JP2010107109A - System for preventing diffusion of indoor contaminant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for preventing diffusion of indoor contaminants, securely preventing diffusion of various types of contaminants generated in an indoor space by small air amount, in a production facility or the like. <P>SOLUTION: In a room 10, a wall 11 and a ceiling 12 are constituted by hollow panels 13. An air conditioning system 20 conditions air in the room 10 including the wall 11 and ceiling 12 constituted by the hollow panels 13. The air conditioning system 20 includes an air supply device 21 for supplying air to inside of the room 10 and an air discharge device 22 for discharging air from inside of the room 10. A hollow panel air discharge device 23 discharges air from inside of the hollow panels 13. Inside of the room 10 has atmospheric pressure by the air supply device 21 and the air discharge device 22, and inside of the hollow panels 13 has negative pressure by the hollow panel air discharge device 23. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  In order to prevent various pollutants such as dust and odor generated indoors from flowing out of the room, for example, in a production factory, the present invention is configured such that the wall and ceiling of the room are constituted by a hollow panel, and the inside of the hollow panel is hidden. The present invention relates to an indoor pollutant diffusion prevention system that is controlled to a positive pressure or a positive pressure.

In general production factories, in order to discharge dust, odors, and the like generated in the room, a method of locally exhausting by a booth or a method of exhausting the entire chamber with a slightly negative pressure is adopted. Normally, clean rooms have a positive internal pressure to prevent the inflow of contaminants from the outside. However, in clean rooms that contain hazardous substances, such as pharmaceutical factories and research laboratories, internal chemical contaminants, etc. In order to prevent it from flowing out into the chamber, a method has been proposed in which the chamber wall and ceiling are formed of a hollow panel, and an exhaust device is connected to the hollow panel to create a negative pressure inside the hollow panel (patent) Reference 1).
JP 2008-39229 A

As described above, in general production factories, in order to discharge dust or odor generated in the room, a method of exhausting locally by a booth or a method of exhausting the entire chamber with a slightly negative pressure is adopted. However, the diffusion of pollutants cannot be completely prevented and may leak into the adjacent room.
In addition, a large amount of air needs to be exhausted in a local exhaust system by a booth or a system in which the whole room with poor airtightness is made into a negative pressure.
In the case of a clean room, it is necessary to make the inside of the clean room positive depending on the intended use and required performance, and the above method is useful in order to prevent internal pollutants from flowing out. It is. However, if the required performance for the clean room is not so high, it is not necessary to control the inside of the clean room to positive pressure if the inside of the hollow panel can be made negative pressure or positive pressure to clearly distinguish the interior and the exterior. That is, it is possible to reduce the air-conditioned surplus air that is sent to maintain the inside of the clean room at a positive pressure.

  An object of the present invention is to provide an indoor pollutant diffusion preventing system that reliably prevents various pollutants generated indoors from being diffused with a small amount of air in a production factory or the like.

  (1) An indoor pollutant diffusion preventing system according to the invention described in claim 1 is configured such that a wall and a ceiling of a room are constituted by a hollow panel, and air-conditioning means for supplying and exhausting air in the room, and from the inside of the hollow panel A hollow panel exhaust means for discharging air, wherein the air conditioning means air-conditions the room at an atmospheric pressure, and the hollow panel exhaust means creates a negative pressure in the hollow panel.

  According to the present invention, it is possible to prevent the diffusion of various pollutants generated indoors to the outside only by controlling the inside of the hollow panel to a negative pressure. At that time, by using a highly airtight hollow panel, the air volume for controlling the hollow panel to a negative pressure can be reduced. Further, when applied to a clean room, by making the hollow panel have a negative pressure, there is no need to control the inside of the clean room to a positive pressure because there is no air in and out of the room. Therefore, it is not necessary to supply the surplus air-conditioning air supplied for maintaining the positive pressure in the room, and as a result, the air-conditioning load can be reduced.

