KR20180032069A - Material property evaluating apparatus - Google Patents

Abstract

The present invention provides a material physical property evaluating device which provides a reinforcing bar corresponding to the thickness of a specimen used in a test between grips gripping the specimen in a material physical property evaluating test, provides a stable grip for the specimen and can obtain accurate analysis data with respect to a material. The material physical property evaluating device comprises: the grip gripping the specimen; a measurement part measuring the thickness of the specimen; and the reinforcing bar located between the grips. The reinforcing bar is located between the grips according to the thickness of the specimen measured by the measurement part.

Description

{MATERIAL PROPERTY EVALUATION APPARATUS}

The present invention relates to a material property evaluation apparatus, and more particularly, to a tensile testing apparatus for a material.

The present invention relates to a material property evaluation apparatus, particularly a tensile test apparatus, which is installed to analyze various components of a steel material. In the tensile test, the specimen is fixed up and down to obtain tensile test data of the material, Is obtained.

For the tensile test, place the specimen between the upper and lower grips of the tester, and apply the external force to the grip to fix the specimen.

Stable fixation of the grip is important because the grip strength of the grip on the specimen affects the test data.

However, in the case of short specimen or high strength material, the grip was fixed with the force of the operator, and the grip could not stably hold the specimen. In addition, when the length of the specimen is short, the grip is inclined, slip occurs in the specimen and the joint, breakage of the bolt in the portion fixing the grip or breakage of the housing fixing the grip occurs, , The specimen was not fixed precisely and the specimen flowed, resulting in a data error.

10-2006-0051016 (2006.06.07) 10-2001-0032167 (2001.06.08) 10-2011-0115969 (2011.11.08)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method for evaluating a material property of a specimen, which comprises providing a reinforcing bar corresponding to the thickness of a specimen used in a test between grips gripping the specimen, It is an object of the present invention to provide a material property evaluation apparatus capable of obtaining accurate analysis data on a material.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned here can be understood by those skilled in the art from the following description.

In order to attain the above object, according to the present invention, there is provided an apparatus for evaluating material properties, comprising a grip for gripping a specimen, a measuring unit for measuring a thickness of the specimen, and a reinforcing bar located between the grips, The reinforcing bars may be positioned between the grips depending on the thickness of the specimen.

The plurality of reinforcing bars are provided to have different widths, and each of the reinforcing bars is fixed to a plurality of divided fixed plates, and can be selected according to the thickness of the specimen measured by the measuring part.

The material physical property evaluating apparatus comprises a moving unit for accommodating a plurality of the fixed plates, a driving unit for moving the moving unit, a base for limiting a moving range of the moving unit and accommodating the moving unit, And a control unit for moving the moving unit such that the fixed plate on which the reinforcing bar is fixed is aligned with the specimen in the axial direction.

The base may be provided with at least one guide rod guiding movement of the moving part and penetrating the moving part.

The base may further include a cylinder for pushing up the selected fixing plate to place the reinforcing bar between the grips.

A lower opening is formed in the lower part of the moving part to push up the selected fixing plate and at least one protrusion is provided in the lower part of the moving part to prevent the fixing plate from being separated from the lower opening.

A pushing plate may be positioned at the end of the cylinder which is in contact with the fixed plate through the lower opening.

Wherein the fixing plate has an inner space, a first guide portion is disposed on an upper surface of the inner space, a second guide portion is disposed on a lower surface of the inner space, and the first guide portion and the second guide portion Wherein a shaft supporting the up-and-down movement is connected, a through-hole is formed in a central region of the shaft, a support rod for fixing the plurality of the stationary plates passes through the through-hole, And a fixed region of the fixed plate, which forms the inner space, is opened so that the fixed plate moves up and down.

The distance between the through hole and the first guide portion and between the through hole and the second guide portion may be variable.

An elastic member may be positioned between the through hole and the first guide portion, and between the through hole and the second guide portion.

According to an embodiment of the present invention, there is provided a method for selecting a reinforcing bar having a diameter similar to a size of a specimen measured by a measuring section, aligning a selected reinforcing bar to align with a center axis of a specimen, Thereby providing a stable grasp of the grip on the specimen, thereby providing accurate analysis data on the material.

1 is a view showing a configuration of an apparatus for evaluating material physical properties according to a preferred embodiment of the present invention.
2 is a plan view of an apparatus for evaluating material physical properties according to a preferred embodiment of the present invention.
3 is a cross-sectional view showing the inside of a moving part and a fixing plate of a material physical property evaluation apparatus according to a preferred embodiment of the present invention.
4 is a cross-sectional view showing the inside of a fixing plate of an apparatus for evaluating material properties according to a preferred embodiment of the present invention when the fixing plate is moved upward.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages, and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary terms and the inventor should properly define the concept of the term in order to describe its own invention in the best way. The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a sectional view of an apparatus for evaluating material physical properties according to a preferred embodiment of the present invention. 1, the material property evaluation apparatus of the embodiment of the present invention includes a grip 100 for holding a test piece 10, a measurement unit (not shown), and a reinforcing bar 200 for material property evaluation test.

