KR20160066758A - Apparatus for supplying test specimen of tention tester - Google Patents

Abstract

Disclosed is an apparatus to supply a test specimen of a tension tester. The disclosed apparatus to supply the test specimen of the tension tester comprises: an apparatus body communicated with the tension tester; and a test specimen supply unit communicated with the apparatus body to provide the test specimen to the tension tester. The test specimen supply unit comprises: a test specimen storage container communicated with the apparatus body to be able to rotate, having a plurality of test specimen storage spaces; a test specimen storage container rotation means communicated with the test specimen storage container to rotate the same; a test specimen holder holding the test specimen, and stored in the test specimen storage space; and a test specimen holder inserting and withdrawing means communicated with the test specimen holder, and pushing or pulling the test specimen holder to allow the same to enter into the test specimen storage space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tensile testing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test piece feeder for a tensile testing machine, and more particularly, to a test piece feeder for a tensile tester for automatically and continuously feeding a test piece to a tensile tester.

Typical test methods used for evaluating the mechanical properties of metal materials are tensile test method, and data such as yield strength, tensile strength, work hardening index, stress coefficient, and uniform elongation can be obtained. Such a tensile test method serves to calculate the above-mentioned mechanical properties by applying a tensile force to the test specimen, and to contribute to the application of steel having mechanical characteristics to appropriate fields.

1, the tensile test according to the related art is performed by manually fixing the test piece 1 to the upper and lower fixing parts 4 and 5 provided on the tensile testing machine 2, While the tensile force is applied to the test piece (1) while moving the test piece (1). Then, when the test was finished, the operator manually separated the test piece (1).

However, since the test piece is detached and removed by manual operation of the operator, the operation time is excessively long and there is a risk of operator safety accidents. Further, in order to obtain accurate tensile test data, it is necessary to install the test piece (1) straight along the tensile direction. However, precise tensile test data could not be obtained because the fixing work of the test piece was manually performed and the precision of the test piece fixing work was lowered.

Korean Patent Publication No. 2010-0072493

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for automatically and continuously supplying a test piece to reduce the time required for detaching and removing a test piece, And to provide a test piece feeding device for a tensile testing machine capable of obtaining precise tensile test data.

A test piece feeding device of a tensile tester according to one aspect of the present invention includes a device body associated with a tensile tester and a test piece supply portion connected to the device body and provided to supply a test piece to the tensile tester, A test piece storage passage rotatably connected to the device body and having a plurality of test piece storage spaces; a test piece storage rotating means operable to rotate the test piece storage container in association with the test piece storage container; And a test piece holder take-out means connected to the test piece holder and operated to push or pull the test piece holder so that the test piece holder moves in and out of the test piece accommodation space.

The test piece reservoir may include a top plate and a bottom plate in the form of a disk, and a side plate connected to the top plate and the bottom plate in a cylindrical shape with the top and bottom surfaces thereof opened and formed with the plurality of test piece storage spaces in a direction perpendicular to the outer circumferential surface thereof have.

The test piece reservoir can be connected to the apparatus body via a fixing pin, and the fixing pin is inserted into the fixing pin insertion groove whose upper end is fixed to the apparatus body and whose lower end is formed on the upper surface of the test piece reservoir And may have a head larger in size than the other portion so as not to be pulled out of the fixing pin insertion groove by being caught by the engaging jaw provided at the entrance side of the fixing pin insertion groove.

The test piece feeding device of the tensile testing machine may further include a roller provided on the device body in the lower portion of the test piece storage case and provided to rotate while contacting the lower surface of the test piece storage container to be rotated.

The test piece reservoir rotating means may include a rack gear provided on an outer circumferential surface of the test piece reservoir, a pinion gear meshed with the rack gear, and a first motor fixed to the apparatus body and having the pinion gear mounted on its rotating shaft have.

The test piece holder includes a lower fixing table having a test piece insertion hole formed in a direction perpendicular to one side of the test piece storage space, the lower fixing table being coupled to the lower fixing table so as to be movable up and down, A lower support plate installed on a test piece fitting hole of the lower fixing table and provided to press both sides of the test piece to fix the test piece; And an upper support plate provided in the fitting hole of the test piece for pressing and fixing both sides of the test piece.

