CN204611958U - A kind of mixed flow air-conditioning - Google Patents

Abstract

The utility model relates to a kind of mixed flow air-conditioning, comprises the housing with air inlet and air outlet, the blower fan be arranged in housing, evaporimeter and through path.Blower fan is used for impelling air to flow from air inlet towards air outlet.Evaporimeter is arranged on the downstream of blower fan and allows air to carry out the mixed flow space mixed with being formed between air outlet, evaporimeter have allow air by and carry out the heat exchange gap of heat exchange with it.Through path is communicated with the upstream of evaporimeter and mixed flow space, and the air intake end that through path is communicated with vaporizer upstream is provided with the adjustable controlled air door of aperture, with controllably open and/or closed through path.Mixed flow air-conditioning of the present utility model makes air all flow into mixed flow space via the heat exchange gap of evaporimeter by controlled air door, also air portion can be made to divide through heat exchange gap, partly flow into mixed flow space through put-through channel, and return to environment space via air outlet, to meet fast-refrigerating, heat or to send the multiple demands such as soft wind.

Description

A kind of mixed flow air-conditioning

Technical field

The utility model relates to air-conditioning technique, particularly relates to a kind of mixed flow air-conditioning.

Background technology

On existing market, the air channel structure of common air-conditioning is generally all made up of air inlet, centrifugal blower, evaporimeter and air outlet.Room air enters air-conditioning inside from air inlet, and after centrifugal blower CENTRIFUGAL ACCELERATING, air carries out heat exchange through evaporator, and the air after heat exchange blows to indoor by air outlet again.But the cool breeze temperature after air outlet blowout is too low, soft not, blows to user and can cause with it feeling uncomfortable.

In order to solve the problems of the technologies described above, occurred a kind of drainage air-conditioning in prior art, it introduces a little room air at air-conditioner air outlet place, and it is mixed with the cool air after evaporator heat exchange, thus makes the wind of blowout softer.But this drainage air-conditioning needs to carry out modernization overlay to the air channel structure of air-conditioning and air outlet, add the cost of air-conditioning, and air-conditioning volume is excessive.

Utility model content

An object of the present utility model is intended to overcome now at least one defect air-conditioned, a kind of mixed flow air-conditioning is provided, its surrounding air shunting that can as required air inlet be introduced, component environment air is optionally made directly to enter the downstream of evaporimeter without evaporator heat exchange, and mix with the air after evaporator heat exchange, to meet customer need from multiple angle, improve comfort of air conditioner.

A further object of the present utility model will control the air quantity by through path, has more selection to make the leaving air temp of air outlet.

Another further object of the present utility model to make the air directly entering evaporimeter downstream without evaporator heat exchange mixedly more even with the air after evaporator heat exchange.

The utility model provides a kind of mixed flow air-conditioning, comprising:

Housing, has for introducing the air inlet of air and the air outlet for air being sent back to environment space from environment space;

Blower fan, is arranged in described housing, and is configured to impel air to flow from described air inlet towards described air outlet;

Evaporimeter, is arranged on the downstream of described blower fan, and allows air to carry out the mixed flow space mixed with being formed between described air outlet, described evaporimeter have allow air by and carry out the heat exchange gap of heat exchange with it; With

Through path, is configured to be communicated with the upstream of described evaporimeter and described mixed flow space, to allow the air of described vaporizer upstream directly to flow into described mixed flow space by described through path, wherein

The air intake end that described through path is communicated with described vaporizer upstream is provided with the adjustable controlled air door of aperture, controllably to open and/or to close described through path.

Alternatively, described evaporimeter is arranged in described housing obliquely, leaves gap between at least one end of described evaporimeter and described housing, to form described through path by described gap between the upstream of described evaporimeter and described mixed flow space.

Alternatively, the contiguous described gap of described controlled air door is arranged, controllably to open and/or to close described gap.

Alternatively, described mixed flow air-conditioning also comprises:

Wind deflector, its first end is connected to the evaporimeter end in contiguous described gap, and the second end extends towards described blower fan, to form described through path between described wind deflector and described housing.

Alternatively, described controlled air door is arranged on the end of the second end that described wind deflector extends towards described blower fan, controllably to open and/or to close the space between described second end and described housing.

Alternatively, described upper end of evaporator and described inner walls interval are arranged, to form described gap between described evaporimeter upper end and described inner walls, and

The end of described wind deflector first end and the end abutment of described evaporimeter upper end.

