CN208998188U - Air-conditioning - Google Patents

Abstract

Air-conditioning disclosed in the present application include shell and be located at the intracorporal gas chamber of the shell, First Heat Exchanger, the first blower, the second heat exchanger, the second blower, compressor and restricting element.The First Heat Exchanger, the second heat exchanger inside be provided with channel, the neighbouring channel is formed with air channel, the channel of the First Heat Exchanger, the compressor, second heat exchanger channel be connected with the restricting element.The shell includes the bottom wall that side wall is connected with the side wall, and the side wall offers the first opening and the second opening, and first opening is connected with the gas chamber, and second opening is connected with second blower or the second heat exchanger.The First Heat Exchanger, the first blower, the second heat exchanger, the second blower and compressor are installed in the top of the bottom wall, and the bottom wall offers through-hole, and the air outlet of first blower is connected with the through-hole.

Description

Air-conditioning

Technical field

This application involves air-conditionings.

Background technique

Related air-conditioning usually by indoor unit and outdoor unit at.For the Special uses occasion such as kitchen, placed due to lacking The space of outdoor unit, related air-conditioning are difficult to install well.

To solve the above problems, there is integrated air conditioner.Due to not having outdoor unit, integrated air conditioner is mountable in kitchen It is interior and work normally.But there are still the spaces of optimization for related integrated air conditioner.

Summary of the invention

According to the one aspect of the application, a kind of air-conditioning is provided, the air-conditioning includes shell and is located in the shell Gas chamber, First Heat Exchanger, the first blower, the second heat exchanger, the second blower, compressor and restricting element；

The First Heat Exchanger, the second heat exchanger inside be provided with channel, the neighbouring channel is formed with air channel, The channel of the First Heat Exchanger, the compressor, second heat exchanger channel be connected with the restricting element, it is described The air channel of First Heat Exchanger is connected with the air inlet of the first blower, the gas chamber, the air channel of second heat exchanger It is connected with the air inlet of the second blower, the gas chamber；

The shell includes the bottom wall that side wall is connected with the side wall, and the side wall offers the first opening and opens with second Mouthful, first opening is connected with the gas chamber, and second opening is connected with second blower or the second heat exchanger；

The First Heat Exchanger, the first blower, the second heat exchanger, the second blower and compressor are installed in the bottom wall Top, the bottom wall offer through-hole, and the air outlet of first blower is connected with the through-hole.

Detailed description of the invention

Fig. 1 to Fig. 6 is the structural schematic diagram of one embodiment air-conditioning of the application；Wherein, Fig. 1 is after air-conditioning is installed on furred ceiling Status diagram；Fig. 2 and Fig. 3 is stereoscopic schematic diagram of the air-conditioning in different perspectives；Fig. 4 is a floor map of air-conditioning；Fig. 5 It is a diagrammatic cross-section of Fig. 4；Fig. 6 is the schematic layout pattern in space in air-conditioning；

Fig. 7 to Figure 11 is the structural schematic diagram of the another embodiment air-conditioning of the application；Wherein, Fig. 7 and Fig. 8 is air-conditioning in difference The stereoscopic schematic diagram at visual angle；Fig. 9 is a floor map of air-conditioning；Figure 10 is diagrammatic cross-section of the Fig. 9 along M-M；Figure 11 is Diagrammatic cross-section of the Fig. 9 along N-N；

Figure 12 is the structural schematic diagram of another embodiment air-conditioning of the application；

Figure 13 to Figure 16 is the structural schematic diagram of the application another embodiment air-conditioning, wherein Figure 13 and Figure 14 is that air-conditioning exists The stereoscopic schematic diagram of different perspectives；Figure 15 is a floor map of air-conditioning；Figure 16 is diagrammatic cross-section of the Figure 15 along P-P；

Figure 17 is the structural schematic diagram of the another embodiment air-conditioning of the application.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the application.

It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application. In the description of the present application, it is to be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " clockwise ", " inverse The orientation or positional relationship of the instructions such as hour hands " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description originally Application and simplified description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific side Position construction and operation, therefore should not be understood as the limitation to the application.In addition, term " first ", " second " are only used for description mesh , it is not understood to indicate or imply relative importance or implicitly indicates the quantity of indicated technical characteristic.It limits as a result, There is the feature of " first ", " second " to can explicitly or implicitly include one or more of the features surely.The application's In description, the meaning of " plurality " is two or more, unless otherwise specifically defined.

