KR102490384B1 - Spacer car and spacer damper connecting method thereof - Google Patents

Abstract

The present invention includes a moving unit that moves along a transmission line, a laser level that displays horizontal and vertical lines with lasers based on an installation position, and a fixing member that fixes the laser level to the moving unit, and the moving unit moves. The transmission line is two or more, and a moving device for fastening the spacer damper, characterized in that the spacer damper is fastened to the intersection of the vertical line with one transmission line, and the laser while adjusting the inclination of the fixing member A leveling step of aligning the horizontal state of the leveler, a mounting position displaying step of marking a vertical point on the transmission line using the laser level, and a mounting step of mounting the spacer damper at the vertical point, wherein the vertical point is displayed The transmission line is two or more, and the leveling step is a step of correcting the inclination of the moving unit due to the height difference between one transmission line and another transmission line.

Description

Moving device for fastening spacer damper and fastening method of spacer damper {SPACER CAR AND SPACER DAMPER CONNECTING METHOD THEREOF}

The present invention relates to a moving device for fastening a spacer damper for improving mounting accuracy of a spacer damper and a fastening method of a spacer damper using the same.

Overhead transmission line wiring work refers to the installation of overhead branch wires and power lines on a steel tower after the tower assembly work is completed. Divided.

A spacer damper is installed on the transmission line to maintain a constant distance between small conductors of multiple conductors or more and to absorb the vibration energy of the wire to prevent the occurrence of wire vibration.

When installing the spacer damper, the installation position of each phase must be the same using the spacer car 1 according to the overhead transmission line construction standard and overhead transmission line cost estimation guideline. It must be installed according to the number of installations for each type.

However, in the field, it is practically difficult to install the spacer damper perpendicularly, and as shown in FIG. 3, the installation of the first and second spacer dampers at both ends of the transmission line is often poor, and the transmission line is damaged as shown in FIG. 4. There are many cases.

In order to solve the above-mentioned problems, it is possible to install at right angles to the transmission line regardless of the mounting position, and to measure the separation distance between the spacer dampers and to measure the distance, so that the spacer damper can be installed at the desired location. A moving device for fastening the spacer damper And it is intended to provide a fastening method of a spacer damper using the same.

It includes a moving unit that moves along the transmission line, a laser level that marks horizontal and vertical lines with lasers based on the installation position, and a fixing member that fixes the laser level to the moving unit. A moving device for fastening a spacer damper characterized in that the spacer damper is fastened to the intersection of one transmission line, another transmission line and a vertical line.

By using the moving device for fastening the spacer damper according to the present invention, the speed and accuracy of fastening the spacer damper are improved to improve the quality of construction, so that in the future, unnecessary two-way adjustment work, power line damage and failure prevention due to an imbalance of two conductors on multiple conductors can be prevented in advance can be prevented

In addition, it is possible to prevent major power transmission equipment failures by accurately installing spacer dampers during wiring work of transmission lines, and it can contribute to improving power quality reliability by extending the life of power lines.

1 is a block diagram of a moving device for fastening a spacer damper according to the present invention.
2 is a photograph of a conventional spacer car (a), a 4-conductor spacer damper (b), and a 6-conductor spacer damper (c).
Figure 3 is a view showing a portion where the right angle installation failure of the spacer damper according to the conventional fastening method is frequent.
4 is a picture (a) of defective right angle installation of a spacer damper according to a conventional fastening method and a picture (b) of damage to a power transmission line.
5 is an image showing the vertical-horizontal function of the laser level applied to the present invention.
6 is a flowchart of the fastening method of Example 1 according to the present invention.
7 is a flowchart of the fastening method of Example 2 according to the present invention.

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Accordingly, the shapes of elements in the drawings may be exaggerated to emphasize a clearer explanation. It should be noted that in each drawing, the same configuration may be indicated by the same reference numerals. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention are omitted.

The present invention includes a moving unit 10 that moves along a power transmission line, a laser level device 20 that displays horizontal and vertical lines with a laser based on an installation position, and a fixing member 30 that fixes the laser level device to the moving unit. ), wherein the transmission line to which the moving unit moves is two or more, and a spacer damper is fastened to the intersection of one transmission line, another transmission line, and the vertical line. A moving device for fastening a spacer damper and a spacer using the same It relates to the method of fastening the damper.

