CN105972793A - Air port structure and air conditioning system - Google Patents

Abstract

The invention discloses an air port structure and an air conditioning system, wherein the air port structure is used for an air conditioner side air outlet structure and comprises an air guide assembly, the air guide assembly comprises a first air guide plate for horizontal air supply and downward air supply, the first air guide plate is provided with an arc-shaped plate section, and the inner concave surface of the arc-shaped plate section is an air guide surface; and the arc-shaped plate section is bent along the air supply direction of the first air deflector. The air port structure disclosed by the invention can increase the included angle between the air supply angle of the first air deflector and the horizontal direction, namely, the air sweeping range of the whole air port structure can be increased, more hot air can be discharged downwards in the heating process, the heat concentration degree formed at the top of the room due to low hot air density can be effectively reduced, the indoor temperature lifting speed is accelerated, the indoor temperature uniformity is improved, and the heating performance is further improved; the refrigeration performance is also improved, and the air quantity loss is reduced.

Description

Tuyere structure and air conditioning system

Technical field

The present invention relates to air-conditioning technical field, more particularly, it relates to a kind of tuyere structure and air conditioning system.

Background technology

At present, air-conditioning has two kinds of side air-outs and two kinds of structures of lower air-out, air-conditioning side air-out structure predominantly sky Machine or air conditioning terminal in adjusting.As shown in Figure 1-2, the exit of air-conditioning side air-out structure 12 is provided with air port Structure 11, in order to air-out.Tuyere structure 11 mainly includes mounting assembly and wind guiding component, wherein, leads Wind assembly is installed on mounting assembly, and wind guiding component many employings shutter carries out horizontal blast and send downwards Wind.But, the BAIYE of shutter is straight plate, is limited to by louver structure, sweeps demeanour and encloses less, Generally sweep demeanour and enclose for 0-60 ° that (wind direction of shutter is minimum with the angle of horizontal direction 0 °, be 60 ° to the maximum), cause heating performance poor.

Enclosing less further, since sweep demeanour, cross-ventilation is more weak, causes refrigeration performance the most poor.

It addition, BAIYE is straight plate, wind loss is the biggest, particularly the wind direction of shutter with In the case of the angle of horizontal direction is the air-supply of 45 °.

In sum, how to design the tuyere structure of air conditioning system, enclose increasing the demeanour of sweeping of tuyere structure, Improve heating performance, be current those skilled in the art's problem demanding prompt solution.

Summary of the invention

It is an object of the invention to provide a kind of tuyere structure, enclose increasing the demeanour of sweeping of tuyere structure, improve Heating performance.It is a further object of the present invention to provide a kind of air conditioning system with above-mentioned tuyere structure.

To achieve these goals, the present invention provides following technical scheme:

A kind of tuyere structure, for air-conditioning side air-out structure, including wind guiding component, described wind guiding component bag Including for horizontal blast and the first wind deflector of air-supply downwards, described first wind deflector has arc section, The inner concave of described arc section is wind-guiding face；And described arc section is along the air-supply of described first wind deflector Direction bends.

Preferably, described first wind deflector has the first extreme position and the second extreme position；When described When one wind deflector is positioned at the first extreme position, the air supply direction of described first wind deflector and horizontal direction parallel； When described first wind deflector is positioned at described second extreme position, the air supply direction of described first wind deflector with The angle of horizontal direction is 90 °.

Preferably, described first wind deflector is arc.

Preferably, described first wind deflector is one.

Preferably, described wind guiding component also includes:

It is positioned at the wind-guiding side of described first wind deflector, and for the second wind deflector of left and right air-supply；

Drive the second driver part of described second wind deflector air-supply；

Wherein, described first wind deflector drives air-supply by the first driver part.

