CN218583290U - Air conditioner air-out structure and have its air conditioner - Google Patents

Abstract

The utility model provides an air outlet structure of an air conditioner and the air conditioner with the same, wherein the air outlet structure comprises an air outlet which is arranged at the bottom of a shell of the air conditioner; the outer air deflector is used for closing or opening the air outlet and can be rotatably arranged at a position close to the rear side of the air outlet; the inner air deflector is rotatably arranged at a position close to the front side of the air outlet through the inner guide assembly part, and the air guide surface of the inner air deflector is arranged in an arc shape; the small air guide plate is rotatably arranged at a position close to the front side of the air outlet and used for guiding the air outlet to the arc-shaped air guide surface of the inner air guide plate. The utility model discloses a set up the air outlet on the casing bottom plate, can realize the whole setting of front panel on the one hand, increase the pleasing to the eye degree of air conditioner, on the other hand can show the open area who increases the air outlet, can realize the air-out of the big amount of wind, in addition, increase in the air outlet and set up little aviation baffle, little aviation baffle is with the arc surface of air-out guide inner air deflector, has weakened the wind speed, has avoided the air-out to blow directly user's problem.

Description

Air conditioner air-out structure and have its air conditioner

Technical Field

The utility model relates to an air conditioner field particularly, relates to an air conditioner air-out structure and have its air conditioner.

Background

Among the prior art, the air outlet of air conditioner sets up the preceding downside at the air conditioner usually, the space is limited, lead to the size of air outlet limited, can't satisfy bigger air-out demand, and the air outlet is after being shielded by the aviation baffle, there is the gap between front panel and aviation baffle, influence the outward appearance of air conditioner, furthermore, prior art sets up outer aviation baffle and the cooperation wind-guiding of the two-layer aviation baffle of interior aviation baffle usually, form constrictive air-out passageway between the two easily, make the air-out wind speed too fast, user experience is not good.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem, among the prior art, the air outlet size of air conditioner is limited, can't satisfy bigger air-out demand, and the air outlet is shielded by the aviation baffle after, has the gap between front panel and aviation baffle, influences the outward appearance of air conditioner, and the setting of outer aviation baffle and the two-layer aviation baffle cooperation wind-guiding of interior aviation baffle forms the contained angle between the two easily among the prior art for the air-out wind speed is too fast, and user experience is not good.

In order to solve the above problem, the utility model discloses an air-out structure of air conditioner, include: the air outlet is arranged at the bottom of the air conditioner shell; the outer air deflector is used for closing or opening the air outlet and can be rotatably arranged at a position close to the rear side of the air outlet; the inner air deflector is rotatably arranged at a position close to the front side of the air outlet through an inner guide assembly part, and the air guide surface of the inner air deflector is arranged in an arc shape; the small air guide plate is rotatably arranged at a position close to the front side of the air outlet, rotates in the space above the air guide surface of the inner air guide plate and is used for guiding the outlet air to the arc-shaped air guide surface of the inner air guide plate.

Through the arrangement, on the one hand, the air outlet is arranged at the bottom of the shell, the area of the air outlet can be enlarged, the air outlet requirement of large air quantity is met, on the other hand, the air outlet and the outer air guide plate are arranged at the bottom of the shell, the front panel of the air conditioner can adopt an integral structure, the attractiveness of the air conditioner is improved, the inner air guide plate is closer to the outer air guide plate through the arrangement of the inner air guide assembly part, gaps between the inner air guide plate and the outer air guide plate are greatly reduced, and in addition, the arc-shaped air guide surface is arranged on the inner air guide plate, so that certain speed reduction and direction change exist on the air guide surface of the inner air guide plate for air outlet, the influence of the air speed is weakened, the small air guide plate guides the air outlet to the arc-shaped air outlet surface, under the condition that the air outlet at the front side of the air outlet is directly blown out is prevented, twice speed reduction and direction change are realized, the air speed and the wind direction are further controlled, and the use experience of a user is improved.

Furthermore, the outer air deflector comprises a two-section structure coaxially arranged in the left-right direction, and the inner air deflector also comprises a two-section structure coaxially arranged in the left-right direction.

The air conditioner can realize different air guide states on the left side and the right side, can be adjusted according to different use requirements of users, and improves the use experience of the users.

Furthermore, a first mounting bracket is arranged at a position close to the rear side of the air outlet, the two-section structure of the outer air guide plate comprises a left outer air guide plate and a right outer air guide plate, first connecting structures are respectively arranged on the left outer air guide plate and the right outer air guide plate, and the left outer air guide plate and the right outer air guide plate are rotatably connected with the first mounting bracket through the first connecting structures respectively.

In the arrangement, the installation arrangement of the left outer air guide plate and the right outer air guide plate can be realized by matching one first installation support with respective driving devices of the first installation support and the second installation support, and the structure is simple and easy to arrange.

Furthermore, first connection structure includes first hasp support and first hasp, first hasp detachably sets up on first hasp support, just first hasp is for first hasp support movable setting.

The first lock catch can be preassembled with the left outer air guide plate and the right outer air guide plate, so that the assembling procedures of the whole machine are reduced, and the assembling efficiency is improved.

Furthermore, the first lock comprises a first lock column, and the first lock column extends into the first mounting bracket to complete the matching assembly of the left outer air deflector or the right outer air deflector.

The structure is simple and easy to operate, and the quick assembly of the left outer air guide plate or the right outer air guide plate can be realized.

