KR20230109956A - Operation Device for Checking Cable Tension - Google Patents

Abstract

The wire tension checking type working device 1 of the present invention has a span (S) measured from the structure of two electric poles (200) and an electric wire (100), ear canal (D)_One) and mounting (L_One) is input as field data, and the ear canal (D_One) according to the tension (T_One) Ear canal calculator 10 that calculates, and the tension (T_One) By including the tension display type hoist 20 in which the change in tension of the wire 100 that matches the tensiometer 25 is confirmed by the scale mark of the tensiometer 25, the tension balance on both sides of the support for the average load of the pole 200 is easily achieved by matching the calculated tension of the distribution wire (ie, wire) with the actual tension by work, and through this, it is possible to improve facility safety such as pole inclination and breakage prevention. It has the feature of eliminating the harmful effects of construction work.

Description

Wire tension checking operation device {Operation Device for Checking Cable Tension}

The present invention relates to a wire tension working device, and more particularly, to a wire tension checking type working device that matches the calculated tension of a distribution line installed between two poles with the actual tension caused by work.

In general, in an overhead power distribution line, distribution lines connecting between poles having a certain interval are fixed with left / right iron bars and insulators at the upper end of the poles, and left / right distribution lines adjacent to each other are connected with jump lines.

Therefore, the distribution line must always maintain a constant tension so that an appropriate sagging state is maintained.

To this end, when installing wires, maintain the tension of the distribution wires by adjusting the sagging of the wires and fixing the wires, and for this purpose, the tension of the distribution wires is set within the allowable tension range by applying the wire reversal calculation formula below in the relevant standards to be observed in the field. In this case, the distance refers to the sagging distance of the wire between the poles.

Wire reversal calculation formula: T ₁ (Kg) = T (Kg)/F

Here, “T ₁ ” is the wire allowable tension against the maximum allowable tension given when the safety factor of the minimum specified value is set in the worst weather conditions, “T” is the wire tensile load, and “F” is the set safety factor.

For example, the automatic distance calculation device is a device that automatically calculates the wire distance for a distribution line during a wire installation operation.

Specifically, the automatic ear canal calculation device is composed of a digital tensiometer, and the wire installation work through this is to set the digital tensiometer so that the allowable tension of the distribution line is calculated by inputting the wire information, and then install it on the distribution line, and then the operator goes up to the pole.

In this way, by applying the automatic ear degree calculation device during wire work, it is possible to form an allowable tension for maintaining an appropriate sagging state of the distribution wire with only a small number of workers.

Domestic Patent Publication KR 10-2012-0138366 A

However, the wire fixing work using the ear canal automatic calculation device has limitations in that field applicability is difficult.

As an example, the wire fixing work using the automatic calculation device for the ear canal requires a worker who climbs a distribution line with a digital tensiometer fixed on a pole to pull the wire with a long wire, and this wire pulling operation is important for the average load of the pole.

Due to this, it is difficult to comply with the relevant standards of the current standard in the field during wire construction and installation, so the know-how and intuition of the operator are being applied.

Therefore, in view of the above points, the present invention is easy to balance the tension on both sides of the support for the average load of the pole by matching the calculated tension of the distribution line connecting the poles and the actual tension by work. It is possible to improve facility safety such as prevention of pole inclination and breakage.

In order to achieve the above object, the wire tension checking type working device of the present invention takes at least one of the span, ear canal, and mounting measured from a wire structure connected between two electric poles as field data of the wire, and calculates the tension according to the ear canal, and a tension display type hoist that checks the change in tension by the manipulation handle pulling the wire with a tensiometer, and stops the operation of the manipulation handle when the scale of the tensiometer matches the tension. do

As a preferred embodiment, the iso is calculated by the difference between the height of the pole and the height of the wire at the midpoint of the span.

As a preferred embodiment, the ear canal calculator is composed of an input unit for inputting the field data, a calculation unit for performing field data processing and tension calculation, and an output unit for outputting the tension to the input unit.

As a preferred embodiment, the input unit displays a menu display screen that can be input with a touch screen, the calculation unit processes the field data processing and the tension calculation with an application program (APP), and the application program (APP) applies the tension calculation formula for the ear canal, the mounting, and the tension as a logic.

As a preferred embodiment, the tensiometer is a dial gauge tensiometer.

As a preferred embodiment, the tension display type joist is connected to the tensiometer with a wire rope, and is operated with the manipulation handle to pull the wire, a hook coupled to the tensiometer to be connected to the wire, and a camarong connected to the wire rope of the tightener on the opposite side of the hook.

The wire tension checking type work device of the present invention implements the following actions and effects.

First, it is possible to provide the convenience of automatically calculating the tension by performing the calculation of the tension of the distribution line with a second island calculator using input data based on the field conditions. Second, when installing electric pole wires, it is possible to check the actual tension by a joist, so the distribution wire tension balance on both sides of the support is easily balanced between poles. Third, the average load of the pole is formed by the balance of tension on both sides of the support of the distribution line, thereby improving the safety of the pole, such as preventing the pole inclination and breakage due to the unbalanced load at both ends of the pole. Fourth, by complying with the standards related to wire installation on site, the harmful effects of construction work due to the know-how and intuition of the operator are eliminated.

