JP2000291988A - Permeable film unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a permeable film unit conforming arbitrarily to the profile of a assembling space and imparting desired moisture conditioning or deodorizing function by securing a plurality of polymer permeable film tube between specified frames corresponding to the profile of the assembling space for an apparatus to be applied. SOLUTION: This permeable film unit 15 comprising a large number of polymer permeable film tubes 17, arranged at a specified interval while being interconnected, obtained by forming a porous polymer permeable film tubularly, for example, between left and right water distribution headers 16a having a hooked cross-section internally touching the inner upper part of a heat exchanger 6 having a hooked cross-section. Water supplied from a water supply pipe is fed through the water distribution header 16a to the tube 17 and dissipated in the state of steam to the outside through the polymer permeable film part of the tube 17. Since air sucked from air suction grills 3, 4 by means of a cross flow fan 9 and passed via the heat exchanger 6 flows on the outside of the tube 17, air is humidified and deodorized by the dissipated steam.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a permeable membrane unit using a polymer permeable membrane.

[0002]

2. Description of the Related Art Recently, humidity control means such as a humidifier using a permeable membrane unit made of a porous polymer permeable membrane through which water molecules permeate have been proposed and provided. Has become.

In this case, for example, the above-mentioned polymer permeable membrane is formed in a flat band-shaped tube so that water can flow inside, and the water-permeable duct is passed through a corrugated spacer member. It is disposed spirally with a predetermined ventilation interval (Japanese Patent Application Laid-Open No. 62-242740), or the polymer permeable membrane is formed into a flat rectangular bag to allow water to flow inside. While allowing the air to flow, they are arranged in parallel in the left-right direction while maintaining a predetermined ventilation interval in a ventilation duct via a plate-shaped spacer member between their ends (Japanese Patent Laid-Open No. 8-233315). Gazette) is adopted.

According to such a configuration, when water supplied through a predetermined water supply pipe flows into the above-mentioned tubular or bag-shaped polymer permeable membrane, the water is supplied to the outside through each polymer permeable membrane. Water can be transmitted and diffused in a water vapor state, and the air flowing outside can be humidified by the diffused water vapor, and can function as a humidifier.

[0005]

However, the permeable membrane unit having the above configuration has the following problems.

(1) A humidifier as a single unit with a small degree of freedom in shape deformation is unlikely to be used as a humidifier. Is not applicable.

(2) Even when a humidifier or the like is constituted by itself, there is a limit in downsizing.

(3) Maintenance is not easy.

(4) To add a deodorizing function,
It is necessary to separately provide an adsorbent alone or a combination of an adsorbent and a catalyst or an ozone generator.

However, in the case of using an adsorbent, the adsorbent itself must be replaced when the adsorption performance is deteriorated, which is costly. In the case of decomposing by combining a catalyst, the decomposition rate may not be sufficient in some cases, and the harmful gas components generated continuously may not be treated sufficiently. Further, those which generate ozone have a problem that ozone enters the room.

The present invention has been made in order to solve the above-mentioned problems, and can be installed arbitrarily in accordance with the shape of a built-in space of a device to be applied. It is an object of the present invention to provide a permeable membrane unit that can easily realize a deodorizing function and the like.

[0012]

Means for Solving the Problems In order to achieve the above object, the present invention is provided with the following means for solving the problems.

(1) The permeable membrane unit according to the first aspect of the present invention,
, 17, 17,... Between a predetermined frame corresponding to the shape of the built-in space.
...., 22, 22, ..., 38, 38 ..., 42, 4
, 52, 52,... Are fixed in parallel. .

Therefore, with this configuration, it is possible to provide a permeable membrane unit having a shape corresponding to the shape of the installation space of the devices 1 and 24 applied as a whole.

(2) The permeable membrane unit according to the second aspect of the present invention,
Distribution headers 16a, 1 corresponding to the shape of the built-in space
6b, 18a, 18b, 20a, 20b, 37a, 37
b, 41a, 41b, 56a, 56b, a plurality of polymer permeable membrane tubes 17, 17,.
, 38, 38, 42, 42,.
., 52, 52,... .

Therefore, in this configuration, it is possible to provide a permeable membrane unit having a shape corresponding to the shape of the installation space of the devices 1 and 24 applied as a whole, and to provide the liquid distribution headers 16a, 16b, 18a, 18b, 20a, 20b, 3
7a, 37b, 41a, 41b, 56a, 56b, the respective polymer permeable membrane tubes 17, 17,.
17, 22, 22, ..., 38, 38, 4,
, 52, 52,...

(3) The permeable membrane unit according to the third aspect of the present invention is the permeable membrane unit according to the first or second aspect, wherein the polymer permeable membrane tube is a cylindrical tube. 17 ..., 22, 2
2 ..., 38, 38 ..., 42, 42 ..., 5
2, 52...

