CN210861624U - Air dispersion assembly, air guide assembly and air conditioner - Google Patents

Abstract

The utility model provides a scattered wind subassembly, wind-guiding subassembly and air conditioner. The wind dispersing assembly comprises a plurality of first wind dispersing parts which are rotatable parts, wherein the first wind dispersing parts are provided with tooth structures, and at least two first wind dispersing parts in the plurality of first wind dispersing parts are meshed with each other through the tooth structures. The wind subassembly that looses that this scheme provided utilizes the tooth structure to mesh each other between the first wind part that looses and forms the transmission, and the part quantity of product is still less, and the structure is more simplified, and product cost is lower, and transmission loss is littleer between the first wind part that looses, and the transmission is more high-efficient, and in addition, the direction of rotation between two first wind parts that looses that mesh each other is opposite, and like this, the wind subassembly that looses is richer to the diffusion angle of air current, and it is better to loose the wind effect, can further promote soft nature of air-out and comfort level.

Description

Air dispersion assembly, air guide assembly and air conditioner

Technical Field

The utility model relates to an air conditioner field particularly, relates to a scattered wind subassembly, wind-guiding subassembly and an air conditioner.

Background

The existing air conditioner is provided with an air dispersing component for dispersing air flow discharged from an air outlet of the air conditioner, but the existing air dispersing component has the problems of more parts and complex structure.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the above technical problems, an object of the present invention is to provide a wind diffusing assembly.

Another object of the present invention is to provide an air guide assembly with the above air diffusing assembly.

Still another object of the present invention is to provide an air conditioner with the above air guide assembly.

To achieve the above object, an embodiment of the first aspect of the present invention provides a wind diffusing assembly, including: the first air dispersing parts are rotatable parts, the first air dispersing parts are provided with tooth structures, and at least two of the first air dispersing parts are meshed with each other through the tooth structures.

The above embodiment of the present invention provides a wind dispersing assembly, wherein a tooth structure is disposed on a first wind dispersing component, and the first wind dispersing component are engaged with each other by using the tooth structure to form transmission, on one hand, the structure reduces the amount of power source by the transmission connection between the first wind dispersing components, and the first wind dispersing component is engaged with each other by using the structural form, which not only saves the transmission components between the first wind dispersing components, reduces the number of components of the product, simplifies the structure, reduces the product cost, but also reduces the transmission loss between the first wind dispersing components, and has more efficient transmission, thereby improving the driving efficiency of the first wind dispersing components, and realizing energy saving of the product; on the other hand, the structural style that first scattered wind part meshed each other for rotation direction between two first scattered wind parts that mesh each other is opposite, and like this, the diffusion angle of the subassembly of dispelling the wind to the air current is abundanter, and the effect of dispelling the wind is better, can further promote soft nature of air-out and comfort level.

In addition, the utility model provides an air dispersion subassembly in above-mentioned embodiment can also have following additional technical characterstic:

in the above technical solution, the plurality of first wind dispersing members are arranged in a dispersed manner, and the adjacent first wind dispersing members are externally engaged with each other via the tooth structure.

In this scheme, with a plurality of first scattered wind part dispersion arrangements, can form a plurality of scattered wind positions that disperse, like this, it is higher to the air-out area utilization ratio of first scattered wind part, promote scattered wind air-out efficiency, simultaneously, a plurality of first scattered wind parts through the dispersion arrangement share the air current, can further promote the soft nature of air-out, further improve the bad situation that cold wind directly blows, further promote the air-out comfort level of product.

Set up and form the external toothing between the adjacent wind parts that looses, can guarantee better like this that to revolve between the adjacent wind parts that looses to opposite in order to form different air-out angles, further strengthen the soft nature effect of air-out, and make the structure of product simplify more, make the product change in the assembly more, promote the yields of product.

In any of the above technical solutions, the plurality of first wind dispersing members are arranged side by side, and any adjacent first wind dispersing members are engaged with each other via the tooth structure.

In the scheme, the plurality of first air dispersing components are arranged side by side and meshed with each other, so that the structure of the product is simplified, the number of the components of the product is greatly reduced, the assembly is simpler and more convenient, and the cost is lower. In the structure, the first air dispersing components are meshed in sequence in pairs, so that the rotating directions of any adjacent first air dispersing components can be opposite, the air outlet directions of any adjacent first air dispersing components of the air dispersing assembly can be different, the air dispersing assembly has richer air diffusion angles, the air dispersing effect is better, and the air outlet softness and the comfort level can be further improved.

