JP3407381B2 - Deodorizing device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorizing device. More specifically, it absorbs odors and harmful gases in the room (for simplicity, it is called "odor" throughout this specification),
The present invention relates to a deodorizing device that purifies indoor air. Further, the present invention relates to a deodorizing device that also removes moisture in the room.

[0002]

2. Description of the Related Art Conventionally, as a deodorizing device of this type, for example, a granular active carbon is wrapped in a porous sheet to form a filter, and indoor air is circulated through the filter. What you have done is known. As is known, activated carbon can absorb and retain odors in the air relatively efficiently.

However, there is a limit to the amount of activated carbon adsorbed and retained, and in a type of filter incorporated in an indoor unit of a general residential air conditioner, the amount of adsorbed and retained carbon is usually saturated in about half a year. For this reason, the filter (activated carbon) must be replaced every six months, which is troublesome.

Therefore, an object of the present invention is to provide a deodorizing device which can be continuously operated for a long period of time without the trouble of replacing a filter or the like.

[0005]

In order to achieve the above object, the deodorizing apparatus according to claim 1 is a circulation flow path capable of circulating a fluid having an odor absorbing property between the outside and the inside of the room. A pump that circulates the fluid in the circulation flow path and a porous wall that is provided in the indoor portion of the circulation flow path and forms a part of the circulation flow path, and through the porous wall to the air in the room It is characterized in that it is provided with an absorption part for absorbing the contained odor into the fluid and an emission part provided in the outdoor portion of the circulation flow path for emitting the odor from the fluid into the outdoor air.

The deodorizing device according to a second aspect is the deodorizing device according to the first aspect, wherein the fluid also has a hygroscopic property, and the absorbing portion contains an odor contained in room air through the porous wall. And absorbing moisture into the fluid, and the discharging portion discharges the odor and moisture from the fluid into the outdoor air.

The deodorizing device according to a third aspect of the present invention is the deodorizing device according to the first or second aspect, wherein the discharging portion has a porous wall which constitutes a part of the circulation flow path. It is characterized in that the odor or the odor and moisture is vaporized from the fluid into the outdoor air through the quality wall.

Further, the deodorizing device according to a fourth aspect is the deodorizing device according to the first or second aspect, wherein the discharging portion has an opening at the top and is provided with a tank capable of storing the fluid. Is characterized by.

Further, the deodorizing device according to a fifth aspect is the deodorizing device according to the fourth aspect, characterized in that it is provided with a heater for heating the fluid stored in the tank.

The deodorizing device according to a sixth aspect is the deodorizing device according to the fourth or fifth aspect, characterized in that a solid odor adsorbent is provided in the tank.

A deodorizing device according to a seventh aspect is the deodorizing device according to any one of the first to sixth aspects,
The fluid is characterized in that a particulate odor adsorbent is mixed.

[0012]

In the deodorizing device of the first aspect, first, the fluid is sent to the absorbing section by the pump. The absorbing part causes the fluid to absorb the odor contained in the air in the room through the holes of the porous wall.
Since this fluid has an odor absorbing property, it effectively absorbs the odor in the air. This fluid is then carried through the circulation channel to the outdoor discharge. The emission unit emits an odor from the fluid into the outdoor air. After this, the fluid is conveyed again to the absorption section in the chamber through the circulation flow path, and the above-described operation is repeated. By such a cycle, the odor is carried from the indoor to the outdoor, and as a result, the indoor air is cleaned.

Here, the absorption amount (per unit time) of the absorption unit is determined by the ratio of the concentration of the odorous component in the room air to the concentration of the odorous component in the fluid, while the emission amount of the emission unit ( (Per unit time) is determined by the ratio between the concentration of the odorous component in the fluid and the concentration of the odorous component in the outdoor air. Immediately after the start of operation, assuming that the concentration of the odorous component in the fluid is relatively low (initial state), the absorption amount of the absorption part is large and the emission amount of the emission part is small. Therefore, immediately after the start of operation, the air in the room is cleaned relatively quickly, and the concentration of the odorous component in the fluid increases. If you continue driving,
The concentration of the odorous component in the fluid rises and reaches a level at which the absorption amount of the absorption unit and the emission amount of the emission unit are in equilibrium. After saturation, the absorption amount of the absorption unit is lower than immediately after the start of operation, but as long as the concentration of the indoor odor component is higher than the concentration of the outdoor odor component, the absorption amount of the absorption unit becomes zero. It never happens. Therefore, it is possible to continue the operation for a long time without the trouble of replacing the filter and the like.