Therefore, in this configuration, the cylindrical polymer permeable membrane tubes 17, 17,..., 17, 17,.
..., 22, 22, ..., 38, 38 ..., 42, 42
.., 52, 52,.
The shape freedom of the invention of the invention is effectively realized, and an effective humidity control action and other actions are exhibited.

(4) The permeable membrane unit according to the present invention is the permeable membrane unit according to the first or second aspect of the present invention, wherein the polymer permeable membrane tube has a flat membrane shape. It is characterized by becoming.

Therefore, in this configuration, the flat shape of the polymer permeable membrane tubes 22, 22,... Effectively realizes the degree of freedom of the invention according to claim 1 or 2,
In addition, an effective humidity control and other effects are exhibited.

(5) The invention of claim 5 The permeable membrane unit of the present invention is the above-described claim 1, 3 or 4
In the configuration of the invention of the above, the equipment to be applied is the air conditioners 1, 24 having the air heat exchangers 6, 35, and the frame shape is configured to correspond to the inner shape of the air heat exchangers 6, 35. In addition, the permeable membrane unit is characterized in that it is incorporated in the inner peripheral side of the air heat exchangers 6, 35.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space inside the air heat exchangers 6, 35 of the air conditioners 1, 24, and can be assembled compactly. Functions can be added.

(6) The permeable membrane unit according to the sixth aspect of the present invention is the permeable membrane unit according to the second, third or fourth aspect.
In the configuration of the invention of the present invention, the equipment to be applied is the air conditioners 1, 24 having the air heat exchangers 6, 35, and the liquid distribution headers 16a, 16b, 18a, 18b, 20a, 20
b, 37a, 37b, 41a, 41b, 56a, 56b
Is configured to have a shape corresponding to the inner shape of the air heat exchangers 6, 35, and the permeable membrane unit is incorporated into the inner peripheral side of the air heat exchangers 6, 35. Features.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space inside the air heat exchangers 6, 35 of the air conditioners 1, 24, and can be assembled compactly. Functions can be added.

(7) The invention according to claim 7 The permeable membrane unit according to the present invention is the above-mentioned claim 1, 3 or 4
In the configuration of the invention of the above, the equipment to be applied is the air conditioners 1, 24 having the air heat exchangers 6, 35, and the frame shape is configured to correspond to the outer shape of the air heat exchangers 6, 35. The permeable membrane unit is characterized in that it is incorporated on the outer peripheral side of the air heat exchangers 6, 35.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space outside the air heat exchangers 6, 35 of the air conditioners 1, 24 and can be compactly assembled, and effective moisture control and other functions can be achieved. Functions can be added.

(8) The invention of claim 8 The permeable membrane unit according to the present invention is the above-mentioned claim 2, 3 or 4
In the configuration of the invention of the present invention, the equipment to be applied is the air conditioners 1, 24 having the air heat exchangers 6, 35, and the liquid distribution headers 16a, 16b, 18a, 18b, 20a, 20
b, 37a, 37b, 41a, 41b, 56a, 56b
Is formed in a shape corresponding to the outer shape of the air heat exchangers 6, 35, and the permeable membrane unit is incorporated on the outer peripheral side of the air heat exchangers 6, 35. And

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space outside the air heat exchangers 6, 35 of the air conditioners 1 and 24, and can be assembled compactly. Functions can be added.

(9) The permeable membrane unit according to the ninth aspect of the present invention is the permeable membrane unit according to the fifth, sixth, seventh or eighth aspect, wherein the air conditioner is a wall-mounted type air conditioner 1, and The heat exchanger is a lambda-type air heat exchanger 6.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space inside or outside the lambda-type air heat exchanger 6 of the wall-mounted air conditioner 1, and can be assembled compactly. Humidity control and other functions can be added.

(10) A tenth aspect of the present invention, in the permeable membrane unit according to the fifth, sixth, seventh or eighth aspect, wherein the air conditioner is a ceiling-mounted air conditioner 24, The air heat exchanger is a ring-shaped air heat exchanger 35.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space inside or outside the annular air heat exchanger 35 of the ceiling-mounted air conditioner 24 and can be compactly incorporated. In addition, humidity control and other functions can be effectively added.

(11) The invention of claim 11 is a permeable membrane unit according to claim 1, 3 or 4 above.
In the configuration of the invention of the first aspect, the equipment to be applied is the air conditioner 1
The frame shape is configured to correspond to the shape of the air outlet 5 of the air conditioner 1, and the permeable membrane unit is incorporated in the air outlet 5 of the air conditioner 1. And

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space of the air outlet 5 of the air conditioner 1 and incorporated compactly, and effective humidity control and other functions can be added. it can.

