JP2007078254A - Air conditioning system with ion generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a displacement ventilation air conditioning system having a function for sterilizing and inactivating bacteria floating in the air such as a mold fungus and a virus. <P>SOLUTION: The air conditioner 4 mixes return air RA taken in from a return air chamber 7 and open air OA taken in from an open air intake duct 16, filtrate dust, adjust temperature, and humidity. SA is sent to an air supply chamber 5 through an exhaust port 18 of the air conditioner 4 and is supplied to a chamber 3. A plurality of blowout holes 6 are provided on the entire surface of a double floor structure. Other than the blowout holes 6, a personal blowout port 10, a floor blowout port 11, and a perimeter blowout port 12 can also be provided. In the air course of the air conditioning system structured as above, an ion generating device 1 is provided at points A-E. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an air conditioning system provided with an ion generator.

  Conventionally, by performing displacement ventilation that controls the air sucked from outside to a temperature close to room temperature and then blows it into the room, while purifying odors and harmful gases from the building material, especially indoors with a small depth, the air conditioning environment Replacement air-conditioning methods are known that achieve comfort efficiently and at low cost.

In Patent Document 1 (Japanese Patent Laid-Open No. 2001-248859), a lower blower fan, an air conditioning coil and a lower blower outlet are placed in communication at the corner between the indoor surface and the floor surface of the outer wall, and sucked from the outside of the outer wall. A displacement air conditioning method is disclosed, in which after the temperature of the air is controlled, the displacement ventilation is performed by blowing out radially from the lower air outlet as a low-speed airflow.
JP 2001-248859 A

  By the way, in recent years, there is a strong demand for a comfortable space in consideration of health, which removes airborne bacteria and viruses that are harmful to the human body, but in contrast, negative ions (negative ions) and positive ions (Plus ions) are generated and incorporated into the air to form air ions, and bacteria that float in the air such as fungi and viruses are sterilized and inactivated, and the technology to remove nitric oxide and acetic acid is widely known. It has become a place. The air ions handled in the present invention include only negative ions and similar ones such as ozone.

  However, in the replacement air conditioning method described in Patent Document 1, no consideration has been given to such bacteria that float in the air, such as fungi and viruses.

  The present invention solves the above-mentioned problems, and relates to an air conditioning system having a function of sterilizing and inactivating bacteria floating in the air such as molds and viruses. The invention relates to an air conditioner that controls the temperature of air in an air conditioning system with an ion generator that at least partially controls the temperature of air supplied from the outside and then blows the air into the room and exhausts stagnant air in the room, and An air outlet provided in a floor-side indoor lower space for blowing air from the air conditioner, and an air outlet provided in a ceiling-side indoor upper space for exhausting stagnant air in the room. And at least one ion generator is provided between the air outlet and the outlet.

  According to a second aspect of the present invention, in the air conditioning system with an ion generator according to the first aspect, the outlet is a large number of holes provided in the floor member.

  The invention according to claim 3 is the air conditioning system with an ion generator according to claim 1 or 2, wherein the ion generator is provided immediately downstream of the exhaust port of the air conditioner. Features.

  The invention according to claim 4 is the air conditioning system with an ion generator according to claim 2 or claim 3, further comprising a personal air outlet that blows air toward an indoor office space as the air outlet. The ion generating device is provided at the personal outlet.

  The invention according to claim 5 is the air conditioning system with an ion generator according to any one of claims 2 to 4, further comprising a floor outlet having a larger diameter than the hole as the outlet. The floor generator is provided with the ion generator.

  The invention according to claim 6 is the air conditioning system with an ion generator according to any one of claims 2 to 5, further comprising a perimeter outlet for blowing air toward the perimeter section as the outlet. The ion generator is provided at the perimeter outlet.

  The invention according to claim 7 is the air conditioning system with an ion generator according to any one of claims 1 to 6, wherein the ion generator is provided in the air conditioner. .

  The invention according to claim 8 is the air conditioning system with an ion generator according to claim 1, characterized in that the outlet is provided at the lower part of the wall surface.

  According to the displacement ventilation air conditioning system with an ion generator of the present invention, it is possible to release the sterilized air into the indoor space, and to suppress allergens such as mites, molds and bacteria on the inside of the air supply chamber, Antibacterial effects such as virus suppression in the room and under the desk can be expected.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing an appearance of an ion generator used in a displacement ventilation air conditioning system with an ion generator according to an embodiment of the present invention. An ion generating element 2 is provided in the upper part of the ion generator 1, and both positive and negative ions are generated by causing discharge on the element surface.

In the ion generator 1, the ion generating element 2 includes positive ions made of, for example, H + (H ₂ O) m (m is an arbitrary natural number) and O ₂ − (H ₂ O) n (n is an arbitrary natural number). ) And are released into the air outside the apparatus. Then, both these ions attach to the surface of airborne bacteria in the air and cause a chemical reaction. As a result, hydrogen peroxide (H ₂ O ₂ ) or hydroxyl radical (.OH) as active species is generated due to both positive and negative ions.