The test piece holder includes a slide rail having a slide groove formed on an upper surface of the lower fixing table and engaged with a slide protrusion formed on the upper fixing table and a guide formed on a lower surface of the upper fixing table, A guide plate mounted on an upper surface of the lower fixing table and inserted into the guide rod insertion hole, a guide plate coupled to an end of the guide rod in the guide rod insertion hole, A first spring member provided between the front surface and the upper surface of the guide plate and a second spring member inserted into the outer circumference of the guide rod and provided between the lower surface of the guide plate and the engaging jaw.

The test piece holder take-out means comprises a guide rod having one end connected to the test piece holder and the other end opposite to the one end inserted through the hole formed in the side wall of the test piece storage case and inserted into the test piece storage case, A third spring member inserted into the outer periphery of the guide rod and provided between the inner wall of the test piece storage case and the guide plate, and a second spring member inserted in the outer periphery of the guide rod, And a second motor fixed to the apparatus body and having a rotation axis coupled to an axis of the eccentric roller.

According to the present invention, since the test piece can be continuously and automatically supplied without depending on the manual operation of the operator, it is possible to reduce the time required for attaching and detaching the test piece, and to prevent a safety accident of the worker when attaching and detaching the test piece. Further, precision of the test piece fixing operation is improved, and accurate tensile test data can be obtained.

1 is a schematic view of a general tensile testing machine.
2 is a schematic view of a tensile testing machine equipped with a test piece feeding device according to the present invention.
3 is a front view showing a test piece feeding apparatus according to the present invention.
4 is a longitudinal sectional view showing a main part of a test piece feeding apparatus according to the present invention.
5 is a cross-sectional view showing a main part of a test piece feeding device according to the present invention.
6 is a bottom cross-sectional view of the specimen holder.
7 is a top cross-sectional view of the specimen holder.
8 is a view showing a state in which the test piece holder is pulled out from the test piece feeding device according to the present invention.
9 is a view showing a tensile test condition using a test piece feeding device according to the present invention.

In order to facilitate understanding of the features of the present invention as described above, a test piece feeding device of a tensile tester according to an embodiment of the present invention will be described in more detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. And that the present invention can be implemented as described above. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

Also, for ease of understanding, in the reference numerals shown in the accompanying drawings, among the components having the same function, the related components are denoted by the same or an extension line number.

Hereinafter, a test piece feeding apparatus according to an embodiment of the present invention will be described in more detail.

2, the test piece feeding device 20 according to the embodiment of the present invention is configured to feed a test piece to a position where the upper and lower fixing parts 4 and 5 of the tensile tester 10 can be held And can be installed on the side guide 2A of the tensile tester 10.

3 to 5, the test piece supplying apparatus 20 according to the embodiment of the present invention may include the apparatus body 100 and the test piece supplying unit 200. [

The test piece supply unit 200 may include a test piece storage container 210, a test piece storage container rotating unit 220, a test piece holder 230, and a test piece holder take-out input unit 240.

Specifically, the apparatus body 100 may include an upper fixing plate 110, a lower fixing plate 120, and a fixing table 130. The fixing table 130 is installed on the side guide 2A of the tensile testing machine 10 in a direction parallel to the side guides 2A and the upper fixing plate 110 and the lower fixing plate 120 are spaced apart from each other in the vertical direction, 130, respectively.

A test piece reservoir 210 is installed between the upper and lower fixing plates 110 and 120 and a plurality of fixing pins 250 for fixing the test piece reservoir 210 are fastened to the upper fixing plate 110 by bolting or welding . A first motor 223 for rotating the test piece reservoir 210 and a second motor 241 for rotating the eccentric roller 242 of the test piece holder take-out means 240 are provided on the upper fixed plate 110, Fastening or welding. A roller 260 is mounted on the lower fixing plate 120 through an L-shaped bracket to support the test piece storage container 210 and rotate while contacting the lower surface of the rotating test piece storage container 210.

The test piece reservoir 210 has a substantially cylindrical shape and includes a cylindrical upper plate 211 and a lower plate 212 and a cylindrical side plate 213 connected between the upper plate 211 and the lower plate 212, do.

The top plate 211 of the test piece storage container 210 is provided with a fixing pin insertion groove 211A into which the fixing pin 250 is inserted and the center of the fixing pin insertion groove 211A is connected to the test piece reservoir 210, And is located on the central axis of the ring gear. The fixing pin 250 is configured to have a head 251 whose lower end portion inserted into the fixing pin insertion groove 211A is larger in size than the other portion and fixed to the fixing pin 250 such that the head 251 of the fixing pin 250 does not come out At the entrance side of the pin insertion groove 211A, a locking protrusion is provided.