Furthermore, the first lock catch support comprises a first lock post support, a first slide way and a first limit catch; the first lock comprises a first lock column, a first sliding groove, a first deformation rib, a first convex strip and a push-pull portion, wherein the first lock column, the first sliding groove and the first deformation rib are arranged on the push-pull portion, the first convex strip is arranged on the first deformation rib and protrudes towards the first limiting buckle, the first lock column is matched with the first lock column support, the first sliding groove is matched with the first sliding way, and the first limiting buckle is used for being matched with the first deformation rib and the first convex strip in a limiting mode.

In the arrangement, in the process of telescopic movement of the first lock column, the first convex strip is in contact with the first limit buckle to press the first deformation rib to deform, when the first lock is in a locking state or an unlocking state, the first limit buckle is separated from the range of the first convex strip, the first deformation rib rebounds, and the first limit buckle limits the movement of the first convex strip, so that the movement of the first lock is prevented, the first lock column is prevented from being separated from the first mounting bracket in the locking state or extending out of the first mounting bracket in the unlocking state, and the locking state or the unlocking state of the first lock is ensured.

Furthermore, be provided with locking portion and the spacing portion of unblock respectively at the both ends of first slide, correspond at the both ends of first spout and be provided with unblock spacing groove and lock plate, unblock spacing groove is spacing with the spacing cooperation of unblock, lock plate and the spacing cooperation of locking portion are spacing, are used for injecing the flexible stroke of first hasp along first slide.

The cooperation setting of lock plate and locking portion is used for restricting the extension length of first lock post, the cooperation setting of unblock spacing groove and the spacing portion of unblock is used for avoiding first lock catch excessively contracts.

Furthermore, still be provided with the first groove of stepping down on the first hasp, the first groove of stepping down sets up in the one side that first deformation muscle kept away from first limit buckle for first deformation muscle provides the deformation space.

The arrangement of the first abdicating groove increases the elasticity of the first deformation rib, so that the first deformation rib has better deformation resilience performance.

Furthermore, the inner air deflector is of a transparent structure.

The inner air deflector made of transparent materials can hardly be observed when swinging, so that the attention of a user can not be attracted, and the influence on the user can not be caused.

The utility model also discloses an air conditioner, include as above air conditioner air-out structure, the air conditioner is still including sweeping the wind blade subassembly, it sets up to sweep the wind blade subassembly the upper reaches of air conditioner air-out structure air-out direction for control and sweep the wind.

Compared with the prior art, the air conditioner and the air outlet structure of the air conditioner have the same advantages, and are not repeated herein.

Compared with the prior art, air conditioner air-out structure and have its air conditioner have following advantage:

the utility model discloses a set up the air outlet on the casing bottom plate, the whole setting of front panel can be realized on the one hand, the pleasing to the eye degree of air conditioner has been increased, on the other hand can show the open area who increases the air outlet, can realize the air-out of the big amount of wind, in addition, increase in the air outlet and set up little aviation baffle, little aviation baffle can swing the wind-guiding, the arc surface of aviation baffle in with the air-out direction, derive wind through interior aviation baffle again, the wind speed has been weakened, the problem of air-out direct-blowing user in the narrow wind channel has been avoided. The utility model discloses simple structure, convenient to use has promoted the use of user and has experienced when having promoted the air conditioner outward appearance.

Drawings

Fig. 1 is a schematic perspective view of an integrated structure of an outer wind deflector and an inner wind deflector according to an embodiment of the present invention in the left-right direction;

fig. 2 is a left side view of the outer wind deflector and the inner wind deflector according to the embodiment of the present invention in a left-right direction;

fig. 3 is a schematic perspective view of the outer wind deflector and the inner wind deflector of the embodiment of the present invention in a left-right direction;

fig. 4 is a left side view of the outer air guiding plate and the inner air guiding plate of the embodiment of the present invention, which are two segments in the left-right direction and have different opening angles;

fig. 5 is a schematic view of an explosion structure when the outer air guiding plate and the inner air guiding plate are two segments in the left and right directions according to the embodiment of the present invention;

fig. 6 is a front view of the outer wind deflector and the inner wind deflector according to the embodiment of the present invention in two segments in the left and right directions;

FIG. 7 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 6;

FIG. 8 is a cross-sectional view taken at B-B of FIG. 6;

FIG. 9 is an enlarged partial view of the area C in FIG. 8;

fig. 10 is a front view of the embodiment of the present invention with the outer air deflectors removed;

FIG. 11 is a cross-sectional view taken at D-D of FIG. 10;

fig. 12 is a schematic structural view of a first outer air guiding plate according to an embodiment of the present invention;

FIG. 13 is an enlarged partial view of the area G in FIG. 12;

fig. 14 is an enlarged schematic view of a first latch bracket according to an embodiment of the present invention;

fig. 15 is a schematic perspective view of a first lock according to an embodiment of the present invention in two directions;

fig. 16 is a schematic view of the fitting assembly of the inner wind deflector and the small wind deflector according to the embodiment of the present invention;

FIG. 17 is an enlarged partial view of the area E in FIG. 16;

FIG. 18 is an enlarged partial view of portion F of FIG. 16;

fig. 19 is a top view of the small air guiding plate according to the embodiment of the present invention;

FIG. 20 is an enlarged partial view of the area H in FIG. 19;

fig. 21 is a schematic perspective view of a splitting structure of a small air deflector according to an embodiment of the present invention;

FIG. 22 is an enlarged partial view of the portion J of FIG. 21;

fig. 23 is a schematic structural view of a first plate according to an embodiment of the present invention;

FIG. 24 is an enlarged partial view of the portion K in FIG. 23;

FIG. 25 is an enlarged partial view of the portion L of FIG. 23;

fig. 26 is a schematic top view and a schematic perspective view of a second lock catch according to an embodiment of the present invention;

fig. 27 is an exploded view of the small guide driving sleeve and the inner guide driving device according to the embodiment of the present invention;

fig. 28 is a schematic view of an assembly structure of the small guide driving sleeve and the inner guide driving device according to the embodiment of the present invention;

fig. 29 is a schematic structural diagram of a transmission structure in a small guide driving device according to an embodiment of the present invention.

