CN115183451A - Air guide component and air conditioner with same - Google Patents

Abstract

The invention discloses an air guide component and an air conditioner with the same, wherein the air guide component comprises: aviation baffle and wind-guiding strip subassembly, the inboard at the aviation baffle is connected to the wind-guiding strip subassembly, and include two wind-guiding strips along the width direction spaced apart of aviation baffle, every wind-guiding strip all is suitable for along the air current of the inboard outside flow from the aviation baffle, the direction of keeping away from another wind-guiding strip is derived to the orientation, prescribes a limit to air flow channel between two wind-guiding strips, air flow channel extends and opens in the both ends on the extending direction along the length direction of aviation baffle in order to form the side air outlet. According to the air guide component, on the basis of guiding air in the direction that the two air guide strips are far away from each other, the air flow channel can be combined with the air outlet of the side air outlet to realize multi-dimensional air supply, so that the whole room air can be stirred in an accelerated manner, the micro-circulation of the room air is promoted, people cannot feel stuffy, the temperature can be quickly adjusted, the temperature uniformity is improved, and the comfortable experience of users is improved.

Description

Air guide component and air conditioner with same

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air guide component and an air conditioner with the same.

Background

Along with the improvement of people's standard of living, the air conditioner progressively gets into millions of families, however, the air-out direction of air conditioner is single, through setting up aviation baffle and tripe, also can only finely tune the air-out angle in current air-out direction, the indoor temperature is inhomogeneous, and temperature regulation speed is slower, more specifically say, air conditioner among the correlation technique is in the refrigeration, when heating, cold wind, hot-blast comparatively concentrated, the temperature diffusion is inhomogeneous, lead to the room temperature to drop easily, the temperature rise is slower, also bring the inhomogeneous problem of temperature simultaneously, and the indoor air lets the user experience suffocate, user experience comfort level is relatively poor.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a wind guide component which can realize multi-dimensional wind supply.

The invention also provides an air conditioner with the air guide component.

According to an embodiment of the first aspect of the present invention, the wind guide member includes: an air deflector; the air guide strip assembly is connected to the inner side of the air guide plate and comprises two air guide strips spaced along the width direction of the air guide plate, each air guide strip is suitable for guiding out air flow flowing from the inner side to the outer side of the air guide plate towards the direction far away from the other air guide strip, an air flow channel is defined between the two air guide strips, the air flow channel extends along the length direction of the air guide plate, and two ends of the air flow channel in the extension direction are opened to form a side air outlet.

According to the air guide component provided by the embodiment of the invention, on the basis of guiding air in the direction that the two air guide strips are respectively far away from each other, the air flow channel can be combined with the air outlet of the side air outlet to realize multi-dimensional air supply, so that the whole room air can be accelerated to be stirred, the micro-circulation of the room air is promoted, people cannot feel stuffy, the temperature can be quickly adjusted, the temperature uniformity is improved, and the comfortable experience of users is improved.

In some embodiments, at least one of the wind guide strips has at least one flow guide groove thereon, and the flow guide groove extends from the air inlet end of the corresponding wind guide strip to the air outlet end of the wind guide strip.

In some embodiments, the flow guide grooves are multiple and spaced apart along the length direction of the corresponding wind guide strip.

In some embodiments, the extending direction of at least one of the flow guide grooves is perpendicular to the length direction of the wind guide strip, or the extending direction of at least one of the flow guide grooves is oblique to the length direction and the width direction of the wind guide strip.

In some embodiments, the guide grooves include outer guide grooves formed on the outer portions of the respective wind guide strips, and the outer guide grooves are formed on a side surface of the respective wind guide strips facing away from the wind guide plate.

In some embodiments, the flow guide surface of the outer channel is configured as a curved surface that is concave toward the direction of the air deflection plate.

In some embodiments, the guide grooves include inner guide grooves formed inside the respective wind guide strips, and an inlet and an outlet of each inner guide groove penetrate through a surface of the respective wind guide strip.

In some embodiments, a side surface of at least one of the wind guide strips facing away from the wind guide plate is a smooth surface.

In some embodiments, at least a part of a side surface of at least one of the wind guide strips facing away from the wind deflector is configured as a curved surface which is concave in a direction facing the wind deflector.

In some embodiments, a side surface of at least one air guiding strip facing away from the air deflector comprises an extension portion smoothly extending towards a direction of a vertical plane of the air deflector, and the extension portion is located on a side of the air flow channel far away from the air deflector.

In some embodiments, two of the wind guide strips are symmetrically arranged about a vertical plane of the wind guide plate.

In some embodiments, at least one of the air guide strips comprises a plurality of sub-segments arranged in sequence along the length direction of the air guide plate, each sub-segment is detachably connected with the air guide plate, and the installation positions of the sub-segments can be interchanged.

In some embodiments, the air deflector has a plurality of vent holes therein, the vent holes being in communication with the airflow channel.

An air conditioner according to an embodiment of a second aspect of the present invention includes: the air conditioner comprises a machine body, a fan and a controller, wherein an air duct is arranged in the machine body, and an air inlet and an air outlet which are communicated with the air duct are formed in the machine body; the air guide component is arranged at the air outlet and is the air guide component according to the embodiment of the first aspect of the invention; and the driving mechanism is connected between the air guide component and the machine body and is used for driving the air guide component to move relative to the machine body.

According to the air conditioner provided by the embodiment of the invention, by arranging the air guide component in the embodiment of the first aspect, on the basis of guiding air in the direction that the two air guide strips are far away from each other, the air flow channel can be combined with the air outlet of the side air outlet to realize multi-dimensional air supply, so that the whole room air can be stirred in an accelerated manner, the micro-circulation of the room air is promoted, people cannot feel stuffy, the temperature can be quickly adjusted, the temperature uniformity is improved, the comfortable experience of users is improved, and the overall performance of the air conditioner is further improved.

In some embodiments, the air conditioner is an air conditioner hanging machine, the air outlet is formed at the bottom front side and/or the front lower part of the machine body, and the driving mechanism drives the air guiding component to move and/or rotate.

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

Drawings

FIG. 1 is a schematic diagram of an air conditioner according to one embodiment of the present invention;

FIG. 2 is an exploded view of the wind-directing component shown in FIG. 1;

FIG. 3 is an assembled view of the wind-directing component shown in FIG. 2;

FIG. 4 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 3;

fig. 5 is a front air-out state diagram of an air conditioner according to an embodiment of the present invention;

fig. 6 is a rear outlet state diagram of an air conditioner according to an embodiment of the present invention;

FIG. 7 is a front and rear air outlet state diagram of an air conditioner according to an embodiment of the present invention;

fig. 8 is a diagram of an off state of an air conditioner according to an embodiment of the present invention;

fig. 9 is an operational state diagram of an air conditioner according to an embodiment of the present invention;

fig. 10 is a front and rear outlet air state diagram of an air conditioner according to another embodiment of the present invention;

fig. 11 is a front outlet state diagram of an air conditioner according to another embodiment of the present invention;

fig. 12 is an open state diagram of an air conditioner according to still another embodiment of the present invention;

fig. 13 is a perspective view of an air conditioner according to a first embodiment of the present invention;

fig. 14 is an exploded view of the wind guide strip assembly shown in fig. 13;

FIG. 15 is a cross-sectional view taken along line B-B of FIG. 14;

fig. 16 is an exploded view of a wind guide strip assembly according to a second embodiment of the present invention;

FIG. 17 is a schematic view of the wind bar assembly shown in FIG. 16;

FIG. 18 is a cross-sectional view taken along line C-C of FIG. 17;

FIG. 19 is another schematic view of the wind bar assembly shown in FIG. 16;

FIG. 20 is a cross-sectional view taken along line D-D of FIG. 19;

fig. 21 is an exploded view of a wind guide strip assembly according to a third embodiment of the present invention;

FIG. 22 is a schematic view of the wind-guiding strip assembly shown in FIG. 21;

FIG. 23 is a sectional view taken along line E-E of FIG. 22;

FIG. 24 is another schematic view of the wind bar assembly shown in FIG. 23;

FIG. 25 is a sectional view taken along line F-F in FIG. 24;

FIG. 26 is a sectional view taken along line G-G of FIG. 24;

FIG. 27 is a mating view of a wind directing component and a drive mechanism according to one embodiment of the present invention;

FIG. 28 is an enlarged view taken along section H circled in FIG. 27;

figure 29 is an exploded view of a wind-guiding component according to an embodiment of the present invention;

FIG. 30 is an enlarged view taken along section I circled in FIG. 29;

figure 31 is a partial cross-sectional view of a wind-directing component according to an embodiment of the present invention;

fig. 32 is a schematic view of an air conditioner according to an embodiment of the present invention;

fig. 33 is a schematic view of another angle of the air conditioner shown in fig. 32, not showing the wind guide part.

