KR101036023B1 - Apparatus for collecting of radioactive waste matter and method the same - Google Patents

Abstract

PURPOSE: An apparatus for collecting of radioactive waste matter and a method thereof are provided to save the processing cost of radioactive wastes by repeatedly performing the compression process for a combustion waste. CONSTITUTION: A vacuum vessel(10) receives a combustor waste, and a coupler of the vacuum vessel is connected to a vacuum pump. A vacuum pressure plate(20) includes a packing unit, an air vent, and a handle. The packing unit seals up the inner portion of the vacuum vessel.

Description

Apparatus for collecting of radioactive waste matter and method the same}

The present invention relates to a radioactive waste collection device and method, and more particularly, to a vacuum container having an empty interior, a vacuum press plate for vacuum pressurizing combustion waste in the vacuum container, and a sealed vacuum container filled with combustion waste. While the cover is provided, the combustion waste is put into the vacuum container, the vacuum pressure plate is covered, and the combustion waste is compressed several times to reduce the volume by pressurizing the combustion waste while sucking the air inside the vacuum container through the vacuum pump. When the vacuum container is filled with the fully compressed combustion waste repeatedly, cover the airtight cover to dispose the vacuum container in a separate designated waste container, so that the maximum amount of the combustion waste can be processed through the vacuum container of a certain size. It is possible to reduce processing costs and improve competitiveness by reducing the number of vacuum containers. It relates to radioactive waste disposal apparatus and a method for rock.

In general, radioactive waste is a waste product that contains radioactive decaying materials, and is produced by nuclear processing such as fission, but industries not directly related to the nuclear industry produce radioactive waste.

As radioactivity diminishes over time, in principle, it needs to be segregated for some time until it is no longer exposed to danger.

Some medical and industrial radioactive waste may take hours or years, but high-level waste from nuclear power plants and nuclear weapons reprocessing may take thousands of years.

Most radioactive waste is classified as low-level waste, indicating low levels of radioactivity for mass or volume.

As an example of the prior art for treating such radioactive waste, there has been a method of injecting waste into a dedicated storage container and then permanently storing it in an underground repository.

However, the conventional method for treating radioactive waste as described above is to simply put the radioactive waste in a dedicated container and then seal it and store it permanently in the underground disposal warehouse, so that the volume of the radioactive waste is not compressed at all. Since air coexists in the gaps, the number of dedicated containers is increased, resulting in an increase in processing costs.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a vacuum container with an empty interior, a vacuum pressurizing plate for vacuum pressurizing combustion waste in the vacuum container, and an airtight cover for sealing a vacuum container filled with combustion waste. Compress the combustion waste inside the vacuum container, cover the vacuum pressure plate, and press the combustion waste to reduce the volume by pressurizing the combustion waste while inhaling the air inside the vacuum container through the vacuum pump. When the vacuum container is filled with compressed combustion waste, cover the airtight cover to dispose the vacuum container in a separate designated waste container, so that the maximum amount of combustion waste can be processed through the vacuum container of a certain size. Radiation to reduce processing cost and improve competitiveness by reducing It is an object of the present invention to provide an apparatus and method for collecting waste.

Radioactive waste collection device according to an embodiment of the present invention devised to achieve this object is a vacuum container having a coupler connected to the vacuum pump is empty inside to input the combustion waste; A vacuum pressurizing plate provided with an air vent to separate the vacuum waste container from one side of the vacuum container on one side of the vacuum container to seal the combustion waste inside the vacuum container and to seal the inner surface of the vacuum container; And a sealing cover provided with a packing at an edge thereof to cover and seal the upper end of the vacuum container filled with the combustion waste.

In addition, in the radioactive waste collection apparatus according to an embodiment of the present invention, one side of the airtight cover may be further provided with an air vent for separating the airtight cover from the vacuum container.

In addition, in the radioactive waste collection device according to an embodiment of the present invention, the coupler may be disposed on the bottom of the vacuum container to compress the combustion waste downward.

In addition, in the radioactive waste collection apparatus according to an embodiment of the present invention, the bottom surface of the vacuum vessel in which the coupler is disposed may have a concave groove structure concave upward.