Alternatively, described wind deflector is obliquely installed relative to described housing, to make described through path along air-flow direction convergent.

Alternatively, the aperture adjustable range of described controlled air door is 0 ~ 100%.

Alternatively, described evaporimeter comprise for the heat transferring medium that circulates conduit and be located in described supravasal multiple heat exchange fin, described multiple heat exchange fin intervals are arranged, to form the heat exchange gap of described evaporimeter between described multiple heat exchange fin.

Alternatively, described mixed flow air-conditioning is vertical air conditioner, and described air inlet is opened in lower front side and/or the both sides of described housing,

Described air outlet is opened on front side of the top of described housing.

Air owing to arranging evaporimeter and the permission vaporizer upstream with heat exchange gap in the downstream of blower fan in mixed flow air-conditioning of the present utility model directly passes through and flows into the through path in mixed flow space, the air intake end of through path is provided with controlled air door, with controllably open and/or closed through path.Therefore, when needs export soft wind, this mixed flow air-conditioning can make controlled air door controllably open, to make the downstream flowing into evaporimeter under blower fan drives after the heat exchange gap heat exchange of the air portion lease making evaporator of air-conditioner air outlet flowing itself, another part flows directly into the downstream of evaporimeter through through path.Air after the heat exchange in heat exchange gap and not sent from air outlet by after the mixing of the air of heat exchange by through path, thus relax the leaving air temp of air-conditioner air outlet, to improve the comfort level of air-conditioning.When not needing to export soft wind, this mixed flow air-conditioning can make controlled air door controllably close, to make all to change temperature through evaporator heat exchange, to export cold wind or hot blast towards the air of air-conditioner air outlet flowing under blower fan drives.

Further, because in the utility model mixed flow air-conditioning, the aperture of controlled air door is adjustable, therefore, it according to user's request, can reasonably select the air quantity through through path, thus makes the leaving air temp of air outlet meet the comfort requirement of client.

Further, allow the through path that directly passes through of air owing to only arranging in the utility model mixed flow air-conditioning to have in housing and arrange controlled air door to realize the object optionally relaxing air-conditioner air outlet wind pushing temperature, improve comfort of air conditioner at the air intake end of through path, structure is simple, and very large change is not done to air-conditioning overall structure, effectively reduce the cost of air-conditioning compared to prior art, reduce the volume of air-conditioning.

Further, because the evaporimeter of the utility model mixed flow air-conditioning allows air to carry out the mixed flow space mixed with being formed between air-conditioner air outlet, it can increase the air after the heat exchange of heat exchange gap and the space of not undertaken by the air of heat exchange mixing by through path, thus make air mixedly more even, further increase the comfort level of air-conditioning.

According to hereafter by reference to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present utility model more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present utility model with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 is the schematic diagram of the mixed flow air-conditioning according to the utility model embodiment;

Fig. 2 is the schematic structure exploded view of the mixed flow air-conditioning according to the utility model embodiment;

Fig. 3 is the schematic cross sectional views being in closed condition according to the gate-controlled switch of the mixed flow air-conditioning of the utility model embodiment;

Fig. 4 is the schematic cross sectional views being in open mode according to the gate-controlled switch of the mixed flow air-conditioning of the utility model embodiment;

Fig. 5 is the schematic structure exploded view of the mixed flow air-conditioning according to another embodiment of the utility model;

Fig. 6 is the schematic cross sectional views being in closed condition according to the gate-controlled switch of the mixed flow air-conditioning of another embodiment of the utility model;

Fig. 7 is the schematic cross sectional views being in open mode according to the gate-controlled switch of the mixed flow air-conditioning of another embodiment of the utility model.

Detailed description of the invention

Fig. 1 is the schematic diagram of the mixed flow air-conditioning according to the utility model embodiment, and it comprises housing 10.Housing 10 has for introducing the air inlet 11 of air and the air outlet 12 for air being returned to environment space from environment space.Particularly, housing 10 can comprise separate front side board 10a, back side panel 10b, biside plate 10c and 10d, upper plate 10e and lower shoe 10f, front side board 10a, back side panel 10b, biside plate 10c and 10d, becomes to have the housing 10 of inner space between upper plate 10e and lower shoe 10f by the fixture assembly and connection such as screw.Certainly, it will be understood by those skilled in the art that, back side panel 10b, biside plate 10c and 10d, the upper plate 10e and lower shoe 10f of housing 10 also can be one-body molded, form the semi-closed casings with cavity, front side board 10a is fixedly connected into housing 10 by the fixtures such as screw and semi-closed casings.