In the deodorizing device according to the second aspect of the present invention, the fluid has hygroscopicity, and the absorbing section allows the fluid to absorb the odor and moisture contained in the indoor air through the holes of the porous wall, and the releasing section. Emits the odor and moisture from the fluid into the outdoor air, and thus the cycle described above carries the odor and moisture from the indoor to the outdoor. Therefore, the indoor air is cleaned and dehumidified. In this case, since the deodorization and the dehumidification are performed by the same device, the product price and the operating cost are reduced as compared with the case where the deodorization and the dehumidification are performed by different devices.

In the deodorizing device according to the third aspect, the discharging portion is
It has a porous wall that constitutes a part of the circulation channel. Odors and moisture are vaporized and released from the fluid into the outdoor air through the pores of the porous wall. In this case, the discharge part need only have the above-mentioned porous wall, and can be simply configured with a small number of members. However, the discharge part may be provided with other components such as a fan for flowing outdoor air on the outer surface of the porous wall.

In the deodorizing device according to the fourth aspect, the odor and water are vaporized from the liquid surface of the fluid in the tank. The vaporized odor and water are released into the outdoor air through the opening in the upper part of the tank. Therefore, odors and moisture are efficiently carried from the room to the outdoors, and as a result, the indoor air is quickly cleaned and dehumidified.

In the deodorizing device of the fifth aspect, the fluid stored in the tank is heated by the heater in a state where the pump is temporarily stopped and the circulation of the fluid is stopped. The heating increases the vapor pressure of odors and moisture, and vaporizes the odorous components and moisture contained in the fluid in the tank. The vaporized odor and moisture are released into the outdoor air through the tank opening. As a result, the concentration of the odorous component in the fluid is reduced and the water content is reduced. That is, the concentration of odorous components and the amount of water in the fluid decrease from the level at which the absorption amount of the absorption unit and the release amount of the emission unit are in equilibrium to, for example, the level in the initial state. That is, the fluid is easily regenerated by heating the heater without replacing the filter or the like.

In the deodorizing apparatus of the sixth aspect, since the solid odor adsorbent is provided in the tank, the odor component in the fluid is adsorbed by the odor adsorbent. Therefore, the air in the room is quickly cleaned and dehumidified quickly. In this case, when the adsorption holding amount of the odor adsorbent reaches or before reaching the saturation level, the odor adsorbent is heated by, for example, a heater while the pump is temporarily stopped and the fluid circulation is stopped. The retained odorous component can be released. As a result, regeneration is easily performed without removing the odor adsorbent.
Since the released odorous component is released into the outdoor air through the opening of the tank, it does not pollute the indoor air.

In the deodorizing device of claim 7, since the fluid contains a particulate odor adsorbent, the odor adsorbent is quickly absorbed by the odor adsorbent in the absorbing portion, and the absorption amount increases. . As a result, odors and water are efficiently carried from the room to the outdoors. Therefore, the air in the room is quickly cleaned and dehumidified quickly.

[0020]

EXAMPLES The present invention will be described in detail below with reference to examples.

FIG. 1 schematically shows the entire structure of a deodorizing / dehumidifying device according to an embodiment of the present invention.

This deodorization / dehumidification / dehumidification device penetrates through an absorbing portion 1 provided inside a room, a discharging portion 2 provided outside the room, and a wall 20 that separates the inside and the outside from the absorbing portion 1 and the discharging portion 2. It is provided with a feed pipe 11 and a return pipe 12 that connect to each other.
The absorbing part 1, the discharging part 2, the feed pipe 11 and the return pipe 12 constitute a circulation flow path for circulating the LiCl aqueous solution L having both the absorbability and the hygroscopic property as a fluid.
A pump 7 for pumping and circulating the LiCl aqueous solution L is provided in the outdoor portion of the feed pipe 11.