The grips 100 are provided at a predetermined distance so as to face each other with a predetermined distance therebetween. When evaluating the physical properties of the test piece 10, it is possible to fix the test piece 10 to prevent the flow of the test piece 10 have.

The measuring section measures the thickness of the test piece 10. The measuring part (not shown) may include any known thickness measuring device. In one embodiment, the meter may be provided with a plurality of measurement tips for measuring the thickness of the object, and a contact meter for measuring the thickness of the object by contacting the object with the measurement tip may be used. Also, the measuring device may be a non-contact type measuring device that calculates the thickness of the object to be measured by irradiating the object with a laser or light and capturing the position of the reflected laser or light. The measuring unit may include a communication unit for transmitting the measured value to another device or equipment.

The length of the test piece 10 used in the material property evaluation test may not be constant. When the length of the used specimen 10 is short, the grip 100 can not stably hold the specimen 10 and slip occurs between the specimen 10 and the grip 100 or the grip which grips the specimen 10 There is a problem in that accurate evaluation data can not be obtained due to inclination of the wafer 100.

When the length of the test piece 10 used in the physical property evaluation test is short as described above, it is possible to stably hold the test piece 10 with the grip 100 positioned between the grips 100 .

The plurality of reinforcing bars 200 are provided, and each of the reinforcing bars 200 is formed to have a different thickness. The thickness of the test piece 10 used in the test may vary. The thickness of the specimen 10 placed between the grips 100 is measured by the measuring part and the reinforcing bar 200 having the thickness most similar to the measured thickness is selected so that the specimen 10 is short The reinforcing bar 200 having a similar thickness is inserted between the grips 100, so that stable gripping is possible.

The reinforcing bar 200 is formed using a rigid material so as not to be broken or deformed when gripped by the grip 100.

The plurality of reinforcing bars 200 are respectively fixed to a plurality of fixed plates 210 divided into a plurality. Each of the reinforcing bars 200 is fixed to the fixed plate 210 so as to protrude from the fixed plate 210 at the same height as the other reinforcing bars 200.

The material physical property evaluation apparatus includes a moving unit 300 that receives a plurality of the fixed plates 210, a driving unit 310 that moves the moving unit 300, a moving unit 300 that limits a moving range of the moving unit 300, (Not shown) for controlling the operation of the driving unit 310, and a base 400 for receiving the driving unit 300.

The moving part 300 is located below the grip 100 holding the test piece 10 and the reinforcing bar 200 fixed to the fixing plate 210 accommodated in the moving part 300 is not operated In a state where they do not touch the grip 100. [

A cavity is formed in the moving part 300, and a plurality of fixing plates 210 are accommodated in the cavity. The moving part 300 is disposed in the groove 410 formed in the base 400 and moves in the left and right directions by the driving part 310 in the groove 410 of the base 400.

The driving unit 310 is located on the outer side of the base 400 and is operated by a control unit (not shown). The control unit operates the driving unit 310 to align the fixing plate 210 on which the reinforcing bar 200 is fixed according to the thickness of the specimen 10 measured in the measuring unit, with the specimen 10 in the axial direction.

The base 400 may be provided with at least one guide rod 250a or 250b for guiding the movement of the moving part 300 by the driving part 310. [ The guide rods 250a and 250b penetrate the moving part 300 and one of the guide rods 250a and 250b is connected to the driving part 310. [

 The base 400 may further include a cylinder 430 for pushing up the selected fixing plate 210 to place the reinforcing bar 200 between the grips 100. The cylinder 430 is positioned in one region of the lower portion of the groove 410 of the base 400. At this time, the center axis C of the specimen 10 and the center axis of the cylinder 430 coincide with each other.

In other words, the cylinder 430 is positioned in a straight line on the fixed plate 210 and the specimen 10 on which the selected reinforcing bar 200 is located.

Thereafter, as the cylinder 430 moves upwards, the fixing plate 210 is moved upward and the reinforcing bar 200 is positioned between the grips 100. At the end of the cylinder 430 pushing up the fixing plate 210, a push plate 431 may be disposed. The flat plate (431) abuts against the fixing plate (210) to push up the fixing plate (210).

2 is a plan view of an apparatus for evaluating material physical properties according to a preferred embodiment of the present invention. Referring to FIG. 2, a first guide rod 420a and a second guide rod 420b are provided through the moving part 300 in the groove 410 of the base 400. As shown in FIG. The first guide bar 420a and the second guide bar 420b extend across the groove 410 of the base 400.