  (2) The indoor pollutant diffusion preventing system according to the invention described in claim 2 is configured such that the wall and ceiling of the room are constituted by hollow panels, and air conditioning means for supplying and discharging the indoor air is provided in the hollow panel. A hollow panel air supply means for supplying air, wherein the air conditioning means air-conditions the room at atmospheric pressure, and the hollow panel air supply means makes the inside of the hollow panel a positive pressure.

  According to the present invention, there are effects similar to those described above. Furthermore, when there is a concern about the adhesion or accumulation of contaminants inside the hollow panel due to the type of contaminant generated in the room, it can be prevented by setting the inside of the hollow panel to a positive pressure instead of a negative pressure.

  (3) In the indoor pollutant diffusion prevention system according to the invention described in claim 3, a negative pressure chamber or a positive pressure chamber is provided in a portion of the wall and ceiling of the room through which a person or an object passes. Features.

  According to the present invention, by providing a negative pressure chamber or a positive pressure chamber at a person's entrance / exit, an article delivery port, etc., there is a case where the door is opened / closed due to the entry / exit of a person / item, or a product is always opened at the delivery entrance. Even when it is provided, it is possible to prevent the diffusion of pollutants generated indoors.

  (4) The indoor pollutant diffusion preventing system according to the invention described in claim 4 is characterized in that a finishing material is provided on the inner wall surface of the hollow panel.

  According to this invention, since the finishing material is provided on the inner wall surface of the hollow panel, it is effective in preventing the generation of contaminants and dust inside the hollow panel.

  According to the present invention, in a general production factory, it is possible to prevent diffusion of various contaminants such as dust and odor generated indoors to the outside. At this time, by using a hollow panel having a high airtightness, for example, used in a clean room, diffusion can be prevented with a small air volume for controlling the inside of the hollow panel to a negative pressure or a positive pressure. In addition, when applied to a clean room, since the outside air does not enter and exit through the hollow panel, it is not necessary to make the interior of the room, which has been implemented to prevent inflow of contaminants from the outside, positive pressure. Therefore, it is not necessary to supply surplus air-conditioning air supplied for maintaining positive pressure in the clean room, and as a result, the air-conditioning load can be reduced.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description of the embodiments, the same constituent elements are denoted by the same reference numerals, and the description thereof is omitted or simplified.
[First Embodiment]
FIG. 1 is a cross-sectional view of a building 1 to which an air conditioning system according to a first embodiment of the present invention is applied.
Inside the building 1, a room 10 in which a wall 11 and a ceiling 12 are constituted by a hollow panel 13, and an air conditioning system 20 as an indoor pollutant diffusion prevention system that air-conditions the room 10 are provided.
A space outside the room 10 in the internal space of the building 1 is a surrounding space 30.

FIG. 2 is a partial cross-sectional view showing the configuration of the hollow panel 13.
The hollow panel 13 includes a lightweight steel base 14, boards 15 attached to both surfaces of the lightweight steel base 14, and steel plates 16 as finishing materials provided on both sides of the board 15.
The lightweight steel base 14 includes a stud 141 that extends in the vertical direction and a reinforcing member 142 that extends in a substantially horizontal direction and connects the studs 141 to each other.

FIG. 3A is a perspective view of the reinforcing member 142.
A plurality of through holes 143 are formed in the reinforcing member 142 along the length direction. Thereby, air flows up and down through the through-hole 143 of the reinforcing member 142, and the flow of air can be secured. In the present embodiment, the through hole 143 is provided in the reinforcing member 142. However, the present invention is not limited to this, and the reinforcing member 142 may be a mesh steel plate as shown in FIG.
Further, the through-hole 143 that ensures the air flow is also provided in the stud 141 extending in the vertical direction and the reinforcing member at the joint portion between the ceiling and the wall.