(12) The twelfth aspect of the present invention provides the permeable membrane unit according to the second, third or fourth aspect.
In the configuration of the invention of the first aspect, the equipment to be applied is the air conditioner 1
And the liquid distribution headers 16a, 16b, 18a, 18
b, 20a, 20b, 37a, 37b, 41a, 41
The header shape of b, 56a, 56b is configured to correspond to the shape of the air outlet 5 of the air conditioner 1, and the permeable membrane unit is incorporated in the air outlet 5 of the air conditioner 1. It is characterized by:

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space of the air outlet 5 of the air conditioner 1 and can be assembled compactly, and effective humidity control and other functions can be added. it can.

(13) The invention of claim 13 is a permeable membrane unit according to claim 1, 3 or 4 above.
In the configuration of the invention, the device to be applied is an air purifier, the frame shape is configured to correspond to the shape of the air passage of the air purifier, and the permeable membrane unit is incorporated in the air passage of the air purifier It is characterized by that.

Therefore, in this configuration, the permeable membrane unit can be appropriately set in the space of the air passage of the air purifier, and can be incorporated compactly. In addition to the air purifying function, effective humidity control and other functions can be provided. Can be added.

(14) The invention according to claim 14, wherein the permeable membrane unit according to the present invention is the above-described claim 2, 3 or 4.
In the configuration of the invention of the third aspect, the applied device is an air purifier, and the liquid distribution headers 16a, 16b, 18a, 18
b, 20a, 20b, 37a, 37b, 41a, 41
The header shape of b, 56a, 56b is configured to correspond to the shape of the air passage of the air cleaner, and the permeable membrane unit is incorporated in the air passage of the air cleaner.

Therefore, in this configuration, the permeable membrane unit can be set appropriately in the space of the air passage of the air conditioner and can be assembled compactly, and an effective humidity control and other functions are added in addition to the air cleaning function. can do.

(15) Invention of Claim 15 The permeable membrane unit according to the present invention is characterized in that:
In the constitution of the invention of 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 or 14, the liquid is water.

Therefore, according to this configuration, the water can be diffused through the polymer permeable membrane of the permeable membrane unit, and appropriate humidification of air can be performed, and an effective humidity control function can be realized.

(16) The invention according to claim 16, wherein the permeable membrane unit according to the present invention comprises
In the invention according to 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, or 14, the liquid is an absorbing liquid.

Therefore, according to this configuration, the absorbing liquid can appropriately absorb moisture in the air through the polymer permeable membrane of the permeable membrane unit, and an effective moisture absorbing function can be realized.

(17) The invention according to claim 17 The permeable membrane unit according to the present invention is the above-described claim 1, 2, 3, or
In the constitution of the invention of 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 or 14, the liquid is a deodorant.

Therefore, according to this configuration, the deodorizing agent can deodorize odor components in the air through the polymer permeable membrane of the permeable membrane unit, and realizes an effective deodorizing function simply and for a long time. can do. Further, maintenance becomes easier as compared with a conventional deodorizing means using an adsorbent or the like.

(18) The permeable membrane unit according to the present invention, wherein
4,5,6,7,8,9,10,11,12,13,1
In the constitution of the invention of 4, 15, 16 or 17, the heating means for the liquid is provided.

Therefore, according to this configuration, the effect of dissipating the liquid dissipated through the permeable membrane due to the temperature rise of the liquid by the heating means can be more effectively improved.

(19) The invention according to claim 19, wherein the permeable membrane unit according to claim 19, wherein
4,5,6,7,8,9,10,11,12,13,1
The invention according to 4, 15, 16 or 17 is characterized in that heating means for air is provided.

Therefore, according to this configuration, the effect of dissipating the liquid dissipated through the permeable membrane due to the temperature rise of the contact air by the heating means can be more effectively improved.

(20) The twentieth aspect of the present invention provides the permeable membrane unit according to the first, second, third, and third aspects.
4,5,6,7,8,9,10,11,12,13,1
In the constitution of the invention of 4, 15, 16, 17, 18 or 19, the polymer permeable membrane is formed by joining a porous polytetrafluoroethylene sheet 61 between reinforcing non-woven fabrics 62, 62 so as to be integrated. The permeable membrane 60 is characterized.

Therefore, in this configuration, the operation of each of the above-described inventions is effectively realized by the porous permeable membrane 60 having the above-described structure.

(21) The permeable membrane unit according to the present invention, wherein
4,5,6,7,8,9,10,11,12,13,1
In the constitution of the invention of 4, 15, 16, 17, 18 or 19, the polymer permeable membrane is a porous polytetrafluoroethylene sheet 71 coated with a hydrophilic polyurethane resin 72 to form a non-porous permeable membrane. It is characterized in that it is the film 70.

Therefore, in this configuration, the operation of each of the above-mentioned inventions is effectively realized by the non-porous permeable membrane 70 having the above structure.

[0055]

(Embodiment 1) FIGS. 1 and 2
FIG. 1 shows the structure of an air conditioner having a humidity control function using the permeable membrane unit according to Embodiment 1 of the present invention and the structure of the permeable membrane unit.

First, FIG. 1 shows a configuration of a wall-mounted air conditioner 1 employing a once-through type blower (hereinafter referred to as a cross flow fan) as an example of a multi-blade blower.

