CN109405077A - Air conditioner - Google Patents

Abstract

The invention discloses a kind of air conditioner, air conditioner includes: shell, and shell is equipped with the first air-supply assembly and the second air-supply assembly, and the farthest air supplying distance of the first air-supply assembly is greater than the farthest air supplying distance of the second air-supply assembly；First air-supply assembly includes the first air outlet, and the second air-supply assembly includes the second air outlet.Air conditioner according to the present invention, by the way that the first air-supply assembly and the second air-supply assembly are arranged on the shell of air conditioner, the air-supply air-flow with different air supplying distances may be implemented from the second air-supply assembly in first air-supply assembly, two kinds of air-supply air-flows can form the air-out effect around wind indoors, indoor air flow is enabled fully to flow and exchange heat, so as to the temperature of different zones in quickly-conditioning indoor, and then user's comforts of use can be improved.

Description

Air conditioner

Technical field

The present invention relates to fields of home appliance technology, more particularly, to a kind of air conditioner.

Background technique

In the related technology, the duct outlet of air conditioner is single scenery resource quality in the longitudinal direction, and appearance is identical, and Synchronization can only send out the wind of same distance, same wind speed, and room temperature is caused to be unevenly distributed, poor user experience.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, one object of the present invention It is to propose that a kind of air conditioner, the air conditioner can form the air-out effect around wind.

Air conditioner according to an embodiment of the present invention, comprising: shell, the shell are equipped with the first air-supply assembly and the second air-supply Component, the farthest air supplying distance of first air-supply assembly are greater than the farthest air supplying distance of second air-supply assembly；Described One air-supply assembly includes the first air outlet, and second air-supply assembly includes the second air outlet.

Air conditioner according to an embodiment of the present invention is sent by the way that the first air-supply assembly and second is arranged on the shell of air conditioner The air-supply air-flow with different air supplying distances, two kinds of air-supplies may be implemented from the second air-supply assembly in wind component, the first air-supply assembly Air-flow can form the air-out effect around wind indoors, and indoor air flow is enabled fully to flow and exchange heat, so as to The temperature of different zones in quickly-conditioning indoor, and then user's comforts of use can be improved.

According to some embodiments of the present invention, first air outlet is located above or below second air outlet； Alternatively, first air outlet is located at the left or right side of second air outlet.

According to some embodiments of the present invention, second air outlet is multiple, multiple second air outlet intervals point Cloth, first air outlet are located therein between second air outlet of adjacent two.

According to some embodiments of the present invention, first air-supply assembly includes the first wind guiding component, first wind-guiding Component is located at first air outlet, and first wind guiding component is movable relative to the shell；The second air-supply assembly packet The second wind guiding component is included, second wind guiding component is located at second air outlet, and second wind guiding component is relative to described Shell is movable.

In some embodiments of the invention, first wind guiding component includes multiple first wind guide strips, and each described One wind guide strip is movable relative to the shell, and multiple first wind guide strips are intervally arranged along the vertical direction, and each described One wind guide strip is horizontally extending；Second wind guiding component includes multiple second wind guide strips, each second wind guide strip Movable relative to the shell, multiple second wind guide strips are intervally arranged along the horizontal direction, and each described second leads Wind item extends along the vertical direction.

In some embodiments of the invention, first wind guide strip, which has, thickens section, the thickness for thickening section along Air-out direction is gradually increased.

In some embodiments of the invention, first wind guide strip include first while and when second, in the outlet air side Upwards, the described first upstream when being located at described second, section and second back gauge of thickening thicken section less than described in At a distance from first side.

In some embodiments of the invention, first wind guiding component further includes grid, on air-out direction, the lattice Grid are located at the upstream or downstream of first wind guide strip.

In some embodiments of the invention, second wind guiding component further includes blinds, on air-out direction, described hundred Leaf is located at the upstream or downstream of second wind guide strip.

In some embodiments of the invention, first air-supply assembly includes the first actuator, first actuator It is connect with first wind guiding component, to drive first wind guiding component to move；Second air-supply assembly includes the second drive Moving part, second actuator are connect with second wind guiding component, to drive second wind guiding component to move.

According to some embodiments of the present invention, first air-supply assembly further include: the first wind wheel, first wind wheel are set In in the shell；Second air-supply assembly further include: the second wind wheel, second wind wheel are disposed in the housing.

In some embodiments of the invention, the diameter of first wind wheel is greater than the diameter of second wind wheel.

In some embodiments of the invention, first air-supply assembly further include: the first driving motor, described first drives Dynamic motor is connect with first wind wheel, to drive first wind wheel to rotate；Second air-supply assembly further include: second drives Dynamic motor, second driving motor are connect with second wind wheel, to drive second wind wheel to rotate；First driving The revolving speed of motor is greater than the revolving speed of second driving motor.

According to some embodiments of the present invention, first air-supply assembly further include: the first pressure regulation part, first pressure regulation Part is set in first air outlet, and the first air-out passage or the first pressure regulation part and institute are limited in the first pressure regulation part The side wall for stating the first air outlet limits the first air-out passage, and the cross-sectional area of first air outlet is A, first outlet air The cross-sectional area of the external port in channel is B, wherein B < A.

In some embodiments of the invention, on the flow direction of air-flow, the cross-sectional area of first air-out passage It is gradually reduced.

In some embodiments of the invention, on the flow direction of air-flow, opposite two of first air-out passage A side wall extends towards neighbouring mutual direction inclination.

According to some embodiments of the present invention, second air-supply assembly further include: the second pressure regulation part, second pressure regulation Part is set in second air outlet, and the second air-out passage or the second pressure regulation part and institute are limited in the second pressure regulation part The side wall for stating the second air outlet limits the second air-out passage, and the cross-sectional area of second air outlet is C, first outlet air The cross-sectional area of the external port in channel is D, wherein C < D.

In some embodiments of the invention, on the flow direction of air-flow, the cross-sectional area of second air-out passage It is gradually increased.

In some embodiments of the invention, on the flow direction of air-flow, opposite two of second air-out passage A side wall is directed away from mutual direction inclination and extends.

According to some embodiments of the present invention, the area of first air outlet is less than or equal to the face of second air outlet Product.

In some embodiments of the invention, the maximum width of first air outlet in the lateral direction is less than or equal to institute State the minimum widith of the second air outlet in the lateral direction.

In some embodiments of the invention, on direction from top to bottom, first air outlet is in the lateral direction Width be gradually increased or reduce.

In some embodiments of the invention, first air outlet and second air outlet are all formed as rectangle, institute State the width of the first air outlet in the horizontal direction and the equivalent width of second air outlet in the horizontal direction, described first The length of air outlet in the vertical direction is L1, and the length of second air outlet in the vertical direction is L2, wherein 10%≤ L1/ (L1+L2)≤50%.

In some embodiments of the invention, L1/L2=2/5.

According to some embodiments of the present invention, the air conditioner is ceiling machine or floor type air-conditioner or wall-hanging air conditioner Device or mobile air conditioner or window machine.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 2 is the schematic enlarged-scale view in Fig. 1 at A；

Fig. 3 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Fig. 8 is the explosive view of air conditioner according to an embodiment of the present invention；

Fig. 9 is the cross-sectional view of air conditioner according to an embodiment of the present invention；

Figure 10 is the schematic enlarged-scale view in Fig. 9 at B；

Figure 11 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Figure 12 is the cross-sectional view of air conditioner according to an embodiment of the present invention；

Figure 13 is the explosive view of air conditioner according to an embodiment of the present invention；

Figure 14 is the cross section structure schematic diagram of air conditioner according to an embodiment of the present invention；

Figure 15 is the structural schematic diagram of air conditioner according to an embodiment of the present invention；

Figure 16 is the main view of the air conditioner indoor unit of air conditioner according to an embodiment of the invention, and the first sub- outlet air wind Road is in closed state；

Figure 17 be air conditioner indoor unit in Figure 16 at the first sub- exhaust air flue in the perspective view of closed state；

Figure 18 be air conditioner indoor unit in Figure 16 at the first sub- exhaust air flue in the perspective view of normal ventilation state；

Figure 19 be air conditioner indoor unit in Figure 16 at the first sub- exhaust air flue in the perspective view of upward wind-guiding state；

Figure 20 be air conditioner indoor unit in Figure 16 at the first sub- exhaust air flue in the perspective view of downward wind-guiding state；

Figure 21 is the main view of the air conditioner indoor unit of air conditioner in accordance with another embodiment of the present invention, and the first sub- outlet air Air duct is in normal ventilation state；

Figure 22 be air conditioner indoor unit in Figure 21 at the first sub- exhaust air flue in the perspective view of normal ventilation state；

Figure 23 be air conditioner indoor unit in Figure 21 at the first sub- exhaust air flue in the sectional view of normal ventilation state；

Figure 24 be air conditioner indoor unit in Figure 21 at the first sub- exhaust air flue in the main view of diffusion ventilation state；

Figure 25 be air conditioner indoor unit in Figure 24 at the first sub- exhaust air flue in the perspective view of diffusion ventilation state；

Figure 26 be air conditioner indoor unit in Figure 24 at the first sub- exhaust air flue in the sectional view of diffusion ventilation state；

Figure 27 is the main view of the air conditioner indoor unit of the air conditioner of another embodiment according to the present invention, and the first sub- outlet air Air duct is in normal ventilation state；

Figure 28 be air conditioner indoor unit in Figure 27 at the first sub- exhaust air flue in the perspective view of normal ventilation state；

Figure 29 be air conditioner indoor unit in Figure 27 at the first sub- exhaust air flue in the main view of diffusion ventilation state；

Figure 30 be air conditioner indoor unit in Figure 29 at the first sub- exhaust air flue in the perspective view of diffusion ventilation state.

