KR20200069652A - An indentation tester fixing equipment - Google Patents

Abstract

The present invention relates to an instrumented indentation tester fixing apparatus, and more specifically, to an instrumented indentation tester fixing apparatus which can allow the easy installation of the indentation tester on the subject for the indentation test having a circumference, and the easy position movement along a circumference of the subject for the indentation test with the indentation tester installed. To this end, provided are the subject for the indentation test having an outer circumferential surface of a circumference and the indentation tester for conducting an indentation test on the subject for the indentation test, and also provided is the instrumented indentation tester fixing apparatus which comprises: a fixing rail provided to surround an outer circumferential surface of the subject for the indentation test; a moving plate arranged to be attachable to and detachable from the indentation tester; a rail jig installed on the moving plate and the fixing rail and capable of moving along the fixing rail; and a constraint means constraining the movement of the rail jig on the fixing rail.

Description

An indentation tester fixing equipment

The present invention relates to a device for fixing an instrumentation indentation tester, and more particularly, to an instrumentation indentation tester fixing device that enables the indentation tester to be fixed and the position movement to an indentation test object having a circumference easily.

In understanding and predicting the properties of deformation and destruction of materials, flow properties that exhibit plasticity are indispensable.

Conventional uniaxial tensile testing required standard or accurate procedures and tests for sample preparation.

However, it is true that the tensile test is very difficult when the destruction of the sample itself is difficult, or when it is limited to local testing of materials, such as single grain boundaries of polycrystalline materials or welds with a steep mechanical property gradient.

Due to these limitations in tensile testing, instrumented indentation technology (ITT), which is simple to prepare for non-destructive samples and simple to test, is being studied as a method of evaluating flow properties instead of tensile testing.

The instrumented indentation test method has the advantage of being easily applicable to various industries and studies because it can measure properties non-destructively, has few restrictions on specimens, and can quantitatively evaluate material properties of local areas.

An indentation tester for instrumentation indentation test is provided, and after pressing the indenter of the indentation tester into the test material, the tensile properties through the analysis of the indentation load-displacement curve obtained by continuously measuring the load and displacement applied to the test material, Indentation test is performed through evaluation of various mechanical properties such as residual stress and fracture toughness.

The instrumentation indentation tester (hereinafter,'indentation tester' is disclosed in 『Republic of Korea Registration No. 10-1117661』, detailed description will be omitted.

On the other hand, when the indentation tester is installed on a test object in an industrial site, when the installed test object is piping, the indentation tester (I) is attached to the piping (P) using a chain as shown in FIG. .

As shown in Figure 1, the ends of the chain (C) are respectively installed at both ends of the indentation tester (I), and the chain (C) is wound around the pipe (P) to fix the other end of the chain (C) By fixing, the indentation tester (I) is mounted on the pipe (P) as the test object.

In this way, the indentation tester I is attached to the pipe P, and the indentation test is performed on the piping P using the indentation tester I.

However, the method of fixing the indentation tester using the above-described conventional chain has the following problems.

Due to the chain (C) provided in a configuration that can be flexibly bent, there is an advantage of fixing the indentation tester (I) to pipes (P) of various diameters, but the indentation test for each part of the piping (P) In order to perform the loosening of the fixing means, the indentation tester (I) is adjusted to the measurement position and then a troublesome problem is caused by a series of processes of fastening the fixing means again.

That is, the convenience of the indentation measurement work for the indentation test object having the circumference is poor.

Republic of Korea Registration No. 10-1117661 Republic of Korea Registration No. 10-1836737

The present invention has been devised to solve the above problems, and the object of the present invention is to allow the indentation test to be performed on pipes of various sizes, but the indentation tester can be easily moved and fixed along the circumferential surface of the piping. It was intended to provide a device for fixing the instrumentation indentation tester.