Reference numerals:

an air conditioner 1000;

air guide member 100:

an air deflector 1; a longitudinal direction F1; a width direction F2; a thickness direction F3; a middle vertical plane S of the air deflector;

a vent hole 11; an air flow passage 12; a side outlet 13;

an air guide strip component 2; an air guide strip 20; an inner side surface 201; an air intake end 202; an air outlet end 203;

a first wall 204; a second wall 205; a third wall 206; a sub-segment 207;

a first wind guide strip 21; a first subsection 211; a second subsection 212;

a second wind guide strip 22; an extension 23; a cavity 24;

a diversion trench 25; an outer guide groove 251; a flow guide surface 2510;

an inner baffle groove 252; an inlet 2521; an outlet 2522; a spacing portion 26; a groove 27;

a buckle assembly 3; a latch 31; a hook 32;

a limiting component 4; a limit slot 41; a limit insert block 42;

a mounting base 5;

an air outlet 200; an air inlet 300; a heat exchange part 400; a ventilation part 500;

an air duct member 600; an air duct 601; a body 700; a drive mechanism 800.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

Hereinafter, a wind scooping part 100 and an air conditioner 1000 having the same according to an embodiment of the present invention will be described with reference to the accompanying drawings.

It should be noted that the air guiding component 100 according to the embodiment of the present invention is not limited to the air conditioner 1000, and may also be applied to other devices having an air outlet function, such as an air purifier. In addition, it should be noted that the type of the air conditioner 1000 to which the air guiding component 100 according to the embodiment of the present invention is applied is not limited, and for example, the air conditioner may be applied to an air conditioner all-in-one machine, such as a mobile air conditioner, a window air conditioner, and the like, and may also be applied to an indoor unit of a split air conditioner, such as an air conditioner on-hook machine, a cabinet air conditioner, and the like.

For simplicity of description, only the application of the wind guide component 100 according to the embodiment of the present invention to the air conditioner 1000 is described as an example, and after reading the technical solutions described below, it is obvious that the wind guide component 100 according to the embodiment of the present invention can be understood as a specific embodiment applied to other devices with an air outlet function, and details are not described herein. In addition, it is understood that, as shown in fig. 1, the air conditioner 1000 has an air outlet 200 and an air inlet 300, the air flow enters the air conditioner 1000 from the air inlet 300 and exits the air conditioner 1000 from the air outlet 200, and the air guiding component 100 is disposed at the air outlet 200 for at least adjusting the air outlet effect of the air outlet 200.

As shown in fig. 1 and 2, the wind guide member 100 may include: the air guide plate comprises an air guide plate 1 and an air guide strip component 2, wherein the air guide strip component 2 is connected to the inner side of the air guide plate 1, the side, close to the air outlet 200, of the air guide plate 1 is the inner side of the air guide plate 1, the side, away from the air outlet 200, of the air guide plate 1 is the outer side of the air guide plate 1, the air guide strip component 2 is arranged on the inner side of the air guide plate 1 and is connected with the air guide plate 1, namely, the windward side of the air guide plate 1 is arranged, and therefore the air guide effect is achieved. It should be noted that, the specific connection manner of the air guiding strip assembly 2 and the air guiding plate 1 is not limited, and the air guiding strip assembly may be a separate piece and assembled and connected (including a detachable assembly, a non-detachable assembly, and the like), or may be an integral piece (including an integral molding, a secondary injection molding, and the like).

As shown in fig. 3 and 4, the wind guide strip assembly 2 may include: two air guide strips 20 spaced apart in the width direction F2 of the air guide plate 1, each air guide strip 20 being adapted to guide out an air flow flowing from the inside to the outside of the air guide plate 1 toward a direction away from the other air guide strip 20. For example, as shown in fig. 3 and 4, the air guide bar assembly 2 includes two air guide bars 20, namely a first air guide bar 21 and a second air guide bar 22, the first air guide bar 21 and the second air guide bar 22 are spaced apart in the width direction F2 of the air guide plate 1, the first air guide bar 21 is adapted to guide out an air flow flowing from the inner side to the outer side of the air guide plate 1 toward a direction away from the second air guide bar 22 (for example, a direction indicated by a line S1 shown in fig. 4), and the second air guide bar 22 is adapted to guide out an air flow flowing from the inner side to the outer side of the air guide plate 1 toward a direction away from the first air guide bar 21 (for example, a direction indicated by a line S2 shown in fig. 4).

Therefore, according to the air guide component 100 of the embodiment of the present invention, the two air guide strips 20 arranged at intervals along the transverse direction of the air guide plate 1 are arranged on the inner side of the air guide plate 1, and the two air guide strips 20 are respectively used for guiding air in the directions away from each other, so that the adjustable air outlet in at least two dimensions (the adjustable air outlet in the two directions S1 and S2 shown in fig. 4) is realized, the whole room temperature can be quickly adjusted, the uniformity of temperature diffusion is improved, the indoor air can be disturbed to a greater extent, and the feeling of suffocation of users is improved. And can adjust the air-out effect to a great extent through rotating less angle to reduce the energy consumption that drives the motion of wind-guiding part 100, realize comparatively obvious wind direction and air regulation effect.

Moreover, when the air guiding component 100 according to the embodiment of the present invention is used in an air-conditioning hanging machine, the problem that cold air directly blows to a user and hot air cannot directly reach the user's feet can be solved, for example, as shown in fig. 5-6, the air-conditioning hanging machine 1000 is an air-conditioning hanging machine, the air outlet 200 is formed at the front side and/or the lower portion of the front side of the bottom of the machine body 700, the two air guiding strips 20 are spaced apart in the front-rear direction, and the air guiding component 100 can switch between a front air-out state (for example, as shown in fig. 5) and a rear air-out state (for example, as shown in fig. 6).

It should be noted that the air guide strip 20 may be configured as a complete long strip structure extending along the length direction F1 of the air guide plate 1, and the air guide strip 20 may also be composed of at least two short strip structures sequentially arranged along the length direction F1 of the air guide plate 1. It should be noted that the surface of the air guide strip 20 for guiding air (i.e., the air guide surface) needs to be determined according to the specific structure of the air guide strip 20, for example, the air guide surface of the air guide strip 20 may include the outer surface and the inner surface of the air guide strip 20, and the like, for example, in the first and second embodiments described later, the surface of the air guide strip 20 facing away from the air guide plate 1 (i.e., the inner side surface 201 of the air guide strip 20) is the air guide surface of the air guide strip 20, while in the third embodiment described later, the surface of the air guide strip 20 facing away from the air guide plate 1 (i.e., the inner side surface 201 of the air guide strip 20) and the inner surface of the air guide strip 20 are both the air guide surfaces of the air guide strip 20.

