CN210463527U - Air outlet assembly and air conditioner - Google Patents

Abstract

The utility model provides an air-out subassembly and air conditioner, wherein, the air-out subassembly includes: the air outlet panel is provided with an air outlet; door body subassembly corresponds the setting with the air-out panel, and door body subassembly specifically includes: the air outlet panel is arranged on the air outlet panel, the rotating shaft is arranged on at least one side of the air outlet panel, the flexible door body is connected with the rotating shaft, a connecting portion used for connecting the flexible door body is arranged on at least one rotating shaft, the flexible door body is driven to wind on the rotating shaft or outwards expand through the rotating shaft through rotation of the rotating shaft, and therefore at least one air outlet is opened or closed. Through the technical scheme of the utility model, make door body group spare simple structure and occupation space less to do benefit to the miniaturization of air-out subassembly and air conditioner, for the user provides manifold wind sense, satisfy user's different demands.

Description

Air outlet assembly and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air-out is organized and an air conditioner.

Background

The air conditioner has become more common household refrigeration/heating equipment, along with the popularization of the air conditioner, the functional requirements of users on the air conditioner are higher and higher, most of the existing air conditioners mainly control the air outlet speed by adjusting the rotating speed of a fan of an indoor unit, the air outlet direction of the air conditioner is adjusted by a swing blade at an air outlet, and a few of the air conditioners can adjust the air outlet area, the air outlet area and the air outlet volume of the air conditioner, but an opening and closing mechanism of an air outlet of the air conditioner occupies a large space in a complicated mode, and the miniaturization of the indoor unit of the.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

In view of this, an object of the present invention is to provide an air outlet assembly.

Another object of the utility model is to provide an air conditioner correspondingly.

In order to achieve at least one of the above objects, according to the technical solution of the first aspect of the present invention, an air outlet assembly is provided, including: the air outlet panel is provided with an air outlet; door body subassembly corresponds the setting with the air-out panel, and door body subassembly specifically includes: the air outlet panel is arranged on the air outlet panel, the rotating shaft is arranged on at least one side of the air outlet panel, the flexible door body is connected with the rotating shaft, a connecting portion used for connecting the flexible door body is arranged on at least one rotating shaft, the flexible door body is driven to wind on the rotating shaft or outwards expand through the rotating shaft through rotation of the rotating shaft, and therefore at least one air outlet is opened or closed.

According to the air-out component provided by the utility model, air can flow from one side of the air-out panel to the other side through the air outlet arranged on the air-out panel, wherein, a door body component is arranged corresponding to the air-out panel, specifically, the door body component can be arranged at one side of the air-out panel facing to the air-out direction corresponding to the air outlet, and also can be arranged at one side of the air-out panel deviating from the air-out direction corresponding to the air outlet, so as to control the closing and opening of the air outlet through the door body component, specifically, a rotating shaft is arranged at least at one side of the air-out panel opposite to each other, and a connecting part is arranged on the rotating shaft, one end of the flexible door body is connected to the connecting part, thereby when the rotating shaft rotates along one direction of clockwise direction and anticlockwise, one end of the flexible door body connected, therefore, part or all of the flexible door bodies are wound on the rotating shaft, the flexible door bodies are stored in the rotating shaft, on one hand, the air outlet on the air outlet panel is opened, so that air can move from one side of the air outlet panel to the other side through the air outlet, on the other hand, the flexible door bodies can be made of flexible materials with thinner thicknesses, when the flexible door bodies are wound on the rotating shaft, the storage space of the flexible door bodies does not need to be additionally arranged, the structure of the door body assembly is simple, the occupied space is smaller, and the miniaturization of the air outlet assembly and the air conditioner is facilitated; when the pivot rotated along clockwise and the other direction in the anticlockwise, coiled the epaxial part of commentaries on classics or whole flexible door body and outwards extended by the pivot, the one end that the pivot was kept away from to the flexible door body removed to the direction of keeping away from the pivot to close the air outlet, thereby utilize the flexible door body to realize the control to the switching of air outlet. Furthermore, be equipped with connecting portion in the pivot, make the flexible door body be close to the one end direct fixed connection in the connecting portion of pivot to through the relative movement between the part that connecting portion correspond on the connecting portion restriction flexible door body, horizontal fold and buckling appear in the one end of avoiding the flexible door body to be connected with the pivot, make the more smooth and easy coiling of the flexible door body in the pivot.

