CN109780634A - Air-conditioning - Google Patents

Abstract

The purpose of the present invention is to provide a kind of air-conditionings that the room air of air-conditioning and the flow path of outdoor air can be flowed into using the conversion of simple structure.Air-conditioning includes: main part and air introduction part for accomplishing this, wherein, main part includes: main part and air introduction part, wherein, main part includes: dehumidifying rotor, by rotation alternately through first area and second area and adsorption moisture or the moisture of release absorption；First spatial portion and second space portion are located at as the indoor of the side of the air flow circuit by second area and as the outside of the other side；Third spatial portion and the 4th spatial portion, it is located at as the indoor of the side of the air flow circuit by first area and as the outside of the other side, air introduction part includes: air door, any one flowing of the room air from indoor inflow into independent two air flow circuits is guided, another flowing from the outdoor air that indoor and outdoor flows into independent two air flow circuits is guided.

Description

Air-conditioning

Technical field

The present invention relates to a kind of air-conditioning more particularly to a kind of skies equipped with the air door for converting air flow circuit direction It adjusts.

Background technique

In general, air-conditioning is temperature and humidity in regulation room according to the demand of user, or taken a breath to room air and Keep the device of indoor comfortable.

Recently, it is developing by a variety of function such as air-conditioning additional dehumidification, humidification, refrigeration, heating, air cleaning, ventilation Can, so as to make room air be maintained at the technology of comfortable state with meeting seasonal variations according to the user's choice.

As existing air-conditioning technical, " air-conditioning and its controlling party are disclosed in Korean granted patent 10-1782838 Method ".

The air-conditioning of the above-mentioned prior art includes: the first air flow circuit, both ends and indoor connection；Second air flow circuit, both ends With outdoor connection；Dehumidifying rotor including the first area being provided on first air flow circuit and is provided to second sky The second area of air-flow road.

In the case where the operation of air conditioner dehumidification mode, moisture included in room air in dehumidifying rotor first Region is adsorbed, and the moisture being adsorbed is discharged into due to the sky that dehumidifying rotor rotates and passes through second area in second area In gas.

In this case, it is arranged as the flowing side of the air and the air by second area by the first area To identical, therefore there are problems that dehumidification efficiency reduction.

Referring to Fig.1, such problems is described in detail.

The first air flow circuit 1 flowing room air by dehumidifying rotor 3 first area 3a one side A and successively Pass through another side C.To which the moisture being contained in room air is largely adsorbed in one side A, in another side C quilt A small amount of absorption.

Same as above, the one side A for largely having adsorbed the dehumidifying rotor 3 of moisture rotates and is located at the B point of second area 3b, The another side C for the dehumidifying rotor 3 for having adsorbed moisture on a small quantity is located at the D point of second area 3b.

In this case, pass through in the outdoor air of the second air flow circuit 2 flowing and adsorbed the second areas of a large amount of moistures After the one side B of 3b and humidity increase, if passing through the another side D of second area 3b, since above-mentioned raised humidity is led The moisture for the another side D for being adsorbed in second area 3b is caused to discharge into the air by the another side D of second area 3b Ratio reduces, so as to cause regeneration efficiency reduction.Later, if dehumidifying rotor 3 further rotates, in the another of second area 3b It is not discharged in the D of side to air and the moisture of remaining is located at the another side C of first area 3a, therefore will be in the first air flow circuit The efficiency of the moisture removal of the room air of 1 flowing reduces.

Also, in the case where operation of air conditioner ventilatory pattern, there are problems that the efficiency of Total heat exchange reduces.That is, if Winter operation ventilatory pattern, then indoor warm air is expelled to outdoor, outdoor cold air by the first air flow circuit 1 Interior is flowed by the second air flow circuit 2.In this case, as room air passes through first area 3a, the temperature of one side A Degree is sharply increased, on the contrary, the temperature of another side C with relatively little increases.In this case, if dehumidifying rotor 3 rotates and makes The one side that temperature is sharply increased is located at B location, and raised another side is located at the position D to temperature on a small quantity, then outdoor cold Air flows and is contacted with first the one side of B location in the second air flow circuit 2, and then temperature rises to a certain degree, however It needs before flowing into interior through temperature with relatively little raised another side D, therefore the heat from room air to outdoor air Transmission efficiency reduces.

Also, in the air-conditioning of the above-mentioned prior art, including by the flow path of the first air flow circuit and the second air flow circuit The flow path converter section of direction conversion.

If the flow path converter section is provided to air-conditioning, outfit is needed to be connected to the first air flow circuit and the second air flow circuit Interconnecting piece and the direction for converting air flow circuit air door, if being equipped with multiple interconnecting pieces as described above inside air-conditioning And air door, then there are problems that air-conditioning, structure is complicated and device becomes larger.

Summary of the invention

The present invention proposes that its purpose is to provide one kind to convert using simple structure to solve the above-mentioned problems Flow into the air-conditioning of the room air of air-conditioning and the flow path of outdoor air.

The air introduction part that another object of the present invention is to provide a kind of by that will flow into room air and outdoor air It is integrally provided to the side of main part and the air-conditioning of structure can be simplified.

It can reduce another object of the present invention is to provide one kind and convert room air and outdoor air for drive The load of the driving portion of the air door of flow path and the air-conditioning for shortening flow path conversion time.

Make to be formed by the room air of dehumidifying rotor and outdoor air pair another object of the present invention is to provide a kind of Flow and can be improved the air-conditioning of efficiency.

It can make to form convection current by the air of dehumidifying rotor another object of the present invention is to provide one kind and make size The air-conditioning of miniaturization.

Air-conditioning of the invention for achieving the above object includes: main part and air introduction part, wherein the main part It include: dehumidifying rotor, by rotation alternately through described in first area and second area and adsorption moisture or release absorption Moisture；First spatial portion and second space portion are located at the room of the side as the air flow circuit by the second area Inside and outside as the other side；Third spatial portion and the 4th spatial portion are located at as by the first area Air flow circuit side indoor and outside as the other side, wherein the air introduction part includes: air door, is drawn Any one flowing from the room air of indoor inflow into independent two air flow circuits is led, what guidance was flowed into from indoor and outdoor Another flowing of the outdoor air into independent two air flow circuits.

The air introduction part can be equipped in the side of the main part across partition wall.

The inner space of the air introduction part can be divided into independent two air flow circuits by the air door, and And rotated centered on rotary shaft, to guide the room air and outdoor air respectively to independent two air streams Any one and another flowing in road.

Centered on the rotary shaft of the air door, it can be respectively equipped with the first damper component, the second wind up and down Door part, third damper component and the 4th damper component, the two side ends of the air door are contacted with the first damper component and respectively Two damper components, thus flowed between the inner space for the air introduction part for blocking air to divide on the basis of by the air door, The air door rotates and the two side ends of the air door is made to be contacted with the third damper component and the 4th damper component respectively, thus It is flowed between the inner space for the air introduction part for blocking air to divide on the basis of by the air door.

