KR20110030997A - Extensometer bracket for tensile, compression and fatigue test - Google Patents

Abstract

PURPOSE: An extensometer bracket for tensile, compression, and fatigue tests is provided to accurately measure the axial distance change of a test piece by preventing an extensometer ceramic rod from slipping. CONSTITUTION: An extensometer bracket for tensile, compression, and fatigue tests comprises first and second slide units(200,300), first and second moving units(310,320), a tension adjusting spring(330), a tension adjusting screw(340), and an extensometer ceramic rod unit(400). One end of the first slide unit is fixed to a connection member(211) connected to a post(10) of a fatigue tester. A first guiderail(201) is formed on the top of the first slide unit. The second slide unit is coupled to the first guiderail of the first slide unit and has a second guiderail(301). The first moving unit is fixed to the second guiderail through multiple screw holes. One end of the second moving unit is connected to the first moving unit. The tension adjusting spring and screw elastically support the second moving unit. The extensometer ceramic rod is connected to the second moving unit.

Description

EXTENSOMETER BRACKET FOR TENSILE, COMPRESSION AND FATIGUE TEST}

The present invention relates to an extensometer holder for tension, compression and fatigue testing, which can prevent the extensometer ceramic rod attached to a specimen from slipping during tensile, compression and fatigue testing of materials.

Extensometer measurement of axial distance change of test piece is essential for tensile or compression test for evaluation of material properties at room temperature and high temperature, and axial distance change must be accurately measured for strain control during fatigue test. Use

The extensometer is a sensor used to measure the strength and strain of the specimen, and is a device for measuring the distance change between two points on the same axis when the specimen is rectangular or circular. It is used to measure lengthening and shrinking.

Conventional extensometers use an attachment method in which a ceramic rod is directly bonded to a test piece using a high temperature material and supported by a steel rod. However, with the extensometer attachment method as described above, the axial distance change measurement may be inaccurate because the extensometer ceramic rod slides on the test specimen. Since it is difficult to easily separate the meter ceramic rod, there is a dangerous problem that the extensometer ceramic rod may be damaged due to an impact when the specimen is broken, or the tester may be in contact with a high temperature component to cause burns.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a cradle that can prevent the extension ceramic rod for tension, compression and fatigue test slip.

Extensometer holder for tension, compression and fatigue test of the present invention for achieving the above object is the first slide and the top of the first slide to adjust the distance between the fatigue tester pillar and the extensometer ceramic rod A first slide part and a second moving part formed on the second slide part and the second moving part formed on the second slide part to be detachable from the test piece. Characterized in that it comprises a metric ceramic rod,

It characterized in that the tension is adjustable by forming a spring and the tension adjusting screw between the first moving part and the second moving part,

It characterized in that it comprises a small spring between the extensometer ceramic rod portion and the second moving portion,

The second moving part and the extender ceramic rod part is fixed through the n-shaped fixing part,

The extensometer ceramic rod is characterized in that it comprises a sensor,

An extensometer holder for tension, compression and fatigue testing, characterized in that the heat insulating member is formed at the end of the second slide.

As described above, the extensometer holder for tension, compression, and fatigue testing according to the present invention has a technical feature in that the extensometer ceramic rod can be separated before the specimen is broken to prevent breakage. .

In addition, the extensometer holder for tension, compression, and fatigue test according to the present invention can prevent the phenomena of the extensometer ceramic rod slipping to improve the accuracy of measuring the axial distance change of the test piece. There is this.

The foregoing description relates to specific embodiments and can be easily understood by those of ordinary skill in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Could be.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As already mentioned, in the tensile, compression and fatigue test after joining the extensometer ceramic rod to the test piece, the poor contact of the extensometer ceramic rod or a part of the extensometer ceramic rod penetrates the test piece. In order to solve the problem in which the experimental value is unclear, the extensometer holder according to the present invention uses a spring to prevent the extensometer ceramic rod attached to the test piece from slipping and to be easily detached before the test piece is broken. Technical features of the present invention will now be described with reference to the accompanying drawings.

1 is a perspective view of an extensometer holder according to the present invention, the extensometer holder according to the present invention includes a first slide part 200 and the first slide part 200 connected to the fatigue tester column 10. The first moving part 310 and the second moving part formed on the second slide part 300 and the second slide part 300 which are coupled to an upper end thereof to separate the extensometer ceramic rod from the test piece. 320 and an extender ceramic rod part 400 connected to the second moving part 320.

First, the extensometer holder according to the present invention is firmly fixed by using the connection member 211 to the tensile, compression and fatigue tester column (10). One side of the first slide unit 200 is fixed to the one end of the connecting member 211 through a fixing screw 210.