In addition, in the radioactive waste collection device according to an embodiment of the present invention, it can be a concave groove structure in which the central portion of the sealing cover is recessed downwardly.

In addition, in the radioactive waste collection device according to an embodiment of the present invention, an air vent unit may be provided on the concave groove.

In addition, the radioactive waste collection device according to another embodiment of the present invention is a vacuum container which is empty inside to input the combustion waste; A packing is provided at its edge to seal the inner surface of the vacuum container while covering the combustion waste inside the vacuum container, and an air vent part is provided at one side to separate from the vacuum container, and a vacuum pressure plate is provided with a coupler connected to the vacuum pump. ; And a sealing cover provided with a packing at an edge thereof to cover and seal the upper end of the vacuum container filled with the combustion waste.

In addition, in the radioactive waste collection device according to another embodiment of the present invention, one side of the airtight cover may be further provided with an air vent for separating the airtight cover from the vacuum container.

In addition, in the radioactive waste collection apparatus according to another embodiment of the present invention, the sealing cover may be further provided with a coupler connected to the vacuum pump.

In addition, in the radioactive waste collection apparatus according to another embodiment of the present invention, the concave groove structure in which the upper surface of the sealing cover on which the coupler is disposed is recessed downwardly concave.

In addition, in the radioactive waste collection device according to another embodiment of the present invention, it is possible to have a concave groove structure in which the central portion of the bottom surface of the vacuum vessel is recessed upwardly.

In addition, the radioactive waste collection method according to another embodiment of the present invention comprises the steps of putting the combustion waste inside the vacuum vessel and covering the vacuum pressure plate; Connecting a vacuum pump to the coupler of the bottom surface of the vacuum container to make the vacuum while sucking the air in the vacuum container, and pressurizing the combustion waste inside to reduce the volume while the vacuum pressure plate is sucked downward; Separating the vacuum pressurizing plate from the vacuum container through the air vent of the vacuum pressurizing plate and injecting combustion waste into the vacuum container again; Repeating the process of allowing the vacuum pressurizing plate to compress the combustion waste while making the inside of the vacuum state with the vacuum pressurizing plate again by covering the vacuum pressurizing plate again; When the vacuum container is filled with the completely compressed combustion waste, the vacuum pressure plate is separated through the air vent, and finally the cover is closed to cover the sealed cover, and the vacuum container is disposed in a separate designated waste container.

In addition, in the radioactive waste collection method according to another embodiment of the present invention, after finally covering the airtight cover, the inside of the vacuum container is vacuumed again through the coupler of the bottom of the vacuum container to make residual air in the vacuum container again. A step for withdrawing may be further provided.

In addition, the radioactive waste collection method according to another embodiment of the present invention comprises the steps of putting the combustion waste inside the vacuum vessel and covering the vacuum pressure plate; Connecting a vacuum pump to the coupler of the vacuum pressurizing plate to inhale the air inside the vacuum vessel and bringing it into a vacuum state, and simultaneously reducing the volume by pressurizing the internal combustion waste while the vacuum pressurizing plate is sucked downward; Separating the vacuum pressurizing plate from the vacuum container through the air vent of the vacuum pressurizing plate and injecting combustion waste into the vacuum container again; Repeating the process of allowing the vacuum pressurizing plate to compress the combustion waste while making the inside of the vacuum state with the vacuum pressurizing plate again by covering the vacuum pressurizing plate again; When the vacuum container is filled with the completely compressed combustion waste, the vacuum pressure plate is separated through the air vent, and finally the cover is closed to cover the sealed cover, and the vacuum container is disposed in a separate designated waste container.

In addition, in the radioactive waste collection apparatus according to another embodiment of the present invention, after finally covering the sealing cover to make the inside of the vacuum chamber again through the coupler on the sealing cover to remove the remaining air inside the vacuum container Steps may be further provided.

