KR102419097B1 - Marking equipment for meauring slop and deformation of steel pipe towers - Google Patents

Abstract

A marking assist device for measuring the displacement and inclination of a steel pipe tower according to the present invention comprises: a main body having a first attachment means attachable to the outer surface of the steel pipe tower and having a through hole formed in a central region; a sub-body rotatably coupled to an end of the main body, adhered to the outer surface of the steel pipe tower, and provided with a second attachment means attachable to the outer surface of the steel pipe tower; a center recognition means including a first center recognition means and a second center recognition means respectively provided on one side of the main body and the sub body to find the position of the center of the steel pipe tower; and a center punch inserted into the through hole to mark a reference point for measurement. An installation method of the marking assist device is simplified, such that even unskilled users can use the device easily. Therefore, uniform quality can be secured by reducing the occurrence of errors according to an operator, and there is an effect that a working time can be shortened.

Description

MARKING EQUIPMENT FOR MEAURING SLOP AND DEFORMATION OF STEEL PIPE TOWERS

The present invention relates to a marking auxiliary device for measuring the displacement and slope of a steel pipe tower, and more particularly, a marking auxiliary device for measuring the displacement and slope of a steel pipe tower that can be easily and safely attached to the steel pipe tower when marking for displacement diagnosis on the steel pipe tower is about

In general, a pylon for transmission uses a square pylon that is a frame structure supported by four foundations, and the foundation of the pylon is constructed as an independent foundation. Changes such as ground subsidence, erosion of soil, and collapse of slopes around the pylon may affect the foundation.

Due to this phenomenon, the displacement of one or more of the four angles of the pylon relative to the other angles is called floating displacement. are doing

As a conventional technique for checking whether such floating displacement occurs, "Pylon base material angle measurement device (application number: 10-2010-0069830)" has been applied, but the prior art "Pylon base made of L-shaped steel" has been applied. There is a problem in that a configuration such as "magnet block configured so that the upper part of the plinth can be easily measured with a measuring instrument" cannot be used for steel pipe pylons.

And, as another prior art, "a target device for measuring the displacement of a steel pipe tower and its installation method (application number: 10-2016-0152807)" has been applied, but the applied prior art is "Location of the drain plate hole "A method of fixing the target device using There is a problem that a measurement target is required, and there is a problem that it is difficult to observe a trend due to a measurement point error due to the reinstallation of the target device during subsequent inspection.

Therefore, in order to apply the displacement diagnosis technology to the recently constructed power transmission steel pylon, a new target means is needed to replace the target device (magnet block) applied to the conventional angular steel pylon.

The present invention has been devised to solve the above problems, and by simplifying the installation method of the marking auxiliary device, it can be designed so that even unskilled people can use it easily, and it is possible to secure uniform quality by reducing the occurrence of errors according to the operator. There is, an object of the present invention is to provide a marking auxiliary device for measuring the displacement and inclination of the steel pipe tower that can reduce the working time.

The problem to be solved in the embodiment is not limited thereto, and it will be said that the purpose or effect that can be grasped from the method of solving the problem described below or the embodiment is also included.

In order to achieve the object of the present invention as described above, the marking auxiliary device for measuring the displacement and inclination of the steel pipe and pylon includes a main body provided with a first attachment means attachable to the outer surface of the steel tubular tower, the main body having a through hole in the central region; a sub-body rotatably coupled to an end of the main body to be in close contact with the outer surface of the steel tube and steel tower, and provided with a second attachment means attachable to the outer surface of the steel tube; center recognition means including first center recognition means and second center recognition means respectively provided on one side of the main body and the sub-body so as to find a position in the center direction of the steel pipe tower; and a center punch inserted into the through hole to mark a measurement reference point.

Here, the first center recognizing means is composed of a bubble level system and installed parallel to the longitudinal direction of the main body, and the second center recognizing means is composed of a horizontal center line recessed in the center of the end edge of the sub-body. have.

