KR20130057898A - Apparatus for connecting displacement instrument for detecting relative displacement to test specimen for shaking table, and connecting method for the same - Google Patents

Abstract

PURPOSE: A connecting device of a displacement meter measuring relative displacement for a shaking table test and a connecting method thereof are provided to easily measure the crack width and the vertical displacement of a concrete structure which is bent by a load when performing the shaking table test. CONSTITUTION: A connecting device(100) of a displacement meter measuring relative displacement for a shaking table test comprises an LVDT(Linear Variable Differential Transformer), a displacement meter block(110), a displacement moving block(130), springs(140), spring jigs(120), a base plate(150), and a metal wire. A core unit(170) of the LVDT is inserted into the displacement block, thereby being fixed. The displacement meter moving block is arranged under the displacement meter block. The spring elastically connects the displacement meter and the displacement meter moving block. The spring jigs are attached respectively to the end portions of both lateral sides of the displacement meter moving block and the displacement meter block, thereby being joined to the springs. The metal wire fixes the displacement meter moving block to the base plate.

Description

Displacement connecting device for measuring relative displacement for shaking table experiment and connection method {APPARATUS FOR CONNECTING DISPLACEMENT INSTRUMENT FOR DETECTING RELATIVE DISPLACEMENT TO TEST SPECIMEN FOR SHAKING TABLE, AND CONNECTING METHOD FOR THE SAME}

The present invention relates to a displacement gauge connecting device for measuring relative displacement, and more particularly, to a counterpart corresponding to a crack of a test specimen (sample) generated by a load during a shaking table test performed on a structural model such as a shift or a bridge. The present invention relates to a displacement gauge connecting device for measuring relative displacement, and a method of connecting the displacement gauge (LVDT) to a test specimen for displacement measurement.

In general, seismic tests are conducted to predict and prevent damage to bridges or buildings when an actual earthquake occurs. For example, seismic tests are conducted to improve seismic performance, including new structures as well as existing structures' ability to withstand earthquakes and how to reinforce them better.

Prior to the seismic experiment, a structural model, for example, an alternating or pier, is installed on a shaking table, and an acceleration is applied according to a predetermined direction and intensity of seismic vibration. Such seismic experiments should be carried out for as long as 30 seconds to match the duration of the actual seismic waves. Specifically, at the moment when the structure is impacted by the movement of the shake table, a plurality of sensors installed in the test object measure data. Such sensors include an acceleration sensor, a displacement meter for measuring the moving distance of a structure, and a strain measuring sensor.

In the earthquake test, the shaking table may be composed of a plurality of actuators (hydraulic actuators) to move the structure of several tens of tons, and the shaking table may be earthquake-resistant in conditions almost similar to the actual conditions due to the same strength and direction as the seismic wave. You can experiment with performance. In addition, the shaking table can be used to test the deformation of the soil in the ground during the earthquake, using a seismic performance test and shear box in addition to the general structure.

On the other hand, Figures 1a and 1b are photographs illustrating a crack gauge installed on the side of the test specimen according to the prior art.

In the shaking table test according to the prior art, there is no separate connection for measuring the crack width and the vertical displacement of the concrete structure specimen 20 subjected to bending, and also, as shown in Figure 1a and 1b, The crack gauge 10 sold can measure only the small crack width of the test body 20, and is used for static purposes. Accordingly, there is a problem in that the crack generated by the large crack width or dynamic behavior of the test body 20 cannot be measured.

1) Republic of Korea Patent Publication No. 2007-88849 (published: August 30, 2007), the title of the invention: "coil parallel displacement device" 2) Republic of Korea Patent No. 10-1057309 (application date: January 24, 2011), the title of the invention: "displacement measuring device using an optical fiber lattice sensor" 3) Japanese Patent Application Laid-Open No. 2001-221615 (published: August 17, 2001), title of the invention: "Optical fiber sensor"

The technical problem to be solved by the present invention for solving the above-described problems, the relative displacement for the shaking table experiment, which can easily measure the crack width and vertical displacement of the concrete structure subjected to the bending by the load, when performing the shaking table test It is to provide a displacement measuring device connecting device and a method of connecting the same.

