KR102219862B1 - Structure displacement measuring device using magnetic plumbing bob in facility safety test - Google Patents

Abstract

The present invention provides a displacement measuring device for a structure using a magnet plumb in facility safety diagnosis which can quickly and accurately obtain the displacement amount of a structure by measuring the protruding length of a horizontal bar through vertical fixation of a magnet plumb vertically hanging from the horizontal bar mounted on a fixed support. According to a proper embodiment of the present invention, the displacement measuring device for a structure using a magnet plumb in facility safety diagnosis comprises: a fixed support arranged on the upper surface of a deflection portion where deformation has occurred in a structure; a horizontal bar wherein one end thereof is detachably connected to the fixed support and the other end thereof is installed by protruding from a deflection portion of the structure by a prescribed distance, and which has a measuring point on the upper surface thereof to measure the displacement amount of the protruding distance; a support of which one end is movably and rotatably installed on the horizontal bar to stick to one surface of a displacement measurement portion to support horizontal installation of the horizontal bar; a verticalness plumb unit wherein one end thereof is fixed on the horizontal bar through a tension string, and a magnet plumb made of a ferromagnet to be connected to the tension string to be hung towards the ground of the structure is provided on the other end thereof; and a plumb vertical fixing plate which is arranged on the ground of the structure to be close to the magnet plumb, fixes the position of the magnet plumb by magnet force generation with the magnet plumb, vertically maintains the tension string, and is made of iron.

Description

Structure displacement measuring device using magnetic plumbing bob in facility safety test {Structure displacement measuring device using magnetic plumbing bob in facility safety test}

The present invention relates to an apparatus for measuring displacement of a structure used for safety diagnosis of facilities, and in particular, by measuring the extended length of a horizontal bar through a vertical fixation of a magnetic iron weight stretched in a vertical direction from a horizontal bar mounted on a fixed support It relates to a device for measuring displacement of a structure using a magnetic ironing weight during safety diagnosis of a facility that can be accurately obtained.

In general, displacement measurement is performed during structural safety inspection, precision safety diagnosis, and performance evaluation. For example, safety can be judged by measuring the amount of displacement of piers and retaining walls. In order to accurately measure such displacement, electrical measuring equipment is widely used. However, such electrical measuring equipment requires an electric circuit and electric drive that converts the amount of displacement into an electrical signal, and requires an expert to operate the measurement system.

As a background technology of the present invention, as Korean Patent Registration No. 10-1874757, a'structure tilt measuring device' has been proposed. The structure tilt measurement device includes a base frame disposed on the upper side of the structure, a distance measurement unit that measures the distance to the structure by irradiating a laser on the side of the structure, and the distance measurement unit disposed on the base frame in the height direction of the structure. It includes a vertical moving part that moves vertically to the structure and a calculation part that calculates the slope of the structure with respect to the ground from the change in the horizontal distance to the structure measured while moving in the height direction of the structure. By measuring the distance as a whole, it is possible to measure the inclination of the entire structure and a specific part. The background technology has a problem in that it is difficult to quickly measure because the method of use must be familiar with the electrical circuit and mechanical configuration, and the preparation for measurement is long.

Korean Patent Registration No. 10-1874757

The present invention is a structure using a magnetic iron weight during a safety diagnosis of a facility in which the amount of displacement of the structure can be quickly and accurately obtained by measuring the length of the horizontal bar through the vertical fixing of a magnetic ironing weight that hangs in a vertical direction from a horizontal bar mounted on a fixed support. An object thereof is to provide a displacement measuring device.

A device for measuring displacement of a structure using a magnetic ironing weight during a safety diagnosis of a facility according to a preferred embodiment of the present invention includes: a fixed support disposed on an upper surface of a deformed portion of the structure; A horizontal base having one end detachably connected to the fixed support, the other end protruding from the angled portion of the structure by a predetermined distance, and having a measurer on the upper surface to measure the amount of displacement of the protruding distance; A pedestal having one end connected to the horizontal stand so as to be movable and rotatable to be in close contact with one surface of the displacement measurement portion to support horizontal installation of the horizontal stand; A vertical ironing weight unit having one end fixed to the horizontal bar through a tension line and made of a ferromagnetic magnet at the other end and provided with a magnetic ironing unit which is connected to the tension line and suspended toward the ground of the structure; It characterized in that it comprises a vertical fixing plate made of iron which is disposed on the ground of the structure in close proximity to the magnetic ironing weight, and fixes the position of the magnetic ironing weight by generating a magnetic force with the magnetic ironing weight and maintains the tension line vertically.

In addition, the fixed support and the level is characterized in that the level is further installed for leveling, respectively.