Appended drawing reference:

Air conditioner 1

Shell 10,

First air outlet 200,

First wind guiding component 210, the first wind guide strip 211 thicken section 212, the first side 213, the second side 214, grid 215,

First driving assembly 220,

First pressure regulation part 230, the first air-out passage 231,

Second air outlet 300,

Second wind guiding component 310, the second wind guide strip 311, through hole 312, blinds 313,

Second driving assembly 320,

Air conditioner indoor unit 100,

Casing 1, wind inlet channel 11, exhaust air flue 12, the first sub- exhaust air flue 121, the first accommodating groove 121a, the second storage Slot 121b, baffle 1a, the second sub- exhaust air flue 122 store block 1c,

Heat exchanger 2, wind wheel 3, air duct 4.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

As shown in Fig. 3-Fig. 7 and Figure 15, air conditioner 1 according to an embodiment of the present invention, including shell 10.Shell 10 is equipped with the One air-supply assembly and the second air-supply assembly, the farthest air supplying distance of the first air-supply assembly are greater than the farthest air-supply of the second air-supply assembly Distance.First air-supply assembly includes the first air outlet 200, and the second air-supply assembly includes the second air outlet 300.It needs to explain It is that the first air outlet 200 and the second air outlet 300 are set to shell 10, and the first air outlet 200 is penetrated through with the second air outlet 300 Shell 10, the first air-supply air-flow that the first air-supply assembly is formed can flow out shell 10, the second air-supply group from the first air outlet 200 The second air-supply air-flow that part is formed can flow out shell 10 from the second air outlet 300.Air conditioner 1 in the radial direction, first The farthest point that air-supply air-flow can reach is located at the radial outside in the farthest point that the second air-supply air-flow can reach.

Air conditioner 1 according to an embodiment of the present invention, by the way that the first air-supply assembly and are arranged on the shell 10 of air conditioner 1 Two air-supply assemblies, the first air-supply assembly and the second air-supply assembly may be implemented the air-supply air-flow with different air supplying distances, and two kinds Air-supply air-flow can form the air-out effect around wind indoors, and indoor air flow is enabled fully to flow and exchange heat, thus Can be with the temperature of different zones in quickly-conditioning indoor, and then user's comforts of use can be improved.

As shown in Fig. 3-Fig. 7, according to some embodiments of the present invention, the first air outlet 200 is located at the second air outlet 300 Above or below.Alternatively, the first air outlet 200 is located at the left or right side of the second air outlet 300.It is understood that at this In some examples of invention, the first air outlet 200 can be located at the top of the second air outlet 300.Other show of the invention In example, the first air outlet 200 can be located at the lower section of the second air outlet 300.In still other example of the invention, first goes out Air port 200 can be located at the left side of the second air outlet 300.In other examples of the invention, the first air outlet 200 can be with Positioned at the right side of the second air outlet 300.Thus, it is possible to the arrangement mode of abundant first air outlet 200 and the second air outlet 300, So as to meet the outlet air demand of different user, different places, the appearance diversity of air conditioner 1 can also be improved, to meet The aesthetic requirement of different user.

It should be noted that making for " top " mentioned herein, " lower section ", " left side " and " right side " sensu lato Understand." top " it is to be understood that in the up-down direction, the first air outlet 200 is located at the top of the second air outlet 300, i.e., The region more than top edge of two air outlets 300 can be understood as the top of the second air outlet 300, and " top " may include just Top, the orientation that top is to the left, top is to the right, top is to the front and top is to the rear." lower section " is it is to be understood that in above-below direction On, the first air outlet 200 is located at the lower section of the second air outlet 300, i.e. the lower edge region below of the second air outlet 300 To be interpreted as the lower section of the second air outlet 300, " lower section " may include immediately below, lower section is to the left, lower section is to the right, lower section is to the front and Lower section orientation to the rear." left side " is it is to be understood that in the lateral direction, the first air outlet 200 is located at the second air outlet 300 Left side, the i.e. left edge of the second air outlet 300 can be understood as the left side of the second air outlet 300, " left side " with left region It may include directly to the left, the orientation that left side is on the upper side, left side is on the lower side, left side is to the front and left side is to the rear." right side " it is to be understood that On left and right directions, the first air outlet 200 is located at the right side of the second air outlet 300, i.e., the right hand edge of the second air outlet 300 is with the right side Region can be understood as the right side of the second air outlet 300, and " right side " may include directly to the right, right side is on the upper side, right side is on the lower side, right Before lateral deviation and orientation that right side is to the rear.

In addition, for the orientation or position of the instructions such as the above-mentioned "upper" being previously mentioned, "lower", "front", "rear", "left", "right" Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without referring to Show or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot manage Solution is limitation of the present invention.

As shown in figure 5, according to some embodiments of the present invention, the second air outlet 300 is multiple, multiple second air outlets 300 are spaced apart, and the first air outlet 200 is located therein between two adjacent the second air outlets 300.In other words, Duo Ge There is a pair of second air outlet 300 in two air outlets 300, this is adjacent to the second air outlet 300, and the first air outlet 200 is located at This is between the second air outlet 300.It should be noted that " multiple " mentioned herein are two and more than two meanings. Thus, it is possible to further expand the wind-out range of air conditioner 1, the different appearance effects of air conditioner 1 can also be realized, with Meet the aesthetic requirement for not having to user.

According to some embodiments of the present invention, the first air outlet 200 and the second air outlet 300 can be along the weeks of shell 10 It is intervally arranged to direction, and the first air outlet 200 and the second air outlet 300 are opposite.For example, shell 10 can be formed as cylinder Shape, the first air outlet 200 can be intervally arranged with the second air outlet 300 along the circumferential direction of shell 10, and the first air outlet 200 and second air outlet 300 it is opposite.

According to some embodiments of the present invention, the peripheral wall of shell 10 can be formed as more faceted pebble columns.Of the invention some In embodiment, the first air outlet 200 and the second air outlet 300 can be located at same side wall surface.Thus, it is possible to central air-conditioner 1 Wind-out range.In other embodiments of the invention, the first air outlet 200 and the second air outlet 300 can be located at Two different side wall surfaces.Thus, it is possible to disperse the outlet air air-flow of air conditioner 1, expand the wind-out range of air conditioner 1.

As shown in Fig. 1, Fig. 3-Fig. 8, according to some embodiments of the present invention, the first air-supply assembly may include the first wind-guiding Component 210, the first wind guiding component 210 are located at the first air outlet 200, and the first wind guiding component 210 is movable relative to shell 10.Second Air-supply assembly includes the second wind guiding component 310, and the second wind guiding component 310 is located at the second air outlet 300, the second wind guiding component 310 It is movable relative to shell 10.It is understood that the first wind guiding component 210 is located in the first air outlet 200, at least partly first Air outlet 200 can be blocked by the first wind guiding component 210, and at least partly the structure of the first wind guiding component 210 is relative to shell 10 Movably, with the air-out direction for guiding outlet air air-flow at the first air outlet 200.Second wind guiding component 310 is located at the second outlet air In mouth 300, at least partly the second air outlet 300 can be blocked by the second wind guiding component 310, at least partly the second wind guiding component 310 structure is movable relative to shell 10, with the air-out direction for guiding outlet air air-flow at the second air outlet 300.

As shown in Fig. 1, Fig. 3-Fig. 8, in some embodiments of the invention, the first wind guiding component 210 includes multiple first Wind guide strip 211, each first wind guide strip 211 is movable relative to shell 10, and multiple first wind guide strips 211 are spaced along the vertical direction Arrangement, each first wind guide strip 211 are horizontally extending；Second wind guiding component 310 includes multiple second wind guide strips 311, often A second wind guide strip 311 is movable relative to shell 10, the horizontally spaced arrangement of multiple second wind guide strips 311, Mei Ge Two wind guide strips 311 extend along the vertical direction.