The side plate 213 of the test piece storage container 210 has a cylindrical shape with open upper and lower surfaces and a plurality of test piece accommodating spaces 210A are formed on the outer circumferential surface thereof in the vertical direction.

The test piece storage container rotating means 220 is for providing a driving force to the test piece storage container 210 so that the test piece storage container 210 can be rotated and includes the rack gear 221, the pinion gear 222 and the first motor 223 And the like.

The first motor 223 is fixed to the upper fixing plate 110 of the apparatus body 100 by bolting or welding and the rotating shaft of the first motor 223 is fixed to the upper fixing plate 110 of the apparatus body 100 And is coupled with the pinion gear 222 at the lower portion of the upper fixing plate 110 of the apparatus body 100 through the hole. The rack gear 221 is installed on the outer circumferential surface of the upper plate 211 of the test piece reservoir 210 and is gear-engaged with the pinion gear 222. The pinion gear 222 coupled to the rotating shaft of the first motor 223 is rotated and the pinion gear 222 is rotated by the rotation of the first motor 223, And the rack 221 is moved. As the rack gear 221 moves, the test piece reservoir 210 having the rack gear 221 mounted on its outer circumferential surface rotates.

3 to 7, the test piece holder 230 is provided to be accommodated in the test piece accommodating space 210A of the specimen container 210 and includes a lower fixture 231, an upper fixture 232, a lower support plate 233, An upper support plate 234, a slide rail 235, a guide bar 236, a guide plate 237, and first and second spring members 238 and 239.

The lower fixing table 231 has a box shape of a rectangular parallelepiped and a test piece insertion hole 231A is provided in a vertical direction on one side of a lower fixing table 231 arranged toward the outside of the test piece storage space 210A, A pair of lower supporting plates 233 are provided on both side walls of the test piece fitting hole 231A of the lower fixing table 231 so as to face each other.

The lower support plate 233 is made of an elastic material and one end of the lower support plate 233 is fixed to the lower fixing table 231 by a pin at the entrance side of the test piece fitting hole 231A and the interval between the lower support plate 233 and the lower support plate 233 is smaller than the test piece insertion hole 231A And the other end opposite to the one end fixed to the lower fixing table 231 is disposed closest to the lower lower support plate 233. The lower end of the test piece insertion hole 231A is narrower than the lower end of the test piece insertion hole 231A, And is configured to press and fix the side of the test piece 1 together with the lower supporting plate 233.

Similar to the lower fixing table 231, the upper fixing table 232 has a rectangular box shape. A test piece insertion hole 232A is formed on one side of the upper fixing table 232 disposed toward the outside of the test piece receiving space 210A. And a pair of upper support plates 234 are provided on both side walls of the test piece insertion hole 232A of the upper fixing table 232 so as to face each other.

One end of the upper support plate 234 is fixed to the upper fixing table 232 by a pin at the entrance side of the test piece fitting hole 232A and the upper supporting plate 234 is fixed to the upper holding plate 234. [ Is narrowed at the inner side of the test piece fitting hole 231A and wide at the inlet side of the test piece fitting hole 232A and the other end portion opposite to the one end portion fixed to the upper fixing table 232 is bent And is arranged to be closest to the support plate 234 so as to press and fix the side of the test piece 1 together with the opposed upper support plate 234. [

A slide protrusion 232B is formed in the other side opposite to one side of the upper fixture 232 on which the test piece insertion hole 232A is formed and a slide rail 235 is formed on the upper surface of the lower fixture 231, . The slide rail 235 may be integrally formed with the lower fixing table 231 and a groove is formed in the vertical direction to which the slide protrusion 232B of the upper fixing table 232 is coupled.

A guide rod 236 having a shorter length than the slide rail 235 is provided on the upper surface of the lower fixing table 231 to prevent the upper fixing table 232 from being separated from the slide rail 235, A guide rod insertion hole 232C into which a guide rod 236 is inserted is provided.

A guide plate 237 is coupled to the upper end of the guide rod 236 inserted into the guide rod insertion hole 232C and a guide plate 237 is inserted into the guide rod insertion hole 232C at the entrance of the guide rod insertion hole 232C. And a latching jaw is provided so as not to be detached from the base plate. The guide rod 236 is not separated from the guide rod insertion hole 232C as the guide plate 237 is caught by the engagement protrusion and the upper fixture 232 does not rise beyond the length of the guide rod 236 I can not. The guide bar 236 is shorter than the slide rail 235 and the upper fixing bar 232 is moved up and down along the slide rail 235 without being separated from the slide rail 235.