Description of reference numerals:

1-a shell; 2-external air deflector; 21-left outer air deflection plates; 22-right outer air deflection plates; 23-a first latch bracket; 231-a first bollard support; 232-a first slideway; 233-unlocking limit part; 234-a locking portion; 235-a first limit buckle; 3-an inner air deflector; 31-left inner air deflector; 32-right inner air deflection plate; 33-inner guide drive connection; 34-an inner guide assembly part; 4-small air deflector; 41-a first plate body; 411-a second locking bracket; 4111-a fitting groove; 4112-a second lock cylinder support; 4113-a third lock cylinder support; 4114-a second slide; 4115-a second stop button; 4116-a third stop button; 4117-unlocking the shutter; 412-drive connection; 4121-a socket joint; 4122-first snap-in part; 4123-a drive receiving groove; 4124-avoidance groove; 42-a second plate body; 5-a second mounting bracket; 6-a first mounting bracket; 7-small guide driving sleeve; 71-a socket hole; 72-a second snap-in part; 73-a third snap-fit portion; 8-an internal guide driving device; 81-output shaft; 82-internal guide driving part; 10-a first lock catch; 101-a first lock cylinder; 102-a first runner; 103-unlocking a limit groove; 104-a locking plate; 105-a first deformed rib; 106-first ribs; 107-first yielding slot; 108-a push-pull part; 11-a second lock catch; 111-a second lock cylinder; 112-a second runner; 113-a second deformed bar; 114-second ribs; 115-a receiving groove; 116-a second yielding slot; 117-a third abdicating groove; 118-third deformed ribs; 119-third ribs; 120-a handle; 121-a first end plate; 122-a second end plate; 13-a transmission part; 131-fourth snap-in part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. The specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting of the invention. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The air outlet structure of the air conditioner and the air conditioner with the same according to the embodiments of the present invention are specifically described below with reference to the accompanying drawings.

Example 1

This embodiment provides an air conditioner air-out structure, as shown in fig. 1-11, includes:

the air outlet is arranged at the bottom of the air conditioner shell 1;

the outer air deflector 2 is used for closing or opening the air outlet, and the outer air deflector 2 is rotatably arranged at a position close to the rear side of the air outlet;

the inner air deflector 3 is rotatably arranged at a position close to the front side of the air outlet through an inner guide assembling part 34, and the air guiding surface of the inner air deflector 3 is arranged in an arc shape;

the small air guide plate 4 is rotatably arranged at a position close to the front side of the air outlet, and the small air guide plate 4 rotates in the space above the air guide surface of the inner air guide plate 3 and is used for guiding the outlet air to the arc-shaped air guide surface of the inner air guide plate 3.

Through the arrangement, on one hand, the air outlet is arranged at the bottom of the shell 1, the area of the air outlet can be enlarged, the air outlet requirement of large air quantity is met, on the other hand, the air outlet and the outer air deflector 2 are arranged at the bottom of the shell 1, so that a front panel of the air conditioner can adopt an integral structure, the attractiveness of the air conditioner is improved, in addition, as shown in fig. 2, the inner air deflector 3 is closer to the outer air deflector 2 through the arrangement of the inner guide assembly part 34, so that a gap between the inner air deflector 3 and the outer air deflector 2 is greatly reduced, in addition, the arrangement of the arc-shaped air guide surface on the inner air deflector 3 enables the air outlet to have certain speed reduction and direction change on the air guide surface of the inner air deflector 3 through the arrangement of the inner guide assembly part 34, the influence of the air speed is weakened, in addition, the small air deflector 4 guides the air outlet to the arc-shaped air outlet surface, under the condition that the air outlet at the front side of the air outlet is prevented from being directly blown out, the two times of speed reduction and direction change are caused, the air outlet is further controlled, the use experience of a user is improved, in the optional embodiment, the air deflector 2 and when the air outlet 2 rotates, the air deflector 2 is prevented from being directly blown out, the main air outlet is used for controlling the main air outlet, and the main air deflector 3, the main air outlet is used for controlling the main air outlet, the main air deflector 3, and the main air outlet is arranged in the main air deflector 2, and the main air deflector 4, thus, the main air outlet is used for controlling the main air outlet.