Another technical problem to be solved by the present invention is to connect the upper and lower parts of the displacement gauge connecting device for measuring relative displacement with a spring so that the residual displacement of the displacement measuring device does not remain, and the displacement gauge connecting device for measuring relative displacement for the shaking table experiment and its To provide a connection method.

Another technical problem to be achieved by the present invention is a displacement gauge connecting device for measuring relative displacement for the shaking table experiment and the connection that can be vertically connected to the displacement gauge connecting device to enable the section-by-section measurement of the specimen or the bottom crack measurement of the circular column. It is to provide a method.

As a means for achieving the above-described technical problem, the displacement measuring device for measuring relative displacement for the shake table experiment according to the present invention, the displacement gauge for measuring relative displacement measuring the crack width and the vertical displacement of the specimen when the shake table experiment ( A displacement gauge connecting device for connecting an LVDT to a test object, comprising: a displacement gauge block into which a core of a relative displacement measurement displacement gauge (LVDT) is inserted and fixed; A displacement gauge moving block disposed below the displacement gauge block so as to be rotatable; Springs provided on both sides of the displacement gauge block and the displacement gauge moving block to elastically connect the displacement gauge block and the displacement gauge moving block; A spring jig attached to ends of both sides of the displacement gauge block and the displacement gauge moving block and fastened to the spring; A base plate fixed to the bottom surface; And a wire metal wire for fixing the displacement gauge moving block to the base plate, wherein the displacement gauge block and the displacement gauge moving block are vertically connected by using the spring to measure the crack width and the vertical displacement of the specimen. It is characterized by.

Here, the displacement gauge block and the displacement gauge moving block is connected to the spring, characterized in that the residual displacement does not remain when the displacement gauge for measuring the relative displacement measurement displacement.

Here, the displacement meter block is characterized in that the through-hole is fastened to the core bolting bolt of the displacement gauge is fixed to the core of the displacement gauge.

Here, the displacement meter moving block is fixed by using the wire metal wire, when the specimen is subjected to bending deformation due to the load when performing the shaking table experiment, the displacement gauge moving block is free to prevent damage of the displacement gauge for measuring the relative displacement It is characterized by rotating.

Here, the base plate and the displacement meter moving block is characterized in that each of the wire bolts for fastening the wire metal wire in the vertical direction.

In addition, the displacement gauge connecting device for measuring the relative displacement for the shaking table experiment according to the present invention may further include a displacement gauge shaft coupled to the through-hole formed in the displacement gauge moving block to connect the core part of the displacement gauge to the displacement gauge moving block. have.

Here, the displacement gauge block, the spring, the spring jig and the displacement gauge moving block is characterized in that it is repeatedly arranged at least one step in the vertical direction.

As another means for achieving the above technical problem, the relative displacement measurement displacement meter connection method for the shaking table experiment according to the present invention, the relative displacement measurement displacement meter for measuring the crack width and the vertical displacement of the specimen when performing the shaking table experiment A method of connecting an LVDT to a test object, the method comprising: a) inserting and fixing a core part of a displacement gauge for measuring relative displacement (LVDT) to a displacement meter block; b) disposing a rotatable displacement meter moving block below the displacement gauge block; c) elastically connecting the displacement gauge block and the displacement gauge moving block by installing springs on both sides of the displacement gauge block and the displacement gauge moving block; d) engaging the spring jig attached to each end of both sides of the displacement gauge block and the displacement gauge moving block with the spring; e) fixing the base plate to the bottom surface; And f) fixing the displacement gauge moving block to the base plate with a wire metal wire, wherein a core portion of a relative displacement measurement displacement gauge (LVDT) disposed between the displacement gauge block and the displacement gauge moving block is provided with respect to the test object. Star crack width and vertical displacement are characterized by measuring.

Here, the displacement gauge block of step a) and the displacement gauge moving block of step b) are vertically connected to the spring, so that the residual displacement measuring displacement gauge does not leave a residual displacement when measuring displacement.