In embodiments more of the present utility model, mixed flow air-conditioning 100 can be vertical air conditioner, and its air inlet 11 can be opened in lower front side and/or the both sides of housing 10, and air outlet 12 can be opened on front side of the top of housing 10.Particularly, air inlet 11 can be opened in the bottom of front side board 10a and/or the bottom of biside plate 10c and 10d.Air outlet 12 can be opened in the top of front side board 10a, so that the circulation of air.Air outlet 12 place can be provided with rotating movable grid, is convenient to regulate air outlet angle, meets user's needs.

Fig. 2 is the schematic structure exploded view of the mixed flow air-conditioning 100 according to the utility model embodiment, and Fig. 3 is the schematic cross sectional views of the mixed flow air-conditioning 100 according to the utility model embodiment.Composition graphs 2 and Fig. 3, mixed flow air-conditioning 100 also comprises the blower fan 20 be arranged in housing 10, the evaporimeter 50 being arranged on blower fan 20 downstream and through path 30.Blower fan 20 is configured to impel air to flow (shown in Fig. 3 cathetus arrow, direction is the flow direction of air) from air inlet 11 towards air outlet 12.Be formed between evaporimeter 50 with air outlet 12 and allow air to carry out the mixed flow space 40 mixed, namely mixed flow space 40 is formed in the downstream of evaporimeter 50, and evaporimeter 50 have allow air directly by and carry out the heat exchange gap of heat exchange with it.Through path 30 is arranged in housing 10, and be communicated with upstream and the mixed flow space 40 of evaporimeter 50, directly mixed flow space 40 is flowed into by through path 30 to allow the air of evaporimeter 50 upstream, so that the air flowed towards air outlet 12 under blower fan 20 acts on flows into mixed flow space 40 via the heat exchange gap of evaporimeter 50 and through path 30, and returns to environment space via air outlet 12.The air intake end that through path 30 is communicated with evaporimeter 50 upstream is provided with the adjustable controlled air door 70 of aperture, with controllably open and/or closed through path 30.

The mixed flow air-conditioning 100 that the utility model embodiment relates to arranges evaporimeter 50 and permission evaporimeter 50 upstream with heat exchange gap air in the downstream of its blower fan 20 directly passes through and flows into the through path 30 in mixed flow space 40, the air intake end of through path 30 is provided with controlled air door 70, with controllably open and/or closed through path 30.Therefore, when needs export soft wind, mixed flow air-conditioning 100 can make controlled air door 70 controllably open, to make the downstream flowing into evaporimeter 50 under blower fan 20 drives after the heat exchange gap heat exchange of the air portion lease making evaporator 50 of air-conditioner air outlet 12 flowing itself, another part flows directly into the downstream of evaporimeter 50 through through path 30.Air after the heat exchange in heat exchange gap and not sent from air outlet 12 by after the mixing of the air of heat exchange by through path 30, thus relax the leaving air temp of air-conditioner air outlet 12, to improve the comfort level of air-conditioning.When not needing to export soft wind, mixed flow air-conditioning 100 can make controlled air door 70 controllably close, and all changes temperature through evaporator 50 heat exchange, to export cold wind or hot blast to make the air flowed towards air-conditioner air outlet 12 under blower fan 20 drives.

Further, because the aperture of the controlled air door 70 of the utility model mixed flow air-conditioning 100 is adjustable, therefore, it according to user's request, can reasonably select the air quantity through through path 30, thus makes the leaving air temp of air outlet 12 meet the comfort requirement of client.

Further, allow the through path 30 that directly passes through of air owing to only arranging in the utility model mixed flow air-conditioning 100 to have in housing 10 and the object that controlled air door 70 realizes optionally relaxing air-conditioner air outlet wind pushing temperature, improves comfort of air conditioner is set at the air intake end of through path 30, structure is simple, and very large change is not done to air-conditioning overall structure, effectively reduce the cost of air-conditioning compared to prior art, reduce the volume of air-conditioning.