A guide rail 201 is formed at an upper end of the first slide part 200, and a second slide part 300 is coupled to the guide rail 201 to guide the guide rail 201 of the first slide 200. It is possible to move along the distance between the test piece (1) and the extensometer ceramic rod 410, the fixing screw 220 formed on the top of the second slide 300 and the top of the first slide 200 The position of the second slide 300 may be fixed by coupling the formed holes.

In addition, two moving parts 310 and 320 are formed on the guide rail 301 formed on one side of the second slide 300. In addition, the tension adjusting spring 330 and the adjustment screw 340 is fastened between the first moving part 310 and the second moving part 320 to bring the extensometer ceramic rod 410 into close contact with the test piece. It is possible.

Specifically, the guide rail 301 is formed with a plurality of screw holes at a predetermined interval, and after setting the desired fixing position by the user using the fixing and separating screws 311 to the first moving part 310 Secure it to the gong.

The second moving part 320 may be coupled to the first moving part 310 by a screw or a rod.

In addition, an elastic member is coupled between the first moving part 310 and the second moving part 320 for tension control. In one embodiment of the invention the elastic member is characterized in that the spring.

The tension adjustment spring 330 is constrained in its position by the adjustment screw 340, and the extensometer ceramic rod 410 is a test piece (1) by allowing the second moving part 320 to elastically support. Make sure you stick to).

The extender ceramic rod part 400 according to the present invention includes the extender ceramic rod 410 and a support part 411 capable of supporting the extender ceramic rod 410.

The extensometer ceramic rod 400 is fixed to one side of the second moving part 320 through a fixing part 420. The fixing part 420 has a "b" shape, one side of which is fitted with one side of the extensometer ceramic rod 400, and the other side of which is screwed with the second moving part 320.

In addition, the extensometer ceramic rod 410 is formed in two or more so as to be in close contact with the specimen for the tensile, compression and fatigue test of the specimen, between the ceramic rod support 411 and the fixing portion 420 The small spring 430 is formed in the extensometer ceramic rod 410 in close contact with the test piece 1 can be prevented from sliding up and down.

The support part 411 is formed to have two holes in a cross section to support the pair of extensometer ceramic rods 410, and a small spring 430 between the support part 411 and the fixing part 421. ) Can be inserted into any shape. In an embodiment of the present invention, the support 411 having a cross section is formed to support two of the extensometer ceramic rods 410 spaced apart from each other at a predetermined interval.

In addition, the extensometer ceramic rod 400 includes a sensor 440 to measure the measured value of the test piece and the movement value of the extensometer ceramic rod and transmit the measured value to the connected measuring device (not shown).

In addition, a heat insulating member 450 may be installed at the end of the second slide 300 to prevent heat from being transferred from the high temperature test piece 1 and to measure a precise value. The extensometer ceramic rod 410 is formed to be inserted and moved between holes of a predetermined size formed in the heat insulating member 450.

1 shows a perspective view of an extensometer holder for tensile, compression and fatigue testing according to the present invention.

* Drawing symbol *

1: test piece

10: fatigue testing machine column

200: first slide portion 201: guide rail 210: fixing screw

211: connecting member

300: second slide portion 301: guide rail

310: first moving part 311: screw for fixing and removing

320: second moving part 330: tension adjusting spring 340: tension adjusting screw 400: extensometer ceramic rod

410: extender ceramic rod 411: support

420: "b" type fixing part 430: small spring

440 sensor 450 insulation member

Claims (5)

A first slide part 200 having one end fixed to the connection member 211 connected to the fatigue tester column 10 and having a guide rail 201 at an upper end thereof; A second slide part 300 coupled to the guide rail 201 of the first slide part 200 and having a guide rail 301 on one side thereof; A first moving part 310 fixed through a plurality of screw holes formed in the guide rail 301 of the second slide part 300; A second moving part 320 having one end connected to the first moving part 310; A tension adjusting spring 330 and a tension adjusting screw 340 formed between the first moving part 310 and the second moving part 320 to elastically support the second moving part 320; An extensometer holder for tension, compression, and fatigue testing comprising an extensometer ceramic rod part 400 connected to the second moving part 320. The method according to claim 1, The second moving part (320) and the extender ceramic rod part (400) is an extensometer holder for tensile, compression, and fatigue tests connected through a "b" type fixing part (420). The method according to claim 1, The extensometer ceramic rod 400 With a pair of extensometer ceramic rods (410) The support part 411 for supporting the extensometer ceramic rod 410 and Extensometer holder for tension, compression and fatigue testing including a sensor (440) for detecting the movement value of the extender ceramic rod. The method according to claim 1, Extensometer holder for tension, compression and fatigue further comprises a small spring (430) between the support (4110) and the "b" type fixing part (420). The method according to claim 1, Extensometer holder for tension, compression and fatigue test that the heat insulating member 450 is disposed at the end of the second slide portion 300.

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