KR102652606B1 - Vertical and horizontal displacement measuring devices available for safety inspection and diagnosis of bridge support - Google Patents

Abstract

The present invention relates to a device for measuring the vertical and horizontal displacement of a bridge bearing that can be used during safety inspection and precise safety diagnosis. The vertical displacement of the bridge bearing installed between the lower structure and the upper structure of the bridge to support the upper structure, the bridge bearing and the slab are measured The purpose is to measure and check the horizontal displacement of.
The device for measuring vertical and horizontal displacement of a bridge support that can be used during safety inspection and precision safety diagnosis according to the present invention includes a base (10) placed on the upper surface of the coping part of the bridge; A post (20) erected on the base; It includes a measuring rod 30 connected to one side of the post in a cantilever shape, wherein the measuring rod includes a connecting portion 31 rotatably connected to the post, and first rods extending parallel to each other on both sides of the connecting portion in the width direction. , Rotating through the connection part, including the second measuring part, the first and second measuring parts are arranged vertically in the vertical direction to measure the vertical displacement of the upper and lower plates of the bridge support, while the first and second measuring parts are arranged in the horizontal direction. While arranging, the distance to the upper plate of the bridge support is measured, and the first and second measuring parts are connected to the connection part, the first and second measuring cases (32, 33), the measurement scale is displayed, and the first and second measuring parts are connected to the connection part. Includes first and second measuring elements (34,35) that overlap and are connected to the case so that they can appear and appear, and first and second horizontal displacement measuring elements (36,37) that are rotatably connected to the first and second measuring elements in the vertical direction. do.

Description

Vertical and horizontal displacement measuring devices available for safety inspection and diagnosis of bridge support}

The present invention relates to a displacement measuring device for safety diagnosis of a bridge support, and more specifically, to a safety inspection that measures and checks the vertical and horizontal displacements of the support device installed between the lower and upper structures of a bridge and supporting the upper structure. and a device for measuring vertical and horizontal displacement of bridge supports that can be used for precise safety diagnosis.

This part only provides background information related to the content of this application and does not necessarily constitute prior art.

In general, a bridge has a superstructure (slab, girder) on which vehicles directly drive, a substructure (abutment, pier) installed to support the superstructure, and between the superstructure and the substructure, the load of the superstructure is transferred to the substructure. and includes a support device (e.g., elastic support (shoe)) installed to absorb expansion and contraction of the superstructure due to temperature or load.

Because the superstructure expands and moves due to external temperature changes, drying, and shrinkage, deformation of the support device inevitably occurs.

If this support device is deformed beyond its elastic limit, the support device loses its restoring force and cannot properly support the superstructure, which may result in structural problems in the bridge.

Therefore, the amount of deformation of the bridge bearing must be measured periodically, and the displacement includes the distance where the upper plate of the bridge bearing is deformed, the distance difference between the upper plate and the lower plate, and the height between the upper plate and the lower plate. In addition, horizontal displacement of the slab, which is a superstructure, occurs left and right, so measurement of the horizontal displacement is necessary to check the safety of the structure.

Registered Patent No. 10-2354658 is a pedestal placed on a bridge substructure; A slide part that slides on the pedestal; A sensor unit mounted to protrude from the slide unit between the bridge substructure and the bridge superstructure and including a sensor that measures the distance from the lower surface of the bridge superstructure to the upper surface of the bridge substructure; The sensor unit includes a transverse bar mounted on the slide part to protrude between the bridge lower structure and the bridge superstructure and whose length is adjusted, a vertical bar mounted at a right angle on the transverse bar and whose length is adjusted, and an upper end of the vertical bar. A first sensor configured to measure the upward distance, a second sensor configured below the first sensor to measure the lateral distance, and a third sensor configured at the bottom of the vertical bar to measure the downward distance; It is a bridge support deformation amount and bridge support displacement measurement device including a fourth sensor configured on top of the third sensor to measure the lateral distance.

Registered Patent No. 10-2354658

According to the prior art, the displacement measuring device has limitations in measuring various types of displacement, so there is a disadvantage in handling multiple devices. In the above patent document, vertical displacement can be measured using multiple sensors, but the horizontal bar is Since it only moves in one direction, it cannot measure horizontal displacement.