In FIG. 1, reference numeral 2 denotes a main body casing of the air conditioner 1. Air suction grills 3 and 4 are formed on an upper surface side and an upper portion on a front side, respectively. An air outlet 5 is provided.

Further, a ventilation passage 7 is provided in the main body casing 2 from each of the air suction grilles 3 and 4 toward the air outlet 5, and an upstream of the ventilation passage 7 is provided with the air suction passage. A heat exchanger (lambda-type heat exchanger) 6 having a U-shaped cross section facing the grilles 3 and 4 is provided with a cross flow fan 9, a tongue portion 12, and a scroll portion 10 in the downstream region. A spiral fan housing is formed by the tongue portion 12 and the scroll portion 10, and an impeller (fan rotor) 9 of the cross flow fan 9 is provided in the openings 10a and 12a.
a is installed so as to rotate in the direction of the arrow.

The tongue portion 12 is provided at a predetermined height along the outer diameter of the impeller (fan rotor) 9a of the cross flow fan 9 located on the air suction grille 4 side. .

The lower portion is connected to an air flow guide portion 12b which also serves as a drain pan below the heat exchanger 6. The air flow guide portion 12b is provided on the downstream side of the scroll so that the air flow blown from the impeller (fan rotor) 9a of the cross flow fan 9 is efficiently blown out from the air outlet 5. Part 1
The air outlet passage 8 having a diffuser structure as shown in FIG.
Is formed.

Reference numeral 14 denotes the scroll unit 10
A wind direction changing plate provided in the air blowing passage 8 having a diffuser structure between the air flow guide portion 12b below the tongue portion 12 and the air flow guide portion 12b.

The shape of the tongue portion 12 is formed as shown in the figure, and extends from the impeller (fan rotor) 9 a of the cross flow fan 9 to the air outlet 5 through the heat exchanger 6. The air flow is blown out in a direction orthogonal to the rotation axis 15 of the impeller 9 a while being curved in the rotation direction as a whole as shown by a chain line arrow, and thereafter, the air flows along the air blowing passage 8. It is bent in the direction of the outlet 5 and is blown out to the front side.

On the other hand, reference numeral 15 denotes a permeable membrane unit according to the present embodiment configured as, for example, a humidifier. Between the left and right water distribution headers 16a and 16b having a U-shaped cross section inscribed inside the upper part of the heat exchanger 6 of a mold type, for example, a porous polymer permeable membrane as shown in the following fourth and fifth embodiments is provided. Are formed by arranging a large number of polymer permeable membrane tubes 17, 17, 17,... Formed in a cylindrical shape at predetermined intervals so as to communicate with each other. Each polymer permeable membrane tube 1 is connected via a water distribution header (introduction header) 16a, 16b.
., And permeate and disperse water in the form of water vapor to the outside through the polymer permeable membrane portions of the polymer permeable membrane tubes 17, 17, 17. .. Outside the polymer permeable membrane tubes 17, 17, 17.
, And the air subjected to heat exchange through the heat exchanger 6 flows, so that the air is humidified by the dissipated water vapor. As a result, the heat exchanged and appropriately humidified air is blown into the room from the air outlet 5 through the cross flow fan 9.

Therefore, with the above configuration, the permeable membrane unit 15 can be easily applied and installed as a humidifier unit having a shape suitable for the internal shape of the wall-mounted air conditioner 1 as described above. In addition to the air conditioning function for cooling or heating, an appropriate humidity control function can be easily added.

In the above configuration, the permeable membrane unit 15 is configured to correspond to the outer shape of the heat exchanger 6 and provided on the outer peripheral side (air suction grill side) of the heat exchanger 6. Even so, substantially the same operation and effect can be obtained.

(Modification 1) Next, FIG. 3 shows a wall-mounted air conditioner 1 similar to the above, in which the above permeable membrane unit 15 is connected to, for example, the air outlet 5 on the downstream side of the air outlet passage 8. A substantially rectangular water distribution header 18a, 18b large enough to be disposed between the left and right ends of the upstream portion is employed, and a plurality of polymer permeable membrane tubes 1 similar to the above are disposed therebetween.
7, 17, 17,... Are arranged side by side in a plurality of rows,
Thereby, a humidifier unit similar to the above is configured.

In this case, the same humidity control function as described above can be added.

(Modification 2) FIG. 4 shows a humidifier permeable membrane unit 15 having substantially the same shape as that of FIG. 2 and a cylindrical polymer permeable membrane tube 17, 17, 17 as shown in FIG.・
.. instead of a flat membrane-shaped polymer permeable membrane tube 2
2, 22, 22,... Are adopted.
In this configuration, the flat membrane-shaped polymer permeable membrane tube 1
7, 17, 17,..., Are provided with predetermined rigidity reinforcement, and are arranged side by side with a predetermined ventilation space between left and right frames (frames) 20 a, 20 b. The distribution headers 21a and 21b are provided and integrated to form a humidifier unit having the same shape as that of FIG. 2 described above.