Preferably, the second wind deflector is crank, and described second driver part drives institute by crankshaft-and-connecting-rod State crank air-supply；Wherein, one end of described bent axle is connected with described second driver part, described bent axle The other end is connected with described connecting rod, and the axes intersect of the axis of described bent axle and described connecting rod；Described Two driver parts drive described crank rotation, and the pivot center of described bent axle is perpendicular to the axis of described bent axle And the axis of described connecting rod；Described first wind deflector is axially slidably located at by described connecting rod along it；Institute State crank and be articulated with described connecting rod.

Preferably, described first wind deflector includes: the first laminate being sequentially connected, cushion and the second layer Plate；Wherein, described cushion and described second laminate are respectively positioned on the leeward side of described first laminate；Described Connecting rod is between described first laminate and described cushion, and described first laminate has to be stretched for described crank The through hole gone out and rotate.

Preferably, the mounting assembly of described tuyere structure includes:

For the adapter sleeve being connected with described air-conditioning side air-out structure；

It is fixed on the outlet frame in described adapter sleeve；

Being fixed on the first wind outlet panel of the port of export of described outlet frame, described first wind outlet panel is provided with out Air port；

Can the second wind outlet panel of air outlet described in opening and closing；

Drive the 3rd driver part of air outlet described in described second wind outlet panel opening and closing；

Wherein, described wind guiding component is located at described outlet frame.

Preferably, the port of export laminating of the first wind outlet panel and described adapter sleeve, and described first outlet air surface Plate covers the port of export of described adapter sleeve.

Preferably, described mounting assembly also includes: when described second wind outlet panel opens described air outlet, The microswitch component opened can be touched by described second wind outlet panel；When described microswitch component is beaten After opening, described 3rd driver part stops driving.

Preferably, described first wind outlet panel is removably secured with described outlet frame and is connected, described air-out Frame is removably secured with adapter sleeve and is connected.

Preferably, described first wind outlet panel is removably secured with described outlet frame by clamping and is connected, Described outlet frame is threaded connection part and is removably secured with described adapter sleeve and is connected.

In the tuyere structure that the present invention provides, the first wind deflector for horizontal blast and is blown downwards, due to First wind deflector has arc section, and the inner concave of this arc section is wind-guiding face, and arc section is along The air supply direction bending of one wind deflector, the most relatively prior art middle straight-plate type BAIYE is compared, when the first wind deflector The angle of air supply direction and horizontal direction bigger time, it is also possible to ensures bigger space air feed discharge, very Obviously, it is possible to increase the wind direction of the first wind deflector and the angle of horizontal direction, i.e. can increase whole The demeanour of sweeping of tuyere structure is enclosed, then can be arranged downwards by more hot blast in heating operations, can effectively drop The low heat accumulation degree formed in indoor top owing to hot blast density is little, accelerates the lifting speed of indoor temperature Degree, improves the uniformity of indoor temperature, and then improves heating performance.

Meanwhile, the tuyere structure that the present invention provides, it is possible to increase is swept demeanour and enclosed, then can add when refrigeration Strong cross-ventilation intensity, can accelerate the reduction speed of indoor temperature, improves the uniform shape of indoor temperature, enters And improve refrigeration performance.

Meanwhile, in the tuyere structure that the present invention provides, owing to the first wind deflector has arc section, this arc The inner concave of shape plate section is wind-guiding face, and arc section is along the air supply direction bending of the first wind deflector, the most relatively Prior art middle straight-plate type BAIYE is compared, and the windage of the first wind deflector is less, reduces wind loss.

Tuyere structure based on above-mentioned offer, present invention also offers a kind of air conditioning system, this air conditioning system Including: air-conditioning side air-out structure, is fixed on the tuyere structure of described air-conditioning side air-out structure；Wherein, institute Stating tuyere structure is the tuyere structure described in above-mentioned any one.

Preferably, when described air conditioning system heats, the air supply direction of described first wind deflector and horizontal direction Angle be 60-90 °.