The present invention is intended to solve the problems described above, and is a safety inspection that measures and checks the vertical and horizontal displacements of the bridge supports (including slabs) installed between the lower structure and the upper structure of the bridge and supporting the upper structure. The purpose is to provide a bridge bearing vertical and horizontal displacement measurement device that can be used for precise safety diagnosis.

The bridge support vertical and horizontal displacement measurement device that can be used during safety inspection and precision safety diagnosis according to the present invention has first and second measuring parts placed on the bridge coping and arranged parallel to each other in the upper and lower longitudinal directions, so that the upper part of the bridge support is The displacement between the plate and the lower plate (displacement of the upper structure relative to the lower structure of the bridge) is measured, while the horizontal displacement (tilt) of the upper plate is measured through the first and second horizontal displacement measuring devices connected to the first and second measuring units. It is characterized by measuring.

According to the bridge support vertical and horizontal displacement measurement device that can be used during safety inspection and precision safety diagnosis according to the present invention, the first and second measuring parts of the measuring rod are measured in the vertical and vertical directions, and the displacement of the upper and lower plates of the bridge support is measured. Horizontal displacement can be measured by rotating the first and second measuring parts in the horizontal direction to measure the distance between both points of the upper plate, so it handles two types of measuring devices to measure vertical displacement and horizontal displacement (bridge support, slab). There is no inconvenience, that is, since vertical and horizontal displacements are measured using a single device without the unnecessary work of replacing it with another device, safety inspection and diagnostic work are very easy, and safety inspection and diagnostic work time is shortened. As a result, it is effective in ensuring the safety of workers.

Figure 1 is a perspective view of a bridge support vertical and horizontal displacement measuring device that can be used during safety inspection and precise safety diagnosis according to the present invention.
Figure 2 is a front view of a bridge support vertical and horizontal displacement measuring device that can be used during safety inspection and precise safety diagnosis according to the present invention, with the measuring rod in a state for measuring vertical displacement.
Figure 3 is a front view of the vertical displacement measurement using a bridge support vertical and horizontal displacement measuring device that can be used during safety inspection and precise safety diagnosis according to the present invention.
Figures 4 and 5 are front and side views, respectively, of horizontal displacement measurement using a bridge support vertical and horizontal displacement measurement device that can be used during safety inspection and precise safety diagnosis according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification.

As shown in Figures 1 and 2, the bridge support vertical and horizontal displacement measuring device 100 that can be used during safety inspection and precise safety diagnosis according to the present invention includes a base 10 and a post ( 20), and includes a measuring rod 30 rotatably connected to the post 20 in a cantilever shape.

The base 10 preferably has a plate or box shape, and a plurality of leveling bolts 11 are fastened to the bottom to enable stable installation even if the surface of the bridge coping 1 (shown in FIG. 3) is uneven.

And, in order to check the level of the base 10, a level 12 is installed on the upper surface of the base 10.

The post 20 is a pillar erected on the upper part of the base 10 and supports the measuring rod 30, and includes a height adjustment rod 21 screwed to the base 10 to adjust the height of the measuring rod 30, and It is connected to the height adjustment rod 21 and includes a lifting block 22 to which the measuring rod 30 is connected. That is, when the height adjustment rod 21 is rotated in both directions while the base 10 is fixed, the height adjustment rod 22 is connected to the height adjustment rod 21. (21) is inserted or protruded into the base 10 to adjust the height of the lifting block 22. The height of the lifting block 22 is adjusted by being connected to a bearing, etc. so that it can idle without rotating when the height adjustment rod 21 rotates.

The measuring rod 30 is connected to the post 20 in a cantilever shape, and its structure consists of a connecting portion 31 rotatably connected to the lifting rod 22 of the post 20 through an axis pin 23, and a connecting portion 31. ), which are formed to extend parallel to each other on both sides of the width direction, and are removably connected to the first and second measurement cases (32, 33) and the first and second measurement cases (32, 33) It includes first and second measuring elements (34,35) and first and second horizontal displacement measuring elements (36,37) formed to measure horizontal displacement in the first and second measuring elements (34,35).

