KR101280403B1 - Insulated arms for supporting distribution line - Google Patents

Abstract

PURPOSE: An insulation cross arm for supporting transmission and distribution power lines is provided to extend service life by controlling tension change which is constricted or stretched. CONSTITUTION: A cross arm main body is installed in a horizontal direction of a telephone pole. An insulator (104) is installed on the top surface of the cross arm main body. An up-and-down rod (106) is formed in the insulator and the cross arm main body to be moved up and down. A driving roller (130) is formed on the top end of the up-and-down rod. An up-and-down part comprises the driving roller and a pressing roller.

Description

Insulated Arms for Supporting Transmission Lines {Insulated Arms for Supporting Distribution Line}

The present invention relates to an insulated wire for supporting a power distribution line, and more particularly, by detecting the tension change of the power transmission line due to a change in climate and temperature, such as wind, and adjusting the tension of the power distribution line while winding or unwinding the power distribution line using a mobile pulley. The present invention relates to an insulated wire for supporting a transmission line, which extends the life of the transmission line and prevents damage to the suspension insulator.

In general, wrought iron was installed on the wire pole to support the insulator installed on the outer surface, and only the function of supporting the insulator in which the transmission and distribution line was fixed was provided.

 As shown in FIGS. 1 and 2, the wrought iron which is provided in the cable pole and supports the transmission and distribution line has a support structure 10 and a support frame 10 which are configured in a square pipe shape and fixed to the upper side of the cable pole 1. It consists of a support shaft 20 coupled to the up and down direction, the bracket 30 is rotatably coupled to the support shaft 20, and the connecting rod 40 connected to the bracket (30).

The suspension insulator 2 to which the transmission and distribution line 3 is connected is fixed to the front end of the connecting rod 40.

The bracket 30 is configured to have an upper and lower extension plate 31 extending rearward by bending a metal plate, and a coupling hole 32 into which the connecting rod 40 is inserted is formed at the front center and the extension plate 31 is supported. It is rotatably coupled to the support frame 10 by the shaft 20.

The connecting rod 40 has a catching portion 41 caught on the periphery of the coupling hole 32 is formed at the rear end thereof, and is coupled to penetrate the coupling hole 32 of the bracket 30 from the rear to the front and suspended at the front end thereof. The insulator 2 is combined to be configured to support the suspension insulator 2.

The coupling hole 32 is formed sufficiently wide so that the connecting rod 40 is rotated in the vertical direction and the horizontal direction so that the transmission and distribution line 3 swings due to the wind. By following (3) and rotating, it is comprised so that a shock may be absorbed.

Wrought iron is installed so that both ends of the transmission and distribution line 3 are pulled with an appropriate tension so that the transmission and distribution line 3 is properly tensioned. The length of the transmission and distribution line 3 is extended due to the change of seasons or the climate and thus the transmission and distribution line 3 The tension applied to the cable is weakened, or the transmission and distribution line (3) falls below the prescribed value.

When the wind blows strongly, the suspension insulator 2 is damaged because the transmission and distribution line 3 flows and the load or vibration generated by the transmission and distribution line 3 flows directly to the suspension insulator 2. Frequent accidents that resulted in the loss of function or severe deviation from the steel were caused.

Republic of Korea Patent No. 10-1122717 (Registration date: February 24, 2012), the title of the invention: "Insulated wire for supporting transmission and distribution lines"

In order to solve the problems and necessity of the prior art, the present invention detects the tension change of the transmission and distribution line by changing the climate and temperature, such as wind, and adjusts the tension of the transmission and distribution line while winding or unwinding the transmission and distribution line using the mobile pulley An object of the present invention is to provide an insulated wire for supporting a transmission line, which extends the life of the transmission line and prevents damage of the suspension insulator.

