CN205351696U - A air deflection assembly and air conditioner for air conditioner - Google Patents

Abstract

The utility model discloses an air deflection assembly and air conditioner for air conditioner. Wherein, air deflection assembly includes: the aviation baffle, but the aviation baffle pivot establish the air outlet department at the air conditioner, be equipped with at least one installing port on the aviation baffle, the multiunit wind subassembly that looses the wind subassembly for single layer structure and rotationally establishes on the installing port in order being suitable for the wind diffusion flux who blows off the air outlet, and the part is loose the wind subassembly and is air wheel component, and all the other are grid assembly. According to the utility model discloses an use the travelling comfort that is used for the air deflection assembly of air conditioner, and through setting up the multiunit wind subassembly that looses on the aviation baffle, and the multiunit looses part in the wind subassembly and looses the wind subassembly and be air wheel component, and all the other parts be grid assembly, and the mode that from this can make the wind that blows out via the wind subassembly that looses be the diffusion flows, can avoid wind to follow same orientation and follow the air outlet and directly blow out, and then can realize the non -wind -sense effect of air conditioner, has improved the air conditioner.

Description

Air deflection assemblies and air-conditioner for air-conditioner

Technical field

This utility model relates to air-conditioning technique field, specifically, particularly relates to a kind of air deflection assemblies for air-conditioner and air-conditioner.

Background technology

User usually opens air conditioner refrigerating or heat-production functions, makes indoor environment temperature maintain and hands in comfortable scope, if with the wind of cold air or steam to after on the body of people, may feel that wind-force is powerful so that the comfortableness of air-conditioner is poor.Particularly in summer, when air-conditioner is when refrigeration, the cold air rushed very much can make the body constitution colonies on the weak side such as some old men, anemia of pregnant woman, child easily suffer from air conditioning disease.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique at least to a certain extent.

For this, the utility model proposes a kind of air deflection assemblies for air-conditioner, the described air deflection assemblies for air-conditioner has the effect of calm sense wind-guiding.

This utility model also proposes a kind of air-conditioner, and described air-conditioner has the air deflection assemblies for air-conditioner as above.

According to a kind of air deflection assemblies for air-conditioner that this utility model provides, including: wind deflector, described wind deflector is pivotally arranged in the air outlet place of described air-conditioner, and described wind deflector is provided with at least one installing port；Many groups dissipate wind assembly, and described scattered wind assembly is single layer structure and is rotatably arranged on described installing port to be suitable for the wind diffusional flow blown out by described air outlet, and the described scattered wind assembly of part is wind wheel assembly, and all the other are grid component.

The air deflection assemblies for air-conditioner according to this utility model embodiment, wind assembly is dissipated by arranging many groups on wind deflector, and many groups dissipates the part in wind assembly, and to dissipate wind assembly be wind wheel assembly, remainder is grid component, the wind via the blowout of scattered wind assembly thus can be made to flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet in the same direction, and then the calm sense effect of air-conditioner can be realized, improve the comfort of air-conditioner.

According to an embodiment of the present utility model, described scattered wind assembly and described installing port one_to_one corresponding.

According to an embodiment of the present utility model, the internal perisporium of described installing port is provided with the groove that keeps out the wind, the outer peripheral edge of described scattered wind assembly be positioned at described in keep out the wind groove.

According to an embodiment of the present utility model, described scattered wind assembly is connected with described wind deflector by connecting support.

According to an embodiment of the present utility model, described connection support is one and described connection support to be extended along the length direction of described wind deflector, and described least one set dissipates wind assembly and is all connected support connection with described.

According to an embodiment of the present utility model, one end of described connection support is connected with described scattered wind assembly, and the other end is connected with described wind deflector.

According to an embodiment of the present utility model, each described scattered wind assembly is connected with described wind deflector by multiple described connection supports, and the multiple described connection support on each described scattered wind assembly is uniformly arranged along the circumferential direction of its rotation axis.

According to an embodiment of the present utility model, each described scattered wind assembly is connected with described wind deflector by a described connection support.

According to an embodiment of the present utility model, described connection support is metal rack or plastic stent.

According to an embodiment of the present utility model, described connection support is one-body molded with described wind deflector.

According to an embodiment of the present utility model, described scattered wind assembly includes: dissipating wind main body, described scattered wind main body is configured to described wind wheel assembly or grid component, and described scattered wind main body is rotatably arranged on described installing port；Pivotal axis, described pivotal axis is located on described connection support, and described scattered wind main body is set on described pivotal axis pivotly.

According to an embodiment of the present utility model, described scattered wind assembly also includes bearing, and the inner ring of described bearing and described pivotal axis closely cooperate, and the outer ring of described bearing and described scattered wind main body closely cooperate.

According to an embodiment of the present utility model, described wind wheel assembly being provided with mean for the pivoting hole of described pivotal axis traverse, and described wind wheel assembly includes: multiple blades, multiple described blades are spaced apart along the circumferential direction of described pivoting hole.

According to an embodiment of the present utility model, described blade number is 3-24 sheet.

According to an embodiment of the present utility model, described blade is 8,12 or 15.

The angle of the air-out direction according to an embodiment of the present utility model, described blade place plane and described air outlet is 10 °-80 °.

The angle of the air-out direction according to an embodiment of the present utility model, described blade place plane and described air outlet is 20 ° or 60 °.

According to an embodiment of the present utility model, described grid component includes: distance piece, and described distance piece is provided with mean for the pivoting hole of described pivotal axis traverse；Multiple blinkers, the plurality of blinker is distributed in the both sides of described distance piece, having angle between each described blinker and the air-out direction of described air outlet, the described angle of at least one blinker in plurality of described blinker and the described angle of all the other blinkers are not etc..

According to an embodiment of the present utility model, described grid component also includes air-ducting ring, it is enclosed within described pivotal axis outside described air-ducting ring and described distance piece extends along the radial direction of described air-ducting ring, one end of the plurality of blinker is connected with the internal perisporium of described air-ducting ring, and the other end is connected with described distance piece.

According to an embodiment of the present utility model, described air-ducting ring is formed as annular air-ducting ring.

The angle of the air-out direction according to an embodiment of the present utility model, described blinker and described air outlet is 10 °-80 °.

According to an embodiment of the present utility model, the bearing of trend of multiple described blinkers is unanimous on the whole.

According to a kind of air-conditioner that this utility model provides, described air-conditioner is provided with air outlet and includes the air deflection assemblies for air-conditioner as above.

Air-conditioner according to this utility model embodiment, wind assembly is dissipated by arranging many groups on wind deflector, and many groups dissipates the part in wind assembly, and to dissipate wind assembly be wind wheel assembly, remainder is grid component, the wind via the blowout of scattered wind assembly thus can be made to flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet in the same direction, and then the calm sense effect of air-conditioner can be realized, improve the comfort of air-conditioner.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become apparent from the description below, or is recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 2 is the cross-sectional schematic in Fig. 1 along A-A；

Fig. 3 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 4 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 5 is the perspective exploded view of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 6 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 7 is the cross-sectional schematic in Fig. 6 along B-B；

Fig. 8 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Fig. 9 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 10 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 11 is the cross-sectional schematic in Figure 10 along C-C；

Figure 12 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 13 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 14 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 15 is the cross-sectional schematic in Figure 14 along D-D；

Figure 16 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 17 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 18 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 19 is the front view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 20 is the front view of the air-conditioner according to this utility model embodiment, and air-conditioner is air-conditining；

Figure 21 is the perspective view of the air-conditioner according to this utility model embodiment, and wherein wind deflector is in the state closing air outlet；

Figure 22 is the structural representation of the air-conditioner according to this utility model embodiment, and wherein wind deflector is in the state opening air outlet；

Figure 23 is the structural representation of the air-conditioner according to this utility model embodiment, and wherein wind deflector is in the state opening air outlet；

Figure 24 is the perspective view of the air-conditioner according to this utility model embodiment, and air-conditioner is mobile air-conditioner；

Figure 25 is the perspective view of the air-conditioner according to this utility model embodiment, and air-conditioner is cabinet air-conditioner；

Figure 26 is the perspective view of the air-conditioner according to this utility model embodiment；

Figure 27 is the structural representation of the air-conditioner according to this utility model embodiment；

Figure 28 is the partial structurtes enlarged diagram at E place in Figure 27；

Figure 29 is the perspective view of the air-conditioner according to this utility model embodiment；

Figure 30 is the structural representation of the air-conditioner according to this utility model embodiment；

Figure 31 is the partial structurtes enlarged diagram at F place in Figure 30；

Figure 32 is the cross-sectional schematic in Figure 30 along G-G；

Figure 33 is the perspective view of the air-conditioner according to this utility model embodiment；

Figure 34 is the structural representation of the air-conditioner according to this utility model embodiment；

Figure 35 is the cross-sectional schematic in Figure 34 along H-H；

Figure 36 is the partial structurtes enlarged diagram at I place in Figure 34；

Figure 37 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 38 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 39 is the cross-sectional schematic of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 40 is the perspective view of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 41 is the structural representation of the wind deflector of the air-conditioner according to this utility model embodiment；

Figure 42 is the cross-sectional schematic of the wind deflector of the air-conditioner according to this utility model embodiment.