The center of the connecting portion 31 is rotatably connected to the post 20 through the shaft pin 23.

The first and second measuring cases (32, 33) are formed (integrated or assembled) extending parallel to each other (side by side) on both sides of the width direction of the connecting portion (31), and the first and second measuring cases (34, 35) can appear. For configuration, it is formed, for example, in a box shape, that is, the first and second measuring elements 34 and 35 are inserted into the inside so that they can appear.

The connection portion 31 and the first and second measurement cases 32 and 33 are an integrated box-shaped body in a “U” shape, and each end of the first and second measurement cases 32 and 33 is open so that the inside communicates with the outside. This structure is equipped with a level gauge (38) to reduce errors in measurement values by the first and second measurers (34, 35) and the first and second horizontal displacement measurers (36, 37).

The measurement scale can be marked from the end of the connection part 31 to the end of the first and second measurement cases 32 and 33, and in this way, from the end of the first and second horizontal displacement measurers 36 and 37 to the end of the connection part 31. You can check the distance.

The first and second measuring elements 34 and 35 are in the form of a rectangular plate or hexahedron with a measurement scale for vertical displacement measurement marked on the surface, and the measurement scale is used for both vertical and horizontal displacement measurement and can be quickly checked by the operator. It is preferably formed on at least two of the four sides, and is inserted into the first and second measurement cases 32 and 33, respectively, so as to protrude outward.

The first and second measurers (34, 35) are configured to be able to appear in the first and second measure cases (32, 33) due to the working environment such as the structure of the coping part (1), the base (10) and the bridge support (2). This takes into account that the location (shown in Figure 3) changes.

Elastic members (coil springs) may be inserted into the first and second measurement cases (32, 33), and at this time, the first and second measurement elements (34, 35) are supported by the coil springs, and thus , Vertical displacement measurement can be facilitated while reducing the work of the operator to extract and insert the first and second measuring elements 34 and 35.

Unlike the first and second measurers 34 and 35, which are used only when measuring vertical displacement, the first and second horizontal displacement measurers 36 and 37 are used for both vertical and horizontal displacement. The rotating portion (36-1) is rotatably connected to the ends of (34, 35) in a vertical direction and is configured to allow length adjustment. For example, the rotating portion (36-1) is hingedly connected to the first and second measuring elements (34, 35). , 37-1) and elastic parts (36-2, 37-2) that are elastically connected to the rotating parts (36-1, 37-1), and the rotating parts (36-1, 37-1) Continuous measurement scales are marked on the surfaces of both elastic parts (36-2, 37-2).

It is preferable that the graduations of the elastic portions 36-2 and 37-2 increase from the ends toward the elastic portions 36-2 and 37-2.

The elastic connection structure of the rotating parts (36-1, 37-1) and the elastic parts (36-2, 37-2) is, for example, the rotating parts (36-1, 37-1) are pipe-shaped, and the elastic parts (36-2, 37-2) are -2, 37-2) are connected to the inside of the rotating parts (36-1, 37-1) so that they can emerge outward, and at this time, they rotate for natural protrusion of the expansion and contraction parts (36-2, 37-2). Elastic members (coil springs) may be applied to the interior of the eastern portions (36-1, 37-1) to elastically support the elastic portions (36-2, 37-2) in the protruding direction.

Safety inspection and diagnosis work using vertical and horizontal displacement measuring devices that can be used during safety inspection and diagnosis is explained. As shown in Figures 3 and 4, the bridge support (2) supporting the slab of the bridge is used as an example. The bridge support (2) includes a block-shaped body (2a), an upper plate (2b) and a lower plate (2c) formed on the upper and lower parts of the body (2a), and the vertical displacement is caused by the upper plate (2b) and the lower plate (2c). (2c) is the relative displacement, and the horizontal displacement is the displacement (tilt) of the top plate (2b) (slab).