The third damper component may include: air door contact portion, the side end in contact with the air door；Air block Portion, from the end of the air door contact portion with tortuous shape extends and blocks the air flowed by the indoor inflow entrance, Wherein, the 4th damper component includes: air door contact portion, the other side end in contact with the air door；Air block portion, from institute The end of air door contact portion is stated so that tortuous shape extends and blocks the air flowed by the outdoor inflow entrance.

It the air block portion of the third damper component can be from the end of the air door contact portion of the third damper component Extend upward or downward, the end of air door contact portion of the air block portion of the 4th damper component from the 4th damper component Portion is to opposite direction extends up and down with the air block portion of the third damper component.

The partition wall between the main part and air introduction part is being blocked, first spatial portion can corresponded to Part is formed with the first opening portion for being connected to the air flow circuit of the air introduction part with the first spatial portion, described corresponding to The part of 4th spatial portion is formed with the second opening portion for being connected to the air flow circuit of the air introduction part with the 4th spatial portion.

The air door can be set in first position, so that the room air flowed by indoor inflow entrance passes through described the One opening portion is flowed to first spatial portion, and the outdoor air flowed by outdoor inflow entrance is made to be open by described second Portion is flowed to the 4th spatial portion, alternatively,

The air door is set in the second position, so that the room air flowed by the indoor inflow entrance passes through described the Two opening portions are flowed to the 4th spatial portion, and make the outdoor air flowed by the outdoor inflow entrance by described first It is flowed to first spatial portion opening portion.

The air door may include: indoor air door, the room air and pass through room that guidance is flowed by indoor inflow entrance Any one flowing of any one in the outdoor air that outer inflow entrance flows into independent two air flow circuits；Room Outside air door, guide in the room air and outdoor air another is another in independent two air flow circuits Item flowing.

Be incorporated into will be on the inner space of the air introduction part for hinge respectively for the indoor air door and outside air door The both side ends of the connecting component of lower division, if the indoor air door is revolved by rotation center of the hinge of the indoor air door Go to a position in first position and the second position, then make the room air to the upper space of the connecting component and A flowing in lower space, if the outside air door is rotated by rotation center of the hinge of the outside air door to institute State a position in first position and the second position, then make the outdoor air to the upper space of the connecting component and under A flowing in portion space.

Backspin can be gone up equipped with being respectively used to limit in the case where the indoor air door and outside air door rotate The rotation restricting unit of gyration.

The partition wall between the main part and air introduction part is being blocked, the third spatial portion can corresponded to Part is formed with the first opening portion for being connected to the air flow circuit of the air introduction part with third spatial portion, described corresponding to The part in second space portion is formed with the second opening portion for being connected to the air flow circuit of the air introduction part with second space portion.

The air door and outside air door can be set in first position, so that the Interior Space flowed by indoor inflow entrance Gas is flowed by first opening portion to the third spatial portion, and passes through the outdoor air flowed by outdoor inflow entrance Second opening portion is flowed to the second space portion, alternatively, the air door and outside air door are set in the second position, is made It obtains and is flowed by second opening portion to the second space portion by the room air that the indoor inflow entrance flows into, and make It is flowed by first opening portion to the third spatial portion by the outdoor air that the outdoor inflow entrance flows into.

First spatial portion can be laminated in the top of third spatial portion, and the second space portion is laminated in the 4th space The top in portion.

Can air by the first area and the air by the second area formed with difference in height The convection current that mode flows round about.

Air-conditioning of the invention includes: two air flow circuits, flows the first air independently of each other with the second air；First Air door, guide in first air and the second air any one is any one in independent two air flow circuits Item flowing；Second air door guides another in first air and the second air in independent two air flow circuits In another flowing.

First air door can be incorporated into the rotary shaft of side with hinge and be rotated, to guide first air and In two air it is described any one into two air flow circuits it is described any one flowing, the second air door hinge Be incorporated into the rotary shaft of side and rotate, thus guide in first air and the second air it is described another to two institutes Another flowing in air flow circuit is stated, the air-conditioning is equipped with the rotary shaft and described second for connecting first air door Connecting component between the rotary shaft of air door.

In the case, two air flow circuits can be formed in side and the other side across the connecting component.

In accordance with the invention it is possible to the flow path of the room air and outdoor air that flow into air-conditioning is converted using simple structure Air-conditioning.

Also, the air introduction part for flowing into room air and outdoor air is integrally provided to the side of main part, and It is equipped with air door in the inside of air introduction part, so as to simplify the structure of air-conditioning.

Also, side and outside are equipped with air door indoors, so as to reduce be used for drive conversion room air with The load of the driving portion of the air door of outdoor air flow path, and flow path conversion time can be shortened.

Also, make the efficiency that can be improved air-conditioning by room air and outdoor air the formation convection current of dehumidifying rotor.

Further, it is possible to make to form convection current by the air of dehumidifying rotor and the space before and after dehumidifying rotor is made to be formed as being laminated Structure and the size for minimizing air-conditioning.

Also, the flowing of the opening portion between main part and air introduction part is bypassed air through, so as to minimize air The path of flow path, and then hydrostatic pressures losses when air flowing are minimized, so as to reduce the load of pressure fan, to reduce function Consumption.

Detailed description of the invention

Fig. 1 is the figure for showing the air flowing in existing dehumidifying rotor.

Fig. 2 is the figure for showing the composition of air-conditioning according to the present invention.

Fig. 3 is the perspective view for showing the air-conditioning of first embodiment according to the present invention.

Fig. 4 is the perspective view that air introduction part is cut in the air-conditioning of Fig. 3.

Fig. 5 is the sectional view for showing the state of air door rotation of the air introduction part in the air-conditioning of Fig. 3.

Fig. 6 is the A-A sectional view of Fig. 3.

Fig. 7 is the B-B sectional view of Fig. 3.

Fig. 8 is the perspective view for showing the air-conditioning of second embodiment according to the present invention.

Fig. 9 is the perspective view that air introduction part is cut in the air-conditioning of Fig. 8.

Figure 10 is the sectional view for showing the state of air door rotation of the air introduction part in the air-conditioning of Fig. 8.

Figure 11 is the C-C sectional view of Fig. 8.

Figure 12 is the D-D sectional view of Fig. 8.

Figure 13 is the figure for showing the embodiment of air introduction part of the main part and second embodiment in conjunction with first embodiment.

Figure 14 is the figure for showing the structure of air introduction part according to another embodiment.