Since H ₂ O ₂ or .OH exhibits extremely strong activity, suspended bacteria are destroyed by the decomposition action of these active species. Therefore, it is considered that floating bacteria in the air can be efficiently suppressed by generating both positive and negative ions.

Chemical reactions also occur on the surface of harmful substances in the air, and hydrogen peroxide (H ₂ O ₂ ) or hydroxyl radicals (.OH), which are active species, oxidize or decompose chemical substances such as formaldehyde and ammonia. It is converted into harmless substances such as carbon dioxide, water, and nitrogen. Thereby, it is possible to substantially detoxify harmful substances in the air.

  FIG. 2 shows a schematic diagram of an air conditioning system according to an embodiment of the present invention in which the ion generator 1 as described above is applied to a displacement ventilation air conditioning system. In the interior of the room 3, the indoor lower space on the floor side is a living space, and the indoor upper space on the ceiling side above the living space is a non-residential space. The living space is provided with a working space M where an operator operates OA equipment and the like. In the present embodiment, a configuration in which a desk and a chair and OA devices such as a personal computer are installed on the desk is shown as an example in the space M.

  The floor of the chamber 3 is configured as a double floor, and the entire surface under the floor of the chamber 3 is an air supply chamber 5, and air whose temperature is controlled by the air conditioner 4 passes through the exhaust port 18 of the air conditioner 4. 3 is supplied to an air supply chamber 5 provided on the entire lower surface of the floor. The floor of the chamber 3 is composed of a floor member having a large number of blowing holes 6 on the entire surface, and the temperature-controlled air supplied through the air supply chamber 5 is blown out from the blowing holes 6 into the room. The diameter of the blowing holes 6 is about 10 mm, and the total area of the blowing holes 6 is 1.5% or more of the area of the entire floor. In addition, about such a blowing hole, it is good to comprise based on the technique described in the patent 3317468, for example.

  In addition to the large number of blowout holes 6, the floor member may be provided with a personal blowout opening 10 that blows out temperature-controlled air toward the work space M of each worker in the room 3. The temperature-controlled air supplied through the air supply chamber 5 is also blown out from the personal blowout port 10 into the room.

  Further, the floor member may be provided with a floor outlet 11 for sufficiently supplying air whose temperature is controlled to the space F near the floor portion as the outlet. The temperature-controlled air supplied through the air supply chamber 5 is also blown out from the floor outlet 11.

  Further, the floor member may be provided with a perimeter outlet 12 for sufficiently supplying air whose temperature is controlled toward the perimeter space P near the window 9. The temperature-controlled air supplied through the air supply chamber 5 is also blown out from the perimeter outlet 12 into the room.

  A return air chamber 7 is provided above the ceiling of the chamber 3, and this return air chamber 7 serves as a passage for indoor air taken in from a ceiling exhaust port 8 provided in the ceiling. A return air duct 17 that leads to the air conditioner 4 is connected to the return air chamber 7. In addition to the return air duct 17, an outside air intake duct 16 that takes in outside air is connected to the air conditioner 4. Then, by operating the air conditioner 4, the return air RA taken in from the return air chamber 7 and the outside air OA taken in from the outside air intake duct 16 are mixed to perform dust filtration, temperature adjustment and humidity adjustment, and create the SA. Is supplied to the air supply chamber 5 through the exhaust port 18 of the air conditioner 4 and supplied to the chamber 3.

  In FIG. 2, A to E indicate points where the ion generator 1 is provided. In this invention, you may provide the ion generator 1 in which point among these AE points. When the ion generator 1 is provided at the point A immediately after the exhaust port 18 of the air conditioner 4 or at one or more points A ′ in the air supply chamber 5, the ion generator 1 is blown out from the blowout holes 6 provided on the floor. In addition to the sterilizing effect of air, when sterilizing the inside of the air supply chamber 5 or laying a carpet on the floor, effects such as suppression of carpet mites, mold, and bacteria can be expected.

  When the ion generator 1 is installed at a point A immediately downstream of the exhaust port 18 of the air conditioner 4 or a point A ′ in the air supply chamber 5, a uniform and appropriate wind speed (for example, 1 m / s) It is advisable to provide a hopper and a current plate, or provide appropriate partitions and air vents so that the airflow is applied in the above manner. When a plurality of ion generators 1 are provided, the ion generators 1 are preferably arranged so that the interval between the ion generators 1 is a fixed distance (for example, 4 cm or more). At this time, a guide or the like may be provided so that the installation interval of the ion generator 1 is a certain distance or more. Further, in order to make it difficult for the ions generated by the ion generator 1 to disappear in the air supply chamber 5, a magnetic shield is provided in the air supply chamber 5, or a dustproof / antistatic coating is applied in the air supply chamber 5. Alternatively, it is preferable to provide an aluminum-treated heat insulating material on the inner wall of the air supply chamber 5.