Accompanying drawing labelling:

Air deflection assemblies 1,

Wind deflector 100, installing port 110, keep out the wind groove 111, the outer surface 112 of wind deflector, the inner surface 113 of wind deflector,

Connection support 120, installing hole 121, dowel 122,

Dissipate wind assembly 200,

Scattered wind main body 201, pivoting hole 202,

Pivotal axis 203, threaded fastener 207,

Bearing 204, inner ring 205, outer ring 206,

Wind wheel assembly 210, blade 211, air-ducting ring 212, middle part solar or lunar halo 213,

Grid component 220, blinker 221, distance piece 222,

Spheroid dissipates wind part 230, dissipates wind and exports 231, elastic flange 232,

Pendulum leaf assembly 240, pendulum leaf 241, fitting groove 242, the outer surface 243 of pendulum leaf assembly, swivel becket 244, connection axle 245, embedded groove 246,

Air-conditioner 2,

Housing 21, air outlet 22.

Detailed description of the invention

Being described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish.The embodiment described below with reference to accompanying drawing is illustrative of, and is only used for explaining this utility model, and it is not intended that to restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", " counterclockwise ", " axially ", " radially ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more these features.In description of the present utility model, except as otherwise noted, " multiple " are meant that two or more.

In description of the present utility model, it is necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals.For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term concrete meaning in this utility model.

Air deflection assemblies 1 for air-conditioner according to this utility model embodiment is described in detail below with reference to Figure 29-Figure 32.

As shown in Figure 29-Figure 32, the air deflection assemblies 1 for air-conditioner 2 according to this utility model embodiment, including: wind deflector 100 and many groups dissipate wind assembly 200.

Specifically, wind deflector 100 is pivotally arranged in air outlet 22 place of air-conditioner 2, and wind deflector 100 is provided with at least one installing port 110.Dissipating wind assembly 200 be single layer structure and be rotatably arranged on installing port 110 to be suitable for the wind diffusional flow blown out by air outlet 22, the scattered wind assembly 200 of part is wind wheel assembly 210, and all the other are grid component 220.

It should be noted that wind deflector 100 can change state according to demand, for instance, when air-conditioner 2 is in state out of service, wind deflector 100 can block air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 opened by wind deflector 100, wind can directly blow out from air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 closed by wind deflector 100, wind can pass through and dissipate wind assembly 200 and blow out.Flow in the mode spread via the wind of scattered wind assembly 200 blowout, such that it is able to the flow direction of the wind changed, make wind flow towards different directions, shorten air supplying distance, it is to avoid wind is directly blown on human body, and then achieves the calm sense effect of air-conditioner 2.

The air deflection assemblies 1 for air-conditioner according to this utility model embodiment, wind assembly 200 is dissipated by arranging many groups on wind deflector 100, and many groups dissipates the part in wind assembly, and to dissipate wind assembly 200 be wind wheel assembly 210, remainder is grid component 220, the wind via the blowout of scattered wind assembly 200 thus can be made to flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet 22 in the same direction, and then the calm sense effect of air-conditioner 2 can be realized, improve the comfort of air-conditioner.

As shown in Fig. 1-Figure 42, according to an embodiment of the present utility model, air-conditioner 2 includes: housing 21, wind deflector 100 and least one set dissipate wind assembly 200.Specifically, housing 21 having air outlet 22, when air-conditioner 2 needs the environment at its place is freezed, heats or taken a breath, wind can flow out from air outlet 22.Wind deflector 100 is pivotally arranged in air outlet 22 place, and wind deflector 100 is provided with at least one installing port 110, dissipates wind assembly 200 and is located on installing port 110 to be suitable for the wind diffusional flow that will blow out from air outlet 22.Can flow towards different directions it is understood that wind changes original flow direction after scattered wind assembly 200.

It should be noted that wind deflector 100 can change state according to demand, for instance, when air-conditioner 2 is in state out of service, wind deflector 100 can block air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 opened by wind deflector 100, wind can directly blow out from air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 closed by wind deflector 100, wind can pass through and dissipate wind assembly 200 and blow out.Flow in the mode spread via the wind of scattered wind assembly 200 blowout, such that it is able to the flow direction of the wind changed, make wind flow towards different directions, human body sensory thus can be made less than wind, and then achieve the calm sense effect of air-conditioner 2.

As shown in Figure 20, Figure 21, when the wind deflector 100 of air-conditioner 2 is in the state blocking air outlet 22, air-conditioner 2 may be at run-stopping status or is in calm sense running status；As shown in Figure 22, Figure 23, when the wind deflector 100 of air-conditioner 2 is in the state opening air outlet 22, the air-flow that air-conditioner 2 produces directly can blow out from air outlet 22.

Thus, by arranging scattered wind assembly 200 on wind deflector 100, it is possible to make the wind via the blowout of scattered wind assembly 200 flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet 22 in the same direction, and then achieve the calm sense effect of air-conditioner 2, improve the comfort of air-conditioner.

According to embodiments more of the present utility model, air-conditioner 2 can be the airhandling equipments such as cabinet air-conditioner, air-conditining or mobile air-conditioner 2.As shown in figure 20, this air-conditioner 2 is air-conditining；As shown in figure 24, this air-conditioner 2 is mobile air-conditioner 2；As shown in figure 25, this air-conditioner 2 is cabinet air-conditioner.Being provided with scattered wind assembly 200 on the wind deflector 100 of above-mentioned multiple air-conditioner 2, the wind that air-conditioner 2 produces all can flow out from the air outlet 22 of air-conditioner 2 in the way of diffusional flow, makes air-conditioner 2 have calm sense effect.

According to an embodiment of the present utility model, dissipating wind assembly 200 can with installing port 110 one_to_one corresponding.Such as, as shown in Fig. 1, Fig. 6, Figure 10, Figure 14, Figure 18, Figure 29, Figure 33, Figure 37 and Figure 40, dissipate wind assembly 200 and installing port 110 one_to_one corresponding.Specifically, in example as shown in Figure 1, wind deflector 100 has eight installing ports 110, correspondingly, dissipate wind assembly 200 also have eight groups and with installing port 110 one_to_one corresponding；For another example, in the example shown in fig. 6, wind deflector 100 has six installing ports 110, correspondingly, dissipate wind assembly 200 also have six groups and with installing port 110 one_to_one corresponding.

According to embodiments more of the present utility model, multiple scattered wind assemblies 200 are uniformly distributed.In the such as example shown in Fig. 1, Fig. 6, Figure 10, Figure 14 and Figure 18, the spacing between two scattered wind assemblies 200 of arbitrary neighborhood is equal.It should be noted that the arrangement mode that many groups dissipate wind assembly 200 is not limited to this, for instance, many groups dissipate wind assembly 200 and can also arrange according to other rules.

According to other embodiments of the present utility model, the projection on wind deflector 100 of the center of multiple scattered wind assemblies 200 is positioned on same straight line or curve.Such as, multiple scattered wind assemblies 200 are rotatably arranged at the projection on wind deflector 100 of the center of rotation of installing port 110 place and multiple scattered wind assembly 200 and are positioned on same straight line or curve.Here " center of rotation " refers to the point on the rotation axis of scattered wind assembly 200.In the such as example shown in Fig. 1, Fig. 6, Figure 10, Figure 14 and Figure 18, many groups dissipate the projection on wind deflector 100 of the center of rotation of wind assembly 200 and are located along the same line；For another example, in example as shown in figure 19, many groups dissipate the projection on wind deflector 100 of the center of rotation of wind assembly 200 and are positioned on curve.Thus, it is possible to increase the structure diversity of wind deflector 100, meet the user demand of the air-conditioner 2 of different model, the effect of the calm sense of air-conditioner 2 can also be improved simultaneously.