In some embodiments of the present invention, as shown in fig. 3 and 4, the air guiding plate 1 has a plurality of air vents 11, and it is understood that the air vents 11 penetrate through the inner side surface and the outer side surface of the air guiding plate 1. The two air guide strips 20 define an air flow channel 12 therebetween, and the air flow channel 12 is communicated with the vent hole 11, so that a part of the air flow flowing from the inner side to the outer side of the air deflector 1 can enter the air flow channel 12 and then flow out from the vent hole 11 on the air deflector 1 to the outer side of the air deflector 1 (for example, flow out in a direction indicated by a line S3 shown in fig. 4). Therefore, the air guiding component 100 may have two air outlet dimensions for respectively discharging air from the two air guiding strips 20 toward directions away from each other, and also have one air outlet dimension for discharging air through the airflow channel 12 and the vent hole 11, and at least three air outlet dimensions in total (air outlet in three directions S1, S2, and S3 as shown in fig. 4).

From this, on the basis that utilizes two wind-guiding strips 20 to respectively keep away from each other's direction wind-guiding, can also utilize airflow channel 12 and air vent 11's air-out to stir whole room air with higher speed, promote the microcirculation of room air, make the people can not feel vexed to through the multidimension degree air supply, quick temperature regulation promotes temperature homogeneity, promotes the comfortable experience of user. Moreover, when the air guide part 100 according to the embodiment of the present invention is used for an air conditioner on-hook, the air outlet of the airflow channel 12 and the vent hole 11 can be utilized to accelerate the stirring of the air in the whole room while solving the problem that cold air directly blows to the user and hot air cannot directly reach the user's foot, so as to promote the micro-circulation of the room air, so that the user does not feel stuffy, and the problem that single-dimensional air supply is not comfortable enough is solved.

For example, as shown in fig. 5 and 6, when the air conditioner 1000 is an air conditioner on-hook, when the air guiding component 100 is switched to the front air-out state (for example, as shown in fig. 5), the air current flowing out from the air outlet 200 is guided forward by the air guiding strip 20 on the front side, so that cold air can be prevented from directly blowing to a user, and a part of the air current can flow out of the air guiding plate 1 through the air current channel 12 and the air vent 11, so that the air in the whole room can be stirred quickly, the micro-circulation of the air in the room can be promoted, so that the user does not feel stuffy, and through multi-dimensional air supply, the temperature can be adjusted quickly, the temperature uniformity can be improved, and the user comfort experience can be improved.

When the air guiding component 100 is switched to the rear air outlet state (for example, as shown in fig. 6), the air flow flowing out from the air outlet 200 is guided backwards by the air guiding strips 20 on the rear side, so that the problem that the hot air cannot directly reach the feet of the user can be solved, and a part of the air flow can also flow out of the air guiding plate 1 through the air flow channel 12 and the vent holes 11, so that the air in the whole room can be stirred at an accelerated speed, the micro-circulation of the air in the room can be promoted, the user cannot feel stuffy, and the temperature can be quickly adjusted by multi-dimensional air supply, so that the temperature uniformity is improved, and the comfortable experience of the user is improved.

In addition, with reference to fig. 7, when the air conditioner 1000 is an air conditioner on-hook, the air guiding component 100 may further have a front-rear air outlet state, at this time, the air current flowing out from the air outlet 200 is divided into three streams, one stream is guided forward by the air guiding strip 20 on the front side, one stream is guided backward by the air guiding strip 20 on the rear side, and one stream flows out to the outside of the air guiding plate 1 through the air flow channel 12 and the air vent 11, so that the whole room air can be accelerated to be stirred, the microcirculation of the room air is promoted, people cannot feel oppressive, and through multidimensional air supply, the temperature is quickly adjusted, the temperature uniformity is improved, and the comfortable experience of users is improved.

In addition, referring to fig. 8, when the air conditioner 1000 is an air conditioner on-hook, the air guiding part 100 may have a closed state, at this time, the air guiding part 100 blocks the air outlet 200, if the air conditioner 1000 is in the off state, no air flow flows out from the air outlet 200, if the air conditioner is in the on state, the air flow flowing out from the air outlet 200 may flow out to the outside of the air guiding plate 1 through the air flow channel 12 and the vent hole 11, and when the vent hole 11 is a micro-hole, soft (or called no-wind) air outlet may be achieved.

In some embodiments of the present invention, as shown in fig. 3 and 4, an air flow channel 12 is defined between the two air guide strips 20, the air flow channel 12 extends along the length direction F1 of the air deflector 1, and both ends of the air flow channel 12 in the extending direction are opened to form the side air outlet 13. For example, the length direction F1 of the air deflector 1 shown in fig. 3 is a left-right direction, the air flow channel 12 extends in the left-right direction, the left end of the air flow channel 12 opens to form the left side air outlet 13, and the right end of the air flow channel 12 opens to form the right side air outlet 13, so that a part of the air flowing from the inner side to the outer side of the air deflector 1 can enter the air flow channel 12, and then flow out of the air guiding component 100 from the left side air outlet 13 (for example, flow out in a direction indicated by a line S4 shown in fig. 3) and flow out of the air guiding component 100 from the right side air outlet 13 (for example, flow out in a direction indicated by a line S5 shown in fig. 3), respectively. Therefore, the air guiding component 100 may have two air outlet dimensions for respectively discharging air from the two air guiding strips 20 toward directions away from each other, and also have two air outlet dimensions for respectively discharging air through the side air outlets 13 at the two ends of the air flow channel 12, which are at least four air outlet dimensions (for example, air is discharged in four directions S1, S2, S4, and S5 shown in fig. 3 and 4).

From this, on the basis that utilizes two wind-guiding strips 20 to respectively keep away from each other's direction wind-guiding, can also utilize airflow channel 12 and side air outlet 13's air-out to stir whole room air with higher speed, promote the microcirculation of room air, make the people not feel vexed to through the multidimension degree air supply, quick temperature regulation promotes temperature homogeneity, promotes the comfortable experience of user. Moreover, when the air guiding component 100 according to the embodiment of the present invention is used for an air conditioner on-hook, the air outlet of the airflow channel 12 and the side air outlet 13 can be utilized to accelerate the stirring of the whole room air while solving the problem that cold air directly blows to the user and hot air cannot directly reach the user's foot, so as to promote the micro-circulation of the room air, so that the user does not feel stuffy, and the problem of not comfortable single-dimensional air supply is solved.

For example, as shown in fig. 5 and fig. 6, when the air conditioner 1000 is an air conditioner on-hook, when the air guiding component 100 is switched to the front air outlet state (for example, as shown in fig. 5), the air flow flowing out from the air outlet 200 is guided forward by the air guiding strip 20 on the front side, so that cold air can be prevented from directly blowing to a user, and a part of the air flow can also flow out to two sides (in combination with fig. 9, that is, the left side and the right side) of the length of the air guiding plate 1 through the air flow channel 12 and the side air outlet 13, so that the air in the whole room can be stirred quickly, the micro-circulation of the air in the room can be promoted, so that the user does not feel bored, and the temperature can be adjusted quickly, the temperature uniformity can be improved, and the user comfort experience can be improved through multi-dimensional air supply.

When the air guiding component 100 is switched to the rear air-out state (for example, as shown in fig. 6), the air flow flowing out from the air outlet 200 is guided backwards by the air guiding strips 20 on the rear side, so that the problem that hot air cannot directly reach the feet of the user can be solved, and a part of air flow can flow out to two sides (the left side and the right side, in combination with fig. 9) of the length of the air deflector 1 through the air flow channel 12 and the side air outlet 13, so that the air in the whole room can be stirred at an accelerated speed, the micro-circulation of the air in the room is promoted, people cannot feel stuffy, and the temperature can be quickly adjusted through multi-dimensional air supply, the temperature uniformity is improved, and the comfortable experience of the user is improved.