Symbol description

100,200: air-conditioning 101,201,301: indoor inflow entrance

102,202: indoor outlet 103,203,303: outdoor inflow entrance

104,204: outdoor outlet 110,210: main part

111,211: the first spatial portion 112,212: second space portion

113,213: third spatial portion 114,214: the four spatial portions

121,221: dehumidifying rotor 121a, 221a: first area

121b, 221b: second area 122,222: first heat exchanger

123,223: second heat exchanger 130,230: partition wall

141,241: the first pressure fan 142,242: the second pressure fan

150,250,350: air introduction part 150a, 250a, 350a: the first air imports space

150b, 250b, 350b: the second air imports space

150c, 250c, 350c: third air imports space

150d, 250d, 350d: the 4th air imports space

151,251,351: air door 152,352: the first damper components

153,353: the second damper component 154,354: third damper component

154a, 155a, 354a, 355a: air door contact portion

154b, 155b, 354b, 355b: air block portion

254a, 255a: the first second rotation restricting unit of rotation restricting unit 254b, 255b

Specific embodiment

Hereinafter, air-conditioning of the invention is described in detail referring to attached drawing.

<first embodiment>

Referring to Fig. 2 to Fig. 7, the composition of the air-conditioning of first embodiment according to the present invention is illustrated.

Referring to Fig. 2, air-conditioning 100 of the invention includes: main part 110, inside equipped with the 121, first heat of dehumidifying rotor Exchanger 122 and second heat exchanger 123；And air introduction part 150, it is provided to the side of the main part 110 and makes room Interior air and outdoor air flow into.

The air introduction part 150 one side equipped with make room air (the first air) flow into indoor inflow entrance 101, in the another side of the air introduction part 150 equipped with the outdoor inflow entrance for flowing into outdoor air (the second air) 103。

The main part 110 one side equipped with for air to be expelled to indoor indoor outlet 102, Air equipped with for being expelled to outdoor outdoor outlet 104 by the another side of the main part 110.

In the inside of the main part 110 equipped with dehumidifying rotor 121, the dehumidifying rotor 121 is by rotating alternately Pass through first area 121a and second area 121b and absorbs the moisture of moisture or release absorption.In the dehumidifying rotor 121 equipped with the adsorption piece for adsorption moisture inside it.

Under dehumidification mode, the adsorption piece positioned at first area 121a is adsorbed in the room air by first area 121a Contained moisture.If having adsorbed the adsorption piece rotation of the moisture and being located at second area 121b, by water release to logical It crosses in the air of second area 121b, to dehumidify to room air.

The axis that the dehumidifying rotor 121 is provided to center by driving portion (not shown) pivots about.

In this case, convection current is formed with by the air of second area 121b by the air of first area 121a. Here, convection current indicates the state that air flows in the opposite directions to each other.As described above, if passing through the air of dehumidifying rotor 121 Convection current is formed, then improves dehumidification efficiency and enthalpy exchange efficiency, its reason will be hereafter illustrated.

The main part 110 equipped with to by the air of first area 121a and second area 121b carry out heating or Cooling heat pump.

The heat pump includes: compressor 126, is the gaseous refrigerant of high temperature and pressure by refrigerant compression；First heat exchange Device 122 (when heating) or second heat exchanger 123 (when dehumidifying/refrigeration), the refrigerant that will be compressed in the compressor 126 It is condensed into the liquid refrigerant of medium temperature high pressure；Expansion valve 124 will be condensed in first heat exchanger 122 or second heat exchanger 123 Refrigerant decompression be low-temp low-pressure refrigerant；Second heat exchanger 123 (when heating) or (system of first heat exchanger 122 When cold), the refrigerant depressurized in the expansion valve 124 is evaporated to the gaseous refrigerant of low-temp low-pressure；Four-way valve 125, setting In the outlet side of the compressor 126, so in refrigeration and heating convert refrigerant flow direction.First heat exchange Device 122 and second heat exchanger 123 are alternately worked in a manner of condenser and evaporator.

In order to suck the room air or outdoor air and equipped with the first pressure fan 141 and the second pressure fan 142.

It can be supplied equipped with by moisture between first pressure fan 141 and the first area 121a of dehumidifying rotor 121 The moisture supply portion 145 of the air of Ying Zhixiang indoor moveable.The moisture supply portion 145, which is configured to be impregnated in, is filled in water In the water of slot, and then air passes through the humidifying filter for having adsorbed moisture, to improve humidity.Pass through the moisture supply portion 145 can be realized the adjusting of humidification amount.

It can be equipped with middle institute for filtering air on the air flow circuit that the room air and outdoor air are flowed Multiple filter 126a, 126b, the 126c for the foreign matter for including.

Referring to Fig. 3, the composition of main part 110 is illustrated.

In the inner space of the main part 110, the first spatial portion to the 4th spatial portion 111,112,113,114 is constituted Two layers of hexahedron stepped construction, and surrounded by outer cover 135.

The second area 121b of the dehumidifying rotor 121 is placed in by first spatial portion 111 and second space portion 112 Centre, and it is located at the indoor and outside of the side as the air flow circuit by second area 121b.Described The first area 121a (Fig. 6) of the dehumidifying rotor 121 is placed in centre by three spatial portions 113 and the 4th spatial portion 114, and It is located at the indoor and outside of the side as the air flow circuit by first area 121a.

First spatial portion 111 and second space portion 112 are located at the top of main part 110, in first spatial portion 111 lower part is disposed with third spatial portion 113 with stepped construction, the second space portion 112 lower part with stepped construction cloth It is equipped with the 4th spatial portion 114.

First spatial portion 111 is divided with third spatial portion 113 by the first separating plate 131, the second space portion 112 It is divided with the 4th spatial portion 114 by the second separating plate 132, first spatial portion 111 is with second space portion 112 by third point It is divided from plate 133, the third spatial portion 113 and the 4th spatial portion 114 are divided by the 4th separating plate 134 (Fig. 7).

The first area 121a is located at the lower part of main part 110, and second area 121b is located at the top of main part 110, The first area 121a is spatially separated from each other with second area 121b and is not connected to.

The first heat exchanger 122 (Fig. 6) is provided to the 4th spatial portion 114 and is provided to the 4th spatial portion 114 and to court The air flowed to first area 121a is heated or cooled.The second heat exchanger 123 is provided to the first spatial portion 111 and the air flowed towards second area 121b is heated or cooled.

First pressure fan 141 is provided to third spatial portion 113, to suck room air from indoor inflow entrance 101, into And indoor outlet 102 is made it through to indoor moveable, or suck outdoor air from outdoor inflow entrance 103, and then keep it logical Indoor outlet 102 is crossed to indoor moveable.In first pressure fan 141, the entrance passed air into is connected to third sky Between portion 113, make air be discharged outlet be connected to indoor outlet 102.

Second pressure fan 142 is provided to second space portion 112, to suck room air from indoor inflow entrance 101, into And outdoor outlet 104 is made it through to outdoor flowing, or suck outdoor air from outdoor inflow entrance 103, and then keep it logical Outdoor outlet 104 is crossed to outdoor flowing.In second pressure fan 142, the entrance passed air into is connected to the second sky Between portion 112, make air be discharged outlet be connected to outdoor outlet 104.

As described above, first pressure fan 141 and the second pressure fan 142 can be equipped in step mutually not The third spatial portion 113 of identical height and second space portion 112.