With such a configuration, the same operation and effect as those of the first embodiment can be obtained.

(Embodiment 2) Next, FIG. 5 and FIG.
The air conditioner which employs the permeable membrane unit according to the second embodiment of the present invention and has a humidity control function, and the structure of the permeable membrane unit are shown. In this embodiment,
As the air conditioner, for example, a ceiling embedded type air conditioner is employed.

In the figure, reference numeral 25 denotes a cassette-type main casing of the ceiling-mounted air conditioner 24. The main body casing 25 is buried in the ceiling 27, for example, as shown in FIG. 5, so that an intake / outlet panel (lower panel portion) 26 thereof is substantially flush with the ceiling 27.

The intake / outlet panel 26 of the main body casing 25 is provided with a square air intake grill 28 at the center thereof, and further, a turbo fan 2
A bell mouth 30 for 9 is connected. The air purifying element (filter) 31 is located between them.
Is provided.

Further, an air outlet 32 having a predetermined width is provided on the outer peripheral portion of the air inlet grill 28 of the intake / outlet panel 26 of the main body casing 25.

The air outlet 32 has an air outlet passage 32a inclined at a predetermined angle in the outer peripheral direction.
a is provided with a wind direction control plate 33.

As described above, inside the main body casing 25, from the air suction grille 5 through the air cleaning element 31, the bell mouth 30, and the air outlet 32
Is formed in the air suction side (shroud 29b) located at the center of the air passage 34 behind (the upper part in the figure) of the air cleaning element 31.
Side) is a turbo fan 29 corresponding to the bell mouth 30
Is suspended from the top panel 25a of the main body casing 25 via the fan motor 29a.

An annular heat exchanger 35 is provided in the main casing 25 so as to surround the outer peripheral portion of the turbo fan 29. The humidifier is arranged side by side on the outer peripheral side. An annular permeable membrane unit 36 as shown in FIG. 6 that forms the unit is provided.

The permeable membrane unit 36 shown in FIG. 6 has a cylindrical high polymer membrane (water molecule permeable membrane) similar to that described above between the ring-shaped water distribution headers 37a and 37b. Are arranged at predetermined intervals in the circumferential direction, and water supplied from a predetermined water supply pipe is supplied to the water distribution headers (introduction headers) 37a, 37b. ., Through the polymer permeable membrane tubes 38, 38,..., And permeate and dissipate in the water vapor state through the polymer permeable membrane portions of the polymer permeable membrane tubes 38, 38,. Outside the polymer permeable membrane, the air sucked from the air suction grill 28 by the turbo fan 29 and purified through the air cleaning element 31 flows toward the air outlet 32 through the heat exchanger 35. Therefore, the air is humidified by the dissipated water vapor. And then heat exchange,
The humidified air is blown into the room from the air outlet 32 through the downstream area of the air passage 34.

Therefore, in the above configuration, the permeable membrane unit 36 can be easily applied and installed as a humidifier unit having a shape suitable for the internal shape of the ceiling-embedded type air conditioner 1, and can be used for cooling or cooling. In addition to the air conditioning function of heating, a humidity control function can be easily added.

In the above configuration, the permeable membrane unit 36 is formed so as to correspond to the shape inside the heat exchanger 35, and is provided on the inner peripheral side of the heat exchanger 35 (the turbo fan 29 side). Even in this case, substantially the same operation and effect can be obtained.

(Modification 1) Next, FIG. 7 shows an air conditioner 1 having the same function as that of the above-embedded ceiling type air conditioner. A ring-shaped water distribution header (introduction header) 4 large enough to be disposed in the ventilation passage in the upper part of 31
1a, 41b, a plurality of polymer permeable membrane tubes 42,
.. Are arranged side by side in a plurality of rows, and provided as a humidifier unit similar to the above in the air passage above the air cleaning element 31.

In this case, a humidity control function similar to that of the second embodiment can be easily added.

(Third Embodiment) FIGS. 8 and 9 show a configuration of a permeable membrane unit according to a third embodiment of the present invention configured as, for example, a humidifier unit that can be used for general purposes.

First, reference numeral 50 denotes a permeable membrane unit configured as a humidifier unit corresponding to a predetermined use. The permeable membrane unit 50 is, for example, as shown by an arrow A as shown in FIGS. A large number of polymer permeable membranes are provided via support plates 51, 51 between left and right water distribution headers (introduction / derivation headers) 56a, 56b facing each other at a predetermined distance in the left-right direction in a ventilation path through which air flows. Are connected and arranged in parallel at a predetermined interval, and the water supply pipe 5
Water tank 55 supplied by a water pump 54 via
From each of the polymer permeable membrane tubes 52, 52, 52,... Through the water distribution header 16a on the water introduction side, for example.
And the polymer permeable membrane tubes 52, 52, 52
Water is permeated and dissipated in the form of water vapor to the outside through the polymer permeable membrane portion of. Since the air is made to flow outside the polymer permeable membrane by the fan or the like as described above, the air is humidified by the dissipated water vapor. Then, the humidified air is blown out to a desired place such as a room.