In addition, combine fig. 7, when air conditioner 1000 is the air conditioner on-hook, air guide component 100 can also have the front and back air-out state, at this moment, the air current that flows out from air outlet 200 divides into four strands, one is the wind-guiding strip 20 wind-guiding of front side forward, one is the wind-guiding strip 20 wind-guiding of rear side backward, two strands are flowed out the outside (combine fig. 9, the left and right sides promptly) at the length both ends of aviation baffle 1 through the side air outlet 13 of both sides respectively by airflow channel 12 in addition, thereby can stir whole room air with higher speed, promote the microcirculation of room air, make the people not feel vexed, and through the multidimension degree air supply, quick temperature regulation, promote temperature uniformity, promote the comfortable experience of user.

In some embodiments of the present invention, as shown in fig. 3 and 4, an air flow channel 12 is defined between two air guide strips 20, the air flow channel 12 extends along a length direction F1 of the air deflector 1, two ends of the air flow channel 12 in the extending direction are open to form a side air outlet 13, the air deflector 1 has a plurality of vent holes 11 penetrating through an inner side surface 201 and an outer side surface of the air deflector 1, and the vent holes 11 are communicated with the air flow channel 12. Therefore, as described above, the air guiding component 100 may have two air outlet dimensions for discharging air from the two air guiding strips 20 toward directions away from each other, and also have one air outlet dimension for discharging air through the airflow channel 12 and the vent 11, and two air outlet dimensions for discharging air through the side air outlets 13 at the two ends of the airflow channel 12, which are at least five air outlet dimensions (for example, air is discharged in five directions S1, S2, S3, S4, and S5 shown in fig. 3 and 4).

From this, on the basis that utilizes two wind-guiding strips 20 to respectively keep away from each other's direction wind-guiding, can also utilize airflow channel 12, air vent 11 and the air-out of side air outlet 13 to stir whole room air fast, promote the microcirculation of room air, make the people not feel vexed to can pass through the multidimension degree air supply, quick temperature regulation promotes temperature homogeneity, promotes the comfortable experience of user. Moreover, when the air guiding component 100 according to the embodiment of the present invention is used for an air conditioner on-hook, the air flowing out of the airflow channel 12, the vent hole 11 and the side air outlet 13 can be used to accelerate the stirring of the whole room air while solving the problem that cold air directly blows to the user and hot air cannot directly reach the user's foot, so as to promote the micro-circulation of the room air, so that people do not feel stuffy, and the problem of not comfortable single-dimensional air supply is solved.

For example, as shown in fig. 5 and fig. 6, when the air conditioner 1000 is an air conditioner on-hook, when the air guiding component 100 is switched to the front air-out state (for example, as shown in fig. 5), the air flow flowing out from the air outlet 200 is guided forward by the air guiding strip 20 on the front side, so that cold air can be prevented from directly blowing to the user, and a part of the air flow can also flow out to the outside of the air guiding plate 1 through the air flow channel 12 and the air vent 11, and a part of the air flow can also flow out to both sides (in combination with fig. 9, that is, the left and right sides) of the length of the air guiding plate 1 through the air flow channel 12 and the side air outlet 13, so that the air in the whole room can be rapidly stirred, the micro-circulation of the air in the room can be promoted, so that the user does not feel stuffy, and the temperature can be rapidly adjusted by multi-dimensional air supply, so as to promote temperature uniformity and improve user comfort experience.

When the air guiding component 100 is switched to the rear air outlet state (for example, as shown in fig. 6), the air flow flowing out from the air outlet 200 is guided backwards by the air guiding strip 20 on the rear side, so that the problem that the hot air cannot directly reach the feet of the user can be solved, and a part of the air flow can also flow out to the outer side of the air guiding plate 1 through the air flow channel 12 and the air vent 11, and a part of the air flow can also flow out to two sides (in combination with fig. 9, namely, the left side and the right side) of the length of the air guiding plate 1 through the air flow channel 12 and the side air outlet 13, so that the air in the whole room can be quickly stirred, the micro-circulation of the air in the room can be promoted, people can not feel stuffy, and the temperature can be quickly adjusted through multi-dimensional air supply, the temperature uniformity is improved, and the comfort of the user is improved.

In addition, with reference to fig. 7, when the air conditioner 1000 is an air conditioner on-hook, the air guiding component 100 may further have a front-rear air outlet state, at this time, the air flow flowing out from the air outlet 200 is divided into five streams, one stream flows forward through the air guiding strip 20 at the front side for guiding air, one stream flows backward through the air guiding strip 20 at the rear side for guiding air, one stream flows out to the outside of the air guiding plate 1 through the air flow channel 12 and the air vent 11 and the side air outlet 13, and the other two streams flow out to the outside of both ends of the length of the air guiding plate 1 through the side air outlets 13 at both sides by the air flow channel 12 (with reference to fig. 9, i.e., the left side and the right side), so that the whole room air can be rapidly stirred, the micro-circulation of the room air is promoted, so that people cannot feel stuffy, and the temperature can be rapidly adjusted through multidimensional air supply, the temperature uniformity is promoted, and the comfortable experience of the user is promoted.

In addition, referring to fig. 8, when the air conditioner 1000 is an air conditioner on-hook, the air guiding part 100 may have a closed state, at this time, the air guiding part 100 blocks the air outlet 200, if the air conditioner 1000 is in the off state, no air flow flows out from the air outlet 200, if the air conditioner is in the on state, the air flow flowing out from the air outlet 200 may flow out to the outside of the air guiding plate 1 through the air flow channel 12 and the vent hole 11, and when the vent hole 11 is a micro-hole, soft (or called no-wind) air outlet may be achieved.

Along with the improvement of people's standard of living, the air conditioner progressively gets into millions of families, however, the air-out direction of air conditioner is single, through setting up aviation baffle and tripe, also can only finely tune the air-out angle in current air-out direction, the indoor temperature is inhomogeneous, and temperature regulation speed is slower, more specifically say, air conditioner among the correlation technique is in the refrigeration, when heating, cold wind, hot-blast comparatively concentrated, the temperature diffusion is inhomogeneous, lead to the room temperature to drop easily, the temperature rise is slower, also bring the inhomogeneous problem of temperature simultaneously, and the indoor air lets the user experience suffocate, user experience comfort level is relatively poor. According to the air guide component 100 of the embodiment of the invention, on the basis of guiding air in the direction that the two air guide strips 20 are respectively far away from each other, the air flow channel 12 can be combined with the air outlet of the side air outlet 13 and/or the air vent 11 to realize multi-dimensional air supply, so that the whole room air can be stirred at an accelerated speed, the micro-circulation of the room air is promoted, people cannot feel stuffy, the temperature can be quickly adjusted, the temperature uniformity is improved, and the comfortable experience of users is improved.

In addition, people are blown by cold wind for a long time under the air-conditioning environment, various problems such as air-conditioning diseases and the like can be caused, and some air conditioners in the related art have the effect of preventing the cold wind from blowing directly, but under the mode of preventing the cold wind from blowing directly, the cold quantity cannot be maintained, the room temperature is quickly increased, and the comfort is not high. According to the air guide component 100 provided by the embodiment of the invention, the cold air is prevented from blowing directly, the air in the whole house is quickly stirred, the cold quantity is maintained, the room temperature can still be kept low and uniform, the comfort is higher, the air flow speed of the room can be controlled, the problem of preventing cold air from blowing people can be well solved, people cannot feel stuffy indoors, and the implementation mode is simple and reliable.