It may be fitted with the cooler for the cooling air to indoor discharge in the third spatial portion 113.

In order to divide between the main part 110 and air introduction part 150 and equipped with partition wall 130.The air is led Entering portion 150 with partition wall 130 is the one side for having a common boundary and being integrally provided to main part 110.

It is formed with the first opening portion 130a and the second opening portion 130b (Fig. 6) in the partition wall 130, so that air be made to lead The inner space for entering portion 150 is connected to the first spatial portion 111 by the first opening portion 130a, and makes air introduction part 150 Inner space be connected to the 4th spatial portion 114 by the second opening portion 130b.Also, the inside of air introduction part 150 Between space and second space portion 112, it is described respectively between the inner space of air introduction part 150 and third spatial portion 113 Partition wall 130 blocks.The first opening portion 130a and the second opening portion 130b in partition wall 130 to be respectively communicated in the first sky Between the mode of portion 111 and the 4th spatial portion 114 be formed in the position of diagonal.

In the indoor of the one side as the air introduction part 150 equipped with indoor inflow entrance 101, as described The outside of the another side of air introduction part 150 is equipped with outdoor inflow entrance 103.

The interior inflow entrance 101 is provided to the indoor adjacent with first spatial portion 111 and third spatial portion 113 And flow into room air.The outdoor inflow entrance 103 is provided to and the second space portion 112 and 114 phase of the 4th spatial portion Adjacent outside and flow into outdoor air.The indoor inflow entrance 101 can be equipped with air door (not shown) so that interior Air flows into or room air is blocked to flow into.Also, outdoor inflow entrance 103 can also be equipped with air door (not shown) so that room Outer air stream enters or outdoor air is blocked to flow into.

It is constituted according to as described above, convection current is formed by the room air and outdoor air of dehumidifying rotor 121, so as to Enough improve dehumidification efficiency and enthalpy exchange efficiency.Also, by the way that main part 110 is configured to hexahedron, and by the first spatial portion It is configured to stepped construction to the 4th spatial portion 111,112,113,114, the compact in size of air-conditioning can be made.Also, in main body Opening 130a, 130b flows air between portion and air introduction part, so as to minimize the path of air flow circuit, And then minimize hydrostatic pressures losses when air flowing.

Also, the first opening portion 130a and the second opening portion 130b is formed in the position with step in partition wall 130, the One pressure fan 141 and the second pressure fan 142 are equipped in the spatial portion 113,112 with step, and the of dehumidifying rotor 121 One region 121a and second area 121b is also provided as with step, so as to make the compact in size of air-conditioning, while can also Enough form convection current.Also, the path by the air flow circuit for minimizing room air and outdoor air, when air stream can be made to move Hydrostatic pressures losses minimize, and the load of pressure fan can be reduced, and then less power consumption.

It is illustrated referring to composition of the Fig. 4 to air introduction part 150.

In the inner space of air introduction part 150, sky that the room air flowed into from the indoor inflow entrance 101 is flowed The air flow circuit that is flowed of outdoor air that outdoor inflow entrance 103 described in air-flow Lu Yucong flows into is with air door (Damper) 151 Have a common boundary the space for being formed and being separated from each other, so that room air be made independently to flow with outdoor air.

In the case where being formed as described above two air flow circuits, it is configured to equipped with air door 151 to guide room Outer air is flowed in above-mentioned independent air flow circuit respectively.

The air door 151 is plate shape, is provided as to pivot about with rotary shaft 151a, in ventilatory pattern Under, as shown in (a) of Fig. 5, air door 151 is set as the first position in vertical direction, under dehumidification mode, such as (b) institute of Fig. 5 Show, air door 151 is set as the second position in horizontal direction, to convert the direction of air flow circuit.

In the case where the air door 151 is in first position, the first air door portion for being contacted with the both side ends of air door 151 Part 152 and the second damper component 153 are equipped in the upside and downside of rotary shaft 151a.

Also, in the case where the air door 151 is in the second position, the third that is contacted with the both side ends of air door 151 Damper component 154 and the 4th damper component 155 are equipped in the left side and right side of rotary shaft 151a.

The section of first damper component 152 and the second damper component 153 is generally formed into U-shaped, and to incite somebody to action Mode symmetrical above and below is incorporated into outer cover 156 and partition wall 130 on the basis of horizontal line by rotary shaft 151a.

The third damper component 154 is provided to the side that room air is flowed into, and includes: air door contact portion 154a, Side end in contact when the air door 151 is horizontally oriented, with air door 151；And air block portion 154b, in the wind The end of door contact portion 154a is extended with tortuous shape along upwardly inclined direction, and then is blocked through the indoor inflow entrance 101 air flowed into.The end of the air door contact portion 154a is tortuous downwards, so as to contact with air door 151.

The air block portion 154b is provided as blocking the top of the indoor inner space of air introduction part 150, therefore The room air flowed into from indoor inflow entrance 101 is stopped by air block portion 154b, and then to being formed in air block portion 154b First air of lower part imports space 150a flowing.

4th damper component 155 is provided to the side that outdoor air is flowed into, and includes: air door contact portion 155a, Other side end in contact when the air door 151 is horizontally oriented, with air door 151；And air block portion 155b, described The outdoor side end of air door contact portion 155a is extended downwardly with tortuous shape edge, and then is blocked through the outdoor inflow entrance 103 air flowed into.The end of the air door contact portion 155a is tortuous upwards, can contact with air door 151.

The air block portion 155b is provided as blocking the lower part of the outside inner space of air introduction part 150, therefore The outdoor air flowed into from outdoor inflow entrance 103 is stopped by air block portion 155b, and then to being formed in air block portion 155b Top third air import space 150c flowing.

The air block portion of the air block portion 154b of the third damper component 154 and the 4th damper component 155 155b extends from each air door contact portion 154a, 155a to upper and lower opposite direction.

When the air door 151 is in vertical direction as illustrated in fig. 4, on the basis of air door contact portion 154a, lower part Space becomes the first air and imports space 150a, and the space on top becomes the second air and imports space 150b.Also, it is connect with air door On the basis of contact portion 155a, the space on top becomes third air and imports space 150c, and the space of lower part is imported as the 4th air Space 150d.

The both side ends of the air door 151 are constituted using elastic materials such as rubber, to work as and first air door Component 152, the second damper component 153, third damper component 154 and the 4th damper component 155 the contact of corresponding end when hinder Disconnected air flowing.

It is constituted according to as described above, the air introduction part for flowing into room air and outdoor air is integrally provided to master The side in body portion, so as to simplify the structure of air-conditioning.Also, Interior Space can be converted by being equipped with inside air introduction part The air door of the flow path of gas and outdoor air, so as to realize a variety of of the air-conditioning including moisture and ventilation by simple structure Function.

Referring to Fig. 5 to Fig. 7, change according to using the operation of air-conditioning 100 of the first embodiment as described above for constituting and being formed Operation in the case where gas mode is illustrated.

