JP2004190904A - Air-conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air-conditioner, eliminating the possibility of reducing pleasant feels of inhabitants in a room while keeping antibacterial operation. <P>SOLUTION: The air-conditioner 1a comprises an indoor unit feed filter 14a. The indoor unit feed filter 14a releases components of soil embedded Yaku cedar trees. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner.
[0002]
[Prior art]
BACKGROUND ART Conventionally, an air conditioner that can release a phytoncide component has been known (see Patent Document 1). The phytoncide component is a component of a plant, for example, a tree in a forest, and is known to have a relaxation effect, an antibacterial effect, and the like.
[0003]
As an air conditioner capable of releasing a phytoncide component, for example, there is an air conditioner in which an air freshener containing a phytoncide component is stored in a blowout grill of an indoor unit. Such an air conditioner normally cools and heats the room by blowing air that has been sucked in from the room and passed through the indoor heat exchanger into the room from the blowout grill. Then, by including the phytoncide component in the air blown out from the blowout grill, the phytoncide component can be sent indoors. And the relaxation effect and antibacterial action of the phytoncide component enable the antibacterial in the indoor unit and the improvement of the occupant's feeling of comfort.
[0004]
[Patent Document 1]
JP-A-2-13733
[0005]
[Problems to be solved by the invention]
However, there are many types of phytoncide components, and their characteristics are various. For example, it is well known that hinokitiol and wasabi components contained in cypress have a strong antibacterial action, but they have a strong odor. Therefore, the odor of the air sent into the room may cause the occupants or the like to feel irritated and feel uncomfortable.
[0006]
An object of the present invention is to provide an air conditioner that can perform antibacterial treatment and the like and that is less likely to reduce comfort of a resident or the like in a room.
[0007]
[Means for Solving the Problems]
The air conditioner according to claim 1 includes a discharge unit. The discharge part discharges components of the yak sugi buried earth.
In this air conditioner, the components of embedded Yakusugi soil having an antibacterial action are released, so that antibacterial in the aircraft can be performed. In addition, since the components of Yakusugi soil embedded wood have a mild odor instead of having a strong antibacterial action, when the components of Yakusugi soil embedded wood leak out of the machine or when the components of Yakusugi soil embedded wood are blown out indoors, etc. Also, there is little possibility that the comfort of the occupants outside the aircraft is reduced.
[0008]
An air conditioner according to a second aspect is the air conditioner according to the first aspect, further comprising a blower. The blower sends the air containing the released components of the buried yaksugi soil to the room.
In this air conditioner, the air containing the components of the yak sugi buried soil can be sent indoors. Yakusugi soil embedded wood has a mild odor in spite of having a strong antibacterial action. For this reason, in this air conditioner, air having a mild odor can be sent indoors while having an antibacterial action and the like.
[0009]
An air conditioner according to a third aspect is the air conditioner according to the first or second aspect, wherein the release unit has a sustained release function of gradually releasing components of the buried yaksugi soil.
In this air conditioner, the components of the buried yaksugi soil are gradually released. For this reason, the release of the components of the Yaksugi soil buried tree from the release portion can be performed over a long period of time.
[0010]
The air conditioner according to a fourth aspect is the air conditioner according to the third aspect, wherein the discharge portion has a functional material containing a component of embedded yak-sugi soil and an embedding material. The embedding material embeds the functional material and gradually releases the embedded functional material.
In this air conditioner, the functional material is gradually released from the embedding material due to the time difference of movement and diffusion of the functional material embedded in the embedding material. As a result, in this air conditioner, the components of the buried yaksugi soil can be gradually released.
[0011]
An air conditioner according to a fifth aspect is the air conditioner according to any one of the second to fourth aspects, wherein the air conditioner is divided into an indoor unit arranged indoors and an outdoor unit arranged outdoors. And a first air path. The first air path is a path through which air blown into the room from the outside of the outdoor unit through the outdoor unit and the indoor unit passes. And a discharge part discharge | releases the component of a yak sugi burial into the air which passes through a 1st air path.
[0012]
In this air conditioner, since the first air path through which the air blown into the room from the outside of the outdoor unit through the outdoor unit and the indoor unit is provided, the outdoor air can be sent into the room. Therefore, it is possible to perform an air supply operation such as a ventilation operation in which the outdoor air is sent to the room to ventilate the room or a humidification operation in which the outdoor air is humidified and sent to the room. Therefore, with this air conditioner, it is possible to improve the comfort of indoor occupants and the like. Then, in this air conditioner, the air to be supplied can contain the components of the buried yaksugi soil. Thereby, this air conditioner can further improve the comfort of indoor occupants and the like.
[0013]
The air conditioner according to claim 6 is the air conditioner according to claim 5, wherein the first air path has an indoor unit path provided in the indoor unit. And the discharge | release part is provided in an indoor unit path | route.
In this air conditioner, a discharge unit is provided in the indoor unit path. For this reason, compared with the case where the discharge unit is provided in the outdoor unit, the length of the path through which the air passes before being sent indoors is shorter. For this reason, in this air conditioner, the components of the buried yaksugi soil can be efficiently sent indoors.
[0014]
An air conditioner according to a seventh aspect is the air conditioner according to the fifth aspect, wherein the first air path has an outdoor unit path provided in the outdoor unit. And a discharge part is provided in an outdoor unit path | route.
In this air conditioner, the discharge unit is provided in the outdoor unit path. For this reason, the air having the component of the yak sugi soil buried wood blows out from the outdoor unit path to the room through the indoor unit. For this reason, in this air conditioner, it is possible to perform antibacterial treatment on the path that passes from the outdoor unit path to the indoor unit through the indoor unit and the components disposed in the middle of the path.