Preferably, the distance of the import of the air outlet of described air-conditioning side air-out structure and described tuyere structure is not More than 50mm.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention and technical scheme of the prior art, below will be to reality Execute the required accompanying drawing used in example or description of the prior art to be briefly described, it should be apparent that below, Accompanying drawing in description is only embodiments of the invention, for those of ordinary skill in the art, not On the premise of paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

Fig. 1 is structural representation during air conditioning system apoplexy mouth structure horizontal blast in prior art；

Fig. 2 is structural representation during the downward 45 ° of air-supplies of air conditioning system apoplexy mouth structure in prior art；

The structural representation of the tuyere structure that Fig. 3 provides for the embodiment of the present invention；

The tuyere structure that Fig. 4 provides for the embodiment of the present invention in off position time structural representation；

The explosive view of the tuyere structure that Fig. 5 provides for the embodiment of the present invention；

The structural representation of the first wind deflector in the tuyere structure that Fig. 6 provides for the embodiment of the present invention；

The front view of the first wind deflector in the tuyere structure that Fig. 7 provides for the embodiment of the present invention；

Fig. 8 is that the A-A of Fig. 7 is to sectional view；

The top view of the first wind deflector in the tuyere structure that Fig. 9 provides for the embodiment of the present invention；

Figure 10 is that the B of Fig. 9 is to schematic diagram；

Figure 11 is the magnified partial view in Figure 10；

The enlarged drawing of the side view of the first wind deflector in the tuyere structure that Figure 12 provides for the embodiment of the present invention；

The structural representation of adapter sleeve in the tuyere structure that Figure 13 provides for the embodiment of the present invention；

The structural representation of outlet frame in the tuyere structure that Figure 14 provides for the embodiment of the present invention；

The structural representation of the second wind outlet panel in the tuyere structure that Figure 15 provides for the embodiment of the present invention；

The schematic diagram of the tuyere structure horizontal blast that Figure 16 provides for the embodiment of the present invention；

The schematic diagram that Figure 17 blows straight down for the tuyere structure that the embodiment of the present invention provides.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present invention, and It is not all, of embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not doing Go out the every other embodiment obtained under creative work premise, broadly fall into the scope of protection of the invention.

A kind of tuyere structure that the embodiment of the present invention provides, this tuyere structure is used for air-conditioning side air-out structure 35, Specifically, this tuyere structure includes wind guiding component, and this wind guiding component includes for horizontal blast and send downwards First wind deflector 22 of wind, the first wind deflector 22 has arc section, and the inner concave of arc section is wind-guiding Face；And arc section is along the air supply direction bending of the first wind deflector 22.

It should be noted that horizontal blast, blow the most in the horizontal direction；Air-supply, i.e. tuyere structure downwards After installation, blow to the lower section of tuyere structure.

In the tuyere structure that the embodiment of the present invention provides, the first wind deflector 22 for horizontal blast and send downwards Wind, owing to the first wind deflector 22 has arc section, the inner concave of this arc section is wind-guiding face, and arc Shape plate section bends along the air supply direction of the first wind deflector 22, and the most relatively prior art middle straight-plate type BAIYE is compared, When the air supply direction of the first wind deflector 22 and the angle of horizontal direction are bigger, it is also possible to ensure bigger sky Between air feed discharge, it is clear that, it is possible to increase the wind direction of the first wind deflector 22 and the angle of horizontal direction, The demeanour of sweeping that i.e. can increase whole tuyere structure is enclosed, then in heating operations can by more hot blast to Lower row, can effectively reduce the heat accumulation degree formed owing to hot blast density is little in indoor top, accelerates room The lifting speed of interior temperature, improves the uniformity of indoor temperature, and then improves heating performance.

Meanwhile, the tuyere structure that the embodiment of the present invention provides, it is possible to increase is swept demeanour and enclosed, then when refrigeration Cross-ventilation intensity can be strengthened, the reduction speed of indoor temperature can be accelerated, improve the uniform of indoor temperature Shape, and then improve refrigeration performance.