In any one of the above technical solutions, the plurality of first air dispersing members are linked, wherein the air dispersing assembly further comprises a driving member, and the driving member drives any one of the first air dispersing members to rotate; and/or the first wind dispersing parts are provided with blades, wherein the rotation directions of the blades are the same or opposite between the two first wind dispersing parts which are meshed with each other.

In this scheme, set up the linkage between a plurality of first wind parts that dissipate, utilize the driving piece to one of them wind part drive that looses for a plurality of wind part movements that disperse of driving piece drive realize to a plurality of first wind part drives in order to promote the wind effect that looses, make product part quantity retrench, reduce product cost.

The rotation direction of the blades between the two first air-dispersing components which are meshed with each other is the same, so that the air outlet angles of the two first air-dispersing components which are meshed with each other form a certain included angle, and thus, the air-dispersing component is richer in diffusion angle of air flow, the air-dispersing effect is better, and the air-outlet softness and comfort degree can be further improved.

The rotation direction of the blades between the two first air dispersing components which are meshed with each other is opposite, the driving efficiency of the first air dispersing components to air flow is guaranteed, the inclination directions of the air outlet angles of the two first air dispersing components which are meshed with each other are opposite, therefore, the air dispersing assembly is richer in air flow diffusion angle, the air dispersing effect is better, and the air outlet softness and the comfort degree can be further improved.

In any one of the above technical solutions, the first wind dispersing component includes a wind wheel, the edge of the wind wheel is provided with the tooth structure, and the two first wind dispersing components are engaged with each other via the tooth structure on the wind wheel.

In this scheme, set up the edge at the wind wheel with the tooth structure, and make between two first wind parts that looses mesh each other via the tooth structure at wind wheel edge, like this, overlap portion is few or not overlapping between the wind wheel of two first wind parts that looses that mesh each other, like this, the influence is little in the interference of the air-out angle between the adjacent first wind parts that looses, make the air-out resistance of first wind part that looses greatly reduce, make the air output of product bigger, and the wind subassembly that looses is more secure to the abundant realization effect of the diffusion angle of air current, thereby make the wind effect that looses of product further promote, can further promote soft and the comfort level of air-out nature.

In any of the above technical solutions, the wind wheel includes: the annular rib is circumferentially provided with the tooth structure; the blades are distributed in the annular ribs and are connected with the annular ribs and rotate along with the annular ribs.

In this scheme, set up the tooth structure on annular muscle, utilize the enhancement effect of annular muscle to more do benefit to and guarantee meshing transmission stationarity, reliability and transmission precision between the first wind part that looses, and when guaranteeing meshing transmission quality between the first wind part that looses, can reduce the blade and warp the risk to guarantee the scattered wind efficiency and the air output of the first wind part that looses more effectively, satisfy the air-out efficiency under the no wind sense operating mode of product better, promote the use experience of product.

In any of the above technical solutions, the air diffusing assembly further includes a plurality of second air diffusing members, and the second air diffusing members are arranged opposite to the first air diffusing members; the first air dispersing component and the second air dispersing component which are oppositely arranged are in rotating connection, so that the first air dispersing component rotates relative to the second air dispersing component, or the first air dispersing component and the second air dispersing component which are oppositely arranged are in linkage arrangement, so that the second air dispersing component rotates along with the first air dispersing component.

In this scheme, set up the second and loose the wind part, make it and the first relative arrangement that looses the wind part, like this, the air current discharges after passing the second and looses the wind part and the first wind part that looses, and it is better to loose the wind effect, can realize more softly going out the wind, further promotes no wind sense effect.

The first wind dispersing part is arranged to be rotatable relative to the second wind dispersing part, so that the second wind dispersing part can be arranged in a stationary blade mode relative to the first wind dispersing part, the non-wind effect is improved, meanwhile, the structure of a product is simplified, and the cost of the product is further reduced.

The second air dispersing component is arranged to rotate along with the first air dispersing component, for example, the second air dispersing component and the first air dispersing component synchronously rotate, or differential transmission between the second air dispersing component and the first air dispersing component is achieved by adjusting the transmission ratio, so that the air cutting effect of the air dispersing component can be further improved, the air outlet softness is further improved, and the use experience of the product without wind sensation is further improved.

An embodiment of the utility model provides a second aspect provides an air guide assembly, include: a mounting carrier provided with a plurality of mounting holes; in the air diffusing assembly in any of the above technical solutions, the air diffusing assembly is disposed on the mounting carrier, and the first air diffusing member of the air diffusing assembly is disposed opposite to the mounting hole.