One of the first guide rod 420a and the second guide rod 420b is connected to a driving unit 310 provided on one side of the base 400. [ Accordingly, the first guide rod 420a connected to the driving unit 310 can move the moving unit 300 by receiving the power generated by the driving unit 310. [0050]

When the first guide bar 420a and the second guide bar 420b are disposed, the first guide bar 420a and the second guide bar 420b may be disposed at regular intervals.

The second guide bar 420b assists the movement of the moving part 300 so that the moving part 300 moves stably in the base 400. [

In the groove 410 of the base 400, the moving part 300 is positioned in close contact with the opposing sides of the groove 410. The moving part 300 is closely contacted with the moving part 300 so that the moving part 300 moves stably without shaking when the moving part 300 moves along the first guide rod 420a and the second guide rod 420b by the operation of the driving part 310 .

A cavity is formed in a central portion of the moving part 300, and a plurality of fixing plates 210 are arranged in parallel in the cavity. The plurality of fixing plates 210 and the moving unit 300 may be provided with support rods 216 through which the fixing plates 210 and the moving units 300 are fixed. The configuration and operation of the support rod 216 and the fixing plate 210 will be described below.

3 is a cross-sectional view showing the inside of a moving part 300 and a fixing plate 210 of a material property evaluation apparatus according to a preferred embodiment of the present invention.

3 is a sectional view of the inner space 211 of the movable plate 300, the first guide rod 420a and the second guide rod 420b, the fixing plate 210, and the fixing plate 210, A shaft 214 positioned between the first guide part 212 and the second guide part 213 and a second shaft part 214 interposed between the first guide part 212 and the second guide part 213, A first elastic member 217 disposed between the through hole 215 and the first guide portion 212 and a second elastic member 217 disposed between the through hole 215 and the second guide portion 213 A second resilient member 218 is shown.

Guide bars 250a and 250b penetrate through both sides of the moving part 300 of the present embodiment and the fixing plate 210 is positioned in the center cavity of the moving part 300. [ Since the fixing plate 210 is closely attached to the cavity of the moving unit 300, when the fixing plate 210 is pushed up by the cylinder 430, the fixing plate 210 can be pushed upwards in the left and right directions.

The fixing plate 210 has an internal space 211 and a first guide part 212 and an internal space 211 are formed on an upper surface of the fixing plate 210 to form an internal space 211 And a second guide portion 213 is disposed on the lower surface of the first guide portion 212. The first guide portion 212 and the second guide portion 213 are disposed on the same axis line.

A shaft 214 is connected between the first guide part 212 and the second guide part 213 to support the up and down movement of the fixing plate 210 due to the upward and downward movement of the cylinder 430. A through hole 215 is formed in a central region of the shaft 214 and a support rod 216 for fixing the plurality of fixing plates 210 penetrates through the through hole 215 to connect the plurality of fixing plates 210, . The structure of the lower opening 320 of the moving part 300, the fixing plate 210 and the smoothing plate 431 is shown in more detail.

A protrusion 330 is provided at a lower portion of the moving part 300 to prevent the fixing plate 210 from being detached from the lower opening 320 of the moving part 300. In one embodiment, the protrusions 330 may extend from the moving part 300 and may be positioned to face each other to stably support the fixing plate 210.

 The width of the flat plate 431 connected to the end of the cylinder 430 may be smaller than the width of the lower opening 320 of the moving part 300.

 In one embodiment, the flat plate 431 is formed in a plate shape to increase the contact area with the fixing plate 210, thereby stably pushing the fixing plate 210.

The first elastic member 217 is disposed so as to surround the shaft 214 between the through hole 215 and the first guide portion 212. One end of the first elastic member 217 is connected to the through hole 215 and the other end of the first elastic member 217 is connected to the first guide part 212. The second elastic member 218 is disposed so as to surround the shaft 214 between the through hole 215 and the second guide portion 213. One end of the second elastic member 218 is connected to the through hole 215 and the other end of the second elastic member 218 is connected to the second guide part 213.

The elastic members 217 and 218 are arranged between the first guide part 212 and the through hole 215 and between the second guide part 213 and the through hole 215 when the fixing plate 210 is moved. The elastic deformation can be caused. After the material property evaluation test using the selected reinforcing bar 200 is completed, the reinforcing bar 200 can be automatically returned to the initial position by the elasticity of the elastic members 217 and 218.

4 is a cross-sectional view showing the interior of the fixing plate 210 of the apparatus for evaluating material properties according to a preferred embodiment of the present invention when it is moved upward.