Meanwhile, in the tuyere structure that the embodiment of the present invention provides, owing to the first wind deflector 22 has arc Section, the inner concave of this arc section is wind-guiding face, and arc section is along the air supply direction of the first wind deflector 22 Bending, the most relatively prior art middle straight-plate type BAIYE is compared, and the windage of the first wind deflector 22 is less, reduces Wind loss.

In order to farthest improve heating performance, the demeanour of sweeping of above-mentioned first wind deflector 22 is enclosed for 0-90 °. Specifically, the first wind deflector 22 has the first extreme position and the second extreme position；When the first wind deflector 22 When being positioned at the first extreme position, the air supply direction of the first wind deflector 22 and horizontal direction parallel；When first leads When aerofoil 22 is positioned at the second extreme position, the air supply direction of the first wind deflector 22 and the angle of horizontal direction It it is 90 °.

It is understood that the first wind deflector 22 can be located at the first extreme position, the second extreme position or Optional position between person's the first extreme position and the second extreme position.When the first wind deflector 22 is positioned at second During extreme position, the air supply direction of the first wind deflector 22 and the angle of horizontal direction are 90 °, then first lead Aerofoil 22 is blown vertically downward；When the first wind deflector 22 is positioned at the first extreme position, the first wind deflector The air supply direction of 22 and horizontal direction parallel, the i.e. first wind deflector 22 horizontal blast.

Certainly, it is possible to selecting the demeanour of sweeping of the first wind deflector 22 to enclose less than above-mentioned situation, such as, first leads Aerofoil 22 is when the second extreme position, and the air supply direction of the first wind deflector 22 is little with the angle of horizontal direction In 90 ° and more than 60 °, it is not limited to above-described embodiment.

In above-mentioned tuyere structure, there is various structures in the first wind deflector 22, such as arc section is positioned at first The middle part of wind deflector 22, other parts of the first wind deflector 22 are straight plate；Arc section is positioned at first and leads First section of aerofoil 22, other parts of the first wind deflector 22 are straight plate；Arc section is positioned at the first wind-guiding The latter end of plate 22, other parts of the first wind deflector 22 are straight plate.It should be noted that, the first wind deflector One end of section headed by the fixing end of 22, one end that free end is latter end of the first wind deflector 22.First wind-guiding The middle part of plate 22, refers to the middle part between fixing end and the free end of the first wind deflector 22.

Certainly, it is possible to selecting whole first wind deflector 22 is other shapes.Preferably, the first wind deflector 22 For arc.So, for the ease of arranging, simultaneously facilitating the first wind deflector 22 and hide, profile is the most beautiful See, improve aesthetics；Meanwhile, through overtesting, when the first wind deflector 22 is arc, wind loss Less.As a example by 45 ° of downward air-supplies, when above-mentioned tuyere structure and existing tuyere structure all with 45 ° to During lower air-supply, compared with the wind loss of existing tuyere structure, the wind loss of above-mentioned tuyere structure subtracts Lack 10%.

Preferably, above-mentioned first wind deflector 22 is one, so, simplifies structure, it is simple to arrange, also More attractive in appearance.Certainly, it is possible to selecting the first wind deflector 22 is two or more, refers to that structure is more complicated, application Difficulty is bigger.

In order to improve air-out effect, above-mentioned wind guiding component also includes: the second wind deflector, the second driver part 34 and first driver part 23；Wherein, the second wind deflector is positioned at wind-guiding side and the use of the first wind deflector 22 Blow in left and right；Second driver part 34 drives the second wind deflector air-supply；First wind deflector 22 is by the One driver part 23 drives air-supply.

It should be noted that left and right air-supply, it is directed to the two ends air-supply of the first wind deflector 22.Specifically, Left air-supply, refers to that the second wind deflector is blown to one end of the first wind deflector 22；Right air-supply, refers to that second leads Aerofoil is blown to the other end of the first wind deflector 22.The two ends of the first wind deflector 22, refer to the first wind-guiding Plate 22 two ends along its length.