The utility model discloses above-mentioned embodiment provides an air guide assembly, through being provided with among the above-mentioned arbitrary technical scheme the scattered wind subassembly to have above whole beneficial effect, no longer describe here.

And the installation holes are arranged corresponding to the first air dispersing components, the installation holes have an avoiding effect so that air can pass through the installation holes, and the air can be cut by the first air dispersing components and/or the second air dispersing components in the process of passing through the installation holes so that the air outlet of the product is soft, the non-wind-sensing air outlet effect of the product is improved, and the product is simple in structure and easy to assemble.

In any of the above technical solutions, the mounting carrier has a main body portion and a protruding ear portion, the protruding ear portion is connected to the main body portion and protrudes from an edge of the main body portion, the air diffusing assembly is disposed on the main body portion, the protruding ear portion is provided with a driving member, the driving member is matched with any one of the first air diffusing members of the air diffusing assembly, or a transmission member is disposed between the driving member and any one of the first air diffusing members of the air diffusing assembly and is driven by the transmission member.

In this scheme, construct this somatic part and lug part on the installation carrier, utilize lug part installation driving piece, like this, the driving piece can not occupy this somatic part space, more does benefit to the mounting hole percent opening and the trompil area of guaranteeing this somatic part to guarantee the air-out efficiency of scattered wind subassembly, promote the air output and the air-out area of product. And the design of the lug part is beneficial to the assembly consistency and uniformity of the driving part and the air dispersing part, so that the driving reliability between the driving part and the air dispersing part is more beneficial, the driving part can drive the air dispersing part more efficiently and reliably, and the assembly of a product is more convenient.

An embodiment of the third aspect of the present invention provides an air conditioner, including: an air outlet of the air conditioner; in any of the above technical solutions, at least a portion of the air guiding assembly is disposed opposite to the air outlet of the air conditioner.

The utility model discloses above-mentioned embodiment provides an air conditioner, through being provided with among the above-mentioned arbitrary technical scheme air guide assembly to have above all beneficial effect, no longer describe here.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of an air diffusing assembly according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the air diffusing assembly according to an embodiment of the present invention;

FIG. 3 is an enlarged partial schematic view of the air dispersion assembly shown in FIG. 2;

fig. 4 is a schematic structural diagram of the air diffusing assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an air guide assembly according to an embodiment of the present invention;

FIG. 6 is a schematic sectional view taken along line A-A of FIG. 5;

FIG. 7 is an enlarged schematic view of the portion B shown in FIG. 6;

fig. 8 is a left side view of the wind guide assembly shown in fig. 5;

fig. 9 is a schematic perspective view of the wind guide assembly shown in fig. 5;

FIG. 10 is an enlarged schematic view of the portion C shown in FIG. 9;

fig. 11 is a schematic structural view of the air guiding assembly shown in fig. 5 with an outer cover removed;

fig. 12 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 12 is:

100 wind dispersing components, 110 first wind dispersing parts, 111 tooth structures, 112 wind wheels, 1121 annular ribs, 1122 blades, 1123 central parts, 120 second wind dispersing parts, 131 driving wheels, 140 transmission parts, 200 mounting carriers, 211 body parts, 212 lug parts, 221 outer covers, 222 inner covers, 230 mounting holes, 300 machine equipment and 310 air conditioning air outlets.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The air dispersing assembly 100, the air guiding assembly and the air conditioner according to some embodiments of the present invention will be described with reference to fig. 1 to 12.

As shown in fig. 1, an embodiment of the first aspect of the present invention provides a wind dispersing assembly 100, which includes a plurality of first wind dispersing members 110. It will be understood by those skilled in the art that the first wind dispersing member 110 is adapted to pass the airflow therethrough and to diffuse the flow of the airflow therethrough. The air diffusing assembly 100 can be specifically used at the air outlet 310 of the air conditioner, so that air flow discharged from the air outlet 310 of the air conditioner passes through the first air diffusing part 110 and then is discharged, no wind sense air outlet of the air conditioner is realized by utilizing the air diffusing function of the first air diffusing part 110, and the air outlet comfort experience of the air conditioner is improved.

The first wind dispersing member 110 is a rotatable member, that is, the first wind dispersing member 110 can rotate. For example, the first wind dispersing member 110 includes a wind wheel 112, and the wind wheel 112 is rotatably mounted (e.g., the wind wheel 112 is rotatably mounted via a shaft hole structure) to enable the wind wheel 112 to rotate around the axis of the wind wheel 112.