Multiple first wind guide strips 211 can guide the air-flow at the first air outlet 200 towards horizontal direction or level as a result, Direction orientation blowout on the upper side, and multiple second wind guide strips 311 are the vertical side of air-flow direction guided at the second air outlet 300 To the blowout to the right of to the left or vertical direction, according to Newton's law, the outlet air air-flow at the second air outlet 300 is relative to the first outlet air Outlet air air-flow at mouthfuls 200, quickly with ground face contact so that the outlet air air-flow at the first air outlet 200 is opposite Outlet air air-flow at the second air outlet 300 blows farther.

As shown in FIG. 9 and 10, in some embodiments of the invention, the first wind guide strip 211, which has, thickens section 212, increases The thickness of thick section 212 is gradually increased along air-out direction.As a result, on air-out direction, two adjacent the first wind guide strips 211 The distance between be gradually reduced, so as to extend the outlet air path of outlet air air-flow at the first air outlet 200.For example, thickening section 212 may include upper guiding face and lower guiding face, and upper guiding face is located at the top of lower guiding face, and lower guiding face can be along level Direction extends, and the angle between upper guiding face and lower guiding face forms acute angle, and on air-out direction, upper guiding face is directed away from down The direction of guiding face extends.The first wind guide strip 211 can derive general mood stream and blow towards horizontal direction direction on the upper side as a result, The part outlet air air-flow has upward initial velocity, so as to extend the wind path out of outlet air air-flow at the first air outlet 200 Diameter, and then the air supplying distance of the first wind guiding component 210 can be expanded.

As shown in Figures 10 and 11, in some embodiments of the invention, the first wind guide strip 211 includes 213 He of the first side Second side 214, on air-out direction, first while 213 be located at second while 214 upstream, thicken 214 distance of section 212 and the second side Less than thickening section 212 at a distance from the first side 213.For example, thickening the separate air-conditioning that section 212 can be located at the first wind guide strip 211 One end inside device 1.Thus, it is possible to improve the function and effect for thickening section 212.

As shown in Fig. 1, Fig. 3-Fig. 5, in some embodiments of the invention, the first wind guiding component 210 further includes grid 215, on air-out direction, grid 215 is located at the upstream or downstream of the first wind guide strip 211.It is understood that in the present invention Some examples in, the first wind guiding component 210 further includes grid 215, and on air-out direction, grid 215 is located at the first wind guide strip 211 upstream.In other examples of the invention, the first wind guiding component 210 further includes grid 215, on air-out direction, lattice Grid 215 are located at the downstream of the first wind guide strip 211.The outlet air air-flow at the first air outlet 200 can pass through multiple first as a result, Wind guide strip 211 and grid 215 are adjusted, so as to realize a variety of air-out effects.

As shown in Figure 3-Figure 5, in some embodiments of the present invention, the second wind guiding component 310 further includes blinds 313, is being gone out On wind direction, blinds 313 is located at the upstream or downstream of the second wind guide strip 311.It is understood that some showing of the invention In example, the second wind guiding component 310 further includes blinds 313, and on air-out direction, blinds 313 is located at the upper of the second wind guide strip 311 Trip.In other examples of the invention, the second wind guiding component 310 further includes blinds 313, on air-out direction, blinds 313 In the downstream of the second wind guide strip 311.The outlet air air-flow at the second air outlet 300 can pass through multiple second wind guide strips 311 as a result, And blinds 313 is adjusted, so as to realize a variety of air-out effects.

As shown in Figures 1 and 2, in some embodiments of this hair invention, the first wind guide strip 211 and the second wind guide strip 311 At least one of be equipped with through hole 312.For example, the second wind guide strip 311 can be equipped with multiple through holes 312.Outlet air air-flow The second wind guide strip 311 can be passed through by through hole 312, outlet air air-flow usually has wind speed height, goes out the big spy of monsoon intensity Point, outlet air reach physical activity region speed still with higher, and user still can experience stronger blowing feeling, through hole 312 setting can break up outlet air air-flow, so as to avoid outlet air air-flow blow-through user, realize calm sense air-out effect, And then the body-sensing comfort level of user can be improved.

In some embodiments of the invention, the first air-supply assembly includes the first actuator, and the first actuator is led with first Wind component 210 connects, to drive the movement of the first wind guiding component 210.Second air-supply assembly includes the second actuator, the second actuator It is connect with the second wind guiding component 310, to drive the movement of the second wind guiding component 310.Thus, it is possible to pass through the first actuator and the Two actuator independent control the first wind guiding components 210 and the second wind guiding component 310, so as to be independently adjusted the first wind-guiding group The movement angle and movement rate of the movement angle and movement rate of part 210 and the second wind guiding component 310, pass through the first wind-guiding The different fiting effects of component 210 and the second wind guiding component 310 may be implemented different air-supply effects, and then sky may be implemented Adjust the different using effects of device 1.

As shown in FIG. 12 and 13, according to some embodiments of the present invention, the first air-supply assembly further includes the first driving group Part 220, the first driving assembly 220 include the first wind wheel, and the first wind wheel is set in shell 10, and the second air-supply assembly further includes second Driving assembly 320, the second driving assembly 320 include the second wind wheel, and the second wind wheel is set in shell 10.First wind wheel can drive Air draught forms outlet air air-flow at the first air outlet 200, and the second wind wheel can drive air draught in the second air outlet 300 Place forms outlet air air-flow.

In some embodiments of the invention, the diameter of the first wind wheel can be greater than the diameter of the second wind wheel.As a result, first The driving capability of wind wheel is greater than the driving capability of the second wind wheel, and the flow velocity of the outlet air air-flow formed under the driving of the first wind wheel is big The flow velocity of the outlet air air-flow formed under the driving in the second wind wheel, so that going out general mood at the first air outlet 200 Stream blows farther relative to the outlet air air-flow at the second air outlet 300.

In some embodiments of the invention, the first driving assembly 220 further includes the first driving motor, the first driving motor It is connect with the first wind wheel, to drive the rotation of the first wind wheel.Second driving assembly 320 further includes the second driving motor, the second driving Motor is connect with the second wind wheel, to drive the rotation of the second wind wheel.The revolving speed of first driving motor is greater than turning for the second driving motor Speed.For example, the first driving motor is heavy-duty motor, the second driving motor is low-power machine, and the first driving motor is to first The driving capability of wind wheel is greater than the second driving motor to the driving capability of the second wind wheel, and the revolving speed of the first wind wheel is greater than the second wind wheel Revolving speed.Thus, it is possible to make the outlet air air-flow at the first air outlet 200 relative to the outlet air air-flow at the second air outlet 300 It blows farther.

As shown in figure 14, according to some embodiments of the present invention, the first air-supply assembly further include: the first pressure regulation part 230, the One pressure regulation part 230 is set in the first air outlet 200, and the first air-out passage 231 or first is limited in the first pressure regulation part 230 and is adjusted The side wall of casting die 230 and the first air outlet 200 limits the first air-out passage 231, and the cross-sectional area of the first air outlet 200 is A, The cross-sectional area of the external port of first air-out passage 231 is B, wherein B < A.

It should be noted that the cross-sectional area of the first air outlet 200 can be the central axis perpendicular to the first air outlet 200 The plane of line cut the resulting section of the first air outlet 200 area, the cross-sectional area of the first exhaust air flue 231 can be perpendicular to The plane of the central axis of first exhaust air flue 231 cuts the area in the resulting section of the first exhaust air flue 231.As a result, by setting The the first pressure regulation part 230 set can reduce the air-out area of the first air outlet 200, and the first pressure regulation part 230 is equivalent to the work of necking With, when the outlet air air-flow in the first air outlet 200 flows through the first air-out passage 231 in the first pressure regulation part 230, outlet air air-flow quilt The flow velocity of compression, outlet air air-flow increases, so as to extend the outlet air distance of outlet air air-flow.

In addition, by adjusting the proportionate relationship of B and A, thus it is possible to vary air-flow passes through the compression ratio of the first pressure regulation part 230, from And it can according to need and send out different in flow rate, different distance wind.

As shown in figure 14, in some embodiments of the invention, on the flow direction of air-flow, the first air-out passage 231 Cross-sectional area be gradually reduced.As a result, during air-flow flows through out the first exhaust air flue 231, air-flow is gradually to be compressed, To realize ramping up for air-flow.