In addition, the fixing support is configured in a channel shape having a U-shaped cross-section, a fixing latch groove is formed on the upper surface of the central portion thereof in the thickness direction, and opening grooves for fitting the horizontal bar are formed on both sides of the central portion; The horizontal stand is characterized in that the fixing plate is installed on the upper surface of one end to be inserted into the fixing latch groove.

In addition, a pair of long guide holes in the longitudinal direction face each other on the horizontal stand, and a position fixing bolt is inserted into the pair of guide holes to move along the guide hole; The upper end of the pedestal is hinged to the position fixing bolt, and at the same time, a fixing nut for suppressing the movement of the pedestal is fastened to the position fixing bolt.

In addition, a display guide is further installed on the upper surface of the horizontal bar so as to be movable and fixed along the lengthwise direction to indicate the distance of the horizontal bar on the scale of the measurer.

According to the apparatus for measuring displacement of a structure using a magnetic ironing weight during facility safety diagnosis of the present invention, a horizontal stand can be mounted on a fixed support to obtain a protruding length from an obtuse angle of the structure, and the protruding length is stretched vertically from the horizontal stand. By measuring through the vertical fixation of the magnetic ironing weight, the amount of displacement of the structure can be obtained quickly and accurately.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is an assembled perspective view of an apparatus for measuring displacement of a structure using a magnetic ironing weight during facility safety diagnosis according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of Figure 1;
Figure 3 is a partially enlarged view of Figure 2;
4 is a perspective view showing an operation in which the horizontal stand and the pedestal shown in FIG. 1 are mutually folded.
Figure 5a is a perspective view showing a state of use of the displacement measuring device shown in Figure 1;
Figure 5b is a side view of Figure 5a.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

The present invention provides a measuring device 10 used to measure the displacement of the structure 200. Here,'displacement' is the amount of change in slope (tilt) that occurs in various structures such as bridge piers (or shifts) or building retaining walls.

As shown in FIGS. 1 to 5, a fixing support 12 disposed on the upper surface of the displacement measurement portion of the structure 200 is provided. The fixing support 12 is composed of a channel-shaped cross section with a U-shaped cross section, and a fixing latch groove 121 penetrated in the thickness direction is formed on the upper surface of the central part, and horizontal to be coupled with the horizontal base 14 on both sides of the central part. An opening groove 122 for fitting the base is formed.

A horizontal stand 14 mounted on the fixed support 12 is provided. The horizontal stand 14 is installed with one end detachably connected to the fixed support 12 and the other end protruding from the displacement measuring portion of the structure 200 by a predetermined distance. Therefore, in the present invention, when an obtuse angle θ is generated as an example of a change in the upper part of the structure 200 as shown in FIG. 5B, the horizontal bar 14 is pushed out a certain distance from the structure 200 as shown in FIG. 5A and the extended distance L1 Can be measured quickly. The horizontal stand 14 has a measuring instrument 18 on which a measurement scale is displayed on the upper surface so as to measure the amount of displacement of the protruding distance. The horizontal base 14 is provided with a fixing plate 15 inserted into the fixing latch groove 121 on the upper surface of one end. Therefore, as shown in Figure 5a, by coupling the fixing plate 15 to the fixing latch groove 121 so that the horizontal bar 14 is mounted on the fixing support 12 and protrudes from the measurement part of the structure 200 in the form of a cantilever beam. can do.

The horizontal base 14 is formed in a pair of long guide holes 141 facing each other, and a position fixing bolt 17 is inserted into the pair of guide holes 141 to form the guide hole 141. It is installed so that it can be moved along.

It is preferable that a display guide 19 is installed on the upper surface of the horizontal stand 14 so as to be movable and fixed along the longitudinal direction to indicate the extended distance L1 of the horizontal stand 14 on the scale of the measurer 18. . The indication guide (19) is fixed to the guide bolt (21) that moves along the guide hole (143) formed on the upper surface of the horizontal bar (14), and the guide bolt (21) is screwed with the lock nut (23) to measure. It is possible to fix the position.

At this time, the fixed support 12 and the horizontal base 14 may be further provided with leveling systems 13 and 13a for leveling, respectively.

A pedestal 16 is connected to the horizontal stand 14. The pedestal 16 has one end connected to the horizontal stand 14 so as to be movable and rotatable, and is in close contact with one side of the displacement measuring part to support the horizontal installation of the horizontal stand 14. At this time, the upper end of the pedestal 16 is hinged to the position fixing bolt 17 so that the pedestal 16 can move and rotate along the horizontal stand 14, so that it can be in close contact with the measurement wall of the structure 200. . A fixing nut 17a for inhibiting movement of the pedestal 16 is fastened to the position fixing bolt 17. Therefore, it is possible to maintain the fixed posture after moving the pedestal 16 by the tightening force of the fixing nut 17a as shown in FIG. 5.