The first wind dispersing members 110 have tooth structures 111, and at least two of the first wind dispersing members 110 are engaged with each other through the tooth structures 111.

The utility model discloses above-mentioned embodiment provides the wind subassembly 100 that looses, be equipped with tooth structure 111 on the first wind part 110 that looses, and make first wind part 110 and the first wind part 110 that looses utilize tooth structure 111 to mesh each other and form the transmission, this structure on the one hand, through the transmission connection between the first wind part 110 that looses, power supply quantity has been reduced, and the structural style that meshes each other between the first wind part 110 that looses, the transmission part between the first wind part 110 that looses has both been saved, make the part quantity of product still less, the structure is more simplified, the product cost is lower, make transmission loss between the first wind part 110 that looses again smaller, the transmission is more efficient, thereby promote the drive efficiency to the first wind part 110 that looses, realize the product energy-conservation; on the other hand, the first wind dispersing components 110 are engaged with each other, so that the two first wind dispersing components 110 engaged with each other have opposite rotating directions, and thus, the wind dispersing assembly 100 has richer diffusion angles to the air flow, better wind dispersing effect, and can further improve the softness and comfort of the outlet wind.

In certain embodiments, as shown in fig. 1 and 2, a plurality of first wind dispersing members 110 are arranged in a dispersed manner. It will be understood that the discrete arrangement does not mean that the first wind dispersing members 110 must be separated from each other, and the discrete arrangement is relative to a completely overlapping arrangement, and in fact, the discrete arrangement may include a contiguous arrangement, a separated arrangement, a not completely overlapping arrangement, and so on. In this structure, can utilize a plurality of first scattered wind parts 110 of dispersion to correspondingly form a plurality of scattered wind positions, like this, it is higher to the air-out area utilization ratio of first scattered wind part 110, promote scattered wind air-out efficiency, simultaneously, a plurality of first scattered wind parts 110 through the dispersion arrangement share the air current, for example, air conditioner air outlet 310 discharge air current disperses each first scattered wind part 110 department to discharge after passing each first scattered wind part 110 respectively, can further promote the soft nature of air-out, further improve the bad situation that cold wind directly blows, further promote the air-out comfort level of product.

Further, as shown in fig. 2, adjacent first wind dispersing members 110 are externally engaged with each other via a tooth structure 111. It can be understood that the tooth structures 111 of the two first wind dispersing members 110 which are engaged with each other are arranged to protrude outwards along the direction from the center, and the tooth structures 111 of the two first wind dispersing members 110 can be similarly regarded as the circumscribe form of one circle and the other circle in distribution form. As shown in fig. 3, by using the external engagement, when one of the two first air dispersing members 110 engaged with each other rotates, one of the two first air dispersing members 110 rotates along the direction x1 (specifically, for example, clockwise), and the other rotates along the direction x2 (specifically, for example, counterclockwise) opposite to the direction x1, so that the opposite rotation directions between the adjacent air dispersing members can be better ensured to form different air outlet angles, the air outlet softness effect is further enhanced, the structure of the product is simplified, the product is easier to assemble, and the yield of the product is improved.

Of course, the present embodiment is not limited to this, and in other embodiments, some or all of the first air diffusing members 110 in the plurality of first air diffusing members 110 of the air diffusing assembly 100 may be designed to mesh with each other through the tooth structures 111. It can be understood that the tooth structures 111 of one of the two first wind dispersing members 110 engaged with each other are protruded outwards along the center, the tooth structures 111 of the other one are protruded inwards along the edge towards the center, and the tooth structures 111 of the two first wind dispersing members 110 can be similarly regarded as a form that a large circle encloses a small circle and is inscribed with the small circle in the distribution form. The inner meshing structure can also achieve the purpose of reducing the number of components.

In some embodiments, as shown in fig. 2 and 3, the plurality of first wind dispersing members 110 are linked with each other.

For example, the plurality of first wind dispersing members 110 of the wind dispersing assembly 100 are arranged side by side, and any adjacent first wind dispersing members 110 are engaged with each other via the tooth structure 111. Specifically, for example, the plurality of first wind scattering members 110 are arranged in the left-right direction, wherein the first wind scattering member 110 located at the leftmost end is engaged with the second first wind scattering member 110 from the left; the first wind dispersing part 110 positioned at the rightmost end is engaged with the second first wind dispersing part 110; for one or more first wind dispersing members 110 positioned between the left and right ends, each first wind dispersing member 110 is engaged with the first wind dispersing members 110 on the left and right sides thereof. So that the plurality of first wind dispersing members 110 are engaged with each other via the tooth structures 111 between each other in the left-right direction. The structure of the product is simplified, the number of parts of the product is greatly reduced, the assembly is simpler and more convenient, and the cost is lower. In the structure, the first air diffusing parts 110 are meshed in sequence pairwise, so that the rotating directions of any adjacent first air diffusing parts 110 can be opposite, and the air outlet directions of any adjacent first air diffusing parts 110 of the air diffusing assembly 100 can be different, so that the air diffusing assembly 100 has richer air flow diffusion angles and better air diffusing effects, and the air outlet softness and comfort can be further improved.