In some alternative embodiments, the width of the outer wind deflector 2 in the front-rear direction is larger than that of the inner wind deflector 3, and the width of the inner wind deflector 3 in the front-rear direction is larger than that of the small wind deflector 4. The width in the front-back direction refers to the width of the projection of the outer air deflector 2, the inner air deflector 3 and the small air deflector 4 on the horizontal plane in the front-back direction when the outer air deflector 2, the inner air deflector 3 and the small air deflector 4 are in a horizontal state, through the arrangement, when the air conditioner is stopped, the small air deflector 4 is recovered into the space of the inner air deflector 3, the inner air deflector 3 is recovered into the air outlet, the outer air deflector 2 closes the air outlet, in addition, the width of the small air deflector 4 in the front-back direction is smaller than the length of the inner air guiding assembly part 34 in the front-back direction, and the arrangement can enable an air outlet gap to be always formed between the small air deflector 4 and the air guiding surface of the inner air deflector 3, so that the air outlet effect of the air conditioner is prevented from being influenced by the fact that the small air deflector 4 is in contact with the air guiding surface of the inner air deflector 3 in the rotating process.

In a preferred embodiment, the internal air guiding plate 3 is a transparent structure. The inner air deflector 3 is made of transparent materials, in the prior art, the air deflector of the air conditioner is usually made of non-transparent materials, is obvious when swinging and is easy to affect users, and the inner air deflector 3 made of transparent materials can hardly observe when swinging, so that the attention of the users can not be attracted, and the influence on the users can not be caused. The transparent material can refer to the window material in the prior art, and is not limited herein.

In some alternative embodiments, as shown in fig. 5-8, the outer wind deflector 2 comprises a two-segment structure coaxially arranged in the left-right direction, and the inner wind deflector 3 also comprises a two-segment structure coaxially arranged in the left-right direction. Specifically, the two-section structure of the outer air deflector 2 comprises a left outer air deflector 21 and a right outer air deflector 22, the two-section structure of the inner air deflector 3 comprises a left inner air deflector 31 and a right inner air deflector 32, wherein the left outer air deflector 21 and the right outer air deflector 22 are coaxial and can be independently and rotatably arranged, the left inner air deflector 31 and the right inner air deflector 32 are coaxial and can be independently and rotatably arranged, the left outer air deflector 21 and the left inner air deflector 31 are matched to realize left air guiding, the right outer air deflector 22 and the right inner air deflector 32 are matched to realize right air guiding, and the air conditioner can realize different left and right air guiding states through the arrangement, can be adjusted according to different use requirements of users, and improves the use experience of users.

As an embodiment of the present invention, as shown in fig. 8, fig. 10, and fig. 12, a first mounting bracket 6 is disposed at a position close to the rear side of the air outlet, the two-segment structure of the outer wind deflector 2 includes a left outer wind deflector 21 and a right outer wind deflector 22, a first connecting structure is disposed on the left outer wind deflector 21 and the right outer wind deflector 22, and the left outer wind deflector 21 and the right outer wind deflector 22 are rotatably connected to the same first mounting bracket 6 through the first connecting structure, respectively. In this arrangement, the installation and arrangement of the left outer air guiding plate 21 and the right outer air guiding plate 22 can be realized by using one first installation bracket 6 and matching with the respective driving devices of the two, the structure is simple, the arrangement is easy, and the respective driving devices of the left outer air guiding plate 21 and the right outer air guiding plate 22 can be referred to the prior art, and are not described and limited herein.

In some embodiments, as shown in fig. 13, 14 and 15, the first connecting structure includes a first latch bracket 23 and a first latch 10, the first latch 10 is detachably disposed on the first latch bracket 23, and the first latch 10 is movably disposed relative to the first latch bracket 23. The first lock bracket 23 is arranged on the left outer air deflector 21 and the right outer air deflector 22, the first lock 10 is detachably arranged on the first lock bracket 23, and pre-assembly of the first lock 10 and the left outer air deflector 21 and the right outer air deflector 22 can be realized through the arrangement, so that the assembly process of the whole machine is reduced, and the assembly efficiency is improved.

As an embodiment of the present invention, as shown in fig. 15, the first latch 10 includes a first lock post 101, and the first lock post 101 extends into the first mounting bracket 6 to complete the fitting of the left outer air guiding plate 21 or the right outer air guiding plate 22. It should be understood that, as shown in fig. 6, the first mounting bracket 6 is provided with an assembly hole, the first lock post 101 extends into the assembly hole to realize the fitting assembly of the first mounting bracket 6 and the left outer air deflector 21 or the right outer air deflector 22, and the first lock post 101 is in a telescopic limiting arrangement, that is, after extending out or retracting, the first lock post has a corresponding limiting structure to limit, so as to avoid falling off or falling off from the first mounting bracket 6.

As an embodiment of the present invention, as shown in fig. 13, 14 and 15, the first latch bracket 23 includes a first lock post bracket 231, a first slide way 232 and a first stopper 235; the first lock catch 10 includes a first lock post 101, a first sliding groove 102, a first deformation rib 105, a first protruding strip 106 and a push-pull portion 108, the first lock post 101, the first sliding groove 102 and the first deformation rib 105 are all disposed on the push-pull portion 108, the first protruding strip 106 is disposed on the first deformation rib 105, the first protruding strip 106 protrudes in the direction of a first limit catch 235, the first lock post 101 is disposed in cooperation with a first lock post bracket 231, the first sliding groove 102 is disposed in cooperation with a first sliding way 232, and the first limit catch 235 is used for being limited in cooperation with the first deformation rib 105 and the first protruding strip 106. In this arrangement, in the process of the telescopic movement of the first lock cylinder 101, the first protruding strip 106 contacts with the first stopper 235 to press the first deformation rib 105 to deform, when the first lock catch 10 is in the locked state or the unlocked state, the first stopper 235 is out of the range of the first protruding strip 106, the first deformation rib 105 rebounds, and the first stopper 235 limits the movement of the first protruding strip 106, so as to prevent the first lock catch 10 from moving, prevent the first lock cylinder 101 from coming out of the first mounting bracket 6 in the locked state or extending out of the first mounting bracket 6 in the unlocked state, and ensure the locked state or the unlocked state of the first lock catch 10. The arrangement of the first lock cylinder bracket 231 can ensure that the first lock cylinder 101 does not deviate in the moving process, so that the first lock cylinder can smoothly enter the first mounting bracket 6, and the accurate assembly of the left outer air deflector 21 or the right outer air deflector 22 is realized.