Therefore, with the above configuration, the permeable membrane unit 50 can be easily applied and installed as a versatile humidifier unit corresponding to various uses, and an efficient humidity control function is realized. Will be able to do it.

(Modification 1) In the same configuration as described above, each of the polymer permeable membrane tubes 52, 52, 52,... Of the permeable membrane unit 50 is sealed in a predetermined water dispenser.
Even if air is allowed to flow through the polymer permeable membrane tubes 52, 52, 52,..., A similar humidifier unit in the reverse form can be formed.

[0086] Even in such a case, a substantially similar humidity control function can be realized.

(Embodiment 4) Next, FIG. 10 shows a specific structure of a polymer permeable membrane according to Embodiment 4 of the present invention used in the permeable membrane unit of each of the above embodiments. Is shown.

The polymer permeable membrane 60 of this embodiment is based on a polytetrafluoroethylene sheet 61 having a thickness of about 5 to 50 μm, which is a porous polymer permeable membrane. , 62 are bonded together via an adhesive to form a porous polymer permeable membrane.

Therefore, in this configuration, the operation of each of the above embodiments is effectively realized by the porous polymer permeable membrane having the above structure.

(Embodiment 5) Next, FIG. 11 shows a specific structure of a polymer permeable membrane according to Embodiment 5 of the present invention used in the permeable membrane unit of each of the above embodiments. Is shown.

The polymer permeable membrane 70 of this embodiment is formed, for example, on both sides of a polytetrafluoroethylene sheet 71 having a thickness of about 5 to 50 μm, which is a porous polymer permeable membrane, by using a hydrophilic polyurethane resin 72. Is a non-porous composite polymer permeable membrane.

Therefore, in this configuration, the operation of each of the above embodiments is effectively realized by the nonporous composite polymer permeable membrane having the above structure.

(Other Embodiments) The permeable membrane unit of the invention of the present application is embodied by the following various embodiments in addition to the configurations of the above-described embodiments.

(1) In the permeable membrane unit of each of the above embodiments, the liquid distribution headers 16a, 16b, 18a, 18b, and 20 corresponding to the shape of the built-in space of the equipment to be applied.
a, 20b, 37a, 37b, 41a, 41b, 56
a, a plurality of polymer permeable membrane tubes 17, 17
..., 17, 17 ..., 22, 22 ..., 38,
, 42, 42,..., 52, 52... Are arranged side by side so that the liquid distribution header itself also has a frame function. , 22, 22,... Between a predetermined frame corresponding to the shape of the insertion space.
.., 38, 38, 42, 42, 52, 5
.. May be provided side by side, and a separate liquid distribution and supply means may be provided.

(2) In Embodiments 1 and 2 described above, the case where an air conditioner is used as an applicable device is exemplified. However, the permeable membrane unit of each invention of the present application can be applied to an air purifier, for example. can do.

In this case, for example, the shape of the frame or the liquid distribution header is configured to correspond to the shape of the air passage of the air purifier, and the permeable membrane units 15, 36, 3
9 and 50 are installed in the air purifier, for example, at an appropriate position in an air passage.

In this configuration, the permeable membrane units 15, 36,
39 can be appropriately set in a desired space of the air passage of the air conditioner and can be assembled compactly, and effective humidity control and other functions can be added in addition to the air cleaning function.

(3) In each of the above embodiments, for example, water is used as the liquid to flow into the polymer permeable membrane tubes 17, 22, 38, 42, and 52. However, this is used instead of or together with water. An absorbing liquid such as lithium bromide can be employed.

With such a configuration, it is possible to appropriately absorb moisture in the air through the polymer permeable membrane of the permeable membrane unit by the absorbing liquid, and to realize an effective moisture absorbing function.

(4) In each of the above embodiments, for example, water is used as the liquid flowing into the polymer permeable membrane tubes 17, 22, 38, 42, and 52. However, this is used instead of or together with water. A desired deodorant can be employed.

With such a configuration, the deodorizing agent can deodorize the odorous gas component in the air through the polymer permeable membrane of the permeable membrane unit, thereby realizing an effective deodorizing function.

(5) In each of the above embodiments, for example, water is used as the liquid flowing into the polymer permeable membrane tubes 17, 22, 38, 42, and 52. However, this is used instead of or together with water. Jasmine, orchid, lemon and the like can also be used.

With such a configuration, the fragrance can add an appropriate fragrance to air through the polymer permeable membrane of the permeable membrane unit, thereby realizing an effective deodorizing / fragrance adding function. Can be.