In order to achieve the above object, the present invention provides an indentation test object having a circumferential outer circumferential surface and an indentation tester for indentation testing the indentation test object, and a fixed rail provided to cover the outer circumferential surface of the indentation test object; A moving plate provided so that the tester can be detached; a rail jig installed on the moving plate and the fixed rail and movable along the fixed rail; a restraining means for restraining the rail jig movement on the fixed rail: An instrumentation indentation tester fixing device is provided.

At this time, the fixed rail is provided in a pair in the longitudinal direction of the indentation test object, it is preferable that the movable plate is disposed between the pair of fixed rails.

At this time, the fixed rail is provided with a plurality of nodes hinged to each other, it is preferable that both ends of the fixed rail are fastened to each other through fastening means.

At this time, a fixed piece is formed on the upper portion of each node to form an insertion groove between the upper surfaces of the nodes spaced apart from the upper portion of the node, and the rail jig is an insertion piece inserted into the insertion groove and located above the fixed piece. It includes an extension piece, and the extension piece is formed with a screw hole through the fixing piece, and the restraining means is screwed to the screw hole and is a fixing bolt that allows the insertion piece to compress the fixing piece through the upper pressing of the fixing piece. It is preferred.

In addition, the movable plate is made of a square shape, the rail jig is preferably installed between each corner and the fixed rail of the movable plate.

The instrumentation indentation tester fixing device according to the present invention has the following effects.

First, in the indentation test for a pipe having a circumference, a chain for fixing the indentation tester to the piping is provided, but a moving plate moving along the chain surrounding the piping and a restraining means for constraining the moving plate to the chain are provided. There is an effect that the position of the indentation tester can be easily moved along the circumferential surface of the pipe.

Second, by installing the rolling roller on the chain, there is an effect that the movement of the moving plate can be flexibly made when the moving plate is installed.

Third, a rail jig fixed to the movable plate and surrounding the upper portion of the chain up and down is provided, and a fixed bolt fixed to the upper surface of the chain through the upper portion of the rail jig and a spring elastically supporting the fixed bolt constitute a restraining means , It is easy and effective to fix the movable plate on the chain.

1 is a photograph showing the indentation tester fixing device according to the prior art
Figure 2 is a perspective view showing an instrumentation indentation tester fixing device according to a preferred embodiment of the present invention
Figure 3 is an exploded perspective view showing an instrumentation indentation tester fixing device according to a preferred embodiment of the present invention
Figure 4 is an enlarged view showing the fastening means of the instrumentation indentation tester fixing device according to a preferred embodiment of the present invention
5a and 5b is a main portion showing the action of the restraining means of the instrumentation indentation tester fixing device according to a preferred embodiment of the present invention.

The terms or words used in the specification and claims are not to be construed as being limited to ordinary or lexical meanings, and the inventor is based on the principle that the concept of terms can be properly defined in order to best describe his or her invention. It should be interpreted in a sense and concept consistent with the technical idea of the present invention.

Hereinafter, with reference to the accompanying Figures 2 to 5b will be described with respect to the instrumentation indentation tester fixing device (hereinafter referred to as'fixing device') according to a preferred embodiment of the present invention.

When the indentation test object indentation test having a circumference, the fixing device was easily fixed to the indentation tester on the test object, and the indentation tester was easily moved along the outer peripheral surface of the test object.

Accordingly, in the indentation test for each part of the test object, since the position of the indentation tester can be easily performed, the convenience of the measurement operation can be increased.

At this time, in the present specification, the indentation test object will be described using piping as an example.

2 to 4, the fixing device includes a fixing rail 100, a fastening means 200, a moving plate 300, a rail jig 400, and a restraining means 500 .

The fixing rail 100 serves to fix the indentation tester (not shown: FIG. 1) to the pipe P, and to provide a movement path of the indentation tester along the outer circumferential surface of the pipe P.

The fixed rail 100 is made of a flexible configuration that can wrap the outer peripheral surface of the pipe (P) having a circumference.

To this end, the fixed rail 100 is preferably composed of a plurality of nodes 110, as shown in Figure 2, the nodes 110 are hinged to each other.

