KR102142433B1 - Apparatus preventing diffusion of contaminated air - Google Patents

Abstract

The present invention relates to a device for preventing diffusion of contaminated air which can prevent diffusion of radioactive contaminants. Particularly, according to an embodiment of the present invention, the device for preventing diffusion of contaminated air comprises: a body unit capable of providing a predetermined space; a cover unit capable of preventing air in the space from spreading to the outside of the body unit; and a passage unit connected to the cover unit so as to communicate with the space provided by the body unit, and guiding the air in the space introduced from the body unit to the outside of the body unit.

Description

Device to prevent the diffusion of contaminated air{APPARATUS PREVENTING DIFFUSION OF CONTAMINATED AIR}

The present invention relates to a device for preventing the diffusion of contaminated air.

In general, during the operation of nuclear power facilities such as nuclear power plants and nuclear research institutes, various processes may be performed inside the facilities. In order to accomplish this process, there may be a number of equipment, piping, and materials inside the nuclear facility.

However, if a nuclear power facility is operated for a long time, equipment and piping installed inside the nuclear power facility may be contaminated with radioactivity, and radioactive pollutants may be generated from this. In addition, most of the materials left inside nuclear facilities for a long time are contaminated with radioactivity, and if they are processed, numerous radioactive contaminants can spread inside the facility.

In addition, many radioactive pollutants can be generated not only when operating nuclear facilities, but also when dismantling nuclear facilities. For example, when a pipe, tank, or steel plate contaminated with radioactivity is cut or cut by welding to dismantle a facility using nuclear power, a lot of gas and radioactive contaminants such as metal debris may spread to the surroundings.

In this way, it is necessary to prevent the spread of radioactive contaminants from workers inside the nuclear power facility from operation to dismantling of the nuclear power facility. In addition, there is a growing need to prevent the emission of radioactive pollutants generated inside nuclear facilities into the environment.

Embodiments of the present invention have been invented based on the above background, and an object of the present invention is to provide a device for preventing the spread of contaminated air that can prevent the spread of radioactive pollutants generated inside a nuclear power facility.

In addition, it is intended to provide a device for preventing diffusion of contaminated air that is easy to transport by minimizing the volume.

According to an aspect of the present invention, a body portion capable of providing a predetermined space; A cover portion capable of preventing the air in the space from spreading to the outside of the body portion; And a passage part connected to the cover part so as to communicate with the space provided by the body part, and a passage part for guiding the air in the space introduced from the body part to the outside of the body part. I can.

According to embodiments of the present invention, there is an effect of preventing the spread of radioactive pollutants generated inside a nuclear power facility.

By minimizing the volume, there is an effect of easy transport.

1 is a perspective view of an apparatus for preventing diffusion of contaminated air according to an embodiment of the present invention.
2 is a cross-sectional view taken along line A-A' of FIG. 1.
3 is a cross-sectional view of A-A' in which the second guide rail of FIG. 1 has moved.
4 is a cross-sectional view taken along line B-B' of FIG. 1.
5 is a cross-sectional view of B-B' in which the passage supporter of FIG. 1 has moved.
6 is a perspective view of the support member of the apparatus for preventing diffusion of polluted air of FIG. 1 rotated and folded.

Hereinafter, a specific embodiment for implementing the spirit of the present invention will be described in detail with reference to the drawings.

In addition, in the description of the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, when a component is referred to as being'connected','supported','inflow','flow', or'contact' to another component, it may be directly connected, supported, introduced, flowed, or contacted with the other component. It may be possible, but it should be understood that other components may exist in the middle.

The terms used in this specification are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

Further, terms including ordinal numbers such as first and second may be used to describe various components, but the corresponding components are not limited by these terms. These terms are only used to distinguish one component from another.

As used herein, the meaning of “comprising” embodies certain properties, regions, integers, steps, actions, elements, and/or components, and other specific properties, regions, integers, steps, actions, elements, components, and/or groups It does not exclude the existence or addition of.

