KR102608430B1 - Device for measuring displacement of bridge shoe - Google Patents

Abstract

The present invention relates to a displacement measuring device for safety diagnosis of bridge elastic bearings. It measures the displacement of the upper and lower plates of the elastic bearings through a simple structure that uses the connection relationship between two members, making work easier and reducing malfunctions, and measuring the displacement of the upper and lower plates of the elastic bearings. The purpose is to check the position of the elastic support without additional work when measuring the displacement of the plate.
Displacement measuring device for safety diagnosis of bridge elastic bearing according to the present invention, comprising: a vertical alignment bar (10) supported on the lower plate (1a) and upper plate (1b) formed in the elastic bearing (1) of the bridge; a reference bar (20) whose one end is rotatably connected to the lower part of the vertical alignment table; One end is rotatably connected to the upper part of the vertical alignment bar, while the other end intersects the standard bar and is spaced inward from the other end, and can be rotated to the standard bar through a guide means at the part where it intersects the standard bar. A measuring rod (30) connected to each other; It includes a displacement measurement scale 40 formed on the measuring rod, and the guide means is formed on a guide rail 31 formed long along the longitudinal direction of the measuring rod and the reference rod and moves along the guide rail. It includes a scale indicating protrusion 50 indicating the displacement measurement scale, and the displacement measurement scale is formed along the longitudinal direction of the guide rail and is formed along the left and right sides with respect to the center, and the reference bar is formed on the elastic support. While the measuring rod is supported on the lower plate and supported on the upper plate of the elastic bearing, the displacement of the elastic bearing is measured through movement of the displacement measurement scale according to the inclination of the measuring rod.

Description

Displacement measuring device for safety diagnosis of bridge elastic support {Device for measuring displacement of bridge shoe}

The present invention relates to a displacement measuring device for safety diagnosis of bridge elastic bearings, and more specifically, to a displacement measuring device for safety diagnosis of bridge elastic bearings that measures the displacement of elastic bearings installed on the lower structure of a bridge and supporting the upper structure. will be.

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. It includes an elastic support (shoe) installed to absorb expansion and contraction of the superstructure due to temperature or load.

Since the superstructure expands and contracts due to external temperature changes, drying, and shrinkage, deformation of the elastic bearing inevitably occurs.

When these elastic bearings are deformed beyond their elastic limit, the elastic bearings lose their restoring force, and in severe cases, the elastic bearings are torn and cannot properly support the superstructure, resulting in structural problems in the bridge. You can.

Therefore, the amount of deformation of elastic bearings for bridges must be measured periodically, and if the elastic bearings are measured to be close to the elastic limit, the elastic bearings must be replaced or repair work should be performed. At this time, accurate measurements must be made to measure the elastic limit of the elastic bearings. The displacement that must be made includes the distance where the top of the elastic support is deformed and the inclination of the elastic support.

Registered Patent No. 10-1086868 is a device for measuring the amount of deformation of an elastic bearing installed on a bridge and deformed according to expansion and contraction of the bridge. It is formed long in the longitudinal direction, and one end contacts the upper end of one circumferential surface of the elastic bearing. a first horizontal member; a second horizontal member that is formed to be long in the longitudinal direction, one end of which is in contact with the lower end of one circumferential surface of the elastic support, and a measuring scale formed in the longitudinal direction on one side; The first and second horizontal members are connected to maintain a predetermined gap, and the upper and lower ends are rotatably coupled to the first and second horizontal members, respectively, allowing relative horizontal movement of the first and second horizontal members. At least one link member that allows; And so that the relative horizontal movement distance of the first and second horizontal members can be measured, the upper end is rotatably hinged to one side of the first horizontal member and the lower end is formed on one side of the second horizontal member. It is a device for measuring and inspecting the amount of deformation of elastic bearings for bridges, including a measuring member that extends to be located at the measuring scale. A scale is formed on the second horizontal member, and the displacement is measured through the scale indicated by a separate measuring member connected to the first horizontal member. The structure is complex and there are many connections between components, so there is a risk of damage and a high malfunction rate.

Additionally, only the displacement of the elastic bearing can be measured, and it is not possible to confirm that the elastic bearing is moving in the lower structure of the bridge.

Registered Patent No. 10-1086868

The present invention is intended to solve the problems described above, and measures the displacement of the upper and lower plates of the elastic support through a simple structure using the connection relationship between two members, thereby facilitating work and reducing malfunctions. Displacement for safety diagnosis of bridge elastic support The purpose is to provide a measuring device.

