KR101555249B1 - movable bracket displacement measuring apparatus - Google Patents

Abstract

The present invention relates to a device for measuring displacement of a mobile bracket. A laser generating device(20) irradiates a laser beam(22). A measurer(30) is horizontally installed on a straight line which connects the center of the laser generating device with a laser generating unit(21) of the laser generating unit(20). The measurer measures an interval from a curve pulling metal fitting(9). A laser beam is irradiated to the center of a utility pole supporting a trail line and the measurer measures the interval between the mobile bracket and a fixture which connects the trail line with the curve pulling metal fitting, thereby accurately measuring displacement of the mobile bracket.

Description

[0001] Movable bracket displacement measuring apparatus [0002]

More particularly, the present invention relates to an apparatus for measuring displacement of a movable bracket, and more particularly, to an apparatus for measuring displacement of a movable bracket, And more particularly, to a displacement measuring apparatus for a movable bracket capable of accurately measuring a displacement amount of a movable bracket to increase measurement efficiency.

In the AC electric railway, the electric cable line is a power supply facility that is formed in the form of a line that is installed at a certain height above the track on which the electric railway vehicle travels and supplies driving power to the vehicle. It can cause various problems such as electric arc, circulation current, mechanical wear, mechanical shock, etc.

Since the catenary line moves in accordance with the temperature change and the tension change, the deviation can be changed by the rotation of the movable bracket. The variation of the deviation due to the rotation of the movable bracket can affect the power supplied to the pantograph, and it is considered that there is no influence by the wear of the catenary.

 In order to support the joint line and the electric cable in the electric railway line of the electric railway, an upper horizontal pipe installed on the pole through the railing insulator, a slant pipe supporting the upper horizontal pipe, a support angle supporting the lower horizontal pipe installed on the slant pipe, And the like can be used as an I-type movable bracket and an O-type movable bracket.

Electric railway is composed of a substation substation which modifies and distributes electric power suitable for an electric car, and a catenary line and an electric car which supply electric power to the electric car. In the electric line which is almost at the same height on the line, And an electric driving method in which the grap contacts with the electric motor (motor) to supply electric power is adopted.

1 is an exemplary view showing a movable bracket installed in a catenary path.

As shown in Fig. 1, the lower horizontal pipe 6 having a short length is provided with an I-type curve-pulling metal fitting 9, which is directed from the inside to the outside, and the upper horizontal pipe 4 A wire 10 is fixed to the upper end of the upper surface, and a catenary line 11 is fixed to the tip of the curved pulling metal bracket 6. [

An upper pipe 4 fixed to the electric pole 1 and a lower horizontal pipe 6 having a longer or shorter length fixed to the electric pole 1 and an upper pipe 4 and a lower pipe 6 connected to each other And a support angle 7 and a hanger 8 for supporting the support member.

This movable bracket is not only difficult to manufacture due to a large number of parts, but also has a problem in that it can not be used for maintenance. Particularly, since the conventional movable movable bracket is assembled using many parts, there is a problem that the assembled part is easily released due to vibration and impact.

In order to solve such a problem, an integral type movable bracket is proposed in Korean Patent No. 10-0453372.

However, since the catenary cable is expanded and contracted according to the temperature change, the installation angle of the movable bracket should be set differently according to the number of the pole by the extension of the line of the catenary to the automatic tension adjusting device based on the support points of the human body and the flow-

Since the movable bracket according to this conventional technique is inaccurate and inaccurate because the operator visually measures the amount of displacement between the movable bracket supporting the electric wire and the electric wire, the measuring efficiency is deteriorated by using the average value several times and the displacement amount measured inaccurately There is a need to rework because of adjusting the electric line.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a portable laser generator capable of measuring the displacement of a moving bracket supporting a wire of an electric railway, and measuring a displacement of the wire, And a displacement measuring device for measuring the displacement amount of the movable bracket so that the displacement amount of the movable bracket can be accurately measured by measuring the distance between the joint of the catenary line and the curved drawing metal and the distance between the movable bracket.

Another object of the present invention is to provide a movable bracket which can mechanically and automatize a displacement amount between a movable bracket and a catenary line to improve accuracy by increasing the accuracy of measurement, And a displacement amount measuring device.

According to an aspect of the present invention, there is provided an apparatus for measuring displacement of movable brackets, comprising: a laser generator for irradiating a laser beam; A measuring instrument installed transversely to a straight line connecting the center of the laser generating unit of the laser generator and measuring the distance between the laser generating unit and the curved drawing member; And a laser generator of the laser generator.

According to a preferred aspect of the present invention, the measurer is formed in a "C" shape in cross-section, a scale is formed on the bottom surface, a rear surface is formed vertically to the bottom surface, And a center line G1 of the laser generation unit and a center line formed at the center of the measurement unit are arranged in a straight line.

According to a further preferred feature of the present invention, a center line is drawn at the center of the measurer, and the center line is formed so as to coincide with a straight line connecting the center G1 with the laser generating part of the laser generator.

According to the movable bracket displacement measuring apparatus of the present invention as described above, in order to measure the amount of displacement between the moving bracket supporting the catenary and the catenary, a measurer is installed in a portable laser generating device so that the laser beam is focused on the center of the pole supporting the catenary And the displacement of the movable bracket can be measured by measuring the distance between the joint of the catenary line and the curved pulling bracket and the distance between the movable bracket.