According to embodiments more of the present utility model, the internal perisporium of installing port 110 arranging the groove 111 that keeps out the wind, the outer peripheral edge dissipating wind assembly 200 is positioned at the groove 111 that keeps out the wind.It should be noted that, air-conditioner 2 is under refrigerating state, being positioned at the air on rear side of scattered wind assembly 200 is that temperature is relatively low, it is positioned at the air themperature on front side of scattered wind assembly 200 higher, when cold air is along such as Fig. 2, Fig. 7, direction flowing shown in arrow a in Figure 11 and Figure 15, when the air that the air that temperature is higher is relatively low with temperature crosses, condensed water is easily produced at the outer peripheral edge place of scattered wind assembly 200, by arranging the groove 111 that keeps out the wind on the internal perisporium of installing port 110, the outer peripheral edge dissipating wind assembly 200 is made to be positioned at the groove 111 that keeps out the wind, such that it is able to stop that air-flow blows to scattered wind assembly 200 along the direction shown in arrow a, and then can be effectively prevented at the outer peripheral edge place of scattered wind assembly 200 generation condensed water, thus can be effectively improved the serviceability of air-conditioner 2.

According to embodiments more of the present utility model, as shown in Figure 1 and Figure 2, dissipate wind assembly 200 and be connected with wind deflector 100 by connecting support 120, be thus easy to be mounted on wind deflector 100 scattered wind assembly 200.In embodiments more of the present utility model, connecting support 120 and can be one and connect support 120 and extends along the length direction of wind deflector 100, the scattered wind assembly 200 of least one set connects with being connected support 120.Thus, the attachment structure of scattered wind assembly 200 and wind deflector 100 can not only be simplified, it is also possible to improve the structural strength of wind deflector 100.

Such as, connect support 120 and be located on the inner surface 113 of wind deflector, connect support 120 and can extend to the right-hand member one end, right side of wind deflector 100 (such as shown in Figure 1) of wind deflector 100 from the left end of wind deflector 100 one end, left side of wind deflector 100 (such as shown in Figure 1), connect support 120 to be connected with wind deflector 100, when scattered wind assembly 200 is one, this scattered wind assembly 200 is arranged on connection support 120, when scattered wind assembly 200 has multiple, dissipate wind assembly 200 can compartment of terrain arrangement connection support 120 on.

As shown in Fig. 1, Fig. 6, Figure 10, Figure 14, in other embodiments of the present utility model, the one end connecting support 120 is connected with scattered wind assembly 200, the other end is connected with wind deflector 100, thus can improve the bonding strength between scattered wind assembly 200 and wind deflector 100, extend the service life of wind deflector 100.Such as, in the example shown in fig. 6, each scattered wind assembly 200 is connected with wind deflector 100 by a connection support 120, thus can simplify the structure connecting support 120, save production cost；For another example, in the such as example shown in Fig. 1, Figure 10 and Figure 14, each scattered wind assembly 200 is connected with wind deflector 100 by multiple connection supports 120, often the multiple connection supports 120 on the scattered wind assembly 200 of group are uniformly arranged along the circumferential direction of its rotation axis, dissipate wind assembly 200 jointly to connect with multiple one end being connected support 120, thus can improve the connective stability of scattered wind assembly 200 and wind deflector 100.

In an example of the present utility model, connecting support 120 can be metal rack, thus not only can improve the structural strength connecting support 120, it is also possible to reduce the wind noise of air deflection assemblies 1, thus being conducive to promoting the serviceability of air-conditioner 2.It should be noted that the material connecting support 120 is not limited to this, for instance, in another example of the present utility model, connecting support 120 can be plastic stent, thus, it is possible to reduce production cost.For simplifying manufacturing procedure further, improving the efficiency of assembling of air-conditioner 2, connecting support 120 can be one-body molded with wind deflector 100.

According to an embodiment of the present utility model, as shown in Fig. 2, Fig. 7, Figure 11 and Figure 15, dissipate wind assembly 200 and include: dissipate wind main body 201.Wherein, dissipate wind main body 201 and be configured to wind wheel assembly 210 or grid component 220, and scattered wind main body 201 is rotatably located on installing port 110.Thus, it is simple to realize the wind via scattered wind assembly 200 and flow in the way of diffusion, such that it is able to improve the calm sense effect of air-conditioner 2.It should be noted that the mode rotated or slide can be utilized to improve the scattered wind assembly 200 diffusion effect to wind, such that it is able to improve the calm sense effect of air-conditioner 2.

According to an example of the present utility model, dissipating wind assembly 200 can also include: pivotal axis 203.Wherein, pivotal axis 203 is located on connection support 120, dissipates wind main body 201 and is set in pivotly on pivotal axis 203.Thus scattered wind assembly 200 can be pivotally arranged in installing port 110 place.Thus, it is possible to simplify the structure dissipating wind assembly 200, reduce production cost.

Such as, as shown in Figure 5, one end of pivotal axis 203 is provided with screw thread, connect the installing hole 121 of one end traverse being provided with mean for pivotal axis 203 on support 120, when assembling, one end of pivotal axis 203 and installing hole 121 threaded engagement, one end of pivotal axis 203 extend out to the outside of installing hole 121 after sequentially passing through pivoting hole 202, installing hole 121, and the partial threads of its end close is positioned at outside installing hole 121 on pivotal axis 203, threaded fastener 207 is then utilized to be fixed on by pivotal axis 203 on connection support 120.In the such as example shown in Fig. 2, Fig. 6 and Figure 15, threaded fastener 207 is located at one end of pivotal axis 203 in hat shape；In example as shown in figure 11, threaded fastener 207 is set in one end of pivotal axis 203 in the form of a ring, and namely one end of pivotal axis 203 is threaded connection through the internal ring internal perisporium of threaded fastener 207, the periphery wall of pivotal axis 203 and threaded fastener 207.

As shown in Fig. 2, Fig. 7, Figure 11 and Figure 15, according to an embodiment of the present utility model, dissipating wind assembly 200 and can also include bearing 204, inner ring 205 and the pivotal axis 203 of bearing 204 closely cooperate, and outer ring 206 and the scattered wind main body 201 of bearing 204 closely cooperate.Thus can reduce the friction between scattered wind main body 201 and pivotal axis 203, also allow for being rotatably arranged on installing port 110 scattered wind main body 201 simultaneously.

Such as, such as Fig. 2, Fig. 7, shown in Figure 11 and Figure 15, dissipate the pivoting hole 202 being provided with mean for pivotal axis 203 traverse in wind main body 201, bearing 204 is located in pivoting hole 202, and the inner ring 205 of bearing 204 closely cooperates with pivotal axis 203, the outer ring 206 of bearing 204 coordinates with the internal perisporium of pivoting hole 202, thus when scattered wind assembly 200 rotates, the frictional resistance between scattered wind main body 201 and pivotal axis 203 can be efficiently reduced, improve the motility of the rotation dissipating wind main body 201, thus the abrasion significantly reduced between scattered wind main body 201 and pivotal axis 203, and then can effectively extend the service life of scattered wind assembly 200.

According to embodiments more of the present utility model, as shown in Fig. 1-Figure 25, at least one in multiple scattered wind main bodys 201 is wind wheel assembly 210.Thus facilitate implementation the scattered wind assembly 200 diffusion effect to wind, and then the calm sense effect of air-conditioner 2 can be improved.Further, wind wheel assembly 210 being provided with mean for the pivoting hole 202 of pivotal axis 203 traverse, and wind wheel assembly 210 can include multiple blade 211, multiple blades 211 are spaced apart along the circumferential direction of pivoting hole 202.Thus when wind is in time dissipating wind assembly 200, wind diffusional flow can be made under the effect of blade 211, namely the flow direction of wind can be changed, make wind to different directions, for instance wind is tapered to external diffusion along the direction shown in arrow b in Fig. 2, Fig. 7, Figure 11 and Figure 15 on front side of wind deflector 100.