Another object of the present invention is to confirm the position of the elastic support without performing additional work when measuring the displacement of the upper and lower plates of the elastic support.

The displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention includes an elastic bearing support supported on a lower plate and an upper plate constituted by the elastic bearing of a bridge; a reference bar whose one end is rotatably connected to the lower part of the elastic support; One end is rotatably connected to the upper part of the vertical alignment bar, while the other end intersects the standard bar and is spaced inward from the other end, and can be rotated to the standard bar through a guide means at the part where it intersects the standard bar. A measuring rod that is connected to each other; It includes a displacement measurement scale formed on the measuring rod, and the guide means is formed on a guide rail formed long along the longitudinal direction of the measuring rod and the reference rod, moves along the guide rail and points to the displacement measurement scale. It includes a scale indicator protrusion, and the displacement measurement scale is formed along the longitudinal direction of the guide rail and goes to both left and right sides based on the center, so that the reference bar is supported on the lower plate of the elastic support, and the measuring bar is the It is characterized in that the displacement of the elastic support is measured through movement of the displacement measurement scale according to the inclination of the measuring rod while supported on the upper plate of the elastic support.

The present invention is characterized by including a goniometer that measures the angle change of the measuring rod based on the reference rod.

According to the displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention, when the measuring rod is supported on the upper plate while the standard rod is supported on the lower plate of the elastic bearing, the scale indicating protrusion of the standard rod points to the displacement measurement scale and the lower plate is Since the displacement of the reference upper plate can be confirmed, it has the effect of reducing manufacturing costs due to a simple structure, and because it uses the organic coupling relationship of only the two reference rods and measuring rods, it has the effect of reducing malfunctions that occur when using intermediate media. This has the effect of making measurement work very easy.

In addition, in order to measure the displacement of the upper and lower plates of the elastic support, the reference bar is supported on the lower plate of the elastic support and the position of the alignment bar is checked with the position measurement scale, so the position of the elastic support can be confirmed without any additional work, thereby increasing its effectiveness as a displacement measuring device. This has the effect of confirming the displacement of the elastic support more usefully by using the displacement and position of the elastic support together.

In addition, when a goniometer is applied, when measuring the displacement of the elastic support using a measuring rod, the angle can also be naturally checked and the displacement measurement can be judged more accurately.

Figure 1 is a perspective view of a displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention.
2 to 7 are side views of the operating state of the displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention, respectively.

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 displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention includes a vertical alignment bar ( 10), a reference rod (20) and a measuring rod (30) that intersect each other, each side (left side in the drawing) connected to the vertical alignment bar (10) at different heights, and hinged at an intersection spaced inward from the other end. ), the displacement measurement scale 40 formed on the measuring rod 30, and the reference rod 20 are inserted into the guide rail 31 formed on the measuring rod 30 so as not to interfere with the movement of the measuring rod 30. It connects the reference bar 20 and the measuring bar 30 to enable scissor movement, and includes a scale indicator protrusion 50 pointing to the displacement measurement scale 40.

The elastic support (1) is installed on the bottom surface of the lower structure (2) (abutment or pier) of the bridge to support the upper structure (3) (slab), and is a lower plate ( 1a), an upper plate (1b) supporting the bottom of the upper structure (3), and an elastic body (1c) coupled to the lower plate (1a) and the upper plate (1b) between them (1a, 1b).

The vertical alignment bar 10 is a base that supports the reference bar 20 and the measuring rod 30, respectively, on the circumference of the elastic support 1. At this time, the lower and upper parts of the vertical alignment bar 10 are elastic, respectively. It can be directly supported on the periphery of the lower plate (1a) and the upper plate (1b) of the support (1), or one end of the reference rod (20) and the measuring rod (30) is positioned on the left side of the vertical alignment stand (10). The standard rod 20 and the measuring rod 30 are connected to protrude so that the standard rod 20 and the measuring rod 30 are supported on the periphery of the lower plate 1a and the upper plate 1b of the elastic support 1, respectively. may support.

The vertical alignment bar 10 can be configured to have its length (height) adjusted to suit the various heights of the elastic support 1. For example, two pipes 11 and 12 of different diameters can be elastically connected. In this case, an elastic member 13 (coil spring) can be applied between the two pipes 11 and 12, i.e. inside, to elastically support the two pipes 11 and 12 in the unfolding direction.