Here, the displacement gauge moving block of step b) is fixed by using the wire metal wire, and when the specimen is subjected to bending deformation due to the load when the shaking table experiment is performed, the displacement gauge moving block of the displacement gauge for displacement measurement is measured. It can rotate freely to prevent damage.

Here, the displacement gauge block, the spring, the spring jig and the displacement gauge moving block may be repeatedly arranged at least one step in the vertical direction.

According to the present invention, when performing the shake table experiment, it is possible to easily measure the crack width and the vertical displacement of the concrete structure subjected to the bending by the load.

According to the present invention, by connecting the upper and lower parts of the displacement gauge connecting device for the relative displacement measurement with a spring so that the residual displacement of the displacement measuring device does not remain.

According to the present invention, in order to measure the bottom crack of the circular column can be installed in the displacement measuring device for measuring relative displacement in the vertical direction, it is possible to measure by section by connecting the displacement gauge connecting device for measuring relative displacement vertically.

1A and 1B are photographs illustrating a crack gauge installed on the side of a test specimen according to the prior art.
Figure 2 is a perspective view of a displacement gauge connecting device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention.
Figure 3 is a front view of the displacement gauge connecting device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention.
FIG. 4 is a diagram specifically illustrating a displacement meter (LVDT) block illustrated in FIG. 2.
FIG. 5 is a view illustrating the spring jig illustrated in FIG. 2 in detail.
6 is a view illustrating in detail the displacement meter moving block shown in FIG. 2.
FIG. 7 is a diagram illustrating the base plate illustrated in FIG. 2 in detail.
FIG. 8 is a view showing in detail the wire bolt shown in FIG.
FIG. 9 is a view showing in detail the displacement gauge shaft shown in FIG. 2.
FIG. 10 is a photograph showing a shaking table experiment foreground having a displacement measuring apparatus connecting device for measuring relative displacement according to an exemplary embodiment of the present invention.
11A and 11B are photographs illustrating that a displacement gauge connecting device for measuring relative displacement for a shaking table experiment according to an exemplary embodiment of the present invention is installed on a side of a test object.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

2 is a perspective view of a displacement gauge connecting device for measuring relative displacement for shaking table experiment according to an embodiment of the present invention, Figure 3 is a front view of a displacement gauge connecting device for measuring relative displacement for shaking table experiment according to an embodiment of the present invention.

2 and 3, the displacement measuring apparatus connecting device 100 for measuring the relative displacement for the shaking table experiment according to an embodiment of the present invention, the relative displacement measuring the crack width and the vertical displacement of the specimen when performing the shaking table experiment As a displacement gauge connecting device for connecting the measurement displacement gauge (LVDT) to the test object, the displacement gauge (LVDT) block 110, the spring jig 120, the displacement gauge moving block 130, the spring 140, the base plate 150, Wire bolt 160, displacement gauge core 170, wire 180, and displacement gauge shaft 190.

First, the displacement meter is coupled to the displacement gauge connecting device for measuring the relative displacement for the shaking table test according to an embodiment of the present invention, and to measure the crack width and the vertical displacement, which is the relative displacement of the structure, such as a piers or shifts during the shaking table test.

The displacement gauge LVDT block 110 is inserted into and fixed to the core 170 of the displacement gauge LVDT for relative displacement measurement. At this time, the displacement gauge block 110 is formed with a through-hole fastened to the core bolt 170 of the displacement gauge is fixed to the core of the displacement gauge.

Spring jig 120 is attached to the end of both sides of the displacement gauge block 110 and the displacement gauge moving block 130 is fastened with the spring 140, respectively.

The displacement gauge moving block 130 is disposed below the displacement gauge block 110 so as to be rotatable. In addition, the displacement gauge moving block 130 is fixed using the wire metal wire 180, when the specimen is subjected to bending deformation due to the load when performing the shaking table experiment, the displacement gauge moving block 130 is relative displacement Rotate freely to prevent damage to the measuring displacement meter. In addition, the displacement gauge block 110 and the displacement gauge moving block 130 is connected to the spring 140 so that the residual displacement does not remain when the displacement gauge for measuring relative displacement measures displacement.

