KR20160074894A - Jaw unit for tensile test and Tensile test apparatus using the same - Google Patents

Abstract

Disclosed are a jaw unit for a tensile test, and a tensile test device using the same. The jaw unit for the tensile test comprises: a jaw housing with a gripping space on a center; a first jaw assembly arranged on a left side of an internal space of the jaw housing, partially exposed to the gripping space; a second jaw assembly arranged on a right side of an internal space of the jaw housing, partially exposed to the gripping space; a jaw cylinder moving the first jaw assembly forwards and backwards; an adjusting screw moving the second jaw assembly forwards and backwards; and a vertical displacement unit vertically moving the first and second jaw assemblies at the same time. The purpose of the present invention is to provide the jaw unit capable of improving an accuracy of the tensile test and the tensile test device using the same.

Description

Technical Field [0001] The present invention relates to a jaw unit for tensile test and a tensile test apparatus using the same.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tension jaw unit for tensioning and a tension testing apparatus using the same.

Particularly, it is possible to grip the specimen rigidly to prevent slip, and to adjust the jaw vertically, it is possible to perform gripping according to the length of the specimen. And a tensile testing apparatus using the jaw unit.

A tensile testing apparatus, which is one of the physical properties measuring apparatus, is a device capable of performing a tensile test on a measurement object. A tensile test is a material test in which a material is subjected to a tensile force to investigate mechanical properties.

In such a tensile test, the tensile specimen is cut off from the material to be tested and fixed on the jaw of the tensile test apparatus before the test. The mechanical properties such as yield point, yield strength, tensile strength and elongation of the material are measured by gradually applying a tensile load to the tensile specimen thus fixed.

Since the tensile test can always be carried out under the same conditions, the reliability of the measurement results is high and it is widely used as an industrial test because it provides data directly required for the design of a machine or a mechanical part.

However, in the conventional tensile test apparatus, it is not a problem to hold the test piece 1 having a long length by the upper and lower jaws 10 as shown in the left side of FIG. 1, but the test piece 1 having a short length, When the jaws 10 and 20 are clamped by the upper and lower jaws 10 and 20, only a part of the jaws are bitten, and an abnormal strain occurs in which the portions of the jaws corresponding to the jaws are not tilted by the stress gradually. there was.

In addition, if the specimen (1) is not completely gripped by the jaws as described above, slip occurs between the specimen and jaw during the tensile test, so that accurate tensile test results can not be obtained and the specimen may be detached.

Patent Document 1: Korean Patent Registration No. 10-0797286 Patent Document 2: Korean Patent Registration No. 10-0940700 Patent Document 3: Korean Patent Registration No. 10-1108089

SUMMARY OF THE INVENTION It is a primary object of the present invention to provide a method of gripping a specimen, which can prevent slippage and can change the position of the jaw vertically, And it is an object of the present invention to provide a jaw unit and a tensile testing apparatus using the jaw unit capable of precisely mounting and gripping the specimen with high accuracy.

According to a first aspect of the present invention, there is provided a jaw housing comprising: a jaw housing having a gripping space at a central portion; A first jaw assembly partially exposed to the gripping space while being disposed on the left side of the jaw housing; A second jaw assembly partially exposed to the gripping space so as to face the first jaw assembly while being disposed on the right side of the jaw housing; A jaw cylinder for advancing and retracting the first jaw assembly; An adjusting screw for moving the second jaw assembly forward and backward; And a vertical displacement unit for vertically displacing the first jaw assembly and the second jaw assembly at the same time.

Here, the first jaw assembly includes a first jaw holder; A first jaw provided on the first jaw holder and having a gripping protrusion on a front surface thereof; A first fixing plate installed inside the first jaws so as to be movable forward and backward by a cylinder; And a first auxiliary jaw provided on the first fixing plate and moved forward and backward together with the first fixing plate and having an auxiliary gripping protrusion on the front surface thereof, and the second jaw assembly includes a second jaw holder; A second jaw provided in the second jaw holder and having a gripping protrusion on a front surface thereof; A second fixing plate installed inside the second jaws so as to be movable forward and backward by a cylinder; And a second auxiliary jaw provided on the second fixing plate and moved forward and backward together with the second fixing plate and having auxiliary gripping protrusions on the front surface thereof.

The auxiliary gripping protrusions of the first and second auxiliary jaws may be formed obliquely upward or downward.