(6) In each of the above embodiments, for example, water is employed as the liquid flowing into the polymer permeable membrane tubes 17, 22, 38, 42, and 52. It is also possible to add and mix an aromatic liquid having a tranquilizing effect.

With such a configuration, the aromatic liquid can add an appropriate fragrance having a tranquilizing effect to the air through the polymer permeable membrane of the permeable membrane unit, and can provide an effective conditioning function and relaxation. Functions can also be realized.

(7) In the structure of the permeable membrane unit of each of the above embodiments, in order to improve the water evaporation and humidification efficiency, it is preferable that both the temperature of the supplied water and the temperature of the flowing air are higher. preferable.

Therefore, if necessary, a heating means for the liquid supplied to the polymer permeable membrane tubes 17, 22, 38, 42, 52 or the external blast air is provided.

According to such a configuration, the evaporative radiation effect of the liquid evaporated and diffused through the polymer permeable membrane due to the temperature rise of the liquid or air by the heating means can be more effectively improved.

[Brief description of the drawings]

FIG. 1 is a sectional view of a wall-mounted air conditioner to which a humidifying function is added by applying a permeable membrane unit according to Embodiment 1 of the present invention.

FIG. 2 is an enlarged perspective view of the permeable membrane unit.

FIG. 3 is a cross-sectional view of a wall-mounted air conditioner similar to FIG. 1 in which a humidifying function is added by applying a configuration according to a first modification of the permeable membrane unit.

FIG. 4 is an enlarged perspective view of a configuration according to a second modification of the permeable membrane unit.

FIG. 5 is a cross-sectional view of an embedded ceiling air conditioner to which a humidifying function is added by applying the permeable membrane unit according to Embodiment 2 of the present invention.

FIG. 6 is an enlarged perspective view of the permeable membrane unit.

FIG. 7 is a cross-sectional view of a ceiling-embedded air conditioner similar to FIG. 5 to which a humidifying function is added by applying the configuration according to Modification 1 of the permeable membrane unit.

FIG. 8 is a front view of a humidifier unit configured by applying the permeable membrane unit according to Embodiment 3 of the present invention.

FIG. 9 is a sectional view of a main part of the humidifier unit.

FIG. 10 is a cross-sectional view illustrating a polymer permeable membrane structure of a permeable membrane unit according to Embodiment 4 of the present invention.

FIG. 11 is a sectional view showing a polymer permeable membrane structure of a permeable membrane unit according to Embodiment 5 of the present invention.

[Explanation of symbols]

1 is a wall-mounted air conditioner, 7 is a ventilation passage, 9 is a cross flow fan, 15 is a permeable membrane unit, 16a and 16b are water distribution headers, 17 is a cylindrical polymer permeable membrane tube,
20a and 20b are frames, 21a and 21b are water distribution headers, 22 is a flat membrane-shaped polymer permeable membrane tube, 24
Is a ceiling-mounted air conditioner, 29 is a turbo fan, 36 is a permeable membrane unit, 37a and 37b are water distribution headers, 41
a and 41b are water distribution headers, 42 is a polymer permeable membrane tube, 50 permeable membrane units, 53a and 53b are water distribution headers, 51 is a support plate, and 52 is a polymer permeable membrane tube.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Toru Inazuka 1304 Kanaokacho, Sakai City, Osaka Daikin Industries, Ltd. Sakai Seisakusho Kanaoka Factory F-term (reference) 3L055 AA01 BA01 4D006 GA27 HA21 HA41 JA01A JA16A KE16Q MA02 MA06 MA10 MA31 MC30 MC53 PA10 PB06 PB12 PB13 PB14 PB65 PC72 PC80

Claims (21)