The spring 140 is installed at both sides between the displacement gauge block and the displacement gauge moving block to elastically connect the displacement gauge block and the displacement gauge moving block.

The base plate 150 is fixedly installed on the bottom surface.

Wire bolts 160 are formed in the base plate and the displacement meter moving block to fasten the wire metal wire 180 in a vertical direction, respectively.

The wire 180 is a thin metal wire and fixes the displacement meter moving block 130 to the base plate 150.

The displacement gauge shaft 190 is fastened to a through hole formed in the displacement gauge moving block 130 to connect the core part 170 of the displacement gauge to the displacement gauge moving block 130.

The displacement gauge block, the spring, the spring jig and the displacement gauge moving block may be repeatedly arranged in one or more steps in the vertical direction, as shown in b) of FIG. 3.

Displacement measuring device connection device for measuring displacement displacement 100 for the shaking table experiment according to an embodiment of the present invention is the displacement meter block and the displacement meter moving block using the spring to measure the crack width and vertical displacement of the section for the specimen. Are connected vertically.

Displacement measuring device connection device 100 for relative displacement measurement for the shaking table test according to an embodiment of the present invention, in the dynamic and static experiments of the test specimen, for example, concrete piers in which bending deformation occurs due to the load or As a displacement gauge connecting device for measuring the crack width, the upper part is fixed to the measurement specimen 200 by using a computer bolt of the core part of the displacement meter, and the lower part is fixed by using a thin metal wire. When bending deformation occurs, damage to the displacement gauge for measuring relative displacement can be prevented by freely rotating the connecting portion at the bottom.

4 is a view illustrating in detail the displacement gauge (LVDT) block illustrated in FIG. 2, FIG. 5 is a diagram illustrating the spring jig illustrated in FIG. 2, and FIG. 6 is a displacement meter moving block illustrated in FIG. 2. It is a figure which shows concretely. In addition, FIG. 7 is a view showing in detail the base plate shown in FIG. 2, FIG. 8 is a view showing in detail the wire bolt shown in FIG. 2, FIG. 9 is a displacement meter shaft shown in FIG. It is a figure showing in detail.

In the displacement gauge connecting device for measuring the relative displacement for the shaking table experiment according to an embodiment of the present invention, the displacement gauge (LVDT) block 110, as shown in Figure 4, is a block shape formed with a through hole, for measuring relative displacement The core 170 of the displacement gauge LVDT is inserted into and fixed to the through hole. That is, the displacement gauge block 110 is formed with a through-hole fastened to the core bolt 170 of the displacement gauge is fixed to the core of the displacement gauge.

In addition, in the displacement gauge connecting device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention, the spring jig 120, as shown in Figure 5, the displacement gauge block 110 and the displacement gauge moving block 130 Attached to the ends of both sides of the) is fastened to the spring 140. That is, the spring jig 120 has a through hole to which the spring 140 is fastened and a through hole to which the displacement gauge block 110 and the displacement gauge moving block 130 are fastened, respectively, and the displacement gauge block 110 and It is attached to the ends of both sides of the displacement meter moving block 130, respectively.

In addition, in the displacement gauge connecting device for measuring the relative displacement for the shaking table experiment according to an embodiment of the present invention, the displacement gauge moving block 130, as shown in Figure 6, to the lower portion of the displacement gauge block 110 to be rotatable Is placed. In addition, the displacement gauge moving block 130 is fixed by using the wire metal wire 180, when the specimen is subjected to bending deformation due to the load when performing the shaking table experiment, the displacement gauge moving block 130 is relative displacement Rotate freely to prevent damage to the measuring displacement meter. In addition, the displacement gauge block 110 and the displacement gauge moving block 130 is connected to the spring 140 so that the residual displacement does not remain when the displacement gauge for measuring relative displacement measures displacement.

In addition, in the displacement gauge connection device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention, the base plate 150, as shown in Figure 7, is fixed to the bottom surface. At this time, the wire bolt 160 is fastened to the hole formed at the center of the base plate 150, and four holes formed at the corners may be fixed to the ground through bolts and screws.

