KR101424895B1 - Subsided through-diffusion test device and agitating device - Google Patents

Abstract

The present invention provides a hollow penetrating diffusion type unloading apparatus comprising: a first container having a first opening formed in an upper portion thereof; a first cover inserted into a first opening of the first container, A second container formed with a second opening at a lower portion thereof and inserted into the first container through an insertion port of the first cover, and a specimen holder fixed to the second opening and coupled to the joint portion of the second opening, Preferably, the test solution is stored in the first container and the diffusion solution is stored in the second container.
In the penetration type penetration diffusion experiment apparatus according to the present invention, the test solution and the diffusion solution are injected by using the inner vessel and the outer vessel so that the experiment can be performed, thereby reducing the volume of the experimental apparatus. It is possible to increase the volume of the outer container so that it is not necessary to provide a separate high concentration test solution reservoir. In addition, it is possible to insert the outer container into the inner container, so that the storage and the experiment can be stably performed.

Description

TECHNICAL FIELD [0001] The present invention relates to a hollow penetration diffusion experiment apparatus and an agitation apparatus,

Field of the Invention [0002] The present invention relates to a penetration diffusion experiment apparatus. And more particularly, to a hollow penetration diffusion experiment apparatus and a stirring apparatus configured to perform a penetration diffusion experiment in a single container.

Experiments have been conducted to measure the velocity and depth of radionuclides and contaminants in rocks. In this penetration diffusion test, the material to be measured (for example, rock) is processed into a plate-like specimen, a storage tank is disposed on one surface and the other surface of the specimen, and a high- And the time, amount, etc., of the tracer passing through the specimen and spreading to the opposite diffusion solution are measured from the storage tank storing the test solution of high concentration by injecting the non-tracer-free diffusion solution into the other reservoir.

Since this experiment takes a long time, the test solution and the diffusion solution should be circulated by using a pump so that concentration deviation does not occur in the storage tank. In order to maintain the concentration of the test solution at a high concentration, a separate high concentration test solution reservoir The concentration of the storage tank should be kept constant. Therefore, the pump and the high concentration test solution reservoir must be provided separately. Therefore, there is a problem that the volume of the experiment apparatus becomes large. In addition, there is a problem that the reservoir should be installed horizontally based on the specimen and maintenance is required.

The penetration type penetration diffusion experiment apparatus according to the present invention aims to solve the following problems.

First, we do not want to install separate facilities such as pump, high concentration test solution reservoir by improving the structure of the reservoir.

Second, we want to reduce the need for management by adopting a stable structure.

Third, by providing the automatic stirring device used in the penetration type penetration diffusion testing device, it is desired to be more convenient and to reduce the necessity of management.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A first cover inserted into the first opening of the first container through the upper surface and the lower surface of the first container, the insertion port being formed at one side of the first cover; A second container formed with a second opening at a lower portion thereof and inserted into the first container through an insertion port of the first cover, and a specimen holder fixed to the joint portion of the second opening by fixing the specimen, 1 It is preferable that the test solution containing the tracer is stored in the inside of the container and the diffusion solution without the tracer is stored in the inside of the second container.

In the penetration type penetration diffusion experiment apparatus according to the present invention, the test solution and the diffusion solution are injected by using the inner vessel and the outer vessel so that the experiment can be performed, thereby reducing the volume of the experimental apparatus. It is possible to increase the volume of the outer container so that it is not necessary to provide a separate high concentration test solution reservoir. In addition, the inner container can be inserted into the outer container, so that storage and testing can be performed stably. In addition, it is possible to perform a more reliable experiment by providing an agitating device for agitating the solution in the penetration type penetration diffusion experiment device.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram of a penetration type penetration diffusion experiment apparatus according to the present invention.
2 is an exploded perspective view of the penetration type penetration diffusion experiment apparatus shown in FIG.
3 is a perspective view of the penetration type penetration diffusion experiment apparatus shown in FIG.
4 is a front view of an agitation apparatus according to the present invention.
5 is an exploded perspective view of the main portion of the stirring apparatus shown in FIG.