[0015]
An air conditioner according to an eighth aspect is the air conditioner according to any of the second to fourth aspects, further including a second air path through which air taken in from the room and blown back into the room passes. And a discharge part is provided in a 2nd air path.
With this air conditioner, the components of the embedded yak-sugi soil can be released into the indoor air and sent back into the room. Thus, in this air conditioner, the air with a mild odor can be sent into the room while purifying the indoor air by the antibacterial action of the components of the embedded wood of Yakusugi.
[0016]
An air conditioner according to a ninth aspect is the air conditioner according to any one of the first to eighth aspects, further comprising an accommodating portion that can be opened and closed. And the discharge part is accommodated in the accommodation part.
In this air conditioner, the discharge unit is housed in a housing that can be opened and closed. For this reason, by opening and closing the storage part, the release of the components of the buried yaksugi soil can be controlled. For example, if it is desired not to leak the components of the yaksugi soil buried wood into the room, the accommodating section may be closed.
[0017]
The air conditioner according to claim 10 is the air conditioner according to any one of claims 1 to 9, wherein the component of the yak sugi soil buried is a component similar to at least a part of the component of the yak sugi soil buried. It is synthesized from substances that have
Since natural yak-sugi burying is rare, it is difficult to extract its components from natural yak-sugi burying, and the cost increases.
[0018]
However, in this air conditioner, the components of the Yaksugi soil buried tree released from the discharge section are synthesized. For this reason, in this air conditioner, the components of the yaksugi soil buried wood can be used at low cost.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
<Outline of appearance of air conditioner>
FIG. 1 shows the appearance of an air conditioner 1a according to a first embodiment of the present invention.
The air conditioner 1a is configured to be divided into an indoor unit 2a attached to an indoor wall surface or the like and an outdoor unit 3a installed outdoors. The outdoor unit 3a includes an outdoor air conditioning unit 5 that houses an outdoor heat exchanger, a propeller fan, and the like, and a humidification supply / exhaust unit 4. An indoor heat exchanger is housed in the indoor unit 2a, and an outdoor heat exchanger is housed in the outdoor unit 3a. The heat exchangers and the refrigerant pipes 31 and 32 connecting these heat exchangers constitute a refrigerant circuit. Further, between the outdoor unit 3a and the indoor unit 2a, it is used when supplying ventilation air or humidified air from the humidification supply / exhaust unit 4 to the indoor unit 2a side or exhausting indoor air outside the room. A supply / exhaust hose 6 is provided.
[0020]
<Configuration of air conditioner>
FIG. 2 is a schematic diagram of a refrigerant circuit used in the air conditioner 1a, in which an outline of an air flow is added.
[Outdoor air conditioning unit]
The outdoor air conditioning unit 5 includes a compressor 21, a four-way switching valve 22 connected to the discharge side of the compressor 21, an accumulator 23 connected to the suction side of the compressor 21, and a connection to the four-way switching valve 22. And a motor-operated valve 25 connected to the outdoor heat exchanger 24. The electric valve 25 is connected to a refrigerant pipe 32 via a filter 26 and a liquid shutoff valve 27, and is connected to one end of the indoor heat exchanger 11 via the refrigerant pipe 32. The four-way switching valve 22 is connected to the refrigerant pipe 31 via the gas closing valve 28, and is connected to the other end of the indoor heat exchanger 11 via the refrigerant pipe 31. These refrigerant pipes 31 and 32 form the collective connecting pipe 7 together with the supply / exhaust hose 6 described above.
[0021]
Further, a propeller fan 29 for discharging the air after the heat exchange in the outdoor heat exchanger 24 to the outside is provided in the outdoor air conditioning unit 5. The propeller fan 29 is driven to rotate by an outdoor fan motor 30.
[Humidifying air supply and exhaust unit]
The humidification supply / exhaust unit 4 includes a humidification / humidification rotor 41, a heater assembly 42, a radial fan assembly 43, a switching damper 44, a suction fan motor 45, a suction fan 46, and the like.
[0022]
The humidification / humidification rotor 41 is a ceramic rotor having a honeycomb structure having a substantially disk shape, and has a structure through which air can easily pass. The absorption / humidification rotor 41 is a rotor having a circular shape in a plan view, and has a fine honeycomb (honeycomb) shape in a cross section cut in a horizontal plane. Then, air passes through a large number of cylindrical portions of the humidifying and humidifying rotor 41 having a polygonal cross section. A main part of the adsorption / humidification rotor 41 is fired from an adsorbent such as zeolite, silica gel, or alumina. The adsorbent such as zeolite has a property of adsorbing moisture in the air that comes into contact with the adsorbent, and adsorbing and desorbing contained moisture by being heated. The humidifying and humidifying rotor 41 is rotatably supported, and is rotatably driven by a rotor drive motor 47 (see FIG. 6).
[0023]
The heater assembly 42 heats air that is taken in from outside the room and sent to the humidification / humidification rotor 41. The heater assembly 42 is disposed so as to cover substantially half (the right half) of the upper surface of the adsorption / humidification rotor 41.
The radial fan assembly 43 is arranged on the side of the humidifying and humidifying rotor 41, and mainly includes a radial fan 43a and a radial fan motor 43b. The radial fan motor 43b drives the radial fan 43a. When driven by the radial fan motor 43b, the radial fan 43a generates a flow of air that is taken in from the outside and reaches the room through the humidification / humidification rotor 41, and the air taken in from the outside is sent to the indoor unit 2a. (See arrow A1 in FIG. 3). Further, the radial fan assembly 43 can also discharge the air taken in from the indoor unit 2a to the outside of the room. The radial fan assembly 43 switches these operations when the switching damper 44 is switched.