4, the cylinder 430 under the fixing plate 210 is moved to move the flat plate 210 to the upper side of the cylinder 430 and move the fixing plate 210 upward, The bar 200 is positioned between the grips 100. When the fixing plate 210 is pushed up by the cylinder 430, the fixing plate 210 moves upward, but the supporting plate 216 passing through the through hole 215 of the inner space 211 of the fixing plate 210 The position of the through hole 215 is fixed. The distance between the upper side of the through hole 215 and the first guide part 212 and the distance between the lower side of the through hole 215 and the second guide part 213 Is variable. For example, the first guide part 212 and the second guide part 213 may be connected to the shaft 214 in a hydraulic or pneumatic manner. The first guide part 212 connected to the inner surface of the upper part of the fixing plate 210 moves upward together with the fixing plate 210 when the fixing plate 210 moves upward, The distance between the through hole 215 through which the first guide portion 216 passes and the first guide portion 212 is increased.

The first elastic member 217 disposed between the through hole 215 and the first guide portion 212 also extends.

The second guide portion 213 connected to the inner bottom surface of the fixing plate 210 moves upward together with the fixing plate 210 when the fixing plate 210 moves upward, The distance between the through hole 215 and the second guide portion 213 through which the first guide portion 216 passes is reduced. The second elastic member 218 disposed between the through hole 215 and the second guide portion 213 is compressed. The through hole 215 through which the support rod 216 passes is held in a fixed position.

The fixed plate 210 is opened in a facing region of the fixed plate 210 that forms the inner space so that the fixed plate 210 moves upward and downward by the upward and downward movement of the cylinder 430. After the test is completed, the cylinder 430 moves downward, and the fixing plate 210 is restored to its original state by the resilient restoring force of the first elastic member 217 and the second elastic member 218. The distance between the first guide part 212 and the through hole 215 in the fixing plate 210 and the distance between the second guide part 213 and the through hole 215 are determined by the cylinder 430 It is returned to before it is pushed up. The lengths of the first elastic member 217 and the second elastic member 218 are also returned to their initial positions.

As described above, the material property evaluation apparatus according to one preferred embodiment of the present invention has been specifically described with reference to the accompanying drawings.

It will be apparent to those skilled in the art that various modifications, changes, and substitutions are possible, without departing from the essential characteristics and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: The Psalms
100: grip
200: Reinforcing bar
210: Fixing plate
211: interior space
212: first guide portion
213: second guide portion
214: shaft
215: Through hole
216:
217: first elastic member
218: second elastic member
300:
310:
320: lower opening
330: protrusion
400: Base
410: Home
420a: first guide rod
420b: second guide rod
430: cylinder
431: wheather plate
C: center axis

Claims (10)

A grip for gripping the specimen;
A measuring unit for measuring a thickness of the specimen; And
And a reinforcing bar located between the grips,
And the reinforcing bars are positioned between the grips according to the thickness of the specimen measured by the measuring unit. The method according to claim 1,
The plurality of reinforcing bars are provided so as to have different widths,
Each of the reinforcing bars is fixed to a plurality of divided fixed plates,
And a thickness of the specimen measured by the measuring unit. 3. The method of claim 2,
A moving unit for accommodating a plurality of the fixed plates,
A driving unit for moving the moving unit,
A base for defining a range of movement of the movable part and accommodating the movable part, and
And a control unit for moving the moving unit such that the fixed plate on which the reinforcing bar is fixed according to the thickness of the specimen measured by the measuring unit is aligned with the specimen in the axial direction,
Further comprising a material property evaluating device. The method of claim 3,
Wherein the base is provided with at least one guide bar for guiding the movement of the moving part and for passing through the moving part. The method of claim 3,
Wherein the base pushes up the selected fixing plate to place the reinforcing bar between the grips
Further comprising a material property evaluating device. 6. The method of claim 5,
A lower opening is formed in the lower part of the moving part to push up the selected fixing plate,
And at least one projecting portion is provided at a lower portion of the moving portion to prevent the detachment of the fixing plate from the lower opening. The method according to claim 6,
Wherein the pushing plate is positioned at the end of the cylinder which is in contact with the fixed plate through the lower opening. 6. The method of claim 5,
The fixing plate has an inner space
A first guide portion is disposed on an upper surface of the inner space and a second guide portion is disposed on a lower surface of the inner space,
A shaft supporting the up-and-down movement of the fixing plate is connected to the first guide portion and the second guide portion,
Wherein a through hole is formed in a central region of the shaft, a support rod for fixing the plurality of fixing plates passes through the through hole,
Wherein the fixed plate has one opposed region of the fixed plate forming the inner space opened so that the fixed plate moves up and down by the upward and downward movement of the cylinder. 9. The method of claim 8,
Wherein the distance between the through hole and the first guide portion and the distance between the through hole and the second guide portion are variable. 10. The method of claim 9,
And at least one elastic member is positioned between the through hole and the first guide portion and between the through hole and the second guide portion.

Images