Hereinafter, a concrete penetration type diffusion experiment apparatus according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a conceptual diagram of a penetration type penetration diffusion experiment apparatus according to the present invention, FIG. 2 is an exploded perspective view of the penetration type penetration diffusion experiment apparatus shown in FIG. 1, and FIG. 3 is a cross- FIG.

The apparatus for testing penetration type penetration diffusion according to the present invention comprises a first container 100 as shown in FIG. 1 and a second container 200 inserted and disposed inside the first container 100.

A high concentration test solution is injected and stored in the first container 100, and a diffusion solution in which the tracer is removed from the high concentration test solution injected into the first container 100 is stored in the second container 200. The test solution can be used in various ways such as chemical solution or ground water, and can be used by dissolving the chemical or radioisotope in the test solution as a tracer.

A first opening 110 is formed in the upper portion of the first container 100 so that the second container 200 can be inserted into the first container 100. The first opening 110 penetrates the upper surface and the lower surface of the first opening 110, A first cover 120 having an insertion port 121 into which the container 200 is inserted is disposed.

The second container 200 is inserted into the first container 100 through the insertion port 121 of the first cover 120 as described above and the second container 200 has a second opening 210 are formed, and are coupled with the specimen holder 300 to which the specimen 310 used in the experiment is fixed. At this time, the specimen can be a variety of materials such as rock, porous metal, and ceramic.

In this experimental apparatus, the first cover 120 is disposed in the first opening 110 of the first container 100 and the specimen 310 and the specimen holder 300 are fixed to the insertion port 121 of the first cover 120. [ The test solution is injected into the second container 200, and the diffusion solution is injected and stored in the second container 200 to perform the penetration diffusion test.

Therefore, when the bottom surface of the first container 100 is formed to be wider and the first container 100 is formed larger than the second container 200, the experimental apparatus can be more stably installed and operated as described above, A separate test solution reservoir may not be installed.

Therefore, the area of the cross section parallel to the bottom surface of the first container 100 may be greater than the cross-sectional area of the second container 200, and the height h2 of the second container 200 may be greater than the cross- May be smaller than the height (h1) of the container (100).

The upper part of the second container 200 according to the present invention is opened as shown in FIG. 2, and the upper part of the second container 200 opened to facilitate access to the inside of the second container 200 through the opened upper part The second cover 230 may be used.

At this time, an opening / closing valve 231 is provided in the second cover 230 so that the diffusion solution can be easily injected into the second container 200 or a solution sample can be collected. At this time, this valve is defined as a sample collection port (231).

The sample collecting port 231 may be formed not only in the second cover 230 but also in the first cover 120. At this time, in case of the opening / closing valve formed in the first cover 120, it is defined as a test liquid infusion port 123 to distinguish it from the sample collecting port 231.

Only one test sample solution inlet 231 and one test solution solution inlet 123 may be formed in each of the second cover 230 and the first cover 120 but it is easier to inject and collect the test solution, A plurality of bubbles or the like remaining in the container may be removed as shown in FIGS.

The second opening 210 of the second container 200 may be formed in various sizes depending on the nature of the experiment. However, the size of the specimen 310 exposed to the test solution may be widened so as to perform a uniform test. Or may be formed on the entire lower surface of the second container 200.

The first container 100 and the second container 200 according to the present invention may be formed of various materials. However, in order to visually monitor the inside of the first container 100 and the second container 200 during the experiment, Or may be made of a transparent material, or various filter layers may be formed depending on the type of the test solution.

In the case of using the penetration type penetration diffusion experiment apparatus described above, the test solution and the diffusion solution can be injected by using the first vessel 100 and the second vessel 200, And the first container 100 is formed larger than the second container 200, so that there is an effect that a separate high concentration test solution storage tank is not provided. In addition, there is an effect that storage, management and experiment can be performed stably.