Wherein, can set up a plurality of air outlets on the air-out panel, make the air conditioner can outwards air exhaust through a plurality of air outlets to improve the air-out area of air-out subassembly, simultaneously, the flexible door body can provide manifold wind sense for the user through the quantity control air-out area of the air outlet that control was opened, satisfy user's different demands, one side of air-out panel can be adjacently located to a plurality of air outlets, also can evenly locate on the air-out panel, set up the quantity and the position of air outlet according to actual demand.

The flexible door body may be made of, but not limited to: cloth, flexible plastic, rubber material.

In the above technical scheme, the inside of at least one pivot is equipped with the cavity that holds the one end of the flexible door body, and is equipped with the gap that corresponds with the cavity at the outer wall of pivot, and the gap is passed to the at least one end of the flexible door body and is located in the cavity, and wherein, on the cross section of pivot, the width of gap is less than the width of cavity.

In the technical scheme, a cavity is arranged in the rotating shaft, and one end of the flexible door body is arranged in the cavity, so that the connection between the flexible door body and the rotating shaft is realized, specifically, on the outer wall of the rotating shaft, a gap is arranged corresponding to the cavity, one end of the flexible door body close to the rotating shaft can penetrate through the gap and enter the cavity, the fixed connection between the flexible door body and the rotating shaft is realized, furthermore, on the cross section of the rotating shaft, the width of the gap is smaller than that of the cavity, so that when the flexible door body part arranged in the cavity is subjected to a pulling force towards the outside of the gap, the part of the flexible door body arranged in the cavity is clamped in the gap and is blocked by the inner walls of the rotating shafts at the two sides of the gap, therefore, the flexible door body is fixedly connected to the rotating shaft, and the emphasis is to ensure that the structure of the cavity and the gap of the rotating shaft is simple, so that the assembly mode of the flexible door body and the rotating shaft is simple and reliable, and the flexible door body and the rotating shaft are convenient to assemble quickly.

In the above technical solution, the cavity extends along the axial direction of the rotating shaft.

In this technical scheme, extend through the axial of cavity along the pivot, make the flexible door body when assembling the pivot, can pack into through one side of pivot, in order to do benefit to the assembly of simplifying the flexible door body and pivot, practice thrift the cost of labor, it needs to explain, the axial extension of cavity along the pivot, make the flexible door body be close to the one end of pivot and pass gap fixed connection in the cavity of pivot, thereby through the epaxial cavity of commentaries on classics and the relative movement between the part that the gap corresponds with the cavity of pivot on the restriction flexible door body of gap, horizontal fold and buckling appear in the one end of avoiding being connected of the flexible door body and pivot, make the more smooth and easy coiling of the flexible door body in the pivot.

In the above technical solution, the method further comprises: the joint portion is used for the link that links to each other with the pivot on locating the flexible door body, and the thickness of joint portion is greater than the width in gap and is less than the width of cavity, passes the gap through joint portion and locates in the cavity, realizes the fixed connection of the flexible door body and pivot.

In this technical scheme, be equipped with joint portion through the link at the flexible door body with the pivot, joint portion locates in the cavity, and the thickness of joint portion is greater than the width in gap and is less than the width of cavity, make the pivot when rotating, flexible door body part receives towards the outer pulling force in gap, the joint portion of the flexible door body is located the part card in the cavity and is in the gap, by the inner wall hindrance of the pivot of gap department both sides, thereby the joint portion of the flexible door body along the removal of the radial direction of pivot has been restricted, with flexible door body fixed connection in the pivot.

In the above technical scheme, the clamping portion and the flexible door body are integrally formed.

In this technical scheme, through joint portion and the flexible door body integrated into one piece, simplified the assembly step of air-out subassembly on the one hand, make the structure of the flexible door body simpler, on the other hand, joint portion has restricted the relative movement of the link of the flexible door body and pivot along the axis direction of pivot, has avoided the fold of the flexible door body to do benefit to the more smooth and easy coiling of the flexible door body in the pivot.