In the description of the present application, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside two elements.It for the ordinary skill in the art, can be with The concrete meaning of above-mentioned term in this application is understood as the case may be.

In this application unless specifically defined or limited otherwise, fisrt feature second feature "upper" or "lower" It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature includes the first spy above the second feature " above ", " above " and " above " Sign is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " include that fisrt feature is directly below and diagonally below the second feature, or is merely representative of First feature horizontal height is less than second feature.With reference to the accompanying drawing, the application exemplary embodiment is described in detail.? In the case where not conflicting, the feature in following embodiment and embodiment can be complementary to one another or be combined with each other.

It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application. It is also intended in the application and the "an" of singular used in the attached claims, " described " and "the" including majority Form, unless the context clearly indicates other meaning.

With reference to the accompanying drawing, the application exemplary embodiment is described in detail.In the absence of conflict, following Feature in embodiment and embodiment can be combined with each other.

Related domestic air conditioning mostly uses greatly the split type structure of indoor unit and outdoor unit.Either bedroom or parlor, Need the special exterior space that outdoor unit is installed, to be equipped with the indoor unit in bedroom or parlor.The outside in kitchen is usual There is no such installation space.

The embodiment of the present application provides a kind of integrated air-conditioning.The air-conditioning does not have outdoor unit, because additional without occupying The exterior space so that the air-conditioning can be applied to kitchen environment, for eliminating, summer kitchen high temperature is sultry to be brought Uncomfortable sense.It is readily appreciated that, in addition to it can be applied to kitchen, the air-conditioning can also be applied to other environment.Do not make herein Limitation.

Such as Fig. 1 to Fig. 6, Fig. 7 to Figure 11, Figure 12, Figure 13 to Figure 16 and that Figure 17 shows the multiple embodiments of the application is empty Adjust 100,200,300,400 and 500 specific structure.Below based on Fig. 1 to air-conditioning 100 shown in fig. 6, it is combined when necessary Its attached drawing is illustrated the specific embodiment of the application air-conditioning.

The embodiment of the present application air-conditioning may include shell 20 and gas chamber 30, First Heat Exchanger 60, in shell 20 One blower 70, the second heat exchanger 80, the second blower 90, compressor 50 and restricting element 11.

Shell 20 may include bottom wall 25 and the side wall 23 that upwardly extends from 25 outer rim of bottom wall, and bottom wall 25 and side wall 23 can be common Surround a material-putting space.Gas chamber 30, First Heat Exchanger 60, the first blower 70, the second heat exchanger 80, the second blower 90, compression Machine 50 and restricting element 11 etc. are respectively formed or are mounted in the material-putting space.In each embodiment as shown in the figure, shell 20 is big Body is in cuboid, and bottom wall 25 is substantially square, and side wall 23 includes end to end the first side wall 232, second sidewall 234, third Side wall 236, the 4th side wall 238.The first side wall 232, second sidewall 234, third side wall 236 and the 4th side wall 238 surround one Quadrangle.Side where the first side wall 232 can be considered the first side of side wall 23 or shell 20, one where second sidewall 234 Side can be considered second side of side wall 23 and shell 20, and the side where third side wall 236 can be considered the of side wall 23 or shell 20 Three sides, the side where the 4th side wall 238 can be considered the 4th side of side wall 23 or shell 20.After being installed in place, shell 20 Each side (the first side, second side, third side and the 4th side) can face respectively or four side walls in face room (for example, kitchen).

In other embodiments, shell 20 can be other shapes, such as hollow cylinder.When shell 20 is cylindrical, side Wall 23 is in circular ring shape, and bottom wall 25 is rounded.Herein with no restriction.

Illustrate a bit, a part in 20 side wall 23 of shell can be served as by the side wall in room.

Air-conditioning can be mounted at the wall or furred ceiling in room (for example, kitchen).Include the common room of majority including kitchen Between generally include four sides side wall.In the side wall of four sides, usually there are three face interior walls and a face exterior wall.During installation, air-conditioner housing 20 Four side walls can each face or the face side wall in face of room.

For example, air-conditioning can be arranged between the decorative panel C of furred ceiling and the crown wall in kitchen.The upper end of side wall 23 can it is neighbouring or Recline the lower surface of kitchen crown wall, and the lower surface of bottom wall 25 can neighbouring or the decorative panel C that reclines upper surface.It when necessary, can be in shell The fixing pieces such as screw are set between body 20 and kitchen crown wall, decorative panel C, by their firm lockings.