In above-mentioned tuyere structure, the first driver part 23 drives the first wind deflector 22 to rotate.For first Driver part 23 and the type of the second driver part 34, can select according to actual needs.For letter Changing structure, prioritizing selection the first driver part 23 and the second driver part 34 are motor.Further, First driver part 23 and the second driver part 34 are motor.

Further, the second wind deflector is crank 25, and the second driver part 34 is by bent axle 32 and connecting rod 31 drive crank 25 to blow；Wherein, one end of bent axle 32 is connected with the second driver part 34, bent axle The other end of 32 is connected with connecting rod 31, and the axes intersect of the axis of bent axle 32 and connecting rod 31；Second drives Dynamic component 34 drives bent axle 32 to rotate, the pivot center of bent axle 32 be perpendicular to bent axle 32 axis and The axis of connecting rod 31；The first wind deflector 22 is axially slidably located at by connecting rod 31 along it；Crank 25 is hinged In connecting rod 31.

In above-mentioned tuyere structure, the second driver part 34 drives bent axle 32 to rotate, and connecting rod 31 is along with bent axle The rotation of 32 moves along its axis, and along with the movement of connecting rod 31, the crank 25 being articulated with connecting rod 31 occurs Rotate, it is achieved blow in left and right.It is understood that the pivot center of crank 25 is parallel to bent axle 32 Pivot center.

Above-mentioned first driver part 23 and the second driver part 34 are two, two the first driver parts 23 two ends laying respectively at the first wind deflector 22, two the second driver parts 34 lay respectively at connecting rod 31 Two ends.This way it is ensured that the first wind deflector 22 and the second wind deflector the most smoothly rotate, improve Reliability and wind effect.

In order to improve left and right air-supply effect, above-mentioned crank 25 at least two, and axial along connecting rod 31 It is uniformly distributed.Specific number for crank 25 can be designed according to actual needs, the embodiment of the present invention This is not limited.

Preferably, above-mentioned first wind deflector 22 includes: the first laminate 36 being sequentially connected, cushion 37 With the second laminate 38；Wherein, the first laminate 36 is positioned at wind-guiding side, and the second laminate 38 is positioned at leeward side, I.e. cushion 37 and the second laminate 38 is respectively positioned on the leeward side of the first laminate 36；Connecting rod 31 is positioned at first Between laminate 36 and cushion 37, the first laminate 36 has the through hole stretching out for crank 25 and rotating. So, connecting rod 31 is hidden in the inside of the first wind deflector 22, it is to avoid connecting rod 31 parts such as grade expose, and carry High aesthetics.

It is understood that there is receiving chamber between the first laminate 36 and cushion 37, to accommodate connecting rod 31 parts such as grade.When the first wind deflector 22 is arc, the first laminate 36, cushion 37 and the second layer Plate 38 is arc.In order to reduce weight, prioritizing selection cushion 37 is spongy layer.Certainly, also Optional cushion 37 is rubber layer, layer of cloth etc., it is not limited to spongy layer.

In order to ensure to install, above-mentioned tuyere structure has mounting assembly, and this mounting assembly includes: adapter sleeve 24, outlet frame 27, the first wind outlet panel 21, the second wind outlet panel 26, the 3rd driver part 28；Its In, adapter sleeve 24 is for being connected with air-conditioning side air-out structure 35；Outlet frame 27 is fixed on adapter sleeve 24 In；First wind outlet panel 21 is fixed on the port of export of outlet frame 27, and the first wind outlet panel 21 is provided with out Air port；Second wind outlet panel 26 can opening and closing air outlet；3rd driver part 28 drives the second outlet air surface Plate 26 opening and closing air outlet；Wind guiding component is located at outlet frame 27.

