide rail. The vertical movement apparatus 500 converts the rotational movement of the motor 400 into the vertical movement. The vertical movement device 500 has a guide bar coupled to the groove of the guide rail to change the rotational movement to the vertical movement. As the motor rotates, the guide bar moves up and down along the groove of the guide rail. Insulators with guide bars move with them.

The position sensor of the motor 400 detects the amount of rotation of the motor 400 and transmits the position data on the detected amount of rotation to the controller 300.

The controller 300 determines in which direction the motor 400 is rotated with reference to the position data detected by the position sensor of the motor 400.

The storage battery 600 supplies power to the motor 400 and the controller 300, and the solar panel 700 stores electrical energy obtained by photovoltaic generation in the storage battery.

Figure 2 is an exemplary view showing the configuration of the telephone pole supporting the wire when the temperature is low according to an embodiment of the present invention.

The wrought iron 20 installed in the telegraph pole body 10 has a horizontal wrought iron 70 installed to protrude horizontally to the wire 60. The horizontal insulator 70 is provided with a left insulator 30, a center insulator 40, and a right insulator 50 to support the wire 60. The upper end of the insulator supporting the wire 60 has a groove for guiding the movement of the wire, and has a gate 51 for holding the wire 60 so that the wire 60 does not escape outward.

The center insulator 40 is connected to the motor 400 and moves up and down by the rotational movement of the motor 400. In winter, when the temperature is low, the center insulator 40 is placed at the lowest position to support the wire 60. The vertical movement device 500 includes a screw coupled to the rotating shaft of the motor 400 to rotate therein. A guide bar 520 protruding from the center insulator 40 coupled to the groove of the guide rail 530 is located at the bottom of the center insulator 40. As the motor 400 rotates and the screw rotates, the female thread of the center insulator 40 is engaged with the screw of the motor 400, and rotational force is transmitted to the center insulator 40, but the guide bar 520 that is a part of the center insulator 40. ) Is fixed to the groove of the guide rail 530 and guides up and down to move the center insulator 40 up and down.

The wrought iron 20 installed in the telegraph pole body 10 is provided with a control box 900 including a temperature sensor, a storage battery and a controller. In addition, the solar panel 700 is installed in the wrought iron 20. The light energy received by the solar panel 700 is converted into electrical energy and charged in the storage battery. Electrical energy charged in the storage battery is connected to the power supply terminal of the control box 900 is supplied to the components constituting the control box 900.

The horizontal wrought iron 70 is fixed to the wrought iron 20 installed in the telegraph pole body 10 and is formed to protrude horizontally to the wire 60. The motor 400 is installed at the center of the horizontal smooth iron 70 and rotates. A screw is disposed on the rotating shaft of the motor 400. The center insulator 40 has a screw thread formed in the rotational shaft of the motor 400 inserted therein to form a female thread line engaged therein, and supports the wire 60 at the upper end thereof.

The guide rail 530 is installed side by side in the center insulator 40 in the horizontal smooth iron 70, one end is fixed to the center insulator 40 and the other end of the guide bar 520 is engaged to move in the vertical direction. The guide rail 530 guides the center insulator 40 to move up and down to allow the center insulator 40 to move up and down.

The left insulator 30 and the right insulator 50 are rotatably arranged at both ends of the horizontal incomplete iron 70 around the center insulator 40 via springs 52, respectively, and move the electric wire 60. A fixing ring 53 for holding and fixing is provided at the top.

Figure 3 is an exemplary view showing the configuration of the telephone pole supporting the wire when the temperature is high according to an embodiment of the present invention.

When the temperature is high, the wire 60 is inflated and placed in a state of being stretched between two different telephone poles. At this time, the present invention lifts up the center insulator 40 and prevents the wire 60 from sagging due to the pulling of the wire 60 due to the upward movement of the center insulator 40.

The temperature sensor installed in the control box 900 detects the degree to which the temperature rises with respect to the surrounding environment and informs the controller of the temperature value. The controller recognizes the sagging of the wire 60 corresponding to the temperature value by referring to the expansion information of the wire 60 with respect to the temperature and drives the motor to prevent the sagging of the recognized wire 60.

The controller built in the control box 900 drives the motor 400 by referring to a look-up table that records the rotation amount of the motor 400 according to the tension change of the wire 60. The control unit drives the motor 400 and at the same time receives feedback of the movement of the motor detected by the position detection sensor of the motor 400 to correct the movement error caused by the driving of the motor 400.

When the control unit drives the motor 400, a force directed upward on the left insulator 30 and the right insulator 50 while the center insulator 40 moves upward by a rotational motion. Springs are provided at the lower ends of the left insulator 30 and the right insulator 50 to cushion the force directed upwards.

Figure 4 is an exemplary view showing the configuration of the vertical movement device formed in the horizontal smooth iron according to an embodiment of the present invention.

The vertical movement device includes a guide bar 520 formed at a lower end of the center insulator 40 moving up and down along the groove of the motor 400, the guide rail 530, and the guide rail 530 fixed to the horizontal smooth iron 70, and It is fixed to the rotation axis of the motor 400 includes a center insulator 40 to move up and down by the vertical transfer operation of the guide rail 530 and the guide bar 520.

When the motor 400 rotates, the screw thread formed on the rotating shaft and the screw thread formed on the center insulator 40 mesh with each other to rotate. The guide bar 520 is fixed to the groove of the guide rail 530 to rotate the center insulator 40. By holding the rotary motion of the motor 400 is converted to the vertical movement to move the center insulator 40 up and down.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical details of the appended claims.

1 is a block diagram showing the configuration of a control means for controlling a fixed insulator of a distribution line according to an embodiment of the present invention.

Figure 2 is an exemplary view showing the configuration of the telephone pole supporting the wire when the temperature is low according to an embodiment of the present invention.

Figure 3 is an exemplary view showing the configuration of the telephone pole supporting the wire when the temperature is high according to an embodiment of the present invention.

Figure 4 is an exemplary view showing the configuration of the vertical movement device formed in the horizontal smooth iron according to an embodiment of the present invention.

Explanation of terms for the main parts of the attached drawings

100: temperature sensor 200: input unit

300: control unit 400: motor

500: vertical movement device 600: storage battery

700: solar panel

Claims (1)

In the fixed insulator fixed to the wrought iron installed in the telephone pole body to support the electric wire, A horizontal wrought iron formed to protrude horizontally from the wrought wire to the wire; A motor installed in the center of the horizontal smooth iron and rotating; A screw fixedly disposed on the horizontal smooth iron while interlocking with a motor; A center insulator having a female thread line inserted into the screw to form an inner surface and supporting the wire at an upper end thereof; A guide rail placed side by side with the center insulator, the other end of the guide bar having one end fixed to the center insulator so as to be movable in a vertical direction; A left insulator and a right insulator having a fixing ring positioned at both ends of the horizontal insulator so as to be rotatable via a spring, and having a fixing ring at the top to move the electric wires; The control unit measures the temperature of the surrounding environment by the temperature sensor, checks the tension change of the wire corresponding to the temperature measured by the temperature sensor, and controls the lifting of the center insulator by driving the motor according to the confirmed tension of the wire. Wow; A storage battery for supplying power to the motor and the controller; A fixed insulator of a power distribution wire comprising a; solar panel for photovoltaic power generation to charge the storage battery.

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