KR102561443B1 - Strain gauge attachment device for bridge load test - Google Patents

Abstract

The present invention relates to a strain gauge attachment device for load testing of bridges, and in particular, minimizes strain measurement errors by attaching strain gauges used to measure the strain of structures during loading tests to evaluate structural safety of bridges at precise locations. It is about a new concept of technology.
Conventionally, when attaching a strain gauge, some angle error occurs depending on the shaking and unstable posture of the bridge inspection vehicle or the aerial work platform and the work skill of the attacher, which causes a measurement error of the strain gauge.
The present invention is a method to eliminate these problems. After integrally assembling a concrete attachment jig according to the scale of the distance measuring bar in accordance with the attachment position of the strain gauge, the reference plate installed at the tip of the distance measuring bar is attached to the concrete girder. Adhesion is applied to the strain gauge temporarily fixed to the compression head of the attachment tool in a state where the bar for distance measurement is in close contact with the bottom surface as well as in close contact with the side, and the compression head passes through the compression head guide hole formed in the attachment jig for concrete. It is characterized by devising a technology that allows the strain gauge to be easily attached to the exact position on the bottom of the concrete girder.

Description

Strain gauge attachment device for bridge load test

The present invention relates to a new concept technology that minimizes strain measurement error by attaching a strain gauge used to measure the strain of a structure during a load test conducted to evaluate the structural safety of a bridge at an accurate location.

The load test of a bridge is a method of analyzing the behavior of a bridge in an experimental way. It consists of a bridge by directly applying a known load determined to a size that does not affect the elastic behavior of a bridge to a specific part of the bridge according to the prescribed regulations. This is a test to observe and measure the actual behavior of major members.

It is to quantify the actual load capacity of the bridge through the load test, and the result of the load test is applied to supplement the load capacity of the bridge evaluated by the theoretical method.

It is measured during this load test to measure the strain of the structural member. Depending on the material of the structural member, it is divided into a reinforced concrete structural member and a steel structural member, and the shape (size) of the strain gauge used to measure the strain is different from each other. do.

The attachment position of the strain gauge for measuring the strain of the structural member is attached to the lower surface of the main structural member, that is, to the part where the main tension occurs when the girder is applied in the case of a girder bridge, and the attachment direction is installed in the main action direction of the tensile force. It is made by collecting the response (electrical signal) generated from the strain gauge with a data logger through the connection line.

The attachment of the strain gauge must be attached to the lower surface of the main structural member, and most of the bridges have a high passage height at the bottom, so when attaching the strain gauge, work at height using a bridge inspection vehicle or an aerial work vehicle must be performed, and upward movement from the lower part of the bridge is required. and attach strain gauges.

As described above, as the prior art related to the load test method of a bridge using a strain gauge, 「Patent Registration No. 1154489, name/ load testing device for a railroad bridge, method for calculating the load carrying capacity of a railroad bridge using the same, and method for measuring deflection of a railroad bridge」 are disclosed. there is.

In the conventional bridge load test including the prior art, an angle error occurs somewhat depending on the shaking and unstable posture of the bridge inspection vehicle or the aerial work platform when attaching the strain gauge according to the working conditions and the work skill of the attacher. This causes a problem of measurement error of the strain gage.

As a means for solving the above problems, the present invention integrates and assembles a concrete attachment jig according to the scale of the distance measuring bar in accordance with the attachment position of the strain gauge, and then attaches the reference plate installed at the tip of the distance measuring bar to the concrete girder. Adhesion is applied to the strain gauge temporarily fixed to the compression head of the attachment tool while the bar for distance measurement is in contact with the bottom surface, and the compression head passes through the compression head guide hole formed in the attachment jig for concrete to find a technology that allows the strain gauge to be easily attached to the bottom of the concrete girder in an accurate position.

In addition, in the present invention, after integrally assembling the steel attachment jig according to the scale of the distance measuring bar in accordance with the attachment position of the strain gauge, the reference plate installed at the tip of the distance measuring bar is closely adhered to the side surface of the steel girder and the bottom surface In the state of facing the bar for distance measurement, a technology is devised to mark the attachment position on the steel girder along the attachment position marking hole formed on the steel girder, and to directly attach the strain gauge to the marked attachment position.

According to the present invention, when attaching a strain gauge used in a load test of a bridge, a rod for distance measurement is used to accurately select the attachment position of the strain gauge in the direction of the principal stress and attach it to the correct position, thereby removing angle error and reducing measurement error of strain. provides the effect of minimizing

In addition, according to the present invention, as the attacher of the strain gauge works on the high-place work equipment, it is possible to attach it accurately in a more stable posture even in the working conditions caused by the shaking and unstable posture of the high-place work equipment, and provides an effect of reducing working time. .