It is understood that in the standby state, air outlet is in closed state, the second wind outlet panel 26, First wind outlet panel 21 is in same perpendicular.After air conditioning system powers on, when needing air-out, the 3rd drives Dynamic component 28 drives the second wind outlet panel 26 to rotate, to open air outlet, and now the second wind outlet panel 26 It is hidden in the top of outlet frame 27, then wind guiding component putting in blast；When need not air-out, the 3rd drives Parts 28 drive the second wind outlet panel 26 to rotate backward, to close air outlet.First wind deflector 22 can Stretch in outward air outlet, it is also possible to be hidden in outlet frame 27.

In above-mentioned tuyere structure, outlet frame 27 provides installation foundation, and outlet frame 27 is fixed on connection In set 24, it is to avoid outlet frame 27 exposes, and improves aesthetics；Meanwhile, the first wind outlet panel 21 is solid Being scheduled on the port of export of outlet frame 27, the first wind outlet panel 21 blocks the end of outlet frame 27, and utilizes Two wind outlet panel 26 carry out the air outlet of opening and closing the first wind outlet panel 21, further increase aesthetics.

In actual application, adapter sleeve 24 is nested, and specifically, adapter sleeve 24 is solid by nailing Being scheduled on air-conditioning side air-out structure 35, specifically, adapter sleeve 24 is fixed on furred ceiling wooden case by nailing.

In above-mentioned tuyere structure, air deflector 27 includes: air deflector main body, is connected with air deflector main body 27 Top board 29.For the ease of installing the second wind outlet panel 26, prioritizing selection top board 29 and air deflector main body 27 is detachably connected.

For the ease of installing, the first wind deflector 22 is rotatably arranged in outlet frame 27 by end cap 33.Tool Body ground, the two ends of the first wind deflector 22 are respectively and fixedly provided with end cap 33, and this end cap 33 is rotatably arranged in air-out In frame 27, i.e. sight line, the first wind deflector 22 is rotatably arranged in outlet frame 27.Arrange for the ease of rotating, In outlet frame 27 and end cap 33, one is located at rotating shaft, and another one is located at the axis hole coordinated with this rotating shaft.

Further, the port of export of above-mentioned first wind outlet panel 21 and adapter sleeve 24 is fitted, and first goes out Wind panel 21 covers the port of export of adapter sleeve 24.So, the end of the first wind outlet panel 21 be can't see even Female connector 24, improves aesthetics.

It is understood that the first wind outlet panel 21 covers the port of export of adapter sleeve 24, refer to, first Wind outlet panel 21 is completely superposed with the exit end face of adapter sleeve 24 in the projection of the exit end face of adapter sleeve 24, Or the exit end face of adapter sleeve 24 in wind outlet panel 21 in the projection of the exit end face of adapter sleeve 24.

In order to ensure that the second wind outlet panel 26 smoothly rotates, above-mentioned 3rd driver part 28 is two, And laying respectively at the two ends of the second wind outlet panel 26, i.e. one the 3rd driver part 28 drives the second air-out One end of panel 26, another the 3rd driver part 28 drives the other end of the second wind outlet panel 26.

Above-mentioned mounting assembly also includes: when the second wind outlet panel 26 opens air outlet, it is possible to gone out by second The microswitch component 30 opened touched by wind panel 26；After microswitch component 30 is opened, the 3rd drives Dynamic component 28 stops driving.

It should be noted that to those skilled in the art, microswitch component 30 is common components, Herein microswitch component 30 specifically structure is not repeated.

In above-mentioned tuyere structure, during opening air outlet, when the second wind outlet panel 26 touching is opened After microswitch component 30, the 3rd driver part 28 stops driving the second wind outlet panel 26 to rotate, now, Air outlet fully opens.Above-mentioned tuyere structure, by arranging microswitch component 30, limits second and goes out The rotational angle of wind panel 26, has been effectively ensured the opening and closing of air outlet, has improve reliability.When So, it is possible to selecting, miscellaneous part is set and limits the rotational angle of the second wind outlet panel 26, it is not limited to Above-mentioned microswitch component 30, such as sensor etc..