It should be noted that the quantity of the blade 211 of wind wheel 210, it is possible to determining as the case may be, the quantity increasing blade 211 can be conducive to improving the scattered wind effect of wind wheel 210, shortens air supplying distance；The quantity reducing blade 211 can be conducive to increasing air output, promotes the serviceability of air deflection assemblies 1.

In an embodiment of the present utility model, blade 211 number can be 3-24 sheet, thus can improve the calm sense effect of air-conditioner 2.Experiment proves that, when blade 211 number is 8,12 or 15, dissipating the scattered wind better effects if of wind assembly 200, the calm sense effect of air-conditioner 2 is more preferably.Such as, in example as shown in Figure 1, blade 211 number of wind wheel assembly 210 is 15；For another example, in the example shown in fig. 6, blade 211 number of wind wheel assembly 210 is 12；And for example, in example as shown in Figure 10, blade 211 number of wind wheel assembly 210 is 8.

Further, blade 211 place plane is 10 °-80 ° with the angle of the air-out direction of air outlet 22.Thus, it is possible to shortening air supplying distance, improve the calm sense effect of scattered wind effect and the air-conditioner 2 dissipating wind assembly 200 further.It should be noted that when blade 211 is bigger with the angle of the air-out direction of air outlet 22, it is possible to be conducive to making wind flow in the way of diffusion, improve the calm sense effect of air deflection assemblies 1；When blade 211 is less with the angle of the air-out direction of air outlet 22, be conducive to increasing the air output of scattered wind assembly 200, such that it is able to promote the performance of air-conditioner 2.Experiment proves that, when the angle of blade 211 place plane Yu the air-out direction of air outlet 22 is 20 ° or 60 °, dissipate the scattered wind effect of wind assembly 200, air-conditioner 2 calm sense effect more preferably.

According to an embodiment of the present utility model, as shown in Figure 3, Figure 4, wind wheel assembly 210 can also include: air-ducting ring 212, and air-ducting ring 212 connects the free end of the adjacent blade of at least two panels 211.Thus, it is possible to strengthen the structural strength of wind wheel assembly 210, extend the service life dissipating wind assembly 200.In an example of the present utility model, air-ducting ring 212 is formed as annular air-ducting ring.

According to embodiments more of the present utility model, as shown in Figure 26-Figure 32, at least one in multiple scattered wind main bodys 201 is grid component 220.The scattered wind assembly 200 of grid component 220 structure has simple in construction, dissipates the advantages such as wind is effective, production cost is low, utilizes grid component 220 structure can improve the calm sense effect of air-conditioner 2.

Further, as shown in Figure 26-Figure 32, grid component 220 may include that distance piece 222 and multiple blinker 221.Specifically, distance piece 222 is provided with mean for the pivoting hole 202 of pivotal axis 203 traverse, multiple blinkers 221 are distributed in the both sides of distance piece 222, having angle between each blinker 221 and the air-out direction of air outlet 22, the angle of at least one blinker 221 in plurality of blinker 221 and the angle of all the other blinkers 221 are not etc..It should be noted that blinker 221 has certain angle of inclination, guide to different directions with the wind that will blow out via grid component 220.Additionally, due at least one blinker 221 in multiple blinkers 221 angle and all the other blinkers 221 angle not etc., when there being wind through grid component 220, wind is unequal to the active force of the blinker 221 of distance piece 222 both sides, thus easily driving grid component 220 to rotate, and then the wind through grid component 220 can be flowed in the way of diffusion, thus can realize the calm sense air-supply effect of air-conditioner 2.

In example as shown in figure 25, blinker 221 is formed as linear type blinker 221.Here the position that arranges of distance piece 222 is not specifically limited, for instance, distance piece 222 can be located at the middle position of grid component 220, and being positioned at the quantity of blinker 221 of distance piece 222 both sides, length all can be equal.In an example of the present utility model, the angle of the air-out direction of blinker 221 and air outlet 22 can be 10 °-80 °.Thus facilitate implementation the air-supply effect of the calm sense of air-conditioner 2.It addition, in embodiments more of the present utility model, the bearing of trend of multiple blinkers 221 is unanimous on the whole.Thus, it is possible to simplify the course of processing of grid component 220, save production cost.

According to an example of the present utility model, as shown in Figure 3, Figure 4, grid component 220 can also include: air-ducting ring 212, and one end of blinker 221 is connected with distance piece 222, and the other end is connected with the internal perisporium of air-ducting ring 212.Thus, it is possible to strengthen the structural strength of wind wheel assembly 210, extend the service life dissipating wind assembly 200.In an example of the present utility model, air-ducting ring 212 is formed as annular air-ducting ring.

According to embodiments more of the present utility model, as shown in Figure 29-Figure 32, it is wind wheel assembly 210 that the part in multiple scattered wind main bodys 201 dissipates wind main body 201, and it is grid component 220 that another part dissipates wind main body 201.It is understood that on the wind deflector 100 of same air-conditioner 2, there is at least one wind wheel assembly 210 in multiple scattered wind main bodys 201, there is also at least one grid component 220 simultaneously.Here, the arrangement mode of grid component 220 with wind wheel assembly 210 is not specifically limited, such as, in the such as example shown in Figure 29-Figure 30, grid component 220 and the distribution of wind wheel assembly 210 alternate intervals, namely it is provided with a wind wheel assembly 210 between two adjacent grid components 220, between two adjacent wind wheel assemblies 210, is provided with a grid component 220.Certainly, the arrangement mode of grid component 220 and wind wheel assembly 210 is not limited to this, as long as it can meet the calm sense effect of diffusion type dispersion wind of scattered wind assembly 200, air-conditioner 2.

According to embodiments more of the present utility model, as shown in Figure 33-Figure 36, at least one in multiple scattered wind main bodys 201 includes wind wheel assembly 210 and grid component 220, wind wheel assembly 210 and a upstream being positioned at air-out direction in grid component 220, and another is positioned at the downstream of air-out direction.It is to say, same scattered wind assembly 200 includes wind wheel assembly 210 and grid component 220 structure simultaneously.Such as, in example as shown in figure 36, each scattered wind main body 201 includes two-layer, and wherein one layer is the position of wind wheel assembly 210 structure and the inner surface 113 being located close to wind deflector, and another layer is the position of grid component 220 structure and the outer surface 112 being located close to wind deflector.Thus, it is possible to utilize wind wheel assembly 210, grid component 220 that wind performs twice at scattered wind, thus can improve the diffusion effect of wind, and then the calm sense effect of air-conditioner 2 can be improved.It should be noted that, in same scattered wind assembly 200, the position of wind wheel assembly 210 and grid component 220 is not limited to this, such as, wind wheel assembly 210 structure may be located at the position of the outer surface 112 near wind deflector, and grid component 220 structure may be located at the position of the inner surface 113 near wind deflector.

According to embodiments more of the present utility model, as shown in Figure 37-Figure 39, at least one in multiple scattered wind assemblies 200 dissipates wind part 230 for spheroid, and the scattered wind part 230 of spheroid is installed in rotation on installing port 110 and spheroid dissipates wind part 230 and is provided with scattered wind outlet 231.It should be noted that, the wind at air outlet 22 place can export 231 discharges from scattered wind, installing port 110 place rotatably it is located at owing to spheroid dissipates wind part 230, dissipate wind outlet 231 towards can arbitrarily adjust, namely wind can be discharged in different directions from different scattered wind outlets 231, wind thus can be made to discharge from scattered wind assembly 200 in the way of diffusional flow, and then achieve the calm sense effect of air-conditioner 2.

According to an embodiment of the present utility model, installing port 110 can being provided with elastic flange 232, elastic flange 232 is wrapped on the portion perimeter wall of the scattered wind part 230 of spheroid along the circumferential direction of installing port 110.It is arranged on wind deflector 100 securely thus, it is possible to make spheroid dissipate wind assembly 200, reduces spheroid and dissipate wind part 230 because of unexpected from the probability come off wind deflector 100.Such as, as shown in Figure 37-Figure 39, spheroid dissipates wind part 230 substantially in spherical, and elastic flange 232 in the form of a ring and is wrapped in spheroid along the circumferential direction of installing port 110 and dissipates on the periphery wall of wind part 230.