Of course, the present invention is not limited to the transverse arrangement, in other embodiments, the plurality of first wind dispersing members 110 may also form a field-shaped arrangement, a U-shaped arrangement, etc., and it is understood that the arrangement form among the first wind dispersing members 110 may have various design forms according to the specific wind dispersing position requirement, and the arrangement form is not exhaustive, but belongs to the protection scope of the present invention without departing from the design concept.

Further, the air dispersing assembly 100 further has a driving member, and the driving member drives any one of the first air dispersing members 110 to rotate. In more detail, as shown in fig. 2 and 3, the driving member includes a driving wheel 131 (which may be a gear), and the driving member may further include a motor, and the driving wheel 131 may be driven by the motor.

For example, the driving wheel 131 drives one first wind dispersing member 110 located at the rightmost end of the plurality of first wind dispersing members 110, so that power is sequentially transmitted to the leftmost first wind dispersing member 110 along the first wind dispersing member 110, and the plurality of first wind dispersing members 110 are driven by one driving member, thereby reducing the number and structural form of product components, simplifying product structure and installation, and reducing product cost. Of course, the present invention is not limited to the illustrated structure in which the power is transmitted from right to left in one direction. In other embodiments, the driving member can be designed to drive any one of the first wind-dispersing members 110 between the left and right ends, so that the power is transmitted from the middle of the wind-dispersing assembly 100 to both sides.

Further, as shown in fig. 2 and 3, a transmission member 140 is disposed between the driving wheel 131 and the first wind dispersing member 110, and the transmission member 140 may be a transmission gear, and the transmission gear is engaged with the driving wheel 131 and the tooth structure 111 of the first wind dispersing member 110 to transmit the driving wheel 131 and the first wind dispersing member 110. Like this, the regulation to drive ratio is more nimble, also more does benefit to and cooperates the precision between action wheel 131 and the first part 110 that looses and adjusts, promotes the control accuracy of product, and does benefit to the damping between action wheel 131 and the first part 110 that looses. Of course, the present invention is not limited to this, and in other embodiments, the driving wheel 131 may be directly engaged with the first wind dispersing member 110 without the transmission member 140.

In some embodiments, as shown in fig. 1, the first wind dispersing members 110 have blades 1122, wherein the rotation direction of the blades 1122 is the same between two first wind dispersing members 110 engaged with each other. It is understood that the rotation direction of the blades 1122, i.e. the bending direction of the blades 1122, specifically, for example, as shown in fig. 1, the blades 1122 of the two first wind dispersing members 110, which are indicated by the dotted arrows to indicate the rotation direction, are bent in the clockwise direction. The turning directions of the blades 1122 between the two first air diffusing components 110 which are meshed with each other are the same, so that the air outlet angles of the two first air diffusing components 110 which are meshed with each other form a certain included angle, the air diffusing assembly 100 is richer in air diffusion angle, the air diffusing effect is better, and the air outlet softness and the comfort degree can be further improved.

Of course, the present invention is not limited to this, and in other embodiments, the rotation directions of the blades 1122 may be opposite to each other between the two first wind dispersing members 110 engaged with each other. This is more favorable to guaranteeing the drive efficiency of first scattered wind part 110 to the air current, and makes the inclination direction of the air-out angle of two first scattered wind parts 110 that mesh each other opposite, like this, looses wind subassembly 100 and is richer to the diffusion angle of air current, and it is better to loose the wind effect, can further promote soft nature of air-out and comfort level.

In some embodiments, as shown in fig. 1 and 3, the first wind dispersing member 110 includes a wind wheel 112, the edge of the wind wheel 112 is provided with a tooth structure 111, and the two first wind dispersing members 110 are engaged with each other via the tooth structure 111 on the wind wheel 112. Like this, overlap portion is few or not overlapping between the wind wheel 112 of two first wind parts 110 that disperse mutually mesh, like this, the influence is little in the air-out angle interference between the adjacent first wind part 110 that looses for the air-out resistance of first wind part 110 that looses greatly reduces, makes the air output of product bigger, and the wind subassembly 100 that looses is more guaranteed to the abundant realization effect of the diffusion angle of air current, thereby makes the wind effect that looses of product further promote, can further promote soft nature and the comfort level of air-out.