[0024]
The switching damper 44 is a rotary air flow path switching unit disposed below the radial fan assembly 43, and switches between a first state and a second state. In the first state, the air blown out from the radial fan assembly 43 is supplied to the indoor unit 2a through the supply / exhaust hose 6. Thus, in the first state, the humidified air or the ventilation air is supplied to the indoor unit 2a through the supply / exhaust hose 6. In the second state, on the contrary, the air that has passed through the air supply / exhaust hose 6 from the indoor unit 2a is exhausted to the outside through the radial fan assembly 43.
[0025]
The suction fan 46 is a centrifugal fan that is rotated by the suction fan motor 45, and generates an airflow that is taken in from the outside of the room and discharged through the suction / humidification rotor 41 to the outside of the room again. As a result, the suction fan 46 discharges the dry air, to which moisture has been adsorbed when passing through the humidification / humidification rotor 41, to the outside of the humidification supply / exhaust unit 4.
Further, the humidification supply / exhaust unit 4 is provided with an outdoor unit path R1. The outdoor unit path R1 is a path through which air taken in from the outdoor is sent to the air supply / exhaust hose 6 connected to the outdoor unit 3a, and includes a first outdoor unit path R11 and a second outdoor unit path R12. It consists of. The first outdoor unit path R11 is a path extending from the suction port 33 (see FIG. 3) provided in the casing of the humidification supply / exhaust unit 4 to the humidification / humidification rotor 41 through the heater assembly 42. The second outdoor unit path R12 is an air path from the suction / humidification rotor 41 to the connection between the supply / exhaust hose 6 and the humidification supply / exhaust unit 4 through the switching damper 44.
[0026]
(Indoor unit)
The indoor unit 2a includes an indoor heat exchanger 11, a cross flow fan 12, an indoor fan motor 13, and an indoor unit air supply filter 14a.
The indoor heat exchanger 11 has a substantially inverted V-shaped cross-sectional shape, and is composed of a heat transfer tube that is bent a plurality of times at both ends in the length direction and a plurality of fins through which the heat transfer tube is inserted. The indoor heat exchanger 11 exchanges heat with the contacting air.
[0027]
The cross flow fan 12 is formed in a cylindrical shape, and has a large number of blades provided on a peripheral surface thereof, and generates an air flow in a direction intersecting with a rotation axis. The cross flow fan 12 is driven to rotate by the indoor fan motor 13 to draw indoor air into the indoor unit 2a, pass through the indoor heat exchanger 11, and blow out the indoor air (two-dot chain line in FIG. 3). Arrow A2). Further, the cross flow fan 12 can blow air sent from the outdoor unit 3a into the room together with air taken in from the room.
[0028]
Further, the indoor unit 2a is provided with a first indoor unit route R21 and a second indoor unit route R22. The first indoor unit path R21 is a path extending from the inlet 15 of the indoor unit 2a to the outlet 16 through the indoor heat exchanger 11 and the cross flow fan 12. Here, as shown in FIG. 3, the suction port 15 is an opening provided in a casing of the indoor unit 2a and through which air sucked from the room into the indoor unit 2a passes. The outlet 16 is an opening provided in the casing of the indoor unit 2a and through which air blown from the inside of the indoor unit 2a to the room passes. The second indoor unit path R22 is a path extending from the connection between the indoor unit 2a and the supply / exhaust hose 6 to the outlet 16 through the indoor heat exchanger 11 and the cross flow fan 12.
[0029]
The indoor unit air supply filter 14a is a filter that removes dust and dirt from passing air, and is provided in the second indoor unit path R22. Specifically, as shown in FIG. 3, the indoor unit air supply filter 14a is provided between a connection portion between the air supply / exhaust hose 6 and the indoor unit 2a and the indoor heat exchanger 11, and It is located on the upstream side of the indoor heat exchanger 11 in the flow of air sent into the room. Therefore, the indoor unit air supply filter 14a is arranged so that the air sent from the humidification air supply / exhaust unit 4 through the air supply / exhaust hose 6 passes through the indoor unit air supply filter 14a before passing through the indoor heat exchanger 11. ing.
[0030]
The indoor unit air supply filter 14a has a component of the yak sugi soil buried tree, and can not only remove the dust but also release the component of the yak cedar soil buried into the passing air. The indoor unit air supply filter 14a has a sustained release function of gradually releasing the components of the buried yaksugi soil. This sustained release function is realized by the following configuration. That is, an embedding resin 141 and a moisture-sensitive film 142 covering the surface of the embedding resin 141 are provided in a part of the indoor unit air supply filter 14a, as shown in FIG. Further, a volatile substance 143 containing a component of the embedded wood of Yakusugi soil is embedded in the embedding resin 141. The volatile substance 143 is embedded in the form of fine particles in units of microns, and a large number of particles of the volatile substance 143 are embedded. The embedding resin 141 gradually releases the components of the Yakusugi soil buried wood due to the time difference of the migration and diffusion of the particles of the volatile substance 143 containing the components of the Yakusugi soil buried wood. The moisture-sensitive film 142 is provided with a large number of fine holes, and changes the amount of the volatile substance 143 released from the surface of the embedding resin 141 per unit time according to the humidity. For example, as shown in FIG. 5, when the relative humidity is 80% or less, the release amount is minute and constant, and when the relative humidity exceeds 80%, the release amount increases.
[0031]
In addition, as the embedding resin 141, a resin material such as a rosin resin, an ethylene-vinyl acetate resin, and a shellac resin is used.
The moisture-sensitive film 142 is, for example, 5.0 g / m, which is a moisture-sensitive material. ² What is formed of viscose-treated paper having the above-mentioned cellulose coating amount is used. The viscose-processed paper is a material obtained by coating paper or nonwoven fabric with viscose, which is a raw material of cellophane, and providing a cellulose layer on paper or nonwoven fabric. This viscose processed paper is gas-impermeable in a dry state, but shows gas permeability in a high humidity state.