Under ventilatory pattern, as shown in (a) of Fig. 5, air door 151 is set in first position.In this case, first is run Pressure fan 141 and the second pressure fan 142.

If running second pressure fan 142, such as shown in (a) of Fig. 5, the room air of indoor inflow entrance 101 is flowed into It is guided and flowed into the first air and import space 150a by air block portion 154b, flow upwardly into the second air later and import space 150b, then flow direction is converted 90 degree and is flowed along (+) X-direction, and then passes through the first opening portion 130a to the first space It flows in portion 111.As shown in fig. 6, to first spatial portion 111 flow room air flow direction convert 90 degree and edge from It is indoor to be flowed towards outdoor (+) Y direction, thus in the rear to the second sky of the second area 121b by dehumidifying rotor 121 Between portion 112 flow.As shown in fig. 7, the room air in the second space portion 112 passes through the second pressure fan 142 and outdoor discharge Mouthfuls 104 to outdoor discharge.

If running first pressure fan 141, such as shown in (a) of Fig. 5, the outdoor air of outdoor inflow entrance 103 is flowed into It is guided and flowed into third air and import space 150c by air block portion 155b, flow downwardly into the 4th air later and import space 150d, then flow direction is converted 90 degree and is flowed along (+) X-direction, and then passes through the second opening portion 130b to the 4th space It flows in portion 114.As shown in fig. 6, to the 4th spatial portion 114 flow outdoor air flow direction convert 90 degree and edge from Outdoor is flowed towards indoor (-) Y axis direction, thus in the rear to third sky of the first area 121a by dehumidifying rotor 121 Between portion 113 flow.As shown in fig. 7, the outdoor air of the third spatial portion 113 passes through the first pressure fan 141 and indoor discharge Mouth 102 flows into indoor.

Make room air to outdoor discharge by process as described above execution and flow of outside air enters indoor ventilation mould Formula.In this case, as shown in fig. 6, air and the air by second area 121b by first area 121a are formed The convection current in direction opposite each other, therefore the efficiency of Total heat exchange when can be improved ventilation between room air and outdoor air.

That is, if running ventilatory pattern in winter, as room air passes through second area 121b, the first spatial portion 114 One side A temperature due to from room air receive heat and be sharply increased, on the contrary, the another side C in second space portion 112 Temperature with relatively little increase.In this case, if the one side A that dehumidifying rotor 121 rotates and temperature is sharply increased is located at The B point of third spatial portion 113, and raised another side C is located at the D point of the 4th spatial portion 114 to temperature on a small quantity, then it is outdoor cold Cold air touches the another side D of the first area 121a positioned at the 4th spatial portion 114 first, so make temperature slightly on It rises, then, the one side B positioned at third spatial portion 113 being sharply increased before flowing into interior by temperature, and receiving chamber A large amount of heat included in interior air, to improve the efficiency of Total heat exchange.

Under dehumidification mode, as shown in (b) of Fig. 5, air door 151 is set as the second position.In this case, first is run Pressure fan 141 and the second pressure fan 142.

If running first pressure fan 141, such as shown in (b) of Fig. 5, the room air of indoor inflow entrance 101 is flowed into It is guided and flowed into the first air and import space 150a by air block portion 154b, later by air door 151 along as (+) Y direction Horizontal direction guidance and to the 4th air import space 150d flowing.4th air imports the stream of the air of space 150d Dynamic direction is converted 90 degree and is flowed along (+) X-direction, and then is flowed by the second opening portion 130b to the 4th spatial portion 114.Such as Shown in Fig. 6, the flow direction of the room air of the 4th spatial portion 114 of Xiang Suoshu flowing converts 90 degree and edge is indoor from outdoor direction The flowing of (-) Y direction, to be flowed by the rear of the first area 121a of dehumidifying rotor 121 to third spatial portion 113. As shown in fig. 7, the room air of the third spatial portion 113 passes through the first pressure fan 141 and indoor outlet 102 to indoor row Out.Room air passes through first area 121a by process as described above, and is contained in the moisture in room air and is inhaled It is attached and realize dehumidifying.In such a case, it is possible to be configured to room air is provided to the front end of first area 121a first Pass through first area 121a after heat exchanger 122 is cooling.

If running second pressure fan 142, such as shown in (b) of Fig. 5, the outdoor air of outdoor inflow entrance 103 is flowed into It is guided and flowed into third air and import space 150c by air block portion 155b, later by air door 151 along as (-) Y direction Horizontal direction guidance and to the second air import space 150b flowing.Second air imports the stream of the air of space 150b Dynamic direction is converted 90 degree and is flowed along (+) X-direction, and then is flowed by the first opening portion 130a to the first spatial portion 111.Such as Shown in Fig. 6, the flow direction for the room air that the first spatial portion of Xiang Suoshu 111 flows converts 90 degree and edge is outdoor from indoor direction The flowing of (+) Y direction, to be flowed by the rear of the second area 121b of dehumidifying rotor 121 to second space portion 112. As shown in fig. 7, the outdoor air in the second space portion 112 passes through the second pressure fan 142 and outdoor outlet 104 to outdoor row Out.In this case, outdoor air leads to after being provided to the heating of second heat exchanger 123 of the front end of second area 121b Second area 121b is crossed, thus by the water release for the room air for being adsorbed in dehumidifying rotor 121 to outdoor, so that dehumidifying be made to turn Son 121 regenerates.

Dehumidification mode is executed by process as described above.In this case, as shown in fig. 6, passing through first area The air of 121a and the convection current that direction opposite each other is formed by the air of second area 121b, therefore can be improved dehumidifying effect Rate.

That is, room air passes through the one side D of the first area 121a of dehumidifying rotor 121 and passes sequentially through another side B. To which the moisture being contained in room air is largely adsorbed in one side D, and is adsorbed on a small quantity in another side B.Such as The one side D of the upper dehumidifying rotor 121 for having adsorbed a large amount of moistures describedly rotates and is located at the C point of second area 121b, absorption The another side B of the dehumidifying rotor 121 of a small amount of moisture is located at the A point of second area 121b.In this case, even if it is outdoor Air passes through the another side A for having adsorbed the second area 121b of a small amount of moisture, and moisture is only slightly increased, and passes through absorption later The one side C of the dehumidifying rotor 121 of a large amount of moistures and a large amount of moisture can be removed.Therefore, dehumidification efficiency is improved.

<second embodiment>

Referring to Fig. 8 to Figure 12, the composition of the air-conditioning of second embodiment according to the present invention is illustrated.

Referring to Fig. 8, the air-conditioning 200 of second embodiment according to the present invention is identical with the first embodiment place and is: main body Portion 210 and air introduction part 250 are equipped between partition wall 230 and are combined as a whole, and the inner space of the main part 210 is By the hexahedron for the structure that the first spatial portion to the 4th spatial portion 211,212,213,214 is laminated, and wrapped by outer cover 235 It encloses.