The first spring member 238 is installed between the ceiling surface of the guide rod insertion hole 232C and the upper surface of the guide plate 237 and the second spring member 239 is inserted into the outer peripheral edge of the guide rod 236 And is provided between the lower surface of the guide plate 237 and the engagement jaw of the guide bar insertion hole 232C.

4, the test piece holder take-in / take-out means 240 is connected to the test piece holder 230 so that the test piece holder 230 is inserted into the test piece accommodating space 210A of the test piece container 210, The eccentric roller 242, the guide plate 243, the guide rod 244, and the third spring member 245, which are operated to push or pull the first motor 230, have.

The second motor 241 is fixed to the upper fixing plate 110 of the apparatus body 100 by bolting or welding, and its rotation axis is linked to the rotation axis of the eccentric roller 242.

The eccentric roller 242 is disposed inside the test piece reservoir 210. Both ends of the rotation axis 242A pass through the holes formed in the test piece reservoir 210 and are connected to the rotation axis of the second motor 241, And is connected to the lower fixing plate 120 of the body 100. The rotation of the eccentric roller 242 is not arranged on the central axis of the roller but is eccentric to one side. The distance from the rotation axis of the eccentric roller 242 to the outer peripheral surface of the eccentric roller 242 is not constant.

One end of the pair of guide rods 244 is connected to the lower fixing table 231 and the slide rail 235 of the test piece holder 230. The other end of the guide rods 244, And is connected to the guide plate 243 in the test piece storage case 210 through the hole formed in the side plate 213 of the test piece holder 210.

The guide plate 243 is coupled to the other end of the guide rod 244 in the test piece reservoir 210 and a third spring member 245 is disposed so that the guide plate 243 contacts the outer circumferential surface of the eccentric roller 242 And inserted between the guide plate 243 and the inner wall of the test piece storage bin 210. [

Hereinafter, the operation of the test piece feeding apparatus 20 according to the embodiment of the present invention will be described.

First, the test piece 1 is inserted into and fixed to the test piece holders 230 connected to the plurality of test piece receiving spaces 210A of the test piece storage box 210.

8, when the second motor 241 is operated, the eccentric roller 242 assembled to the second motor 241 rotates to rotate the guide plate 243 against the inner wall of the test piece storage bin 210 The guide rod 244 connected to the guide plate 243 is drawn out of the test piece storage case 210 and the test piece holder 230 connected to the guide rod 244 is inserted into the test piece storage space 210 of the test piece storage case 210, (210A). Therefore, the test piece 1 held by the test piece holder 230 is placed at a position where the upper and lower fixing parts 4,5 of the tensile testing machine can hold it. At this time, the third spring member 245 provided between the guide plate 243 and the inner wall of the test piece storage bin 210 is in a compressed state.

9, the upper fixing part 4 and the lower fixing part 5 of the tensile testing machine are operated to move the upper and lower ends of the test piece 1 to the upper fixing part 4 and the lower fixing part 4 of the tensile testing machine, And the tensile force is exerted on the test piece 1 while moving the movable table (not shown) connected to the upper fixing part 4 upward.

At this time, as the upper side of the test piece 1 is pulled upward, the upper fixing table 232 fixing the upper side of the test piece 1 moves upward together with the test piece 1, and the upper fixing table 232 moves upward The first spring member 238 is compressed and the second spring member 239 is tensioned.

Although not shown, when the test piece 1 is broken and the upward pulling force disappears, the upper fixing plate 232 returns to the initial position by the restoring force of the first and second spring members 238 and 239.

When the second motor 241 is operated and the eccentric roller 242 assembled with the second motor 241 rotates and the guide plate 243 is not pushed any further, the compressed third spring member 245 is restored The guide plate 243 moves in the direction opposite to the inner wall of the test piece storage container 210 and the guide rod 244 connected to the guide plate 243 is drawn into the test piece storage case 210, The test piece holder 230 associated with the test piece storage space 210 is drawn into the test piece storage space 210A of the test piece storage bin 210 and accommodated in the test piece storage space 210A.

When the test piece storage space 210A at the next position is positioned in front of the eccentric roller 242 by operating the first motor 223 to rotate the test piece storage bin 210, A tensile test is performed on the test piece 1 fixed to the installed test piece holder 230 in the same manner as the above-described manner.

According to the present invention, since the test piece can be continuously and automatically supplied without depending on the manual operation of the operator, it is possible to reduce the time required for detaching and removing the test piece, and prevent safety accidents caused by detachment of the test piece. Further, precision of the test piece fixing operation is improved, and accurate tensile test data can be obtained.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that the invention can be variously modified and changed without departing from the technical scope thereof.