[0032]
Yakusugi soil embedded wood components are components extracted from the resin oil of Yakusugi soil embedded wood, and are active ingredients having a relaxation effect, an antibacterial action, and the like. Examples of the components of Yakusugi soil buried tree include α-Cedrene (α-Cedrene), β-Cedrene (β-Cedrene), Cedrol, Thuopsene, α-Eudesmol (α-Eudesmol), β -Eudesmol (β-Eudesmol), Pinene (Pinene), Elmol (Elemol), etc., and the indoor unit air supply filter 14a includes a volatile substance 143 in which these components are mixed. This volatile substance 143 is synthesized from a single substance or a plurality of substances having components similar to at least a part of the components of the above-described yak sugi soil burial. Specifically, the volatile substance 143 is obtained by reproducing the configuration of the main component of the above-described buried Yakusugi soil with a combination of a plurality of essential oils or chemically synthesized components containing the above components. Such a combination may be realized by mixing essential oils or may be realized by chemical synthesis. Further, from the viewpoint of weakening the odor intensity, it is more preferable that the monoterpenes having a strong odor among the above-mentioned components are contained in a trace amount or zero, and the sesquiterpenes are synthesized as a main component.
[0033]
(Control unit)
The control unit 8 is provided in the air conditioner 1a. The control unit 8 is divided into an indoor unit 2a and an outdoor unit 3a, and controls the air conditioner 1a. As shown in FIG. 6, the control unit 8 includes an indoor fan motor 13, a compressor 21, a four-way switching valve 22, an electric valve 25, an outdoor fan motor 30, a heater assembly 42, a radial fan motor 43b, a switching damper 44, The operation of the air conditioner 1a such as a cooling / heating operation, a humidification operation, and a ventilation operation is controlled by controlling the rotor drive motor 47 and the like.
[0034]
<Operation and air flow during air supply operation>
The air conditioner 1a is provided with the air path R100 configured by the outdoor unit path R1, the supply / exhaust hose 6, and the second indoor unit path R22 described above. Therefore, the air conditioner 1a can perform an air supply operation in which the air taken in from the outside of the outdoor unit 3a is blown into the room through the outdoor unit 3a and the indoor unit 2a through the air path R100 (see FIG. 3). (See the double-dashed line arrow A1). Hereinafter, the operation of the air conditioner 1a and the flow of air when the air supply operation is performed will be described.
[0035]
First, of the air supply operation, a humidification operation in which outdoor air is humidified and sent to the room will be described with reference to FIG.
(Humidification operation)
(Operation of adsorbing moisture to the adsorption / humidification rotor)
The humidification supply / exhaust unit 4 takes in air from outside into the humidification supply / exhaust unit 4 by rotating the suction fan 46. The air that has entered the humidification supply / exhaust unit 4 passes through a substantially half portion on the left side of the humidification / humidification rotor 41, and is exhausted to the outside again. When the air taken into the humidification supply / exhaust unit 4 from outside the room passes through a substantially half portion on the left side of the humidification / humidification rotor 41, the humidification / humidification rotor 41 adsorbs moisture contained in the air.
[0036]
(Moisture desorption operation from the adsorption / humidification rotor)
A substantially half portion on the left side of the humidifying and humidifying rotor 41 that has absorbed moisture in the above-described adsorption step becomes a substantially half portion on the right side of the humidifying and humidifying rotor 41 as the humidifying and humidifying rotor 41 rotates. That is, the adsorbed moisture moves to the portion of the humidification and humidification rotor 41 located below the heater assembly 42 as the humidification and humidification rotor 41 rotates.
[0037]
On the other hand, when the radial fan assembly 43 is driven, the outdoor air is taken into the humidification supply / exhaust unit 4 and passes through the first outdoor unit path R11. At this time, the air taken in is heated when passing through the heater assembly 42, and is sent to the second outdoor unit path R12. In the second outdoor unit path R12, the heated air passes through the right half of the adsorption / humidification rotor 41. At this time, the moisture adsorbed by the humidification / humidification rotor 41 is released into the airflow generated by the radial fan assembly 43 by the heat from the heater assembly 42. The humidified air passing through the suction / humidification rotor 41 and humidified is sent to the supply / exhaust hose 6 through the connection between the supply / exhaust hose 6 and the outdoor unit 3a. Then, the humidified air is sent from the supply / exhaust hose 6 to the indoor unit 2a.
[0038]
The control unit 8 can control the flow rate and humidity of the humidified air sent to the indoor unit 2a by controlling the heater assembly 42, the radial fan motor 43b, the rotor drive motor 47, and the like.
(Release of components of embedded Yakusugi soil in indoor units)
The humidified air sent from the supply / exhaust hose 6 to the indoor unit 2a passes through the second indoor unit path R22. At this time, the humidified air passes through the indoor unit air supply filter 14a. The indoor unit air supply filter 14a gradually releases components of the buried yaksugi soil into the passing air. At this time, by controlling the humidity and the flow rate of the humidified air, the control unit 8 can control the release amount of the component of the buried yaksugi soil. That is, the control unit 8 can suppress the release amount or stop the release of the components of the yaksugi buried tree by suppressing the humidity and the flow rate of the humidified air (for example, the humidity is set to 80% or less). Conversely, the control unit 8 can increase the release amount of the components of the buried yaksugi soil by increasing the humidity and the flow rate of the humidified air (for example, setting the humidity to 80% or more).
[0039]
In this way, the humidified air sent to the indoor unit 2a passes through the indoor unit air supply filter 14a, so that the humidified air contains components of the buried yaksugi soil. Then, the humidified air containing the components of the buried yak sugi soil passes through the indoor heat exchanger 11 and is blown out from the outlet 16 into the room.