It is understood that, when the air conditioner 1000 is an air conditioner on-hook, as shown in fig. 5, the "front wind-out state" described herein refers to: the air guiding component 100 moves towards the rear side of the air outlet 200, a front air outlet opening is defined between the front end of the air guiding component 100 and the front side edge of the air outlet 200, a rear air outlet opening is not formed between the rear end of the air guiding component 100 and the rear side edge of the air outlet 200, and air flow can be led out forwards through the air guiding strips 20 on the front side but cannot be led out backwards through the air guiding strips 20 on the rear side.

It is understood that, when the air conditioner 1000 is an air conditioner on-hook, as shown in fig. 6, the "rear air-out state" described herein refers to: the air guiding component 100 moves towards the front side of the air outlet 200, a front air outlet opening is not arranged between the front end of the air guiding component 100 and the front side edge of the air outlet 200, a rear air outlet opening is defined between the rear end of the air guiding component 100 and the rear side edge of the air outlet 200, and air flow can be led out backwards through the air guiding strips 20 on the rear side but cannot be led out forwards through the air guiding strips 20 on the front side.

It is understood that, when the air conditioner 1000 is an air conditioner on-hook, as shown in fig. 7, the "front-rear air outlet state" described herein refers to: a front air outlet opening is defined between the front end of the air guiding component 100 and the front side edge of the air outlet 200, a rear air outlet opening is defined between the rear end of the air guiding component 100 and the rear side edge of the air outlet 200, and the air flow can be led out backwards by the air guiding strip 20 on the rear side or forwards by the air guiding strip 20 on the front side.

In the "front-rear air outlet state", the opening distance X1 of the front air outlet opening and the opening distance X2 of the rear air outlet opening are not limited, and may be, for example, 0mm to 200mm, and further, the preferred range may be 28mm to 55mm, so that the air supply effect can be ensured.

It is understood that when the air conditioner 1000 is on-hook, as shown in fig. 8, the "off state" described herein refers to: a front air outlet opening is not formed between the front end of the air guiding component 100 and the front side edge of the air outlet 200, a rear air outlet opening is not formed between the rear end of the air guiding component 100 and the rear side edge of the air outlet 200, and air flow cannot be led out backwards by the air guiding strip 20 on the rear side or forwards by the air guiding strip 20 on the front side.

In some examples, when the airflow channel 12 extends along the length direction F1 of the air deflector 1 and both ends in the extending direction are opened to form the side outlet 13, the side outlet 13 may be hidden in the body 700 of the air conditioner 1000 in the closed state. Therefore, in the shutdown state, dirt and the like can be prevented from entering the air conditioner 1000 through the side air outlet 13, and the reliability and the sealing performance of the air conditioner 1000 are improved.

The shape of the air guide plate 1 is not limited, and may be designed to match the external appearance of the air conditioner 1000, for example. For example, in some specific examples, as shown in fig. 5 to 8, the outer side surface of the air deflector 1 may be formed as a plane, so as to facilitate processing, and when the air deflector 100 is applied to the air outlet 200 at the front side of the bottom of the air conditioner, when the air deflector 100 is in the closed state, the bottom surface of the air conditioner may be ensured to be flat, so as to save space.

For another example, as shown in fig. 10 to 11, in some specific examples, the outer side surface of the air deflector 1 may be formed into an outward convex curved surface, that is, the middle portion of the outer surface of the air deflector 1 protrudes toward the outer side of the air deflector 1, so that the setting range of the vent hole 11 may be increased to some extent, the air volume and range of the air discharged from the vent hole 11 may be increased, and the effect of stirring the air in the whole room may be improved, and when the air guide part 100 is applied to the air outlets 200 at the front side and the lower portion of the front side of the bottom of the air conditioner on-hook, when the air guide part 100 is in the closed state, the appearance surface of the front lower corner of the air conditioner on-hook may be ensured to be smooth, so as to save space and avoid the problem of colliding with the user.

Note that the height of the air guide strip 20 is not limited, and for example, as shown in fig. 4, the relationship between the height H of the air guide strip 20 and the width W of the air guide plate 1 in the thickness direction F3 of the air guide plate 1 may be: w/8 ≦ H ≦ W/3, for example, H = W/3, H = W/4, H = W/5, H = W/6, H = W/7, H = W/8, and the like, whereby the air guiding effect can be ensured.

In some embodiments of the present invention, as shown in fig. 12, a side surface (i.e. the inner side surface 201) of the at least one wind guiding strip 20 facing away from the wind guiding plate 1 includes an extending portion 23 (e.g. a portion indicated by a dashed circle in fig. 12) smoothly extending toward the direction of the vertical plane S of the wind guiding plate 1, and the extending portion 23 is located on a side of the airflow channel 12 far from the wind guiding plate 1. The "vertical plane S of the air guide plate 1" means: the center of the air guide plate 1 extends along the length direction F1 of the air guide plate 1 and is perpendicular to the plane of the air guide plate 1. Accordingly, by extending the air inlet end 202 of the air guide strip 20 toward the vertical plane S of the air deflector 1 (i.e., extending in the direction from the air outlet end 203 to the air inlet end 202 of the air guide strip 20), the air guide area of the air guide strip 20 can be increased, and the air can be discharged more smoothly.

In some embodiments of the present invention, at least one wind guide strip 20 has at least one flow guiding groove 25, and the flow guiding groove 25 extends from the air inlet 202 of the corresponding wind guide strip 20 to the air outlet 203 of the wind guide strip 20, it should be noted that the position where the flow guiding groove 25 is disposed is not limited, and for example, the flow guiding groove 25 may be formed inside and/or outside the wind guide strip 20 (for example, the inner flow guiding groove 252 and/or the outer flow guiding groove 251 described below), so that the flow guiding groove 25 may be utilized to split, thereby better stirring the air, improving the temperature regulation efficiency, and improving the uniformity of the temperature.

In some embodiments of the present invention, when one wind guide strip 20 has a plurality of flow guide grooves 25 (for example, the inner flow guide groove 252 and/or the outer flow guide groove 251 described below), the flow guide grooves 25 may be disposed in a plurality and spaced apart from each other along the length direction F1 of the wind guide strip 20. Therefore, the effect of utilizing the diversion groove 25 to divert flow is more obvious, air can be better stirred, the temperature regulation efficiency is improved, and the uniformity of the temperature is improved.

In some embodiments of the present invention, when one wind guide strip 20 has flow guide grooves 25 (for example, the inner flow guide grooves 252 and/or the outer flow guide grooves 251 described below), at least one flow guide groove 25 optionally extends in a direction perpendicular to the length direction F1 of the wind guide strip 20, thereby facilitating the processing. Or optionally, the extending direction of the at least one guiding groove 25 is inclined to the length direction F1 and the width direction F2 of the air guide strip 20, that is, the extending direction of the at least one guiding groove 25 intersects with the length direction F1 of the air guide strip 20 at an acute angle or an obtuse angle, so that the air supply angle can be adjusted, the requirements of different application scenarios can be met, air can be stirred better, the temperature regulation efficiency can be improved, and the temperature uniformity can be improved.

It should be noted that the specific configuration of the wind guide strip 20 is not limited, and may be in various forms, and four alternative embodiments are described below.

In the first embodiment, as shown in fig. 13 to 15, a surface (i.e., an inner side surface 201) of at least one wind guiding strip 20 facing away from the wind guiding plate 1 is a smooth surface, which may be a smooth plane or a smooth curved surface, as long as there is no guiding groove 25. Therefore, the air conditioner is convenient to process, stable in air flow and smooth in air outlet.