In addition, in the present specification, expressions such as the upper, lower, and upper surfaces are described based on the drawings in the drawings, and it should be noted in advance that expressions may be different if the direction of the corresponding object is changed. Meanwhile, in the present specification, the first direction may be the x-axis direction of FIG. 1. Also, the second direction may be the y-axis direction of FIG. 1.

Hereinafter, a specific configuration of the contaminated air diffusion prevention apparatus 1 according to an embodiment of the present invention will be described with reference to the drawings.

Hereinafter, referring to FIG. 1, the apparatus 1 for preventing the diffusion of contaminated air according to an embodiment of the present invention may prevent the spread of radioactive contaminants generated inside a nuclear power facility. The device 1 for preventing the spread of contaminated air may be installed at a point where radioactive contaminants are generated in a nuclear power facility. In addition, the contaminated air diffusion prevention device 1 is easy to be transported, and may be transported and installed at various points within a nuclear power facility by a transport device (not shown). The apparatus 1 for preventing the diffusion of contaminated air may include a body part 100, a rail part 200, a cover part 300, a passage part 400, and a control part 500.

The body part 100 may provide a predetermined space in which air and radioactive pollutants are accommodated. The body part 100 may be installed on the bottom surface of the rail part 200. In addition, the body part 100 may support the rail part 200, the cover part 300, the passage part 400, and the control part 500. The body part 100 may include a support member 110, a cover part 120, a driving motor 130, and a closure member 140.

The support member 110 may support the rail part 200, the cover part 300, the passage part 400, and the control part 500. This support member 110 may be rotated by the driving motor 130 supported by the cover case 121. In more detail, referring to FIG. 6, when the contaminated air diffusion preventing device 1 is disassembled, the support member 110 may rotate toward the cover case 121 and be folded. In addition, one end of the support member 110 may be connected to the driving motor 130, and the other end of the support member 110 may be connected to the closure member 140. A plurality of such support members 110 may be provided.

2 to 4, the cover part 120 may be provided between the plurality of support members 110, and the inner space provided by the body part 100 may be opened and closed with respect to the outside. The cover unit 120 may prevent air and radioactive contaminants in the body unit 100 from spreading to the outside of the body unit 100. In addition, the cover part 120 may include a cover case 121, a cover rod 122 and a cover member 123.

The cover case 121 may provide a space in which the cover rod 122 and the cover member 123 are accommodated. The cover case 121 may be disposed on the bottom surface of the rail part 200 and may be supported by the support member 110. Referring to FIG. 4, an opening/closing hole 121a through which the cover member 123 may pass may be formed in the cover case 121. In other words, the cover member 123 may move from the inside of the cover case 121 to the outside through the opening/closing hole 121a. In addition, the width of the opening/closing hole 121a may be equal to or greater than the thickness of the cover member 123.

The cover rod 122 may wind up the cover member 123. The cover rod 122 may be supported by the cover case 121 and may extend along the cover case 121. In addition, the diameter of the cover rod 122 may be formed larger than the width of the opening and closing hole (121a) to prevent the cover rod 122 from passing through the opening (121a). In addition, the cover rod 122 may rotate in response to the movement of the cover member 123. The cover rod 122 may be connected to the driving motor 130 and rotated by the driving motor 130 to release or roll up the cover member 123.

Referring to FIGS. 3 and 5, the cover member 123 may prevent air and radioactive contaminants in the body part 100 from spreading to the outside of the body part 100. The cover member 123 may be wound around the cover rod 122 and may slide between the support members 110. In other words, the cover member 123 wound around the cover rod 122 may slide in the downward direction of the support member 110 through the opening/closing hole 121a by rotation of the cover rod 122. In addition, the cover member 123 may be inserted and interposed in a slit (not shown) to be described later formed on the closure member 140 to be fixed. The cover member 123 interposed in this gap can effectively open and close the support member 110. In addition, the cover member 123 may slide in the upward direction of the support member 110 by rotation of the cover rod 122 and may be wound around the cover rod 122.