As described above, the radioactive waste collection device and method according to an embodiment of the present invention is a vacuum container with an empty interior, a vacuum press plate for vacuum pressurizing the combustion waste in the vacuum container, and a vacuum container filled with combustion waste Compress the combustion waste to reduce the volume by injecting the combustion waste into the vacuum vessel and covering the vacuum pressure plate and pressurizing the combustion waste while inhaling the air inside the vacuum vessel through the vacuum pump. Repeatedly several times, if the vacuum container is filled with fully compressed combustion waste, cover the airtight cover to dispose of the vacuum container in a separate designated waste container. As a result, it is possible to reduce processing costs and improve competitiveness by reducing the number of vacuum containers. To get the effect.

1 is a schematic view showing a radioactive waste collection device according to an embodiment of the present invention.
Figure 2 is a schematic exploded view showing a radioactive waste collection device according to an embodiment of the present invention.
Figure 3 is a bottom view showing a closed cover of the radioactive waste collection apparatus according to an embodiment of the present invention.
Figure 4 is a schematic diagram showing a collection operation process through the radioactive waste collection device according to an embodiment of the present invention.
5 is a schematic view showing a radioactive waste collection device according to another embodiment of the present invention.
Figure 6 is a schematic exploded view showing a radioactive waste collection device according to another embodiment of the present invention.
Figure 7 is a bottom view showing a closed cover of the radioactive waste collection apparatus according to another embodiment of the present invention.
8 is a schematic diagram showing a collection operation process through the radioactive waste collection apparatus according to another embodiment of the present invention.
9 is a cross-sectional view showing a state in which the coupler and the stamp of the embodiments of the present invention are separated.
10 is a cross-sectional view showing a state in which the coupler and the stamp of the embodiments of the present invention are coupled.
11 is a cross-sectional view showing the air vent of the embodiments of the present invention.

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

As shown in Figures 1 to 4, the radioactive waste collection device according to an embodiment of the present invention is a cylindrical structure having a coupler 11 is empty inside and connected to the vacuum pump 5 for inputting the combustion waste The packing 21 is provided at its edge so as to be sealed to the inner surface of the vacuum container 10 while covering the vacuum container 10 and the combustion waste inside the vacuum container 10, and the vacuum container 10 at one side thereof. In order to cover and seal the upper end portion of the vacuum pressurizing plate 20 having a disk structure and an air vent part 22 and a vacuum container 10 filled with combustion waste to separate from the packing 31 is provided. It is the structure containing the sealing cover 30 of a disk structure.

Here, the packing (21, 31) is a ring shape disposed over the entire edge of the disc structure, it is preferable to use a rubber material excellent in adhesion.

In addition, an air vent 32 for separating the airtight cover 30 from the vacuum container 10 is provided at one side of the airtight cover 30.

The coupler 11 is arranged on the bottom of the vacuum vessel 10 to compress the combustion waste downward.

In addition, the bottom surface of the vacuum vessel 10 in which the coupler 11 is disposed has a concave groove 12 structure concave upward, and a central portion of the sealing cover 30 corresponding thereto is recessed downward. The concave groove 33 has a structure, and the air vent part 32 is provided on the concave groove 33.

When the plurality of vacuum containers 10 are stacked by the concave grooves 12 and 33, each coupler 11 and the air vent part 32 are positioned in the concave grooves 12 and 33, and the vacuum container 10 is disposed. The stacking is smoothly performed without disturbing the stacking of the pads).

On the other hand, when looking at the structure of the coupler 11, as shown in Figs. 9 and 10, the passage 11a is formed through the center, the spring 11b above the passage (11a) toward the downward An o-ring 11c for sealing the passage 11a in an elastically supported state is provided, and a slider 11e having a single-layer surface 11e1 for pressing the inner locking protrusion 11d in the center direction while sliding up and down at a lower end thereof is provided. It has a structure provided.

And, in order to connect the coupler 11 with the vacuum pump 5, a stem 7 is provided at the tip of the vacuum hose 6 of the vacuum pump 5, the center of the stem 7 is long upward Extends to press the O-ring 11c, and a communication path 7a1 is formed in the center thereof to communicate with the passage 11a of the coupler 11, and an O-ring pressing portion 7a having a locking groove 7a2 formed at one side of the outer circumferential surface thereof. ) And a slider pressing portion 7b extending upward from the lower outer peripheral surface of the O-ring pressing portion 7a to press the slider 11e.