Decorative panel C and bottom wall 25 can open up air port 16, as the channel for carrying out gas exchanges between air-conditioning and kitchen.Air port 16 can be the through-hole for being opened in the through-hole of bottom wall 25, being opened in decorative panel C.The air outlet of first blower 70 can be with the air port 16 are connected.Air-conditioning is mounted in the furred ceiling of kitchen by above-mentioned mounting means, and only air port 16 is exposed outside, is not take up kitchen space And it is overall beautiful not influence kitchen.

The first side wall 232 can open up two openings 13,15, and one of opening 13 (the alternatively referred to as first opening) can be made Enter the channel of air-conditioning for outdoor air.In other embodiments, other rooms where opening 13 also can be used as air-conditioning outside room Interior air (indoor gas) enters the channel of air-conditioning.Be conducive to improve air-conditioning as the air inlet of air-conditioning using room air Heat exchange efficiency.

Another opening 15 (the alternatively referred to as second opening) can be used as the air in air-conditioning and discharge to outdoor channel. Opening 13,15 can be round hole, square hole etc..The height of opening 13 as air intake is smaller than as air outlet slit The height of opening 15.

During installation, can by opening 13,15 where side wall 23 (for example, the first side wall 232) towards or face in kitchen Exterior wall.Can open up an air inlet and an exhaust outlet on the exterior wall in kitchen, and can by air hose by the air inlet with Opening 13 is connected, and the exhaust outlet is connected with opening 15.Since kitchen only has a face exterior wall mostly, will enter as air The opening 13 of mouth and the opening 15 as air outlet slit are set to the same side wall 232 of shell 20, are conducive to the air duct structure Simplification.

Common ceiling decoration board size (width * length) have 300mm (millimeter) * 300mm (millimeter), 300mm*600mm, 600mm*600mm etc..The bottom wall 25 of embodiment air-conditioner housing 20 as shown in the figure designs for rectangle, and length and width dimensions are less than 600mm* 600mm, when installation, can match with one or more decorative panel C.The height of shell 20 is less than the height of furred ceiling, meets installation and wants It asks.

Shell 20 may also include roof, and the roof can substantially be closed the material-putting space.In other embodiments, may be used It is not provided with roof, as long as can guarantee the air-tightness of each main element in shell 20.

Material-putting space in shell 20 can substantially be divided into four regions: first area 120 to the fourth region 180.Institute State the matrix arrangement that four regions can substantially be in 2 × 2 formulas.Each region can account for about a quarter of material-putting space.In other realities It applies in example, each region occupied area can not be generally equalized, but is set as needed.First area 120 and the fourth region 180 Can diagonally it be arranged, second area 140 can be diagonally arranged with third region 160.Wherein, gas chamber 30 can be mainly disposed to first In region 120, First Heat Exchanger 60 and the first blower 70 can be mainly disposed in second area 140, the second heat exchanger 80 and Two blowers 90 can be mainly disposed in third region 160, and compressor 50 can be mainly disposed in the fourth region 180.

First Heat Exchanger 60 and the first blower 70 may be provided at the first side of gas chamber 30, and along the length of the first side wall 232 Direction arrangement.The inside of First Heat Exchanger 60 may be provided with for refrigerant (for example, R113, R114, R115, R134a, R502, R22 etc.) circulation channel.The air channel for air circulation is formed in the side in channel.In air, channel in air channel Refrigerant can be isolated by the wall in channel.Air in air channel can be by cold in the wall and channel in 60 channel of First Heat Exchanger Matchmaker carries out heat exchange.Air channel at First Heat Exchanger 60 can be connected with gas chamber 30, thus air can be in gas chamber 30 and first Free flow between air channel at heat exchanger 60.In cooling mode, First Heat Exchanger 60 can be used as evaporator operation.

First Heat Exchanger 60 can be multi-channel heat exchanger.For example, can be copper pipe fin type heat exchanger, it is also possible to have There is the micro-channel heat exchanger of flat tube and header.The use of micro-channel heat exchanger advantageously reduces the weight of air-conditioning, reduces air-conditioning Size.Wherein, flat tube is usually internal is equipped with multiple channels for refrigerant flowing.Adjacent channel is isolated from each other.Multiple channels It forms a line, the width of joint effect flat tube.Flat tube be integrally in it is flat, length is greater than width, and width is greater than its thickness again. The length direction of flat tube is the refrigerant flow direction determined by the channel in flat tube.The length direction of flat tube can be directly Line style or broken line type or flexure type etc..Flat tube mentioned here is not limited to this type, is also possible to other forms.Than Such as, adjacent channel can be not fully insulated.For another example, all channels can line up two column, as long as its width is still greater than thickness ?.