It is preferable that the fixed rail 100 having such a configuration is a chain, but a configuration satisfying the above configuration may be used.

As shown in FIG. 3, a fixing piece 120 is formed on an upper portion of each node 110 constituting the fixing rail 100.

The fixing piece 120 is extended upward from one side of the upper portion of the node 110 and then bent to the other side of the node 110.

Accordingly, the fixing piece 120 is spaced apart from the upper surface of the node 110 to form a groove, which is referred to as an insertion groove 121.

The insertion groove 121 is a configuration in which the insertion piece of the rail jig 400 to be described later is inserted.

A fixing groove 120a is formed on the bottom surface of the fixing piece 120.

The fixing groove 120a is configured to further secure the fixing force with the rail jig 400, and detailed description will be described later.

In addition, the rolling roller 130 is axially coupled to one side of each node 110 of the fixed rail 100.

The rolling roller 130 is to move the rail jig 400 along the fixed rail 100, so that the movement is flexible.

The fixed rail 100 of the above-described configuration is preferably provided in a plurality in the longitudinal direction of the pipe (P) for stable fixing of the indentation tester.

Most preferably, it is preferably provided in a pair in the longitudinal direction of the pipe (P) as shown in FIG.

Meanwhile, although not illustrated, a connection bar may be installed between the pair of fixed rails 100.

The connecting bar is to connect the separated pair of fixed rails 100 to each other to provide a sense of unity, thereby increasing convenience when detaching the fixed rail 100 from the pipe P.

Next, the fastening means 200 serves to fasten the ends of the fixed rail 100.

Since both ends of the fixed rail 100 are not connected so that the fixed rail 100 can be smoothly wrapped according to the diameter of the pipe P, the fastening means 200 is an end of the shorted fixed rail 100 It is to serve to unite.

The fastening means 200 is not limited to a specific configuration, but is preferably a ball-type bolt nut as shown in FIG. 4.

The ball-type bolt nut 200 allows the fastening rail 100 to be fastened in a state that flexibly corresponds to the curvature of the pipe P.

Connection members 140 having ball grooves 141 on which the balls B are disposed are formed at both ends of the fixing rail 100, respectively.

Since the ball (B) is provided to be rolled on the ball groove (141), it can flexibly correspond to the curvature of the pipe (P).

The ball (B) is disposed in the ball groove 141 of each connecting member 140, the ball (B) of one side is provided with a male screw 210, the other side of the ball (B) is for male screws to be screwed A female screw 220 is provided.

Next, the moving plate 300 is configured to detach the indentation tester, and is moved along the fixed rail 100.

The moving plate 300 is preferably provided as a square plate that provides a flat surface corresponding to the bottom surface of the indentation tester.

Next, the rail jig 400 is a medium for connecting the moving plate 300 to the fixed rail 400, and is configured to move along the fixed rail 100.

One end of the rail jig 400 is fixed to the moving plate 300, and the other end of the rail jig 400 is connected to the fixed rail 100.

The rail jig 400 includes an insertion piece 410 and an extension piece 420 as shown in FIG. 3.

The insertion piece 410 is provided for coupling with the fixed rail 100, and is configured to be inserted into the insertion groove 121 of the fixed rail 100.

At this time, the thickness of the insertion piece 410 is formed smaller than the height of the insertion groove 121.

In addition, an end portion of the insertion piece 410 is formed with a bent portion 411 bent upward.

The bent portion 411 is configured to increase the bonding force with the fixing piece 120, and is a configuration that is inserted into the fixing groove 120a of the fixing piece 120.

The extension piece 420 is a portion where the fixed piece 120 is positioned upward, and the restraining means 500 to be described later is installed.

A screw hole 421 is formed in the extension piece 420, and the screw hole 421 is formed to pass through the fixed piece 120.

The restraining means 500, which will be described later, is screwed through the screw hole 421 to press the fixing piece 120, which will be described later in detail.