1 is a configuration diagram of a wire tension checking type work device composed of a second length calculator and a tension display type hoist according to the present invention, and FIG. 2 is an example of field data of the tension automatic calculation logic input to the second length calculator according to the present invention. Figure 3 is a construction work state in which the tension display type joist according to the present invention installs pole wires while visually checking the calculated tension of the ear length calculator.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying illustrative drawings, and since these embodiments can be implemented in various different forms by those skilled in the art as an example, it is not limited to the embodiments described here.

Referring to FIG. 1 , the wire tension checking type working device 1 includes a ear canal calculator 10 and a tension display type hoisting machine 20.

Specifically, the ear canal calculator 10 consists of an input unit 11, a calculation unit 13 and an output unit 15, and the input unit 11 is a data input for calculating the ear canal D ₁ (ie, allowable ear degree) of the wire 100 (see FIG. 2) in the field, and the calculator 13 is a dedicated calculator with a memory in which a logic or program for calculating the ear canal D ₁ is stored, and the output unit 15 outputs the calculation result value of the calculation unit 13 to the input unit 11. In this case, the ear canal calculator 10 is powered by a built-in battery type, and data input / output is performed between the input unit 11 / calculation unit 13 / output unit 15 through a communication terminal and a connector connection.

In particular, the input unit 11 calculates together with input items such as construction name, island, ship type, span, etc. that can be directly input by a worker in the field. An LCD-type touch screen equipped with a display of the measured tension value as a menu screen is included. The calculation unit 13 builds a logic or program suitable for working conditions (ie, region, wire type, distance, temperature, etc.) as an APP.

Specifically, the tension display type hoist 20 is a field tool for adjusting the ear canal D ₁ (ie, the allowable ear canal) of the wire 100 (see FIG. 2), and includes a manipulation handle 21, a tightener 23, a tensiometer 25, a hook 27, and a camarong 29.

For example, the control handle 21 tightens or releases the wire rope 23a of the tightener 23 by left/right angular motion with the tightener 23 and the connecting part as the center of rotation.

For example, the hook 27 and the camarong 29 are hung on both left and right sides of the electric wire 100, respectively, and are connected to the electric wire 100. In particular, the hook 27 is connected to the tensiometer 25 on which the wire rope 23a is hung on one side (ie, the left side) of the fastener 23, and the camarong 29 is connected to the wire rope 23a on the other side (ie, the right side) of the fastener 23. In this case, the camarong 29 is provided with a lock key to be fixed with the wire 100.

In this way, the manipulation handle 21, the tightener 23, the hook 27, and the camarong 29 are components of a general joist that performs suspension insulator replacement, pole change, wank replacement, ear canal adjustment, and the like.

However, the tension display type hoist 20, unlike a general hoist, further includes a tensiometer 25, so that the tension of the wire 100 according to the manipulation of the manipulation handle 21 is calculated. The operator can visually check whether or not it matches the calculated ear canal D ₁ .

To this end, the tensiometer 25 connects the wire rope 23a of the tightener 23 and the hook 27 to operate the manipulation handle 21 on the wire rope 23a of the tightener 23. It displays the strength of the tension applied to the scale. In this case, the tensiometer 25 displays scales with a dial gauge tensiometer.

On the other hand, Figure 2 shows an example of field data that is measured for logic or program application of the app (APP) built into the ear canal calculator 10.

As shown, the calculation unit 13 of the ear canal calculator 10 applies a tension calculation formula processed by logic with the application program (APP), and for this purpose, two electric poles in a state where the wire support points A and B are the same.

Tension calculation formula:

Here, “D ₁ (m)” is the allowable degree under the worst condition, “T ₁ (kg)” is the maximum horizontal tension of the wire (100), “T _B (kg)” is the tension of the support point (B) under the maximum condition, “T” is the tensile load of the wire, “L ₁ (m)” is the mounting of the wire (100), “S (m)” is the span, and “W _r (kg/m)” is the combined wind pressure per 1m of wire With the load, it is the tension calculation data. In this case, the tension (T ₁ ) and the combined wind pressure load (W _r ) are programmed and logic processed to automatically calculate them when the values of the span (S) and the ear canal (D ₁ ) are given.

Therefore, among the tension calculation data, the span (S), ear canal (D ₁ ), and mounting (L ₁ ) are calculated as field data. In this case, the mounting (L ₁ ) is obtained by directly checking the length of the wire 100 by the operator.

As an example, the span (S) is measured in the field using a distance meter, and the ear canal (D ₁ ) is measured using a distance meter in the field.

Ear Canal (D ₁ ) = Height to Wangeum (measured value) - Height of wire (measured value)

From this, the ear canal calculator 10 takes the span (S), ear canal (D ₁ ), and mounting (L ₁ ) as field data and is input to the input unit 11, and the calculation unit 13 calculates the tension (T ₁ ) with the logic or program of the app (APP), and then displays it on the screen of the input unit 11 through the output unit 15.