First Heat Exchanger 60 can be substantially plate-like, has length direction, width direction and thickness direction.First Heat Exchanger 60 Size T1 in a thickness direction is less than the size L1 of First Heat Exchanger 60 in the longitudinal direction, size in the direction of the width W1.Extending direction for the air channel of air circulation is substantially consistent with the thickness direction of First Heat Exchanger 60.That is, air is substantially Thickness direction along First Heat Exchanger 60 passes through First Heat Exchanger 60.

First blower 70 is for providing the power that air is flowed from gas chamber 30 to First Heat Exchanger 60.First blower 70 may include Spiral case 72, impeller and air inlet may be provided at the center of spiral case 72.The shaft of air channel wound impeller inside spiral case 72 is set It sets.

First blower 70 can be vertically arranged.Corresponding, the shaft of impeller is horizontally disposed.The air inlet of first blower 70 towards The air outlet of First Heat Exchanger 60, the first blower 70 can be towards bottom wall 25.In other embodiments, the air outlet of the first blower 70 It can not also be towards bottom wall 25, but towards other directions.For example, in the air-conditioning 500 shown in Figure 17, the first wind for being vertically arranged The air outlet of machine 70 is towards the 4th side wall 238.Tracheae 71 can be set between air port 16 and the air outlet of the first blower 70, so that The gas of first blower 70 discharge can sufficiently, quickly reach air port 16.The above-mentioned set-up mode and tracheae 71 of first blower 70 Setting so that settable region of the air port 16 on bottom wall 25 greatly increases.

For convenience of tracheae 71 and air port 16 connection and/or facilitate the connection of 70 air outlet of tracheae 71 and the first blower, can Connector 713 is set at the air outlet of air port 16 and/or the first blower 70.The shape of the first end of connector 713 and air port 16 and/or 70 air outlet of the first blower shape match (for example, can be rectangle), and with air port 16 and/or the first blower 70 Air outlet airtightness connection；The shape of the second end of connector 713 and the shape of tracheae 71 match (for example, can be circle), And it is connect with 71 air-tightness of tracheae.The middle section of connector 713 is in gradual change shape, connects the first end and second of connector 713 End.

In other embodiments, the first blower 70 can be horizontally disposed with, corresponding, and the shaft of impeller is vertically arranged.It is corresponding, The air inlet of first blower 70 is connected towards top, and with the air channel of First Heat Exchanger 60；The air outlet of first blower 70 It can be towards second sidewall 234 or third side wall 236.

After the unlatching of the first blower 70, outdoor air may continue from opening 13 and flow to gas chamber 30, then be flowed by gas chamber 30 To the air channel of First Heat Exchanger 60.Air in air channel can be cooled by the refrigerant in First Heat Exchanger 60, be formed cold Air.Cold air can pass sequentially through the first blower 70, air port 16 is transported to kitchen after the air channel for leaving First Heat Exchanger 60 In room.

Since First Heat Exchanger 60 is using outdoor air inlet, to guarantee certain pressure head and air supplying distance, the first blower 70 can Using centrifugal blower.

Connector 170 can be set between First Heat Exchanger 60 and the first blower 70.Connector 170 can be in shell shape.Even The first end of fitting 170 is arranged around First Heat Exchanger 60, and the second end of connector 170 is set around the air inlet of the first blower 70 It sets, so that can be completely into the first blower 70 from the air that 60 air channel of First Heat Exchanger leaves.

Since the size of First Heat Exchanger 60 is greater than the size of 70 air inlet of the first blower, the ruler of 170 first end of connector The very little size greater than 170 second end of connector.From the first end of connector 170 to second end, connector 170, which has, gradually to narrow Trend.

Certainly, connector 170 as described above can not also be set between First Heat Exchanger 60 and the first blower 70, but Using isolation structure (for example, partition) by gaseous environment locating for First Heat Exchanger 60, the first blower 70 and the second heat exchanger 80, Gaseous environment locating for second blower 90 is spaced apart, and guarantees that hot and cold air will not be mixed.