Further, because the evaporimeter 50 of the utility model mixed flow air-conditioning 100 allows air to carry out the mixed flow space 40 mixed with being formed between air-conditioner air outlet 12, namely mixed flow space 40 is formed in the downstream area of evaporimeter 50, well-mixed space is carried out with through through path 30 without the air of heat exchange to provide the air through evaporator 50 heat exchange gap, thus make air mixedly more even, further increase the comfort level of air-conditioning.

In embodiments more of the present utility model, in embodiments more of the present utility model, evaporimeter 50 can comprise for the heat transferring medium that circulates conduit and be multiplely located in supravasal heat exchange fin.Further, multiple heat exchange fin space set, to form the heat exchange gap of evaporimeter 50 between multiple heat exchange fin.Particularly, conduit can comprise multiple evaporimeter straight tube be arranged side by side, and the adjacent end portion of two adjacent evaporimeter straight tubes is connected by U-tube.Multiple heat exchange fin axially can be arranged along evaporimeter straight tube.In evaporimeter straight tube, circulation has heat transferring medium, such as refrigerant.Heat transferring medium carries out heat exchange with the air through evaporator 50 heat exchange gap by the heat exchange fin on evaporimeter straight tube, thus changes the temperature of air.

In embodiments more of the present utility model, as shown in Figures 2 and 3, evaporimeter 50 is arranged in housing 10 obliquely, and on the one hand, it can increase the contact area between air and evaporimeter 50 driven by blower fan 20, improves heat exchange efficiency.On the other hand, it can arrange the relatively large evaporimeter of volume in limited space, thus reduces the volume of mixed flow air-conditioning 100 to a certain extent.Particularly, evaporimeter 50 is roughly tabular, to increase the contact area of air and evaporimeter 50 further, improves heat exchange efficiency further.

Further, between at least one end of evaporimeter 50 and housing 10, leave gap, to form through path 30 by this gap between the upstream of evaporimeter 50 and mixed flow space 40.Controlled air door 70 this gap contiguous is arranged, with controllably this gap of open and/or closed.That is, in the utility model embodiment, the air intake end of through path 30 is the gap formed between at least one end of evaporimeter 50 and housing 10.

Further, in the utility model embodiment, upper end and the housing 10 inwall interval of evaporimeter 50 are arranged, to form gap between evaporimeter 50 upper end and housing 10 inwall.That is the gap allowing the air of evaporimeter 50 upstream directly to pass through is left between evaporimeter 50 upper end and housing 10, to form through path 30 in the upper end of evaporimeter 50.The air intake end of through path 30 is the gap formed between the upper end of evaporimeter 50 and housing 10, and controlled air door 70 this gap contiguous is arranged.Particularly, the stiff end of controlled air door 70 can be fixed on the inwall of housing 10, and its free end extends to this gap.When through path 30 closed by controlled air door 70, its free end contacts with the upper end end part seal of evaporimeter 50, with blocks air by through path 30.It will be understood by those skilled in the art that, in other embodiment of the utility model, the lower end of evaporimeter 50, left end or right-hand member also can and housing 10 between leave the gap allowing the air of evaporimeter 50 upstream directly to pass through, with in the lower end of evaporimeter 50, left end or right-hand member form through path 30.Certainly, through path 30 can also be that other are communicated with the through path in evaporimeter 50 upstream and mixed flow space 40, such as, be opened in the bypass of gas flow outside housing 10.

The controlled air door 70 of the mixed flow air-conditioning 100 shown in Fig. 3 is in closed condition.Fig. 4 is the schematic cross sectional views being in open mode according to the controlled air door 70 of the mixed flow air-conditioning 100 of the utility model embodiment.In the utility model embodiment, the aperture adjustable range of controlled air door 70 can be 0 ~ 100%.That is, controlled air door 70 can controllably close or open, its opening degree is controlled to be made as 20%, 40%, 60%, 80% or 100% and all to open, to need control flow check through the air quantity of through path 30 according to the different comfort level of user, thus mixed flow space 40 in, obtain the mixing air of applicable temperature.Further, controlled air door 70 can be the automatically controlled air door be electrically connected with the master control set of mixed flow air-conditioning 100, with optionally open and/or closed through path 30 under the control of master control set.