Meanwhile, FIG. 3 is a state of electric pole wire construction using the wire tension checking type work device 1.

As shown, the electric pole wire construction is simply performed through the process of calculating the distance (A), installing the joist (B), and checking the tension of the whole body (C).

For example, in the process of calculating the distance (A), the field data span (S), distance (D ₁ ) and mounting (L ₁ ) (see FIG. 2) are entered into the input unit 11 of the distance calculator 10 while inputting the work condition area, wire type, distance, temperature, etc., and the calculation unit 13 calculates the tension (T ₁ ) in the condition of the distance (D ₁ ) of the wire 100 calculated Through the output unit 15, it is displayed as the input unit 11.

Therefore, the operator checks the tension (T ₁ ) required when installing the utility wire from the ear canal calculator 10.

For example, the process of installing the joist (B) is performed by connecting the tension display type joist 20 to the electric wire 100 installed at the pole 200, and the connection of the tension display type joist 20 is the same as the connection method of the general joist 20. Therefore, the installation of the tension display type hoist 20 is simply installed by connecting and fixing the hook 27 and the camarong 29 to both left and right sides of the electric wire 100. In this case, the hook 27 or the camarong 29 may be connected to a fixed object such as a gold coin of the electric pole 200 .

For example, the process of checking the tension of the whole body (C) is performed by manipulating the tension display type hoist 20 connected to the electric wire 100, and the use of the tension display hoist 20 is the same as the use method of the general hoist 20.

In addition, the tension display type hoist 20 provides the operator with the convenience of visually checking the operating state of the tightener 23 according to the manipulation of the handle 21 through the tensiometer 25.

Therefore, the operator checks the change in tension of the wire 100 according to the operation of the tension display type girder 20 with the scale mark of the tensiometer 25, and the scale mark of the tensiometer 25 is the ear canal of the wire 100 ( D ₁ ) When it is the same as the calculated tension (T ₁ ) indicating the state, the operation can be stopped.

From this, the operator can evenly balance the tension on both sides of the support of the electric wire 100, which is important for the average load of the electric pole 200.

As described above, the wire tension checking type working device 1 according to the present embodiment has a span (S) and an ear canal (D) measured from the structure of the two electric poles 200 and the electric wire 100._One) and mounting (L_One) is input as field data, and the ear canal (D_One) according to the tension (T_One) Ear canal calculator 10 that calculates, and the tension (T_One) By including the tension display type hoist 20 in which the change in tension of the wire 100 that matches the tensiometer 25 is confirmed by the scale mark of the tensiometer 25, the tension balance on both sides of the support for the average load of the pole 200 is easily achieved by matching the calculated tension of the distribution wire (ie, wire) with the actual tension by work, and through this, it is possible to improve facility safety such as pole inclination and breakage prevention. The damage caused by construction work is eliminated.

1: Wire tension check type working device
10: ear canal calculator
11: input unit 13: calculation unit
15: output unit
20: Tension indication type joist
21: operation handle 23: tightener
23a: wire rope 25: tensiometer
27: Hook 29: Camaroong
100: wire 200: electric pole

Claims (8)

One or more of the span, ear canal, and mounting measured from the wire structure connecting the two poles as field data of the wire, and a second ear calculator for calculating tension tailored to the ear canal, and
Tension indication type long wire that checks the change in tension caused by the control handle pulling the wire with a tensiometer, and stops the operation of the control handle when the scale of the tensiometer coincides with the tension.
A wire tension checking type work device, characterized in that it is included.
The method according to claim 1, Wire tension checking type working device, characterized in that the difference between the height of the wire pole and the height of the electric wire at the midpoint of the span between the height of the electric pole.
The method according to claim 1, wherein the ear canal calculator
An input unit for inputting the field data, a calculation unit for processing field data and calculating tension, and
Wire tension checking type working device, characterized in that consisting of an output unit for outputting the tension to the input unit.
The method according to claim 3, Wire tension check type work device characterized in that the input unit displays a menu display screen that can be input through a touch screen.
The method according to claim 3, Wire tension checking type work device, characterized in that the calculation unit processes the field data processing and the tension calculation with an app program.
The method according to claim 4, wherein the app program is a wire tension checking type work device, characterized in that for applying the tension calculation formula as a logic.
Tension calculation formula: ,“D ₁ (m)” is the allowable level under the worst condition, “T ₁ (kg)” is the maximum horizontal tension of the wire (100), “T _B (kg)” is the tension of the support point (B) under the maximum condition, “T” is the tensile load of the wire, “L ₁ (m)” is the mounting of the wire (100), “S (m)” is the span, and “W _r (kg/m)” is the combined wind pressure per 1m of wire load.
The wire tension checking type working device according to claim 1, wherein the tensiometer is a dial gauge tensiometer.
The method according to claim 1, wherein the tension display type hoisting machine
A tightener that pulls the wire by being operated by the manipulation handle in a state connected to the tensiometer with a wire rope;
A hook coupled to the tensiometer to be connected to the wire, and
Wire tension checking type working device, characterized in that consisting of a camarong connected to the wire rope of the tightener on the opposite side of the hook.