In addition, the first attachment means and the second attachment means may be composed of a plurality of neodymium magnets arranged in parallel with the width direction of the main body and the sub-body.

In addition, hinge coupling parts are formed to protrude in the central region of both ends of the main body, and hinge grooves into which the hinge coupling parts are inserted are recessed in the central region of both ends of the sub-body, and the hinge coupling parts and the hinge grooves are inserted into each other. In this state, the fastening pins are inserted so that the sub-body can be hinge-coupled to both ends of the main body.

In addition, rolling bearings capable of rolling motion in close contact with the surface of the steel tube and steel tower when the main body and the sub-body are attached to the steel tower may be installed at both ends of the fastening pin.

In addition, the main body may be provided with an auxiliary leveling system that is disposed so as to cover the upper surface of the main body along the direction of gravity, and includes a wire having a predetermined length and weights provided at both ends of the wire.

As described above, the marking auxiliary apparatus for measuring the displacement and inclination of the steel pipe tower according to the present invention has the effect of simplifying the installation method of the marking auxiliary apparatus and designing it so that even non-skilled persons can use it conveniently.

In addition, it is possible to ensure uniform quality by reducing the occurrence of errors according to the operator, and by making the measurement reference point permanently marked using a center punch, it is not necessary to mark the measurement reference point anew when re-measurement, so that the working time can be shortened. can have an effect.

In addition, it is possible to measure four displacements, such as height difference, face distance, diagonal distance, and inclination, with one device, and the sub-body is hinged on both sides of the main body to rotate, so it has various diameters. It has the effect of making it possible to use it for general purpose by making it possible to attach it to a steel pipe tower.

1 is a perspective view showing the structure of a marking auxiliary device for measuring the displacement and inclination of a steel pipe and pylon according to an embodiment of the present invention as viewed from the front;
2 is a perspective view showing the structure of the marking auxiliary device for measuring the displacement and inclination of the steel pipe pylon according to an embodiment of the present invention as viewed from the rear;
3 is a plan view showing the structure of the front of the marking auxiliary device for measuring the displacement and inclination of the steel pipe tower according to an embodiment of the present invention;
4 is a plan view showing the structure of the rear surface of the marking auxiliary device for measuring the displacement and inclination of the steel pipe and pylon according to an embodiment of the present invention;
5 is a state diagram showing a structure in which a marking auxiliary device for measuring the displacement and inclination of a steel pipe tower according to an embodiment of the present invention is installed in a steel pipe tower;
6 is a flowchart sequentially illustrating a process of installing the marking auxiliary device for measuring the displacement and inclination of the steel tube tower according to an embodiment of the present invention.

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

However, the technical idea of the present invention is not limited to some embodiments described, but may be implemented in various different forms, and within the scope of the technical idea of the present invention, one or more of the components between the embodiments may be selected It can be used by combining or substituted with .

In addition, terms (including technical and scientific terms) used in the embodiments of the present invention may be generally understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined and described explicitly. It may be interpreted as a meaning, and generally used terms such as terms defined in advance may be interpreted in consideration of the contextual meaning of the related art.

In addition, the terms used in the embodiments of the present invention are for describing the embodiments and are not intended to limit the present invention.

In the present specification, the singular form may also include the plural form unless otherwise specified in the phrase, and when it is described as "at least one (or more than one) of A and (and) B, C", it is combined as A, B, C It may include one or more of all possible combinations.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used.

These terms are only for distinguishing the elements from other elements, and are not limited to the essence, order, or order of the elements by the terms.

And, when it is described that a component is 'connected', 'coupled' or 'connected' to another component, the component is not only directly connected, coupled or connected to the other component, but also with the component It may also include a case of 'connected', 'coupled' or 'connected' due to another element between the other elements.

In addition, when it is described as being formed or disposed on "above (above) or under (below)" of each component, top (above) or under (below) is one as well as when two components are in direct contact with each other. Also includes a case in which the above another component is formed or disposed between two components. In addition, when expressed as "upper (upper) or lower (lower)", the meaning of not only an upper direction but also a lower direction based on one component may be included.