4, which is a front view of an agitation apparatus according to the present invention, and FIG. 5, which is a perspective exploded perspective view of the stirring apparatus shown in FIG. 4, the above- Can be disposed on the multi-layer floor surface 410 of the stirring apparatus 400 having the plate 410.

4 and 5, the stirring device 400 includes a main plate 410, a frame 420 having a slide groove 421 formed therein so that a side surface of the main plate 410 can be inserted and slid, And a drive shaft 440 coupled to the eccentric disc 430 and spaced apart from a center axis of the eccentric disc 430. The drive shaft 440 is coupled to the eccentric disc 430, Is rotatably coupled to the stationary bracket 460. Therefore, when the drive shaft 440 rotates, the eccentric disk 430 rotates about the drive shaft 440, thereby circularly moving the main plate 410. The driving shaft 440 is coupled to a motor 470 capable of adjusting the rotational speed and the operation time as shown in FIG. Therefore, when the motor 470 rotates, the solutions in the hollow penetration diffusion experiment apparatus disposed in the main plate 410 are stirred.

4, a plurality of sub-plates 411 may be spaced apart from the main plate 410. At this time, the sub-plate 411 may be slidably inserted into the frame 420, And an extension shaft 450 extending from the central axis of the eccentric disc 430 is coupled to the subplate 411. [

When the eccentric disc 430 rotates, the extended shaft 450 coupled to the eccentric disc 430 performs a circular motion, and the sub-plate 411 coupled to the extended shaft 450 is rotated by an extension shaft 450).

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Accordingly, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and it is apparent that the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: first container
110: first opening
120: first cover
121:
123: Test solution injection port
200: Second container
210: a second opening
220: third opening
230: second cover
231: Sampling point
300: Specimen holder
310: The Psalms

Claims (8)

A first container 100 having a first opening 110 formed in an upper portion thereof;
A first cover 120 through which the upper surface and the lower surface of the first container 100 are inserted and inserted into the first opening 110 of the first container 100;
A second container 200 formed with a second opening 210 at a lower portion thereof and inserted into the first container 100 through an insertion port 121 of the first cover 120; And
And a specimen holder (300) fixed to the specimen (310) and coupled to the connecting portion of the second opening (210)
Wherein the test solution containing the tracer is stored in the first container (100), and the diffusion solution having no tracer is stored in the second container (200).
The method according to claim 1,
The second container 200 may further include a second cover 230 on which a sample collection port 231 is formed to collect or inject the diffusion solution in the second container 200 The penetration type penetration diffusion experiment device.
The method according to claim 1,
Wherein a test liquid injection port (123) is formed on the other side of the first cover (120) so as to inject the test stock solution into the first container (100) or to collect a sample.
The method according to claim 1,
Wherein the second opening (210) is formed on the entire lower surface of the second container (200).
The method according to claim 1,
Wherein the first container (100) and the second container (200) are formed of a light transmitting material.
The method according to claim 1,
The height h2 of the second container 200 is smaller than the height h1 of the first container 100 so that when the second container 200 is inserted into the first container 100, Wherein the specimen holder (300) is spaced from an inner bottom surface of the first container (100).
The stirring device for use in the hollow penetration diffusion experiment device according to any one of claims 1 to 6,
A main plate 410 on which an upper surface of the first container 100 of the penetration type penetration diffusion testing apparatus is mounted;
A frame 420 having a slide groove 421 formed on a side surface of the main plate 410 so as to be slidable;
An eccentric disc 430 coupled to a bottom surface of the main plate 410 to perform circular motion;
And a driving shaft 440 coupled to the eccentric disc 430 spaced from the center axis of the eccentric disc 430. The eccentric disc 430 is rotatably supported by the driving shaft 440 when the driving shaft 440 rotates, Is rotated about the axis of rotation of the stirring member.
8. The method of claim 7,
A plurality of sub-plates 411 are spaced apart from the main plate 410,
The frame 420 further includes a slide groove 421 into which the sub-plate 411 is slidably inserted,
And an extension shaft (450) extending from a central axis of the eccentric disk (430) is coupled to the subplate (411).

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