KR101916766B1 - Sample fixing apparatus - Google Patents

Abstract

According to the present invention, provided is a specimen fixing device comprising: a hydraulic chuck (110) having a body (111) providing a coupling space (113), and a moving body (116) moving by a hydraulic pressure against the body and forming a bottom of the coupling space at a terminal end thereof; an adapter (120) detachably coupled to the coupling space; and a bolt chuck (130) detachably coupled to the adapter.

Description

SAMPLE FIXING APPARATUS

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a specimen fixing apparatus, and more particularly, to a specimen fixing apparatus used for fixing a specimen in various testing apparatuses such as a fatigue testing apparatus.

The fatigue tester is a tester that ensures the stability and durability of various structures and materials. It measures the load, stress and displacement of the main part and observes the destructive process by applying the load of the waveform similar to the actual, It is a test device to obtain characteristics.

The fatigue testing machine is equipped with a specimen fixing device for fixing the specimen. Generally, a bolt chuck using a bolt and a hydraulic chuck using a hydraulic pressure are used as a specimen fixing device for a fatigue testing machine. In the case of a bolt chuck, a structure for fixing a specimen using a plurality of bolts is suitable for a high strength specimen. However, since a large number of bolts must be tightened and loosened, workability is reduced. In the case of a hydraulic chuck, a jaw is operated by hydraulic pressure to fix a specimen, which is easy to work but has a problem in that it is not fixed or firmly fixed to a high strength specimen. Therefore, depending on the type of the specimen, the bolt chuck and the hydraulic chuck are alternately used and replaced with each other. Also, because the force of a person is used, a resultant error occurs.

Korean Patent Laid-Open Publication No. 10-2015-0073779 entitled " Test piece charging apparatus and test piece charging method using the same "(2015.07.01.) US registered patent US 5,481,923 "HOLDER OF FATIGUE TEST PIECE" (Aug. 31, 2006)

It is an object of the present invention to provide a specimen fixing apparatus for fixing a specimen.

Another object of the present invention is to provide a sample clamping apparatus which is easy to replace the hydraulic chuck and the bolt chuck.

According to one aspect of the present invention, there is provided a hydraulic chuck (not shown) having a body 111 for providing a coupling space 113 and a moving body 116, which is moved by hydraulic pressure to the body and whose end forms a bottom of the coupling space. 110); An adapter (120) detachably coupled to the coupling space; And a bolt chuck 130 detachably coupled to the adapter.

The body includes a first engagement wall portion 112a and a second engagement wall portion 112b that are opposed to each other with the engagement space therebetween, and the two engagement wall portions may be inclined toward each other as they approach the end.

The adapter includes a first contact side 121a and a second contact side 121b located opposite to each other, and each of the two contact sides includes a first inclined portion 123a that is inclined to closely contact the two engagement wall portions, And the second inclined portion 123b may be formed.

A seating groove 118 on which the adapter is seated is formed at an end of the moving body forming the bottom of the coupling space, and a protrusion 124 seated in the seating groove may be formed at the bottom of the adapter.

The bolt chuck may be detachably coupled to an end of the adapter by a bolt.

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, since the bolt chuck can be easily coupled to and separated from the hydraulic chuck via the adapter, it is convenient to use the bolt chuck and the hydraulic chuck alternately as necessary.

FIG. 1 is a photograph of a fatigue tester provided with a sample fixing device according to an embodiment of the present invention.
Fig. 2 is an enlarged photograph of the specimen fixing device in Fig.
3 is a perspective view of a specimen fixing apparatus according to an embodiment of the present invention.
4 is a side view of the specimen fixing apparatus shown in Fig.
5 is an exploded perspective view of the specimen fixing apparatus shown in Fig.
6 is a perspective view of the hydraulic chuck shown in Fig.
Figure 7 is a perspective view of the adapter shown in Figure 3;

Hereinafter, the configuration and operation of an embodiment of the present invention will be described in detail with reference to the drawings.

In this embodiment, it is described that the specimen fixing apparatus according to the embodiment of the present invention is installed in the fatigue testing apparatus and used, but the present invention is not limited thereto. It is also included in the present invention that it is installed and used in all devices for fixing a specimen such as a testing machine other than a fatigue testing machine.

Referring to FIGS. 1 and 2, the fatigue testing machine 10 includes two specimen fixing apparatuses 100 according to an embodiment of the present invention. The two specimen clamping apparatuses 100 are disposed so as to face each other along the vertical direction in the figure, and fix both ends of the specimen S firmly. The two specimen clamping apparatuses 100 have the same configuration.