The absorbing part 1 extends in the vertical direction between the feed pipe 11 and the return pipe 12 and constitutes a part of the circulation flow path, and a porous tube 3 and an outer peripheral surface of the porous tube 3. It has a fan 8 for flowing the air in the room.
On the wall surface of the porous tube 3, there are innumerable microscopic holes 3a through which the odor and water vapor in the air can pass but the LiCl aqueous solution L cannot pass.

On the other hand, the discharge part 3 is provided with a tank 4 for storing the LiCl aqueous solution L. For convenience of circulating the LiCl aqueous solution L in a state where the circulation flow path is filled, the feed pipe 11 connects the lower part of the tank and the lower part of the porous tube 3, and the return pipe 12 connects the upper part of the porous tube 3. It is connected to the upper part of the tank 4. A discharge pipe 13 as an opening is provided at the upper part of the tank 4. This discharge pipe 13
The tip of is bent substantially horizontally to prevent rainwater from entering the tank 4. Inside the tank 4, a heater 6 for heating the LiCl aqueous solution L and a filter 5 containing a solid odor adsorbent are provided at the outlet of the tank 4, that is, the feed pipe 12.
It is installed so as to cover the entrance of the. Filter 5 is
For example, a granular activated carbon is wrapped in a porous sheet. All the LiCl aqueous solution L flowing out from the tank 4 to the feed pipe 12 passes through the filter 5.

During operation, the pump 7 and fan 8 are driven. First, the LiCl aqueous solution L is sent from the pump 7 to the absorbing section 1. The air in the room is blown by the fan 8 on the outer peripheral surface of the porous tube 3 of the absorber 1. As a result, the odor and water contained in the indoor air are absorbed by the LiCl aqueous solution L through the holes 3a of the porous tube 3. This LiCl
Since the aqueous solution L has both odor absorbing property and hygroscopic property, it effectively absorbs odor and moisture in the air. Next, this LiCl aqueous solution L is carried to the outdoor discharge section 2 through the return pipe 12. Smell and moisture are vaporized from the liquid surface of the LiCl aqueous solution L in the tank 4 of the discharge unit 2, and the vaporized odor and moisture are discharged into the outdoor air through the discharge pipe 13 at the upper part of the tank. After that, the LiCl aqueous solution L is again conveyed to the indoor absorption section 1 through the filter 5, the pump 7, and the feed pipe 11, and the above-described operation is repeated. By such a cycle, odors and moisture are carried from the room to the outdoors, and as a result, the indoor air is cleaned and dehumidified. In this case, since deodorization and dehumidification are performed by the same device, the device price and operating cost can be reduced compared to the case where deodorization and dehumidification are performed by different devices.

Here, regarding the odorous component, the absorbing portion 1
The absorption amount (per unit time) of is determined by the ratio of the concentration of the odorous component in the room air to the concentration of the odorous component in the LiCl aqueous solution L, while the release amount (per unit time) of the emission part 2 is It is determined by the ratio between the concentration of the odorous component in the LiCl aqueous solution L and the concentration of the odorous component in the outdoor air. Immediately after the operation is started, assuming that the concentration of the odorous component in the LiCl aqueous solution L is relatively low (initial state), the absorption amount of the absorption unit 1 is large and the emission amount of the emission unit 2 is small. Therefore, immediately after the start of operation, the air in the room is cleaned relatively quickly, and the concentration of the odorous component in the LiCl aqueous solution L increases. When the operation is continued, the concentration of the odorous component in the LiCl aqueous solution L rises and reaches a level at which the absorption amount of the absorption unit 1 and the emission amount of the emission unit 2 are in equilibrium. After saturation, the absorption amount of the absorption unit 1 is lower than immediately after the start of operation, but the absorption amount of the absorption unit 1 becomes zero as long as the concentration of the indoor odor component is higher than the concentration of the outdoor odor component. It never happens. Similarly, with respect to water, the absorption amount (per unit time) of the absorption unit 1 is determined by the ratio of the relative humidity in the room air to the water amount in the LiCl aqueous solution L, while the release amount (unit time) The hit amount is determined by the ratio of the water content in the LiCl aqueous solution L to the relative humidity in the outdoor air. Immediately after the operation is started, assuming that the water content in the LiCl aqueous solution L is in a relatively low state (initial state), the absorption amount of the absorption unit 1 is large and the emission amount of the emission unit 2 is small. Therefore, immediately after the start of operation, the air in the room is dehumidified relatively quickly, and the amount of water in the LiCl aqueous solution L increases. When the operation is continued, the amount of water in the LiCl aqueous solution L rises to a level at which the absorption amount of the absorption unit 1 and the emission amount of the discharge unit 2 are balanced and saturated. After saturation, the absorption amount of the absorption unit 1 is lower than immediately after the start of operation, but the absorption amount of the absorption unit 1 does not become zero as long as the indoor relative humidity is higher than the outdoor relative humidity. . Therefore, the deodorizing / dehumidifying device can be continuously operated for a long period of time without the trouble of replacing the filter and the like. Since the activated carbon filter 5 provided at the outlet of the tank 4 adsorbs the odorous component in the LiCl aqueous solution L, it is possible to prevent the concentration of the odorous component in the LiCl aqueous solution L from increasing for a while. Therefore, during that period, the absorption amount of the absorber 1 can be maintained at the level immediately after the start of operation. Before the adsorption holding amount of the filter 5 reaches the limit, the following regeneration process is performed.