A guide wall 422 is formed at an end of the extension piece 420 to guide a path when the moving plate 300 moves along the fixed rail 100.

The guide wall 422 is bent downward from the extension piece 420 and covers a part of the rolling roller 130 as shown in FIG. 2.

The rail jig 400 having such a configuration is installed between each corner of the moving plate 300 and the fixed rail 100.

Next, the restraining means 500 serves to restrain the movement of the moving plate 300 on the fixed rail 100.

To be precise, the movement of the rail jig 400 is restrained on the node 110 of the fixed rail 100 so that the moving plate 300 does not move on the fixed rail 100.

The restraining means 500 is preferably provided with a fixing bolt 510 and a spring 520.

The fixing bolt 510 is screwed to the screw hole 421 of the rail jig 400 extension piece 420.

By tightening the screws of the fixing bolt 510, the lower end of the fixing bolt 510 presses the upper surface of the fixing piece 120, thereby restricting the movement of the rail jig 400.

The spring 520 is installed between the fixing bolt 510 and the extension piece 420.

The spring 520 acts as an elastic force when the fixing bolt 510 is tightened, further strengthening the binding force of the rail jig 400 on the fixing rail 100.

Hereinafter, the indentation test of the indentation tester using the fixing device having the above-described configuration will be described.

Pipe (P) for indentation test is provided.

A pair of fixing rails 100 are fixed in the longitudinal direction of the pipe P.

To this end, the fixed rail 100 is wrapped around the outer circumferential surface of the pipe P, and the both ends of the fixed rail 100 are fastened with the fastening means 200.

At this time, the fixed rails 100 may be fastened to the pipes P one by one, or if a connecting bar (not shown) is installed between the fixed rails 100, the fixed rails 100 are installed in the pipes P. It can be installed at once.

Since the fixed rail 100 is composed of a plurality of nodes 110 like a chain, the fixed rail 100 is a pipe P while each node 110 rotates regardless of the diameter of the pipe P Can be flexibly wrapped.

Meanwhile, a moving plate 300 is installed between the pair of fixed rails 100.

The moving plate 300 is installed on the fixed rail 100 through the rail jig 400, and before the gap between the pair of fixed rails 100 is determined, the fixed rail 100 is installed on the moving plate 300 do.

That is, the distance between the pair of fixed rails 100 is determined through the moving plate 300.

In order to install the movable plate 300 on the fixed rail 100, the insertion piece 410 of the rail jig 400 is inserted into the fixed groove 120a of the fixed rail 100.

At this time, the extension piece 420 of the rail jig 400 is positioned above the fixed piece 120.

As described above, as the rail jig 400 of each corner of the moving plate 300 is installed on the fixed rail 100, the moving plate 300 is completely coupled to the fixed rail 100.

In this way, the indentation tester is coupled to the moving plate 300 coupled to the fixed rail 100.

Thereafter, the moving plate 300 to which the indentation tester is coupled is moved to be positioned at the indentation test portion of the pipe P.

At this time, the rail jig 400 is moved along the fixed rail 100, the movement of the rail jig 400 can be made smoothly by the rolling action of the rolling roller 130 installed on the fixed rail 100.

When the indentation tester is located at the indentation test site, the moving plate 300 is constrained to the fixed rail 100.

To this end, the insertion piece 410 of the rail jig 400 is positioned in the insertion groove 121 of the fixed rail 100.

At this time, the bending portion 411 of the insertion piece 410 is located in the fixing groove 120a of the fixing piece 120 as shown in FIG. 5A.

Next, when the fixing bolt 510 is tightened, the lower end of the fixing bolt 510 descends through the screw hole 421 of the extension piece 420 to press the upper surface of the fixing piece 120.

At this time, the rail jig 400 is raised relative to the fixed rail 100 by the rotation of the screw of the fixing bolt 510, as shown in Figure 5b, the insert piece 410 and the fixed piece 120 are compressed to each other It becomes.