In addition, the present invention selects any one of a concrete attachment jig for accommodating a strain gauge suitable for a concrete girder or a steel attachment jig capable of marking the attachment position of a strain gauge suitable for a steel girder and assembles it to the distance measuring bar. It is possible to respond to the diversity of bridge load test with one strain gauge attachment device, and provides excellent effects in compatibility, utilization, and economy of attachment devices.

1 is a perspective view of a bar ruler for distance measurement of the present invention
Figure 2 is a perspective view of the present invention concrete attachment jig
Figure 3 is a front cross-sectional view and a bottom view of the present invention concrete attachment jig
Figure 4 is a perspective view of the attachment tool of the present invention
Figure 5 is a plan view of the cover open state of the attachment tool of the present invention
Figure 6 is a planar cross-sectional view of a state in which the fixing lock of the attachment tool of the present invention is unlocked
Figure 7 is a side view of a state in which the fixing lock of the attachment tool of the present invention is unlocked
8 is a front view of the strain gauge attachment device of the present invention in use
9 is a bottom view of the strain gauge attachment device of the present invention in use
10 is a plan view of a state in which the temporary fixing tape of the present invention attachment frame is wrapped
11 is a plane cross-sectional view of a state in which a strain gauge is temporarily fixed to an attachment frame according to the present invention;
12 is a front view of a state in which a strain gauge is temporarily fixed to an attachment frame of the present invention;
13 is a front cross-sectional view of a state in which a strain gauge is attached to the attachment frame of the present invention against an attachment jig for concrete
Figure 14 is a perspective view of the attachment jig for steel of the present invention
15 is a bottom view of the strain gauge attachment device of the present invention in use
16 is a perspective view of two types of strain gauges suitable for concrete girders and steel girders of the present invention

It will be described with respect to a preferred embodiment for more specifically implementing the solution to the problem to be solved by the present invention.

Looking schematically at the overall configuration according to the preferred embodiment of the present invention based on the accompanying drawings, it can be seen that it is largely divided into the components of the distance measuring stick 10, the concrete attachment jig 20, and the attachment tool 30 there is.

Hereinafter, the present invention consisting of the above schematic configuration will be described in more detail to facilitate implementation.

First of all, the distance measuring rod 10 of the present invention has a scale 11 for accurately measuring the distance from the side of the concrete girder (CG) to the attachment position of the strain gauge 1, as shown in FIGS. 8 to 9 It is made of the marked letters 12, and at the front end of the letters 12, a reference plate 13 adhered to the side of the concrete girder (CG) is integrally installed at a right angle, and the reference plate 13 is the letter 12 ) serves to provide a reference point so that the zero point of the concrete girder (CG) starts accurately from the side of the concrete girder (CG), so that more accurate distance measurement can be made.

Here, the letters 12 are integrally installed on the upper end of the reinforced acrylic plate 14 integrally protruded from the reference plate 13 to prevent the letters 12 from shaking, enabling accurate distance measurement as well as increasing strength. provide an improving effect.

The concrete attachment jig 20 is connected and assembled orthogonally to the top of the iron character 12, and accurately guides the attachment tool 30 for attaching the strain gauge 1 to the attachment position of the concrete girder (CG). play a role

For this purpose, the attachment jig 20 for concrete has a recessed seating groove 21 so that it can be seated orthogonally on the upper end of the letter 12 as shown in FIGS. 2 to 3, and the upper portion of the seating groove 21 In the center of the graduation confirmation unit 22, a scale confirmation unit 22 is formed, and a graduation window 23 communicating with the seating groove 21 is formed vertically through the center of the graduation confirmation unit 22, so that it is connected to the letter 12 even in the assembled state. Not only can the scale 11 marked on the letter 12 be easily checked with the naked eye through the scale window 23, but also it is possible to connect and assemble the concrete attachment jig 20 to the correct position on the letter 12.

In addition, a compression head guide hole 24 is formed through one side of the concrete attachment jig 20 along the longitudinal direction, and the strain gauge 1 suitable for the concrete girder (CG) is formed in this compression head guide hole 24. It serves to guide the strain gauge 1 to be attached to an accurate position by passing through the temporarily fixed crimping head 33 .

In addition, since a plurality of magnets 25 are inserted and installed on both sides of the upper surface of the seating groove 21, the magnets 25 are attached to the iron letters 12 when seated on the iron letters 12, so that the concrete attachment jig 20 As it does not move and maintains integrity while maintaining a fixed state, it is possible not only to accurately select and attach the strain gauge (1) attachment location, but also to minimize the volume by separating the concrete attachment jig (20) when not in use. and provides a special effect that can be stored.