20: Specimen Feeder
100: Device body
110: upper fixing plate
120: Lower fixed plate
130:
200: Test piece supply part
210: specimen reservoir
211: top plate
212: Lower plate
213: side plate
210A: Test piece storage space
220: Test piece reservoir rotating means
221: Racks
222: Pinion gear
223: first motor
230: specimen holder
231:
232: upper fixture
233: Lower support plate
234: upper support plate
235: slide rail
236: guide rod
237: guide plate
238,239: First and second spring members
240: Specimen holder inlet / outlet means
241: Second motor
242: eccentric roller
243: guide plate
244: guide rod
245: third spring member
250: Fixing pin
260: Rollers

Claims (9)

A device body associated with the tensile tester; and
And a test piece supply unit coupled to the apparatus body and adapted to supply a test piece to the tensile testing apparatus,
Wherein the test piece supply unit includes: a test piece reservoir rotatably connected to the apparatus body and having a plurality of test piece storage spaces;
Specimen container rotating means operatively associated with said specimen container for rotating said specimen container;
A test piece holder holding the test piece and being accommodated in the test piece accommodation space;
A test piece holder take-out means operatively associated with the test piece holder to push or pull the test piece holder such that the test piece holder enters and exits the test piece storage space; The test piece feeding device of the tensile testing machine.
The apparatus of claim 1, wherein the test piece reservoir comprises a top plate and a bottom plate in the form of a disk;
And a side plate connected to the upper plate and the lower plate and having a plurality of test piece accommodating spaces formed in a direction perpendicular to an outer circumferential surface of the upper plate and the lower plate.
The apparatus of claim 1, wherein the test piece reservoir is connected to the apparatus body via a fixing pin.
4. The apparatus of claim 3, wherein the fixing pin is fixed to the apparatus body at an upper end thereof, and a fixing pin insertion groove formed in an upper surface of the test piece storage case is inserted into the lower surface of the fixing pin insertion hole, And a head having a size larger than the other part so as not to be pulled out from the fixing pin insertion groove by being caught by the jaw.
2. The apparatus of claim 1, further comprising a roller provided on the apparatus body in the lower portion of the test piece storage case and provided to rotate in contact with the lower surface of the rotating test piece storage.
[2] The apparatus of claim 1, wherein the test piece holder rotating means comprises: a pair of gears provided on an outer circumferential surface of the test piece holder;
A pinion gear engaged with the rack gear;
And a first motor fixed to the apparatus body and having the rotation shaft mounted with the pinion gear.
[2] The apparatus of claim 1, wherein the test piece holder comprises: a lower fixing table having a test piece insertion hole formed in a direction perpendicular to one side of the test piece receiving space;
An upper fixture connected to the lower fixture so as to be movable up and down and having a test piece insertion hole formed in a direction perpendicular to one side of the test piece accommodation space;
A lower support plate installed in the test piece insertion hole of the lower fixing table to press and fix both sides of the test piece;
And an upper support plate installed in the test piece insertion hole of the upper fixing table and provided for pressing and fixing both sides of the test piece.
[8] The apparatus of claim 7, wherein the test piece holder comprises: a slide rail having a slide groove formed on an upper surface of the lower fixture and engaged with a slide protrusion formed on the upper fixture;
A guide rod insertion hole formed in a lower surface of the upper fixing table and having a locking protrusion formed on an entrance side thereof;
A guide rod installed on the upper surface of the lower fixing table and inserted into the guide rod insertion hole;
A guide plate coupled to an end of the guide rod in the guide bar insertion hole;
A first spring member provided between a ceiling surface of the guide bar insertion hole and an upper surface of the guide plate;
And a second spring member inserted into the outer periphery of the guide rod and provided between the lower surface of the guide plate and the engaging jaw.
The test piece holder according to claim 1, wherein the test piece holder take-out means comprises a guide having one end connected to the test piece holder and the other end opposite to the one end passing through a hole formed in a side wall of the test piece storage container, Rods;
A guide plate coupled to the other end of the guide rod in the test piece storage container;
A third spring member inserted into the outer periphery of the guide rod and installed between the inner wall of the test piece storage case and the guide plate;
An eccentric roller that contacts the guide plate in the test piece storage case;
And a second motor fixed to the apparatus body and having a rotation axis coupled to an axis of the eccentric roller.

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