1 is an exemplary view showing a movable bracket installed in a catenary line.
2 is a perspective view showing a configuration of a movable bracket measuring device according to the present invention,
3 is an embodiment for measuring a twisted distance of a catenary using the movable bracket measuring device according to the present invention,
4 is an explanatory view showing a state in which the laser beam of the laser generator of the movable bracket measuring device according to the present invention is irradiated to the center of the electric pole;
5 is a plan view for measuring the rotational displacement of the movable movable bracket supporting the electric wire by the movable bracket measuring device according to the present invention about its rotation about the electric pole.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be described in detail so that those skilled in the art can easily carry out the present invention , And this does not mean that the technical idea and scope of the present invention are limited.

2 is a perspective view showing a configuration of a movable bracket measuring device according to the present invention.

An apparatus 100 for preventing pollution of pier cut sludge according to a preferred embodiment of the present invention includes a laser generator 20 for irradiating a laser beam; And a measurer 30 installed to intersect transversely on a straight line connecting the center of the laser generating unit 21 of the laser generator 20 and measuring the interval between the laser generating unit 21 and the curved pulling metal 9. The laser generator 10 generates a laser beam to irradiate a laser to the electric pole 120 supporting the electric cable 110 to make a straight line connecting the electric pole 120 and the electric cable 110 and confirms whether the straight line is orthogonal do.

The measuring device 30 is formed in a shape of a cross section and the scale 31a is formed on the bottom surface 31 and the rear surface 32 is formed vertically to the bottom surface 31, The center G1 and the center line 33 of the laser beam 22 and the laser generation unit 21 emitted from the laser generation unit 21 of the laser unit 20 are arranged in a straight line.

As shown in FIG. 3, when the measurer 30 is placed parallel to the catamaran line 110, when the scale drawn on the bottom surface 31, which meets when the vertical line is drawn down by the lower horizontal pipe 130, is read, The twisted rotational displacement of the pulling metal fitting 9 can be measured.

A center line 33 is formed at the center of the measurer 30 and a center line 33 is formed so as to coincide with a straight line connecting the laser generating portion 21 of the laser generator 20 and the center G1.

FIG. 3 shows an embodiment of measuring the twisted distance of a catenary using the movable bracket measuring device according to the present invention, and FIG. 4 is a view showing an example in which the laser beam of the laser generating device of the movable bracket measuring device according to the present invention, An explanatory diagram showing a state of irradiation is shown.

The measuring device 30 of the moving bracket measuring device 100 according to the present invention is positioned at the same height as the catenary 110 as shown in FIG. 3, that is, at a position where the upper surface of the measuring device 30 is parallel to the catenary 110 And a power switch (not shown) of the laser generator 20 is turned on so that the laser beam 22 is generated by the laser generator 21. [

4, the laser beam 22 of the laser generator 20 is moved to the center of the electric pole 120 supporting the electric wire 110, for example, the lower inclined pipe 111 to the electric pole 120 The center of the lower end of the fastening hole 121a of the fastening band 121 is fastened to the fastening band 121.

At this time, the laser beam 22 of the laser generator 20 is irradiated in parallel with the inclined pipe 111 so that the bottom surface 31 of the measurer 30 is kept parallel to the catenary 110. Since the catenary line 110 moves in accordance with the temperature change and the tension change, the movable bracket rotates left and right in a state of being fastened to the fastening hole 121a of the fastening band 121.

Since the catenary cable is expanded and contracted according to the temperature change, the mounting angle of the movable bracket should be set differently for each pole number by the extension of the catenary line to the automatic tension adjusting device based on the support points of the human part and the flow prevention device.

Fig. 5 is a plan view for measuring a rotational displacement of a movable bracket supporting a catenary by a movable bracket measuring device according to the present invention about its rotation about a pole.

The measurer 30 is irradiated to the catenary 110 while irradiating the laser beam 22 generated in the laser generator 20 of the movable bracket rotational displacement measuring apparatus 100 according to the present invention toward the center G2 of the electric pole 120, .

A coupling hole 9a for coupling the curved drawing metal 9 and the electric wire 110 in a state in which the laser beam 22 of the movable bracket rotational displacement measuring device 100 according to the present invention is directed to the center G2 of the electric pole 120 And the distance d between the center line 33 of the measurer 30 is read, the interval corresponds to the rotational displacement of the catenary 110. [

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. It is, of course, within the scope of the appended claims to cover the description of the invention which forms such changes.

20: laser generator 21: laser generator
30: Measurer 33: Center line
100: measuring device 110: electric wire
120: pole 121: fixed band

Claims (3)

A laser generator for irradiating a laser beam;
And a measuring device installed transversely to a straight line connecting the center of the laser generating part of the laser generating device and measuring the interval between the laser generating part and the curved drawing metal. The method according to claim 1,
The laser beam is emitted from the laser generation unit of the laser generator and the center of the laser generation unit is formed in a " b "shape in cross section, a scale is formed on the bottom surface, G1 and a center line formed at the center of the measurer are aligned in a straight line. 3. The method according to claim 1 or 2,
Wherein a center line is drawn at the center of the measuring device and the center line is formed so as to coincide with a straight line connecting the laser generating part of the laser generator and the center G1.

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