(Ventilation operation)
The air supply operation includes a ventilation operation in which outdoor air is sent to the indoor unit 2a without performing humidification as described above. In this ventilation operation, the control unit 8 drives the radial fan motor 43a without operating the heater assembly 42. Thereby, the air taken in from the outdoor can pass through the suction / humidification rotor 41 without being humidified. In this way, the unhumidified outdoor air is sent to the indoor unit 2a by the radial fan assembly 43 as ventilation air.
[0040]
The ventilation air sent to the indoor unit 2a passes through the indoor unit air supply filter 14a, as in the above-described humidification operation, so that it contains components of the yak-sugi soil embedded wood. Then, the ventilation air containing the components of the buried yak sugi soil passes through the indoor heat exchanger 11 and is blown out from the outlet 16 into the room.
Also in this case, the control unit 8 can control the release amount of the components of the yaksugi soil buried tree by controlling the flow rate of the ventilation air.
[0041]
<Features>
(1)
In the air conditioner 1a, an air supply operation for sending outdoor air to a room can be performed, and ventilation air or humidified air can be sent to a room. Therefore, in the air conditioner 1a, the comfort of indoor occupants and the like can be improved by performing indoor ventilation and humidifying indoor air that tends to dry. And in this air conditioner 1a, the air sent indoors can contain the component of the yak sugi soil burial which has a relaxation effect. Thereby, this air conditioner 1a can give healing to the resident etc. of the room. In addition, since the components of the embedded yak-sugi soil have an antibacterial effect, it can also perform indoor antibacterial action and can keep the interior clean.
[0042]
As described above, in the air conditioner 1a, the comfort of indoor occupants and the like can be further improved by the effects of the components of the buried yaksugi soil in addition to the effects of humidification and ventilation.
(2)
In this air conditioner 1a, the air containing the components of the buried yaksugi soil is sent indoors. Yakusugi soil embedded wood is a component of phytoncide that has a mild odor in spite of its antibacterial activity. Therefore, in the air conditioner 1a, air having a mild odor can be sent indoors while having an antibacterial action. Therefore, it is possible to gently improve the comfort of the occupant without giving a strong stimulus to the occupant.
[0043]
(3)
In the air conditioner 1a, the components of the yak sugi buried tree are released from the indoor unit air supply filter 14a provided in the second indoor unit path R22 in the indoor unit 2a. Therefore, compared with the case where a portion for releasing components of yaksugi soil embedded wood is provided in the outdoor unit 3a, the length of a path through which air containing the components of yak sugi embedded wood is sent to the room is reduced. I have. For this reason, in this air conditioner 1a, even if the amount of the component of the yak-sugi soil buried contained in the air is small, the component of the yak-sugi soil-buried can sufficiently reach the room. As described above, in the air conditioner 1a, the components of the buried yaksugi soil can be efficiently sent indoors.
[0044]
The air that has passed through the indoor unit air supply filter 14a is blown into the room after passing through the indoor heat exchanger 11. For this reason, the path in the indoor unit 2a through which air passes before blowing into the indoor heat exchanger 11 or indoors is made antibacterial by the components of the embedded yak-sugi soil. Thereby, the inside of the indoor unit 2a is kept clean, and the air blown into the room is purified.
[0045]
(4)
In the indoor unit air supply filter 14a provided in the air conditioner 1a, the volatile substance 143 is gradually released from the embedding resin 141 due to the time difference of the movement and diffusion of the volatile substance 143 embedded in the embedding resin 141. . Thereby, in this air conditioner 1a, the release of the components of the yaksugi soil buried wood can be gradually performed over a long period of time. For this reason, the life of the indoor unit air supply filter 14a that emits components of the yak sugi soil buried wood is prolonged, and the frequency of replacement of the indoor unit air supply filter 14a is reduced. Therefore, in the air conditioner 1a, the function of releasing the components of the buried yaksugi soil is highly maintainable, and the cost is reduced.
[0046]
Also, the configuration for providing the sustained release function is smaller than in the case where the components of the yak sugi buried soil are gradually released using a mechanical device. Therefore, the size of the indoor unit 2a is prevented from being increased, and the indoor unit 2a can be made compact even if it has a sustained release function.
Further, by selecting the embedding resin 141 that is stable for the volatile substance 143 containing the components of the yak sugi soil wood, the stability of the volatile substance 143 containing the components of the yak sugi soil wood can be increased. In addition, since the embedded substance 141 covers the volatile substance 143 containing the components of the embedded yak-sugi soil, the water resistance is high.
[0047]
(5)
In general, when an air conditioner has a function of releasing a phytoncide component such as a component of a yak sugi buried tree, a certain amount of the phytoncide component is always released in many cases. In this case, a certain amount of the phytoncide component is released even when unnecessary, and waste is large. In addition, the stock of the phytoncide component contained in the air conditioner is quickly used up, and replacement time and cost are increased.
[0048]
However, in the air conditioner 1a, the moisture-sensitive film 142 is provided on the surface of the embedding resin 141 from which the components of the yaksugi soil embedded wood are released. For this reason, by controlling the humidity of the humidified air by the control unit 8, it is possible to control the release amount of the components of the buried yaksugi soil. Therefore, it is possible to increase the release amount of the component of the yak sugi soil buried tree when necessary, and to reduce or stop the release amount of the component of the yak cedar soil buried tree when unnecessary.