As shown in figure 14, in some embodiments of the invention, on the flow direction of air-flow, the first air-out passage 231 Opposite two side walls extend towards neighbouring mutual direction inclination.As a result, by the setting, realize in gas with can be convenient On the flow direction of stream, the cross-sectional area of the first air-out passage 231 is gradually reduced, and is flowed through this in air-flow simultaneously and gone out the first outlet air During channel 231, the opposite two side walls of the first air-out passage 231 have guiding role for air-flow.

According to some embodiments of the present invention, the second air-supply assembly further include: the second pressure regulation part, the second pressure regulation part are set to the In two air outlets 300, the side of the second air-out passage or the second pressure regulation part and the second air outlet 300 is limited in the second pressure regulation part Wall limits the second air-out passage, and the cross-sectional area of the second air outlet 300 is C, the external port of the first air-out passage 231 it is transversal Area is D, wherein C < D.

It should be noted that the cross-sectional area of the second air outlet 300 can be the central axis perpendicular to the second air outlet 300 The plane of line cuts the area in the resulting section of the second air outlet 300, and the cross-sectional area of the second exhaust air flue can be perpendicular to the The plane of the central axis of two exhaust air flues cuts the area in the resulting section of the second exhaust air flue.Pass through the second of setting as a result, Pressure regulation part can expand the air-out area of the second air outlet 300, and the second pressure regulation part is equivalent to the effect of flaring, the second air outlet When outlet air air-flow in 300 flows through the first air-out passage 231 in the second pressure regulation part, air-flow is expanded, and the flow velocity of air-flow reduces, So as to shorten the outlet air distance of outlet air air-flow.

In addition, by adjusting the proportionate relationship of D and C, thus it is possible to vary air-flow passes through the second pressure regulation part divergence ratio, so as to Different in flow rate, different distance wind is sent out as needed.

In some embodiments of the invention, on the flow direction of air-flow, the cross-sectional area of the second air-out passage is gradually Increase.As a result, during air-flow flows through out the second exhaust air flue, air-flow be gradually compressed, thus realize air-flow by Gradually accelerate.

In some embodiments of the invention, on the flow direction of air-flow, opposite two side of the second air-out passage Wall is directed away from mutual direction inclination and extends.As a result, by the setting, realize with can be convenient in the flow direction of air-flow On, the cross-sectional area of the second air-out passage is gradually reduced, and simultaneously during air-flow flows through this and goes out the second air-out passage, the The opposite two side walls of two air-out passages have guiding role for air-flow.

As shown in Fig. 3-Fig. 7, according to some embodiments of the present invention, in the first air outlet 200 and the second air outlet 300 At least one is in rectangle.For example, the first air outlet 200 and the second air outlet 300 are in rectangle.Thus, it is possible to be led convenient for first The setting and installation of wind component 210 and the second wind guiding component 310.

As shown in Fig. 3-Fig. 7, according to some embodiments of the present invention, the area of the first air outlet 200 is less than or equal to second The area of air outlet 300.It is understood that the throughput of the outlet air air-flow flowed out from the first air outlet 200 is less than or equal to The throughput of the outlet air air-flow flowed out from the second air outlet 300.The throughput of the outlet air air-flow of short distance is greater than long distance as a result, From outlet air air-flow throughput, thereby may be ensured that the heat exchange rate of the air draught around air conditioner 1, with realize quickly system Cold or quick heating.In addition, the area of the first air outlet 200 it is small be conducive to improve the first air outlet 200 at outlet air air-flow go out Wind velocity and air supplying distance.

In some embodiments of the invention, the maximum width of the first air outlet 200 in the lateral direction is less than or equal to the The minimum widith of two air outlets 300 in the lateral direction.The wind-out range of the first air outlet 200 in the lateral direction is small as a result, In the wind-out range of the second air outlet 300 in the lateral direction, so that the outlet air air-flow at the first air outlet 200 can Distally toward to blow, and then the outlet air path of outlet air air-flow at the first air outlet 200 can be extended.

In some embodiments of the invention, on direction from top to bottom, first air outlet 200 is in the lateral direction Width is gradually increased or reduces.For example, the first air outlet 200 can be formed as trapezoidal.Thus, it is possible to which abundant air conditioner 1 is outer Expressive force is seen, so as to meet the aesthetic requirement of different user.

As shown in figure 14, in some embodiments of the invention, the first air outlet 200 is respectively formed with the second air outlet 300 For rectangle, the equivalent width of width and the second air outlet 300 in the horizontal direction of the first air outlet 200 in the horizontal direction, The length of first air outlet 200 in the vertical direction is L1, and the length of the second air outlet 300 in the vertical direction is L2, wherein 10%≤L1/ (L1+L2)≤50%.By experimental verification, when the length of the first air outlet 200 and the length of the second air outlet 300 Degree meets: when 10%≤L2/ (L1+L2)≤50%, it is ensured that air conditioner 1 has preferable air supplying distance and air output, mentions The high working performance of air conditioner 1.For example, in some embodiments of this hair invention, L1/L2=2/5.

According to some embodiments of the present invention, air conditioner 1 is ceiling machine or floor type air-conditioner 1 or hanging air conditioner 1 or mobile air conditioner or window machine.According to some embodiments of the present invention, air conditioner 1 can be cabinet air conditioner 1.Cabinet air conditioner 1 is one kind of split air conditioner 1, and cabinet air conditioner 1 has many advantages, such as that power is big, wind-force is strong.

Air conditioner 1 according to an embodiment of the present invention, the air conditioner 1 have wind inlet channel and exhaust air flue, the outlet air Air duct includes the spaced apart from each other first sub- exhaust air flue and the second sub- exhaust air flue, and the air conditioner 1 includes: baffle plate assembly, institute State the air-out area that baffle plate assembly is movably located at the described first sub- exhaust air flue and the described first sub- exhaust air flue can be changed.

Air conditioner according to an embodiment of the present invention, by the way that exhaust air flue to be arranged to include the spaced apart from each other first sub- outlet air Air duct and the second sub- exhaust air flue, and mobilizable baffle plate assembly is set in the first sub- exhaust air flue, so as to change first The air-out area of sub- exhaust air flue, from there through the size for the air-out area for adjusting the first sub- exhaust air flue, in air conditioner In the identical situation of the revolving speed of wind wheel, can effectively adjust the first sub- exhaust air flue goes out wind velocity, air supplying distance, meets different Individual demand under usage scenario.

According to some embodiments of the present invention, the baffle plate assembly is rotatably arranged at the described first sub- exhaust air flue, leads to The air-out area of the described first sub- exhaust air flue can be changed in the rotation for crossing the baffle plate assembly.

Some alternative embodiments according to the present invention, the baffle plate assembly include two baffles, two baffle difference It is rotatably arranged at the opposite end of the described first sub- exhaust air flue, one end of each baffle and the described first sub- outlet air wind The side wall in road is connected and the other end is free end, and the free end of two baffles can be directed away from each other or adjacent to mutual side To rotation.

Optionally, two baffles are rotatably arranged at the upper and lower ends of the described first sub- exhaust air flue respectively, and every The pivot center of a baffle is horizontally extending.

Further, the baffle positioned at upper end is spaced apart with the upper side wall of the described first sub- exhaust air flue, under being located at The baffle at end is spaced apart with the lower wall of the described first sub- exhaust air flue.

Optionally, two baffles are rotatably arranged at the left and right ends of the described first sub- exhaust air flue respectively, and every The pivot center of a baffle extends along the vertical direction.

Further, it is rotatably coupled, is located at positioned at the baffle of left end and the left side wall of the described first sub- exhaust air flue The baffle of right end and the right side wall of the described first sub- exhaust air flue are rotatably coupled.

Further, the first accommodating groove, first storage are formed on the left side wall of the described first sub- exhaust air flue Side outside the direction of slot is opened wide, and the baffle positioned at left end is suitable for being accommodated in first accommodating groove；First son The second accommodating groove is formed on the right side wall of exhaust air flue, the side outside the direction of second accommodating groove is opened wide, and right end is located at The baffle be suitable for be accommodated in second accommodating groove.

According to some embodiments of the present invention, the baffle plate assembly is slidably disposed in the described first sub- exhaust air flue, leads to The air-out area of the described first sub- exhaust air flue can be changed in the sliding for crossing the baffle plate assembly.

Some alternative embodiments according to the present invention, the baffle plate assembly include two baffles, two baffle difference It is slidably disposed in the opposite end of the described first sub- exhaust air flue, two baffles can be directed away from each other or adjacent to each other Direction sliding to adjust the air-out area of the described first sub- exhaust air flue.

Optionally, two baffles are respectively slidably located at the upper and lower ends of the described first sub- exhaust air flue, each The baffle can be slidable in the vertical direction.