Transmission insulated wire support of the present invention for achieving the above object,

Vertically penetrating the wrought iron body 102 installed in the horizontal direction of the wire pole 110, the insulator 104 provided on the upper surface of the wrought iron body 102, the insulator 104 and the wrought iron body 102 And a rack gear 172 to form a gear at a predetermined height on a lifting rod 106 provided to be capable of lifting up and down, and a lower outer circumferential surface of the lifting rod 106 extending downward to the bottom of the finished body body 102. The driving roller 130 is formed at the upper end of the elevating rod 106, and one side is connected to the rotation shaft 132 of the central portion of the drive roller 130, the other side is one side of the upper surface of the finished body 102 The first guide portion 120 is fixed to the driving roller 130 while moving inclined and inclined at a predetermined angle in accordance with the elevation of the driving roller 130, and abuts vertically upward of the driving roller 130. It is formed so that the second guide portion 140 on one side of the wire pole 110 Lifting unit 160 is fixed to include a pressure roller 150 that moves up and down together when the drive roller 130 moves up and down;

Suspension insulator which is installed in the horizontal direction on the transmission line 101 when the transmission line 101 passes through the space between the drive roller 130 and the pressure roller 150 to fix the transmission line 101 Installed between front and rear of the 103, the body portion 210 which is a cylindrical body, and the inner movable plate (220a, 220b) which is two circular plate-shaped members to be moved inside, and the plurality between the inner movable plate (220a, 220b) Tension retaining parts 200a and 200b formed to couple the two elastic bodies 230 to the two inner movable plates 220a and 220b;

A pinion gear 174 meshed with the rack gear 172 of the elevating unit 160 on the lower surface of the fully armed body 102 and a worm gear 176 that transmits power to the pinion gear 174 are built-in. And a deceleration unit 170 for elevating and driving the elevating unit 160 at a predetermined height;

A driving motor 180 connected to the deceleration unit 170 to generate a driving force transmitted to the deceleration unit 170;

A measurement that is installed on a moving path moving up and down of the transmission and distribution line 101 to the inside of the cable line 110, measures and digitizes the degree of extension of the transmission and distribution line 101, and indicates the degree of extension of the transmission and distribution line 101. A measurement unit 500 for generating a value;

After the transmission and distribution line 101 passes through the space between the drive roller 130 and the pressure roller 150 is connected to the auxiliary roller 300 installed in the wire line 110, past the auxiliary roller 300 It is connected to the moving pulley 430 installed at the lower portion of the wire pole 110, and a moving motor 410 for transmitting a driving force to the moving pulley 430 is connected to move the transmission and distribution line 101 up and down. Moving means 400; And

It is electrically connected to the drive motor 180, the measurement unit 500 and the mobile motor 410, receives a measurement value from the measurement unit 500 and the received measurement value is larger than a preset reference value In this case, the drive motor 180 and the moving motor 410 are operated by detecting a change in the length of the transmission and distribution line 101, and the lifting rod 106 of the elevating unit 160 is moved upward while being moved upward. The control unit 190 for controlling the tension of the transmission line 101 while controlling the winding or unwinding the transmission line 101 by rotating the pulley 430 in the direction of winding or unwinding the power distribution line 101 Include.

The present invention of the configuration as described above has the effect of extending the service life of the transmission and distribution line by adjusting the tension change of the transmission and distribution line shrinkage or sagging due to changes in wind or temperature.

The present invention has the effect of automatically reducing the tension maintenance of the transmission and distribution line labor costs required for maintenance and management efficiency.

The present invention has the effect of preventing the damage of the suspension insulator by limiting the fluctuations of the transmission and distribution line due to the tension maintaining unit installed before and after the suspension insulator to minimize the shaking and to adjust the tension change that the transmission and distribution line contracts or sags.

1 is a side view showing an insulated iron for supporting a transmission line according to the prior art.
Figure 2 is a plan view showing an insulated wire for supporting the transmission line according to the prior art.
Figure 3 is a side view showing an insulated cast iron for supporting transmission and distribution lines according to an embodiment of the present invention.
4 is a view showing the configuration of the reduction unit according to an embodiment of the present invention.
5 is a view showing a state in which a transmission line is stretched in an insulated wire for supporting a distribution line according to an embodiment of the present invention.
And
6 is a view showing an operating state of the insulated cast iron for supporting transmission and distribution lines according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. And "elevation" is used to mean "falling".