Further, elastic flange 232 may be located on the outer surface 112 of wind deflector and/or on the inner surface 113 of wind deflector.Here " outer surface 112 of wind deflector " can instruct wind to be positioned at the surface of side of outside of housing 21 when closing air outlet 22, and " inner surface 113 of wind deflector " can instruct wind to be positioned at the surface of side of inside of housing 21 when closing air outlet 22.Such as, as shown in figure 39, partial elastic flange 232 is positioned on the outer surface 112 of wind deflector and extends towards the outside of wind deflector 100, the dissipating the surface of wind part 230 towards spheroid and dissipate wind part 230 with spheroid and fit of elastic flange 232；Partial elastic flange 232 is positioned on the inner surface 113 of wind deflector and extends towards the inner side of wind deflector 100, the dissipating the surface of wind part 230 towards spheroid and dissipate wind part 230 with spheroid and fit of elastic flange 232.

According to an embodiment of the present utility model, as shown in Figure 40-Figure 42, at least one in multiple scattered wind assemblies 200 is pendulum leaf assembly 240, and pendulum leaf assembly 240 can switching between the first state and the second state of opening installation mouth 110 of closing installing port 110.When putting leaf assembly 240 and being in the first state, installing port 110 closed by pendulum leaf assembly 240, and wind cannot flow by putting leaf assembly 240；When putting leaf assembly 240 and being in the second state, putting leaf assembly 240 opening installation mouth 110, wind can pass through to put the wind-guiding effect of leaf assembly 240 and flow out from installing port 110 in the way of diffusional flow, and then realizes the calm sense effect of air-conditioner 2.It should be noted that, pendulum leaf assembly 240 is when being in the second state, by adjusting the state of pendulum leaf assembly 240, can change from the flow direction of wind of installing port 110 blowout, flow regime, such as, as shown in figure 40, when pendulum leaf assembly 240 is being in the second state and when there being wind to blow out from installing port 110, pendulum leaf assembly 240 can order about wind and flow in the way of diffusional flow, thus facilitates implementation the calm sense effect of air-conditioner 2.

In an example of the present utility model, as shown in Figure 40-Figure 42, pendulum leaf assembly 240 can include the pendulum leaf 241 that two panels is spaced apart, and every pendulum leaf 241 is rotatably arranged on installing port 110.Thus it is conveniently adjusted the flow direction of wind from installing port 110 blowout and the type of flow, orders about wind and flow in the way of diffusional flow.For improving the compact conformation degree of pendulum leaf assembly 240, when putting leaf assembly 240 and being positioned at the first state, partly overlapping of two panels pendulum leaf 241.Such as, being positioned at shown in one group of pendulum leaf assembly 240 of the rightmost side in Figure 41, this group pendulum leaf assembly 240 is in the first state, and two panels pendulum leaf 241 closes corresponding installing port 110, and two panels puts partly overlapping of leaf 241.

Further, as shown in figure 40, two panels pendulum leaf 241 one of them be provided with fitting groove 242, when put leaf assembly 240 be positioned at the first state time, two panels pendulum leaf 241 in another with one of them pendulum overlapping being fit partially within fitting groove 242 of leaf 241.Thus, it is possible to improve the structural stability of pendulum leaf assembly 240.Further, when putting leaf assembly 240 and being positioned at the first state, the outer surface 243 of pendulum leaf assembly is formed as shiny surface.Thus, it is possible to improve the good looking appearance of pendulum leaf assembly 240.Here " outer surface 243 of pendulum leaf assembly " can refer to when putting leaf assembly 240 and being in the first state, the surface of the outside side of the pendulum leaf assembly 240 housing 21 towards air-conditioner 2.Such as, as shown in figure 41, one of them of two panels pendulum leaf 241 is provided with fitting groove 242, when putting leaf assembly 240 and being positioned at the first state, in two panels pendulum leaf 241 another with one of them pendulum overlapping being fit partially within fitting groove 242 of leaf 241, and the outer surface 243 putting leaf assembly is formed as shiny surface.

According to an embodiment of the present utility model, as shown in Figure 40, Figure 42, pendulum leaf assembly 240 also includes swivel becket 244, and swivel becket 244 is located on the internal perisporium of installing port 110 and rotatable along the internal perisporium of installing port 110, and leaf 241 is rotating is located on swivel becket 244 for pendulum.As shown in figure 42, the internal perisporium of installing port 110 is provided with embedded groove 246, embedded groove 246 can extend along the circumferential direction of installing port 110, swivel becket 244 is installed in rotation in embedded groove 246, and pendulum leaf 241 is provided with connection axle 245, connects axle 245 and is rotatably arranged on swivel becket 244, thus pendulum leaf 241 not only can realize self rotation, can also rotate along with swivel becket 244, and then wind can blow out from installing port 110 in the way of diffusional flow, improve the calm sense effect of air-conditioner 2.

Air deflection assemblies 1 for air-conditioner 2 according to this utility model embodiment is described in detail referring to specific embodiment.It is worth being understood by, described below is merely illustrative, rather than to concrete restriction of the present utility model.

Embodiment 1

As Figure 1-Figure 5, in this embodiment, air-conditioner 2 includes housing 21, wind deflector 100 and eight groups of scattered wind assemblies 200.Having air outlet 22 on housing 21, when air-conditioner 2 needs the environment at its place is freezed, heats or taken a breath, wind can flow out from air outlet 22.Wind deflector 100 is pivotally arranged in air outlet 22 place, wind deflector 100 be provided with eight installing ports 110 and with eight scattered wind assembly 200 one_to_one corresponding.Dissipate wind assembly 200 to be suitable to make the wind from air outlet 22 blowout flow in the way of diffusional flow.It is understood that wind changes original flow direction after scattered wind assembly 200 and flows towards different directions.

May be rotatably mounted at installing port 110 place as it is shown in figure 5, dissipate wind assembly 200 and include: dissipating wind main body 201 pivotal axis 203.Dissipate wind main body 201 and be connected with wind deflector 100 by connecting support 120, specifically, each installing port 110 place is provided with a connection support 120, the middle part of connection support 120 is provided with mean for the installing hole 121 of one end traverse of pivotal axis 203, the middle part dissipating wind main body 201 is provided with pivoting hole 202, the other end of pivotal axis 203, through pivoting hole 202, is dissipated wind main body 201 and is coordinated with pivotal axis 203 pivotly by pivoting hole 202.

One end of pivotal axis 203 is provided with screw thread, when assembling, one end of pivotal axis 203 can with installing hole 121 threaded engagement, and one end of pivotal axis 203 sequentially pass through pivoting hole 202, installing hole 121 after extend out to the outside of installing hole 121, on pivotal axis 203, the partial threads near its end is positioned at outside installing hole 121, then utilizes threaded fastener 207 to be fixed on by pivotal axis 203 on connection support 120.As shown in Fig. 2, Fig. 5, threaded fastener 207 is located at one end of pivotal axis 203 in hat shape.Connect support 120 can be plastic stent and can be formed in one part with wind deflector 100, thus can shorten the production cycle of air-conditioner 2, reduce production cost.

As shown in Figure 2, for reducing the frictional resistance between scattered wind main body 201 and pivotal axis 203, improve and dissipate the motility that wind main body 201 rotates, extend the service life dissipating wind main body 201 with pivotal axis 203, dissipate and between wind main body 201 and pivotal axis 203, be provided with bearing 204, the inner ring 205 of bearing 204 fits tightly with the periphery wall of pivotal axis 203, and the outer ring 206 of bearing 204 fits tightly with the internal perisporium of the pivoting hole 202 of scattered wind main body 201.

Dissipating wind main body 201 is wind wheel assembly 210, thus facilitates implementation the wind via scattered wind assembly 200 and flows in the way of diffusion, such that it is able to improve the calm sense effect of air-conditioner 2.As Figure 1-Figure 5, wind wheel assembly 210 includes middle part solar or lunar halo 213, air-ducting ring 212 and 15 blades 211, the outside of middle part solar or lunar halo 213 it is enclosed within and spaced apart with middle part solar or lunar halo 213 outside air-ducting ring 212,15 blades 211 are connected between periphery wall and the internal perisporium of air-ducting ring 212 of middle part solar or lunar halo 213, the internal perisporium of middle part solar or lunar halo 213 is configured to pivoting hole 202, and 15 blades 211 are spaced apart along the circumferential direction of middle part solar or lunar halo 213.