In the above technical solution, the rotating shaft specifically includes: the first rotating shaft and the second rotating shaft are respectively arranged at two opposite ends of the air outlet panel, the flexible door body is connected with the first rotating shaft and the second rotating shaft, and at least part of the flexible door body is driven to be wound on the first rotating shaft through the rotation of the first rotating shaft; or the first rotating shaft rotates to drive at least part of the flexible door body to be wound on the second rotating shaft; or the second rotating shaft rotates to drive at least part of the flexible door body to be wound on the first rotating shaft; or the second rotating shaft rotates to drive at least part of the flexible door body to be wound on the second rotating shaft.

In the technical scheme, the first rotating shaft and the second rotating shaft are arranged at two opposite ends of the air outlet panel, and the flexible door body is connected with the first rotating shaft and the second rotating shaft, so that the flexible door body is driven by the first rotating shaft or the second rotating shaft to move, and then the flexible door body is wound on the first rotating shaft or the second rotating shaft so as to open or close at least one air outlet; or the flexible door body is driven to wind on the second rotating shaft or the first rotating shaft through the rotation of the second rotating shaft, when the flexible door body winds on the first rotating shaft, the flexible door body moves to the first rotating shaft, and when the flexible door body winds on the second rotating shaft, the flexible door body moves to the second rotating shaft; or the flexible door body is driven to be wound on the first rotating shaft or the second rotating shaft under the rotation of the first rotating shaft and the second rotating shaft, when the flexible door body is wound on the first rotating shaft, the flexible door body moves towards the first rotating shaft, and when the flexible door body is wound on the second rotating shaft, the flexible door body moves towards the second rotating shaft.

In the above technical solution, the method further comprises: the driven piece is arranged at two ends of the first rotating shaft and/or the second rotating shaft and corresponds to the clamping portion, so that the clamping portion is limited by the driven piece to move in the axial direction of the first rotating shaft and/or the second rotating shaft, wherein the driven piece protrudes upwards to form a guide portion on one side close to the flexible door body, and a guide inclined surface is arranged on one side close to the flexible door body.

In the technical scheme, driven parts are arranged at two ends of the first rotating shaft or the second rotating shaft, and the driven parts limit the movement of the clamping parts arranged in the cavity of the first rotating shaft or the second rotating shaft along the axial direction of the first rotating shaft or the second rotating shaft, so that wrinkles generated due to the movement of the flexible door body along the axial direction of the first rotating shaft or the second rotating shaft when the flexible door body is driven by the first rotating shaft or the second rotating shaft to rotate are avoided; or driven parts are arranged at two ends of the first rotating shaft and the second rotating shaft, and the driven parts limit the movement of the clamping parts arranged in the cavities of the first rotating shaft and the second rotating shaft along the axial direction of the first rotating shaft or the second rotating shaft, so that wrinkles generated by the movement of the flexible door body along the axial direction of the first rotating shaft or the second rotating shaft when the flexible door body rotates under the driving of the first rotating shaft and the second rotating shaft are avoided; the flexible door body is characterized in that one side of the rotating shaft, which is close to the flexible door body, is provided with a guide part protruding upwards, and one side of the guide part, which is close to the flexible door body, is provided with a guide inclined plane, so that when the flexible door body is wound on the first rotating shaft or the second rotating shaft, the flexible door body is accurately wound on the first rotating shaft or the second rotating shaft through the guide effect of the guide part.

In the above technical solution, the rotating shaft specifically includes: the first sub-axle and locate the second sub-axle at first sub-axle both ends respectively, the second sub-axle can be dismantled with first sub-axle and be connected, is formed with connecting portion after first sub-axle is connected with the second sub-axle, and the one end of the flexible door body is located in the connecting portion to realize the fixed connection of the flexible door body and pivot.