1 is a perspective view showing a structure as viewed from the front of a marking auxiliary device for measuring displacement and inclination of a steel pipe tower according to an embodiment of the present invention, and FIG. 2 is a steel pipe tower displacement and slope measurement according to an embodiment of the present invention It is a perspective view showing the structure of the marking auxiliary device as viewed from the rear side, Figure 3 is a plan view showing the structure of the front of the marking auxiliary device for measuring the displacement and inclination of the steel pipe tower according to an embodiment of the present invention, Figure 4 is the present invention It is a plan view showing the structure of the rear surface of the marking auxiliary device for measuring the displacement and inclination of the steel pipe tower according to an embodiment of the It is a use state diagram showing the structure installed in the pylon, and FIG. 6 is a flowchart sequentially illustrating the process of installing the marking auxiliary device for measuring the displacement and inclination of the steel tube tower according to an embodiment of the present invention.

As shown in these figures, in the marking auxiliary device for measuring the displacement and inclination of the steel pipe tower according to the present invention, the first attachment means 110 that can be attached to the outer surface of the steel pipe tower 1 is installed and penetrates through the central area. a main body 100 in which the ball 120 is formed; It is hinged on both sides of the main body 100 and rotates about an axis parallel to the width direction of the main body 100 to adhere to the outer surface of the steel pipe tower 1, and to attach to the outer surface of the steel pipe tower 1 A pair of sub-bodies 200 with a second attachment means 210 that can be installed; A first center recognizing means 310 and a second center recognizing means 320 respectively provided on one side of the main body 100 and the sub-body 200 so as to find the position in the center direction of the steel pipe tower (1). ) of the center recognition means 300 and; a center punch 400 inserted into the through hole 120 formed in the central region of the main body 100 to mark a measurement reference point; consists of including.

The main body 100 is provided with a first attachment means 110 that can be attached to the outer surface of the steel pipe tower 1, the first attachment means 110 so that one side is exposed to the outside of the main body 100 It is preferable to be installed in a state embedded in the interior of the main body (100).

And, the height of one side of the first attachment means 110 exposed to the outside of the main body 100 may be installed so as not to protrude with respect to the plate surface of the main body 100 and parallel to the first attachment means 110 . is installed on the main body 100 by being screwed by a separate cross screw.

This first attachment means 110 is composed of a plurality of neodymium magnets arranged in parallel with the width direction of the main body 100 so that the main body 100 is attached to the steel pipe tower 1 by magnetism. .

In the central region of the main body 100, a through hole 120 is installed to penetrate the plate surface of the main body 100, and the through hole 120 is formed in a wedge shape and is exposed to the front of the main body 100. The diameter of the ball 120 is formed large and the diameter of the through hole 120 exposed to the rear surface of the main body 100 is formed small, so it is effective to make the marking using the center punch 400 easy and accurate. .

And, the hinge coupling part 130 is formed to protrude in the central region of both ends of the main body 100, so that the hinge coupling part 130 is inserted into the hinge groove part 220 formed in the central region of both ends of the sub-body 200 to be described later. Thus, the hinge coupling of the main body 100 and the sub-body 200 is made.

It is effective that the main body 100 is formed so that both sides of the main body 100 are bent at a certain angle so that they can be attached in close contact along the curved outer surface of the steel pipe tower 1 .

The sub-body 200 is a member attached in a state of being in close contact with the outer surface of the steel pipe tower 1 having a cylindrical outer surface by being hinged to the hinge coupling portions 130 formed at both ends of the main body 100 and rotating.

The sub-body 200 is hinge-coupled to the main body 100 and rotated to enable it to be attached closely to the steel pipe tower 1 having various diameters by the structure attached to the outer surface of the steel pipe tower 1, thereby displacing the steel pipe tower. And a marking aid for measuring the slope may be made available for general use.