Further, the upper side wall of the first sub- exhaust air flue is formed with third accommodating groove, and the baffle positioned at upper end is suitable In being accommodated in the third accommodating groove, the lower wall of the first sub- exhaust air flue is equipped with storage block, the storage block tool There is the 4th accommodating groove, the baffle positioned at lower end is suitable for being accommodated in the 4th accommodating groove.

Optionally, two baffles are respectively slidably located at the left and right ends of the described first sub- exhaust air flue, each The baffle can slide in left-right direction.

According to some embodiments of the present invention, the baffle plate assembly is collapsibly located at the described first sub- exhaust air flue, leads to The air-out area of the described first sub- exhaust air flue can be changed in the folding or expansion for crossing the baffle plate assembly.

According to some embodiments of the present invention, the exhaust air flue extends along the length direction of the air conditioner, and described the One sub- exhaust air flue and the second sub- exhaust air flue are arranged along the length direction of the exhaust air flue.

According to some embodiments of the present invention, partition is equipped at the exhaust air flue so that the exhaust air flue is separated into phase The the described first sub- exhaust air flue and the second sub- exhaust air flue mutually separated.

According to some embodiments of the present invention, the described second sub- exhaust air flue be equipped with it is multiple side by side and spaced wind-guiding Item.

According to some embodiments of the present invention, the air conditioner is split-floor type air conditioner or Split wall-mounted air-conditioning Device or ceiling machine or moveable air conditioner or window air conditioner.

Air conditioner 1 according to an embodiment of the present invention is described below with reference to Figure 16-Figure 30.The air conditioner 1 can be Split floor Ground formula air conditioner 1 is also possible to Split wall-mounted type air conditioner 1, is also possible to ceiling machine, is also possible to moveable air conditioner 1, also It can be window air conditioner 1.It is empty when air conditioner 1 is split-floor type air conditioner 1, Split wall-mounted type air conditioner 1 or ceiling machine Adjusting device 1 includes air-conditioner outdoor unit and air conditioner indoor unit.When air conditioner 1 is split-floor type air conditioner 1, the air-conditioning of air conditioner 1 The cross section of indoor unit 100 can be circle, rectangle etc..

As shown in Figure 16-Figure 30, air conditioner 1 according to an embodiment of the present invention, the air conditioner 1 has 11 He of wind inlet channel Exhaust air flue 12, exhaust air flue 12 include the spaced apart from each other first sub- exhaust air flue 121 and the second sub- exhaust air flue 122, air-conditioning Device 1 includes: baffle plate assembly, and baffle plate assembly is movably located at the first sub- exhaust air flue and going out for the first sub- exhaust air flue can be changed Wind area.

Wherein, air conditioner 1 includes: casing 1, above-mentioned baffle plate assembly, heat exchanger 2 and ducting assembly.Specifically, air inlet is logical Road 11 and air-out passage 12 run through the side wall of casing 1, such as wind inlet channel 11 can be formed on the rear wall of casing 1, out Wind air duct 12 can be formed on the front side wall of casing 1.Exhaust air flue 12 includes the spaced apart from each other first sub- exhaust air flue 121 With the second sub- exhaust air flue 122, baffle plate assembly is movably located at the first sub- exhaust air flue 121 and changeable first sub- outlet air wind The air-out area in road 121.

Heat exchanger 2 and ducting assembly are located in casing 1.Ducting assembly may include wind wheel 3 and for drive wind wheel 3 rotate Motor, exhaust passage 4 is limited in ducting assembly, wind wheel 3 can drive wind to enter in casing 1 from wind inlet channel 11, after flowing through air duct 4 Sent to the room by exhaust air flue 12, wind exchanges heat during flowing through air duct 4 with heat exchanger 2, and wind after heat exchange is from outlet air wind Road 12 blows to interior, so as to adjust room temperature.Optionally, wind wheel 3 can be tubular wine wheel.

It is to be understood that when baffle plate assembly is only connected with a part of side wall of the first sub- exhaust air flue 121, it is described " air-out area of the first sub- exhaust air flue 121 " refers to be limited between baffle plate assembly and the side wall of the first sub- exhaust air flue 121 Outlet air region external port (port that " external port in outlet air region " refers to the neighbouring external environment in outlet air region) Cross-sectional area；When baffle plate assembly is connected with the entire side wall of the first sub- exhaust air flue 121, " the first sub- exhaust air flue 121 air-out area " refers to the cross-sectional area of the external port in the outlet air region limited in baffle plate assembly.

As a result, air conditioner 1 work when, wind wheel 3 operate certain driving air-flow from wind inlet channel 11 enter casing 1 in and with heat exchange Device 2 exchanges heat, and the air-flow after heat exchange passes through exhaust air flue 12 to indoor air-supply, to adjust room temperature.In air-flow through exhaust air flue 12 to when indoor air-supply, and at least part air-flow is sent by the first sub- exhaust air flue 121 and the second sub- exhaust air flue 122 to interior Wind.

By the way that exhaust air flue 12 is arranged to include the spaced apart from each other first sub- exhaust air flue 121 and the second sub- exhaust air flue 122, mobilizable baffle plate assembly is set in the first sub- exhaust air flue 121, so as to change going out for the first sub- exhaust air flue 121 Wind area, from there through the size for the air-out area for changing the first sub- exhaust air flue 121, turn of the wind wheel 3 in ducting assembly In the identical situation of speed, can effectively adjust the first sub- exhaust air flue 121 goes out wind velocity, so as to adjust the first sub- outlet air The air supplying distance in air duct 121.Also, by the wind velocity out for adjusting the first sub- exhaust air flue 121, the first sub- outlet air can be made The wind velocity out in air duct 121 and the wind velocity out of the second sub- exhaust air flue 122 are identical or different, so as to make as needed The air supplying distance of first sub- exhaust air flue 121 and the air supplying distance of the second sub- exhaust air flue 122 are identical or different, and meeting difference makes With the individual demand under scene.

It is understood that the first sub- exhaust air flue 121 and the second sub- exhaust air flue 122 are in the feelings for sharing a wind wheel 3 Under condition and in the case where the first sub- 121 not set above-mentioned baffle plate assembly of exhaust air flue, the first sub- exhaust air flue 121 and the second son The normal air-supply of exhaust air flue 122, the wind speed out for going out wind velocity and the second sub- exhaust air flue 122 of the first sub- exhaust air flue 121 Spend roughly the same, therefore air supplying distance is also roughly the same.First sub- exhaust air flue 121 and the second sub- exhaust air flue 122 are sharing In the case where one wind wheel 3 and in the case where above-mentioned baffle plate assembly is arranged in the first sub- exhaust air flue 121, the second sub- exhaust air flue 122 normal air-supplies, the activity by controlling baffle plate assembly go out according to the specific location situation of baffle plate assembly relative to the first son The case where 121 not set above-mentioned baffle plate assembly of wind air duct, can make the air-out area of the first sub- exhaust air flue 121 relatively basic It is constant, opposite to reduce or increase relatively.

When the air-out area of the first sub- exhaust air flue is relatively basic constant, the first sub- exhaust air flue 121, which is in, normally to be gone out Wind state, go out wind velocity, the air supplying distance of the first sub- exhaust air flue 121 and the first sub- exhaust air flue 122 can substantially phases at this time Together.The air-out area of the first sub- exhaust air flue 121 is opposite reduce when, the first sub- exhaust air flue 121 go out wind velocity, air-supply away from From can significantly less than the second sub- exhaust air flue 122 go out wind velocity, air supplying distance.In the outlet air of the first sub- exhaust air flue 121 When area increases relatively, wind velocity, the air supplying distance out of the first sub- exhaust air flue 121 can be noticeably greater than the second sub- exhaust air flue 122 wind velocity, air supplying distance out.Thus, it is possible to which the differentiation that the exhaust air flue 12 for improving air conditioner 1 is blown, improves air-conditioning The air supplying distance of device 1 improves the comfortable experience of air conditioner 1, meets the different demands of user.

Optionally, air outlet grate can also be arranged in the first sub- exhaust air flue 121, and filter screen can be set on air outlet grate, The inside that air outlet grate is located at baffle plate assembly (refers to the center of the neighbouring casing 1 of baffle plate assembly on the inside of the baffle plate assembly Side), pass through the air outlet grate and filter screen of setting, it is possible to reduce into the dust and solid sundries of casing 1.

It should be noted that being split-floor type air conditioner 1, Split wall-mounted type air conditioner 1 or ceiling machine in air conditioner 1 When, air conditioner 1 includes air-conditioner outdoor unit and air conditioner indoor unit 100, and air-conditioner outdoor unit is connected with air conditioner indoor unit 100 constitutes system Refrigerant cycle flow path.Wherein, air conditioner indoor unit 100 may include above-mentioned casing, the heat exchanger being located in casing and air duct group Part and above-mentioned baffle plate assembly.