Catch tray 40 can be set in the lower section of First Heat Exchanger 60.Air in air channel is in by First Heat Exchanger 60 During refrigerant cools, it is possible to form condensed water condenses in the surface of First Heat Exchanger 60.Setting is in the first heat exchange The catch tray 40 of 60 lower section of device can collect the condensed water well.Catch tray 40 can open up drainage hole 18.Under catch tray 40 Drain pipe 19 can be set.The first end of drain pipe 19 is connected with the catch tray 40 at drainage hole 18, the second end of drain pipe 19 Outdoor is protruded outwardly to by the opening 13 of side wall 232.The height of drain pipe 19 be lower than or not higher than catch tray 40 lower surface, Height at 19 first end of drain pipe is integrally greater than the height at 19 second end of drain pipe, the condensed water being collected in catch tray 40 It can be automatically drained out by drainage hole 18, drain pipe 19 to outdoor.Air inlet is provided with the side on the lower side of cabinet, and drip tray has certain Mounting height.

The temperature of condensed water is lower than the temperature for entering the air of gas chamber 30 from opening 13 in drain pipe 19.Opening 13 and gas chamber Air at 30 can carry out heat exchange with the condensed water in drain pipe 19, and be cooled down, this is conducive to the refrigeration effect of raising system Rate.It can be by increasing the means such as the number of drain pipe 19 arranged side by side and/or the caliber of the single drain pipe 19 of increase, Lai Tigao The contact area of drain pipe 19 and air, and then further improve the refrigerating efficiency of system.

Second heat exchanger 80 and the second blower 90 may be provided at second side of gas chamber 30, and along the length of second sidewall 234 Direction arrangement.The channel that the inside of second heat exchanger 80 may be provided with for refrigerant circulation.The side in channel be formed with for The air channel of air circulation.The refrigerant in air, channel in air channel can be isolated by the wall in channel.Air in air channel Heat exchange can be carried out by the refrigerant in the wall and channel in 80 channel of the second heat exchanger.Air channel at second heat exchanger 80 can be with Gas chamber 30 is connected, thus air can the free flow between the air channel at gas chamber 30 and the second heat exchanger 80.In refrigeration mould Under formula, the second heat exchanger 80 can be used as condenser working.

Second heat exchanger 80 can be multi-channel heat exchanger.For example, can be copper pipe fin type heat exchanger, it is also possible to have There is the micro-channel heat exchanger of flat tube and header.The use of micro-channel heat exchanger advantageously reduces the weight of air-conditioning, reduces air-conditioning Size.Wherein, flat tube is usually internal is equipped with multiple channels for refrigerant flowing.Adjacent channel is isolated from each other.Multiple channels It forms a line, the width of joint effect flat tube.Flat tube be integrally in it is flat, length is greater than width, and width is greater than its thickness again. The length direction of flat tube is the refrigerant flow direction determined by the channel in flat tube.The length direction of flat tube can be directly Line style or broken line type or flexure type etc..Flat tube mentioned here is not limited to this type, is also possible to other forms.Than Such as, adjacent channel can be not fully insulated.For another example, all channels can line up two column, as long as its width is still greater than thickness ?.

Second heat exchanger 80 can be substantially plate-like, has length direction, width direction and thickness direction.Second heat exchanger 80 Size T2 in a thickness direction is less than the second size L2 of heat exchanger 80 in the longitudinal direction, size in the direction of the width W2.Extending direction for the air channel of air circulation is substantially consistent with the thickness direction of the second heat exchanger 80.That is, air is substantially Thickness direction along the second heat exchanger 80 passes through the second heat exchanger 80.

Second blower 90 is for providing the power that air is flowed from gas chamber 30 to the second heat exchanger 80.Second blower 90 may include Spiral case 92, impeller and air inlet may be provided at the center of spiral case 92.The shaft of air channel wound impeller inside spiral case 92.

Second blower 90 can be vertically arranged.Corresponding, the shaft of impeller is horizontally disposed.The air inlet of second blower 90 towards The air outlet of second heat exchanger 80, the second blower 90 can be towards the first side wall 232.

Certainly, the second blower 90 can also be horizontally disposed with, corresponding, and the shaft of impeller is vertically arranged.Second blower 90 into Air port can be towards top, and the air outlet of the second blower 90 is towards the first side wall 232 or the 4th side wall 238.

