KR101908795B1 - Sample holder and measuring apparatus using same - Google Patents

Abstract

The present invention relates to a specimen holder and a measuring apparatus using the same, the specimen holder comprising: a main body; A moving part movably mounted on the main body; And a frame which is provided in the moving part and has a plurality of through holes formed at least at regular intervals so as to hold a plurality of specimens so as to accurately and quickly evaluate the plurality of specimens by uniform continuous measurement through repetitive movement It is possible to drastically shorten the time and process required for the measurement.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sample holder,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a specimen holder capable of measuring many specimens continuously and accurately in rapid succession, and a measuring apparatus using the specimen holder.

Plated materials are classified according to the purpose of use, and the adhesion of the plated layer on the surface of the material during the application of the material according to the purpose has a significant influence on the quality of the material. Therefore, the plating layer is repeatedly measured through the bending of the plated material, and the adhesion is evaluated.

For example, a specimen with two folds, that is, bent at 180 degrees, is produced by repetitive bending of a material processed to a predetermined size, and the adhesion of the plated layer is evaluated by photographing the plated layer of the specimen with a camera.

The problem is that it is difficult to uniformly bend the specimen produced by iterative bending, and the length of the overlapped specimen is long or short and the length variation is large. In addition, since the thickness of the overlapped specimen is thin, it is difficult to maintain the original vertical posture only with the specimen, and it is extremely difficult to reproduce the constant shape. Thus, when the plating layer is measured against a plurality of specimens, it takes a lot of time and processing to adjust the focus and level of the camera for each specimen until the image of the plating layer is clearest.

Especially, since the measurement process of the plating layer is performed manually, it is a cause of the work load and the evaluation quantity is stagnant.

(Patent Document 1) KR 2002-0055721 A

Accordingly, it is a main object of the present invention to provide a specimen holder and a measuring device using the specimen holder, which enable a large number of specimens to be accurately and rapidly measured continuously.

A specimen holder according to the present invention comprises: a main body; A moving part movably mounted on the main body; And a frame provided in the moving part and having a plurality of through holes formed at least at regular intervals so as to hold a plurality of specimens, wherein the fixing part is provided upright on the moving part, And a support portion for supporting the frame is fixed to the guide tube, and a coupling portion for coupling the frame is mounted on the support portion, a mounting hole is formed in the coupling portion, The mounting hole is provided with a spring and a ball member resiliently supported by the spring. A socket is provided on one side of the frame to be engaged with the coupling portion, and a plurality And a ball member of the engaging portion is selectively inserted into the engaging hole .

Further, a measuring apparatus according to the present invention includes: a camera for forming an image of a specimen; And the above-described specimen holder arranged so as to be spaced apart from the camera.

As described above, according to the present invention, it is possible to accurately and quickly evaluate a plurality of specimens by uniform continuous measurement through repetitive movement, thereby achieving an effect of drastically shortening the time and process time required for the measurement.

1 is a perspective view showing a specimen holder according to a first embodiment of the present invention and a measuring apparatus using the specimen holder.
2 is a sectional view of the frame shown in Fig.
3 is a cross-sectional view showing a state in which a plurality of specimens are assembled in the frame of Fig.
4 is an operational state diagram of a measuring apparatus using a specimen holder according to the first embodiment of the present invention.
5 is a perspective view showing a specimen holder according to a second embodiment of the present invention and a measuring apparatus using the specimen holder.
6 is an operational state diagram of a measuring apparatus using a specimen holder according to a second embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view showing a specimen holder according to a first embodiment of the present invention and a measuring apparatus using the specimen holder, FIG. 2 is a sectional view of the frame shown in FIG. 1, Sectional view showing a state in which a plurality of specimens are assembled.

As shown in these drawings, the specimen holder 10 according to the first embodiment of the present invention includes a main body 100; A moving part 200 movably mounted on the main body; And a frame 300 provided at the moving part and having a plurality of through holes 310 formed at least at regular intervals so as to hold a plurality of specimens 1 thereon.