3, 4 and 5 show a specimen fixing apparatus 100 installed in the fatigue testing machine 10 as perspective views, side views, and exploded perspective views, respectively. 3 to 5, a specimen fixing apparatus 100 according to an exemplary embodiment of the present invention includes a hydraulic chuck 110, an adapter 120 detachably coupled to the hydraulic chuck 110, , And a bolt chuck (130) detachably coupled to the adapter (120). The specimen clamping apparatus 100 can easily use the fatigue tester 10 because the bolt chuck 130 can be easily coupled to and separated from the hydraulic chuck 110 by using the adapter 120. [

6, the hydraulic chuck 110 is shown as a perspective view. 3 to 6, the hydraulic chuck 110 includes a body 111 and a moving body 116 that moves by hydraulic pressure with respect to the body 111. As shown in FIG. The adapter 120 is detachably coupled to and fixed to the hydraulic chuck 110 by a moving body 116 that moves by hydraulic pressure.

The body 111 has a first engagement wall portion 112a and a second engagement wall portion 112b which are opposed to each other. The two coupling wall portions 112a and 112b are inclined so as to approach each other as they approach the end (upper end in the drawing). Accordingly, the space 113 formed between the two coupling wall portions 112a and 112b has a shape becoming narrower toward the end. The adapter 120 is accommodated and coupled to the coupling space 113 formed between the two coupling wall portions 112a and 112b. The bottom of the engagement space 113 is formed at one end (the upper end in the figure) of the moving body 116 in the moving direction. Although not shown in the coupling space 113, a jaw for securing a specimen can be accommodated and coupled instead of the adapter 120. [ The body 111 is provided with a coupling groove 114 extending through the coupling space 113 and extending in a straight line. The coupling space 113 of the adapter 120 is allowed to enter and exit through the coupling groove 114.

The moving body 116 is capable of reciprocating linearly by hydraulic pressure, and one end 117 in the moving direction (upper end in the drawing) forms the bottom of the engaging space 113. A seating groove 118 in which the adapter 120 is seated is formed at one end 117 of the moving body 116 forming the bottom of the coupling space 113. The engagement state of the adapter 120 in the engagement space 113 is determined according to the moving position of the moving body 116. [ That is, when the moving body 116 moves away from the coupling space 113 and moves backward, the adapter 120 is freely movable in the coupling space 113. When the moving body 116 is moved toward the coupling space 113 The adapter 120 is in tight contact with the two coupling wall portions 112a and 112b in the coupling space 113 to be fixed.

The adapter 120 is detachably coupled to the hydraulic chuck 110 and the bolt chuck 130 is detachably coupled to the adapter 120. 7, the adapter 120 is shown as a perspective view. 3 to 5 and 7, the adapter 120 is a generally columnar shape that can be received in the engagement space 113 formed in the hydraulic chuck 110 and has a first contact side 121a And a second contact side surface 121b. The two contact sides 121a and 121b have a first inclined portion 123a and a second inclined portion 123b, which become closer to each other as they approach from the bottom 122 to the end. The first inclined portion 123a and the second inclined portion 123b have appropriate slopes so as to be in close contact with the first engagement wall portion 112a and the second engagement wall portion 112b, respectively. The bottom 122 of the adapter 120 is provided with a protruding portion 124 protruding to be seated in the seating groove 118 formed in the moving body 116. The protrusion 124 is seated in the mounting groove 118, so that the adapter 120 is aligned and fixed at the correct position. The upper end 125 of the adapter 120 (the opposite end of the bottom 122) with the adapter 120 received and fixed in the engaging space 113 is provided with a gap between the ends of the two engaging wall portions 112a and 112b . A first internal thread portion 126 positioned at the center and a plurality of second internal thread portions 127 positioned at the periphery of the first internal thread portion 126 are formed on the upper end 125 of the adapter 120. The bolt chuck 130 is detachably coupled by the first internal thread portion 126 and the plurality of second internal thread portions 127.

The adapter 120 moves through the coupling groove 114 in the state where the moving body 116 of the hydraulic chuck 110 is moved downward (the state shown in FIG. 6) And the projecting portion 124 of the adapter 120 is seated in the seating groove 118 of the moving body 116. Thereafter, the moving body 116 is advanced by hydraulic pressure to move the adapter 120, and the two inclined portions 123a and 123b of the adapter 120 are closely contacted to the two coupling wall portions 112a and 112b of the hydraulic chuck 110 So that the adapter 120 is fixed to the hydraulic chuck 110. The process in which the adapter 120 fixed to the hydraulic chuck 110 is separated from the hydraulic chuck 110 is the reverse of the above-described coupling process.

The bolt chuck 130 is detachably coupled to the adapter 120 to secure the specimen. 3 to 5, the bolt chuck 130 includes a support member 140, a plurality of first bolts 150 detachably coupling the support member 140 to the adapter 120, A plurality of coupling members 160a and 160b detachably coupled to the support member 140 to fix the sample and a plurality of second bolts 160a and 160b detachably coupling the plurality of coupling members 160a and 160b to the supporting member 140. [ (Not shown).