The attachment tool 30 is a mechanism for accurately attaching the temporarily fixed strain gauge 1 to the concrete girder CG through the concrete attachment jig 20, and the temporary fixing tape 32 is accommodated therein.

In the attachment tool 30 as shown in FIGS. 4 to 7, the temporary fixing tape 32 is stored in the tape roll 31-1 protruding inside the tape housing 31 in the shape of a square box, and the temporary fixing tape ( 32) can be drawn out to the outside through a draw-out hole 31-2 formed on one side of the tape housing 31, and is used by using a cutter 31-3 installed adjacent to the draw-out hole 31-2. After completing the temporary fixing tape 32 can be cut and stored.

In addition, a compression head 33 protrudes from the front surface of the tape housing 31 so that the adhesive surface of the temporary fixing tape 32 is exposed to the outside, and the compression head 33 is temporarily fixed to the surface. A material such as rubber or urethane having elasticity is suitable for easy compression while pressing the strain gauge 1, and the temporary fixing tape 32 adhered to the compression head 33 is attached to both sides of the tape housing 31. A pair of fixed locks (34) for pressing and fixing both sides are installed to be able to rotate up and down via a hinge (34-1), and a locking jaw (34-2) bent inwardly at the upper end of the fixed lock (34) The silver cover 35 is seated on the upper end of the tape housing 31 through the locking grooves 35-1 formed on both sides of the cover 35 and maintains the locking state, thereby performing primary locking.

Here, the attachment tool 30 is installed so that the cover 35 can be opened and closed via the hinge 35-2 on the top of the tape housing 31, so that when the life of the temporary fixing tape 32 is over, the cover 35 can be easily replaced by opening the cover 35, and the magnet 35-3 inserted into the lower surface of the opening side of the cover 35 adheres to the steel plate 35-4 inserted into the top of the tape housing 31 and The cover 35 remains closed so as not to open, and the magnet 34-3 inserted into the inner surface of the fixing lock 34 is different from the steel plate 31-4 inserted into the side of the tape housing 31. While sticking, the fixing lock 34 can press and fix the temporary fixing tape 32 while maintaining secondary locking.

Before explaining the attachment method of the strain gauge 1 according to the present invention having such a configuration, looking at the types of strain gauges 1 and 2, the strain gauge 1 suitable for the concrete girder (CG) is shown in FIG. While the steel girder (SG) is relatively large in size, since the surface of the steel girder (SG) is constant, the measurement error is small, so it is okay to use a small size strain gauge (2).

In order to attach the strain gauge 1 suitable for the concrete girder (CG), first of all, as shown in FIG. After integrally assembling and connecting according to the scale 11 of 10), the reference plate 13 is closely adhered to the side of the concrete girder (CG), and the distance measuring bar (10) is placed on the bottom of the concrete girder (CG) let it match

Therefore, the crimping head guide hole 24 of the distance measuring stick 10 can accurately guide the position for attaching the strain gauge 1 without error.

Next, the temporary fixing tape 32 drawn to the outside through the drawing hole 31-2 of the attachment tool 30 has both side surfaces and the surface of the compression head 33 so that the adhesive surface is exposed to the outside as shown in FIG. After wrapping, the pair of fixing locks 34, which were rotated downward, are rotated upward to press and fix both sides of the temporary fixing tape 32 adhered to the crimping head 33 to both sides of the tape housing 31, respectively. And, after temporarily fixing a strain gauge (1) suitable for a concrete girder (CG) as shown in FIG. 12 on the exposed adhesive surface of the temporary fixing tape (32), a strong adhesive is applied to the surface, and the strain gauge (1) While inserting the temporarily fixed crimping head 33 into the crimping head guide hole 24 as shown in FIG. 13, the strain gauge 1 can be attached to the bottom of the concrete girder CG in an accurate position.

Therefore, the angle error is minimized by accurately selecting the attachment position of the strain gauge 1 in the direction of the main stress using the concrete attachment jig 20 and attaching the strain gauge 1 to the correct position using the attachment tool 30. It provides a special effect of minimizing the measurement error of strain by removing it.

On the other hand, the present invention is a strain gauge as shown in FIG. (2) The technology that enables attachment is additionally grafted.

The technical configuration of the attachment jig 40 for steel for this purpose is that, as shown in FIG. 14, the seating groove 41 is recessed so that it can be seated orthogonally on the upper end of the letter 12, and the upper portion of the seating groove 41 In the scale confirmation unit 42 is protruded, and in the center of the scale confirmation unit 42, a graduation window 43 communicating with the seating groove 41 is formed vertically through the letter 12 even in the assembled state. Not only can the scale 11 marked on the letter 12 be easily checked with the naked eye through the scale window 43, but also it is possible to connect and assemble the attachment jig 40 for steel at the correct position on the letter 12.