In this technical scheme, the pivot is including dismantling the first sub-axle and the second sub-axle of connection, and the connecting portion through first sub-axle and second sub-axle forms the connecting portion of pivot, and the flexible door body is close to the inside of connecting portion is located to the one end of pivot to realize the fixed connection of flexible door body and pivot, with the relative movement between the part that corresponds with the cavity and the gap of pivot on the restriction flexible door body through the epaxial connecting portion of pivot.

Specifically, the opposite sides of the first sub-shaft and the second sub-shaft are correspondingly provided with planes, one of the first sub-shaft and the second sub-shaft is provided with a counter bore, a through hole is formed in the counter bore, the other one of the first sub-shaft and the second sub-shaft is provided with a threaded hole corresponding to the through hole, a screw is arranged in the counter bore and penetrates through the through hole and the flexible door body to stretch into the threaded hole, and therefore the fixed connection of the first sub-shaft and the second sub-shaft and the fixed connection of the flexible door body and the rotating shaft are achieved.

In the above technical solution, the driven member is integrally formed with the first sub-shaft or the second sub-shaft; or the driven member, the first sub-shaft and the second sub-shaft are integrally formed.

In the technical scheme, the driven parts on two sides of the rotating shaft are integrally formed with one of the first sub-shaft and the second sub-shaft, or each driven part is integrally formed with one of the first sub-shaft and the second sub-shaft respectively, so that the strength between the driven part and the rotating shaft is improved, the assembly process between the driven part and the rotating shaft is simplified, and the assembly cost is reduced.

In the above technical solution, the method further comprises: the mounting seat is fixedly connected to the air outlet panel; the cover plate, the driving motor fixedly connected with the mounting seat, the cover plate and the driving part are in transmission connection with a driving shaft of the driving motor, and the driving part is in transmission connection with the driven part so as to drive the driven part to rotate through the driving motor.

In the technical scheme, a driving motor and a driving part are further arranged on an air outlet panel, a driving shaft of the driving motor is in transmission connection with the driving part, the driving part is in transmission connection with a driven part, the driving part is driven by the driving motor to rotate, the driven part is driven by the driving part to rotate, so that the first rotating shaft or the second rotating shaft can rotate, specifically, a mounting seat is fixedly arranged on the air outlet panel, a cover plate is fixedly connected to the mounting seat, a space for accommodating the driving part is arranged between the cover plate and the mounting seat, the driving part is arranged in an accommodating space between the mounting seat and the cover plate, the driving motor is fixedly connected to one side of the cover plate, which is far away from the mounting seat, a driving shaft of the driving motor penetrates through the cover plate to be connected with the driving part, so as to drive the driving part to rotate by the driving motor, it needs to be noted that the driving part is arranged in, and the normal operation of the air supply assembly is ensured.

Wherein, the connected mode between driving piece and the follower includes but not limited to: chain transmission, gear transmission, belt transmission.

In the above technical solution, the driven member and the driving member are respectively a first gear and a second gear which are engaged with each other, wherein an axis of the first gear coincides with an axis of the first rotating shaft or an axis of the second rotating shaft, and the second gear coincides with an axis of a driving shaft of the driving motor.

In the technical scheme, the driven part and the driving part are respectively a first gear and a second gear which are meshed with each other, so that the driving shaft of the driving motor drives the second gear to rotate, the second gear drives the first gear to rotate, and the rotation of the first rotating shaft or the second rotating shaft is realized, wherein the axis of the first rotating shaft of the axis of the first gear or the axis of the second red rotating shaft coincide, the axis coincidence of the second gear and the driving shaft of the driving motor enables the relative position of the axes of the first gear and the second gear to be unchanged in the rotating process, and the first gear and the second gear are always kept in good contact.

It should be noted that the gear transmission has a compact structure and simple assembly, so that the miniaturization design of the air outlet assembly is facilitated, the assembly steps are reduced, and the assembly efficiency is improved.

In above-mentioned technical scheme, the one end fixed connection of the flexible door body is in first pivot, and wherein, door body group spare still includes the tensioning piece, and the one end of tensioning piece is connected with the other end of the flexible door body, and the other end fixed connection of tensioning piece is in the second pivot.