In another way of adjusting the length, two plates can be elastically connected, for example, a protrusion is formed on one plate and an upper and lower longitudinal rail is formed on the remaining plate where the protrusion is slidably connected, and two plates are formed. Elastic members that elastically support the plates in the direction in which they are spread may also be applied between the plates.

In addition, the vertical alignment bar 10 may have a height measurement scale 14 displayed along the vertical and vertical directions on the external surface.

When measuring the height, the vertical alignment bar (10) is set perpendicular to the bottom surface of the lower structure (2), that is, so as not to tilt regardless of the displacement of the upper plate (1b) and lower plate (1c) of the elastic support (1). It must be measured in this state.

Meanwhile, when the vertical alignment bar 10 is length-adjustable, height measurement scales 14 are displayed on each of the two pipes 11 and 12, and the height is calculated by adding these height measurement scales 14.

The reference bar 20 is a straight bar or bar, and one end (left side in the drawing) is rotatably connected to the bottom of the vertical alignment bar 10 through an axis pin, and has a scale indicator protrusion (50) spaced inward from the other end. ) is formed.

The reference rod 20 is stably seated on the bottom surface of the lower structure 2 and includes a fall prevention plate 21 to support the measuring rod 30 without shaking. The fall prevention plate 21 is in the form of wings that protrude on both sides from the bottom of the reference bar 20.

In addition, the reference bar 20 includes a positioning scale 22 to measure the distance between the elastic support 1 and the edge of the lower structure 2, and the positioning scale 22 is located on one side of the standard bar 20. It is formed starting from the end and moving to the right.

An alignment bar 23 is included to reduce shaking when the reference bar 20 is supported on the lower structure 2.

The alignment bar 23 is movably mounted on the standard bar 20 and is fixed to the standard bar 20 through a fastener 24, and the connection structure with the standard bar 20 is, for example, open toward the bottom. It has a structure that includes a groove and is coupled to the upper part of the standard bar 20 in a cap manner through the groove, and the fastener 24 is screwed to the nut of the alignment bar 23 as a bolt, so that the end is connected to the standard bar 20. ) The alignment table 23 is fixed by being supported on the circumferential surface of the.

According to the alignment bar 23, when the standard bar 20 is pushed toward the lower structure 2, the alignment bar 23 is supported on the lower structure 2 and aligns the standard bar 20 to a fixed position.

In addition, the alignment bar 23 indicates the position of the elastic support 1 numerically by indicating the position measurement scale 22.

The measuring rod 30 can have various structures, including the same structure as the reference rod 20, and has one end rotatably connected to the vertical alignment bar 10 through an axis pin and a guide rail into which the scale indicating protrusion 50 is inserted. (31) is formed to be long along the longitudinal direction, and the length of the guide rail (31) is such that the measuring rod (30) can move to measure the displacement of the elastic support (1).

The displacement measurement scale 40 is formed along the guide rail 31 of the measuring rod 30, with the center as the reference (“0”) in accordance with the two-way displacement of the elastic support 1, and moving to both left and right in constant units. is formed by

The scale indicator protrusion 50 is fixed to the standard bar 20 and is inserted into the guide rail 31 of the measuring bar 30 to enable scissor movement of the standard bar 20 and the measuring bar 30, and is attached to the measuring bar ( When 30) moves according to the displacement of the elastic support (1), the displacement is notified by pointing to the displacement measurement scale (40).

The scale indicator protrusion 50 can be integrated with the reference bar 20 or assembled using a bolt type, etc.

The measurement method using the displacement measuring device for safety diagnosis of bridge elastic bearings according to the present invention is as follows.

1. Measurement of elastic support displacement.

The displacement measuring device of the present invention is inserted between the lower structure (2) and the upper structure (3) on which the elastic support (1) is installed.

The lower part of the vertical alignment bar (10), which is one end of the reference bar (20), is brought into contact with the lower plate (1a) of the elastic support (1), and in this state, the measuring rod (30) is brought into contact with the upper plate (1b). push and move

2 and 3 show that the elastic support 1 does not cause displacement, so the lower plate 1a and the upper plate 1b are in a manufactured state, that is, in the same position, and at this time, the scale indicator protrusion 50 is a displacement measurement scale. It points to “0”, which is the standard of (40).

Since the lower plate (1a) is installed on the fixed lower structure (2), the displacement of the elastic support (1) is assumed to be the movement of the upper plate (1b).