[0049]
Further, even during the ventilation operation, the flow rate of the ventilation air contacting the surface of the moisture-sensitive film 142 can be controlled by controlling the flow rate of the ventilation air by the control unit 8. For this reason, the release amount of the components of the yaksugi soil buried tree can be controlled. That is, by increasing the flow rate of the ventilation air passing through the indoor unit air supply filter 14a, the transpiration of the volatile substance 143 containing the components of the yaksugi soil wood from the embedding resin 141 is promoted, or the flow rate of the ventilation air is reduced. By reducing the amount, evaporation of the volatile substance 143 can be suppressed. Thereby, in this air conditioner 1a, the release amount of the components of the yaksugi soil buried tree can be controlled, and the labor and cost for replacing the indoor unit air supply filter 14a are reduced.
[0050]
In addition, it is possible to adjust the control conditions and the concentration of the components of the yak sugi soil buried by switching the control conditions such as temperature, humidity, and air volume while using the moisture sensitive films having different humidity responsiveness. This makes it possible to adjust the control conditions and the concentration so that the effects of the components of the yak sugi buried soil are more effectively exhibited.
Furthermore, by using a film exhibiting gas permeability in the case of high humidity as the moisture-sensitive film 142, the amount of components released from the yak sugi soil burial is increased in a high-humidity operation state in which various bacteria and the like are easy to propagate. be able to. For this reason, the propagation of various germs can be suppressed by the antibacterial action of the components of the yak sugi buried soil.
[0051]
(6)
In this air conditioner 1a, an exhaust operation can be performed by switching the switching damper 44. In the exhaust operation, indoor air is taken into the indoor unit 2a, passes through the supply / exhaust hose 6, and is discharged from the outdoor unit 3a to the outside. At this time, the air that has passed through the indoor unit air supply filter 14a contains a component of the embedded yaksugi soil, and the air that contains the component of the yaksugi soil embedded passes through the supply / exhaust hose 6 and the outdoor unit 3a. At this time, the air supply / exhaust hose 6 and the inside of the outdoor unit 3a can be antibacterial.
[0052]
Further, it is conceivable that the air discharged to the outside is taken in the room again or blown to a person outside the room. However, in this air conditioner 1a, the components of buried yaksugi soil are used, and the air to be exhausted has high antibacterial action and high safety and low odor intensity. For this reason, even if the air discharged outside is taken in the room again, it is possible to prevent the comfort of the occupants and the like from being disturbed. Further, even when the exhausted air is blown to an outdoor person, the outdoor person is prevented from feeling uncomfortable.
[0053]
[Second embodiment]
〔Constitution〕
FIG. 7 shows a configuration diagram of a refrigerant circuit and the like of an air conditioner 1b employing the second embodiment of the present invention.
In the air conditioner 1b, the component sustained release unit 14b is provided inside the switching damper 44 provided in the second outdoor unit path R12. Like the indoor unit air supply filter 14a of the air conditioner 1a according to the first embodiment, the component sustained release unit 14b is provided with a volatile substance containing a component of yak sugi soil buried and passes through the switching damper 44. Yakusugi soil buried wood can be released into the air. The component sustained release unit 14b has a sustained release function of gradually releasing the components of the embedded Yakusugi soil wood by using the same embedding resin, volatile substance and moisture-sensitive film as the indoor unit air supply filter 14a.
[0054]
Other configurations are the same as those of the air conditioner 1a according to the first embodiment.
〔Characteristic〕
In the air conditioner 1b, the component sustained release unit 14b is provided in the switching damper 44. For this reason, the air taken in from the outdoor contains the component of the yak cedar soil buried when passing through the switching damper 44. Then, the air containing the components of the buried yak sugi soil passes through the air supply / exhaust hose 6, and blows out to the room through the second indoor unit route R22. Therefore, in the air conditioner 1b, the switching damper 44, the supply / exhaust hose 6, the second indoor unit path R22, and the components disposed in the middle thereof can be subjected to antibacterial action.
[0055]
As described above, according to the air conditioner 1b, antibacterial activity can be broadly performed not only in the indoor unit 2b but also in the outdoor unit 3b and the air supply / exhaust hose 6 connecting the indoor unit 2b and the outdoor unit 3b. .
In addition, the air conditioner 1b is capable of controlling the release amount of the components of the buried yaksugi soil by controlling the humidity and flow rate of the humidified air and the like, and has substantially the same effects as the air conditioner 1a according to the first embodiment. Can also be played.
[0056]
[Third embodiment]
〔Constitution〕
FIG. 8 shows a configuration of a refrigerant circuit and the like of an air conditioner 1c employing the third embodiment of the present invention.
The air conditioner 1c includes an indoor unit 2c and an outdoor unit 3c. Like the air conditioner 1a according to the first embodiment, the air conditioner 1c takes in outdoor air from the outdoor unit 3c and sends the air to the indoor unit 2c. be able to. Thereby, ventilation air or humidified air is supplied to the room through the air path R100.
[0057]
On the other hand, the first indoor unit path R21 of the indoor unit 2c is provided with an air purification filter 14c having a component sustained release function. The air purification filter 14c can remove dust and dirt from air taken in from the room. Specifically, as shown in FIG. 9, the air cleaning filter 14c is disposed immediately inside the suction port 15 provided in the indoor unit 2c. This air purifying filter 14c has a volatile substance containing a component of yak sugi soil buried similarly to the indoor unit air supply filter 14a of the air conditioner 1a according to the first embodiment. The components of the buried yaksugi soil can be released into the air that is drawn into the indoor unit 2c through the interior. The air purifying filter 14c can gradually release the components of the yaksugi soil buried tree with the same configuration as the indoor unit air supply filter 14a.
[0058]
Other configurations are the same as those of the air conditioner 1a according to the first embodiment.