The upper and lower displacement unit may further include: a motor provided on the jaw housing; A screw shaft having one end connected to the shaft of the motor and the other end connected to an arm bushing of the jaw cylinder to elevate and lower the jaw cylinder; And a connector for connecting the arm bushing and the adjusting screw so that the jaw cylinder and the adjusting screw are moved up and down together with each other.

In addition, a release preventing plate for preventing the detachment of the adjusting screw is provided outside the jaw housing, and a dial type operating part for rotating the adjusting screw is provided outside the adjusting screw, And the manipulation part may be formed with a guide corresponding to the ruler so as to be able to measure the forward and backward distance of the second jaw assembly coupled to the tip of the adjustment screw according to the rotation position of the guide relative to the ruler have.

According to a second aspect of the present invention, there is provided a tensile test apparatus for gripping an upper portion and a lower portion of a specimen, respectively, by disposing a jaw unit for tensile testing of the first aspect on the upper and lower portions of the tensile tester main body .

The present invention can more reliably grip the specimen due to the auxiliary jaw, thereby increasing the reliability of the tensile test.

In addition, the jaw assembly can be varied up and down to allow custom gripping according to the length of the specimen. Accordingly, it is possible to solve the existing problems that it is difficult to accurately grip the specimen in the case of a short specimen.

In addition, since the specimen can be set to be perpendicular, the accuracy of the tensile test can be improved.

1 is a schematic view of a conventional jaw unit for tensile testing, showing a gripping state diagram according to a length of a specimen
2 is a front view of a jaw unit for tensile test according to the present invention.
3 is a detailed view of the first and second jaw assemblies in the jaw unit for tensile testing according to the present invention.
Fig. 4 is a detailed view of part A of Fig. 3
Fig. 5 is a cross-sectional view taken along line B in Fig. 3
Fig. 6 is a diagram of a tension test apparatus according to the present invention

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

Unless otherwise defined, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Commonly used predefined terms are further interpreted as having a meaning consistent with the relevant technical literature and the present disclosure, and are not to be construed as ideal or very formal meanings unless defined otherwise.

Hereinafter, preferred embodiments of the present invention will be described.

First, a jaw unit for tensile testing will be described.

FIG. 3 is a detailed view of the first and second jaw assemblies in the jaw unit for tensile test according to the present invention, and FIG. 4 is a detailed view of part A of FIG. 3 And Fig. 5 is a view of Fig. 3 viewed from the direction B. Fig.

2 to 5, the jaw unit 100 for tensile test according to the present invention includes a jaw housing 110, a first jaw assembly 120, a second jaw assembly 130, a jaw cylinder 140, An adjusting screw 150 and a vertical displacement unit 160.

The jaw housing 110 is a cover structure in which the first and second jaw assemblies 120 and 130, the jaw cylinder 140, the adjusting screw 150 and the upper and lower displacement unit 160 are installed. 111 are provided.

The first jaw assembly 120 is provided to partially expose the gripping space 111 while being disposed on the left side in the figure inside the jaw housing 110 for gripping one surface of the specimen 1 .

Referring to the detailed configuration of the first jaw assembly 120, the first jaw assembly 120 includes a first jaw holder 121. The first jaw holder 121 is provided with a mounting portion 121a having a depressed shape on the front surface thereof.

The first jaw assembly 120 has a first jaw 122 for gripping one surface of the specimen 1. Here, the first jaw 122 is fixedly installed in a part of the mounting portion 121a of the first jaw holder 121, and a plurality of gripping projections (not shown) (122a) is formed.

The first jaw assembly 120 has a first fixing plate 123 disposed inside the first jaw so as to be movable forward and backward by a cylinder 124.

The first jaw assembly 120 is fixed on the first fixing plate 123 by a screw so as to move together with the first fixing plate 123. An auxiliary gripping protrusion 125a is formed on the front surface of the first jaw assembly 120 And a first auxiliary jaw 125 having a first auxiliary jaw.

Here, the auxiliary gripping protrusion 125a of the first auxiliary jaw 125 is preferably formed obliquely upward or downward to prevent slippage during gripping of the test piece 1. That is, when the jaw unit 100 for tensile testing is installed on the upper portion of the tensile testing apparatus 200 to be described later, the auxiliary gripping protrusion 125a is formed obliquely upward, By forming it obliquely, it is possible to prevent the specimen 1 from slipping.

In other words, the auxiliary gripping protrusion 125a is formed in the direction opposite to the tensile direction of the test piece 1. [

The second jaw assembly 130 is provided to face the first jaw assembly 120 while gripping the other surface of the specimen 1. The jaw assembly 110 is disposed on the right side of the jaw housing 110, And is partially exposed to the gripping space 111.