Further, the measuring apparatus according to the present invention comprises a camera 30 forming an image of the specimen 1; And a specimen holder 10 according to the above-described first embodiment arranged so as to be spaced apart from the camera.

The main body 100 is formed in a substantially block-like shape of a metal such as iron or the like to support the other components of the specimen holder 10. And an elongated elongated hole 110 is provided on the side of the main body so that the upper portion of the main body serves as the guide 120.

In the specimen holder 10 according to the first embodiment of the present invention, a plurality of insertion holes 130 are formed on the surface of the guide 120 of the main body 100 at regular intervals.

The moving part 200 is a tubular member having a substantially rectangular cross section and a hollow part 210 is formed at the center along the longitudinal direction and the guide 120 of the main body 100 is inserted through the hollow part, And can be slid by the force that the operator manually pushes.

Here, the shape of the moving part 200 is not limited to the example described above, and may be formed, for example, in a substantially door-like shape, or a shape in which both legs are bent inward toward each other in the door shape .

A pinhole 230 is formed on one side of the upper part of the moving part 200, and the pin 220 can be inserted into the pinhole. The pin is moved to a position where the pinhole 230 of the moving part and one of the insertion holes 130 of the main body are aligned to communicate with each other, It can be inserted into the insertion hole. By inserting and separating the pins, it is possible to repeat the fixing and moving of the moving part.

On the other side of the moving part 200, the fixing part 240 is installed upright. A screw hole (not shown) is formed at an upper end of the fixing portion, and a fixing screw 241 having a head larger than the cross sectional area of the fixing portion is fastened to the screw hole.

The guide pipe 250 can be inserted into the fixing part 240 and move up and down. The fixing position (height) of the guide pipe can be determined by the adjusting screw 251 screwed into the screw hole 252 formed on one side thereof, and the frame 300, which will be described later, The support portion 260 may be fixed.

When the specimen holder 10 according to the first embodiment of the present invention is used in a measuring apparatus for evaluating the adhesion of the plating layer of the test piece 1, the guide tube 250 is moved up and down Next, the specimen for the camera 30 and the level of the frame 300 holding the specimen can be adjusted by fastening the adjusting screw 251 to the screw hole 252.

One end of the support part 260 is fixed to the guide tube 250 at right angles to the longitudinal direction thereof and the other end of the support part 260 is fitted with a coupling part 270 so that the support part 260 can be engaged with the socket 350 of the frame 300 have. A mounting hole (not shown) is formed at one side of the coupling portion, and the coupling portion may include a ball member 271 installed to be elastically supported by a spring (not shown) received in the mounting hole.

As shown in FIGS. 2 and 3, the frame 300 has a substantially rectangular cross-section, and can be made of a relatively light nonmetal or plastic material such as acrylic.

In the frame 300, a plurality of through holes 310 are formed at regular intervals. The spacing of these through holes is the same as the spacing of the insertion holes 130.

For example, as shown in FIG. 2, the through-hole 310 can penetrate the frame 300 in the Y-axis direction and also in the X-axis direction. As such, the through holes are formed to penetrate in the X axis direction and the Y axis direction, so that the test piece 1 having various sizes can be applied. Specifically, a wide specimen may be inserted and supported in the Y-axis direction of the through-hole, and a specimen having a narrow width and a long length may be inserted and supported in the X-axis direction.

A mounting hole 321 is formed in the side wall 320 arranged in the Z-axis direction of the frame 300 in the through hole 310. A spring 322 is accommodated in the mounting hole, And a ball member 323 supported thereon. The test piece 1 inserted into the through hole can be elastically supported by the ball members installed on both side walls of the through hole so as to be held in the frame. That is, the specimen can be held and fixed in the through hole without dropping from the through hole of the frame by the contact of the ball member to which the elastic force of the spring is applied.

On the other hand, when the specimen holder 10 according to the first embodiment of the present invention is used in a measuring apparatus for evaluating the adhesion of the plating layer of the test piece 1, extraction of the sharpest image is performed during the process of evaluating the plating layer of the specimen The outer surface of the weighing frame 300 may be painted with a dark color such as black, for example, without reflection of light.