As the insertion piece 410 of the rail jig 400 fixed to the moving plate 300 is compressed to the fixing piece 120 formed on the fixed rail 100, the movement of the rail jig 400 is restricted.

At this time, since the bent portion 411 of the insertion piece 410 is inserted into the fixing groove 120a, the left and right flow of the rail jig 400 can be restrained, and the spring 520 when the fixing bolt 510 descends ) As the contraction force acts as the elastic force contracts, the pressure difference between the insertion piece 410 and the fixing piece 120 can be further maximized, so that the binding force of the rail jig 400 on the fixing rail 100 can be maximized.

Since the binding force of the rail jig 400 refers to the binding force of the moving plate 300 on which the indentation tester is installed, the position of the indentation tester on the fixed rail 100 can be maintained firmly.

After that, the indentation test of the piping is performed through the operation of the indentation tester.

On the other hand, in order to perform the indentation test on one side of the pipe P and the indentation test on the other side of the pipe P, the rail jig 400 from the fixed rail 100 is reversed by performing the above-described restraining process of the rail jig 400 Release the binding force of.

Thereafter, the rail jig 400 is moved to position the indentation tester at a desired indentation test site, and the movable plate 300 is fixed using the restraining means 500 to perform an indentation test.

The indentation test is performed through the above-described series of processes, and when the indentation test is completed, the fastening means 200 is released to separate the fixing device from the pipe P.

As described so far, the instrumentation indentation tester fixing device according to the present invention easily fixes the indentation tester regardless of the diameter of the indentation object to the indentation test object having a circumference, and the position of the indentation tester on the indentation test object can be easily moved. Was made possible.

Accordingly, it is possible to increase the convenience of measuring the indentation tester for the indentation test.

In the above, the present invention has been described in detail with respect to the described embodiments, but it is apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and it is natural that such modifications and modifications belong to the appended claims.

100: fixed rail 110: node
120: fixed piece 120a: fixed groove
121: Insertion groove 130: Rolling roller
140: connecting member 141: ball groove
200: fastening means (ball type bolt nut) 210: male thread
220: female thread 300: moving plate
400: rail jig 410: inserting piece
411: bend 420: extension
421: screw hole 422: guide wall
500: restraining means 510: fixing bolt
520: spring P: piping
I: Indentation tester C: Chain
B: Ball

Claims (5)

An indentation test object having a circumferential outer peripheral surface and an indentation tester for indentation testing the indentation test object are provided,
A fixing rail provided to cover the outer circumferential surface of the indentation test object;
A moving plate provided so that the indentation tester can be detached;
A rail jig installed on the movable plate and the fixed rail and movable along the fixed rail;
Instrumentation indentation tester fixing device comprising: a restraining means for restraining the movement of the rail jig on the fixed rail. According to claim 1,
The fixed rail is provided in a pair in the longitudinal direction of the indentation test object,
The movable plate is a device for fixing an instrumentation indentation tester, characterized in that disposed between a pair of fixed rails. According to claim 2,
The fixed rail is provided with a plurality of nodes hinged to each other, and both ends of the fixed rail are fastened to the instrumentation press-fitting tester, characterized in that fastened through a fastening means. According to claim 3,
A fixed piece is formed on the upper portion of each node to be spaced apart from the upper portion of the node to form an insertion groove between the upper surfaces of the nodes.
The rail jig includes an insertion piece that is inserted into the insertion groove, and an extension piece located above the fixing piece, wherein the extension piece is formed with a screw hole through the fixing piece,
The restraining means is fixed to the instrumentation indentation tester, characterized in that the screw is coupled to the screw hole is a fixing bolt that allows the insertion piece to compress the fixing piece through the upper pressure of the fixing piece. The method according to any one of claims 2 to 4,
The movable plate is made of a square shape, the rail jig instrumentation indentation tester fixing device, characterized in that installed between each corner and the fixed rail of the moving plate.

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