1 is a configuration diagram of a moving device for fastening a spacer damper according to the present invention, and will be described in detail with reference to FIG. 1 as follows.

The fixing member 30 includes a first hinge 31 (not shown) installed to be rotatable in the longitudinal direction of the moving unit 10 and a second hinge 32 installed to be rotatable in the width direction of the moving unit (not shown). ) and maintains the horizontal state of the laser level 20 by rotating the fixing member around the first hinge. That is, even in a situation where the moving unit cannot maintain a horizontal state due to a difference in height of the transmission line involved in the movement of the moving unit 10, the laser level is maintained in a horizontal state by using the first hinge 31. can make it

In addition, the fixing member 30 is mounted on the front end of the moving unit 10 and is accommodated or deployed in the moving unit by rotating the fixing member around the second hinge 32 to fix the fixing during transport. When the member is accommodated in the moving unit and the laser level 20 is measured, the fixing member can be deployed and used from the moving unit.

The laser level 20 has a structure capable of being fastened or separated from the fixing member 30 .

A distance measurement unit 50 that measures the separation distance from the spacer damper, a communication unit 60 that receives the separation distance measured by the distance measurement unit, and a remote management that receives, confirms, and stores the separation distance from the communication unit It further includes a device 40, and the communication unit and the remote management device wirelessly communicate with each other using one or more of a wireless mobile communication network, digital TRS, and Wi-Fi.

The separation distance may vary depending on circumstances, but when the spacer damper is to be installed based on the previously installed spacer damper (Embodiment 2), the separation distance is the distance between the previously installed spacer damper and the spacer damper, and on the transmission line In the case of installing the spacer damper at a desired location (Example 1), the separation distance is the distance between the expected installation position on the transmission line and the spacer damper.

6 is a flowchart of a method of fastening a spacer damper when installing a spacer damper at a desired location on a transmission line according to the present invention.

Referring to the fastening method with reference to FIG. 6, the horizontal adjustment step of adjusting the horizontal state of the laser level 20 while adjusting the inclination of the fixing member 30 based on the first hinge 31 (S10). ), a mounting position marking step (S50) of marking a vertical point on the transmission line using the laser level, and a mounting step (S60) of mounting the spacer damper at the vertical point, the transmission line in which the vertical point is displayed is two or more, and the leveling step is a step of correcting the inclination of the mobile unit 10 due to a height difference between one transmission line and another transmission line.

In addition, the installation position measuring step (S20) of measuring the expected installation position of the spacer damper and the separation distance of the laser level device 20 using the distance measurement unit 50, the expected installation position and the laser level It further includes an installation position determining step (S40) of determining whether the positions of are the same, and the installation position measuring step is an installation position moving step of moving the laser level along the transmission line, the expected installation position of the spacer damper and the laser An installation location transmission step (S30) of transmitting the separation distance of the level device to the communication unit 60, and an installation location monitoring step (S30) of monitoring and storing the data received from the communication unit in real time using the remote management device (S40). ), and the communication unit and the remote management device wirelessly communicate with one or more of a wireless mobile communication network, digital TRS, and Wi-Fi.

7 is a flow chart of a fastening method of a spacer damper when the spacer damper is to be installed based on a previously installed spacer damper according to the present invention.

Referring to the fastening method with reference to FIG. 7, the separation distance between the laser level 20 and any one of the installation objects installed on the transmission line including the pre-installed spacer damper using the distance measuring unit 50 A separation distance measuring step (S20') of measuring , a separation distance determining step (S40') of determining whether the distance measured by the distance measurement unit and the distance between the object and the laser level and the preset distance are the same. Including, in the separation distance determining step (S40 '), when the separation distance between the counterpart and the laser level is the same as the preset separation distance, the spacer damper for marking a vertical point on the transmission line using the laser level The mounting position displaying step (S50') is performed, and when the distance between the counterpart and the laser level is different from the preset distance, the distance measuring step (S20') is performed again.
The separation distance measuring step is a movement step of moving the laser level along the two or more transmission lines, a data transmission step (S30′) of transmitting the distance between the counterpart and the laser level to the communication unit, and the communication unit 60. It includes a monitoring step (S30′) of monitoring and storing the transmitted data in real time using the remote management device 40, and the communication unit and the remote management device use any one of a wireless mobile communication network, digital TRS, and Wi-Fi. Wireless communication is performed in the above manner, and since the leveling step (S10'), the mounting position displaying step (S50'), and the mounting step (S60') are the same as those described above, descriptions thereof are omitted.