In addition, on one side of the attachment jig 40 for steel, an attachment position marking hole 44 is formed along the longitudinal direction, and this attachment position marking hole 44 accurately marks the attachment position of the strain gauge 2 using a marker. It plays a role in enabling marking.

In addition, since a plurality of magnets are inserted and installed on both sides of the upper surface of the seating groove 21, the magnets are attached to the iron letters 12 when seated on the iron letters 12, so that the attachment jig 40 for steel does not move and maintains integrity. while remaining stationary.

In order to attach the strain gauge 2 suitable for such a steel girder (SG), first of all, the scale of the bar ruler 10 for measuring the distance so that the attachment jig 40 for steel is suitable for the attachment position of the strain gauge 2 After integrally assembling and connecting according to (11), the reference plate 13 is closely adhered to the side of the steel girder (SG), and the bar ruler 10 for distance measurement is brought into contact with the bottom surface of the steel girder (SG).

In addition, the attachment position of the strain gauge (2) is marked using a marker on the bottom surface of the steel girder (SG) according to the attachment position marking hole (44), and the distance measuring rod (10) and the steel attachment jig (40) are used. ), it is possible to directly attach the strain gauge 2 suitable for the steel girder (SG) to the attachment position marked on the bottom surface of the steel girder (SG).

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CG: concrete girder SG: steel girder
1, 2: strain gauge 10: bar for distance measurement
11: scale 12: spelling
13: reference plate 14: reinforced acrylic ruler
20: attachment jig for concrete 21, 41: seating groove
22, 42: scale confirmation unit 23, 43: scale window
24: attachment head guide hole 25, 34-3, 35-3: magnet
30: attachment tool 31: tape housing
32: temporary fixing tape 33: compression head
34: fixed lock 35: cover
40: attachment jig for steel 44: marking hole for attachment location

Claims (7)

A bar ruler 10 for distance measurement, in which a reference plate 13 is integrally installed at the front end of the letter 12 for measuring the distance from the side of the concrete girder (CG) to the attachment position of the strain gauge 1;
A scale window 23 for checking the scale of the letter 12 is formed in the scale confirmation part 22 protruding from the top of the seating groove 21 seated orthogonally on the upper end of the letter 12, and on one side A concrete attachment jig 20 having a crimping head guide hole 24;
The temporary fixing tape 32 housed inside the tape housing 31 can be drawn out through a lead-out hole 31-2 formed on one side of the tape housing 31, and the front surface of the tape housing 31 The adhesive surface of the temporary fixing tape 32 is protruded so that the adhesive surface of the tape 32 can be attached to the outside, and the temporary fixing tape attached to the compressing head 33 is formed on both sides of the tape housing 31. On the other hand, a pair of fixing locks 34 for pressing and fixing both sides of (32) are composed of an attachment tool 30 including a configuration installed so as to be able to rotate up and down;
The locking jaw 34-2 bent inwardly at the upper end of the fixing lock 34 is seated on the top of the tape housing 31 through the locking grooves 35-1 formed on both sides of the cover 35 and is in a locked state. to achieve primary locking;
The letters 12 are integrally installed on the top of the reinforced acrylic plate 14 integrally protruding from the reference plate 13, and a plurality of magnets 25 inserted and installed on both sides of the upper surface of the seating groove 21 are While being attached to the letters 12, it does not move and maintains a fixed state;
The attachment tool 30 has a cover 35 installed on the upper end of the tape housing 31, and magnets 35 inserted into the lower surface of the open part of the cover 35 and the upper end of the tape housing 31, respectively. -3) and the steel plate 35-4 adhere to each other to keep the cover 35 closed, and the magnets 34- inserted into the inner surface of the fixed lock 34 and the side surface of the tape housing 31, respectively 3) Strain gauge attachment device for bridge load test, characterized in that the locking of the fixed lock (34) is maintained while the steel plate (31-4) adheres to each other.
delete delete According to claim 1,
The attachment jig 20 for concrete is integrally assembled according to the scale 11 of the distance measuring bar 10 in accordance with the attachment position of the strain gauge 1, and then the reference plate 13 is attached to the concrete girder (CG ) While closely adhering to the side of the bottom surface, the bar ruler 10 for distance measurement is butted against;
After wrapping both sides and the compression head 33 so that the adhesive surface of the temporary fixing tape 32 drawn out of the attachment tool 30 is exposed to the outside, the compression head ( 33), fixing both sides of the temporary fixing tape 32, temporarily fixing the strain gauge 1 to the temporary fixing tape 32, applying adhesive to the surface, and placing the compressing head 33 on the compressing head Strain gauge attachment device for bridge load test, characterized in that the strain gauge (1) is attached to the bottom of the concrete girder (CG) in an accurate position while being inserted into the guide hole (24).
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