KR101796753B1 - Apparatus for fixing and reliability measurement of test sample - Google Patents

Abstract

The present invention relates to a specimen reliability measuring apparatus which effectively cleans a specimen with ultrasonic waves in a stable state so as to prevent bubbles generated and touched on the surface of the specimen during a reliability test. The specimen reliability measuring apparatus comprises an ultrasonic washing machine and the specimen fixing apparatus provided inside the ultrasonic washing machine. The specimen fixing apparatus includes a frame provided in a main body of a subject facility or the interior of the subject facility; and at least one fixing portion installed in the main body of the subject facility or inside the frame in a crossing direction to fix the specimen. The frame of the specimen fixing apparatus is laminated so that a plurality of specimens can be stirred with a precipitating solution in the ultrasonic washing machine.

Description

TECHNICAL FIELD [0001] The present invention relates to a specimen fixing apparatus and a specimen reliability measuring apparatus including the same,

A specimen fixing device for facilitating mounting (fixing) of specimens for measurement and a specimen reliability measuring device for measuring the reliability of specimen surface using ultrasonic waves.

Generally, magnesium (Mg) material protects the material from chemical reaction or environmental external factors rather than pure material itself, and it is spread and used through surface coating or color treatment for more stable use.

In other words, the material is protected from chemical reaction or environmental external factors and it is used through coating or color processing for more efficient function. In order to certify the accurate reliability of coating or color processing, As a result of the treatment, the test is carried out by precipitating the specimen of magnesium material into the PH solution for reliability evaluation.

The process of precipitating the specimen of magnesium material processed to a certain size into the PH solution is carried out for a certain period of quality and performance evaluation.

However, after processing a material with a low specific gravity to a certain size, bubbles are generated in the process of quality certification and performance evaluation proceeding through precipitation of the PH solution, and the generated bubbles come into contact with the surface of the workpiece, It is difficult to conduct a smooth reliability evaluation experiment.

As a result, frequent re-experiments occur due to difficulty of accurate test progress and reproducibility, resulting in process and time delay as well as material processing and additional testing costs. Especially, contact and adherence of bubbles on the surface of the material are difficult to proceed smoothly due to the rise of the upper part of the solution in the lightweight material, and it is difficult to certify the quality and evaluate the performance.

The present invention provides a specimen fixing apparatus and a specimen reliability measuring apparatus including the same, which can prevent bubbles from being generated on the surface of a specimen during reliability test by effectively cleaning the specimen with ultrasonic waves in a stable state.

The specimen fixing device includes a frame provided in the body of the target facility or the inside of the target facility; And at least one fixing part installed in the body of the target facility or inside the frame in the cross direction to fix the specimen.

The fixture includes a stopper installed at the center of the fixture to contact and fix one surface of the specimen, a fixture connected to the four directions of the stopper, the fixture being mounted on the fixture, And a support guide for fixing the specimen to the bench by being fixed to the specimen through the back and forth sliding operation.

The supporting guide may further include a supporting pin connected to the frame so as to be inserted through the rear of the frame so as to support the supporting stand and the supporting guide from the inside of the frame.

And the support pin is installed in the cross direction in the same manner as the arrangement direction of the fixing portion while the end portion of the support pin is fixed to the stopper.

The stopper has a rectangular pipe-like structure and forms a center of the stand and the support guide.

And a compression coil spring installed in an inner space between the stand and the support guide to elastically fix the support guide to the specimen.

And the compression coil spring is provided on the outer side of the support pin to impart elastic restoring force to the support guide.

The support guide may further include a handle provided on the upper portion thereof to fix the position of the support guide by being fixed to the stand.

The handle is a bolt-head type protruding upward and has a non-slip protrusion formed on its outer side.

The object facility is provided as an ultrasonic cleaner and is capable of measuring specimen reliability. The frame is installed in a state of being stacked in the ultrasonic cleaner, and a plurality of specimens can be stirred with the precipitating solution in the ultrasonic cleaner .

The sample reliability measuring apparatus includes an ultrasonic washing machine; And a specimen fixing device provided inside the ultrasonic cleaner, wherein a frame of the specimen fixing device is laminated so that a plurality of specimens can be stirred with the precipitating solution in the ultrasonic cleaning device.

According to this apparatus, it is possible to perform the test of reliability of the rapid and precise specimen by cutting off the bubbles generated on the surface of the specimen, and it is possible to suppress the occurrence of additional expense in the experiment as well as time and process shortening through re-

In addition, continuity and reproducibility of experiments can be ensured by solving the problem of specimen flotation due to surface contact and adherence of the generated bubbles, and efficient quality certification and performance evaluation can be performed.