Hereinafter, being illustrated centered on having discrepant composition compared with first embodiment, and omits and be directed to remaining phase The detailed description of same composition.

For by flow into air-conditioning 200 inside room air or outdoor air be expelled to it is indoor interior outlet 202 match It is standby be connected to the first spatial portion 211, be expelled to outdoor for room air inside air-conditioning 200 or outdoor air will to be flowed into Outdoor outlet 204 is provided as being connected to the 4th spatial portion 214.

The partition wall 230 between the main part 210 and air introduction part 250 is being blocked, it is empty corresponding to the third Between the part in portion 213 be formed with the air flow circuit being connected to inside the air introduction part 250 and opened with the first of third spatial portion 213 Oral area 230a is formed with the air being connected to inside the air introduction part 250 in the part for corresponding to the second space portion 212 Second opening portion 230b of flow path and second space portion 212.That is, the first opening portion 230a and the second opening portion 230b with The mode that partition wall 230 is respectively communicated in third spatial portion 213 and second space portion 212 is formed in the position of diagonal.

In the second space portion 212 equipped with first heat exchanger 222, and then to towards the second of dehumidifying rotor 221 The air of region 221b flowing is heated or cooled.In the third spatial portion 213 equipped with the (figure of second heat exchanger 223 11) it, and then to the air of first area 221a (Figure 11) flowing towards dehumidifying rotor 221 is heated or cooled.

The first pressure fan 241 for sucking the room air or outdoor air is provided to the first spatial portion 211, stream The entrance for entering air is connected to the first spatial portion 211, and the outlet that air is discharged is connect with indoor outlet 202, thus by first The air of spatial portion 211 passes through indoor outlet 202 and is expelled to interior.

The second pressure fan 242 for sucking the room air or outdoor air is provided to the 4th spatial portion 214, stream The entrance for entering air is connected to the 4th spatial portion 214, and the outlet that air is discharged is connect with outdoor outlet 204, thus by the 4th The air of spatial portion 214 passes through outdoor outlet 204 and is expelled to outdoor.

In the air introduction part 250 equipped with indoor air door 251a (the first air door), for guiding from indoor inflow Any one flowing of the room airs that mouth 201 flows into independent two air flow circuits inside air introduction part 250；With And outside air door 251b (the second air door), for guiding the outdoor air flowed into from outdoor inflow entrance 203 to air introduction part Another flowing in independent two air flow circuits inside 250.

For for the second embodiment the case where, the first opening portion 230a and the second opening portion 230b are also in partition wall 230 It is formed in the position with step, the first pressure fan 241 and the second pressure fan 242 are equipped in the spatial portion with step 211,214, the first area 221a and second area 221b of dehumidifying rotor 221 are also provided as with step, so as to make sky That adjusts is compact in size, while can also form convection current.Also, pass through the air flow circuit for minimizing room air and outdoor air Path, and then hydrostatic pressures losses when flowing air minimize, and so as to reduce the load of pressure fan, and then reduce function Consumption.

Referring to Fig. 9, the composition of air introduction part 250 is described in detail.

The indoor air door 251a and outside air door 251b is above and below by the inner space of the air introduction part 250 The both side ends of the connecting component 252 of division pass through the combination of rotary shaft 251-1a, 251-1b hinge respectively.

The indoor air door 251a is provided as to pivot about with rotary shaft 251-1a, in ventilatory pattern Under, as shown in (a) of Figure 10, indoor air door 251a is set in the first position as upward rotation status, in dehumidification mode Under, as shown in (b) of Figure 10, indoor air door 251a is set in the second position for becoming the state that is rotated down, to convert sky The direction on air-flow road.

The outside air door 251b is provided as to rotate centered on rotary shaft 251-1b, under ventilatory pattern, such as Shown in (a) of Figure 10, outside air door 251b is set in the first position for becoming the state that is rotated down, under dehumidification mode, such as Shown in (b) of Figure 10, outside air door 251b is set in the second position as upward rotation status, to convert air flow circuit Direction.

In the case where the indoor air door 251a is in first position or the second position, in order to limit indoor air door The upward rotation angle of 251a is rotated down angle, is provided as touching the first rotationally constrained portion of indoor air door 251a Part 254a and the second rotation restricting unit 254b (Figure 10) are tilted upward or downward on the basis of rotary shaft 251-1a.

Also, in the case where the outside air door 251b is in first position or the second position, in order to limit outdoor The upward rotation angle of crosswind door 251b is rotated down angle, is provided as touching the first rotation limit of outside air door 251b Component 255a processed and the second rotation restricting unit 255b are tilted upward or downward on the basis of rotary shaft 251-1b.

Therefore, if the indoor air door 251a is using the rotary shaft 251-1a as rotation center rotates and is located at described the Any one position in one position and the second position, then the room air is empty to the top as the connecting component 252 Between the second air import the 4th air of space 250b and the lower space as the connecting component 252 and import space In 250d any one flowing, if the outside air door 251b using the rotary shaft 251-1b be rotation center rotation and Any one position in the first position and the second position, then the outdoor air imports empty to second air Between 250b and the 4th air import any one flowing in the 250d of space.

Referring to Fig.1 0 to Figure 12, ventilation is run to the air-conditioning 200 using the second embodiment as described above for constituting and being formed Operation in the case where mode is illustrated.

Under ventilatory pattern, as shown in (a) of Figure 10, indoor air door 251a and outside air door 251b are set as One position.In this case, the first pressure fan 241 and the second pressure fan 242 are run.

If running second pressure fan 242, such as shown in (a) of Figure 10, first is flowed by indoor inflow entrance 201 The room air that air imports space 250a is guided downwards by indoor air door 251a, and then flows into the 4th air and import space 250d.The flow direction that 4th air imports the air of space 250d converts 90 degree to (+) X-direction, and then passes through the One opening portion 230a is flowed to third spatial portion 213.As shown in figure 11, the room air that Xiang Suoshu third spatial portion 213 flows Flow direction convert 90 degree and towards being flowed from interior to outdoor (+) Y direction, thus passing through dehumidifying rotor 221 Backward 4th spatial portion 214 of first area 221a flows.As shown in figure 12, the room air of the 4th spatial portion 214 is logical The second pressure fan 242 and outdoor outlet 204 are crossed to outdoor discharge.

If running first pressure fan 241, such as shown in (a) of Figure 10, the outdoor for flowing into outdoor inflow entrance 203 is empty Gas is booted up by outside air door 251b, and then is flowed into the second air and imported space 250b.Second air imports space The flow direction of the air of 250b converts 90 degree to (+) X-direction, and then passes through the second opening portion 230b to second space portion 212 flowings.As shown in figure 11,90 degree and direction are converted in the flow direction for the room air that Xiang Suoshu second space portion 212 is flowed It is flowed from outdoor to indoor (-) Y direction, thus in the rear to the first sky of the second area 221b by dehumidifying rotor 221 Between portion 211 flow.As shown in figure 12, the room air of first spatial portion 211 passes through the first pressure fan 241 and indoor discharge Mouthfuls 202 to indoor inflow.