It addition, the angle of the air-out direction of every blade 211 place plane and air outlet 22 is 10 °-80 °.Thus, it is possible to improve the calm sense effect dissipating the scattered wind effect of wind assembly 200, air-conditioner 2.When air outlet 22 closed by wind deflector 100, being positioned on same sphere towards the end face outside housing 21 of blade 211.Thus can strengthen the good looking appearance at wind deflector 100 place.

It should be noted that wind deflector 100 can change state according to demand, for instance, when air-conditioner 2 is in state out of service, wind deflector 100 can block air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 opened by wind deflector 100, wind can directly blow out from air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 closed by wind deflector 100, wind can pass through and dissipate wind assembly 200 and blow out.Flow in the mode spread via the wind of scattered wind assembly 200 blowout, such that it is able to the flow direction of the wind changed, make wind flow towards different directions, wind thus can be avoided directly to blow to human body, it is achieved thereby that the calm sense effect of air-conditioner 2.

Thus, by arranging scattered wind assembly 200 on wind deflector 100, it is possible to make the wind via the blowout of scattered wind assembly 200 flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet 22 in the same direction, and then the calm sense effect of air-conditioner 2 can be realized, improve the comfort of air-conditioner.

Embodiment 2

As shown in Fig. 6-Fig. 9, as different from Example 1, in this embodiment, dissipating wind assembly 200 and have six groups, often the wind wheel assembly 210 in the scattered wind assembly 200 of group includes eight blades 211, connects support 120 being three.One end of three connection supports 120 intersects at a point, and is configured with installing hole 121 at this place, and one end of pivotal axis 203 is adapted to pass through this installing hole 121.The other end of three connection supports 120 is connected with wind deflector 100 respectively, and three connection supports 120 are uniformly distributed along the circumferential direction of middle part solar or lunar halo 213, and namely the angle between two connection supports 120 of arbitrary neighborhood is equal.Thus, the structural strength of wind deflector 100 can not only be strengthened, it is also possible to avoid connecting support 120 and stop the air-out at installing port 110 place, thus having reason to promote the serviceability of air deflection assemblies 1.

It addition, when air outlet 22 closed by wind deflector 100, being respectively positioned on same plane towards the end face outside housing 21 towards the end face outside housing 21 and air-ducting ring 212 of blade 211.Thus can strengthen the good looking appearance at wind deflector 100 place.

Embodiment 3

As shown in Figure 10-Figure 13, as different from Example 1, in this embodiment, dissipating wind assembly 200 and have six groups, often the wind wheel assembly 210 in the scattered wind assembly 200 of group includes 12 blade blades 211, connects support 120 being one.One end of this connection support 120 is connected with wind deflector 100, and the other end is had installing hole 121 and is connected with scattered wind main body 201 by pivotal axis 203.It addition, in this embodiment, threaded fastener 207 is set on one end of pivotal axis 203 in the form of a ring, the structure that thus can simplify wind deflector 100, the quality alleviating wind deflector 100, saving production cost.

When air outlet 22 closed by wind deflector 100, being respectively positioned on same plane towards the end face outside housing 21 towards the end face outside housing 21 and air-ducting ring 212 of blade 211.Thus can strengthen the good looking appearance at wind deflector 100 place.

Additionally, in this embodiment, in two adjacent scattered wind assemblies 200, the support 120 that connects of one of them scattered wind assembly 200 is connected by dowel 122 with the connection support 120 in the scattered wind assembly 200 of another one, thus can strengthen the structural strength connecting support 120, the structural strength of wind deflector 100 can also be increased simultaneously.

Embodiment 4

As shown in Figure 14-Figure 17, as different from Example 1, in this embodiment, the wind wheel assembly 210 that often group dissipates in wind assembly 200 includes 15 blades 211.

Embodiment 5

As shown in figure 18, as different from Example 1, in this embodiment, dissipate wind assembly 200 and have 23 groups, thus can improve the calm sense effect of air-conditioner 2.These 23 groups dissipate wind assembly 200 and are evenly distributed on wind deflector 100, and the projection that the center of rotation of these 23 groups scattered wind assemblies 200 is on wind deflector 100 is located along the same line, thus can increase the structure diversity of wind deflector 100, meet the user demand of the air-conditioner 2 of different model, the effect of calm sense can also be improved simultaneously.

Embodiment 6

As shown in figure 19, as different from Example 1, in this embodiment, dissipate wind assembly 200 and have 18 groups, these 18 groups dissipate wind assembly 200 and are irregularly distributed on wind deflector 100, thus can increase the structure diversity of wind deflector 100, meet the user demand of the air-conditioner 2 of different model, the effect of calm sense can also be improved simultaneously.

Embodiment 7

As shown in Figure 26-Figure 28, as different from Example 1, in this embodiment, dissipating wind main body 201 is grid component 220.It should be noted that the scattered wind assembly 200 of grid component 220 structure has simple in construction, dissipates the advantages such as wind is effective, production cost is low, utilize grid component 220 structure can improve the calm sense effect of air-conditioner 2.

As shown in figure 28, grid component 220 includes: distance piece 222 and multiple blinker 221.Specifically, distance piece 222 is provided with mean for the pivoting hole 202 of pivotal axis 203 traverse, multiple blinkers 221 are distributed in the both sides of distance piece 222, having angle between each blinker 221 and the air-out direction of air outlet 22, the angle of at least one blinker 221 in plurality of blinker 221 and the angle of all the other blinkers 221 are not etc..Thus when there being wind through grid component 220, wind is unequal to the active force of the blinker 221 of distance piece 222 both sides, thus easily driving grid component 220 to rotate, and then the wind through grid component 220 can be flowed in the way of diffusion, thus can realize the calm sense air-supply effect of air-conditioner 2.

As shown in figure 26, blinker 221 is formed as linear type blinker 221.Here the position that arranges of distance piece 222 is not specifically limited, for instance, distance piece 222 can be located at the middle position of grid component 220, and being positioned at the quantity of blinker 221 of distance piece 222 both sides, length all can be equal.Further, blinker 221 can be 10 °-80 ° with the angle of the air-out direction of air outlet 22.Thus facilitate implementation the air-supply effect of the calm sense of air-conditioner 2.It addition, the bearing of trend of multiple blinkers 221 is unanimous on the whole.Thus, it is possible to simplify the course of processing of grid component 220, save production cost.

Grid component 220 can also include: air-ducting ring 212 and middle part solar or lunar halo 213, the outside of middle part solar or lunar halo 213 it is enclosed within and spaced apart with middle part solar or lunar halo 213 outside air-ducting ring 212, blinker 221 is located between air-ducting ring 212 and middle part solar or lunar halo 213, and the internal perisporium of middle part solar or lunar halo 213 is configured to pivoting hole 202.As shown in Figure 26-Figure 28, structure is protruded in middle part solar or lunar halo 213 in the middle part of distance piece 222, and middle part solar or lunar halo 213 is provided with through its pivoting hole 202.One end of blinker 221 is connected with distance piece 222, and the other end is connected with the internal perisporium of air-ducting ring 212.Thus, it is possible to strengthen the structural strength of wind wheel assembly 210, extend the service life dissipating wind assembly 200.

Embodiment 8

As shown in Figure 29-Figure 32, as different from Example 1, in this embodiment, it is wind wheel assembly 210 that the part in multiple scattered wind main bodys 201 dissipates wind main body 201, and it is grid component 220 that another part dissipates wind main body 201.It is understood that on the wind deflector 100 of same air-conditioner 2, multiple scattered wind main bodys 201 exists at least one wind wheel assembly 210 and at least one grid component 220.In the such as example shown in Figure 29-Figure 30, grid component 220 is distributed with wind wheel assembly 210 alternate intervals, is provided with a wind wheel assembly 210, is provided with a grid component 220 between two adjacent wind wheel assemblies 210 between two namely adjacent grid components 220.