1 is a schematic view showing a specimen fixing apparatus according to the present embodiment.
FIG. 2 is a schematic view showing a specimen fixing unit of the specimen fixing apparatus according to the present embodiment.
3 is a schematic view showing an operation state of the specimen fixing apparatus according to the present embodiment.
Fig. 4 is a schematic view showing a lamination structure of the sample holding device according to the present embodiment.
FIG. 5 is a schematic view showing a state in which a test is performed in a state where a test piece is fixed to the test piece reliability measuring apparatus according to the present embodiment.

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.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a schematic view showing a specimen fixing apparatus according to the present embodiment.

FIG. 2 is a schematic view showing a specimen fixing unit of the specimen fixing apparatus according to the present embodiment.

3 is a schematic view showing an operation state of the specimen fixing apparatus according to the present embodiment.

As shown in FIGS. 1 to 3, the reliability of the surface of the magnesium (Mg) material is measured by introducing a magnesium sample (S) into the interior of the ultrasonic cleaner to generate bubbles on the surface of the sample using ultrasonic cleaning By blocking the bubble contact, the experiment can proceed with promoting the reaction between the precipitate solution and the specimen (S).

The specimen fixing apparatus according to the present embodiment includes a frame 10 provided inside the main body of the target facility or the target facility; And at least one fixing part 20 installed in the main body of the object facility or inside the frame 10 in the cross direction to fix the specimen S. [

That is, the fixing part 20 for supporting the specimen S of the magnesium material inside the frame 1 of the square mold of the specimen fixing device is a structure in which a plurality of connecting parts are assembled by the + It can be used as a laminated structure inside the ultrasonic cleaner.

The frame 10 and the fixing part 20 can be made of various materials including stainless steel.

The fixing unit 20 includes a stopper 21 provided at the center of the fixing unit 20 and having one side of the specimen S contacted and fixed to the fixing unit 20 and four specimens S connected to the four sides of the stopper 21, And is fixed to the specimen S by the forward and backward sliding operation so that the specimen S is fixed to the elevation table 22 by being inserted into the back of the specimen table 22, And a support guide 23 for supporting the guide member.

Here, the fixture 20 is provided with the fixture 22 in four directions around the stopper 21, and the support guide 23 is inserted into the fixture 22 and slidingly moved It is possible to fix the specimen S using the support guide 23 with the specimen S placed on the placing table 22 so that four specimens S can be fixed around the stopper 21 Can be fixed.

The support guide 23 is connected to the frame 10 in a state of being inserted through the rear side of the support frame 23 so that the support frame 23 and the support guide 23 can be supported from the inside of the frame 10 And the support pin 24 is installed in the cross direction in the same manner as the arrangement direction of the fixing portion 20 while the end portion of the support pin 24 is fixed to the stopper 21 .

One end of the support pin 24 is fixed to the stopper 21 by inserting the support pin 24 through the assembly hole and the other end of the support pin 24 is fixed to the frame 10, And can support the stand 22 and the support guide 23. The support pin 24 may be formed of a round or rectangular bar steel.

The stopper 21 has a rectangular pipe structure and is configured to form the center of the stand 22 and the support guide 23. The stopper 21 is disposed in the center of the stand 22 in four directions about the stopper 21, The support guide 23 and the support pin 24 are assembled. Through this, the specimen S can be fixedly installed at four places around one stopper 21.

The test piece fixing device is installed in the inner space formed by the stand 22 and the support guide 23 for fixing the test piece S so that the support guide 23 is elastically supported on the test piece S And the compression coil spring 25 is installed on the outer side of the support pin 24 to apply an elastic restoring force to the support guide 23 .

The compression coil spring 25 can securely fix the specimen S by being pressed against the specimen S by allowing the support guide 23 to exert forces in all directions by the restoring force thereof.

The support guide 23 may further include a handle 26 mounted on the upper portion of the support 23 so as to fix the position of the support guide 23 in contact with the seat 22, (26) is a bolt-head type protruding upward and has a non-slip protrusion (26a) formed on its outer side.

That is, by expanding the compression coil spring 25 by operating the handle 26, the support guide 23 is retracted to secure a certain space in the bench 22, and the specimen S And then the support guide 23 is advanced by the contraction of the compression coil spring 25 through the operation of the handle 26 so that the test piece S is guided by the stopper 21 and the support guide 23, (23).

Fig. 4 is a schematic view showing a lamination structure of the sample holding device according to the present embodiment.