For the ease of installing, above-mentioned microswitch component 30 and the 3rd driver part 28 are all located at first and are led Aerofoil 22.

Preferably, the first wind outlet panel 21 is removably secured with outlet frame 27 and is connected, outlet frame 27 with Adapter sleeve 24 is removably secured connection.So, the assembly and disassembly of mounting assembly are facilitated, it is simple to make With.

Further, the first wind outlet panel 21 is removably secured with outlet frame 27 by clamping and is connected, So, the connection hiding the first wind outlet panel 21 with outlet frame 27 it is easier to by snap fit, it is simple to carry High aesthetics.

Further, outlet frame 27 is threaded connection part and is removably secured with adapter sleeve 24 and is connected, It is easy to connect, also allows for ensureing bonding strength.Specifically, threaded connector be screw or bolt and Nut.

The tuyere structure provided based on above-described embodiment, the embodiment of the present invention additionally provides a kind of air conditioning system, This air conditioning system includes: air-conditioning side air-out structure 35, is fixed on the tuyere structure of air-conditioning side air-out structure 35； Wherein, tuyere structure is the tuyere structure described in above-mentioned any one.

Owing to above-mentioned tuyere structure has above-mentioned technique effect, above-mentioned air conditioning system has above-mentioned tuyere structure, The most above-mentioned air conditioning system also has corresponding technique effect, repeats no more herein.

Preferably, when above-mentioned air conditioning system heats, the air supply direction of the first wind deflector 22 and horizontal direction Angle is 60-90 °.It is understood that the first wind deflector 22 is blown downwards, in heating operations, The demeanour of sweeping of the first wind deflector 22 is enclosed for 60-90 °.

Through overtesting, above-mentioned air conditioning system can be effectively increased heating effect, heats comfortableness ratio and has existing The air conditioning system having tuyere structure exceeds 30%.

In above-mentioned air conditioning system, tuyere structure is fixed on the exit of air-conditioning side air-out structure 35.For side Just fixing, above-mentioned tuyere structure is fixed on air-conditioning side air-out structure 35 by canvas or wooden frame.Certainly, Also may select tuyere structure and be directly docked at the exit of air-conditioning side air-out structure 35.

In order to the distance of the import of the air outlet Yu tuyere structure that reduce air-conditioning side air-out structure 35 is not more than 50mm.So, it is to avoid wind loss is excessive, to promote serviceability and the user's body of air conditioning system Test.

Described above to the disclosed embodiments, makes those skilled in the art be capable of or uses this Bright.Multiple amendment to these embodiments will be apparent from, herein for a person skilled in the art Defined in General Principle can be real at other without departing from the spirit or scope of the present invention Execute in example and realize.Therefore, the present invention is not intended to be limited to the embodiments shown herein, and is intended to Meet the widest scope consistent with principles disclosed herein and features of novelty.

Claims (15)

1. a tuyere structure, for air-conditioning side air-out structure (35), including wind guiding component, its feature Being, described wind guiding component includes for horizontal blast and first wind deflector (22) of air-supply downwards, institute Stating the first wind deflector (22) and have arc section, the inner concave of described arc section is wind-guiding face；And institute State the air supply direction bending along described first wind deflector (22) of the arc section.

Tuyere structure the most according to claim 1, it is characterised in that described first wind deflector (22) There is the first extreme position and the second extreme position；When described first wind deflector (22) is positioned at first limit During position, the air supply direction of described first wind deflector (22) and horizontal direction parallel；When described first leads When aerofoil (22) is positioned at described second extreme position, the air supply direction of described first wind deflector (22) with The angle of horizontal direction is 90 °.

Tuyere structure the most according to claim 1, it is characterised in that described first wind deflector (22) For arc.