Embodiment 9

As shown in Figure 33-Figure 36, as different from Example 1, in this embodiment, at least one the scattered wind main body 201 in multiple scattered wind main bodys 201 includes wind wheel assembly 210 and grid component 220.It is to say, there is at least one scattered wind main body 201 in multiple scattered wind main bodys 201 is double-decker, wherein one layer is wind wheel assembly 210, and another layer is grid component 220.A upstream being positioned at air-out direction in wind wheel assembly 210 and grid component 220, another is positioned at the downstream of air-out direction.Such as, as shown in figure 36, in same scattered wind assembly 200, dissipate wind main body 201 and include wind wheel assembly 210 and grid component 220 simultaneously, wind wheel assembly 210 structure is located close to the position of the inner surface 113 of wind deflector, and grid component 220 structure is located close to the position of the outer surface 112 of wind deflector.Thus, it is possible to utilize wind wheel assembly 210, grid component 220 that wind performs twice at scattered wind, thus improving the diffusion effect of wind, and then the calm sense effect of air-conditioner 2 can be improved.

Embodiment 10

As shown in Figure 37-Figure 39, as different from Example 1, in this embodiment, dissipating wind assembly 200 and dissipate wind part 230 for spheroid, the scattered wind part 230 of spheroid is installed in rotation on installing port 110 and spheroid dissipates wind part 230 and is provided with scattered wind outlet 231.It should be noted that, the wind at air outlet 22 place exports 231 discharges from scattered wind, installing port 110 place rotatably it is located at owing to spheroid dissipates wind part 230, dissipate wind outlet 231 towards can arbitrarily adjust, namely wind can be discharged in different directions from different scattered wind outlets 231, wind thus can be made to discharge from scattered wind assembly 200 in the way of diffusional flow, and then achieve the calm sense effect of air-conditioner 2.

As shown in Figure 37-Figure 39, spheroid dissipates wind part 230 substantially in spherical.As shown in figure 39, installing port 110 can being provided with elastic flange 232, elastic flange 232 is wrapped on the portion perimeter wall of the scattered wind part 230 of spheroid along the circumferential direction of installing port 110.It is arranged on wind deflector 100 securely thus, it is possible to make spheroid dissipate wind assembly 200, reduces spheroid and dissipate wind part 230 because of unexpected from the probability come off wind deflector 100.

Elastic flange 232 in the form of a ring and dissipates the circumferential direction of wind part 230 along spheroid and is wrapped on its periphery wall.The outside of wind deflector 100 and inner side are equipped with elastic flange 232, as shown in figure 39, partial elastic flange 232 is positioned on the outer surface 112 of wind deflector and extends towards the outside of wind deflector 100, the dissipating the surface of wind part 230 towards spheroid and dissipate wind part 230 with spheroid and fit of elastic flange 232；Partial elastic flange 232 is positioned on the inner surface 113 of wind deflector and extends towards the inner side of wind deflector 100, the dissipating the surface of wind part 230 towards spheroid and dissipate wind part 230 with spheroid and fit of elastic flange 232.

Embodiment 11

As shown in Figure 40-Figure 42, as different from Example 1, in this embodiment, wind assembly 200 is dissipated for pendulum leaf assembly 240.Pendulum leaf assembly 240 can switching between the first state and the second state of opening installation mouth 110 of closing installing port 110.When putting leaf assembly 240 and being in the first state, installing port 110 closed by pendulum leaf assembly 240, and wind cannot flow by putting leaf assembly 240；When putting leaf assembly 240 and being in the second state, putting leaf assembly 240 opening installation mouth 110, wind can pass through to put the wind-guiding effect of leaf assembly 240 and flow out from installing port 110 in the way of diffusional flow, and then realizes the calm sense effect of air-conditioner 2.It should be noted that, pendulum leaf assembly 240 is when being in the second state, by adjusting the state of pendulum leaf assembly 240, can change from the flow direction of wind of installing port 110 blowout, flow regime, such as, as shown in figure 40, when pendulum leaf assembly 240 is being in the second state and when there being wind to blow out from installing port 110, pendulum leaf assembly 240 can order about wind and flow in the way of diffusional flow, thus facilitates implementation the calm sense effect of air-conditioner 2.

As shown in Figure 40-Figure 42, pendulum leaf assembly 240 can include swivel becket 244 and the spaced apart pendulum leaf 241 of two panels.Wherein, swivel becket 244 is located on the internal perisporium of installing port 110 and rotatable along the internal perisporium of installing port 110, and leaf 241 is rotating is located on swivel becket 244 for pendulum.As shown in figure 42, the internal perisporium of installing port 110 is provided with embedded groove 246, and embedded groove 246 can extend along the circumferential direction of installing port 110, and swivel becket 244 is installed in rotation in embedded groove 246.

Every pendulum leaf 241 is rotatably arranged on swivel becket 244.Thus it is conveniently adjusted the flow direction of wind from installing port 110 blowout and the type of flow, orders about wind and flow in the way of diffusional flow.As shown in figure 42, pendulum leaf 241 is provided with connection axle 245, connect axle 245 and be rotatably arranged on swivel becket 244, thus pendulum leaf 241 not only can realize self rotation, can also rotate along with swivel becket 244, and then wind can blow out from installing port 110 in the way of diffusional flow, improve the calm sense effect of air-conditioner 2.

For improving the compact conformation degree of pendulum leaf assembly 240, when putting leaf assembly 240 and being positioned at the first state, partly overlapping of two panels pendulum leaf 241.Such as, being positioned at shown in one group of pendulum leaf assembly 240 of the rightmost side in Figure 41, this group pendulum leaf assembly 240 is in the first state, and two panels pendulum leaf 241 closes corresponding installing port 110, and two panels puts partly overlapping of leaf 241.

Further, as shown in figure 40, two panels pendulum leaf 241 one of them be provided with fitting groove 242, when put leaf assembly 240 be positioned at the first state time, two panels pendulum leaf 241 in another with one of them pendulum overlapping being fit partially within fitting groove 242 of leaf 241.Thus, it is possible to improve the structural stability of pendulum leaf assembly 240.

When putting leaf assembly 240 and being positioned at the first state, the outer surface 243 of pendulum leaf assembly is formed as shiny surface.Thus, it is possible to improve the good looking appearance of pendulum leaf assembly 240.Here " outer surface 243 of pendulum leaf assembly " can refer to when putting leaf assembly 240 and being in the first state, the surface of the outside side of the pendulum leaf assembly 240 housing 21 towards air-conditioner 2.That is, as shown in figure 41, when putting leaf assembly 240 and being positioned at the first state, the overlapping with one of them pendulum leaf 241 of another in two panels pendulum leaf 241 is fit partially within fitting groove 242, and the surface of outside side of the pendulum leaf assembly 240 housing 21 towards air-conditioner 2 is formed as shiny surface.

As shown in Fig. 1-Figure 42, according to a kind of air deflection assemblies 1 that this utility model embodiment provides, including: wind deflector 100 and least one set dissipate wind assembly 200.It should be noted that air deflection assemblies 1 may be used on the airhandling equipments such as cabinet air-conditioner, air-conditining or mobile air-conditioner 2, specifically, air deflection assemblies 1 can at air outlet 22 place of the said equipment.

Wherein, wind deflector 100 is pivotally arranged in air outlet 22 and sentences and open or close air outlet 22, wind deflector 100 is provided with at least one installing port 110, dissipates wind assembly 200 and rotationally or is slidably disposed on installing port 110 to be suitable to the wind diffusional flow blown out by air outlet 22.

It is understood that air deflection assemblies 1 can change state according to demand.For air-conditioner 2, when air-conditioner 2 is in state out of service, wind deflector 100 can block air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 opened by wind deflector 100, wind can directly blow out from air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 closed by wind deflector 100, wind can pass through and dissipate wind assembly 200 and blow out.Flow in the mode spread via the wind of scattered wind assembly 200 blowout, such that it is able to the flow direction of the wind changed, make wind flow towards different directions, wind thus can be avoided to be directly blown onto human body, it is simple to achieve the calm sense effect of air-conditioner 2.

As shown in Figure 20, Figure 21, when the wind deflector 100 of air-conditioner 2 is in the state blocking air outlet 22, air-conditioner 2 may be at run-stopping status or is in calm sense running status；As shown in Figure 22, Figure 23, when the wind deflector 100 of air-conditioner 2 is in the state opening air outlet 22, the air-flow that air-conditioner 2 produces directly can blow out from air outlet 22.

It addition, the inner surface 113 of wind deflector can be provided with a plurality of rib 101 that (left and right directions as shown in figure 14) extends in left-right direction, the structural strength of wind deflector 100 thus can be strengthened.