In more detail, the wind wheel 112 includes annular ribs 1121 and blades 1122. Specifically, the annular rib 1121 is circumferentially provided with a tooth structure 111; the blades 1122 are distributed in the annular rib 1121, and the blades 1122 are connected with the annular rib 1121 and rotate along with the annular rib 1121. Wherein, through setting up tooth structure 111 on annular muscle 1121, the reinforcing effect that utilizes annular muscle 1121 more does benefit to and guarantees meshing transmission stationarity, reliability and transmission precision between the first part 110 that looses, and when guaranteeing meshing transmission quality between the first part 110 that looses, can reduce blade 1122 and warp the risk to guarantee the scattered wind efficiency and the air output of the first part 110 that looses more effectively, satisfy the air-out efficiency under the no wind sense operating mode of product better, promote the use experience of product.

In more detail, the annular rib 1121 has a closed annular shape, so that the reinforcing effect is better. Furthermore, the wind wheel 112 is a closed circular ring, so that the meshing transmission between the wind wheels 112 can be more stable.

Further, as shown in fig. 1 and 3, the wind wheel 112 further has a central portion 1123, the wind wheel 112 has a plurality of blades 1122, and the plurality of blades 1122 are divergently distributed to protrude outward from the central portion 1123.

Further, the wind wheel 112 and the tooth structure 111 thereon are integrally formed.

In some embodiments, as shown in fig. 4, the wind dispersing assembly 100 further includes a plurality of second wind dispersing members 120, the second wind dispersing members 120 being disposed opposite the first wind dispersing members 110. Therefore, the air flow passes through the second air dispersing part 120 and the first air dispersing part 110 and then is discharged, the air dispersing effect is better, the air can be discharged softly, and the non-wind effect is further improved.

In certain embodiments, the first wind dispersing member 110 and the second wind dispersing member 120 are rotatably connected with each other, the second wind dispersing member 120 is a stationary blade, and the first wind dispersing member 110 is rotatable relative to the second wind dispersing member 120. Like this, when promoting no wind sense effect for the structure of product is simplified, further reduces the cost of product.

In more detail, as shown in fig. 6 and 7, the second air dispersing member 120 is assembled with the mounting carrier 200 as a stationary blade, a cavity is formed in the center 1123 of the first air dispersing member 110, a protrusion is disposed in the center of the second air dispersing member 120, and the protrusion is inserted into the cavity, so that the first air dispersing member 110 is suspended in the second air dispersing member 120 via the cavity to realize rotational connection, thus, the first air dispersing member 110 is assembled and rotatable, the structure is simplified, the rotational resistance of the first air dispersing member 110 is small, the alignment between the first air dispersing member 110 and the second air dispersing member 120 is guaranteed, and the air outlet resistance of the air dispersing assembly 100 is small.

Of course, the present invention is not limited to this, and in other embodiments, the first wind dispersing member 110 and the second wind dispersing member 120 which are oppositely arranged may be linked to each other, so that the second wind dispersing member 120 rotates with the first wind dispersing member 110. For example, the first air dispersing component 110 and the second air dispersing component 120 are connected in an interference shaft or form a key connection, etc., so that the first air dispersing component 110 drives the second air dispersing component 120 to rotate in the rotation process, specifically, for example, the second air dispersing component 120 and the first air dispersing component 110 rotate synchronously, or differential transmission between the first air dispersing component and the second air dispersing component is realized by adjusting the transmission ratio, and the design can further improve the air cutting effect of the air dispersing components, further improve the air outlet softness, and further improve the non-wind feeling use experience of the product.

The specific embodiment is as follows:

the wind diffusing assembly 100 provided in this embodiment specifically includes a plurality of wind wheel assemblies, the wind wheels 112 are provided with a gear structure, the wind wheels 112 directly drive the next wind wheel 112 through the gear structure, there is no other driving gear between the two wind wheels 112, and the two wind wheels 112 are directly engaged with each other, and there is no additional independent gear for transmission. The corresponding effect is that the rotation directions of two adjacent wind wheels 112 are opposite, and the effect of reverse rotation between the two wind wheels 112 is achieved. Compared with the scheme that a small gear is arranged between the two wind wheels 112 for transmission, the scheme of the specific embodiment reduces materials, reduces cost, increases the number of the wind wheel assemblies capable of being installed, and improves assembly efficiency.