Fig. 5 is the schematic structure exploded view of the mixed flow air-conditioning 100 according to another embodiment of the utility model, Fig. 6 and Fig. 7 is the schematic cross sectional views of the mixed flow air-conditioning 100 according to another embodiment of the utility model.In Fig. 6, controlled air door 70 is in the state of closedown, and in Fig. 7, controlled air door 70 is in the state opened.Composition graphs 5 to Fig. 7, in the utility model embodiment, mixed flow air-conditioning 100 also comprises wind deflector 60.The first end 61 of wind deflector 60 is connected to evaporimeter 50 end of adjacent gap, and the second end 62 extends towards blower fan 20, to form through path 30 between wind deflector 60 and housing 10.That is, the first end 61 of wind deflector 60 is connected to the end of the evaporimeter 50 forming gap with housing 10, second end 62 extends to the upstream of evaporimeter 50, and it is separated by a distance between the second end 62 and housing 10, to form the gap directly passed through for air between, thus in the region of evaporimeter 50 upstream, isolate the through path 30 be directly communicated with mixed flow space 40.Particularly, in the utility model embodiment, the first end 61 of wind deflector 60 and the end abutment of evaporimeter 50 upper end.The end of the first end 61 of wind deflector 60 is bending in mixed flow space 40 to be extended, thus can be directed through the air that through path 30 flows to mixed flow space 40, avoids air to be backflowed to evaporimeter 50 by mixed flow space 40.

Further, in the utility model embodiment, controlled air door 70 is arranged on the end of the second end 62 that wind deflector 60 extends towards blower fan 20, with the space controllably between open and/or closed second end 62 and housing 10.That is, the air intake end of through path 30 is the gap formed between the second end 62 of wind deflector 60 and housing 10, and controlled air door 70 this gap contiguous is arranged.Particularly, the stiff end of controlled air door 70 can be fixed on the end of wind deflector second end 62, and its free end extends to this gap.When through path 30 closed by controlled air door 70, its free end contacts with the inner wall sealing of housing 10, with blocks air by through path 30.It will be understood by those skilled in the art that the stiff end of controlled air door 70 also can be fixed on the inwall of housing 10, and its free end extends to this gap in other embodiment of the utility model.When through path 30 closed by controlled air door 70, its free end contacts with the end part seal of wind deflector second end 62, with blocks air by through path 30.

Further, as shown in Figure 6 and Figure 7, wind deflector 60 is obliquely installed relative to housing 10, to make through path 30 along air-flow direction convergent.That is, the opening of the air intake end of through path 30 is greater than the opening of its air outlet slit end.In other words, in the utility model embodiment, the air intake end of through path 30 is the gap between wind deflector second end 62 and housing 10, and the air outlet slit end of through path 30 is the gap between the end of evaporimeter 50 and housing 10.Gap between evaporimeter 50 end abutted with the first end 61 of wind deflector 60 and housing 10 is less than the gap between the second end 62 of wind deflector 60 and housing 10.Thus, the blast of through path 30 air outlet slit end can be increased, improve the air velocity by through path 30, mix with the air through evaporator 50 after promoting entering mixed flow space 40 by the air of through path 30 better.

Further, in embodiments more of the present utility model, as shown in Figures 2 to 7, blower fan 20 can be Scroll centrifugal blower, its air channel 23 is configured to along airflow blow direction flaring, and to increase the air-out area of blower fan 20, the wind that blower fan 20 is sent is uniformly across evaporimeter 50 and through path 30.Particularly, centrifugal blower inside has the air channel 23 for guiding air current flow, the outlet in air channel 23 is towards evaporimeter 50 and through path 30, and arrange continuously with evaporimeter 50 and through path 30, to make air-flow in air channel 23 farthest all by the region at evaporimeter 50 and through path 30 place.Particularly, Scroll centrifugal blower can comprise outside volute 21 and be positioned at the fan 22 of volute 21.Volute 21 inside defines the air channel 23 of centrifugal blower, and centrifugal blower can drive air to be entered in the air channel 23 of centrifugal blower by mixed flow air-conditioning 100 air inlet 11, and blowout after fan 22 accelerates.