When it is desired to maintain the deodorizing and dehumidifying ability of this apparatus at a level immediately after the start of operation, the pump 7 is temporarily stopped and the circulation of the LiCl aqueous solution L is stopped.
A regeneration process is applied to the iCl aqueous solution L and the filter 5. That is, the heater 6 is
The LiCl aqueous solution L and the filter 5 in the tank 4
Is heated to about 140 to 150 ° C. By heating, the vapor pressure of odors and moisture increases, and the odorous components and moisture contained in the LiCl aqueous solution L in the tank 4 and the filter 5 are vaporized. The vaporized odor and water are discharged into the outdoor air through the discharge pipe 13 of the tank 4. As a result, the concentration of odorous components and the amount of water in the LiCl aqueous solution L are reduced. In other words, the concentration and the water content of the odorous component in the LiCl aqueous solution L can be reduced from the level at which the absorption amount of the absorption unit 1 and the release amount of the discharge unit 2 are in equilibrium to, for example, the level in the initial state. At the same time, the odorous component retained in the filter 5 can be removed (regeneration process). Therefore, the absorption amount of the absorption unit 1 can be easily returned to the level immediately after the start of operation without replacing the filter 5. In addition, the vaporized odorous component is discharged from the discharge pipe 13 of the tank 4.
It is released into the outdoor air through the chamber, so it does not pollute the indoor air.

In a preferred embodiment, as shown in FIG. 2 (a), a plurality of porous tubes 3 are provided in parallel. In this case, the total area of the holes 3a of the porous tube 3 can be expanded, the absorption amount of the absorption section 1 can be increased, and the deodorizing and dehumidifying capabilities can be enhanced. In this case, Li is provided between the feed pipe 11 and the lower portions of the porous tubes 3, 3, ....
Lower support member 1 for branching Cl aqueous solution L into each tube
b, the upper support member 1a for joining the LiCl aqueous solution L is provided between the upper part of the porous tubes 3, 3, ... And the return pipe 12. Further, as shown in FIG. 2 (b), a plurality of porous tubes 3, 3, ... Are pierced through the box-shaped member 1c, and the LiCl aqueous solution L is allowed to flow to the outside of each porous tube 3 while The air in the room may be allowed to flow inside the quality tube 3.

FIG. 3 shows a modification of the deodorizing / dehumidifying device. This deodorizing / dehumidifying / dehumidifying device is provided with a discharge part 52 having a porous tube 53 and a fan 58, instead of the discharge part 2 having the tank 4 of FIG. The same components as those in FIG. 1 are designated by the same reference numerals and the description thereof will be omitted. The porous tube 53 of the discharge section 52 constitutes a part of the circulation flow path similarly to the porous tube 3 of the absorption section 1, and allows the odor and water vapor in the air to pass through the wall surface but does not pass the LiCl aqueous solution L. It has innumerable fine holes 3a. The fan 58 can flow indoor air to the outer peripheral surface of the porous tube 53 during operation. In this case, the discharge part 52 can be easily configured with the porous tube 53 and the fan 58.