More specifically, the air duct of the conventional air conditioner is fixed, and the air duct is provided with air duct components such as air deflectors and air guide louvers, and the air supply direction and angle adjustment are controlled by the air duct components. The air deflector plays a determining role in adjusting the air flow at the refrigerating and heating angles. Through set up the orifice plate at the air outlet, play the effect that improves comfortable experience, improve comfortable effect. The existing air conditioner can achieve the effect of preventing cold wind from blowing people and generally adopts the mode of adjusting the angle of the air deflector, weakening air flow by opening holes of the air deflector, the louver, the face frame, the panel and the like, and although the effect of softening air outlet and improving comfort can be achieved, the influence on the wind resistance of the air conditioner is often large, the air conditioner is opened in a non-wind-sensing mode, the refrigerating capacity is restricted, and the comfort degree of a human body is not good.

The air diffusing component 100 provided by the embodiment adopts a form of a wind wheel component, utilizes the wind wheel 112 to cut the passing air flow, so that the air outlet is softer, and compared with a structural form that micropore air outlet is carried out on a pore plate, the air diffusing component can improve the air outlet area and the air outlet quantity while realizing no wind feeling. In addition, the form of direct engagement between the wind wheels 112 is utilized in the structure, the engaged wind wheels 112 can rotate reversely, multi-dimensional air outlet experience is formed, and meanwhile, the purposes of simplifying the structure of a product and reducing the product cost are achieved.

As shown in fig. 4, an embodiment of the second aspect of the present invention provides an air guiding assembly, including: a carrier 200 and the air dispersion assembly 100 described in any of the above embodiments are mounted.

Specifically, the mounting carrier 200 is provided with a plurality of mounting holes 230; the wind dispersing assembly 100 is disposed on the mounting carrier 200, and the first wind dispersing member 110 of the wind dispersing assembly 100 is disposed opposite to the mounting hole 230.

The utility model discloses the air guide component that above-mentioned embodiment provided, through being provided with among the above-mentioned arbitrary technical scheme scattered wind subassembly 100 to have above all beneficial effects, no longer describe herein.

And through setting up mounting hole 230 and the corresponding setting of first part 110 that looses wind, mounting hole 230 plays the effect of dodging so that the air current passes, and the in-process that the air current passed along mounting hole 230 can be cut by first part 110 that looses wind and/or the second part 120 that looses wind and realize that the product air-out is soft, promotes the no wind sense air-out effect of product, and product simple structure, easily assembly.

In more detail, as shown in fig. 7 and 10, the mounting carrier 200 includes an inner cover 222 and an outer cover 221, the inner cover 222 is provided with a second air dispersing member 120, the outer cover 221 is provided with a plurality of mounting holes 230, the inner cover 222 and the outer cover 221 are covered and connected, the plurality of first air dispersing members 110 are located between the inner cover 222 and the outer cover 221, and the plurality of first air dispersing members 110 and the plurality of mounting holes 230 are arranged in a one-to-one correspondence manner. In more detail, the tooth structure 111 of the first wind dispersing member 110 is disposed opposite to the surrounding portion of the mounting hole 230, and the portion of the first wind dispersing member 110 located inside the tooth structure 111 (more specifically, the portion located inside the annular rib 1121) is disposed opposite to the region inside the mounting hole 230, so that the appearance of the product is ensured, the risk that the meshing portion between the first wind dispersing members 110 is blocked by foreign objects is avoided, and the reliability of the product is improved. And the part around the mounting hole 230 forms an outward limit for the tooth structure 111, the central protrusion of the second wind dispersing member 120 forms an inward limit and a radial limit for the central part 1123 of the first wind dispersing member 110 by inserting and matching with the cavity of the central part 1123 of the first wind dispersing member 110, thereby enabling the plurality of first wind dispersing members 110 to be stably and reliably assembled between the inner cover 222 and the outer cover 221.