The driving motor 130 may rotate the support member 110. In more detail, referring to FIG. 6, in order to disassemble the contaminated air diffusion preventing device 1, the driving motor 130 may rotate the support member 110 toward the cover case 121. In addition, in order to install the contaminated air diffusion preventing device 1, the driving motor 130 may rotate and expand the support member 110. In addition, the driving motor 130 may rotate the cover rod 122. In other words, the drive motor 130 can rotate the cover rod 122 in one direction to slide the cover member 123 to open it, and rotate the cover rod 122 in the other direction to rotate the cover member 123 It can be wound around the cover rod 122. The driving of the driving motor 130 may be controlled by the controller 500.

The stopper member 140 may prevent contamination of the inside of the support member 110 by blocking the other end of the support member 110. Such a stopper member 140 may be connected to the other end of the support member 110. For example, the stopper member 140 may be formed of an elastic member such as rubber. In addition, a slit through which the cover member 123 may be inserted and interposed may be formed in the closure member 140. This slit may be a thin groove extending from the upper end of the closure member 140 toward the direction in which the support member 110 extends. The width of the slit may be smaller than the thickness of the cover member 123.

Referring to FIG. 2, the rail part 200 may support the cover part 300 and guide the movement of the cover part 300. The rail part 200 may be supported by the body part 100. In addition, the rail part 200 may include a first guide rail 210, a second guide rail 220, and a stopper 230.

The first guide rail 210 may guide the movement of the second guide rail 220 and may guide the movement of the first elastic part 310 to be described later. The first guide rail 210 may extend along the first direction. In addition, a first guide groove 211 may be formed in the first guide rail 210.

The first guide groove 211 may guide the movement of the second guide rail 220 and the first elastic part 310. In more detail, a roller (not shown) provided in the second guide rail 220 may slide inside the first guide groove 211. The first guide groove 211 may extend along the first direction.

Referring to FIG. 4, the second guide rail 220 may guide the movement of the second extension part 320 and the passage supporter 330 to be described later. The second guide rail 220 may extend along the second direction. In addition, the second guide rail 220 may be disposed inside the first guide rail 210, and both ends of the second guide rail 220 in the second direction are provided from the inside of the first guide groove 211. 1 Can contact the guide rail 210. A roller coupled to the first guide rail 210 may be provided on the bottom of the second guide rail 220, and the roller may be connected to a separate power source to rotate. In other words, the roller provided in the second guide rail 220 slides in the first guide groove 211, so that the second guide rail 220 may move along the first direction. A second guide groove 221 may be formed in the second guide rail 220.

The second guide groove 221 may guide the movement of the second extension part 320 and the passage supporter 330. In more detail, a roller (not shown) formed in the passage supporter 330 may slide inside the second guide groove 221. The second guide groove 221 may extend along the second direction.

The stopper 230 may prevent the second guide rail 220 and the first elastic part 310 from being separated from the first guide rail 210. These stoppers 230 may be connected to both ends of the first guide rail 210 in the first direction.

The cover part 300 may prevent air and radioactive pollutants accommodated inside the body part 100 from spreading to the outside of the body part 100. This cover part 300 may be supported by the rail part 200. In addition, the cover part 300 may include a first expansion and contraction part 310, a second expansion and contraction part 320, and a passage supporter 330.

The first elastic part 310 may prevent air and radioactive contaminants accommodated inside the body part 100 from spreading to the outside of the body part 100. The first elastic part 310 may be formed to be expandable and contractible along the first direction. In addition, the first elastic part 310 may be connected to both ends of the first guide rail 210 and the second guide rail 220 in the first direction, and may be extended in response to the movement of the second guide rail 220. I can. Referring to FIG. 3, when the second guide rail 220 slides along the first guide rail 210 in one side in the first direction, a portion of the first elastic part 310 (the first on the right in FIG. 3) The elastic part 310 may be reduced, and the rest of the first elastic part 310 (the first elastic part 310 on the left in FIG. 3) may be extended. Both ends of the first elastic part 310 in the second direction may contact the first guide rail 210 from the inside of the first guide groove 211. In other words, the side surface of the first elastic part 310 maintains contact with the inner side of the first guide rail 210 even while it is being expanded and contracted, so that the air in the inner space of the body part 100 is transferred to the body part 100. It can minimize leakage to the outside. Here, the inner side of the first guide rail 210 means a surface where the pair of first guide rails 210 face each other.