In the conventional transmission and distribution lines, when the tension applied to the transmission and distribution lines is changed due to a change in temperature or climate, the transmission and distribution lines fall below the prescribed level, and thus the flow or vibration of the transmission and distribution lines are directly transmitted to the suspension insulator. Accidents occurred that result in damage or loss of function.

Hereinafter, the insulated wire for supporting the transmission and distribution line of the present invention prevents sagging of the transmission and distribution line by pulling both ends of the transmission and distribution line with an appropriate tension when detecting the tension change of the transmission and distribution line, thereby preventing damage to the suspension insulator.

3 is a side view showing an insulated wire for supporting a transmission and distribution line according to an embodiment of the present invention, Figure 4 is a view showing the configuration of the speed reduction unit according to an embodiment of the present invention.

According to an embodiment of the present invention, the insulated wire for supporting the power distribution line is provided with a first tension holding part 200a and a second tension holding part 200b which are installed before and after the suspension insulator 103.

The first tension holding part 200a and the second tension holding part 200b include a body part 210 that is a cylindrical body, and two circular plate-shaped members which are moved inside, and inner moving plates 220a and 220b. The plurality of elastic members 230 between the movable plates 220a and 220b are formed to be coupled to the two inner movable plates 220a and 220b.

The elastic body 230 is formed of a spring to maintain the tension of the transmission and distribution line 101.

The first tension maintaining part 200a is formed such that the transmission and distribution line 101 penetrates to one side and penetrates to the other side to be coupled to the suspension insulator 103.

The second tension maintaining part 200b is formed to penetrate one side from the suspension insulator 103 so that the transmission and distribution line 101 is connected, and penetrates the other side to be coupled with the wire column 110.

The first tension holding unit 200a and the second tension holding unit 200b may maintain tension by the action of the elastic body 230 when the transmission and distribution lines 101 are momentarily shaken by wind or seismic force. do.

Transmission insulated wire support for the transmission line 100 according to an embodiment of the present invention is the complete iron body 102, insulator 104, the first guide portion 120, the driving roller 130, the second guide portion 140, It includes a pressure roller 150, the lifting unit 160, the reduction unit 170, the drive motor 180 and the controller 190.

Wrought iron body 102 is formed in the form of a metal bar, the insulator 104 is fixed to the upper surface and the reduction unit 170 and the driving motor 180 is fixed to the lower surface.

The insulator 104 penetrates through the center portion, and a lifting rod 106 is formed in a vertical direction, and a driving roller 130 is installed at an upper end of the lifting rod 106.

The first guide part 120 is formed on the upper surface of the full iron body 102 in order to axially rotate the driving roller 130.

The first guide portion 120 is composed of two stages around the first rotation shaft 122 so that one end is fixed to the upper surface of the wrought iron body 102 and the other end is the rotation shaft 132 of the center of the drive roller 130 Is fixed to.

The first guide part 120 serves to be fixed when the driving roller 130 is moved while being inclined and moved at an angle according to the rising and falling of the driving roller 130.

Vertically above the driving roller 130 is formed such that the pressure roller 150 including the second rotating shaft 142 and the second guide portion 140 abuts on the wire column 110.

The pressure roller 150 moves up and down together as the driving roller 130 rises and falls, and serves to fix the transmission line 101 inserted into the space between the driving roller 130 and the pressure roller 150. do.

Lifting unit 160 is composed of the lifting rod 106 and the rack gear 172, the lifting rod 106 is formed in a tubular shape so that the lifting is possible through the insulator 104 and the elongated body (102).

The driving roller 130 has an upper end of the elevating rod 106 is connected to the rotating shaft 132 of the central portion.

The rack gear 172 is formed by forming a gear on a main surface protruding downwardly through the elongated body 102 of the lifting rod 106.

As shown in FIG. 4, the reduction unit 170 is configured to accommodate interconnected gears. The reduction unit 170 is connected to the pinion gear 174 to the rack gear 172 on the outer circumferential surface drawn out through the lower body body 102.