Optionally, as shown in fig. 14, a locking portion 234 and an unlocking limiting portion 233 are respectively disposed at two ends of the first slide rail 232, an unlocking limiting groove 103 and a locking plate 104 are correspondingly disposed at two ends of the first slide groove 102, the unlocking limiting groove 103 and the unlocking limiting portion 233 are matched for limiting, and the locking plate 104 and the locking portion 234 are matched for limiting, so as to limit the extension stroke of the first lock catch 10 along the first slide rail 232. The locking plate 104 and the locking portion 234 are configured to limit the extension length of the first lock post 101, so as to ensure accurate installation of the left outer wind deflector 21 or the right outer wind deflector 22, and avoid interference caused by excessive extension of the left outer wind deflector, and the unlocking limiting groove 103 and the unlocking limiting portion 233 are configured to avoid excessive retraction of the first lock catch 10, so as to avoid the first lock catch 10 being disengaged from the first slide rail 232.

In this embodiment, as shown in fig. 15, a first avoiding groove 107 is further disposed on the first lock catch 10, and the first avoiding groove 107 is disposed on a side of the first deformation rib 105 away from the first stopper 235, for providing a deformation space for the first deformation rib 105. The first avoiding groove 107 increases the elasticity of the first deformed rib 105, so that the first deformed rib has better deformation resilience performance.

As one preferred embodiment, as shown in fig. 9, 11, and 16, a plurality of second mounting brackets 5 are disposed at positions close to the front side of the air outlet, a plurality of second connecting structures are disposed on the small air guiding plate 4, the second connecting structures and the second mounting brackets 5 are disposed in a one-to-one correspondence, each second connecting structure includes a retractable second locking column 111, and the inner air guiding plate 3 and the small air guiding plate 4 are coaxially assembled on the second mounting brackets 5 through the second locking columns 111 in a synchronous manner. In some optional embodiments, the inner air deflector 3 and the small air deflector 4 are synchronously assembled on the second mounting bracket 5 through the second locking column 111, the second locking column 111 is telescopically arranged, and in the process of extending, the second locking column penetrates through the second mounting bracket 5 and the inner air deflector 3 to complete locking, so that the inner air deflector 3, the small air deflector 4 and the second mounting bracket 5 are coaxially assembled in a matching manner. Through the arrangement, the inner air deflector 3 and the small air deflector 4 share one set of second mounting bracket 5, corresponding mounting brackets do not need to be arranged respectively, on one hand, the occupied space of the respective mounting brackets is reduced, on the other hand, the one-time assembly of the inner air deflector 3 and the small air deflector 4 is realized, the assembly procedures are reduced, and the assembly efficiency is improved.

In the present embodiment, as shown in fig. 19, 20 and 21, the small air guiding plate 4 includes a first plate body 41 and a second plate body 42, the first plate body 41 and the second plate body 42 are assembled in a matching manner, and the second connecting structure is disposed in a space formed after the first plate body 41 and the second plate body 42 are assembled. This setting has avoided the second connection structure to expose, has also avoided it to causing the influence to sweeping the wind when having promoted pleasing to the eye degree.

In one embodiment, as shown in fig. 20 and 23, the second connecting structure includes a second latch 11 and a second latch bracket 411, the second latch bracket 411 is disposed on the first board 41, and the second latch 11 is detachably disposed on the second latch bracket 411. This setting can realize the preassembly of second hasp 11 and first plate body 41 avoids setting up second connection structure temporarily, has reduced the assembly process of complete machine, has improved assembly efficiency.

In some embodiments, as shown in fig. 22, fig. 24, and fig. 26, the second lock bracket 411 includes a mounting groove 4111, a second lock cylinder bracket 4112, a third lock cylinder bracket 4113, a second slideway 4114, and a limiting portion, the second lock 11 includes at least a second lock cylinder 111 and a second slideway 112, the second lock cylinder 111 and the third lock cylinder bracket 4113 are cooperatively disposed, the second slideway 112 and the second slideway 4114 are cooperatively disposed, the second lock 11 moves along the second slideway 4114 to drive the second lock cylinder 111 to move in the mounting groove 4111 to extend into the second lock cylinder bracket 4112 to form a lock, or retract toward the third lock cylinder bracket 4113 to form an unlock, and the limiting portion is used for limiting when the second lock 11 is locked or unlocked. The assembly groove 4111 is arranged between the second lock cylinder support 4112 and the third lock cylinder support 4113, during assembly, the inner guide assembly portion 34 on the second mounting support 5 and the inner air deflector 3 simultaneously stretches into the assembly groove 4111, and the movable end of the second lock cylinder 111 moves in the direction from the third lock cylinder support 4113 to the second lock cylinder support 4112 to lock, so that synchronous assembly of the inner air deflector 3, the small air deflector 4 and the second mounting support 5 is completed, and the assembly groove is simple and convenient.