In the second embodiment, as shown in fig. 16-20, at least one wind guide strip 20 has at least one flow guiding groove 25, and the flow guiding groove 25 extends from the air inlet end 202 of the corresponding wind guide strip 20 to the air outlet end 203 of the wind guide strip 20, in this embodiment, the flow guiding groove 25 includes an outer flow guiding groove 251 formed on the outer portion of the corresponding wind guide strip 20, and the outer flow guiding groove 251 is formed on a side surface (i.e., the inner side surface 201) of the corresponding wind guide strip 20 facing away from the wind deflector 1. It should be noted that, the portion of the inner side surface 201 of the wind guide strip 20 located between two adjacent outer guide grooves 251 is the spacing portion 26, so that a part of the airflow flowing out along the inner side surface 201 of the wind guide strip 20 can flow out through the flow guide of the spacing portion 26, and another part can flow out along the flow guide of the outer guide grooves 251, thereby further stirring the air, improving the temperature regulation efficiency, and improving the temperature uniformity.

Alternatively, as shown in fig. 20, the guide surface 2510 (i.e., the groove bottom surface) of the outer guide groove 251 is configured as a curved surface depressed toward the direction of the air deflection plate 1. Therefore, when the air guide strip 20 is used for adjusting the air supply direction of cold air, the guide surface 2510 of the external guide groove 251 can be used for preventing the cold air from directly blowing the user downwards, and the comfort of the user is improved.

It should be noted that the external guiding grooves 251 may extend in a direction perpendicular to the longitudinal direction F1 of the air guide strip 20, or may extend in a direction intersecting the longitudinal direction F1 of the air guide strip 20 at an acute angle or an obtuse angle, so as to meet the air blowing requirements in different directions. For example, in the specific example shown in fig. 16, the first wind guide strip 21 includes two subsections 207, i.e., a first subsection 211 and a second subsection 212, which are sequentially arranged along the length direction F1 of the wind guide plate 1, each of the plurality of outer guide grooves 251 on the first subsection 211 is inclined in a direction away from the second subsection 212 in a direction from the air inlet end 202 to the air outlet end 203, and each of the plurality of outer guide grooves 251 on the second subsection 212 is inclined in a direction away from the first subsection 211 in a direction from the air inlet end 202 to the air outlet end 203. Therefore, bilateral air supply on the same side can be realized, and the air supply range in the left and right directions is enlarged, so that air can be stirred better, the temperature regulation efficiency is improved, and the temperature uniformity is improved.

Of course, the present invention is not limited thereto, and when the air conditioner is installed at an indoor corner, the inclination direction of the outer guide groove 251 of the first subsection 211 and the inclination direction of the outer guide groove 251 of the second subsection 212 may be set to be the same, so as to implement unilateral air supply on the same side, and increase the air supply range in the left direction or the right direction, thereby better stirring the air, improving the temperature adjustment efficiency, and improving the uniformity of the temperature.

In a third embodiment, as shown in fig. 21 to fig. 26, at least one wind guide strip 20 has at least one flow guiding groove 25, the flow guiding groove 25 extends from the air inlet end 202 of the corresponding wind guide strip 20 to the air outlet end 203 of the wind guide strip 20, in this embodiment, the flow guiding groove 25 includes an inner flow guiding groove 252 formed inside the corresponding wind guide strip 20, an inlet 2521 and an outlet 2522 of the inner flow guiding groove 252 both penetrate through the surface of the corresponding wind guide strip 20, that is, the inlet 2521 of the inner flow guiding groove 252 penetrates through the air inlet end 202 of the wind guide strip 20, and the outlet 2522 of the inner flow guiding groove 252 penetrates through the air outlet end 203 of the wind guide strip 20. Therefore, the air flow can flow out along the diversion of the inner side surface 201 of the air guide strip 20 and the diversion of the inner diversion groove 252, so that the air can be further stirred, the temperature regulation efficiency is improved, and the temperature uniformity is improved.

The inner guide grooves 252 may extend in a direction perpendicular to the longitudinal direction F1 of the air guide strip 20, or may extend in a direction intersecting the longitudinal direction F1 of the air guide strip 20 at an acute angle or an obtuse angle, so as to satisfy air blowing requirements in different directions. For example, in some specific examples, the wind guide strip 20 may include two parts having equal lengths and sequentially arranged in the length direction F1 of the wind guide plate 1, each of the plurality of internal channels 252 on the left part is inclined to the left in the direction from the air inlet end 202 to the air outlet end 203, and each of the plurality of internal channels 252 on the right part is inclined to the right in the direction from the air inlet end 202 to the air outlet end 203. Therefore, bilateral air supply on the same side can be realized, and the air supply range in the left and right directions is enlarged, so that air can be stirred better, the temperature regulation efficiency is improved, and the temperature uniformity is improved.

Of course, the present invention is not limited thereto, and when the air conditioner on-hook is installed at an indoor corner, the inclination directions of all the inner guide grooves 252 on the air guide strip 20 may be set to be the same, so as to implement the unilateral air supply on the same side, and increase the air supply range in the left direction or the right direction, so as to better stir the air, improve the temperature regulation efficiency, and improve the temperature uniformity.

In the fourth embodiment, at least one wind guide strip 20 has at least one flow guiding groove 25, the flow guiding groove 25 extends from the air inlet end 202 of the corresponding wind guide strip 20 to the air outlet end 203 of the wind guide strip 20, in the present embodiment, the flow guiding groove 25 includes an outer flow guiding groove 251 formed outside the corresponding wind guide strip 20, the outer flow guiding groove 251 is formed on a side surface (i.e., the inner side surface 201) of the corresponding wind guide strip 20 facing away from the wind deflector 1, meanwhile, the flow guiding groove 25 further includes an inner flow guiding groove 252 formed inside the corresponding wind guide strip 20, both an inlet 2521 and an outlet 2522 of the inner flow guiding groove 252 penetrate through the surface of the corresponding wind guide strip 20, i.e., the inlet 2521 of the inner flow guiding groove 252 penetrates through the air inlet end 202 of the wind guide strip 20, and the outlet 2522 of the inner flow guiding groove 252 penetrates through the air outlet end 203 of the wind guide strip 20. Therefore, the air flow can flow out along the guide of the inner surface 201 of the air guide strip 20 and the outer guide groove 251 and can flow out along the guide of the inner guide groove 252, so that the air can be further stirred, the temperature regulation efficiency is improved, and the temperature uniformity is improved.

In some embodiments of the present invention, at least one wind guide strip 20 has at least one guiding groove 25, and the guiding groove 25 extends from the air inlet 202 of the corresponding wind guide strip 20 to the air outlet 203 of the wind guide strip 20 (for example, but not limited to, the second embodiment, the third embodiment, and the fourth embodiment), so that air can be stirred better, the temperature regulation efficiency can be improved, and the temperature uniformity can be improved.

In some embodiments of the present invention, at least a portion of a side surface (i.e. the inner side surface 201) of the at least one wind-guiding strip 20 facing away from the wind-guiding plate 1 is configured as a curved surface that is concave in a direction toward the wind-guiding plate 1. Therefore, when the air guide strips 20 are used for adjusting the air supply direction of cold air, the cold air can be prevented from directly blowing the user downwards, and the comfort of the user is improved. For example, the inner surface 201 of the air guide strip 20 of the first embodiment may be entirely formed as a curved surface that is concave in the direction toward the air guide plate 1, and the guide surfaces of the guide grooves 25 of the second, third, and fourth embodiments may be formed as curved surfaces that are concave in the direction toward the air guide plate 1.

In some embodiments of the present invention, the cavity 24 is formed in at least one wind-guiding strip 20, so that the weight and the cost can be reduced, and the problems of condensation on the outer surface of the wind-guiding plate 1 can be improved. For example, the air guide strip 20 of the first embodiment or the second embodiment may have a cavity 24 formed therein, and for example, the inner guiding grooves 252 of the third embodiment and the fourth embodiment may be used as the cavity 24.