Air deflection assemblies 1 according to this utility model embodiment, by arranging scattered wind assembly 200 on wind deflector 100, the wind via the blowout of scattered wind assembly 200 can be made to flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet 22 in the same direction, and then the calm sense effect of air-conditioner 2 can be realized, improve the comfort of air-conditioner.

As shown in Fig. 1-Figure 42, according to a kind of air-conditioner 2 that this utility model embodiment provides, air-conditioner 2 is provided with air outlet 22 and air-conditioner 2 includes: the air deflection assemblies 1 for air-conditioner 2 as described in above-described embodiment.

Wherein, wind deflector 100 is pivotally arranged in air outlet 22 and sentences and open or close air outlet 22, wind deflector 100 is provided with at least one installing port 110, dissipates wind assembly 200 and rotationally or is slidably disposed on installing port 110 to be suitable to the wind diffusional flow blown out by air outlet 22.

It is understood that air deflection assemblies 1 can change state according to demand.When air-conditioner 2 is in state out of service, wind deflector 100 can block air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 opened by wind deflector 100, wind can directly blow out from air outlet 22；When air-conditioner 2 needs to be blown into air-flow to its place environment and air outlet 22 closed by wind deflector 100, wind can pass through and dissipate wind assembly 200 and blow out.Flow in the mode spread via the wind of scattered wind assembly 200 blowout, such that it is able to the flow direction of the wind changed, make wind flow towards different directions, wind thus can be avoided to be directly blown onto human body, it is simple to achieve the calm sense effect of air-conditioner 2.

As shown in Figure 20, Figure 21, when the wind deflector 100 of air-conditioner 2 is in the state blocking air outlet 22, air-conditioner 2 may be at run-stopping status or is in calm sense running status；As shown in Figure 22, Figure 23, when the wind deflector 100 of air-conditioner 2 is in the state opening air outlet 22, the air-flow that air-conditioner 2 produces directly can blow out from air outlet 22.

It addition, the inner surface 113 of wind deflector can be provided with a plurality of rib 101 that (left and right directions as shown in figure 14) extends in left-right direction, the structural strength of wind deflector 100 thus can be strengthened.

Air-conditioner 2 according to this utility model embodiment, wind assembly 200 is dissipated by arranging many groups on wind deflector 100, and many groups dissipates the part in wind assembly, and to dissipate wind assembly 200 be wind wheel assembly 210, remainder is grid component 220, the wind via the blowout of scattered wind assembly 200 thus can be made to flow in the mode of diffusion, wind can be avoided directly to blow out from air outlet 22 in the same direction, and then the calm sense effect of air-conditioner 2 can be realized, improve the comfort of air-conditioner.

This disclosure provides many different embodiments or example for realizing different structure of the present utility model.Of the present utility model open in order to simplify, hereinafter parts and setting to specific examples are described.Certainly, they are only merely illustrative, and are not intended to restriction this utility model.Additionally, this utility model can in different examples repeat reference numerals and/or letter.This repetition is for purposes of simplicity and clarity, the relation between itself not indicating discussed various embodiment and/or arranging.Additionally, the example of the various specific technique that provides of this utility model and material, but those of ordinary skill in the art are it can be appreciated that the use of the property of can be applicable to of other techniques and/or other materials.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment of the present utility model or example.In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that: these embodiments can being carried out multiple change, amendment, replacement and modification when without departing from principle of the present utility model and objective, scope of the present utility model is limited by claim and equivalent thereof.

Claims (23)

1. the air deflection assemblies for air-conditioner, it is characterised in that including:

Wind deflector, described wind deflector is pivotally arranged in the air outlet place of described air-conditioner, and described wind deflector is provided with at least one installing port；

Many groups dissipate wind assembly, and described scattered wind assembly is single layer structure and is rotatably arranged on described installing port to be suitable for the wind diffusional flow blown out by described air outlet, and the described scattered wind assembly of part is wind wheel assembly, and all the other are grid component.

2. the air deflection assemblies for air-conditioner according to claim 1, it is characterised in that described scattered wind assembly and described installing port one_to_one corresponding.

3. the air deflection assemblies for air-conditioner according to claim 1, it is characterised in that the internal perisporium of described installing port is provided with the groove that keeps out the wind, the outer peripheral edge of described scattered wind assembly be positioned at described in keep out the wind groove.

4. the air deflection assemblies for air-conditioner according to any one of claim 1-3, it is characterised in that described scattered wind assembly is connected with described wind deflector by connecting support.

5. the air deflection assemblies for air-conditioner according to claim 4, it is characterised in that described connection support is and described connection support to be extended along the length direction of described wind deflector, and described least one set dissipates wind assembly and is all connected support connection with described.

6. the air deflection assemblies for air-conditioner according to claim 4, it is characterised in that one end of described connection support is connected with described scattered wind assembly, and the other end is connected with described wind deflector.

7. the air deflection assemblies for air-conditioner according to claim 6, it is characterized in that, each described scattered wind assembly is connected with described wind deflector by multiple described connection supports, and the multiple described connection support on each described scattered wind assembly is uniformly arranged along the circumferential direction of its rotation axis.

8. the air deflection assemblies for air-conditioner according to claim 6, it is characterised in that each described scattered wind assembly is connected with described wind deflector by a described connection support.

9. the air deflection assemblies for air-conditioner according to claim 4, it is characterised in that described connection support is metal rack or plastic stent.

10. the air deflection assemblies for air-conditioner according to claim 4, it is characterised in that described connection support is one-body molded with described wind deflector.

11. the air deflection assemblies for air-conditioner according to claim 4, it is characterised in that described scattered wind assembly includes:

Dissipating wind main body, described scattered wind main body is configured to described wind wheel assembly or grid component, and described scattered wind main body is rotatably arranged on described installing port；

Pivotal axis, described pivotal axis is located on described connection support, and described scattered wind main body is set on described pivotal axis pivotly.

12. the air deflection assemblies for air-conditioner according to claim 11, it is characterised in that described scattered wind assembly also includes bearing, and the inner ring of described bearing and described pivotal axis closely cooperate, and the outer ring of described bearing and described scattered wind main body closely cooperate.

13. the air deflection assemblies for air-conditioner according to claim 11, it is characterized in that, being provided with mean for the pivoting hole of described pivotal axis traverse on described wind wheel assembly, and described wind wheel assembly includes: multiple blades, multiple described blades are spaced apart along the circumferential direction of described pivoting hole.

14. the air deflection assemblies for air-conditioner according to claim 13, it is characterised in that described blade number is 3-24 sheet.

15. the air deflection assemblies for air-conditioner according to claim 14, it is characterised in that described blade is 8,12 or 15.

16. the air deflection assemblies for air-conditioner according to claim 13, it is characterised in that the angle of the air-out direction of described blade place plane and described air outlet is 10 °-80 °.

17. the air deflection assemblies for air-conditioner according to claim 16, it is characterised in that the angle of the air-out direction of described blade place plane and described air outlet is 20 ° or 60 °.

18. the air deflection assemblies for air-conditioner according to claim 11, it is characterised in that described grid component includes:

Distance piece, described distance piece is provided with mean for the pivoting hole of described pivotal axis traverse；

Multiple blinkers, the plurality of blinker is distributed in the both sides of described distance piece, having angle between each described blinker and the air-out direction of described air outlet, the described angle of at least one blinker in plurality of described blinker and the described angle of all the other blinkers are not etc..

19. the air deflection assemblies for air-conditioner according to claim 18, it is characterized in that, described grid component also includes air-ducting ring, it is enclosed within described pivotal axis outside described air-ducting ring and described distance piece extends along the radial direction of described air-ducting ring, one end of the plurality of blinker is connected with the internal perisporium of described air-ducting ring, and the other end is connected with described distance piece.

20. the air deflection assemblies for air-conditioner according to claim 19, it is characterised in that described air-ducting ring is formed as annular air-ducting ring.

21. the air deflection assemblies for air-conditioner according to claim 18, it is characterised in that the angle of the air-out direction of described blinker and described air outlet is 10 °-80 °.

22. the air deflection assemblies for air-conditioner according to claim 18, it is characterised in that the bearing of trend of multiple described blinkers is unanimous on the whole.

23. an air-conditioner, it is characterised in that described air-conditioner is provided with air outlet and includes the air deflection assemblies for air-conditioner according to any one of claim 1-22.