In addition, in the displacement gauge connecting device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention, as shown in Figure 8, the wire bolt 160, the wire metal wire 180 to fasten in the vertical direction It is formed on the base plate 150 and the displacement meter moving block 130, respectively.

In addition, in the displacement gauge connecting device for measuring the relative displacement for shaking table experiment according to an embodiment of the present invention, the displacement gauge (LVDT) shaft 190, as shown in Figure 9, by forming a thread at both ends, the displacement gauge It is fastened to a through hole formed in the moving block 130 to connect the core portion 170 of the displacement gauge to the displacement gauge moving block 130.

On the other hand, Figure 10 is a photograph showing a panoramic view of the shaking table is installed displacement measuring device for measuring relative displacement for shaking table experiment according to an embodiment of the present invention.

Displacement measuring device for measuring displacement displacement for shaking table experiment according to an embodiment of the present invention, as shown in Figure 10, is installed on the side of the specimen 200 for the shaking table experiment, the specimen 200 is the movement of the shake table In order to measure the relative displacement of the test specimen 200 at the moment of impact, a plurality of relative displacement measurement displacement meters installed in the test specimen 200 measure data. As such, the shaking table test on the bridge model is an important criterion to secure the reliability by evaluating the response of the alternating or bridge structures and evaluating the seismic performance by simulating the effects of past seismic or artificial earthquake waves on the actual structure. do.

11A and 11B are photographs illustrating that the displacement gauge connecting device for measuring the relative displacement for the shaking table experiment according to the embodiment of the present invention is installed on the side of the test object. ) It is installed on the side.

On the other hand, the method of connecting the displacement gauge for measuring the displacement displacement for the shaking table experiment according to the present invention, as a method of connecting the displacement displacement measuring gauge (LVDT) for measuring the crack width and the vertical displacement of the test specimen when performing the shaking table experiment to the test body. First, the core part of the relative displacement measurement displacement gauge LVDT is inserted into and fixed in the displacement gauge block, and a rotatable displacement gauge moving block is disposed below the displacement gauge block.

Next, springs are installed on both sides of the displacement gauge block and the displacement gauge moving block to elastically connect the displacement gauge block and the displacement gauge moving block.

Next, the spring jig attached to the ends of both sides of the displacement gauge block and the displacement gauge moving block is fastened with the spring, and the base plate is fixed to the bottom surface.

Next, the displacement meter moving block is fixed to the base plate with a wire metal wire. At this time, the displacement gauge block, the spring, the spring jig and the displacement gauge moving block may be repeatedly arranged at least one step in the vertical direction.

Accordingly, the core part of the displacement gauge LVDT disposed between the displacement gauge block and the displacement gauge moving block may measure the crack width and the vertical displacement of each section with respect to the test body. In addition, the displacement gauge block and the displacement gauge moving block are vertically connected to the spring so as not to leave a residual displacement when the displacement gauge for measuring relative displacement measures displacement.

In addition, the displacement gauge moving block is fixed by using the wire metal wire, when the specimen is subjected to bending deformation due to the load when performing the shaking table experiment, the displacement gauge moving block to prevent damage of the displacement gauge for measuring the relative displacement. It can rotate freely.

Therefore, according to the displacement gauge connecting device 100 for measuring the relative displacement for the shaking table experiment according to an embodiment of the present invention, when performing the shaking table experiment, it is easy to measure the crack width and vertical displacement of the concrete structure subjected to the bending by the load And, by connecting the upper and lower portions of the displacement gauge connecting device for measuring the relative displacement with the spring 140, the residual displacement of the displacement measuring device is not left. Further, in order to measure the bottom crack of the circular column, a displacement gauge connecting device for measuring relative displacement can be installed in the up and down direction, and a section-wise measurement is possible by vertically connecting a displacement gauge connecting device for measuring relative displacement.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: displacement measuring instrument connection device for relative displacement measurement
110: displacement meter (LVDT) block
120: spring jig
130: displacement gauge moving block
140: spring
150: base plate
160: wire bolt
170: displacement meter core portion
180: wire
190: displacement meter shaft