To this end, in the central region of both ends of the sub-body 200, the hinge groove part 220 into which the hinge coupling part 130 is inserted is recessed. The fastening pins 230 are inserted so that the sub-body 200 can be hinge-coupled to both ends of the main body 100 .

And, in order to attach the sub-body 200 to the outer surface of the steel pipe tower 1, a second attachment means 210 is installed on the sub-body 200, and the second attachment means 210 has one side of the sub-body ( It is preferable to be installed in a state embedded in the inside of the sub-body 200 so as to be exposed to the outside of the 200).

In addition, at both ends of the fastening pin 230, when the main body 100 and the sub-body 200 are attached to the steel pipe tower 1, a rolling bearing capable of rolling motion in close contact with the surface of the steel pipe tower 1 ( 240) is installed.

The rolling bearing 240 is installed at both ends of the fastening pin 230 so that the rolling bearing 240 is attached to the outer surface of the steel pipe tower 1 by the first attachment means 110. Fine adjustments can be made easily through exercise.

The height of one side of the second attachment means 210 exposed to the outside of the sub-body 200 may be installed in parallel without protruding from the plate surface of the sub-body 200, and the second attachment means 210 is separate. It is installed in the sub-body 200 by being screwed by a cross screw of.

This second attachment means 210 is composed of a plurality of neodymium magnets arranged in parallel with the width direction of the sub-body 200 so that the sub-body 200 is attached to the steel pipe tower 1 by magnetism. .

The center recognition means 300 serves to find a position in the center direction of the steel pipe tower 1, and the first center recognition means 310 provided on one side of the main body 100 and the sub-body 200, respectively. ) and the second center recognition means 320 .

The first center recognition means 310 is composed of a bubble level and installed side by side in the longitudinal direction of the main body 100, so that the main body 100 is horizontally attached to the steel pipe tower 1 using the bubble level. and arranged in pairs on the upper and lower portions of the main body 100, respectively.

And, the second center recognition means 320 is composed of a horizontal center line recessed in the center of the end edge of the sub-body 200, so that the horizontal center line is the boundary position of the connection part between the plinth and the main material of the steel pipe tower 1 and make it fit

The center punch 400 is inserted into the through hole 120 formed in the central region of the main body 100 and serves to mark the measurement reference point, and for this, the end of the center punch 400 is sharply formed through the through hole 120 . It is preferable to be formed in a wedge shape corresponding to the shape of

The main body 100 is disposed so as to cover the upper surface of the main body 100 along the direction of gravity, and a wire 510 having a predetermined length and weights 520 provided at both ends of the wire 510 are provided. An auxiliary leveling system 500 including the may be further provided.

This auxiliary leveling system 500 is to be able to check whether the main body 100 is correctly arranged horizontally when the main body 100 is horizontally arranged by the first center recognition means 310 made of a bubble level system. In addition, the wires 510 arranged in the vertical direction by the weight 520 and the vertically arranged edges of the main body 100 are arranged side by side so that the main body 100 can be accurately arranged horizontally. This serves to increase the accuracy.

The process of installing the marking auxiliary device for measuring the displacement and inclination of the steel pipe and pylon according to the present invention having the configuration as described above will be described with reference to FIG. 6 with reference to FIG. 6 .

First, as shown in Fig. 6 (a), the main body 100 is attached to the outer surface of the steel pipe tower 1 using the first attachment means 110 installed on the main body 100.

And, by adjusting the inclination of the main body 100 so that the bubbles are located in the center using a pair of bubble levelers, which are first center recognition means 310 respectively disposed on the upper and lower parts of the main body 100, the main body (100) to be placed horizontally.

At this time, by using the auxiliary leveling system 500 consisting of the wire 510 and the weight 520, whether the main body 100 is horizontally disposed or not is more accurately adjusted to increase the accuracy.

When the main body 100 is attached to the outer surface of the steel pipe tower 1 and horizontally arranged, as shown in FIG. 6 (b), a sub-body hinged rotatably on both sides of the main body 100 Rotate 200 so that the sub-body 200 is attached to the outer surface of the steel pipe tower 1 using the second attachment means 210 .