When mixed flow air-conditioning 100 runs, the air of environment space (such as indoor) enters in housing 10 (direction shown in Fig. 3, Fig. 4, Fig. 6 and Fig. 7 cathetus arrow is the air-flow direction in mixed flow air-conditioning 100) via air inlet 11.Whole or the most of air entered in housing 10 enter blower fan 20, and the downstream that acceleration blows to blower fan 20 under the effect of blower fan 20.When environment space needs fast-refrigerating or heats, controlled air door 70 controllably closes through path 30, as shown in Fig. 3 or Fig. 6, the air blowed out from blower fan 20 all arrives the mixed flow space 40 being positioned at evaporimeter 50 downstream after being positioned at the heat exchange gap heat exchange of the evaporimeter 50 in blower fan 20 downstream, then sends from air outlet 12.Under this state, because whole air is all through heat exchange, therefore, the temperature that air outlet 12 blows out wind is lower or higher, to realize fast-refrigerating or to heat.When user needs to blow out more comfortable soft wind, through path 30 controllably opened by controlled air door 70.The mixed flow space 40 being positioned at evaporimeter 50 downstream is arrived after the air portion blowed out from blower fan 20 divides the heat exchange gap heat exchange of the evaporimeter 50 through being positioned at blower fan 20 downstream; Another part air blowed out from blower fan 20 directly enters mixed flow space 40 through through path 30, and fully mixes with the air after heat exchange in mixed flow space 40.Abundant mixed air blows out from air outlet 12, thus has relaxed the temperature that air outlet 12 sends wind.

It will be understood by those skilled in the art that in case of no particular description, alleged by the utility model " on ", D score, "left", "right", " front " and " afterwards " be all be benchmark with the normal operating condition of mixed flow air-conditioning 100.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present utility model is illustrate and described herein detailed, but, when not departing from the utility model spirit and scope, still can directly determine or derive other modification many or amendment of meeting the utility model principle according to content disclosed in the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or amendments.

Claims (10)

1. a mixed flow air-conditioning, comprising:

Housing, has for introducing the air inlet of air and the air outlet for air being sent back to environment space from environment space;

Blower fan, is arranged in described housing, and is configured to impel air to flow from described air inlet towards described air outlet;

Evaporimeter, is arranged on the downstream of described blower fan, and allows air to carry out the mixed flow space mixed with being formed between described air outlet, described evaporimeter have allow air by and carry out the heat exchange gap of heat exchange with it; With

Through path, is configured to be communicated with the upstream of described evaporimeter and described mixed flow space, to allow the air of described vaporizer upstream directly to flow into described mixed flow space by described through path, wherein

The air intake end that described through path is communicated with described vaporizer upstream is provided with the adjustable controlled air door of aperture, controllably to open and/or to close described through path.

2. mixed flow air-conditioning according to claim 1, is characterized in that,

Described evaporimeter is arranged in described housing obliquely, leaves gap between at least one end of described evaporimeter and described housing, to form described through path by described gap between the upstream of described evaporimeter and described mixed flow space.

3. mixed flow air-conditioning according to claim 2, is characterized in that,

The contiguous described gap of described controlled air door is arranged, controllably to open and/or to close described gap.

4. mixed flow air-conditioning according to claim 2, is characterized in that, also comprise:

Wind deflector, its first end is connected to the evaporimeter end in contiguous described gap, and the second end extends towards described blower fan, to form described through path between described wind deflector and described housing.

5. mixed flow air-conditioning according to claim 4, is characterized in that,

Described controlled air door is arranged on the end of the second end that described wind deflector extends towards described blower fan, controllably to open and/or to close the space between described second end and described housing.

6. mixed flow air-conditioning according to claim 4, is characterized in that,

Described upper end of evaporator and described inner walls interval are arranged, to form described gap between described evaporimeter upper end and described inner walls, and

The first end of described wind deflector and the end abutment of described evaporimeter upper end.

7. the mixed flow air-conditioning according to claim 4-6 any one, is characterized in that,

Described wind deflector is obliquely installed relative to described housing, to make described through path along air-flow direction convergent.

8. mixed flow air-conditioning according to claim 1, is characterized in that,

The aperture adjustable range of described controlled air door is 0 ~ 100%.

9. mixed flow air-conditioning according to claim 1, is characterized in that,

Described evaporimeter comprise for the heat transferring medium that circulates conduit and be located in described supravasal multiple heat exchange fin, described multiple heat exchange fin intervals are arranged, to form the heat exchange gap of described evaporimeter between described multiple heat exchange fin.

10. mixed flow air-conditioning according to claim 1, is characterized in that,

Described mixed flow air-conditioning is vertical air conditioner, and described air inlet is opened in lower front side and/or the both sides of described housing,

Described air outlet is opened on front side of the top of described housing.