Execution makes room air to outdoor discharge by the above process and flow of outside air enters indoor ventilatory pattern.At this In the case of kind, as shown in figure 11, the air by first area 221a forms phase each other with the air by second area 221b The convection current of opposite direction, therefore can be improved the efficiency of the Total heat exchange between room air and outdoor air when ventilation.

Under dehumidification mode, as shown in (b) of Figure 10, indoor air door 251a and outside air door 251b are set as Two positions.In this case, the first pressure fan 241 and the second pressure fan 242 are run.

If running first pressure fan 241, such as shown in (b) of Figure 10, first is flowed by indoor inflow entrance 201 The room air that air imports space 250a is booted up and flowed into the second air and import space 250b by indoor air door 251a Later, the outdoor side end that the second air imports space 250b is flowed to horizontal direction along (+) Y direction.Described second is empty It converts 90 degree and passes through the second opening portion 230b to second along (+) X-direction in the flow direction that conductance enters the air of space 250d Spatial portion 212 flows.As shown in figure 11,90 degree are converted in the flow direction for the room air that Xiang Suoshu second space portion 212 is flowed And towards flow from outdoor to indoor (-) Y direction, thus pass through the second area 221b of dehumidifying rotor 221 it is rear to The flowing of first spatial portion 211.As shown in figure 12, the room air of first spatial portion 211 passes through the first pressure fan 241 and room Interior outlet 201 is to indoor discharge.Room air passes through second area 221b by process as described above and makes to be contained in Moisture in room air is adsorbed and realizes dehumidifying.In such a case, it is possible to which being configured to room air is provided to second Pass through second area 221b after the first heat exchanger 222 of the front end of region 221b is cooling.

If running second pressure fan 242, such as shown in (b) of Figure 10, third is flowed by outdoor inflow entrance 203 The outdoor air that air imports space 250c is guided downwards and flowed into the 4th air and import space 250d by outside air door 251b Later, the indoor side end that the 4th air imports space 250d is flowed to horizontal direction along (-) Y direction.Described 4th is empty It converts 90 degree and passes through the first opening portion 230a to third along (+) X-direction in the flow direction that conductance enters the air of space 250d Spatial portion 213 flows.As shown in figure 11,90 degree are converted in the flow direction for the room air that Xiang Suoshu third spatial portion 213 flows And towards being flowed from interior to outdoor (+) Y direction, thus the first area 221a by dehumidifying rotor 221 it is rear to The flowing of 4th spatial portion 214.As shown in figure 12, the room air of the 4th spatial portion 214 passes through the second pressure fan 242 and room Outer outlet 204 is expelled to outdoor.In this case, outdoor air is provided to the second heat of the front end of first area 221a By first area 221a after the heating of exchanger 223, so that the moisture for the room air for being adsorbed on dehumidifying rotor 221 be released It puts to outdoor, so that dehumidifying rotor 221 be made to regenerate.

Dehumidification mode is executed by process as described above.In this case, as shown in figure 11, pass through first area The air of 221a and the convection current that direction opposite each other is formed by the air of second area 221b, therefore can be improved dehumidifying effect Rate.

Also, pass through any one for being used to guide room air and outdoor air into two independent air flow circuits The air door flowed with another is separated into indoor air door 251a and outside air door 251b, can reduce for driving air door The load of driving portion, and shorten flow path conversion time.

<variant embodiment 1>

Figure 13 is the reality for showing the main part 110 of first embodiment and being combined with the air introduction part 250 of second embodiment The figure of example is applied, (a) of Figure 13 shows the flow path of room air and outdoor air under ventilatory pattern, and (b) of Figure 13 shows The flow path of the room air and outdoor air under dehumidification mode is gone out.

That is, in air introduction part 250 equipped with indoor air door 251a and outside air door 251b, the first opening portion 130a Partition wall 130, the second opening are formed in a manner of making the second air importing space 250b and the first spatial portion 111 be interconnected Portion 130b is formed in partition wall 130 in a manner of making the 4th air importing space 250d and the 4th spatial portion 114 be interconnected.And And as shown in figure 3, the first pressure fan 141 and the second pressure fan 142 are equipped in third spatial portion 113 and second space portion 112。

As described above, if being equipped with two air doors 251a, 251b in air introduction part 250, it can be in first embodiment Main part 110 in conjunction with the mode that the main part 210 of second embodiment exchanges respectively, so as to run ventilatory pattern and remove Wet model.

<variant embodiment 2>

Embodiment shown in Figure 14 is similar to the air introduction part 150 of first embodiment and the main part of second embodiment 210 structures combined, however with the difference that, 355 shape of third damper component 354 and the 4th damper component of air introduction part 350 As the structure different from the third damper component 154 of first embodiment and the 4th damper component 155, remaining composition is identical.

(a) of Figure 14 shows the flow path of room air and outdoor air under ventilatory pattern, and (b) of Figure 14 shows The flow path of the room air and outdoor air under dehumidification mode is gone out.

The third damper component 354 is provided to the side for flowing into room air, and includes: air door contact portion 354a, when A side of air door 351 is contacted when air door 351 is horizontally oriented；And air block portion 354b, in the air door contact portion The end of 354a is extended with tortuous shape along downwardly-inclined direction, and then blocks the sky flowed by indoor inflow entrance 301 Gas.The end of the air door contact portion 354a is tortuous upwards, can contact with air door 351.

The air block portion 354b is provided as blocking the lower part of the indoor inner space of air introduction part 550, thus Stop the room air flowed into from indoor inflow entrance 301 by air block portion 354b, and then to being formed in air block portion Second air on the top of 354b imports space 350b flowing.The air that second air imports space 350b is downwardly towards the One air passes through the first opening portion 230a to the flowing of third spatial portion 213 after importing space 350a.

4th damper component 355 is provided to the side for flowing into outdoor air, and includes: air door contact portion 355a, when The other side end in contact when air door 351 is horizontally oriented, with air door 351；And air block portion 355b, described The shape of the outdoor side end complications of air door contact portion 355a upwardly extends, and then blocks and flowed by the outdoor inflow entrance 303 The air entered.The end air door contact portion 355a is tortuous downwards, can contact with air door 351.

The air block portion 355b is provided as blocking the top of the outside inner space of air introduction part 350, thus The outdoor air flowed into from outdoor inflow entrance 303 is stopped by air block portion 355b, and then to being formed in air block portion 355b Lower part the 4th air import space 350d flowing.4th air imports the air flows upwards of space 350d to third Air passes through the second opening portion 230b to the flowing of second space portion 212 after importing space 350c.

The air block portion of the air block portion 354b of the third damper component 354 and the 4th damper component 355 355b extends from respective air door contact portion 354a, 355a to upper and lower opposite direction.