Then, using the horizontal center line, which is the second center recognition means 320 formed in the sub-body 200, the position of the boundary between the plinth and the main material connection of the steel pipe tower 1 is matched.

Then, as shown in (c) of Figure 6, by inserting the center punch 400 into the through hole 120 of the main body 100 to mark the measurement reference point, a marking auxiliary device for measuring the displacement and inclination of the steel pipe tower The marking operation using is completed.

Since the measurement reference point is permanently marked using the center punch 400, there is no need to mark the measurement reference point anew during re-measurement, thereby reducing the working time.

The marking auxiliary device for measuring the displacement and inclination of the steel pipe tower according to an embodiment of the present invention having such a configuration can measure four displacements such as height difference, face distance, diagonal distance, and inclination using one device, By simplifying the installation method of the marking aid, it can be designed so that even unskilled people can use it easily, and it is possible to secure uniform quality by reducing the occurrence of errors according to the operator, and to shorten the working time.

Since the above has only been described with respect to a part of a preferred embodiment that can be implemented by the present invention, the scope of the present invention as well known should not be construed as being limited to the above one embodiment, and the It will be said that the technical idea of the invention and the technical idea with the root are all included in the scope of the present invention.

1: Steel pipe tower 100: Main body
110: first attachment means 120: through hole
130: hinge coupling part 200: sub-body
210: second attachment means 220: hinge groove portion
230: fastening pin 240: rolling bearing
300: center recognition means 310: first center recognition means
320: second center recognition means 400: center punch
500: auxiliary level 510: wire
520: weight

Claims (6)

a main body provided with a first attachment means capable of being attached to the outer surface of the steel pipe tower and having a through hole formed in the central region;
a sub-body that is rotatably coupled to an end of the main body and is in close contact with the outer surface of the steel pipe and pylon, and is provided with a second attachment means attachable to the outer surface of the steel tubular and pylon;
center recognition means including first center recognition means and second center recognition means respectively provided on one side of the main body and the sub-body so as to find a position in the center direction of the steel pipe tower; and
a center punch inserted into the through hole to mark a measurement reference point;
including,
A hinge coupling part is formed to protrude in the main body, and a hinge groove part into which the hinge coupling part is inserted is recessed in the sub-body,
In a state in which the hinge coupling part and the hinge groove part are inserted into each other, a fastening pin is inserted so that the sub-body is hinge-coupled to both ends of the main body,
Marking auxiliary device for measuring the displacement and inclination of steel pipe and pylon, characterized in that the fastening pin is provided with a rolling bearing capable of rolling motion in close contact with the surface of the pylon when the main body and the sub-body are attached to the pylon. .
The method of claim 1,
The first center recognition means includes a bubble leveler provided in parallel with the longitudinal direction of the main body,
The second center recognition means is a marking auxiliary device for measuring the displacement and inclination of the steel pipe tower, characterized in that it comprises a horizontal center line recessed in the center of the end edge of the sub-body.
The method of claim 1,
The first attachment means and the second attachment means include a plurality of neodymium magnets arranged in parallel with the width direction of the main body and the sub-body.
delete delete a main body provided with a first attachment means capable of being attached to the outer surface of the steel pipe tower and having a through hole formed in the central region;
a sub-body that is rotatably coupled to an end of the main body and is in close contact with the outer surface of the steel pipe and pylon, and is provided with a second attachment means attachable to the outer surface of the steel tubular and pylon;
center recognition means including first center recognition means and second center recognition means respectively provided on one side of the main body and the sub-body so as to find a position in the center direction of the steel pipe tower; and
Including; a center punch inserted into the through hole to mark the measurement reference point;
Including an auxiliary level provided on the main body,
The auxiliary level is
a wire disposed so as to cover the upper surface of the main body along the direction of gravity; and
weights provided at both ends of the wire;
A marking auxiliary device for measuring the displacement and inclination of the steel pipe tower, characterized in that it comprises a.

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