A socket 350 is provided on one side of the frame 300 in the Z-axis direction. The socket 350 can be engaged with the coupling portion 270 of the support portion 260 described above. A plurality of coupling holes 351 are formed on the inner circumferential surface of the socket at regular intervals in the circumferential direction, and can be fixed and rotated by a certain angle with respect to the coupling portion. The socket 271 can be coupled while the ball member 271 provided at the coupling portion of the support portion is selectively inserted into the corresponding coupling hole of the plurality of coupling holes.

The specimen holder 10 according to the first embodiment of the present invention includes a control bar 400 for uniformly controlling the height of the specimens 1 projecting from the upper surface of the through hole 310 formed in the frame 300, As shown in FIG. The adjustment bar is preferably made of a material such as plastic or wood which is somewhat weaker than the specimen.

4 is an operational state diagram of a measuring apparatus using a specimen holder according to the first embodiment of the present invention.

The feature of the specimen holder 10 according to the first embodiment of the present invention is that the specimen 1 can be inserted into the through hole 310 opened in four directions of the frame 300 by the corresponding size, Each specimen can be held in close contact on both sides by a ball member 323 provided on both side walls 320 of the through hole and the specimens retained in the through hole can be controlled at a uniform level.

Hereinafter, the operation of the specimen holder will be described taking the case where the specimen holder 10 according to the first embodiment of the present invention is used in a measuring apparatus for evaluating the adhesion of the plating layer of the specimen 1 as an example.

Through a separate process, the plated material is made into a specimen 1 which is doubled by repetitive bending, i.e. bent 180 degrees.

The socket 350 of the frame 300 is fitted to the coupling part 270 of the supporting part 260. At this time, the through hole 310 suitable for the size of the specimens 1 to be measured is rotated up and down Lt; / RTI >

A plurality of specimens 1 are sequentially inserted into the through holes 310 so that the plating layer in the bent portions of the specimen is positioned at the upper portion of the through holes.

When the insertion of the test pieces 1 is completed, as shown in FIG. 3, by using the adjusting bar 400 to press the bent portion protruding to the upper portion of the through hole 310, the open tip of the through hole and the bent portion of the specimen are uniform .

The plating layer in the bent portion of the specimen 1 can be clearly displayed due to the dark color around the through hole 310 painted in the frame 300. [

4, the moving part 200 is manually pushed toward the camera 30 so that the test piece 1 inserted in the first through hole 310 closest to the camera in the frame 300 is moved downward .

The pin 220 is inserted into the pinhole and the corresponding insertion hole at a position where the pinhole 230 of the moving part 200 and one of the insertion holes 130 of the main body 100 are aligned so as to fix the position of the moving part .

The guide tube 250 is moved upward and downward by the fixing portion 240 and then the adjusting screw 251 is fastened to the screw hole 252 so that the test piece 1 for the camera 30 and the test piece Thereby adjusting the level of the frame 300 to be held.

Then, when the image of the plating layer of the test piece 1 inserted into the first through hole 310 of the frame 300 through the vertical adjustment of the camera 30 is the clearest, the height of the camera is fixed and the image is taken.

After the plating layer of the test piece 1 inserted in the first through hole 310 is measured, the moving part 200 is repeatedly moved manually. The spacing of the through holes of the frame 300 is the same as the spacing of the insertion holes 130 in the guide 120 of the main body 100 so that the pin hole 230 of the moving part communicates with the next insertion hole of the main body 100 The plating layer of the specimen inserted in the next second through hole 310 of the frame can be sequentially positioned under the lens of the camera 30 by advancing only with respect to the main body.

As a result, in order to adjust the image clarity of the plated layer, it is not necessary to secure the centering of the camera 30 for each specimen 1 and to control the level thereof. It is only necessary to adjust the focus and level of the camera when measuring the plating layer of the specimen inserted in the first through hole 300, and only the advancement of the specimen can be performed for the remaining specimens.