At the time of operation, in the discharging part 52, odors and water are vaporized and discharged from the LiCl aqueous solution L into the outdoor air through the holes 53a of the porous tube 53. Therefore, a cycle in which the pump 7 is driven to circulate the feed pipe 11, the absorption unit 1, the return pipe 12, the discharge unit 52, the pump 7 and the LiCl aqueous solution L can carry odor and water from the room to the outdoors. Thereby, the indoor air can be cleaned and dehumidified.

In each of the examples of FIGS. 1 and 3, activated carbon may be mixed in the LiCl aqueous solution L as a particulate odor adsorbent. When the LiCl aqueous solution L carries the activated carbon, odor and water are quickly absorbed by the activated carbon in the absorption section, and the absorption amount increases. As a result, it is possible to efficiently carry odors and water from the room to the outdoors. Therefore, the air in the room can be quickly cleaned and dehumidified quickly.

In each of the examples shown in FIGS. 1 and 3, by providing a cooler in the feed pipe 11 and a heater in the return pipe 12, the temperature of the LiCl aqueous solution L is reduced to a low temperature in the absorption part 1 to absorb the amount of absorption. The discharge amount can be increased by increasing the temperature in the discharge portion 2 or 52. As a result, odors and moisture can be efficiently carried from the room to the outdoors, and therefore the room air can be promptly cleaned and dehumidified quickly.

The LiCl aqueous solution L is not limited to the LiCl aqueous solution and may be a strong acid, for example. However, from the viewpoint of maintenance and safety of the pump 7, the pipes 11 and 12, the LiCl aqueous solution is preferable.

Further, the absorbing section 1, the discharging section 2, 52
May be housed in casings each having an air circulation port. This is to improve the appearance and safety.

[0035]

As is apparent from the above description, claim 1
The deodorizing device is a circulation channel that can circulate a fluid having an odor absorbing property between the outside and the room, a pump that circulates the fluid in the circulation channel, and an indoor portion of the circulation channel. Which has a porous wall that constitutes a part of the circulation flow path, and an absorption part that absorbs the odor contained in the room air through the porous wall into the fluid, and an outdoor part of the circulation flow path. Since the odor is provided to release the odor from the fluid into the outdoor air, the odor can be carried from the room to the outdoor and the indoor air can be cleaned. Immediately after the start of operation, assuming that the concentration of the odorous components in the fluid is relatively low (initial state), the absorption amount of the absorption part is large and the emission amount of the emission part is small. Can be cleaned quickly. When the operation is continued, the concentration of the odorous component in the fluid rises and becomes saturated, but as long as the concentration of the indoor odorous component is higher than the concentration of the outdoor odorous component, the absorption amount of the absorption unit is zero. Never be. Therefore, continuous operation can be performed for a long period of time without the trouble of replacing the filter and the like.

In the deodorizing apparatus of claim 2, the fluid also has hygroscopicity, and the absorbing section allows the fluid to absorb the odor and moisture contained in the air in the room through the holes of the porous wall, and the releasing section. Releases the odor and moisture from the fluid into the outdoor air, so that the cycle described above can carry the odor and moisture from the indoor to the outdoor. Therefore, while cleaning the indoor air,
Can be dehumidified. In this case, since the deodorization and the dehumidification are performed by the same device, the device price and the operating cost can be reduced as compared with the case where the deodorization and the dehumidification are performed by different devices.

In the deodorizing device according to the third aspect, the discharging portion is
Having a porous wall that constitutes a part of the circulation flow path, through the pores of the porous wall, the odor and moisture are vaporized and released into the outdoor air from the fluid, so the indoor air is cleaned, Can be dehumidified. In addition, the discharge part only needs to have the above-mentioned porous wall, and can be simply configured with a small number of members.

In the deodorizing device according to the fourth aspect, the odor and moisture are vaporized from the liquid surface of the fluid in the tank and released into the outdoor air through the opening in the upper part of the tank. It can be carried efficiently. Therefore, the air in the room can be quickly cleaned and dehumidified quickly.