Referring to the detailed configuration of the second jaw assembly 130, the second jaw assembly 130 includes a second jaw holder 131. The second yoke holder 131 is provided with a mounting portion 131a on the front surface thereof.

In addition, the second jaw assembly 130 has a second jaw 132 for gripping the other surface of the specimen 1. Here, the second jaw 132 is fixedly installed to be partially embedded in the mounting portion 131a of the second jaw holder 131, and a plurality of gripping projections 132 are formed on the front surface of the second jaw 132, (132a) is formed.

The second jaw assembly 130 has a second fixing plate 133 installed inside the second jaw so as to be movable forward and backward by a cylinder 134.

The second jaw assembly 130 is fixed on the second fixing plate 133 by a screw so that the second jaw assembly 130 is moved back and forth together with the second fixing plate 133. An auxiliary gripping protrusion 135a is formed on the front surface of the second jaw assembly 130 And a second auxiliary jaw (135) having a second auxiliary jaw (135).

Here, the auxiliary gripping protrusion 135a of the second auxiliary jaw 135 is preferably formed obliquely upward or downward to prevent slippage when gripping the test piece 1. That is, when the jaw unit 100 for tensile testing is installed on the upper portion of the tensile testing apparatus 200 to be described later, the auxiliary gripping protrusion 135a is formed obliquely upward. Otherwise, when the jaw unit 100 is installed on the lower side, By forming it obliquely, it is possible to prevent the specimen 1 from slipping.

In other words, the auxiliary gripping protrusion 125a is formed in the direction opposite to the tensile direction of the test piece 1. [

The jaw cylinder 140 is installed on one side (left side in the figure) of the jaw housing 110 to move the first jaw assembly 120 forward and backward. That is, it is used for gripping or ungripping the specimen 1 positioned between the first jaw assembly 120 and the second jaw assembly 130 by moving the first jaw assembly 120 forward and backward.

The adjusting screw 150 is provided on the other side of the jaw housing 110 to manually or automatically move the second jaw assembly 130 forward and backward. The second jaw assembly 130 is rotated in a state in which the second jaw assembly 130 is not rotatably installed in the jaw housing 110 so that the second jaw assembly 130 is linearly moved along the spiral of the adjustment screw, And the forward / backward movement is performed.

A detent plate 151 may be provided on the outer surface of the jaw housing 110 to prevent the detachment of the adjusting screw 150. An adjusting screw 150 may be provided on the outer side of the adjusting screw 150 And a dial type operation portion 152 for rotating operation.

In particular, a guide 151a is formed on the release prevention plate 151 and a ruler 152a may be formed on the operation portion 152 to match the guide 151a. The use of the guide 151a and the scale 152a may be performed by using a second jaw assembly 130 coupled to the tip of the adjustment screw 150 according to the rotation position of the guide 151a with respect to the scale 152a, In order to measure the distance traveled.

The scale 151a and the scale 152a are formed on the release preventing plate 151 and the operation unit 152. The scale 151 may be provided with a scale on the operation unit 152, 152a may be formed.

The upper and lower displacement unit 160 is for vertically displacing the first and second jaw assemblies 120 and 130 while being installed in the jaw housing 110.

The upper and lower displacement unit 160 includes a motor 161 mounted on the jaw housing 110 and one end rotatably connected to the shaft of the motor 161 and the other end fixed to the jaw cylinder 140 A screw shaft 162 that is coupled to the arm bushing 141 to move the jaw cylinder 140 up and down and a screw shaft 162 that connects the jaw cylinder 140 and the adjusting screw 150 by connecting the arm bushing 141 and the adjusting screw 150, And a connector 163 for interlocking and lifting and lowering the connector.

Next, the tensile test apparatus will be described.

6, the tensile test apparatus 200 according to the present invention includes a tensile test apparatus main body 210 having a tensile test apparatus main body 210, 100 and a jaw unit 100 for tensile testing described above is installed symmetrically on a lower portion of the main body 210.

An upper panel 211 is installed on the upper portion of the main body 210 of the tensile test apparatus and is connected to a binding portion 100a of a jaw unit 100 for tensile testing, Are coupled to pins (P) of the binding unit 100a of the jaw unit 100 for tensile testing.

The preparation step of the tensile test by the tensile testing apparatus 200 configured as described above will be described as follows.

The upper jaw unit 100 for tensile test and the jaw unit 100 for tensile test located at the lower portion are set at appropriate positions and then a jaw unit for upper and lower tensile tests according to the thickness of the specimen 1 to be subjected to the tensile test 100 can be adjusted so that the positions of the upper and lower second jaw assemblies 130 can be matched with each other by rotating the adjusting screw 150 by operating the dial- do.