In addition, the first elastic part 310 may include a plurality of first wrinkles. The first elastic part 310 may be reduced in a first direction by folding a plurality of first wrinkles, and may be extended in a first direction by spreading a plurality of first wrinkles.

The second elastic part 320 may prevent air and radioactive contaminants accommodated inside the body part 100 from spreading to the outside of the body part 100. The second expansion and contraction part 320 may be formed to expand and contract in the second direction. In addition, the second expansion and contraction part 320 may be connected to both ends of the passage supporter 330 in the second direction, and may be reduced or extended in response to the movement of the second guide rail 220. Referring to FIG. 5, when the passage supporter 330 slides along the second guide rail 220 in the second direction, a portion of the second expansion and contraction 320 (the second expansion and contraction on the right in FIG. 5) (310) is reduced and the rest of the second elastic parts 320 (the second elastic part 310 on the left in FIG. 5) may be extended. Both ends of the second extension part 320 in the first direction may contact the second guide rail 220 from the inside of the second guide groove 221. In other words, the side surface of the second elastic part 320 maintains contact with the inner side of the second guide rail 220 even during the expansion and contraction, so that air in the inner space of the body part 100 is transferred to the body part 100. It can minimize leakage to the outside. Here, the inner side surface of the second guide rail 220 means a surface in which the pair of second guide rails 220 face each other.

In addition, the second elastic part 320 may include a plurality of second wrinkles. The second elastic part 320 may be reduced in a second direction by folding a plurality of second wrinkles, and may be extended in a second direction by spreading a plurality of second wrinkles.

Referring to FIG. 5, the passage supporter 330 may communicate the inner side of the body portion 100 with the passage portion 400 to be described later. The passage supporter 330 may be connected to the passage part 400. In addition, the passage supporter 330 may have a hole through which the first passage 410 and the second passage 420 communicate with the body portion 100. In addition, a roller coupled to the second guide rail 220 may be provided on the bottom surface of the passage supporter 330, and the roller may be connected to a separate power source to rotate. In other words, the roller provided in the passage supporter 330 slides in the second guide groove 221, so that the passage supporter 330 may move along the second direction.

The passage part 400 may provide a passage through which air and radioactive pollutants introduced from the body part 100 flow to a dust collector (not shown) or a ventilator (not shown). This passage part 400 is connected to the cover part 300 so as to communicate with the inner side of the body part 100, and guides air and radioactive contaminants introduced from the body part 100 to the outside of the body part 100. I can. In addition, the passage part 400 is movable in the first direction by the movement of the second guide rail 220 on the first guide rail 210, and the passage supporter 330 on the second guide rail 220 It can be moved in the second direction by the movement of. The passage part 400 may include a first passage 410 and a second passage 420.

The first passage 410 may guide air and radioactive contaminants introduced from the body 100 to a dust collector. One end of the first passage 410 may be connected to the dust collector. In addition, the other end of the first passage 410 may be connected to the passage supporter 330, and may communicate with the body portion 100 through the passage supporter 330.

The second passage 420 may guide air and radioactive contaminants introduced from the body 100 to the ventilation fan. One end of the second passage 420 may be connected to the ventilation fan. In addition, the other end of the second passage 420 may be connected to the passage supporter 330, and may communicate with the body part 100 through the passage supporter 330.

The control unit 500 may control the driving motor 130 to rotate the support member 110 and may control the driving motor 130 to rotate the cover rod 122. In addition, if the controller 500 can control the movement of the second guide rail 220, the control unit 500 can control the movement of the passage supporter 330. The control unit 500 may be implemented by a memory device and a computing device including a microprocessor, a measuring device such as a sensor, and the like, and the implementation method is obvious to those skilled in the art, and thus further detailed description thereof will be omitted.

Hereinafter, the operation and effect of the contaminated air diffusion preventing device 1 having the above-described configuration will be described.