In the technical scheme, one end of the flexible door body is fixedly connected with the first rotating shaft, so that when the first rotating shaft rotates, the flexible door body is driven to be wound on the first rotating shaft, and the other end of the flexible door body moves towards the first rotating shaft, wherein the other end of the flexible door body is connected with one end of the tensioning piece, and the other end of the tensioning piece is connected with the second rotating shaft, so that when the other end of the flexible door body moves towards the first rotating shaft, the other end of the flexible door body pulls the tensioning piece to move towards the first rotating shaft, and provides pulling force for the flexible door body through the tensioning piece, the direction of the pulling force is opposite to the moving direction of the other end of the flexible door body, so that the flexible door body is tensioned through the tensioning piece, wherein the first rotating shaft and the second rotating shaft can rotate along the clockwise direction and the counterclockwise direction, so that the flexible door body can be wound on the first rotating shaft when the first rotating, when the first rotating shaft and the second rotating shaft rotate along the other direction, the flexible door body on the first rotating shaft is unfolded outwards.

In the technical scheme, the flexible door body and the tensioning piece are integrally formed.

In this technical scheme, through tensioning piece and door body integrated into one piece, can reduce the assembly process of door body subassembly, practice thrift the cost of labor.

In the above technical solution, the axis of the first rotating shaft is parallel to the axis of the second rotating shaft.

In this technical scheme, the axis through first pivot is parallel with the axis of second pivot, when making the flexible door body move under the drive of first pivot and second pivot, the flexible door body is along linear motion, and the atress of the flexible door body is more even to do benefit to the tensioning flexible door body, avoid because the inhomogeneous fold and the bending that leads to of flexible door body atress.

In the above technical scheme, a non-zero angle is formed between the axis of the first rotating shaft and the axis of the second rotating shaft, the flexible door body is in a fan shape, and the flexible door body can move in a fan-shaped area formed between the first rotating shaft and the second rotating shaft so as to open or close at least one air outlet in the fan-shaped area.

In this technical scheme, be non-zero angle between the axis through the axis of first pivot and the axis of second pivot, the flexible door body is fan-shaped, makes the flexible door body when removing between first pivot and second pivot, can open or close at least one air outlet to do benefit to the air outlet that adapts to multiple difference and arrange, and make the product more pleasing to the eye.

In the technical scheme, the flexible door body is in transmission connection with the first rotating shaft, so that the flexible door body is driven to move around the first rotating shaft through rotation of the first rotating shaft, and relative movement between the flexible door body and the air outlet panel is achieved.

In this technical scheme, be connected through the transmission of the flexible door body with first pivot, make the flexible door body can move around first pivot to realize the relative movement between the flexible door body and the air-out panel, specifically, set up the bar tooth on the flexible door body, be equipped with in the pivot with bar tooth looks meshing gear, with the removal of the flexible door body of rotation drive through the pivot.

Optionally, a chain is arranged on the flexible door body along the moving direction of the flexible door body, and a sprocket tooth engaged with the chain is arranged on the rotating shaft so as to drive the flexible door body to move through the rotation of the rotating shaft.

In the above technical scheme, still include the slide rail, locate on the air-out panel, wherein, the slide rail extends along the moving direction of the flexible door body, and corresponds the setting with the flexible door body, at least partial flexible door body and slide rail sliding connection.

In this technical scheme, through be equipped with the slide rail that extends along the moving direction of the flexible door body on the air-out panel, and at least partial flexible door body and slide rail sliding connection, when making the flexible door body move under the drive of pivot, partial flexible door body moves along the slide rail under the restriction of slide rail, makes the removal orbit of the flexible door body more stable, makes the removal of the flexible door body more smooth and easy, and in order to do benefit to the holistic level and smooth of the flexible door body, avoids the bending of the flexible door body along the moving direction of the flexible door body.

In the above technical scheme, slide rail and air-out panel integrated into one piece.

In this technical scheme, through slide rail and air-out panel integrated into one piece to reduce the assembly process of air-out subassembly, reduce unnecessary assembly error, can also improve the intensity and the stability of slide rail, and make the overall structure compactness of air-out panel.