The support member 140 includes a support body 141 and a male threaded portion 145 protruding from the support body 141. A plurality of first bolt holes 143 are formed in the outer periphery of the specimen seating groove 142, and a plurality of first bolt holes 143 are formed in the outer periphery of the specimen seating groove 142. [ And a plurality of nut holes 144 are formed around the circumference of the plurality of first bolt holes 143 so as to be arranged along the circumferential direction. The first bolt 150 is fastened to the second internally threaded portion 127 of the adapter 120 through the plurality of first bolt holes 143. A plurality of second bolts 170 are fastened to the plurality of nut holes 144 one on the other. The male screw portion 145 is protruded from the lower surface of the receiving member 140 and is fastened to the first female screw portion 126 formed on the adapter 120. [

The plurality of first bolts 150 pass through the plurality of first bolt holes 143 formed in the receiving member 140 and are respectively fastened to the second female threads 127 formed on the adapter 120. The head of the first bolt 150 is seated in the corresponding first bolt hole 143 so that the plurality of first bolts 150 securely fix the catch member 140 to the adapter 120.

The plurality of engaging members 160a and 160b are detachably coupled to the plurality of second bolts 170 in a divided form on the upper surface of the receiving body 141. [ In the present embodiment, it is described that there are two coupling members 160a and 160b, but the present invention is not limited thereto, and three or more coupling members 160a and 160b may be used. A plurality of second bolt holes 161a and 161b are formed in each of the plurality of engaging members 160a and 160b. The second bolt 170 is fastened to the nut hole 144 formed in the receiving body 141 through the plurality of second bolt holes 161a and 161b. Specimen passage grooves 162a and 162b are provided on the opposing surfaces of the plurality of engaging members 160a and 160b respectively corresponding to the specimen seating grooves 142 formed in the supporting body 141. [ When the two coupling members 160a and 160b are coupled to the supporting body 141, the two test piece passing grooves 162a and 162b are combined to form a through hole through which the test piece passes.

The plurality of second bolts 170 pass through the plurality of second bolt holes 161a and 161b formed in the engaging members 160a and 160b and are respectively coupled to the nut holes 144 formed in the receiving body 141. [ The head of the second bolt 170 is seated in the corresponding second bolt holes 161a and 161b so that the plurality of second bolts 170 are engaged with the specimen and the two coupling members 160a and 160b to the supporting body 141 Together firmly.

Although the present invention has been described with reference to the above embodiments, the present invention is not limited thereto. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

100: Specimen fixing device 110: Hydraulic chuck
111: body 112a: first engagement wall portion
112b: second coupling wall portion 113: coupling space
114: connection groove 116: mobile body
118: seat groove 120: adapter
124: protrusion 130: bolt chuck

Claims (6)

A hydraulic chuck 110 having a body 111 providing a coupling space 113 and a moving body 116 moving by hydraulic pressure against the body and forming a bottom of the coupling space at an end thereof;
A columnar adapter 120 detachably coupled to the coupling space; And
And a bolt chuck (130) detachably coupled to the adapter,
The adapter 120 includes an upper portion exposed to the upper portion of the hydraulic chuck 110 in a state where the bolt chuck 130 is coupled to the upper portion of the hydraulic chuck 110, And a lower portion accommodated in the engaging space 113,
The lower portion includes a first inclined portion 123a and a second inclined portion 123b which are located opposite to each other and become closer to each other as they approach from the bottom 122 to the upper end of the adapter 120, The first inclined portion 123a and the second inclined portion 123b are in close contact with the first engagement wall portion 112a and the second engagement wall portion 112b forming the inside of the body 111,
The bottom 122 of the adapter 120 is formed in a stepped shape to fit into a seating groove 118 formed in the moving body 116,
The bolt chuck 130 is fixed by the first internal thread portion 126 formed at the center of the upper end 125 of the adapter 120 and the plurality of second internal thread portions 127 positioned around the first internal thread portion 126, Is detachably coupled,
The adapter 120 is coupled to the coupling space 113 of the hydraulic chuck 110 through the coupling groove 114 formed in the hydraulic chuck 110 in a state where the moving body 116 of the hydraulic chuck 110 is retracted downward, The adapter 120 is moved in accordance with an increase in the hydraulic pressure of the moving body 116 so that the two coupling wall portions 112a and 112b of the hydraulic chuck 110 are moved The first and second inclined portions 123a and 123b come into close contact with each other to fix the adapter 120 to the hydraulic chuck 110,
The bolt chuck 130 includes a support member 140 coupled to the upper end of the adapter 120 through the first and second female threads 126 and 127 and detachably coupled to the support member 140 And a plurality of coupling members (160a, 160b) for fixing the sample,
Specimen holders.
The method according to claim 1,
Wherein the two coupling wall portions are inclined so as to be closer to each other toward the end. delete The method according to claim 1,
Wherein a protrusion (124) is formed at the bottom of the adapter to be seated in the seating groove. delete delete

Images