In this embodiment, as shown in fig. 22, 24, and 26, the limiting portion includes a second limiting buckle 4115, a second deforming rib 113, a third limiting buckle 4116, a third deforming rib 118, and an unlocking baffle 4117, the second limiting buckle 4115, the third limiting buckle 4116, and the unlocking baffle 4117 are disposed on the first board 41, the second deforming rib 113 and the third deforming rib 118 are disposed on the second lock catch 11, the second deforming rib 113 and the second limiting buckle 4115 are disposed in a matching manner, the third deforming rib 118 and the third limiting buckle 4116 are disposed in a corresponding manner, a second protruding strip 114 is disposed on the second deforming rib 113, and the second protruding strip 114 protrudes toward the second limiting buckle 4115; a third convex strip 119 is arranged on the third deformed rib 118, the third convex strip 119 extends towards the third limit buckle 4116, the second deformed rib 113 and the second convex strip 114 are used for being matched with the second limit buckle 4115 for limiting, and the third deformed rib 118 and the third convex strip 119 are used for being matched with the third limit buckle 4116 for limiting; the unlocking baffle 4117 is used for limiting the stroke of the second lock catch 11 during unlocking. In this setting, in the process of the telescopic movement of the second lock 11, the second protruding strip 114 contacts with the second limit buckle 4115 to press the second deformation rib 113 to deform, the third protruding strip 119 contacts with the third limit buckle 4116 to press the third deformation rib 118 to deform, when the second lock 11 is in the locked state or the unlocked state, the second limit buckle 4115 is out of the range of the second protruding strip 114, the second deformation rib 113 rebounds, the third limit buckle 4116 is out of the range of the third protruding strip 119, the third deformation rib 118 rebounds, the second limit buckle 4115 limits the movement of the second protruding strip 114, the third limit buckle 4116 limits the movement of the third protruding strip 119, thereby preventing the movement of the second lock 11, preventing the second lock column 111 from being disengaged from the second lock column bracket 4112 in the locked state or extending out to the second lock column bracket 4112 in the unlocked state, ensuring the locked or unlocked state of the second lock column 11, and preventing the lock plate 4117 from being excessively retracted and avoiding the second lock column 41111 from falling off. Third lock post support 4113's setting can guarantee that first lock post 101 can not take place the skew at the removal in-process, still carries on spacingly to the stroke that stretches out of second hasp 11, specifically, in the assembling process, first terminal plate 121 on the second hasp 11 with third lock post support 4113 limits its stroke that stretches out, and in the unblock in-process, second terminal plate 122 on the second hasp 11 limits its stroke that contracts with unblock baffle 4117.

In one embodiment, as shown in fig. 18 and 26, the second latch 11 further includes a handle 120, and when the second latch 11 is disposed on the small wind deflector 4, the handle 120 is located outside the small wind deflector 4. The handle 120 is used for moving the second lock catch 11, and in this arrangement, the handle 120 is exposed outside the small air deflector 4, so that the assembling or disassembling operation of a person is facilitated.

As an embodiment of the present invention, as shown in fig. 20, fig. 22, and fig. 26, a position of the second lock catch 11 close to the handle 120 is provided with a receiving groove 115, the second position-limiting buckle 4115 is disposed in the receiving groove 115, and the third position-limiting buckle 4116 is disposed on one side of the handle 120. The second limiting buckle 4115 and the third limiting buckle 4116 form double limiting on the second lock catch 11, so that the second lock catch is prevented from shifting in the moving process, and the assembly accuracy of the inner air deflector 3, the small air deflector 4 and the second mounting bracket 5 is ensured.

As a preferred embodiment, as shown in fig. 26, a second yielding groove 116 and a third yielding groove 117 are further disposed on the second lock catch 11, and the second yielding groove 116 is disposed on a side of the second deformation rib 113 away from the second limit buckle 4115, and is used for providing a deformation space for the second deformation rib 113; the third avoiding groove 117 is disposed on one side of the third deforming rib 118 away from the third limiting buckle 4116, and is used for providing a deforming space for the third deforming rib 118. The second and third relief grooves 116 and 117 increase the elasticity of the second and third deformation ribs 113 and 118, so that the deformation resilience performance is better.

In this embodiment, a first assembly hole is formed in the second mounting bracket 5, an inner guide assembly portion 34 is formed in the inner air deflector 3, a second assembly hole is formed in the inner guide assembly portion 34, and the second lock cylinder 111 passes through the first assembly hole and the second assembly hole and then is locked, so that the inner air deflector 3, the small air deflector 4 and the second mounting bracket 5 are synchronously assembled. After the inner air deflector 3, the small air deflector 4 and the second mounting bracket 5 are assembled, the relative rotation between the inner air deflector 3 and the small air deflector 4 and the second mounting bracket 5 can be realized, the assembly is simple and convenient, and the space occupation inside the air conditioner is greatly reduced.