As shown in FIG. 11, the air vent parts 22 and 32 have the same structure and one of them has a passage 22a1 penetrating the vacuum pressurizing plate 20 and penetrating up and down therein. ) Is provided and a thread 22b1 is formed on the outer peripheral surface of the upper end, and a thread 22b1 is formed on the lower inner peripheral surface of the main body 22a so as to be screwed with the thread 22a2 of the main body 22a, and penetrates in and out on one side of the lower end. The cover 22b is provided with a vent hole 22b2, which is disposed in the inner space of the cover 22b, and is passaged according to the locking / unlocking of the cover 22b while being elastically supported by the spring 22c on the bottom thereof. It has a structure including a sealing ball 22d for blocking and communicating the 22a1 and the vent hole 22b2.

Reference numeral 8 denotes a filter disposed at the front and rear of the vacuum pump 5 to filter out waste contained in the air sucked into the vacuum pump 5 and exhausted to the outside, and 23 denotes a vacuum pressurizing plate 20. ) Shows the handle for lifting.

Looking at the collection method through the radioactive waste collection device according to an embodiment of the present invention according to such a configuration, the first step of putting the combustion waste in the vacuum vessel 10 and covering the vacuum pressure plate 20, and the vacuum vessel 10 By connecting the vacuum pump (5) to the bottom coupler (11) to suck the air inside the vacuum vessel 10 to make a vacuum state at the same time the vacuum pressure plate 20 is sucked down to pressurize the internal combustion waste Reducing the volume, and separating the vacuum pressurizing plate 20 from the vacuum vessel 10 through the air vent part 22 of the vacuum pressurizing plate 20 and injecting the combustion waste into the vacuum vessel 10 again. And repeating the process of allowing the vacuum pressurizing plate 20 to compress combustion waste while making the inside of the vacuum state by the vacuum pump 5 again by covering the vacuum pressurizing plate 20 again. Completely When the vacuum container 10 is filled with the compressed combustion waste, the vacuum presser plate 20 is separated through the air vent part 22, and finally the sealing cover 30 is covered with the vacuum container 10. The radioactive waste collection is completed by disposing of the waste container.

After finally covering the airtight cover 30, the inside of the vacuum container 10 is again vacuumed through the coupler 11 of the bottom surface of the vacuum container 10 to extract the remaining air inside the vacuum container 10. Could be.

On the other hand, the coupling process of the coupler 11 and the vacuum pump 5, the O-ring pressing portion (7a) of the stem (7) provided at the distal end of the vacuum hose (6) of the vacuum pump (5) Inserting into the central passage 11a of 11, the O-ring pressing portion 7a rises and the passage 11a is opened while pushing up the O-ring 11c, and at the same time, the slider pressing portion 7b moves the slider 11e. Pushing upward and sliding upward, the single-layered surface 11e1 of the slider 11e pushed upward pushes the locking projection 11d toward the center and is caught by the locking groove 7a2 of the O-ring pressing portion 7a while the stem 7 And the coupler 11 are connected at the same time the passage (11a) and the communication path (7a1) is in communication with the air in the vacuum container 10 is to be sucked through the vacuum pump (5).

In addition, the separation process of the vacuum pressurizing plate 20 through the air vent unit 22 will be described below.

First, when the screw 22 of the cover 22b is released, the sealing ball 22d is pushed upward by the repulsive force of the spring 22c, and the passage 22a1 and the vent hole 22b2 communicate with each other in a vacuum state. The pressure plate 20 can be separated from the vacuum container 40. In order to bring the vacuum pressure plate 20 into close contact with the inner circumferential surface of the vacuum container 40, the cover 22b is screwed in reverse to the above. The sealing ball 22d may block the passage 22a1 and the vent hole 22b2.

In addition, the radioactive waste collection device according to another embodiment of the present invention covers a cylindrical vacuum container 40 having a hollow inside and a combustion waste inside the vacuum container 40 to inject combustion waste. A packing 51 is provided at an edge thereof to seal the inner surface of the vacuum container 40, and an air vent part 52 is provided at one side to separate the vacuum container 40 from the vacuum container 40 and is connected to the vacuum pump 5. 53 is a cover plate 60 of the disc structure provided with a packing 61 is provided on the rim so as to cover and seal the upper end of the vacuum pressure plate 50 of the disc structure and the vacuum container 40 filled with the combustion waste is provided. ) Is configured to include.