After the unlatching of the second blower 90, outdoor air may continue from opening 13 and flow to gas chamber 30, then be flowed by gas chamber 30 To the air channel of the second heat exchanger 80.Air in air channel can form heat by the refrigerant heat temperature raising in the second heat exchanger 80 Air.Hot-air can pass sequentially through the second blower 90, opening 15 is discharged to room after the air channel for leaving the second heat exchanger 80 Outside.

Since the second heat exchanger 80 is using outdoor air inlet, to guarantee certain pressure head and air supplying distance, the second blower 90 can Using centrifugal blower.

Compared with bedroom and parlor, the general oil smoke in kitchen is heavier, environment is more severe.If First Heat Exchanger in air-conditioning and/ Or second heat exchanger by the way of interior circulation, the surface of First Heat Exchanger and/or the second heat exchanger will be attached after longtime running A large amount of oil smoke, and then will lead to First Heat Exchanger and/or the second heat exchanger heat transfer and deteriorate, operation of air conditioner efficiency reduces, makes It is reduced with the service life.The embodiment of the present application air-conditioning use outer circulation mode, First Heat Exchanger 60, the second heat exchanger 80 air inlet adopt With outdoor fresh air, drawbacks described above can effectively avoid.

Connector 190 can be set between the second heat exchanger 80 and the second blower 90.Connector 190 can be in shell shape.Even The first end of fitting 190 is arranged around the second heat exchanger 80, and the second end of connector 190 is set around the air inlet of the second blower 90 It sets, so that can be completely into the second blower 90 from the air that 80 air channel of the second heat exchanger leaves.

Since the size of the second heat exchanger 80 is greater than the size of 90 air inlet of the second blower, the ruler of 190 first end of connector The very little size greater than 190 second end of connector.From the first end of connector 190 to second end, connector 190, which has, gradually to narrow Trend.

Certainly, connector 190 as described above can not also be set between the second heat exchanger 80 and the second blower 90, but Using isolation structure (for example, partition) by gaseous environment locating for the second heat exchanger 80, the second blower 90 and First Heat Exchanger 60, Gaseous environment locating for first blower 70 is spaced apart, and guarantees that hot and cold air will not be mixed.

Compressor 50, restricting element 11 can pass through channel inside connecting tube T1, T2, T3, T4 and First Heat Exchanger 60, Channel inside two heat exchangers 80 is connected, and forms the circulating path of refrigerant.For example, the first end of First Heat Exchanger 60 can pass through company Adapter tube T1 is connected with the first end of compressor 50, and the second end of compressor 50 can pass through the of connecting tube T2 and the second heat exchanger 80 One end is connected, and the second end of the second heat exchanger 80 can be connected by connecting tube T3 with the first end of restricting element 11, restricting element 11 second end can be connected by connecting tube T4 with the second end of First Heat Exchanger 60.

In cooling mode, refrigerant is sent in the channel inside the second heat exchanger 80 and cold after being compressed by compressor 50 Solidifying cooling.The second heat exchanger is after 80s sequentially to flow to restricting element 11, in First Heat Exchanger 60 being detached from for refrigerant after being cooled down The channel in portion.In the refrigerant in First Heat Exchanger 60 heat exchange, the air quilt can be carried out with the air at First Heat Exchanger 60 It cools, the refrigerant is heated up.Then, the refrigerant being warmed may return in compressor 50.So far, one is constituted Refrigerant circulation.

The shorter horizontal compressor of height can be used in compressor 50.The use of horizontal compressor advantageously reduces compressor 50, the height of shell 20 etc..Restricting element 11 can be the structures such as capillary or throttle valve (for example, heating power expansion valve).

In Fig. 1 into embodiment air-conditioning 100 shown in fig. 6, First Heat Exchanger 60, the first blower 70 and gas chamber 30 are along second The length direction of side wall 234 arranges, and First Heat Exchanger 60 is arranged between the first blower 70 and gas chamber 30, First Heat Exchanger 60 Thickness direction is substantially consistent with the first blower 70, the line direction of gas chamber 30, also consistent with the length direction of second sidewall 234. Second heat exchanger 80, the second blower 90 and gas chamber 30 are arranged along the length direction of the first side wall 232, and the setting of the second heat exchanger 80 exists Between second blower 90 and gas chamber 30, line side of the thickness direction of the second heat exchanger 80 substantially with the second blower 90, gas chamber 30 It is also consistent with the length direction of the first side wall 232 to consistent.First blower 70 and the second blower 90 are vertically arranged.