In this embodiment, as shown in fig. 27 to 29, the inner air guiding plate 3 and the small air guiding plate 4 rotate coaxially through a driving structure, the driving structure includes a small guide driving sleeve 7 and an inner guide driving device 8, the small guide driving sleeve 7 is rotatably sleeved on an output shaft 81 of the inner guide driving device 8, the small guide driving sleeve 7 is respectively connected with the small air guiding plate 4 and the transmission part 13, and drives the small air guiding plate 4 to rotate under the transmission of the transmission part 13, an end of the output shaft 81 extends out of the small guide driving sleeve 7, an inner guide driving part 82 is disposed at an end of the output shaft 81, and the inner guide driving part 82 is connected with the inner air guiding plate 3 and is used for driving the inner air guiding plate 3 to rotate. It should be understood that the small guide driving sleeve 7 is further provided with a sleeve hole 71, an end portion of the output shaft 81 extends out after passing through the sleeve hole 71, an inner guide driving portion 82 is arranged on an extending portion, one end of the transmission portion 13 is connected with the small guide driving sleeve 7, the other end of the transmission portion is connected with a small guide driving device (not shown in the figure), the small guide driving device drives the transmission portion 13 to move, so that the small guide driving sleeve 7 and the small air guide plate 4 are driven to rotate by taking the output shaft 81 as a rotating shaft, coaxial rotation of the inner air guide plate 3 and the small air guide plate 4 is realized, and the arrangement of the assembly groove 4111 is matched, so that the problem of interference when the inner air guide plate 3 and the small air guide plate 4 rotate coaxially is avoided, space occupation when the two are respectively provided with rotating structures is reduced, and the compact design and the miniaturized design of the air conditioner are facilitated.

In some optional embodiments, as shown in fig. 18, the inner air guiding plate 3 and the small air guiding plate 4 are coaxially connected by using the second locking column 111 as a rotating shaft, and the second locking column 111 is coaxially arranged with the output shaft 81, so that the integral coaxial connection and rotation of the inner air guiding plate 3 and the small air guiding plate 4 are realized, and the space occupation of a mounting device and a driving device is greatly reduced.

As an embodiment of the present invention, as shown in fig. 17 and 19, the two ends of the small air guiding plate 4 are provided with driving connection portions 412, the small guiding driving sleeve 7 and the internal guiding driving device 8 are at least partially disposed in the driving connection portions 412, and the small guiding driving sleeve 7 is connected to the driving connection portions 412 to drive the small air guiding plate 4 to rotate. In the arrangement, the driving structure is partially arranged on the small air guide plate 4, so that the occupied space can be further saved, the structure of the air conditioner is more compact, meanwhile, the small guide driving sleeve 7 is partially arranged in the driving connecting part 412, the connecting structure between the small guide driving sleeve 7 and the small air guide plate 4 is easier to arrange, and the connecting relation between the small guide driving sleeve 7 and the small air guide plate 4 is simplified.

In some alternative embodiments, as shown in fig. 17 and fig. 25, the driving connection portion 412 includes a socket portion 4121, a first clamping portion 4122, and a driving receiving groove 4123, the first clamping portion 4122 is disposed on the socket portion 4121, a second clamping portion 72 is disposed on the small lead driving sleeve 7, the small lead driving sleeve 7 partially extends into the socket portion 4121, the first clamping portion 4122 and the second clamping portion 72 are in clamping engagement with each other in a matching manner, and the inner lead driving portion 82 is disposed in the driving receiving groove 4123 through the socket portion 4121. The sleeve part 4121 is used for accommodating the driving structure, and the first clamping part 4122 is arranged on the sleeve part and used for realizing connection with the small guide driving sleeve 7, so that the driving structure is partially arranged in the small air deflector 4, and the space occupation of the driving structure is reduced.

In one embodiment, as shown in fig. 25 and 27, the first clamping portion 4122 is a first clamping groove, and the second clamping portion 72 is a first clamping strip, which extends into the first clamping groove to form a clamping connection. First draw-in groove and first card strip's simple structure easily processes, and because cup joint portion 4121 cup joints the setting with little driving sleeve 7 of leading for difficult deviating from on little driving sleeve 7 radial direction leads after first draw-in groove and first card strip accomplish the joint, only can dismantle through axial direction's displacement, has guaranteed the connection stability when the drive rotates.

In another embodiment, as shown in fig. 27 and 29, a third clamping portion 73 is further disposed on the small guide driving sleeve 7, a fourth clamping portion 131 is disposed on the transmission portion 13, and the third clamping portion 73 and the fourth clamping portion 131 are in matched clamping connection. In some optional embodiments, the transmission portion 13 is a crank connecting rod, a fourth clamping portion 131 is disposed on the crank connecting rod, the third clamping portion 73 is disposed on a portion of the small guide driving sleeve 7 extending from the sleeve portion 4121, and the third clamping portion 73 and the fourth clamping portion 131 are clamped to realize transmission of the small guide driving device on the small guide driving sleeve 7 so as to drive the small air guide plate 4 to move.

In this embodiment, as shown in fig. 27 and fig. 29, the third clamping portion 73 is a second clamping strip, the fourth clamping portion 131 is an annular structure with a second clamping groove, the second clamping strip extends into the second clamping groove to form a clamping connection, and the annular structure is sleeved on the outer side of the small guide driving sleeve 7. Through the arrangement, when the small guide driving device drives the transmission part 13 to move, the annular structure moves, the small guide driving sleeve 7 is driven to move under the clamping action of the second clamping strip and the second clamping groove, and the small guide driving sleeve 7 is sleeved on the output shaft 81, so that the small guide driving sleeve 7 rotates by taking the output shaft 81 as a rotating shaft, and the coaxial rotation of the inner air deflector 3 and the small air deflector 4 is realized.