In order to install the contaminated air diffusion preventing device 1, the user can transfer it to the installation point through the transfer equipment. The transported contaminated air diffusion preventing device 1 may rotate the support member 110 to set the contaminated air diffusion preventing apparatus 1 at an installation point. When the support member 110 rotates to support the rail part 200, the cover rod 122 may be rotated to transfer the cover member 123 toward the lower end of the support member 110. The transferred cover member 123 may be interposed in the gap of the closure member 140 to seal the space between the support members 110.

The device 1 for preventing the diffusion of contaminated air has an effect of preventing the diffusion of radioactive pollutants generated inside a nuclear power facility. In addition, there is an effect of easy transport and installation by minimizing the volume.

Although the embodiments of the present invention have been described above as specific embodiments, these are merely examples, and the present invention is not limited thereto, and should be interpreted as having the broadest scope according to the basic idea disclosed herein. Those skilled in the art may combine/replace the disclosed embodiments to implement patterns in an untimely manner, but this is also within the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on the present specification, and it is obvious that such changes or modifications fall within the scope of the present invention.

1: pollution air diffusion prevention device 100: body
110: support member 120: cover
121: cover case 121a: opening and closing hole
122: cover rod 123: cover member
130: drive motor 140: stopper member
200: rail part 210: first guide rail
211: first guide groove 220: second guide rail
221: second guide groove 230: stopper
300: cover portion 310: first elastic portion
320: second extension part 330: passage supporter
400: passage part 410: first passage
420: second passage 500: control unit

Claims (12)

A body portion capable of providing a predetermined space;
A cover portion capable of preventing the air in the space from spreading to the outside of the body portion;
A passage part connected to the cover part to communicate with the space provided by the body part, and for guiding the air in the space introduced from the body part to the outside of the body part; And
Including a rail connected to one side of the body,
The rail portion,
A first guide rail extending in a first direction; And
A second guide rail extending in a second direction and slidable in the first direction along the first guide rail,
Device to prevent the spread of polluted air. delete The method of claim 1,
The cover portion,
A passage supporter supporting the passage portion and slidable in the second direction along the second guide rail,
Device to prevent the spread of polluted air. The method of claim 3,
The cover portion,
A first elastic part expandable and contractible in the first direction; And
Further comprising a second stretchable portion expandable in the second direction,
Device to prevent the spread of polluted air. The method of claim 4,
The first elastic part,
When the second guide rail slides along the first guide rail in the first direction, some of the first elastic parts are contracted and the rest of the first elastic parts are formed to expand,
The second elastic part,
When the passage supporter slides along the second guide rail in the second direction, some of the second expansion and contraction parts are reduced and the rest of the second expansion and contraction parts are formed to expand,
Device to prevent the spread of polluted air. The method of claim 4,
The first elastic part includes a plurality of first wrinkles, the plurality of first wrinkles are folded to reduce in the first direction, and the plurality of first wrinkles are expanded to extend in the first direction,
The second elastic part includes a plurality of second wrinkles, and is reduced in the second direction by folding the plurality of second wrinkles, and is extended in the second direction by spreading the plurality of second wrinkles,
Device to prevent the spread of polluted air. The method of claim 3,
The passage portion,
It is movable in the first direction by movement of the second guide rail on the first guide rail, and movable in the second direction by movement of the passage supporter on the second guide rail,
Device to prevent the spread of polluted air. The method of claim 7,
The passage portion,
Comprising a first passage for guiding the air introduced from the body portion to a dust collector and a second passage for guiding the air introduced from the body portion to a ventilator,
Device to prevent the spread of polluted air. The method of claim 7,
Further comprising a control unit capable of driving the second guide rail and the passage supporter to move the passage part,
Device to prevent the spread of polluted air. The method of claim 1,
The body portion,
And a support member capable of supporting the cover portion and the passage portion,
The support member can be folded by rotating toward the cover,
Device to prevent the spread of polluted air. The method of claim 10,
The support member is provided in plurality,
The body portion,
Further comprising a cover portion provided between the plurality of support members to open and close the space provided by the body portion to the outside,
Device to prevent the spread of polluted air. The method of claim 11,
The cover portion,
A cover member; And
It includes a cover rod capable of winding the cover member,
By rotating the cover rod, the cover member slides between the support members to open and close,
Device to prevent the spread of polluted air.

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