In other embodiments, different layout type can be used.For example, the first blower 70 may be provided at First Heat Exchanger Between 60 and gas chamber 30, the second blower 90 be may be provided between the second heat exchanger 80 and gas chamber 30.First blower 70 and/or second Blower 90 can be horizontally disposed with.

In the embodiment air-conditioning 200 shown in Fig. 7 to Figure 11, First Heat Exchanger 60, the first blower 70 and gas chamber 30 are along The length direction of two side walls 234 arranges, and First Heat Exchanger 60 is arranged between the first blower 70 and gas chamber 30, First Heat Exchanger 60 Thickness direction it is substantially consistent with the first blower 70, the line direction of gas chamber 30, also with the length direction one of second sidewall 234 It causes.First blower 70 is vertically arranged.

Second heat exchanger 80, the second blower 90 and gas chamber 30 are arranged along the length direction of the first side wall 232, the second blower 90 Be arranged between the second heat exchanger 80 and gas chamber 30, the thickness direction of the second heat exchanger 80 substantially with the second blower 90, gas chamber 30 Line direction it is consistent, it is also consistent with the length direction of the first side wall 232.Second blower 90 is horizontally disposed.Second opening 15 can Directly it is connected with the second heat exchanger 80 by pipeline.

Gas chamber 30 may include first area 30m and second area 30n.First area 30m is connected with second area 30n, The height of second area 30n is less than first area m, and the second blower 90 can be generally positioned at the top of second area 30n.Second wind The sum of the size of machine 90 and second area 30n in the height direction can be substantially the same as or slightly less than first area 30m in height side Upward size, this makes the upper surface of the second blower 90 can substantially concordant or slightly below first area m top.First heat exchange Device 60 and/or the setting of the first blower 70 are connected at the 30m of first area, and with the gas chamber 30 at the 30m of first area.Firstth area The height of domain 30m is higher, so that the gas field at First Heat Exchanger 60, the first blower 70 is not influenced by second area 30n, it is entire to be System can still provide enough cold wind into room.

Gas chamber 30 can be surrounded by a part of 20 side wall 23 of shell, a part of bottom wall 25 and plate shell 32 etc..Plate shell 32 May include the starting stave 321 upwardly extended from bottom wall 25, the first transverse slat 323 being laterally extended from the top of starting stave 321, It the second riser 325 for being upwardly extended from an end of the first transverse slat 323 and is laterally extended from the top of the second riser 325 Second transverse slat 327.Starting stave 321 and the first transverse slat 323 are considered as a part of second area 30n.Second riser 325 with Second transverse slat 327 is considered as a part of first area 30m.

Second blower 90 may be provided on the first transverse slat 323.The air inlet 90a of second blower 90 downward, can pass through The notch being provided on the first transverse slat 323 is connected with second area 30n.The heat exchange of the air outlet 90b of second blower 90 and second The air channel of device 80 is connected.

In air-conditioning 200, only the top of gas chamber 30 is arranged in the second blower 90.It is readily appreciated that, it can also be only by the first blower 70 are arranged in the top of gas chamber 30；Or the first blower 70 and the second blower 90 are arranged in the top of gas chamber 30 simultaneously, such as scheme Embodiment air-conditioning 300 shown in 12.

In air-conditioning 300, fit structure, the second blower 90 between the first blower 70 and gas chamber 30 and between gas chamber 30 Fit structure can and embodiment air-conditioning 200 in the second blower 90 it is identical as the fit structure between gas chamber 30.

Air-conditioning 400 shown in Figure 13 to Figure 16 is the change to embodiment air-conditioning 100,200.Except the portion of following special instruction Exceptionally, the structure of other parts can be same or like with previous embodiments, and which is not described herein again.

In air-conditioning 400, the second blower 90 is arranged in gas chamber 30, and is fixed on the bottom of gas chamber 30.Second blower 90 Air inlet upward, is connected with gas chamber 30.The air outlet 90b of second blower 90 is towards the first side wall 232.Second heat exchanger 80 are arranged outside gas chamber 30, the air intake surface 803 of the second heat exchanger 80 towards the second blower 90 air outlet 90b, but by gas chamber 30 Wall separated.

Connector 190 between second heat exchanger 80 and the second blower 90 is set, across the wall of gas chamber 30, connection The air intake surface 803 of the air outlet 90b of second blower 90 and the second heat exchanger 80.The outlet air surface 805 of second heat exchanger 80 substantially with The first side wall 232 is parallel, and neighbouring second opening 15.