[Claims] 1. A plurality of polymer permeable membrane tubes (17), (17),..., (22) between predetermined frames corresponding to the shape of the installation space of the equipment (1), (24) to be applied. ),
(22) ..., (38), (38) ..., (4
2), (42)..., (52), (52). 2. A liquid distribution header (16a), (1) corresponding to the shape of a built-in space of the equipment (1), (24) to be applied.
6b), (18a), (18b), (20a), (20
b), (37a), (37b), (41a), (41)
b), a plurality of polymer permeable membrane tubes (17), (17)..., (17), (1) between (56a) and (56b).
7) ..., (22), (22) ..., (38),
(38) ..., (42), (42) ..., (5
2), (52)... Are arranged in communication with each other and are arranged side by side. 3. The polymer permeable membrane tube is a cylindrical tube (17), (17)... (17), (17).
...., (22), (22) ..., (38), (38)
..., (42), (42) ..., (52), (5)
The permeable membrane unit according to claim 1 or 2, wherein the permeable membrane unit comprises: 4. The permeable membrane unit according to claim 1, wherein the polymer permeable membrane tube comprises a flat membrane-like tube (22). 5. The apparatus to be applied is an air heat exchanger (6),
Air conditioners (1) and (24) having (35),
The frame shape is configured to correspond to the inside shape of the air heat exchangers (6) and (35), and the permeable membrane unit is incorporated on the inner peripheral side of the air heat exchangers (6) and (35). The permeable membrane unit according to claim 1, 3 or 4, wherein: 6. The equipment to be applied is an air heat exchanger (6),
Air conditioners (1) and (24) having (35),
Liquid distribution headers (16a), (16b), (18a),
(18b), (20a), (20b), (37a),
(37b), (41a), (41b), (56a),
The header shape of (56b) is the air heat exchanger (6), (3)
The permeable membrane unit is configured to have a shape corresponding to the inner shape of (5), and the permeable membrane unit is incorporated on the inner peripheral side of the air heat exchangers (6), (35). 5. The permeable membrane unit according to 2, 3, or 4. 7. The equipment to be applied is an air heat exchanger (6),
Air conditioners (1) and (24) having (35),
The frame shape is configured to correspond to the outer shape of the air heat exchangers (6) and (35), and the permeable membrane unit is incorporated on the outer peripheral side of the air heat exchangers (6) and (35). The permeable membrane unit according to claim 1, 3 or 4, wherein: 8. The equipment to be applied is an air heat exchanger (6),
Air conditioners (1) and (24) having (35),
Liquid distribution headers (16a), (16b), (18a),
(18b), (20a), (20b), (37a),
(37b), (41a), (41b), (56a),
The header shape of (56b) is the air heat exchanger (6), (3)
3. A structure corresponding to the outer shape of 5), wherein the permeable membrane unit is incorporated on the outer peripheral side of the air heat exchangers (6), (35). 5. The permeable membrane unit according to claim 3, 3 or 4. 9. The air conditioner according to claim 5, wherein the air conditioner is a wall-mounted type air conditioner and the air heat exchanger is a lambda type air heat exchanger. The permeable membrane unit as described. 10. The air conditioner according to claim 5, wherein the air conditioner is a ceiling-mounted air conditioner and the air heat exchanger is a ring-shaped air heat exchanger. 9. The permeable membrane unit according to 7, 7 or 8. 11. An apparatus to which the present invention is applied is an air conditioner (1), and a frame shape of the air outlet 5 of the air conditioner (1).
The permeable membrane unit according to claim 1, 3 or 4, wherein the permeable membrane unit is incorporated in an air outlet (5) of the air conditioner (1). Permeable membrane unit. 12. The apparatus to which the present invention is applied is an air conditioner (1), and a liquid distribution header (16a), (16b), (18).
a), (18b), (20a), (20b), (37)
a), (37b), (41a), (41b), (56)
The header shapes of a) and (56b) are configured so as to correspond to the shape of the air outlet (5) of the air conditioner (1), and the permeable membrane unit is connected to the air outlet (5) of the air conditioner 1. Claim 2, characterized in that it is adapted to be incorporated
5. The permeable membrane unit according to 3 or 4. 13. The device to be applied is an air purifier,
The frame shape is configured to correspond to the shape of the air passage of the air purifier, and the permeable membrane unit is incorporated in the air passage of the air purifier. The permeable membrane unit as described. 14. The apparatus to be applied is an air purifier,
Liquid distribution headers (16a), (16b), (18a),
(18b), (20a), (20b), (37a),
(37b), (41a), (41b), (56a),
The header shape of (56b) is configured to correspond to the shape of the air passage of the air purifier, and the permeable membrane unit is incorporated into the air passage of the air purifier. 5. The permeable membrane unit according to claim 3, 3 or 4. 15. The liquid as claimed in claim 1, wherein the liquid is water.
15. The permeable membrane unit according to 12, 13, or 14. 16. The liquid as claimed in claim 1, wherein the liquid is an absorbing liquid.
15. The permeable membrane unit according to 1, 12, 13 or 14. 17. The method of claim 1, wherein the liquid is a deodorant.
15. The permeable membrane unit according to 1, 12, 13 or 14. 18. A method according to claim 1, further comprising heating means for heating the liquid.
9, 10, 11, 12, 13, 14, 15, 16 or 1
8. The permeable membrane unit according to 7. 19. The method according to claim 1, wherein heating means for air is provided.
9, 10, 11, 12, 13, 14, 15, 16 or 1
8. The permeable membrane unit according to 7. 20. The polymer permeable membrane is a porous permeable membrane 60 in which a porous polytetrafluoroethylene sheet (61) is joined and integrated between reinforcing nonwoven fabrics (62), (62). Claims 1, 2, 3, 4,
5, 6, 7, 8, 9, 10, 11, 12, 13, 14,
20. The permeable membrane unit according to 15, 16, 17, 18 or 19. 21. The non-porous permeable membrane (70) obtained by coating a hydrophilic polyurethane resin (72) on a porous polytetrafluoroethylene sheet (71). Claims 1, 2,
3,4,5,6,7,8,9,10,11,12,1
The permeable membrane unit according to 3, 14, 15, 16, 17, 18 or 19.