  Returning to FIG. 1, the air conditioning system 20 includes an air supply device 21 as air conditioning means for supplying air into the chamber 10, an exhaust device 22 that exhausts air from the chamber 10, and exhausts air from the hollow panel 13. A hollow panel exhaust device 23 as a hollow panel exhaust means, and a control device 24 for controlling the air supply device 21 and the exhaust device 22.

The air supply device 21 includes an air outlet 211 provided on the ceiling 12 of the chamber 10, a pipe 212 connected to the air outlet 211, and an outside air processing unit 213 that supplies air to the pipe 212. The specifications of the outside air processing unit 213 are changed according to the usage of the factory. Specifically, in the simplest configuration, only the air supply fan that supplies only fresh air is used, and then the unit is equipped with a temperature / humidity control function. A unit with enhanced removal function.
Each outlet 211 is provided with a filter as necessary. For example, in the case of a clean room, a HEPA filter is provided.

  The exhaust device 22 includes a suction port 221 provided in the wall 11 of the chamber 10, a pipe 222 connected to the suction port 221, and an exhaust fan 223 that exhausts air in the pipe 222. The exhaust fan 223 is provided with a filter as necessary depending on the component of the exhausted air.

  The hollow panel exhaust device 23 includes a pipe 231 connected to the hollow panel 13 constituting the ceiling 12 of the chamber 10, and an exhaust fan 232 that exhausts air in the pipe 231. The exhaust fan 232 monitors the internal pressure and controls the air volume so that the inside of the hollow panel 13 is maintained at a predetermined pressure. Specifically, the exhaust fan 232 maintains the inside of the hollow panel 13 at a negative pressure. Further, the exhaust fan 232 is provided with a filter as necessary depending on the component of the exhausted air.

  The control device 24 drives the outside air processing unit 213 of the air supply device 21 and the exhaust fan 223 of the exhaust device 22 to make the inside of the chamber 10 have the same atmospheric pressure as the surrounding space 30.

According to this embodiment, there are the following effects.
(1) The inside of the hollow panel 13 of the ceiling and the wall constituting the chamber 10 was set to a negative pressure, thereby eliminating the entry and exit of air inside and outside the room. Therefore, it is possible to prevent diffusion of various contaminants generated in the chamber 10 to the outside of the chamber.
In addition, as a result of measuring the air volume necessary to create a negative pressure inside the hollow panel using a clean room hollow panel, the pressure in the hollow panel was measured in a room having a floor area of about 9 m ² and a hollow panel area of about 45 m ^2. It was confirmed that an air volume of 25 m ³ / h or less was sufficient to maintain a pressure of about 20 Pa below atmospheric pressure. This air volume is equal to or less than the air volume of a ventilation fan in a toilet that operates for 24 hours in a general household.

(2) When applied to a clean room, there is no need for outdoor air to flow in and out of the hollow panel, so there is no need to make the room used to prevent the entry of pollutants from the outside positive. The air volume necessary to maintain the clean room at positive pressure is the chamber volume × the ventilation rate [m ³ / h], and this ventilation rate varies depending on the airtightness of the panel, but it is 0.5 to 1.5 times. / H]. According to the present invention, this air-conditioned surplus air can be reduced.

  (3) When the finishing material (steel plate 16) is also provided on the inner wall surface in the hollow panel 13, it is possible to prevent the generation of contaminants and dust inside the hollow panel 13.

[Second Embodiment]
FIG. 4 is a side sectional view of a building 1A to which an indoor pollutant diffusion preventing system according to a second embodiment of the present invention is applied.
This embodiment is different from the first embodiment in that a hollow panel air supply device 25 that supplies air into the hollow panel 13 is provided instead of the hollow panel exhaust device 23 of the first embodiment.

  That is, the hollow panel air supply device 25 includes a pipe 251 connected to the hollow panel 13 constituting the ceiling 12 of the chamber 10 and an outside air processing unit 252 that supplies air to the pipe 251. The specifications of the outside air processing unit 252 are changed according to the usage of the factory. Specifically, in the simplest configuration, only the air supply fan that supplies only fresh air is used, and then the unit is equipped with a temperature / humidity control function. A unit with enhanced removal function.