It should be noted that, a specific connection manner of the air guide strip 20 and the air guide plate 1 is not limited, for example, in some embodiments, at least one air guide strip 20 and the air guide plate 1 are an integral piece, so that the processing is convenient, the connection reliability of the air guide strip 20 and the air guide plate 1 can be improved, and the integral piece may be an integrally formed piece, or may be an injection molded piece.

Alternatively, in other embodiments, at least one wind-guiding strip 20 is a separate component and assembled with the wind-guiding plate 1. Therefore, the air guide strip 20 and the air guide plate 1 can be respectively and independently processed into structural forms meeting respective air guide requirements, the processing is convenient, and the requirements can be simply and effectively met. It should be noted that, the specific manner of the assembling connection is not limited, and the assembling connection may be a non-detachable assembling connection, such as bonding, riveting, or the like, or a detachable assembling connection, such as a threaded connection, a snap connection, a magnetic connection, or the like, so that the air guide strip 20 may be detached as needed to perform operations such as cleaning, replacement, and maintenance.

For example, in some specific examples, the at least one wind guiding strip 20 is detachably connected to the wind guiding plate 1 through the snap assembly 3 and/or the magnetic attraction assembly, that is, through at least one of the snap assembly 3 and the magnetic attraction assembly. Therefore, the screw does not need to be screwed, and the disassembly is convenient. For example, in the example shown in fig. 27-30, the snap assemblies 3 are in multiple groups and spaced apart along the length direction F1 of the air deflection plate 1, whereby the reliability of the snap connection can be improved.

In some specific examples, as shown in fig. 27 to 31, the fastening assembly 3 is disposed on a side of the corresponding air guiding strip 20 facing the air flow channel 12, and a side of the air guiding strip 20 facing away from the air flow channel 12 (i.e., the air outlet end 203 of the air guiding strip 20) is in limit fit with the air deflector 1 through the limit assembly 4. Therefore, the interference of the buckle component 3 and the limiting component 4 to the air flow can be reduced, and the assembly reliability and the assembly convenience of the air guide strip 20 can be simply and effectively ensured.

In some specific examples, as shown in fig. 28 and fig. 30, a groove 27 is formed on a surface of one side of the air guide strip 20 facing the air flow channel 12, the latch assembly 3 includes a latch 31 disposed in the groove 27, the latch assembly 3 further includes a hook 32 disposed on the air guide plate 1, and the hook 32 extends into the groove 27 and is in snap fit with the latch 31. From this, through locating aviation baffle 1 with trip 32, can conveniently process, the assembly of trip 32 and fixture block 31 is simple and convenient, and is reliable, accomodates fixture block 31 through setting up recess 27, can avoid trip 32 and fixture block 31's cooperation to occupy the space of air current passageway 12, reduces buckle subassembly 3 and produces the interference to the air current flow.

In some specific examples, as shown in fig. 30 and fig. 31, the limiting component 4 includes a limiting slot 41 and a limiting insert 42, the limiting slot 41 is formed on a width-side edge of the air deflector 1 (i.e., extends along the length direction F1 of the air deflector 1 and is located on one side edge of the air deflector 1 in the width direction F2), the limiting insert 42 is disposed on a side of the air guide strip 20 facing away from the air flow channel 12 (i.e., the air outlet end 203 of the air guide strip 20), and the limiting insert 42 is inserted into the limiting slot 41. Therefore, the limiting slot 41 and the limiting insertion block 42 are simple to process, convenient to assemble and reliable in limiting effect.

In some specific examples of the present invention, as shown in fig. 30 and 31, the air guide strip 20 may include a first wall surface 204 and a second wall surface 205, the first wall surface 204 and the second wall surface 205 both extend along a length direction F1 of the air guide plate 1, the first wall surface 204 serves as a side wall of the air flow channel 12, the first wall surface 204 may have a groove 27 and a block 31, one end of the second wall surface 205 is connected to one end of the first wall surface 204, which is far from the air guide plate 1, to form an air inlet end 202 of the air guide strip 20, the other end of the second wall surface 205 extends toward a direction close to the air guide plate 1 and serves as an air outlet end 203 of the air guide strip 20, an outer surface of the second wall surface 205 is an inner side surface 201 of the air guide strip 20, and one end of the second wall surface 205, which is close to the air guide plate 1, may have a limit block 42.

Therefore, the air guide strip 20 is simple in structure, is of an internal hollow structure, is light in weight, can solve the problem of condensation formed on the air guide plate 1, and does not have large face-to-face contact when being assembled with the air guide plate 1 because the air guide strip 20 does not have the third wall surface 206 attached to the inner side surface of the air guide plate 1, so that the machining precision can be reduced, the assembly smoothness can be ensured, and the air guide strip 20 can be prevented from causing deformation of the air guide plate 1. However, the present invention is not limited thereto, and in some other examples of the present invention, the wind guide strip 20 may have the third wall 206, so as to improve the structural strength of the wind guide strip 20.

In some embodiments of the present invention, as shown in fig. 16, two wind guide strips 20 may be symmetrically arranged about a median vertical plane S of the wind guide plate 1. Therefore, processing is convenient, when the two air guide strips 20 are detachably assembled and connected with the air guide plate 1, processing and assembly can be facilitated, namely, two air guide strips 20 do not need to be processed in processing, the air guide strips 20 do not need to be selected in assembly, and interchangeability is achieved.

In some specific examples of the present invention, as shown in fig. 16, at least one wind guide strip 20 includes a plurality of sub-segments 207 sequentially arranged along a length direction F1 of the wind guide plate 1, each sub-segment 207 is detachably connected to the wind guide plate 1, and the installation positions of the plurality of sub-segments 207 are interchangeable. Therefore, when the guide functions of the plurality of sub-segments 207 are the same, the assembly can be facilitated, and when the guide functions of the plurality of sub-segments 207 are different, the position relations of different sub-segments 207 can be exchanged, so that different wind guide effects can be presented in combination.

In some specific examples, each of the two wind guide strips 20 includes a plurality of subsections 207 sequentially arranged along the length direction F1 of the wind guide plate 1, each subsection 207 is detachably connected to the wind guide plate 1, and the installation positions of all the subsections 207 are interchangeable, so that the installation is convenient, and in some cases, different wind guide effects can be combined.

For example, in the specific example shown in fig. 16, each wind guide strip 20 is divided into two sub-segments 207, each sub-segment 207 is detachably connected to the wind guide plate 1, and the positions of any two of the four sub-segments 207 can be interchanged, so as to realize any combination of the four sub-segments 207. Therefore, the installation is convenient, and when the structures and the air guide effects of the four sub-sections 207 are different, different air guide effects can be combined.

Next, an embodiment in which the wind scooping part 100 according to the embodiment of the present invention is applied to the air conditioner 1000 is described.

As shown in fig. 32 to 33, the air conditioner 1000 may include: the air conditioner comprises a machine body 700, an air guide part 100 and a driving mechanism 800, wherein the machine body 700 is internally provided with an air duct 601, the machine body 700 is provided with an air inlet 300 and an air outlet 200 which are communicated with the air duct 601, the air guide part 100 is arranged at the air outlet 200, and the driving mechanism 800 is connected between the air guide part 100 and the machine body 700 and is used for driving the air guide part 100 to move relative to the machine body 700. Therefore, according to the air conditioner 1000 of the embodiment of the present invention, by providing the air guide component 100 and driving the air guide component 100 to move through the driving mechanism 800, multi-dimensional air supply and switching can be achieved, so that the whole room air can be stirred quickly, the micro-circulation of the room air can be promoted, people can not feel stuffy, the temperature can be adjusted quickly, the temperature uniformity can be improved, and the comfortable experience of users can be improved. For example, in some specific examples, in conjunction with fig. 5, the body 700 may include a heat exchanging part 400, a ventilating part 500, and a wind tunnel part 600, the heat exchanging part 400 may include a heat exchanger, an electric auxiliary heater, and the like, the ventilating part 500 may include a fan, an electric motor, and the like, and the wind tunnel part 600 may define a wind tunnel 601.