The pinion gear 174 is such that the gear 176 is connected to gradually increase and decrease the lifting unit 160 through the rack gear 172 while the deceleration is made.

Since more deceleration is required in order to make the elevating operation of the elevating unit 160 more precisely, the pinion gear (between the pin gear 176 of the deceleration unit 170 and the rack gear 172 of the elevating unit 160) 174) As well as the power can be transmitted to many gears to reduce the speed.

The drive motor 180 is preferably configured to use a motor capable of forward and reverse rotation so that the lifting unit 160 can move up and down as a configuration for generating a driving force transmitted to the reduction unit 170.

The transmission and distribution line 101 is connected to the auxiliary roller 300 installed in the electric wire line 110 after passing through the space between the drive roller 130 and the pressure roller 150, passing through the auxiliary roller 300 moving means ( It is connected to the moving pulley 430 of 400.

The moving means 400 has a moving motor 410 is connected to the moving pulley 430 through the moving rotary shaft 420 and the driving force drives the moving rotary shaft 420 by the operation of the moving motor 410 and the moving rotary shaft 420. In accordance with the rotation of the driving pulley 430 to move the transmission and distribution line 101 up and down.

The wire pole 110 is provided with a measuring unit 500 for measuring the degree of extension of the transmission and distribution line 101 on the moving path moving up and down the transmission and distribution line 101 from the inside.

The control unit 190 is electrically connected to the drive motor 180, the measurement unit 500, and the moving motor 410, and detects the increased degree of the transmission and distribution line 101 from the measurement unit 500 to drive the motor 180. And controls the operation of the moving motor 410.

5 is a view illustrating a state in which a transmission line is stretched in an insulated iron for supporting transmission and distribution lines according to an embodiment of the present invention, and FIG. 6 is a view illustrating an operating state of the insulated iron for supporting transmission and distribution lines according to an embodiment of the present invention. .

The transmission and distribution line 101 is connected to the auxiliary roller 300 installed in the electric wire line 110 after passing through the space between the drive roller 130 and the pressure roller 150, passing through the auxiliary roller 300 moving means ( It is connected to the moving pulley 430 of 400 and fixed.

The transmission and distribution line 101 maintains a constant tension, but when the wind is severely blown or climatically hot and cold, a change in the tension of the transmission and distribution line 101 occurs.

That is, if the wind is blown badly or even a typhoon blows the transmission and distribution line 101 is severely shaken to naturally extend in the longitudinal direction is a severe blow to the suspension insulator (103) by the shaking shock.

In addition, when the cold or cold weather, the transmission and distribution line 101 is stretched or contracted itself brings a change in tension.

When the tension fluctuation of the transmission and distribution line 101 occurs, as the transmission and distribution line 101 is stretched or contracted, the mobile pulley 430 on which the transmission and distribution line 101 is wound is released and the auxiliary roller 300 and the driving roller 130, Rotate the pressure roller 150 in a counterclockwise direction.

At this time, the measurement unit 500 digitizes the degree of extension of the transmission and distribution line 101 by itself and generates a measured value indicating the degree of extension of the transmission and distribution line 101 and transmits it to the controller 190.

The control unit 190 according to the embodiment of the present invention receives a measurement value indicating the degree of extension of the transmission / distribution line 101 from the measurement unit 500, and when the received measurement value is larger than the preset reference value, the control unit 180 moves with the driving motor 180. The motor 410 is operated to rotate the lifting pulley 430 of the elevating unit 160 in the upward direction while rotating the moving pulley 430 in the winding direction of the transmission line 101 to control the winding of the transmission line 101. do.

The controller 190 adjusts the rising length of the lifting rod 106 by the driving of the driving motor 180 according to the difference between the reference value and the received measured value greater than the preset reference value and at the same time the moving motor 410. Controls the degree of winding of the moving pulley 430 by driving.