  The outside air processing unit 252 of the hollow panel air supply device 25 monitors the internal pressure and controls the air volume so that the inside of the hollow panel 13 is maintained at a predetermined pressure. Specifically, the outside air processing unit 252 maintains the inside of the hollow panel 13 at a positive pressure.

  According to the present embodiment, in addition to the same effects as the above (1), (2), and (3), there are the following effects.

  (4) When air with a high cleanliness is sent into the hollow panel 13 from the outside air processing unit 252, the inside of the hollow panel 13 can be kept clean. In the case where there is a concern about the adhesion or accumulation of contaminants inside the hollow panel 13 due to the types of contaminants generated in the room, it is effective to make the inside of the hollow panel 13 positive instead of negative. is there.

  It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.

For example, as shown in FIG. 5, a negative pressure chamber 26 may be provided at the entrance / exit of a person on the wall 11 of the chamber 10 or the delivery port of an object. In this case, an exhaust fan 272 that maintains a negative pressure in the negative pressure chamber 26 is connected to the negative pressure chamber 26 via a pipe 271. Alternatively, as shown in FIG. 6, a positive pressure chamber 28 may be provided at the entrance / exit of a person on the wall 11 of the chamber 10 or the delivery port of an object. In this case, an external air processing unit 292 that maintains the inside of the positive pressure chamber 28 at a positive pressure is connected to the positive pressure chamber 28 via a pipe 291.
By providing the negative pressure chamber 26 or the positive pressure chamber 27 at the entrance / exit of a person in this way, an opening is always provided when the door is opened / closed due to the entry / exit of a person / item or at the delivery port of a product or the like. Even in the case of contamination, it is possible to prevent diffusion of pollutants generated indoors.

1 is a cross-sectional view of a building to which an air conditioning system according to a first embodiment of the present invention is applied. It is a fragmentary sectional view which shows the structure of the hollow panel which concerns on the said embodiment. It is a perspective view of the reinforcement member of the hollow panel which concerns on the said embodiment. It is sectional drawing of the building where the air conditioning system which concerns on 2nd Embodiment of this invention was applied. It is sectional drawing of the building to which the air conditioning system which concerns on the modification of this invention was applied. It is sectional drawing of the building where the air-conditioning system concerning another modification of this invention was applied.

Explanation of symbols

10 rooms 11 walls 12 ceilings 13 hollow panels 16 steel plates (finishing materials)
20 Air conditioning system (Indoor pollutant prevention system)
21 Air supply device (air conditioning means)
22 Exhaust device (air conditioning means)
23 Hollow panel exhaust device (hollow panel exhaust means)
25 Hollow panel air supply device (hollow panel air supply means)

Claims (4)

The walls and ceiling of the room are composed of hollow panels,
Air-conditioning means for supplying and discharging the indoor air;
A hollow panel exhaust means for discharging air from within the hollow panel,
An indoor pollutant diffusion preventing system, wherein the room is air-conditioned at atmospheric pressure by the air-conditioning means, and the hollow panel exhaust means is set to a negative pressure inside the hollow panel. The walls and ceiling of the room are composed of hollow panels,
Air-conditioning means for supplying and discharging the indoor air;
A hollow panel air supply means for supplying air into the hollow panel,
An indoor air pollutant diffusion preventing air-conditioning system, wherein the air-conditioning means air-conditions the room at atmospheric pressure, and the hollow panel air-supplying means makes the inside of the hollow panel positive.   3. The indoor pollutant diffusion prevention system according to claim 1, wherein a negative pressure chamber or a positive pressure chamber is provided in a portion of the room wall and ceiling through which a person or an object passes.   The indoor pollutant diffusion preventing system according to claim 1 or 2, wherein a finishing material is provided on an inner wall surface of the hollow panel.

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