A vertical ironing weight unit 20 is installed on the horizontal base 14. The vertical ironing weight unit 20 is composed of a tension line 201 having one end connected to the horizontal stand 14 and the other end extending toward the ground, and a magnetic ironing weight 202 installed hanging from the tension line 201. The tension line 201 may be made of a steel wire or rope that does not expand and contract, and the magnetic iron weight 202 is made of a ferromagnetic.

An ironing weight vertical fixing plate 30 facing the magnetic ironing weight 202 is provided. The ironing weight vertical fixing plate 30 is made of iron and disposed on the ground of the structure 200 in close proximity to the magnetic ironing weight 202. Accordingly, the magnetic force (M) is generated between the vertical fixing plate 30 and the magnetic ironing weight 202 to generate an attractive force, so that the position of the magnetic ironing weight 202 can be easily fixed. When the magnetic ironing weight 202 is fixed in this way, the tension line 201 is vertical so that the amount of displacement of the structure 200 can be accurately and quickly measured.

As such, the measuring device 10 of the present invention is a horizontal bar on the fixed support 12 when an obtuse angle (θ) (or an acute angle) is generated at the top of the structure 200, that is, the displacement generating portion of the structure 200 as shown in FIG. After mounting (14), by moving the pedestal (16) and in close contact with the wall surface of the structure (200), the horizontal bar (14) is pushed out.

Then, the magnetic ironing weight 202 is brought close to the vertical fixing plate 30 of the ironing weight and fixed by an attraction effect by magnetic force, and the length (L1) of the horizontal bar 14 is read with the scale of the measurer 18, and the displacement is measured. This is done accurately and quickly.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

12: fixed support
14: level bar
16: pedestal
20: vertical ironing unit
201: tension cord
202: magnetic ironing weight
30: iron weight vertical fixing plate

Claims (5)

A fixed support 12 disposed on the upper surface of the deformed portion of the structure 200;
One end is detachably connected to the fixed support 12, the other end is installed to protrude from the angled portion of the structure 200 by a certain distance, and has a measuring instrument 18 on the upper surface to measure the amount of displacement of the protruding distance. A horizontal stand 14;
A pedestal 16 having one end connected to the horizontal stand 14 so as to be movable and rotatable to be in close contact with one side of the displacement measurement portion to support the horizontal installation of the horizontal stand 14;
One end is fixed to the horizontal bar 14 through a tension line 201, and the other end is made of ferromagnetic, connected to the tension line 201, and a magnetic iron weight 202 suspended toward the ground of the structure 200 is provided. The vertical ironing weight unit 20 and;
Arranged on the ground of the structure 200 in close proximity to the magnetic ironing weight 202, and fixing the position of the magnetic ironing weight 202 by generating magnetic force with the magnetic ironing weight 202 and maintaining the tension line 201 vertically. Including; ironing weight vertical fixing plate 30 made of iron,
The fixing support 12 is configured in a channel shape having a U-shaped cross section, and a fixing latch groove 121 penetrating in the thickness direction is formed on the upper surface of the central portion thereof, and opening grooves 122 for fitting horizontal bars on both sides of the central portion thereof Is formed; A device for measuring displacement of a structure using a magnetic iron weight during facility safety diagnosis, characterized in that the horizontal base 14 is provided with a fixing plate 15 inserted into the fixing latch groove 121 on the upper surface of one end. The method of claim 1,
A device for measuring displacement of a structure using a magnetic iron weight during facility safety diagnosis, characterized in that the fixed support 12 and the level 14 are further provided with level gauges 13 and 13a for leveling, respectively. delete The method of claim 1,
The horizontal base 14 is formed in a pair of long guide holes 141 facing each other, and a position fixing bolt 17 is inserted into the pair of guide holes 141 to form the guide hole 141. Installed so that it can be moved along; The upper end of the pedestal 16 is hinged to the position fixing bolt 17 and at the same time, a fixing nut 17a for inhibiting the movement of the pedestal 16 is fastened to the position fixing bolt 17. A device for measuring displacement of a structure using a magnetic ironing weight for facility safety diagnosis. The method of claim 1,
A display guide 19 is further installed on the upper surface of the horizontal stand 14 so as to be movable and fixed along the longitudinal direction to indicate the extended distance L1 of the horizontal stand 14 on the scale of the measurer 18. A device for measuring displacement of a structure using a magnetic ironing weight during facility safety diagnosis, characterized in that there is.

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