When the transmission and distribution line 101 is changed in length due to a change of season or other reasons, the controller 190 operates the driving motor 180 and the moving motor 410 and rotates in the winding direction or the unwinding direction of the moving pulley 430. The tension of the transmission and distribution line 101 is adjusted while winding or unwinding the transmission and distribution line 101.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: insulated wire 101: transmission and distribution line
102: Perfect Iron Body 103: Suspension Insulator
104: insulator 106: lifting rod
Reference Signs List 110 wires 120: first guide portion 122: first rotation shaft 130: drive roller 132: rotation shaft 140: second guide portion 142: second rotation shaft 150: pressure roller 160: elevating portion 170: reduction portion 172: rack gear 174: Pinion Gear
176: worm gear 180: drive motor
190: control unit 200a: first tension holding unit
200b: second tension holding portion 210: body portion
220a, 220b: inner movable plate 230: elastic body
300: auxiliary roller 400: moving means
410: moving motor 420: moving rotary shaft
430: movable pulley 500: measuring unit

Claims (1)

In the insulated wire for supporting the transmission line for holding and fixing the transmission line,
Vertically penetrating the wrought iron body 102 installed in the horizontal direction of the wire pole 110, the insulator 104 provided on the upper surface of the wrought iron body 102, the insulator 104 and the wrought iron body 102 And a rack gear 172 to form a gear at a predetermined height on a lifting rod 106 provided to be capable of lifting up and down, and a lower outer circumferential surface of the lifting rod 106 extending downward to the bottom of the finished body body 102. The driving roller 130 is formed at the upper end of the elevating rod 106, and one side is connected to the rotation shaft 132 of the central portion of the drive roller 130, the other side is one side of the upper surface of the finished body 102 The first guide portion 120 is fixed to the driving roller 130 while moving inclined and inclined at a predetermined angle in accordance with the elevation of the driving roller 130, and abuts vertically upward of the driving roller 130. It is formed so that the second guide portion 140 on one side of the wire pole 110 Lifting unit 160 is fixed to include a pressure roller 150 that moves up and down together when the drive roller 130 moves up and down;
Suspension insulator which is installed in the horizontal direction on the transmission line 101 when the transmission line 101 passes through the space between the drive roller 130 and the pressure roller 150 to fix the transmission line 101 Installed between front and rear of the 103, the body portion 210 which is a cylindrical body, and the inner movable plate (220a, 220b) which is two circular plate-shaped members to be moved inside, and the plurality between the inner movable plate (220a, 220b) Tension retaining parts 200a and 200b formed to couple the two elastic bodies 230 to the two inner movable plates 220a and 220b;
A pinion gear 174 meshed with the rack gear 172 of the elevating unit 160 on the lower surface of the fully armed body 102 and a worm gear 176 that transmits power to the pinion gear 174 are built-in. And a deceleration unit 170 for elevating and driving the elevating unit 160 at a predetermined height;
A driving motor 180 connected to the deceleration unit 170 to generate a driving force transmitted to the deceleration unit 170;
A measurement that is installed on a moving path moving up and down of the transmission and distribution line 101 to the inside of the cable line 110, measures and digitizes the degree of extension of the transmission and distribution line 101, and indicates the degree of extension of the transmission and distribution line 101. A measurement unit 500 for generating a value;
After the transmission and distribution line 101 passes through the space between the drive roller 130 and the pressure roller 150 is connected to the auxiliary roller 300 installed in the wire line 110, past the auxiliary roller 300 It is connected to the moving pulley 430 installed at the lower portion of the wire pole 110, and a moving motor 410 for transmitting a driving force to the moving pulley 430 is connected to move the transmission and distribution line 101 up and down. Moving means 400; And
Is electrically connected to the driving motor 180, the measurement unit 500, and the mobile motor 410, and receives a measurement value from the measurement unit 500 and the received measurement value is larger than a preset reference value. The moving pulley is operated by sensing the change in the length of the transmission and distribution line 101 to operate the driving motor 180 and the moving motor 410 and elevating the lifting rod 106 of the elevating unit 160 upward. And a controller 190 for controlling the tension of the transmission and distribution line 101 while controlling the winding and unwinding of the transmission and distribution line 101 by rotating 430 in the winding or unwinding direction of the transmission and distribution line 101. Insulated wire for supporting power distribution line.

Images