Air conditioner 1 according to an embodiment of the present invention, by the way that exhaust air flue 12 to be arranged to include the first son spaced apart from each other Exhaust air flue 121 and the second sub- exhaust air flue 122, and movably baffle plate assembly is set in the first sub- exhaust air flue 121, from And can change the air-out area of the first sub- exhaust air flue 121, from there through the air-out area for adjusting the first sub- exhaust air flue 121 Size, in the identical situation of revolving speed of the wind wheel 3 in air conditioner 1, can effectively adjust the first sub- exhaust air flue 121 go out Wind velocity, air supplying distance meet the individual demand under different usage scenarios.

According to some embodiments of the present invention, at exhaust air flue 12 be equipped with partition with by exhaust air flue 12 be separated into mutually every The sub- exhaust air flue 121 of first opened and the second sub- exhaust air flue 122.As a result, by the aforementioned barriers of setting, incite somebody to action with can be convenient Exhaust air flue 12 is separated into the spaced apart from each other first sub- exhaust air flue 121 and the second sub- exhaust air flue 122.

According to some embodiments of the present invention, exhaust air flue 12 extends along the length direction of air conditioner 1, the first sub- outlet air wind Road 121 and the second sub- exhaust air flue 122 are arranged along the length direction of exhaust air flue 12.Pass through the first sub- outlet air wind of control as a result, The air-out area in road 121, so that exhaust air flue 12 realizes air-supply differentiation on the length direction of air conditioner 1.

Wherein, when air conditioner 1 vertically extends, exhaust air flue 12 can be vertically extended (for example, in sky When tune device 1 is split-floor type air conditioner 1, air conditioner indoor unit 100 is vertically extended, and exhaust air flue 12 is formed in air conditioning chamber On interior machine 100, exhaust air flue 12 can be vertically extended), the first sub- exhaust air flue 121 and the second sub- exhaust air flue 122 It can arrange along the vertical direction.By controlling the air-out area of the first sub- exhaust air flue 121, so that exhaust air flue 12 is in upper and lower Air-supply differentiation is realized upwards.

When air conditioner 1 extends in left-right direction, exhaust air flue 12 can extend in left-right direction, (for example, in air conditioner 1 be Split wall-mounted type air conditioner 1 when, air conditioner indoor unit 100 extends in left-right direction, and exhaust air flue 12 is formed in air conditioner indoor unit On 100, exhaust air flue 12 can extend in left-right direction), the first sub- exhaust air flue 121 and the second sub- exhaust air flue 122 can be with It arranges in left-right direction, by controlling the air-out area of the first sub- exhaust air flue 121, so that exhaust air flue 12 is in the lateral direction Realize air-supply differentiation.

For example, in the example of Figure 16-Figure 22, Figure 24-Figure 25 and Figure 27-Figure 30, air conditioner 1 is Split floor for invention Formula air conditioner 1, air conditioner indoor unit 100 extend along the vertical direction, and exhaust air flue 12 is formed on air conditioner indoor unit 100, outlet air wind Road 12 extends along the vertical direction, and the first sub- exhaust air flue 121 is located at the top of the second sub- exhaust air flue 122.Pass through control as a result, The air-out area of first sub- exhaust air flue 121, so that exhaust air flue 12 realizes air-supply differentiation in the up-down direction.In the implementation It may include following situation in example: 1) partition be set in exhaust air flue 12 so that exhaust air flue 12 is separated into two up and down Point, wherein be located at upper part is the first sub- exhaust air flue 121, what it is positioned at lower part is the second sub- exhaust air flue 122；2) outlet air Two partitions are set in air duct 12, and two partitions are spaced along the vertical direction to be arranged so that exhaust air flue 12 to be separated into along the vertical direction The three parts of arrangement, wherein be located at middle part is the first sub- exhaust air flue 121, what it is positioned at lower part is the second sub- exhaust air flue 122, Superposed is third wind outlet area, and the wind velocity that goes out of third wind outlet area can be with the wind velocity out of the second sub- exhaust air flue 122 It is identical.

In other examples, exhaust air flue 12 extends along the vertical direction, and the first sub- exhaust air flue 121 and the second son go out Wind air duct 122 can arrange in the horizontal direction (for example, when exhaust air flue 12 is located at the front side of casing 1, the first sub- outlet air wind Road 121 and the second sub- exhaust air flue 122 can arrange in left-right direction).

According to some embodiments of the present invention, 6- Figure 26, baffle plate assembly are rotatably arranged at the first sub- outlet air wind referring to Fig.1 Road 121 passes through the air-out area of the changeable first sub- exhaust air flue 121 of the rotation of baffle plate assembly.Pass through baffle plate assembly as a result, Rotation, adjusts the air-out area of the first sub- exhaust air flue 121 in which can be convenient.

Some alternative embodiments according to the present invention, referring to Fig.1 6- Figure 26, baffle plate assembly include two baffle 1a, and two Baffle 1a is rotatably arranged at the opposite end of the first sub- exhaust air flue 121 respectively, and one end and the first son of each baffle 1a goes out The side wall in wind air duct 121 is connected and the other end is free end, and the free end of two baffle 1a can be directed away from each other or adjacent to that This direction rotation.Thus, it is possible to by the rotational angle for controlling two baffle 1a respectively, so that two baffle 1a are turned to and set Positioning is set, and the air-out area of the first sub- exhaust air flue 121 can be made to be adjusted to default size, so that the first son goes out Wind velocity and the air supplying distance out in wind air duct 121 reach preset requirement.In addition, turning to closed position in two baffle 1a When, two baffle 1a close the first sub- exhaust air flue 121 jointly.

Optionally, 6- Figure 26, two baffle 1a are rotatably arranged at the upper of the first sub- exhaust air flue 121 respectively referring to Fig.1 Lower both ends, and the pivot center of each baffle 1a is horizontally extending.As a result, in the up-down direction by two baffle 1a Rotation, adjusts the air-out area of the first sub- exhaust air flue 121 in which can be convenient.For example, being respectively positioned on horizontal position in two baffle 1a When setting, the first sub- exhaust air flue 121 is in normal outlet air state (referring to Fig.1 8)；In the free end of two baffle 1a towards neighbouring When mutual direction moves, the air-out area of the first sub- exhaust air flue 121 reduces, and the first sub- exhaust air flue 121 is in diffusion and send Wind state；When two baffle 1a move to vertical position, two baffle 1a close the first sub- 121 (ginseng of exhaust air flue jointly According to Figure 16 and Figure 17), the first sub- exhaust air flue 121 is in closed state.Optionally, two baffle 1a can be in tabular.

Further, 6- Figure 20 referring to Fig.1, between the upper side wall of the sub- exhaust air flue 121 of the baffle 1a of upper end and first It separates, the baffle 1a positioned at lower end is spaced apart with the lower wall of the first sub- exhaust air flue 121.Pass through two baffles of control as a result, The rotation of 1a not only can change the air-out area of the first sub- exhaust air flue 121, and be turned to by controlling two baffle 1a The position of setting can also change air-out direction.For example, can make the first sub- exhaust air flue 121 towards upper wind-guiding (referring to figure 19, such as when air conditioner 1 freezes), towards lower wind-guiding (referring to Figure 20, such as when air conditioner 1 heats), along horizontal direction Air-supply (referring to Fig.1 8, such as when exhaust air flue 12 is located at the front side of casing 1, the first sub- 121 direction of exhaust air flue can be made Front air-supply), it can also realize that (free end of two baffle 1a is turned to close to mutual position, out at this time for diffusion air-supply Wind area reduces relatively, and wind velocity improves out, and air supplying distance increases) or the decompression outlet air (free end of two baffle 1a turn at this time It moves to position away from each other, air-out area is opposite to be increased, and wind velocity reduces out, and air supplying distance reduces).

For example, exhaust air flue 12 is formed in the front side of casing 1 and exhaust air flue 12 is along perpendicular in the example of Figure 16-Figure 20 Histogram is to extension, and exhaust air flue 12 is divided into two wind outlet areas up and down, and superposed is the first sub- exhaust air flue 121, position What it is in lower part is the second sub- exhaust air flue 122, the second sub- normally air-supply of exhaust air flue 122.It is equipped in first sub- exhaust air flue 121 Above-mentioned two baffle 1a, and two baffle 1a are rotatably arranged at the upper and lower ends of the first sub- exhaust air flue 121, each gear respectively Plate 1a is in that the pivot center of tabular and each baffle 1a extend in left-right direction, and baffle 1a and the first son positioned at upper end go out The upper side wall in wind air duct 121 is spaced apart, and the baffle 1a positioned at lower end is spaced apart with the lower wall of the first sub- exhaust air flue 121.By When air conditioner 1 is run, by controlling the rotation of two baffle 1a, different air supply patterns may be implemented in this.