  The ion generator 1 can be provided also at the point B immediately upstream of the air blown out from the personal blow-out port 10, and the sterilized air can be supplied to the lower part of the desk. Thereby, air intensively sterilized can be supplied to the work space M of the worker.

  The ion generator 1 can also be provided at the floor outlet 11 as indicated by the point C. If it does in this way, the water-side diffusion of the air containing an ion can be performed efficiently with the characteristic of the whole floor blowing air conditioning. It is also possible to employ other floor air-conditioning types that blow to the upper part of the air outlet.

  In FIG. 3, the detailed block diagram at the time of providing the ion generator 1 in the floor outlet 11 is shown. Here, 13 is a perforated OA floor, and 14 is a tile carpet.

  The ion generator 1 can also be employed at the point D of the perimeter outlet 12 that blows out air toward the perimeter space P facing outdoors. In such a case, since the air blown from the perimeter outlet 12 has a sterilizing effect, it is possible to suppress the occurrence of mold due to condensation on the glass surface of the window 9 or in the vicinity thereof.

  Moreover, the ion generator 1 can also be provided at the point E in the air conditioner 4. When provided at point E, the sterilization effect in the air conditioner 4 can be expected.

  As described above, in the present embodiment, since the ion generator 1 is provided in at least one of the A to E points, the sterilized air can be discharged into the chamber 3. It can be expected to have sterilization effects such as suppression of allergens such as mites, molds, and bacteria in the air supply chamber, and in the room and under the desk.

In FIG. 4, the schematic diagram of the displacement ventilation air conditioning system with an ion generator which concerns on other embodiment of this invention is shown. Unlike the embodiments that have been seen so far, this embodiment does not have a double floor structure, and the exhaust port of the air conditioner 4 is connected to a blowout port 15 provided at the bottom of the wall surface. The ion generator 1 is provided at the outlet 15. The parts denoted by the same reference numerals as those in FIG. 2 are the same as those described in the previous embodiment, and therefore will not be described again. Also in such an embodiment, the sterilized air can be released into the chamber 3, and antibacterial effects such as virus suppression and suppression of allergens such as mites can be expected.

It is a figure which shows the external appearance of the ion generator used for the air conditioning system which concerns on embodiment of this invention. It is a mimetic diagram of a displacement ventilation air-conditioning system concerning an embodiment of the invention. It is a figure which shows the detailed structure at the time of providing an ion generator in a floor outlet. It is a schematic diagram of the displacement ventilation air conditioning system with an ion generator which concerns on other embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Ion generator, 2 ... Ion generating element, 3 ... Chamber, 4 ... Air conditioner, 5 ... Air supply chamber, 6 ... Blow-off hole, 7 ... Return air Chamber, 8 ... Ceiling exhaust, 9 ... Window, 10 ... Personal outlet, 11 ... Floor outlet, 12 ... Perimeter outlet, 13 ... Perforated OA floor, 14 ... Tile carpet, 16 ... Outside air intake duct, 17 ... Return air duct, 18 ... Air conditioner exhaust

Claims (8)

In an air conditioning system with an ion generator that at least partly controls the temperature of air supplied from the outside, blows it into the room, and exhausts air stagnated in the room,
An air conditioner that controls the temperature of the air;
An air outlet provided in the indoor space on the floor side for blowing out air from the air conditioner;
An exhaust port provided in the indoor upper space on the ceiling side for exhausting stagnant air in the room,
An air conditioning system with an ion generator, wherein at least one ion generator is provided between the air conditioner and the outlet. 2. The air conditioning system with an ion generator according to claim 1, wherein the air outlet is a plurality of holes provided in a floor member. 3. The air conditioning system with an ion generator according to claim 1, wherein the ion generator is provided immediately downstream of an exhaust port of the air conditioner. 4. The apparatus according to claim 2, further comprising a personal air outlet that blows out air toward an indoor office space as the air outlet, and the ion generator is provided in the personal air outlet. An air conditioning system with an ion generator as described. 5. The floor outlet having a larger diameter than the hole as the outlet, and the ion generator is provided at the floor outlet. An air conditioning system with an ion generator as described. 6. The perimeter outlet according to claim 2, further comprising a perimeter outlet that blows out air toward the perimeter section as the outlet, and the ion generator is provided in the perimeter outlet. Air conditioning system with ion generator. The air conditioning system with an ion generator according to any one of claims 1 to 6, wherein the ion generator is provided in the air conditioner. The air-conditioning system with an ion generator according to claim 1, wherein the air outlet is provided in a lower portion of the wall surface.

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