〔Characteristic〕
In this air conditioner 1c, the indoor air can contain the components of the buried yaksugi soil and sent to the room again (see an arrow A2 indicated by a two-dot chain line in FIG. 9). Thus, in the air conditioner 1c, the air with a mild odor can be sent into the room while purifying the indoor air by the antibacterial action of the component of the yaksugi soil buried tree.
[0059]
In addition, this air conditioner 1c can also mix the ventilation air or humidified air sent from the outdoor unit 3c with the indoor air containing the components of the yak sugi soil buried wood and blow it out into the room.
In addition, the first indoor unit route R21 in the indoor unit 2c, the indoor heat exchanger 11 and various filters disposed in this route are antibacterial, and the indoor unit 2c is kept clean.
[0060]
[Other embodiments]
(1)
In the above-described embodiment, the portions capable of releasing the components of the yak sugi soil buried are provided in the first indoor unit route R21, the second indoor unit route R22, and the first outdoor unit route R11. The part capable of releasing the component (1) may be the air path R100 described above. For example, the component sustained release unit 14b according to the second embodiment may be provided in the first outdoor unit route R11, the supply / exhaust hose 6, and the like. In this case as well, the components of the embedded yaksugi soil can be sent indoors.
[0061]
(2)
In the above embodiment, the air conditioners 1a, 1b, and 1c can perform the humidification operation and the ventilation operation. However, the air conditioner can perform the dehumidification operation of dehumidifying the outdoor air and sending the air to the room. The present invention may be employed.
In this case, too, the air containing the components of the yak sugi soil buried can be sent indoors by releasing the components of the yak sugi soil buried into the dehumidified air. In addition, by controlling the humidity and the flow rate of the dehumidified air, it is possible to control the release amount of the components of the buried yaksugi soil.
[0062]
(3)
In the above embodiment, it is the radial fan assembly 43 provided in the outdoor units 3a, 3b, 3c that sends the outdoor air to the indoor units 2a, 2b, 2c. However, the air blower that sends outdoor air to the indoor units 2a, 2b, 2c is not limited to being disposed in the outdoor units 3a, 3b, 3c, but may be disposed in the indoor units 2a, 2b, 2c. Further, the cross flow fans 12 of the indoor units 2a, 2b, 2c may play the role.
[0063]
(4)
In the above embodiment, the indoor unit air supply filter 14a, the component sustained release unit 14b, and the air purification filter 14c have a sustained release function due to the configuration including the embedding resin 141, the moisture sensitive film 142, and the volatile substance 143. However, it may have a sustained release function according to another configuration. For example, a material obtained by kneading a volatile substance 143 having a component of a yak sugi buried tree and a wax, or a substance obtained by impregnating a porous substance with the volatile substance 143 may be used. Further, not limited to the volatile substance 143, a water-soluble substance containing phytontide may be used. Further, other sustained release techniques such as the microcapsule method may be employed.
[0064]
(5)
The controlled release by the moisture-sensitive film 142 is not limited to the moisture-sensitive film 142 having the property that the release amount increases from a specific humidity or more as described above, and the property that the release amount increases linearly in proportion to the humidity. May be used.
(6)
In the above-described second embodiment, the component sustained release unit 14b is provided inside the switching damper 44, but the container 17 may be provided inside the switching damper 44 as shown in FIG. The container 17 accommodates the component sustained release unit 14d inside, and can be opened and closed by a command from the control unit 8.
[0065]
For this reason, by closing the container 17, the components of the yak sugi soil embedded wood can be contained in the container 17, and the release of the components of the yak sugi soil embedded wood to the air path R100 can be stopped. Accordingly, for example, when the air conditioner 1d is not used, the release of the components of the yak sugi soil buried tree can be stopped. Leakage into the room can be prevented.
[0066]
The container 17 containing the component sustained release unit 14d may be arranged in the air path R100 other than the inside of the switching damper 44. Further, the container 17 may be arranged in the first indoor unit route R21 or the second indoor unit route R22.
Further, a cartridge or the like containing the components of the yaksugi soil buried tree may be housed inside the container 17 without being limited to the component sustained release unit 14d. Also in this case, although there is no sustained release function as in the component sustained release unit 14d, the release amount can be controlled to some extent by opening and closing the container 17.
[0067]
【The invention's effect】
In the air conditioner according to the first aspect, since the components of the embedded Yakusugi soil having an antibacterial action are released, antibacterial in the machine can be performed. In addition, since the components of Yakusugi soil embedded wood have a mild odor instead of having a strong antibacterial action, when the components of Yakusugi soil embedded wood leak out of the machine or when the components of Yakusugi soil embedded wood are blown out indoors, etc. Also, there is little possibility that the comfort of the occupants outside the aircraft is reduced.
[0068]
In the air conditioner according to the second aspect, the air containing the component of the yaksugi soil buried tree can be sent indoors. Yakusugi soil embedded wood has a mild odor in spite of having a strong antibacterial action. For this reason, in this air conditioner, air having a mild odor can be sent indoors while having an antibacterial action and the like.
In the air conditioner according to the third aspect, the components of the buried yaksugi soil are gradually released. For this reason, the release of the components of the Yaksugi soil buried tree from the release portion can be performed over a long period of time.
[0069]
In the air conditioner according to the fourth aspect, the functional material is gradually released from the embedding material due to the time difference of the movement and diffusion of the functional material embedded in the embedding material. As a result, in this air conditioner, the components of the buried yaksugi soil can be gradually released. In the air conditioner according to the fifth aspect, since the first air path through which the air blown from the outside of the outdoor unit to the room through the outdoor unit and the indoor unit is provided, the outdoor air can be sent to the room. it can. Therefore, it is possible to perform an air supply operation such as a ventilation operation in which the outdoor air is sent to the room to ventilate the room or a humidification operation in which the outdoor air is humidified and sent to the room. Therefore, with this air conditioner, it is possible to improve the comfort of indoor occupants and the like. Then, in this air conditioner, the air to be supplied can contain the components of the buried yaksugi soil. Thereby, this air conditioner can further improve the comfort of indoor occupants and the like.