In the deodorizing apparatus according to the fifth aspect, since the heater is provided in the tank, the fluid stored in the tank is heated by the heater while the pump is temporarily stopped and the circulation of the fluid is stopped. By doing so, it is possible to increase the vapor pressure of odors and moisture, vaporize the odorous components and moisture contained in the fluid in the tank, and release them into the outdoor air through the opening of the tank. As a result, the concentration of the odorous component in the fluid can be reduced and the amount of water can be reduced. That is, the fluid can be easily regenerated by heating the heater without replacing the filter or the like.

In the deodorizing apparatus of the sixth aspect, since the solid odor adsorbent is provided in the tank, the odor component in the fluid is adsorbed by the odor adsorbent. Therefore, the air in the room can be quickly cleaned and dehumidified quickly. In this case, when the adsorption holding amount of the odor adsorbent reaches or before reaching the saturation level, the odor adsorbent is heated by, for example, a heater while the pump is temporarily stopped and the fluid circulation is stopped. The retained odorous component can be released. Therefore, it can be easily regenerated without removing the odor adsorbent.

In the deodorizing device according to the seventh aspect, since the fluid contains a particulate odor adsorbent, the odor adsorbent is quickly absorbed by the odor adsorbent in the absorbing portion, and the absorption amount increases. . Therefore, it is possible to efficiently carry odors and moisture from the room to the outdoors, and thereby to quickly clean the air in the room and quickly dehumidify it.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing an overall configuration of a deodorizing / dehumidifying device according to an embodiment of the present invention.

FIG. 2 is a diagram showing an example in which a plurality of porous tubes are provided in the absorbing section of the deodorizing / dehumidifying device.

FIG. 3 is a diagram showing a modified example of the deodorizing / dehumidifying device.

[Explanation of symbols]

1 Absorbing part 2,52 Discharging part 3,53 Porous tube 4 Tank 5 Filter 6 Heater 7 Pump 8,58 Fan 11 Feed pipe 12 Return pipe

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI B01D 53/38 B01D 53/34 116A 53/81 F24F 1/00 371Z F24F 1/00 (56) Reference JP-A-3-5641 (JP, A) JP-A-2-149312 (JP, A) Actual development Sho 62-187222 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) B08B 15/00 A61L 9 / 00 B01D 53/00-53/81 F24F 1/00

Claims (7)

(57) [Claims] 1. A circulation flow path (11, 3, 3) capable of circulating a fluid (L) having an odor absorbing property between the outside and the inside of the room.
12, 4), a pump (7) for circulating the fluid (L) in the circulation flow path, and a porous wall that is provided in the indoor part of the circulation flow path and constitutes a part of the circulation flow path. An absorbing part (1) having (3) for absorbing the odor contained in the air in the room through the porous wall (3) into the fluid (L), and the absorbing part (1) provided in an outdoor portion of the circulation flow path. A deodorizing device comprising: a release part (2) for releasing an odor from (L) into the outdoor air. 2. The deodorizing device according to claim 1, wherein the fluid (L) has a hygroscopic property, and the absorbing part (1) has a odor contained in the indoor air through the porous wall (3). A deodorizing device characterized in that moisture is absorbed by the fluid (L), and the discharge part (2) discharges the odor and moisture from the fluid (L) into the outdoor air. 3. The deodorizing device according to claim 1 or 2, wherein the discharge part (52) has a porous wall (53) forming a part of the circulation flow path, and the porous wall (53). ) Through the fluid (L) into the outdoor air to vaporize the odor or the odor and moisture. 4. The deodorizing device according to claim 1 or 2, wherein the discharge part (2) has an opening (13) in an upper part, and a tank (4) capable of storing the fluid (L). A deodorizing device characterized by being provided. 5. The deodorizing device according to claim 4, further comprising a heater (6) for heating the fluid (L) stored in the tank (4). 6. The deodorizing device according to claim 4 or 5, wherein a solid odor adsorbent (5) is provided in the tank (4). 7. The deodorizing device according to any one of claims 1 to 6, wherein the fluid (L) is mixed with a particulate odor adsorbent.