In addition, an air vent 62 for separating the airtight cover 60 from the vacuum container 40 is provided at one side of the airtight cover 60.

In addition, the sealing cover 60 is provided with a coupler 63 connected to the vacuum pump 5.

In addition, the upper surface of the sealing cover 60 in which the coupler 63 is disposed has a concave groove 64 structure which is concave downward, and the center portion of the bottom surface of the vacuum container 40 corresponding thereto is concave upward. The concave groove 41 is structured.

According to another embodiment of the present invention, a method for collecting waste through a radioactive waste collection device may include inserting combustion waste into the vacuum container 40 and covering the vacuum pressure plate 50, and the coupler of the vacuum pressure plate 50. The vacuum pump 5 is connected to the 53 to make the vacuum while sucking the air inside the vacuum container 40, while the vacuum pressure plate 50 is sucked downward to pressurize the combustion waste inside to reduce the volume. And separating the vacuum pressure plate 50 from the vacuum container 40 through the air vent unit 52 of the vacuum pressure plate 50 and injecting combustion waste into the vacuum container 40 again; Repeating the process of allowing the vacuum presser plate 50 to compress the combustion wastes while covering the vacuum presser plate 50 again to make the inside of the vacuum state with the vacuum pump 5, and the completely compressed combustion. lungs When the vacuum container 40 is filled with water, the vacuum presser plate 50 is separated through the air vent unit 52, and finally the sealing cover 60 is covered with the vacuum container 40 to separate the designated waste container 70. And discarding).

After finally covering the sealing cover 60, the inside of the vacuum container 40 is again vacuumed through the coupler 63 on the sealing cover 60 to completely clean the remaining air inside the vacuum container 40. You can pull it out.

Meanwhile, in another embodiment of the present invention, the operation of connecting the coupler and the vacuum pump and the operation of the air vent are the same as in the above embodiment, and thus description thereof is omitted.

Thus, the present invention provides a vacuum container with an empty interior, a vacuum pressurizing plate for vacuum pressurizing the combustion waste in the vacuum container, and a sealing cover for sealing the vacuum container filled with the combustion waste, wherein the combustion waste is provided inside the vacuum container. The vacuum container is filled with completely compressed combustion waste by repeating the compression process several times to reduce the volume by pressurizing the combustion waste while injecting the air inside the vacuum container through the vacuum pump. When filled, the sealed cover is covered so that the vacuum container can be disposed of in a separate designated waste container, so that the maximum amount of combustion waste can be processed through a vacuum container of a certain size, thereby reducing the processing cost and improving competitiveness due to the reduced number of vacuum containers. It is to be able to promote.

As described above, the present invention has been described with reference to the above preferred embodiments, but the embodiments to which such embodiments are simply combined with conventionally known techniques, as well as the technical field of the present invention in the claims and detailed description of the present invention. It will be appreciated that those skilled in the art can readily be modified and used within the technical scope of the present invention.

** Description of symbols for the main parts of the drawing **
5: vacuum pump 6: vacuum hose
7: Stam 7a: O-ring press
7a1: Communication path 7a2: Hanging groove
7b: slider press unit 8: filter
10: vacuum container 11: coupler
11a: passage 11b: spring
11c: O-ring 11d: obstacle
11e: slider 11e1: fault plane
20: vacuum pressure plate 21: packing
22: air vent 22a: main body
22a1: passage 22a2: thread
22b: cover 22b1: thread
22b2: Vent hole 22c: Spring
22d: sealing ball 23: handle
30: airtight cover 31: packing
32: air vent part 33: concave groove
40: vacuum container 41: concave groove
50: vacuum pressure plate 51: packing
52: air vent part 53: coupler
54: handle 60: airtight cover
61: packing 62: air vent
63: coupler 64: concave groove
70: waste container

Claims (15)