In the installation position moving step and the moving step, the power transmission line is attached to the first rollers 11 and 12, the second rollers 13 and 14, and the third rollers 15 and 16 of the moving unit according to the number of the power transmission lines. Walk and move. (See Figure 1)

5 is an image showing the vertical-horizontal function of the laser level applied to the present invention, the laser level 20 has a horizontal line (HL) having a horizontal function, a first vertical line (with a vertical function in the width direction) VL1) and a second vertical line (VL2) having a longitudinal vertical function are indicated by a laser. The first vertical line is used.

The embodiments of the present invention described above are merely exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, it will be well understood that the present invention is not limited to the forms mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and alternatives within the spirit and scope of the present invention as defined by the appended claims.

10: mobile unit
20: laser level
30: fixing member
40: remote management device
50: distance measurement unit
60: Ministry of Communication
11, 12: first roller
13, 14: second roller
15, 16: third roller
31: first hinge
32: second hinge
HL: horizontal line
VL1: 1st vertical line
VL2: 2nd vertical line

Claims (9)

A mobile unit that moves along the transmission line;
A laser level that displays a horizontal line and a vertical line with a laser based on the installation position;
a fixing member fixing the laser level to the moving unit; contains
The transmission line through which the mobile unit moves is two or more,
A spacer damper is fastened to the intersection of one transmission line, another transmission line, and the vertical line,
The fixing member is
a first hinge installed to be rotatable in the longitudinal direction of the moving unit; and
a second hinge installed to be rotatable in the width direction of the moving unit; Including,
Maintaining the horizontal state of the laser level by rotating the fixing member around the first hinge,
A moving device for fastening a spacer damper, characterized in that the fixing member is rotated around the second hinge to be accommodated or deployed in the moving unit. delete delete According to claim 1,
a distance measuring unit measuring a separation distance from the spacer damper;
a communication unit receiving the separation distance measured by the distance measurement unit;
a remote management device receiving, confirming, and storing the separation distance from the communication unit; contains more
The mobile device for fastening the spacer damper, characterized in that the communication unit and the remote management device wirelessly communicate in any one or more of a wireless mobile communication network, digital TRS, and Wi-Fi. In the fastening method of the spacer damper using the moving device for fastening the spacer damper of any one of claims 1 and 4,
A horizontal adjustment step of adjusting the horizontal state of the laser level while adjusting the inclination of the fixing member;
Mounting position marking step of marking a vertical point on the transmission line using the laser level;
A mounting step of mounting a spacer damper at the vertical point; contains
The transmission line on which the vertical point is displayed is two or more
The horizontal adjustment step is a method of fastening a spacer damper, characterized in that the step of correcting the inclination of the moving unit due to the difference in height between one transmission line and another transmission line. According to claim 5,
An installation position measuring step of measuring a separation distance between the expected installation position of the spacer damper and the laser level using a distance measurement unit;
An installation position determination step of determining whether the expected installation position and the position of the laser level are the same; Fastening method of the spacer damper characterized in that it further comprises. According to claim 6,
The installation position measurement step is
an installation position moving step of moving the laser level along the transmission line;
An installation position transmission step of transmitting the expected installation position of the spacer damper and the separation distance of the laser level to a communication unit;
An installation location monitoring step of monitoring and storing the data received from the communication unit in real time using a remote management device; contains
The communication unit and the remote management device are fastening method of a spacer damper, characterized in that for wireless communication by any one or more of a wireless mobile communication network, digital TRS, Wi-Fi. According to claim 5,
Separation distance measuring step of measuring the separation distance between the relative object and the laser level using a distance measurement unit;
a separation distance determining step of determining whether the separation distance and a preset separation distance are the same; Fastening method of the spacer damper characterized in that it further comprises. According to claim 8,
The separation distance measurement step is
a moving step of moving the laser level along the two or more transmission lines;
a data transmission step of transmitting data to a distance communication unit between the counterpart and the laser level;
A monitoring step of monitoring and storing the data transmitted from the communication unit in real time using a remote management device; contains
The communication unit and the remote management device are fastening method of a spacer damper, characterized in that for wireless communication by any one or more of a wireless mobile communication network, digital TRS, Wi-Fi.

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