The measurement can be continuously performed through the repeated advancement and when the measurement of the specimens 1 inserted into the through holes 310 is completed, the moving part 200 is manually guided away from the camera 30. [

Next, the frame 300 is rotated to position the through holes 310 so that the upper and lower ends of the through holes 310 are reversed, and a tool such as a stick (not shown) is inserted into each of the through holes to separate the test piece 1 from the through hole Remove.

As described above, according to the present invention, it is possible to accurately and quickly evaluate a plurality of specimens by uniform continuous measurement through repetitive movement, thereby making it possible to drastically shorten the time and the process time required for the measurement.

5 is a perspective view showing a specimen holder according to a second embodiment of the present invention and a measuring apparatus using the specimen holder.

In the second embodiment of the present invention, the remaining components are the same as those of the first embodiment described above except that the driving unit 280 is applied instead of the pin 220, the pinhole 230 and the insertion hole 130 same. Therefore, in describing the specimen holder 20 according to the second embodiment of the present invention, the same components as those of the specimen holder 10 according to the first embodiment are denoted by the same reference numerals, Will be omitted.

Further, the measuring apparatus according to the present invention comprises a camera 30 forming an image of the specimen 1; And a specimen holder 20 according to the above-described second embodiment which is disposed apart from the camera.

In the specimen holder 20 according to the second embodiment of the present invention, a bracket 290 is mounted on one side of the main body 100 that does not interfere with the elongated hole 110, and a driving unit 280 is installed in the bracket .

The driving unit 280 may be a fluid pressure cylinder, an electric actuator, or the like. The end of the actuating rod 281 constituting the driving part can be connected to the moving part 200. [

The moving part 200 is a tubular member having a substantially rectangular cross section and a through hole 210 is formed at the center along the longitudinal direction of the moving part 200. The guide 120 of the main body 100 is inserted through the through hole, The unit 200 can be slid as the operating rod 281 of the driving unit 280 is expanded and contracted.

Here, the shape of the moving part 200 is not necessarily limited to the above example, and may be, for example, a substantially door-shaped shape, or both legs may be curved inward toward each other in the door shape.

An operating rod 281 of the driving unit 280 is connected to one side of the moving unit 200. The moving rod of the driving unit is uniformly stretched or contracted so that the moving unit can be moved a predetermined distance along the guide 120 of the main body 100 and the position is fixed.

6 is an operational state diagram of a measuring apparatus using a specimen holder according to a second embodiment of the present invention.

Hereinafter, the operation of the specimen holder () will be described taking as an example a case where the specimen holder 20 according to the second embodiment of the present invention is used in a measuring apparatus for evaluating the adhesion of the plating layer of the specimen 1. [

Through a separate process, the plated material is made into a specimen 1 which is doubled by repetitive bending, i.e. bent 180 degrees.

The socket 350 of the frame 300 is fitted to the coupling part 270 of the supporting part 260. At this time, the through hole 310 suitable for the size of the specimens 1 to be measured is rotated up and down Lt; / RTI >

A plurality of specimens 1 are sequentially inserted into the through holes 310 so that the plating layer in the bent portions of the specimen is positioned at the upper portion of the through holes.

When the insertion of the test pieces 1 is completed, as shown in FIG. 3, by using the adjusting bar 400 to press the bent portion protruding to the upper portion of the through hole 310, the open tip of the through hole and the bent portion of the specimen are uniform .

The plating layer in the bent portion of the specimen 1 can be clearly displayed due to the dark color around the through hole 310 painted in the frame 300. [

6, the moving unit 200 is pushed toward the camera 30 by driving the driving unit 280, that is, by the extension of the operating rod 281, so that the first through- The specimen 1 inserted into the hole 300 is moved downward of the camera.

The position of the moving part 200 is adjusted and fixed through the operation and stop of the driving part 280.

The guide tube 250 is moved upward and downward by the fixing portion 240 and then the adjusting screw 251 is screwed into the screw hole 251 to fix the specimen 1 to the camera 30 and the specimen Thereby adjusting the level of the frame 300 to be held.