In some embodiments of the present invention, as shown in fig. 27 and 28, two mounting seats 5 are disposed on the inner side surface of the wind deflector 1, the two mounting seats 5 are respectively located on two sides of the length of the wind guiding strip assembly 2, namely, on two sides of the wind deflector 1 in the length direction F1, and the driving mechanism 800 is adapted to be connected with the mounting seats 5 to mount the wind guiding component 100 to the machine body 700. Therefore, the driving mechanism 800 can be ensured to be positioned at two sides of the air guide strip component 2, so that the air flow is prevented from being interfered, and the air outlet effect is ensured.

In some embodiments of the present invention, as shown in fig. 32 and 33, the air conditioner 1000 is an air conditioner, the air outlet 200 is formed at the bottom front side and/or the front lower portion of the machine body 700, and the driving mechanism 800 drives the wind guide member 100 to move and/or rotate, so that the wind guide member 100 can be simply and effectively driven to switch between different states. It should be noted that the moving may include reciprocating along a straight line and/or a curved line. Accordingly, the air guide member 100 can be driven to switch at least one of the closed state, the front air-out state, the rear air-out state, and the front-rear air-out state.

Specifically, when the driving mechanism 800 can drive the air guide member 100 to move, the moving direction of the air guide member 100 can be determined according to the installation position of the outlet 200.

For example, as shown in fig. 5 to 8, when the air outlet 200 is formed at the front side of the bottom of the machine body 700, the moving direction of the air guiding member 100 may be a downward direction along a straight line, when the driving mechanism 800 drives the air guiding member 100 to move downward to the sinking position, the air outlet 200 may be opened, the driving mechanism 800 may drive the air guiding member 100 to rotate at the sinking position, so as to switch the front air outlet state (for example, as shown in fig. 5), the rear air outlet state (for example, as shown in fig. 6), and the front and rear air outlet state (for example, as shown in fig. 7), and when the driving mechanism 800 drives the air guiding member 100 to move upward to the rising position, the air guiding member 100 may assume the closed state (for example, as shown in fig. 8).

For another example, as shown in fig. 10 to 11, when the air outlet 200 is formed at the front side and the lower part of the bottom of the machine body 700, the moving direction of the air guiding member 100 may be an oblique direction along a straight line or a curve, when the driving mechanism 800 drives the air guiding member 100 to move obliquely downward to the obliquely pushed-out position, the air outlet 200 may be opened, the driving mechanism 800 may drive the air guiding member 100 to rotate at the obliquely pushed-out position, so as to switch the front air-out state (for example, as shown in fig. 11), the rear air-out state (not shown in the figure), and the front-rear air-out state (for example, as shown in fig. 10), and when the driving mechanism 800 drives the air guiding member 100 to move obliquely upward to the obliquely pulled-back position, the air guiding member 100 may assume the closed state (not shown in the figure).

It should be noted that the specific configuration of the driving mechanism 800 is not limited, and for example, the driving mechanism may include a gear, a rack, a link, etc. to realize the movement and the rotation, which is not limited herein. In the front and rear air outlet states, the air flow can be respectively led out from the air guide strip 20 of the air guide part 100 forwards and backwards, and can be led out from the air vent 11 and/or the side air outlet 13, so that the cold air or the hot air directly blowing to a user can be improved; under the back air-out state, the air current can be followed air guide part 100 and derived backward to with the air current downwards, guarantee warm sufficient effect, under the preceding air-out state, the air current can be followed air guide part 100 and derived forward, can improve the cold wind and blow people's problem. In short, can easily realize preventing directly blowing from top to bottom and have the effect of multidimension degree air-out, satisfy the people and keep away people's demand to different regional wind, promote user's experience travelling comfort. For example, through tests, in the front and rear air outlet states, the temperature at the maximum air volume position of a room is layered uniformly, the difference value between the maximum temperature and the minimum temperature is not more than 5 degrees, and the difference value between the adjacent height temperatures is not more than 0.5 degrees. This test result demonstrates the advantage of the wind-guiding member 100 of the present embodiment in rapidly and uniformly heating the room.

In the description of the present invention, it is to be understood that the terms "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the second feature or the first and second features may be indirectly contacting each other through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean 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 are not necessarily intended to 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. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (15)

1. A wind-directing component, comprising:

an air deflector;

the air guide strip assembly is connected to the inner side of the air guide plate and comprises two air guide strips spaced along the width direction of the air guide plate, each air guide strip is suitable for guiding out air flow flowing from the inner side to the outer side of the air guide plate towards the direction far away from the other air guide strip, an air flow channel is defined between the two air guide strips, the air flow channel extends along the length direction of the air guide plate, and two ends of the air flow channel in the extension direction are opened to form a side air outlet.

2. The wind guide component of claim 1, wherein at least one of the wind guide strips has at least one guiding groove extending from the air inlet end of the corresponding wind guide strip to the air outlet end of the wind guide strip.

3. The wind guide component of claim 2, wherein the flow guide grooves are arranged in a plurality of numbers and are spaced apart along the length direction of the corresponding wind guide strip.

4. The wind guide part according to claim 2, wherein the extending direction of at least one of the flow guide grooves is perpendicular to the length direction of the wind guide strip, or the extending direction of at least one of the flow guide grooves is oblique to the length direction and the width direction of the wind guide strip.

5. The wind guide component of claim 2, wherein the guide grooves comprise outer guide grooves formed on the outer portion of the corresponding wind guide strip, and the outer guide grooves are formed on a side surface of the corresponding wind guide strip facing away from the wind deflector.

6. The wind guide component of claim 5, wherein the flow guide surface of the outer channel is configured as a curved surface that is concave in a direction toward the wind deflector.

7. The wind guide component of claim 2, wherein the channels comprise internal channels formed in the interior of the respective wind guide strip, and wherein the inlet and outlet of the internal channels extend through the surface of the respective wind guide strip.

8. The wind guide component of claim 1, wherein a surface of at least one wind guide strip facing away from the wind deflector is a smooth surface.

9. The wind deflector of claim 1, wherein at least a portion of a surface of at least one wind deflector strip facing away from the wind deflector is configured as a curved surface that is concave in a direction toward the wind deflector.

10. The wind guide component of claim 1, wherein a surface of at least one wind guide strip facing away from the wind deflector comprises an extension portion smoothly extending towards a vertical direction of the wind deflector, and the extension portion is located on a side of the airflow channel far away from the wind deflector.

11. The air guide component of claim 1, wherein the two air guide strips are symmetrically arranged about a mid-vertical plane of the air guide plate.

12. The wind guide component of claim 1, wherein at least one of the wind guide strips comprises a plurality of subsections sequentially arranged along the length direction of the wind guide plate, each subsection is detachably connected with the wind guide plate, and the installation positions of the subsections are interchangeable.

13. The wind deflector of any one of claims 2-12, wherein the wind deflector has a plurality of vents therein, the vents being in communication with the airflow channel.

14. An air conditioner, comprising:

the air conditioner comprises a machine body, a fan and a controller, wherein an air duct is arranged in the machine body, and an air inlet and an air outlet which are communicated with the air duct are formed in the machine body;

the air guide component is arranged at the air outlet and is the air guide component according to any one of claims 1 to 13; and

and the driving mechanism is connected between the air guide component and the machine body and is used for driving the air guide component to move relative to the machine body.

15. The air conditioner as claimed in claim 14, wherein the air conditioner is an air conditioner hanging machine, the air outlet is formed at the bottom front side and/or the front lower part of the machine body, and the driving mechanism drives the air guiding component to move and/or rotate.

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