A vacuum container having a coupler connected to a vacuum pump and having an empty inside to input combustion wastes;
A vacuum pressurizing plate provided with an air vent to separate the vacuum waste container from one side of the vacuum container on one side of the vacuum container to seal the combustion waste inside the vacuum container and to seal the inner surface of the vacuum container; And
An airtight cover provided with a packing at an edge thereof to cover and seal the upper end of the vacuum container filled with the combustion waste;
Radioactive waste collection device, characterized in that comprising a. The method of claim 1,
Radioactive waste collection device further comprises an air vent for separating the airtight cover from the vacuum container on one side of the airtight cover. The method of claim 1,
The coupler is disposed on the bottom of the vacuum vessel radioactive waste collection device, characterized in that to compress the combustion waste downward. The method of claim 3,
A radioactive waste collection device, characterized in that the bottom surface of the vacuum vessel in which the coupler is disposed has a concave groove structure concave upward. The method of claim 1,
Radioactive waste collection device, characterized in that the concave groove structure in which the center portion of the closed cover is recessed downwardly. The method of claim 5,
An apparatus for collecting radioactive waste, characterized in that an air vent is provided on the concave groove. A vacuum container empty inside to input combustion wastes;
A packing is provided at its edge to seal the inner surface of the vacuum container while covering the combustion waste inside the vacuum container, and an air vent part is provided at one side to separate from the vacuum container, and a vacuum pressure plate is provided with a coupler connected to the vacuum pump. ; And
An airtight cover provided with a packing at an edge thereof to cover and seal the upper end of the vacuum container filled with the combustion waste;
Radioactive waste collection device comprising a. The method of claim 7, wherein
Radioactive waste collection device further comprises an air vent for separating the airtight cover from the vacuum container on one side of the airtight cover. The method of claim 7, wherein
Radioactive waste collection device characterized in that the closed cover is further provided with a coupler connected to the vacuum pump. 10. The method of claim 9,
Radioactive waste collection device characterized in that the concave groove structure in which the upper surface of the sealing cover is disposed concave downward. The method of claim 7, wherein
And a concave groove structure in which a central portion of the bottom surface of the vacuum container is concave upward. Injecting combustion waste into the vacuum vessel and covering the vacuum pressurizing plate;
Connecting a vacuum pump to the coupler of the bottom surface of the vacuum container to make the vacuum while sucking the air in the vacuum container, and pressurizing the combustion waste inside to reduce the volume while the vacuum pressure plate is sucked downward;
Separating the vacuum pressurizing plate from the vacuum container through the air vent of the vacuum pressurizing plate and injecting combustion waste into the vacuum container again;
Repeating the process of allowing the vacuum pressurizing plate to compress the combustion waste while making the inside of the vacuum state with the vacuum pressurizing plate again by covering the vacuum pressurizing plate again;
When the vacuum container is filled with the completely compressed combustion waste, separating the vacuum pressure plate through the air vent and finally covering the airtight cover to dispose the vacuum container in a separate designated waste container;
Radioactive waste collection method comprising a. The method of claim 12,
And finally removing the remaining air from the inside of the vacuum container by vacuuming the inside of the vacuum container again through the coupler of the bottom surface of the vacuum container after covering the airtight cover. Injecting combustion waste into the vacuum vessel and covering the vacuum pressurizing plate;
Connecting a vacuum pump to the coupler of the vacuum pressurizing plate to inhale the air inside the vacuum vessel and bringing it into a vacuum state, and simultaneously reducing the volume by pressurizing the internal combustion waste while the vacuum pressurizing plate is sucked downward;
Separating the vacuum pressurizing plate from the vacuum container through the air vent of the vacuum pressurizing plate and injecting combustion waste into the vacuum container again;
Repeating the process of allowing the vacuum pressurizing plate to compress the combustion waste while making the inside of the vacuum state with the vacuum pressurizing plate again by covering the vacuum pressurizing plate again;
When the vacuum container is filled with the completely compressed combustion waste, separating the vacuum pressure plate through the air vent and finally covering the airtight cover to dispose the vacuum container in a separate designated waste container;
Radioactive waste collection method comprising a. The method of claim 14,
And finally removing the remaining air from the inside of the vacuum container by vacuuming the inside of the vacuum container again through the coupler on the sealing cover after covering the airtight cover.

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