Then, when the image of the plating layer of the test piece 1 inserted into the first through hole 310 of the frame 300 through the vertical adjustment of the camera 30 is the clearest, the height of the camera is fixed and the image is taken.

After the plating layer of the test piece 1 inserted into the first through hole 310 is measured, the moving part 200 is repeatedly moved through the driving part 280. The plating layer of the test piece inserted into the next second through hole 310 of the frame can be sequentially transferred to the main body 100 of the camera 30 by properly stretching the operating rod 281 of the driving part, So that it can be positioned under the lens.

As a result, in order to adjust the image clarity of the plated layer, it is not necessary to secure the centering of the camera 30 for each specimen 1 and to control the level thereof. It is only necessary to adjust the focus and level of the camera when measuring the plating layer of the specimen inserted in the first through hole 310, and only the advancement of the specimen should be performed for the remaining specimens.

When the measurement of the specimens 1 inserted into the through holes 310 is completed, the moving part 200 is moved by the operation of the driving part 280, that is, by the operation rod 281 ) From the side of the camera 30 by the contraction of the camera 30.

Next, the frame 300 is rotated to position the used through holes 310 so that the top and bottom of the used through holes 310 are reversed, and a tool such as a stick is inserted into each of the through holes to remove the test piece 1 from the through hole of the frame.

As described above, according to the present invention, it is possible to accurately and quickly evaluate a plurality of specimens by uniform continuous measurement through repetitive movement, thereby making it possible to drastically shorten the time and the process time required for the measurement.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present specification and drawings are intended to illustrate rather than limit the technical spirit of the present invention, and the scope of technical spirit of the present invention is not limited by these embodiments. 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.

1: Psalm 10, 20: Specimen holder
30: camera 100:
110: Hole 120: Guide
130: insertion hole 200: moving part
210: hollow part 220: pin
230: pinhole 240:
250: Guide tube 260: Support
270: engaging portion 280: driving portion
300: frame 310: through hole
320: side wall 400: adjustable bar

Claims (13)

main body;
A moving part movably mounted on the main body; And
A plurality of through holes formed at least at regular intervals so as to hold a plurality of specimens,
/ RTI >
The fixing part is installed upright on the upper part of the moving part, and the guide pipe is inserted into the fixing part and can move up and down.
Wherein a support portion for supporting the frame is fixed to the guide tube, and a coupling portion for coupling the frame is mounted on the support portion,
Wherein a mounting hole is formed in the coupling portion, and the mounting hole is provided with a spring and a ball member elastically supported by the spring,
A socket is provided on one side surface of the frame,
Wherein a plurality of coupling holes are formed in the socket at regular intervals in a circumferential direction, and a ball member of the coupling portion is selectively inserted into the coupling hole. The method according to claim 1,
Wherein an elongated hole is formed laterally in the main body, the upper portion of the main body forms a guide,
Wherein the moving part is formed with a hollow part along a longitudinal direction, and a guide of the main body is inserted through the hollow part. The method according to claim 1,
Wherein the guide tube is positioned at the fixing portion by an adjusting screw screwed into a screw hole formed in one side surface. delete delete delete delete The method according to claim 1,
A mounting hole is formed in a side wall of the through hole,
Wherein the mounting hole is provided with a spring and a ball member resiliently supported by the spring. The method according to claim 1,
Wherein the outer surface of the frame is painted with a color without reflection of light. The method according to claim 1,
And a control bar for uniformly controlling the height of the specimen protruding from the through hole. 3. The method of claim 2,
A plurality of insertion holes are formed in the guides of the main body at regular intervals,
Wherein a pinhole is formed on an upper side of the moving part, a pin is inserted into the pinhole, and the pin is inserted into one of the insertion holes. 3. The method of claim 2,
A drive unit is installed on one side of the main body,
And an operating rod of the driving part is connected to the moving part. A camera that forms an image of the specimen; And
A specimen holder according to any one of claims 1 to 3 and 8 to 12, arranged to be spaced apart from the camera
.

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