[0070]
In the air conditioner according to claim 6, the discharge unit is provided in the indoor unit path. For this reason, compared with the case where the discharge unit is provided in the outdoor unit, the length of the path through which the air passes before being sent indoors is shorter. For this reason, in this air conditioner, the components of the buried yaksugi soil can be efficiently sent indoors.
In the air conditioner according to the seventh aspect, the discharge unit is provided in the outdoor unit path. For this reason, the air having the component of the yak sugi soil buried wood blows out from the outdoor unit path to the room through the indoor unit. For this reason, in this air conditioner, it is possible to perform antibacterial treatment on the path that passes from the outdoor unit path to the indoor unit through the indoor unit and the components disposed in the middle of the path.
[0071]
In the air conditioner according to the eighth aspect, the components of the buried yaksugi soil can be released into the air in the room and sent to the room again. Thus, in this air conditioner, the air with a mild odor can be sent into the room while purifying the indoor air by the antibacterial action of the components of the embedded wood of Yakusugi.
In the air conditioner according to the ninth aspect, the discharge unit is accommodated in the openable and closable accommodation unit. For this reason, by opening and closing the storage part, the release of the components of the buried yaksugi soil can be controlled. For example, if it is desired not to leak the components of the yaksugi soil buried wood into the room, the accommodating section may be closed.
[0072]
In the air conditioner according to the tenth aspect, the components of the Yakusugi soil buried tree released from the discharging unit are synthesized. For this reason, in this air conditioner, the components of the yaksugi soil buried wood can be used at low cost.
[Brief description of the drawings]
FIG. 1 is a diagram showing the appearance of an air conditioner.
FIG. 2 is a diagram showing a configuration of a refrigerant circuit and the like and an air flow of the air conditioner according to the first embodiment.
FIG. 3 is a schematic diagram showing an air flow of the air conditioner according to the first embodiment.
FIG. 4 is a diagram showing a structure of an indoor unit air supply filter having a sustained release function.
FIG. 5 is a graph showing a relationship between humidity and release amount by a moisture-sensitive film.
FIG. 6 is a control block diagram of the air conditioner.
FIG. 7 is a diagram showing a configuration of a refrigerant circuit and the like of an air conditioner according to a second embodiment and a flow of air.
FIG. 8 is a diagram showing a configuration of a refrigerant circuit and the like and an air flow of an air conditioner according to a third embodiment.
FIG. 9 is a schematic view showing the flow of air in an air conditioner according to a third embodiment.
FIG. 10 is a diagram showing a configuration of a refrigerant circuit and the like and an air flow of an air conditioner according to another embodiment.
[Explanation of symbols]
1a-1d air conditioner
2a-2d indoor unit
3a-3d outdoor unit
6 Supply / exhaust hose (first air path)
14a Indoor unit air supply filter (discharge unit)
14b, 14d component sustained release unit (release unit)
14c Air purification filter (discharge part)
17 containers (housing section)
43 Radial fan assembly (blower)
141 embedding resin (embedding material)
143 Volatile substances (functional materials)
R1 outdoor unit path (first air path, outdoor unit path)
R21 First indoor unit path (second air path)
R22 Second indoor unit route (first air route, indoor unit route)

Claims (10)

A discharge part (14a-14d) for releasing components of the yak sugi buried earth;
(1a-1d). It further comprises a blower (43) for sending the air containing the released components of the yak sugi buried tree to the room,
The air conditioner (1a-1d) according to claim 1. The release section (14a-14d) has a sustained release function of gradually releasing the components of the yaksugi soil buried tree.
The air conditioner (1a-1d) according to claim 1 or 2. The discharge section (14a-14d)
A functional material (143) containing a component of the yak sugi buried earth;
An embedding material (141) for embedding the functional material (143) and gradually releasing the embedded functional material (143);
Having,
The air conditioner (1a-1d) according to claim 3. An air conditioner (1a, 1b, 1d) divided into an indoor unit (2a, 2b, 2d) arranged indoors and an outdoor unit (3a, 3b, 3d) arranged outdoors.
A first air path (R1) through which air blowing from the outside of the outdoor unit (3a, 3b, 3d) to the room through the outdoor unit (3a, 3b, 3d) and the indoor unit (2a, 2b, 2d) passes. , 6, R22).
The discharge section (14a, 14b, 14d) discharges a component of the yak sugi buried tree into the air passing through the first air path (R1, 6, R22).
The air conditioner (1a, 1b, 1d) according to any one of claims 2 to 4. The first air path (R1, 6, R22) has an indoor unit path (R22) provided in the indoor unit (2a),
The discharge unit (14a) is provided in the indoor unit path (R22).
The air conditioner (1a) according to claim 5. The first air path (R1, 6, R22) has an outdoor unit path (R1) provided in the outdoor unit (3b, 3d),
The discharge unit (14b, 14d) is provided in the outdoor unit path (R1).
The air conditioner (1b, 1d) according to claim 5. A second air path (R21) through which air taken in from the room and blown back into the room is further provided;
The discharge section (14c) is provided in the second air path (R21).
The air conditioner (1c) according to any one of claims 2 to 4. It further comprises a storage unit (17) that can be opened and closed,
The discharge section (14d) is stored in the storage section (17).
The air conditioner (1d) according to any one of claims 1 to 8. The component of the yak sugi soil buried is synthesized from a substance having the same component as at least a part of the component of the yak cedar soil buried,
The air conditioner (1a-1d) according to any one of claims 1 to 9.

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