As an embodiment of the present invention, as shown in fig. 16 and 17, an inner guide driving connection portion 33 is provided on the inner wind deflector 3, and the inner guide driving connection portion 33 extends into the driving accommodation groove 4123 and is connected to the inner guide driving portion 82. The arrangement arranges the connecting structure of the inner air deflector 3 and the inner guide driving device 8 in the small air deflector 4, thus reducing the space occupation.

Preferably, as shown in fig. 25, an escape groove 4124 is provided in the drive receiving groove 4123, and the escape groove 4124 is used to escape the inner guide drive connecting portion 33. The provision of the avoidance groove 4124 allows the inner guide driving portion 82 to have a larger rotation space, so that the inner air deflector 3 has a larger air-guiding rotation angle.

Example 2

The embodiment provides an air conditioner, which is used for the air outlet structure of the air conditioner according to embodiment 1.

Compared with the prior art, the air conditioner and the air outlet structure of the air conditioner have the same advantages, and are not repeated herein.

In this embodiment, the air conditioner further includes a wind sweeping blade assembly (not shown in the figure), and the wind sweeping blade assembly is disposed upstream of the wind outlet direction of the air conditioner wind outlet structure, and is used for sweeping wind left and right.

Although the present invention is disclosed above, the present invention is not limited thereto. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like 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 present 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. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. The utility model provides an air conditioner air-out structure which characterized in that includes:

the air outlet is arranged at the bottom of the air conditioner shell (1);

the air conditioner comprises an outer air deflector (2), wherein the outer air deflector (2) is used for closing or opening an air outlet, and the outer air deflector (2) is rotatably arranged at a position close to the rear side of the air outlet;

the air outlet structure comprises an inner air deflector (3), the inner air deflector (3) is rotatably arranged at a position close to the front side of the air outlet through an inner guide assembly part (34), and the air guide surface of the inner air deflector (3) is arranged in an arc shape; the small air guide plate (4) is rotatably arranged at a position close to the front side of the air outlet, and the small air guide plate (4) rotates in the space above the air guide surface on the inner air guide plate (3) and is used for guiding the outlet air to the arc-shaped air guide surface of the inner air guide plate (3).

2. The air conditioner outlet structure of claim 1, wherein the outer air guiding plate (2) comprises a two-segment structure coaxially arranged in the left-right direction, and the inner air guiding plate (3) also comprises a two-segment structure coaxially arranged in the left-right direction.

3. The air outlet structure of the air conditioner according to claim 2, wherein a first mounting bracket (6) is disposed at a position close to the rear side of the air outlet, the two-stage structure of the outer air guiding plate (2) includes a left outer air guiding plate (21) and a right outer air guiding plate (22), the left outer air guiding plate (21) and the right outer air guiding plate (22) are respectively provided with a first connecting structure, and the left outer air guiding plate (21) and the right outer air guiding plate (22) are respectively rotatably connected with the first mounting bracket (6) through the first connecting structure.

4. The air conditioner outlet structure of claim 3, wherein the first connecting structure comprises a first latch bracket (23) and a first latch (10), the first latch (10) is detachably disposed on the first latch bracket (23), and the first latch (10) is movably disposed relative to the first latch bracket (23).

5. The air conditioner outlet structure of claim 4, wherein the first latch (10) comprises a first lock cylinder (101), and the first lock cylinder (101) extends into the first mounting bracket (6) to complete the fitting of the left outer air deflector (21) or the right outer air deflector (22).

6. The air conditioner outlet structure of claim 5, wherein the first latch bracket (23) comprises a first lock post bracket (231), a first slideway (232), a first limit latch (235); the first lock catch (10) comprises a first lock column (101), a first sliding groove (102), a first deformation rib (105), a first convex strip (106) and a push-pull portion (108), wherein the first lock column (101), the first sliding groove (102) and the first deformation rib (105) are arranged on the push-pull portion (108), the first convex strip (106) is arranged on the first deformation rib (105), the first convex strip (106) protrudes towards the direction of a first limit buckle (235), the first lock column (101) is matched with a first lock column support (231), the first sliding groove (102) is matched with a first sliding way (232), and the first limit buckle (235) is used for being matched with the first deformation rib (105) and the first convex strip (106) for limiting.

7. The air outlet structure of the air conditioner according to claim 6, wherein a locking portion (234) and an unlocking limiting portion (233) are respectively disposed at two ends of the first sliding way (232), an unlocking limiting groove (103) and a locking plate (104) are correspondingly disposed at two ends of the first sliding groove (102), the unlocking limiting groove (103) and the unlocking limiting portion (233) are matched and limited, and the locking plate (104) and the locking portion (234) are matched and limited for limiting the telescopic stroke of the first lock catch (10) along the first sliding way (232).

8. The air outlet structure of the air conditioner according to claim 6, wherein a first yielding groove (107) is further disposed on the first latch (10), and the first yielding groove (107) is disposed on a side of the first deformation rib (105) away from the first stopper (235) for providing a deformation space for the first deformation rib (105).

9. The air conditioner outlet structure of any one of claims 1 to 8, wherein the inner air deflector (3) is a transparent structure.

10. An air conditioner, characterized in that, comprising the air conditioner air outlet structure of any one of claims 1 to 9, the air conditioner further comprises a wind sweeping blade assembly, the wind sweeping blade assembly is arranged upstream of the air outlet direction of the air conditioner air outlet structure and used for sweeping wind left and right.

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