Specifically, 6- Figure 20 referring to Fig.1, when two baffle 1a turn to horizontal position, two baffle 1a are equal at this time It is parallel to horizontal plane, towards front outlet air, the first sub- exhaust air flue 121 is in normally to be sent the first sub- exhaust air flue 121 at this time Wind state (referring to Fig.1 8).When two baffle 1a are turned to towards acclivitous position, the freedom of two baffle 1a at this time End extends towards upper inclination, and the first sub- exhaust air flue 121 is in upward wind-guiding state (referring to Fig.1 9) at this time.In two baffles When 1a is turned to towards the position tilted down, the free end of two baffle 1a is towards tilting down extension at this time, and at this time first Sub- exhaust air flue 121 is in downward wind-guiding state (referring to Figure 20).

When the free end of two baffle 1a is rotated towards neighbouring mutual direction, the baffle 1a positioned at upper end turns to it Free end is towards extension is tilted down, and the baffle 1a positioned at lower end turns to its free end and extends towards upper inclination, the first sub- outlet air The air-out area in air duct 121 reduces, and the first sub- exhaust air flue 121 is in diffusion ventilation state at this time；Two baffle 1a from When being directed away from the rotation of mutual direction by end, the baffle 1a positioned at upper end turns to its free end and extends towards upper inclination, position Baffle 1a in lower end turns to its free end and increases towards extension, the air-out area of the first sub- exhaust air flue 121 is tilted down, this When the first sub- exhaust air flue 121 be in decompression ventilation state.

Optionally, it is rotatably arranged at a left side for the first sub- exhaust air flue 121 respectively referring to Figure 21-Figure 26, two baffle 1a Right both ends, and the pivot center of each baffle 1a extends along the vertical direction.As a result, in the lateral direction by two baffle 1a Rotation, adjusts the air-out area of the first sub- exhaust air flue 121 in which can be convenient.For example, being respectively positioned on and air duct in two baffle 1a When the extending direction of the side wall in the air duct 4 of component position unanimous on the whole, the first sub- exhaust air flue 121 is in normal outlet air state (referring to Figure 21-Figure 23)；When two baffle 1a are moved towards neighbouring mutual direction, two baffle 1a are respectively positioned on and air duct group The inside of the extending direction of the side wall in the air duct 4 of part, the area of the first sub- exhaust air flue 121 reduce (referring to Figure 24-Figure 26), the One sub- exhaust air flue 121 is in diffusion ventilation state；When two baffle 1a move to the position of general coplanar, two baffles 1a closes the first sub- exhaust air flue 121 jointly, and the first sub- exhaust air flue 121 is in closed state.

Further, referring to Figure 21-Figure 26, the left side wall positioned at the sub- exhaust air flue 121 of the baffle 1a of left end and first can It rotationally connects, is rotatably coupled positioned at the baffle 1a of right end and the right side wall of the first sub- exhaust air flue 121.Pass through as a result, The normal outlet air state and diffusion ventilation state of the first sub- exhaust air flue 121 may be implemented in the rotation for controlling two baffle 1a Switching.Optionally, one in two baffle 1a can be in tabular, another in two baffle 1a can be bending Plate, the setting can preferably adapt to 4 shape of air duct of ducting assembly, reduce the loss of air-flow.

Further, referring to Figure 21-Figure 26, the first accommodating groove is formed on the left side wall of the first sub- exhaust air flue 121 Side outside the direction of 121a, the first accommodating groove 121a is opened wide, and the baffle 1a positioned at left end is suitable for being accommodated in the first accommodating groove In 121a；The direction that the second accommodating groove 121b, the second accommodating groove 121b is formed on the right side wall of first sub- exhaust air flue 121 is outer Side open wide, positioned at right end baffle 1a be suitable for be accommodated in the second accommodating groove 121b.Pass through the first storage of setting as a result, Slot 121a and the second accommodating groove 121b, facilitates the storage of two baffle 1a, in normal outlet air at the first sub- exhaust air flue 121 When state, two baffle 1a are accommodated in respectively in the first accommodating groove 121a, the second accommodating groove 121b, and at two baffle 1a points When not being accommodated in the first accommodating groove 121a, the second accommodating groove 121b, the extending direction of two baffle 1a and above-mentioned ducting assembly Air duct 4 side wall extending direction it is unanimous on the whole.In this embodiment, the "outside" refers to the direction of neighbouring external environment.

In other examples, two baffle 1a are rotatably arranged at opposite the two of the first sub- exhaust air flue 121 respectively When end, each baffle 1a may include multiple sub- baffles being sequentially connected, and rotationally be connected between two neighboring sub- baffle, From there through the rotation of the every sub- baffle controlled in each baffle 1a, each baffle 1a can be made to be formed as different shapes Shape, so as to different air guide structures.

In other examples, when baffle plate assembly is rotatably arranged at the first sub- exhaust air flue 121, baffle plate assembly can be with It only include that a baffle 1a and baffle 1a are rotatably arranged at the first sub- exhaust air flue 121, it can by the rotation of baffle 1a Change the air-out area of the first sub- exhaust air flue 121.

According to some embodiments of the present invention, referring to Figure 27-Figure 30, baffle plate assembly is slidably disposed in the first sub- outlet air wind Road 121 passes through the air-out area of the changeable first sub- exhaust air flue 121 of the sliding of baffle plate assembly.Pass through baffle plate assembly as a result, Sliding, adjusts the air-out area of the first sub- exhaust air flue 121 in which can be convenient.It is understood that in the first sub- exhaust air flue 121 area ratios that are blocked by baffle plate assembly are bigger, the air-out area of the first sub- exhaust air flue 121 reduce it is more, by the The flow velocity of the air-flow of one sub- exhaust air flue 121 is increased more, so that air supplying distance is also bigger.

Some alternative embodiments according to the present invention, referring to Figure 27-Figure 30, baffle plate assembly includes two baffle 1a, and two Baffle 1a is respectively slidably located at the opposite end of the first sub- exhaust air flue 121 (for example, two baffle 1a can be located at first The upper and lower ends of sub- exhaust air flue 121, two baffle 1a can be located at the left and right ends of the first sub- exhaust air flue 121), two Baffle 1a can be directed away from each other or neighbouring mutual direction is slided to adjust the air-out area of the first sub- exhaust air flue 121.By This adjusts the air-out area of the first sub- exhaust air flue 121 by the sliding of two baffle 1a of control simultaneously in which can be convenient, and And by two baffle 1a of setting, it can reduce the size of single baffle 1a, improve the structural strength of baffle 1a.In addition, two Baffle 1a can close the first sub- exhaust air flue 121 when sliding into closed position, through the collective effect of two baffle 1a.

Optionally, two baffle 1a are respectively slidably located at the upper and lower ends of the first sub- exhaust air flue 121, each baffle 1a can be slidable in the vertical direction.Pass through while controlling sliding up and down for two baffle 1a as a result, adjusts first with can be convenient The air-out area of sub- exhaust air flue 121, and by two baffle 1a of setting, it can reduce the size of single baffle 1a, improve The structural strength of baffle 1a.

Further, the upper and lower ends of the first sub- exhaust air flue 121 are respectively provided at referring to Figure 27-Figure 30, two baffle 1a, The upper side wall of first sub- exhaust air flue 121 is formed with third accommodating groove, and the baffle 1a positioned at upper end is suitable for being accommodated in third storage In slot, the lower wall of the first sub- exhaust air flue 121 is equipped with storage block 1c, and storage block 1c has the 4th accommodating groove, is located at lower end Baffle 1a be suitable for be accommodated in the 4th accommodating groove.As a result, by the third accommodating groove and the 4th accommodating groove of setting, two are facilitated The storage of a baffle 1a, at the first sub- exhaust air flue 121 in normal outlet air state, two baffle 1a are accommodated in third respectively In accommodating groove, the 4th accommodating groove.Towards when sliding close to mutual direction, the first son goes out any one in two baffle 1a The air-out area in wind air duct 121 reduces, can be by controlling distance that baffle 1a is slided toward each other to adjust the first sub- outlet air The air-out area in air duct 121.

Optionally, two baffle 1a are respectively slidably located at the left and right ends of the first sub- exhaust air flue 121, each baffle It can slide in left-right direction.Pass through while controlling horizontally slipping for two baffle 1a as a result, adjust the first son with can be convenient The air-out area of exhaust air flue 121, and by two baffle 1a of setting, it can reduce the size of single baffle 1a, improve gear The structural strength of plate 1a.