Claims (11)

In the displacement gauge connecting device for connecting a displacement displacement measuring device (LVDT) for measuring the crack width and the vertical displacement of the specimen when performing the shaking table experiment to the specimen,
A displacement gauge block into which the core of the relative displacement measurement displacement gauge LVDT is inserted and fixed;
A displacement gauge moving block disposed below the displacement gauge block so as to be rotatable;
Springs provided on both sides of the displacement gauge block and the displacement gauge moving block to elastically connect the displacement gauge block and the displacement gauge moving block;
A spring jig attached to ends of both sides of the displacement gauge block and the displacement gauge moving block and fastened to the spring;
A base plate fixed to the bottom surface; And
And a wire metal wire fixing the displacement gauge moving block to the base plate, wherein the displacement gauge block and the displacement gauge moving block are vertically connected by using the spring to measure the crack width and the vertical displacement of the specimen. Displacement measuring device for measuring relative displacement for shaking table experiment. The method of claim 1,
And the displacement gauge block and the displacement gauge moving block are connected to the spring so that the residual displacement does not remain when the displacement gauge for displacement measurement measures displacement. The method of claim 1,
The displacement gauge block has a through-hole which is fastened to the core bolt bolt of the displacement gauge is formed, the displacement gauge connecting device for measuring relative displacement for shaking table experiment, characterized in that for fixing the core of the displacement gauge. The method of claim 1,
The displacement gauge moving block is fixed using the wire metal wire, and when the specimen is subjected to bending deformation due to the load when the shaking table experiment is performed, the displacement gauge moving block is freely rotated to prevent damage of the displacement gauge for measuring the relative displacement. Displacement measurement device for measuring relative displacement for shaking table experiment. The method of claim 1,
The base plate and the displacement meter moving block is a displacement gauge connection device for measuring relative displacement for shaking table experiment, characterized in that the wire bolt for fastening the wire metal wire in the vertical direction, respectively. The method of claim 1,
And a displacement gauge shaft coupled to a through hole formed in the displacement gauge moving block and connecting the core part of the displacement gauge to the displacement gauge moving block. The method of claim 1,
And the displacement gauge block, the spring, the spring jig and the displacement gauge moving block are repeatedly disposed at least one step in a vertical direction. In the method of connecting a displacement displacement displacement gauge (LVDT) to the specimen, which measures the crack width and the vertical displacement of the specimen when the shaking table experiment is performed,
a) inserting and fixing the core portion of the relative displacement measuring displacement gauge (LVDT) in the displacement gauge block;
b) disposing a rotatable displacement meter moving block below the displacement gauge block;
c) elastically connecting the displacement gauge block and the displacement gauge moving block by installing springs on both sides of the displacement gauge block and the displacement gauge moving block;
d) engaging the spring jig attached to each end of both sides of the displacement gauge block and the displacement gauge moving block with the spring;
e) fixing the base plate to the bottom surface; And
f) securing said displacement meter moving block to said base plate with a wire metal wire;
Including but not limited to:
Displacement meter for relative displacement measurement for shaking table experiment, characterized in that the core portion of the displacement gauge for displacement measurement (LVDT) disposed between the displacement meter block and the displacement meter moving block measures the crack width and vertical displacement of each section with respect to the specimen How to connect. 9. The method of claim 8,
The displacement gauge block of step a) and the displacement gauge moving block of step b) are vertically connected with the spring so that the displacement measurement for the relative displacement measurement does not leave a residual displacement when the displacement gauge measures the displacement. How to connect displacement gauge for measurement. 9. The method of claim 8,
The displacement gauge moving block of step b) is fixed by using the wire metal wire, and when the specimen undergoes bending deformation due to the load when the shaking table experiment is performed, the displacement gauge moving block may damage the displacement gauge for measuring the relative displacement. Displacement measuring method for connecting displacement measurement for shaking table experiment, characterized in that free rotation to prevent. 9. The method of claim 8,
And the displacement gauge block, the spring, the spring jig and the displacement gauge moving block are repeatedly arranged in one or more steps in a vertical direction.

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