Further, as shown in fig. 5, 8 and 9, the mounting carrier 200 has a main body 211 and a lug part 212, the lug part 212 is connected to the main body 211 and protrudes from the edge of the main body 211, the wind dispersing component 100 is disposed on the main body 211, as shown in fig. 11, the lug part 212 is provided with a driving member, the driving member is engaged with any one of the first wind dispersing members 110 of the wind dispersing component 100, or a transmission member 140 is disposed between the driving member and any one of the first wind dispersing members 110 of the wind dispersing component 100 and is transmitted via the transmission member 140. In this structure, through utilizing lug part 212 to install the driving piece, like this, the driving piece can not occupy this body portion 211 space, more does benefit to the mounting hole 230 percent opening and the trompil area of guaranteeing this body portion 211 to guarantee the air-out efficiency of scattered wind subassembly 100, promote the air output and the air-out area of product. And the lug part 212 is designed to facilitate the assembly consistency and uniformity of the driving part and the air dispersing part, so that the driving reliability between the driving part and the air dispersing part is facilitated, the driving part can drive the air dispersing part more efficiently and reliably, and the assembly of products is facilitated.

As shown in fig. 12, an embodiment of the third aspect of the present invention provides an air conditioner, including: the air-conditioning outlet 310 and the air guiding assembly described in any of the above embodiments are arranged such that at least a part of the air guiding assembly is opposite to the air-conditioning outlet 310.

In more detail, the air conditioner has the machinery 300, and the air-conditioning outlet 310 is formed on the machinery 300 and exhausts air to the outside from the machinery 300.

The utility model discloses above-mentioned embodiment provides an air conditioner is through being provided with above-mentioned arbitrary embodiment air guide assembly to have above all beneficial effects, no longer describe here.

Further, the wind guide assembly is movably connected to the machine 300, and the wind guide assembly moves up and down relative to the machine 300 to be received inside the machine 300 or at least partially extend out of the machine 300. The lug part 212 of the air guide assembly protrudes upwards from the upper edge of the body part 211, so that when the air guide assembly movably extends out of the machine equipment 300 downwards, the lug part 212 can be kept hidden in the machine equipment 300, and therefore the structure of a motor and the like can be better hidden, and the motor is prevented from being damaged.

For example, the air conditioner may be a wall-mounted air conditioner, a split air conditioner, a mobile air conditioner, a window air conditioner, or the like.

In the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "left", "right", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of description of the present invention and simplification of description, and do not indicate or imply that the device or unit indicated must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An air dispersion assembly, comprising:

the first air dispersing parts are rotatable parts, the first air dispersing parts are provided with tooth structures, and at least two of the first air dispersing parts are meshed with each other through the tooth structures.

2. The fan assembly of claim 1,

the first air dispersing members are distributed, and the adjacent first air dispersing members are in external engagement with each other through the tooth structures.

3. The fan assembly of claim 2,

the first air dispersing members are arranged side by side, and any adjacent first air dispersing members are meshed with each other through the tooth structures.

4. The air dispersion assembly of any of claims 1 to 3,

the first air dispersing components are linked, and the air dispersing assembly is also provided with a driving piece which drives any one of the first air dispersing components to rotate; and/or

The first wind dispersing parts are provided with blades, wherein the rotation directions of the blades are the same or opposite between the two first wind dispersing parts which are meshed with each other.

5. The air dispersion assembly of any of claims 1 to 3,

the first wind dispersing component comprises a wind wheel, the edge of the wind wheel is provided with the tooth structure, and the two first wind dispersing components are meshed with each other through the tooth structure on the wind wheel.

6. The diffuser assembly of claim 5, wherein the wind wheel comprises:

the annular rib is circumferentially provided with the tooth structure;

the blades are distributed in the annular ribs and are connected with the annular ribs and rotate along with the annular ribs.

7. The air dispersion assembly of any of claims 1 to 3, further comprising a plurality of second air dispersion members disposed opposite the first air dispersion members;

the first air dispersing component and the second air dispersing component which are oppositely arranged are in rotating connection, so that the first air dispersing component rotates relative to the second air dispersing component, or the first air dispersing component and the second air dispersing component which are oppositely arranged are in linkage arrangement, so that the second air dispersing component rotates along with the first air dispersing component.

8. An air guide assembly, comprising:

a mounting carrier provided with a plurality of mounting holes;

the wind spreading assembly of any one of claims 1 to 7, being disposed on the mounting carrier with the first wind spreading member thereof disposed opposite the mounting hole.

9. The air guide assembly according to claim 8,

the mounting carrier is provided with a body part and a lug part, the lug part is connected with the body part and convexly extends from the edge of the body part, the air dispersing component is arranged on the body part, the lug part is provided with a driving part, the driving part is matched with any first air dispersing part of the air dispersing component, or a driving part is arranged between the driving part and any first air dispersing part of the air dispersing component and is driven by the driving part.

10. An air conditioner, comprising:

an air outlet of the air conditioner;

the air guide assembly according to claim 8 or 9, wherein at least a part of the air guide assembly is disposed opposite to the air outlet.

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