Tuyere structure the most according to claim 1, it is characterised in that described first wind deflector (22) It it is one.

5. according to the tuyere structure described in any one in claim 1-4, it is characterised in that described in lead Wind assembly also includes:

It is positioned at the wind-guiding side of described first wind deflector (22), and for the second wind deflector of left and right air-supply；

Drive second driver part (34) of described second wind deflector air-supply；

Wherein, described first wind deflector (22) drives air-supply by the first driver part (23).

Tuyere structure the most according to claim 5, it is characterised in that the second wind deflector is crank (25), Described second driver part (34) drives described crank (25) by bent axle (32) and connecting rod (31) Air-supply；Wherein,

One end of described bent axle (32) is connected with described second driver part (34), described bent axle (32) The other end be connected with described connecting rod (31), and the axis of described bent axle (32) and described connecting rod (31) Axes intersect；Described second driver part (34) drives described bent axle (32) to rotate, described bent axle (32) pivot center is perpendicular to axis and the axis of described connecting rod (31) of described bent axle (32)； Described first wind deflector (22) is axially slidably located at by described connecting rod (31) along it；Described crank (25) It is articulated with described connecting rod (31).

Tuyere structure the most according to claim 6, it is characterised in that described first wind deflector (22) Including: the first laminate (36) being sequentially connected, cushion (37) and the second laminate (38)；Wherein, Described cushion (37) and described second laminate (38) are respectively positioned on the leeward of described first laminate (36) Side；Described connecting rod (31) is positioned between described first laminate (36) and described cushion (37), institute State the first laminate (36) and there is the through hole stretching out for described crank (25) and rotating.

8. according to the tuyere structure described in any one in claim 1-4, it is characterised in that described wind The mounting assembly of mouth structure includes:

For the adapter sleeve (24) being connected with described air-conditioning side air-out structure (35)；

The outlet frame (27) being fixed in described adapter sleeve (24)；

Being fixed on first wind outlet panel (21) of the port of export of described outlet frame (27), described first goes out Wind panel (21) is provided with air outlet；

Can second wind outlet panel (26) of air outlet described in opening and closing；

Drive the 3rd driver part (28) of air outlet described in the opening and closing of described second wind outlet panel (26)；

Wherein, described wind guiding component is located at described outlet frame (27).

Tuyere structure the most according to claim 8, it is characterised in that the first wind outlet panel (21) Fit with the port of export of described adapter sleeve (24), and described first wind outlet panel (21) covers described company The port of export of female connector (24).

Tuyere structure the most according to claim 8, it is characterised in that described mounting assembly is also wrapped Include: when described second wind outlet panel (26) opens described air outlet, it is possible to by described second outlet air surface The microswitch component (30) opened touched by plate (26)；When described microswitch component (30) is opened After, described 3rd driver part (28) stops driving.

11. tuyere structures according to claim 8, it is characterised in that described first wind outlet panel (21) it is removably secured with described outlet frame (27) and is connected, described outlet frame (27) and adapter sleeve (24) it is removably secured connection.

12. tuyere structures according to claim 11, it is characterised in that described first wind outlet panel (21) it is removably secured with described outlet frame (27) is connected by clamping, described outlet frame (27) It is threaded connection part to be removably secured with described adapter sleeve (24) and be connected.

13. 1 kinds of air conditioning systems, including: air-conditioning side air-out structure (35), is fixed on described air-conditioning side The tuyere structure of air exhausting structure (35)；It is characterized in that, described tuyere structure is such as claim 1-12 Tuyere structure described in middle any one.

14. air conditioning systems according to claim 13, it is characterised in that described air conditioning system heats Time, the described air supply direction of the first wind deflector (22) and the angle of horizontal direction are 60-90 °.

15. air conditioning systems according to claim 13, it is characterised in that described air-conditioning side air-out is tied The air outlet of structure (35) is not more than 50mm with the distance of the import of described tuyere structure.