FIG. 5 is a schematic view showing a state in which a test is performed in a state where a test piece is fixed to the test piece reliability measuring apparatus according to the present embodiment.

4 and 5, the object facility constituting the specimen fixing apparatus is provided to the ultrasonic cleaner 1 so as to enable the specimen reliability measurement, and the frame 10 is installed in the ultrasonic cleaner 1, So that the plurality of specimens S can be agitated with the precipitating solution in the ultrasonic cleaner 1.

In addition, the specimen reliability measuring apparatus including the specimen fixing apparatus includes an ultrasonic cleaner 1; And a specimen fixing device provided inside the ultrasonic cleaner 1. The frame 10 of the specimen fixing device is laminated so that a plurality of specimens S are agitated with the precipitating solution in the ultrasonic cleaner 1, It is a structure that can be done.

That is, a large number of specimens S can be effectively tested by fixing the frame 10 in which the plurality of specimens S are fixed in a state in which the frame 10 is laminated inside the ultrasonic cleaner 1.

In the present embodiment, the specimen fixation device and the specimen reliability measuring device including the specimen fixation device are fixed through the space securing, supporting and tightening on the specimen stage 22 for the experiment, It is repeatedly performed.

The frame 10 in which the plurality of specimens S are fixed through the forward and backward movements of the support guide 23 provided on the bench 22 is assembled into a laminated structure inside the ultrasonic cleaner 1, Stirring flow of precipitating solution (Ph solution) using storage and ultrasonic wave prevents bubble formation, solves the floating problem due to bubble contact and adhesion, and can perform quality certification and performance evaluation with quick and accurate reliability experiment.

When the reliability test for the quality authentication and the performance evaluation of the specimen S is completed, the frame 10 assembled in the laminated structure inside the ultrasonic cleaner 9 is sequentially carried out through the operation of the handle 26 The specimen S on the stand 22 is replaced by the backward movement of the support guide 23, and such a process is successively carried out successively and repeatedly.

Therefore, it is possible to conduct the reliability test of the specimen (S) quickly by blocking the bubbles generated on the surface of the specimen, and it is possible to suppress the occurrence of additional expense during the experiment as well as the time and process shortening through re- By solving the problem of specimen (S) floating due to contact and adherence of specimen surface, continuity and reproducibility of experiment can be secured, and efficient quality certification and performance evaluation can be carried out.

While the illustrative embodiments of the present invention have been shown and described, various modifications and alternative embodiments may be made by those skilled in the art. Such variations and other embodiments will be considered and included in the appended claims, all without departing from the true spirit and scope of the invention.

1: ultrasonic cleaner 10: frame
20: fixing part 21: stopper
22: Anchor stand 23: Support guide
24: support pin 25: compression coil spring
26: handle 26a: non-slip projection
S: The Psalms

Claims (11)

A frame provided in the body of the object facility or the interior of the object facility; And
And at least one fixing part installed in the main body of the target facility or the inside of the frame in the cross direction to fix the specimen,
The fixture includes a stopper installed at the center of the fixture to contact and fix one surface of the specimen, a fixture connected to each of the four directions of the stopper so that the specimen can be placed thereon, And a support guide for fixing the specimen to the bench by being brought into contact with the specimen through the back and forth sliding operation,
And the supporting guide further comprises a support pin connected to the frame in a state of being inserted through the rear side thereof so as to support the stand and the support guide from the inside of the frame. delete delete The method according to claim 1,
And the support pin is installed in the cross direction in the same manner as the arrangement direction of the fixing portion while the end portion of the support pin is fixed to the stopper. The method according to claim 1,
Wherein the stopper is formed in a square pipe shape to form a center of the stand and the support guide. The method according to claim 1,
And a compression coil spring installed in an inner space formed between the stand and the support guide to elastically fix the support guide to the specimen. The method according to claim 6,
And the compression coil spring is provided on an outer side of the support pin to impart an elastic restoring force to the support guide. The method according to claim 1,
Wherein the support guide further comprises a handle provided on the upper portion of the support guide so as to fix the position of the support guide by being fixed to the stand. 9. The method of claim 8,
Wherein the handle is a bolt-head type protruding upward, and a non-slip protrusion is formed on the outside. The method according to claim 1,
The target facility is provided with an ultrasonic cleaner to enable the measurement of the sample reliability,
The frame is installed in the ultrasonic cleaner in a stacked state so that a plurality of specimens can be stirred with the precipitating solution in the ultrasonic cleaner. delete

Images