On the other hand, when displacement occurs in which the upper plate 1b moves to the right as shown in FIGS. 4 and 5, one side of the reference bar 20 is attached to the lower plate 1a and the alignment bar 23 is placed on the lower structure 2. When attaching one end of the measuring rod 30 to the upper plate 1b while attached to the corner, the upper part of the vertical alignment bar 10 is tilted to the right based on the drawing, and the measuring rod 30 is moved from its standard position. Maintain the position moving to the right. Accordingly, the scale indicator protrusion 50 fixed to the reference bar 10 is in a fixed state, but the displacement measurement scale 40 formed on the measurement bar 30 moves to the right, resulting in the scale indicator protrusion 50 being displaced. Among the measurement scales 40, the scale to the left of the standard “0” is indicated, and the scale at this time is the displacement of the upper plate 1b.

Conversely, when displacement occurs in which the upper plate 1b moves to the left as shown in FIGS. 6 and 7, the measuring rod 30 moves to the left and the vertical alignment bar 10 tilts in the opposite direction, and the scale indicator protrusion 50 ) indicates the scale to the right of the standard “0” among the displacement measurement scales 40, and the scale at this time is the displacement of the upper plate 1b.

2. Measurement of elastic support position.

When measuring the displacement of the elastic support (1) described above, one side of the reference bar (20) is attached to the lower plate (1a) of the elastic support (1) and is arranged along the edge of the lower structure (2) from the elastic support (1). , Check the position measurement scale (22) indicated by the alignment table (23) and confirm the position of the elastic support (1) numerically.

3. Measure the height of the elastic support.

Align the vertical alignment bar (10) vertically without attaching it to the elastic support (1). At this time, check the height measurement scale (14) to check the height of the elastic support (1).

Meanwhile, in the present invention, it is possible to measure the angle of the measuring rod 30 without additional work by using the fact that the standard rod 20 maintains the reference position and the angle of the measuring rod 30 changes. For example, the standard A goniometer 60 is mounted on the bottom of the rod 20. The measuring rod 30 changes its angle in front of the goniometer 60 according to the angle value of the goniometer 60, and by measuring the angle at this time, the angle of the upper plate (1b) with respect to the lower plate (1a) can be measured. there is. Figures 3, 5, and 7 are diagrams showing changes in the angle of the measuring rod 30 when measuring the displacement of the elastic support 1.

1: elastic support, 1a: lower plate
1b: upper plate, 1c: elastic body
2: lower structure, 3: upper structure
10: vertical alignment bar, 11,12: pipe
13: elastic member, 14: height measurement scale
20: standard bar, 21: fall prevention plate
22: position measurement scale, 23: alignment bar
24: fastener,
30: measuring rod, 31: guide rail
40: Displacement measurement scale, 50: Scale indicating protrusion
60: goniometer,

Claims (4)

A vertical alignment bar supported on the lower plate and upper plate formed on the elastic support of the bridge;
a reference bar whose one end is rotatably connected to the lower part of the vertical alignment table;
One end is rotatably connected to the upper part of the vertical alignment bar, while the other end intersects the standard bar and is spaced inward from the other end, and can be rotated to the standard bar through a guide means at the part where it intersects the standard bar. A measuring rod that is connected to each other;
Includes a displacement measurement scale formed on the measuring rod,
The guide means includes a guide rail formed to be long along the longitudinal direction of the measuring rod and a scale indicating projection formed on the reference rod, moving along the guide rail and pointing to the displacement measurement scale,
The displacement measurement scale is formed along the longitudinal direction of the guide rail and goes to both left and right sides based on the center, so that the reference bar is supported on the lower plate of the elastic support, while the measuring rod is supported on the upper plate of the elastic support. In this state, the displacement of the elastic support is measured through movement of the displacement measurement scale according to the inclination of the measuring rod,
The vertical alignment bar is a displacement measuring device for safety diagnosis of a bridge elastic support, characterized in that two pipes or plates are connected in an adjustable length. delete The method according to claim 1, comprising: a fall prevention plate formed at the bottom of the standard bar and placed on the bottom surface of the lower structure of the bridge on which the elastic support is installed; Characterized in measuring the displacement while the reference bar is supported on the bottom surface of the lower structure, including an alignment bar that is movably mounted on the standard bar and fixed through a fastener and supported on the corner of the lower structure. Displacement measuring device for safety diagnosis of bridge elastic bearings. The method according to claim 3, wherein the reference bar includes a position measurement scale going from one end to the other side, and the position of the elastic support is measured by checking the position measurement scale at the position of the alignment table. Displacement for safety diagnosis of the bridge elastic support. measuring device.

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