1. Check vertical displacement (see Figure 3).

The base 10 of the measuring device 100 is mounted on the upper surface of the coping part 1, and the first and second measuring elements 34 and 35 of the measuring rod 30 are connected to the upper plate 2b and the lower plate 2c. Make sure they are aligned vertically and vertically. That is, when the first and second measuring elements 34 and 35 are horizontally positioned forward and backward, the measuring rod 30 is rotated so that the first and second measuring elements 34 and 35 are arranged vertically and vertically.

Since this is a vertical displacement inspection, the first and second horizontal displacement measurers 36 and 37 are arranged to extend in the same direction as the first and second measurers 34 and 35 for this purpose.

The first and second measuring elements (34,35) are pulled out from the first and second measuring cases (32,33), or the expansion and contraction parts (36-2,37-2) of the first and second horizontal displacement measuring elements (36,37) is pulled out so that the ends of the elastic parts (36-2, 37-2) touch the edges of the upper plate (2b) and the lower plate (2c).

At this time, if the upper plate (2b) and the lower plate (2c) are in the same position, the measurement scales of the first and second measuring elements (34, 35) and the measuring scales of the first and second horizontal displacement measuring elements (36, 37) are the same. Once confirmed, the upper plate (2b) and the lower plate (2c) are deformed and are in different positions, the measurement scales of the first and second measuring elements (34,35) and the first and second horizontal displacement measuring elements (36,37) are The measurement scales are different from each other, and the displacement of the upper plate (2b) and the lower plate (2c) is determined based on the difference in the measurement scales.

2. Check horizontal displacement (see Figures 4 and 5).

When measuring the displacement of the top plate 2b (including measuring the horizontal displacement of the slab), turn the measuring unit 30 in the state of FIG. 3 to measure the first and second measurement elements 34 and 35 and the first and second horizontal displacement. Ensure that the measuring elements 36 and 37 are arranged along the transverse direction.

Next, the first and second horizontal displacement measurers 36 and 37 are rotated toward the upper plate 2b, and then the elastic portions 36-2 and 37-2 are brought into contact with the bottom surface of the upper plate 2b.

At this time, as shown in FIG. 5, when the bottom of the upper plate 2b has a displacement that slopes downward from left to right, the second horizontal displacement measurer 36 is more horizontal than the expansion and contraction portion 36-2. It can be seen that the length of the elastic portion 37-2 of the displacement measurer 37 is relatively short.

Based on this difference, determine and check the horizontal displacement of the top plate (2b) (slab).

1: Coping part,
10: Base, 11: Leveling bolt
12: Level,
20: Post, 21: Height adjustment rod
22: lifting rod, 23: shaft pin
30: measuring rod, 31: connection part
32,33: 1st and 2nd measurement case, 34,35: 1st and 2nd measurement person
36,37: 1st and 2nd horizontal displacement measurer,
36-1,37-1: Rotating part, 36-2,37-2: Expanding part,

Claims (4)

A base placed on the upper surface of the bridge coping;
a post erected on the base;
It includes a measuring rod connected in a cantilever shape to one side of the post,
The measuring rod includes a connection part rotatably connected to the post, and first and second measuring parts extending parallel to each other on both sides in the width direction of the connecting part. The measuring rod rotates through the connecting part and moves the first and second measuring parts in an up and down longitudinal direction. The vertical displacement of the upper and lower plates of the bridge support is measured by arranging them, while the first and second measuring parts are arranged in the horizontal direction and the horizontal displacement is measured by comparing the distance with the upper plate of the bridge support,
The first and second measurement units include first and second measurement cases connected to the connection unit, first and second measurement elements on which a measurement scale is displayed and connected to the first and second measurement cases so as to appear and overlap, respectively, and the first, Includes first and second horizontal displacement measurers rotatably connected to the second measurer in the vertical direction,
The first and second horizontal displacement measurers are used for safety inspection and precise safety diagnosis, characterized in that they include a rotating part rotatably connected to the first and second measurers and an elastic part connected to the rotating part in a length-adjustable manner. Possible bridge support vertical and horizontal displacement measurement device. delete delete The device for measuring vertical and horizontal displacement of a bridge support usable in safety inspection and precision safety diagnosis according to claim 1, wherein the post is connected to the base in a height-adjustable manner.

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