In other examples, when baffle plate assembly is slidably disposed in the first sub- exhaust air flue 121, baffle plate assembly It can only include a baffle 1a.For example, the first sub- exhaust air flue 121 can be located at the top of exhaust air flue 12 and neighbouring body Top, baffle 1a can slide up and down to the upper end for being connected to the first sub- exhaust air flue 121, the first sub- exhaust air flue 121 it is upper Side wall is formed with the accommodating groove for being suitable for storing baffle 1a.When in baffle 1a upward sliding to accommodating groove, the first sub- outlet air wind Road 121 is in normal outlet air state；When baffle 1a slide downward goes out accommodating groove, the air-out area of the first sub- exhaust air flue 121 Reduce, it can be by controlling the distance of baffle 1a slide downward to adjust the air-out area of the first sub- exhaust air flue 121.

According to some embodiments of the present invention, baffle plate assembly is collapsibly located at the first sub- exhaust air flue 121, passes through baffle The folding of component or the air-out area that changeable first sub- exhaust air flue 121 is unfolded.Storage shape is folded in baffle plate assembly as a result, When state, the first sub- exhaust air flue 121 is in normal outlet air state；In at least part expansion of baffle plate assembly to block the first son When a part of exhaust air flue 121, the air-out area of the first sub- exhaust air flue 121 reduces；Complete screening is expanded in baffle plate assembly When keeping off the position of the first sub- exhaust air flue 121, the first sub- exhaust air flue 121 is closed.

Optionally, baffle plate assembly may include a folding baffle 1a, and baffle 1a can be set in the first sub- outlet air On one side wall in air duct 121, baffle 1a has receiving state and opening state.It is expanded in baffle 1a and closes the first sub- outlet air When the position in air duct 121, baffle 1a is in opening state, and baffle 1a can close the first sub- exhaust air flue 121；At baffle 1a In receiving state, baffle 1a opens the first sub- exhaust air flue 121, can be by controlling the folding degree of baffle 1a to adjust The air-out area of first sub- exhaust air flue 121.

According to some embodiments of the present invention, 6- Figure 22, Figure 24-Figure 25, Figure 27-Figure 30 referring to Fig.1, the second sub- outlet air wind Road 122 be equipped with it is multiple side by side and spaced wind guide strip.It can make the second outlet air by multiple wind guide strips of setting as a result, Realize the fine tuning of pendulum wind or air-out direction in air duct 12.For example, in the example of Figure 16-Figure 22, Figure 24-Figure 25 and Figure 27-Figure 30, Exhaust air flue 12 is formed in the front side of casing 1 and vertically extends, and the first sub- exhaust air flue 121 is located at the second sub- outlet air wind The top in road 122, the second sub- exhaust air flue 122 are equipped with the spaced wind guide strip of multiple directions, and each wind guide strip can be along a left side Right direction is swung.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (25)

1. a kind of air conditioner characterized by comprising

Shell, the shell be equipped with the first air-supply assembly and the second air-supply assembly, first air-supply assembly it is farthest blow away from From the farthest air supplying distance for being greater than second air-supply assembly；

First air-supply assembly includes the first air outlet, and second air-supply assembly includes the second air outlet.

2. air conditioner according to claim 1, which is characterized in that first air outlet is located at second air outlet Above or below；

Alternatively, first air outlet is located at the left or right side of second air outlet.

3. air conditioner according to claim 1, which is characterized in that second air outlet be it is multiple, multiple described second Air outlet is spaced apart, and first air outlet is located therein between second air outlet of adjacent two.

4. air conditioner according to claim 1, which is characterized in that first air-supply assembly includes the first wind guiding component, First wind guiding component is located at first air outlet, and first wind guiding component is movable relative to the shell；

Second air-supply assembly includes the second wind guiding component, and second wind guiding component is located at second air outlet, described Second wind guiding component is movable relative to the shell.

5. air conditioner according to claim 4, which is characterized in that first wind guiding component includes multiple first wind-guidings Item, each first wind guide strip is movable relative to the shell, multiple first wind guide strips row of interval along the vertical direction Cloth, each first wind guide strip are horizontally extending；

Second wind guiding component includes multiple second wind guide strips, and each second wind guide strip is relative to the shell Dynamic, multiple second wind guide strips are intervally arranged along the horizontal direction, and each second wind guide strip is along the vertical direction Extend.

6. air conditioner according to claim 5, which is characterized in that first wind guide strip, which has, thickens section, described to thicken The thickness of section is gradually increased along air-out direction.

7. air conditioner according to claim 6, which is characterized in that first wind guide strip include first while and when second, On the air-out direction, the described first upstream when being located at described second is described to thicken section and second back gauge is small In the section that thickens at a distance from first side.

8. air conditioner according to claim 5, which is characterized in that first wind guiding component further includes grid, in outlet air On direction, the grid is located at the upstream or downstream of first wind guide strip.

9. air conditioner according to claim 5, which is characterized in that second wind guiding component further includes blinds, in outlet air On direction, the blinds is located at the upstream or downstream of second wind guide strip.

10. air conditioner according to claim 4, which is characterized in that first air-supply assembly includes the first actuator, institute It states the first actuator to connect with first wind guiding component, to drive first wind guiding component to move；

Second air-supply assembly includes the second actuator, and second actuator is connect with second wind guiding component, to drive Move the second wind guiding component movement.

11. air conditioner according to claim 1, which is characterized in that first air-supply assembly further include:

First wind wheel, first wind wheel are disposed in the housing；

Second air-supply assembly further include:

Second wind wheel, second wind wheel are disposed in the housing.

12. air conditioner according to claim 11, which is characterized in that the diameter of first wind wheel is greater than second wind The diameter of wheel.

13. air conditioner according to claim 11, which is characterized in that first air-supply assembly further include:

First driving motor, first driving motor are connect with first wind wheel, to drive first wind wheel to rotate；

Second air-supply assembly further include:

Second driving motor, second driving motor are connect with second wind wheel, to drive second wind wheel to rotate；

The revolving speed of first driving motor is greater than the revolving speed of second driving motor.

14. air conditioner according to claim 1, which is characterized in that first air-supply assembly further include:

First pressure regulation part, the first pressure regulation part are set in first air outlet, limit first in the first pressure regulation part The side wall of air-out passage or the first pressure regulation part and first air outlet limits the first air-out passage, first outlet air The cross-sectional area of mouth is A, and the cross-sectional area of the external port of first air-out passage is B, wherein B < A.

15. air conditioner according to claim 14, which is characterized in that on the flow direction of air-flow, first outlet air The cross-sectional area in channel is gradually reduced.

16. air conditioner according to claim 15, which is characterized in that on the flow direction of air-flow, first outlet air The opposite two side walls in channel extend towards neighbouring mutual direction inclination.

17. air conditioner according to claim 1, which is characterized in that second air-supply assembly further include:

Second pressure regulation part, the second pressure regulation part are set in second air outlet, limit second in the second pressure regulation part The side wall of air-out passage or the second pressure regulation part and second air outlet limits the second air-out passage, second outlet air The cross-sectional area of mouth is C, and the cross-sectional area of the external port of first air-out passage is D, wherein C < D.

18. air conditioner according to claim 17, which is characterized in that on the flow direction of air-flow, second outlet air The cross-sectional area in channel is gradually increased.

19. air conditioner according to claim 18, which is characterized in that on the flow direction of air-flow, second outlet air The opposite two side walls in channel are directed away from mutual direction inclination and extend.

20. air conditioner described in any one of -19 according to claim 1, which is characterized in that the area of first air outlet is small In the area for being equal to second air outlet.

21. air conditioner according to claim 20, which is characterized in that the maximum of first air outlet in the lateral direction Width is less than or equal to the minimum widith of second air outlet in the lateral direction.

22. air conditioner according to claim 21, which is characterized in that on direction from top to bottom, first outlet air The width of mouth in the lateral direction is gradually increased or reduces.

23. air conditioner according to claim 21, which is characterized in that first air outlet and second air outlet are equal Be formed as rectangle, the width of first air outlet in the horizontal direction and the width of second air outlet in the horizontal direction Unanimously, the length of first air outlet in the vertical direction is L1, and the length of second air outlet in the vertical direction is L2, wherein 10%≤L1/ (L1+L2)≤50%.

24. air conditioner according to claim 23, which is characterized in that L1/L2=2/5.

25. air conditioner according to claim 1, which is characterized in that the air conditioner is ceiling machine or floor air conditioner Device or hanging air conditioner or mobile air conditioner or window machine.