After the upper and lower second jaw assemblies 130 are equally positioned, one side of the specimen 1 is brought into close contact with the upper and lower jaw assemblies 130 and then the first jaw assembly 130, The jaw assembly 120 is advanced by the jaw cylinder 140 so that the other surface of the test piece 1 is pressed so that the test piece 1 is vertically gripped between the first and second jaw assemblies 120 and 130 .

Next, the first auxiliary jaw 125 and the second auxiliary jaw 135, on which the first and second jaw assemblies 130 are installed, are finely advanced to grip the specimen 1 more firmly.

In this process, the screw shaft 162 is rotated by the respective motors 161 of the jaw unit 100 for tensile testing located at the upper and lower positions depending on the length of the specimen 1 to move the jaw cylinder 140 up or down The first jaw assembly 120 and the second jaw assembly 130 mounted on each of them are raised or lowered together with the adjustment screw 150 connected thereto by the connector 163 The upper and lower positions of the jaw assemblies can be adjusted according to the length of the specimen 1. As a result, the gripping can be performed in accordance with the length of the test piece 1.

In this state, when the tensile test is performed while pulling the specimen 1 up and down by the upper jaw unit and the lower jaw unit, the accurate tensile test value can be derived, and the reliability of the test is high.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification or improvement is possible.

It is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

1: Specimen 100: Jaw unit for tensile test
110: jaw housing 120: first jaw assembly
121: 1st Joe Holder 122: 1st Joe
123: first fixing plate 124: cylinder
125: first auxiliary jaw 130: second jaw assembly
131: 1st Joe Holder 132: 1st Joe
133: first fixing plate 134: cylinder
135: first auxiliary jaw 140: jaw cylinder
150: adjusting screw 160: upper and lower displacement unit
200: tensile test apparatus

Claims (6)

A jaw housing having a gripping space at a central portion thereof;
A first jaw assembly partially exposed to the gripping space while being disposed on the left side of the jaw housing;
A second jaw assembly partially exposed to the gripping space so as to face the first jaw assembly while being disposed on the right side of the jaw housing;
A jaw cylinder for advancing and retracting the first jaw assembly;
An adjusting screw for moving the second jaw assembly forward and backward; And
And a vertical displacement unit for vertically displacing the first jaw assembly and the second jaw assembly at the same time. The method according to claim 1,
The first jaw assembly includes a first jaw holder; A first jaw provided on the first jaw holder and having a gripping protrusion on a front surface thereof; A first fixing plate installed inside the first jaws so as to be movable forward and backward by a cylinder; And a first auxiliary jaw provided on the first fixing plate and moved forward and backward together with the first fixing plate and having an auxiliary gripping protrusion on the front surface thereof,
The second jaw assembly includes a second jaw holder; A second jaw provided in the second jaw holder and having a gripping protrusion on a front surface thereof; A second fixing plate installed inside the second jaws so as to be movable forward and backward by a cylinder; And a second auxiliary jaw provided on the second fixing plate and moved forward and backward together with the second fixing plate and having auxiliary gripping protrusions on the front surface thereof. The method of claim 2,
The auxiliary gripping protrusions of the first and second auxiliary jaws are formed obliquely upward or downward. The method according to claim 1,
The vertical displacement unit includes:
A motor installed on the jaw housing;
A screw shaft having one end connected to the shaft of the motor and the other end connected to an arm bushing of the jaw cylinder to elevate and lower the jaw cylinder; And
And a connector for connecting the arm bushing and the adjusting screw so that the jaw cylinder and the adjusting screw are interlocked to move up and down. The method according to claim 1,
A detachment preventing plate for preventing detachment of the adjusting screw is provided on the outer side of the jaw housing, and a dial type operating part for rotating the adjusting screw is provided outside the adjusting screw,
The guide plate is formed with a ruler, and the operation unit is formed with a guide corresponding to the ruler, and the advance / retreat distance of the second jaw assembly coupled to the tip of the adjustment screw is determined according to the rotation position of the guide member with respect to the guide A jaw unit for tensile testing, which further comprises one or more of the following: The tensile testing apparatus according to any one of claims 1 to 5, wherein each of the jaw units for tensile testing according to any one of claims 1 to 5 is disposed at the upper and lower portions of the tensile test apparatus main body, respectively, and the upper and lower portions of the specimen are respectively gripped.

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