Although listing preferred embodiment as described above, invention is explained in detail, the present invention is simultaneously The above embodiments are not limited to, can be carried out in the range of scope of the claims, detailed description of the invention and attached drawing Various modifications and implement, and these belong to the present invention.

Claims (18)

1. a kind of air-conditioning characterized by comprising

Main part and air introduction part,

Wherein, the main part includes:

Dehumidifying rotor, by rotation alternately through first area and second area and adsorption moisture or the water of release absorption Point；

First spatial portion and second space portion are located at the interior of the side as the air flow circuit by the second area Side and outside as the other side；

Third spatial portion and the 4th spatial portion are located at the interior of the side as the air flow circuit by the first area Side and outside as the other side,

Wherein, the air introduction part includes: air door, and guidance is from the room air of indoor inflow to independent two air flow circuits In any one flowing, another from the outdoor air that indoor and outdoor flows into independent two air flow circuits of guidance Flowing.

2. air-conditioning as described in claim 1, which is characterized in that

The air introduction part is equipped in the side of the main part across partition wall.

3. air-conditioning as described in claim 1, which is characterized in that

The inner space of the air introduction part is divided into independent two air flow circuits by the air door, and with rotation It is rotated centered on axis, to guide times of the room air and outdoor air respectively into independent two air flow circuits One and another flowing of meaning.

4. air-conditioning as claimed in claim 3, which is characterized in that

Centered on the rotary shaft of the air door, it is being respectively equipped with the first damper component, the second damper component, up and down Three damper components and the 4th damper component,

The two side ends of the air door are contacted with the first damper component and the second damper component respectively, to block air with described It is flowed between the inner space of the air introduction part divided on the basis of air door,

The air door rotates and the two side ends of the air door is made to be contacted with the third damper component and the 4th damper component respectively, It is flowed between the inner space of air introduction part to block air to divide on the basis of by the air door.

5. air-conditioning as claimed in claim 4, which is characterized in that

The third damper component includes:

Air door contact portion, the side end in contact with the air door；

Air block portion, from the end of the air door contact portion with tortuous shape extends and blocks through the indoor inflow entrance The air of inflow,

Wherein, the 4th damper component includes: air door contact portion, the other side end in contact with the air door；

Air block portion, from the end of the air door contact portion with tortuous shape extends and blocks through the outdoor inflow entrance The air of inflow.

6. air-conditioning as claimed in claim 5, which is characterized in that

The air block portion of the third damper component from the end of the air door contact portion of the third damper component upwards or to Lower extension, the end of air door contact portion of the air block portion of the 4th damper component from the 4th damper component to institute Stating the air block portion of third damper component, opposite direction extends up and down.

7. air-conditioning as described in claim 1, which is characterized in that

The partition wall between the main part and air introduction part is being blocked, is being formed in the part for corresponding to first spatial portion There is the first opening portion for being connected to the air flow circuit of the air introduction part with the first spatial portion, is corresponding to the 4th space The part in portion is formed with the second opening portion for being connected to the air flow circuit of the air introduction part with the 4th spatial portion.

8. air-conditioning as claimed in claim 7, which is characterized in that

The air door is set in first position, so that passing through first opening portion by the room air that indoor inflow entrance flows into It is flowed to first spatial portion, and makes the outdoor air flowed by outdoor inflow entrance by second opening portion to described The flowing of 4th spatial portion, alternatively,

The air door is set in the second position, so that being opened by the room air that the indoor inflow entrance flows by described second Oral area is flowed to the 4th spatial portion, and the outdoor air flowed by the outdoor inflow entrance is made to be open by described first It is flowed to first spatial portion in portion.

9. air-conditioning as described in claim 1, which is characterized in that

The air door includes:

Indoor air door, the room air that guidance is flowed by indoor inflow entrance and the outdoor air flowed by outdoor inflow entrance In any one any one in independent two air flow circuits flowing；

Outside air door guides another in the room air and outdoor air in independent two air flow circuits Another flowing.

10. air-conditioning as claimed in claim 9, which is characterized in that

Hinge is incorporated into and will draw above and below the inner space of the air introduction part respectively for the indoor air door and outside air door The both side ends for the connecting component divided,

If the indoor air door is rotated by rotation center of the hinge of the indoor air door to first position and the second position In a position, then make one into the upper space of the connecting component and lower space flowing of the room air,

If the outside air door is rotated by rotation center of the hinge of the outside air door to the first position and second A position in position then makes a stream of the outdoor air into the upper space of the connecting component and lower space It is dynamic.

11. air-conditioning as claimed in claim 9, which is characterized in that

Angle is rotated up and down equipped with the limitation in the case where the indoor air door and outside air door rotate is respectively used to Rotation restricting unit.

12. air-conditioning as described in claim 1, which is characterized in that

The partition wall between the main part and air introduction part is being blocked, is being formed in the part for corresponding to the third spatial portion There is the first opening portion for being connected to the air flow circuit of the air introduction part with third spatial portion, is corresponding to the second space The part in portion is formed with the second opening portion for being connected to the air flow circuit of the air introduction part with second space portion.

13. air-conditioning as claimed in claim 12, which is characterized in that

The air door and outside air door are set in first position, so that passing through institute by the room air that indoor inflow entrance flows into It states the first opening portion to flow to the third spatial portion, and makes the outdoor air flowed by outdoor inflow entrance by described second Opening portion is flowed to the second space portion, alternatively,

The air door and outside air door are set in the second position, so that logical by the room air that the indoor inflow entrance flows into It crosses second opening portion to flow to the second space portion, and passes through the outdoor air flowed by the outdoor inflow entrance It is flowed to the third spatial portion first opening portion.

14. air-conditioning as described in claim 1, which is characterized in that

First spatial portion is laminated in the top of third spatial portion, and the second space portion is laminated in the upper of the 4th spatial portion Portion.

15. air-conditioning as described in claim 1, which is characterized in that

It is formed in a manner of with difference in height the air of the first area and by the air of the second area to phase The convection current of opposite direction flowing.

16. a kind of air-conditioning characterized by comprising

Two air flow circuits, flow the first air independently of each other with the second air；

First air door guides any one in first air and the second air in independent two air flow circuits Any one flowing；

Second air door guides another in first air and the second air in independent two air flow circuits Another flowing.

17. air-conditioning as claimed in claim 16, which is characterized in that

The first air door hinge is incorporated into the rotary shaft of side and rotates, to guide in first air and the second air It is described any one into two air flow circuits it is described any one flowing,

The second air door hinge is incorporated into the rotary shaft of side and rotates, to guide in first air and the second air It is described another into two air flow circuits it is described another flowing,

The air-conditioning is equipped with the interconnecting piece between the rotary shaft of the rotary shaft and second air door that connect first air door Part.

18. air-conditioning as claimed in claim 17, which is characterized in that

Two air flow circuits are formed in side and the other side across the connecting component.