The settable connector 809 between the outlet air surface 805 of the second heat exchanger 80 and the second opening 15, to realize that second changes Air tight communication between the outlet air surface 805 of hot device 80 and the second opening 15.The structure of connector 809 can with connector 190, connect The structure of part 170 is similar.

The above is only the preferred embodiment of the application, not does limitation in any form to the application, though Right the application has been disclosed in a preferred embodiment above, however is not limited to the application, any technology people for being familiar with this profession Member, in the range of not departing from technical scheme, when the technology contents using the disclosure above are modified or are repaired Decorations are the equivalent embodiment of equivalent variations, but all contents without departing from technical scheme, the technology according to the application are real Matter any simple modification, equivalent change and modification to the above embodiments, still fall within the range of technical scheme It is interior.

Claims (10)

1. a kind of air-conditioning, which is characterized in that the air-conditioning includes shell (20) and is located at the intracorporal gas chamber of the shell (30), the One heat exchanger (60), the first blower (70), the second heat exchanger (80), the second blower (90), compressor (50) and restricting element (11)；

The First Heat Exchanger, the second heat exchanger inside be provided with channel, the neighbouring channel is formed with air channel, described The channel of First Heat Exchanger, the compressor, second heat exchanger channel be connected with the restricting element, described first The air channel of heat exchanger is connected with the air inlet of the first blower (70), the gas chamber, the air channel of second heat exchanger with Air inlet, the gas chamber of second blower (90) are connected；

The shell (20) includes the bottom wall (25) that side wall (23) is connected with the side wall, and the side wall offers the first opening (13) with the second opening (15), first opening is connected with the gas chamber, and described second is open and second blower or the Two heat exchangers are connected；

The First Heat Exchanger, the first blower, the second heat exchanger, the second blower and compressor are installed in the upper of the bottom wall Side, the bottom wall offer through-hole, and the air outlet of first blower is connected with the through-hole.

2. air-conditioning as described in claim 1, which is characterized in that the First Heat Exchanger is arranged in the gas chamber and described first Between blower, the air inlet of first blower is towards the First Heat Exchanger；

The air outlet of first blower is connected downwards and with the through-hole；Alternatively, the air outlet face of first blower It is connected to the side wall (23), and by tracheae (71) with the through-hole.

3. air-conditioning as described in claim 1, which is characterized in that the side wall includes end to end the first side wall (232), Two side walls (234), third side wall (236) and the 4th side wall (238)；

The first opening and the second opening are formed in the first side wall；

The gas chamber (30), the second heat exchanger (80), the second blower (90) are arranged along the length direction of the first side wall.

4. air-conditioning as claimed in claim 3, which is characterized in that the gas chamber, First Heat Exchanger and the first blower are along described The length direction of two side walls (234) arranges.

5. air-conditioning as claimed in claim 4, which is characterized in that the First Heat Exchanger is arranged in the gas chamber and described first Between blower；Alternatively,

First blower is arranged between the gas chamber and the First Heat Exchanger.

6. air-conditioning as claimed in claim 3, which is characterized in that the compressor is located at the third side wall and the 4th side wall Junction.

7. air-conditioning as described in claim 1, which is characterized in that second heat exchanger is arranged in the gas chamber and described second Between blower, second opening is connected with second blower；Alternatively,

Second blower is arranged between the gas chamber and second heat exchanger, second opening and second heat exchange Device is connected.

8. air-conditioning as described in claim 1, which is characterized in that the air-conditioning further includes catch tray (40) and drain pipe (19), The catch tray is located at the lower section in the shell and being located at the First Heat Exchanger, and the catch tray offers drainage hole (18)；

The drain pipe has first end and second end, the first end of the drain pipe and the catch tray phase at the drainage hole Even, the second end of the drain pipe is extend out to outside the shell by first opening；

The height of the drain pipe is not higher than the height of the drainage hole.

9. air-conditioning as described in claim 1, which is characterized in that first blower and/or second blower are centrifugation wind Machine, the compressor are horizontal compressor, and the restricting element is capillary or throttle valve.

10. air-conditioning as described in claim 1, which is characterized in that first blower is arranged in the gas chamber and described first Between heat exchanger, the air outlet of first blower is connected by the First Heat Exchanger with the through-hole.