According to the utility model discloses an aspect of the second technical scheme provides an air conditioner, including casing, fan subassembly, wherein in the technical scheme of above-mentioned first aspect arbitrary in the air-out subassembly locate on the casing, so have the technical effect of the arbitrary technical scheme of above-mentioned first aspect, no longer describe here, in at least one fan subassembly and the air outlet correspondence of an air-out subassembly locate the casing, wherein, at least one air outlet is opened to the flexible door body of air-out subassembly to air in the drive shell of air-out subassembly is outwards aired exhaust through the air outlet of opening.

In the above technical solution, the fan assembly specifically includes: the fan comprises a fan motor and at least one fan blade in transmission connection with a driving shaft of the fan motor, wherein each fan blade is arranged corresponding to one air outlet; the evaporator is arranged on one side, far away from the air outlet panel, of the plurality of fan motors in the shell, and air in the shell is discharged to the air outlet assembly through the fan assembly after heat exchange of the evaporator.

In this technical scheme, through connect at least one flabellum in the drive shaft of fan motor, and every flabellum corresponds the setting with an air outlet to when making the flabellum rotate under the drive of the drive shaft of motor, drive air outwards airs exhaust through at least one air outlet.

Optionally, each air outlet corresponds to one fan blade, so that the fan motor drives the fan blades to drive air in the shell to be exhausted outwards through each air outlet, and air supply in a large area is provided for a user; one side of the fan assembly in the shell far away from the air outlet is provided with the evaporator, so that the air in the shell and the evaporator exchange heat and then are discharged to the air outlet assembly through the fan assembly to realize refrigeration or heating of the air conditioner.

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

Drawings

Fig. 1 shows an exploded view of an air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic structural view illustrating an air conditioner according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a schematic structural view illustrating an air conditioner according to an embodiment of the present invention;

fig. 5 shows a schematic structural view of a door body assembly according to an embodiment of the present invention;

fig. 6 shows a schematic structural view of a door body assembly and a driving device according to an embodiment of the present invention;

FIG. 7 shows an enlarged schematic view of portion A of FIG. 6;

FIG. 8 shows an enlarged schematic view of portion B of FIG. 6;

figure 9 shows a schematic cross-sectional view of a rotating shaft according to an embodiment of the invention;

fig. 10 shows a schematic structural view of a rotating shaft according to an embodiment of the present invention;

fig. 11 shows a schematic cross-sectional view of a rotating shaft according to an embodiment of the invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 11 is:

10 air-out panel, 12 air outlets, 14 slide rails, 20 door body components, 22 flexible door bodies, 24 rotating shafts, 26 clamping parts, 28 connecting parts, 242 first rotating shaft, 2422 cavity, 2424 gap, 244 second rotating shaft, 246 first sub-shaft, 248 second sub-shaft, 30 tensioning part, 40 shell, 50 fan component, 52 fan motor, 54 fan blade, 60 evaporator, 70 driving motor, 72 driving part, 74 driven part, 742 guiding part, 704 mounting seat and 706 cover plate.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings, which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

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

Some embodiments according to the invention are described below with reference to fig. 1 to 11.

Example 1

As shown in fig. 1 and 4, according to an embodiment of the present invention, an air outlet assembly is provided, defining:

the air-out subassembly includes: air-out panel 10 and door body subassembly 20, be equipped with air outlet 12 on the air-out panel 10, door body subassembly 20 corresponds the setting with air-out panel 10, specifically, make the air can pass air outlet 12 from one side flow direction opposite side of air-out panel 10, door body subassembly 20 corresponds the setting with air-out panel 10, specifically, door body subassembly 20 can correspond air outlet 12 and set up in one side of air-out panel 10 towards the air-out direction, also can correspond air outlet 12 and set up the one side that deviates from the air-out direction at air-out panel 10, in order to control closing and opening of air outlet 12 through door body subassembly 20, wherein, door body subassembly 20 specifically includes: the air outlet panel 10 is provided with a rotating shaft 24 and a flexible door body 22, specifically, the rotating shaft 24 is provided at least one side opposite to the air outlet panel 10, and a connecting portion 28 is provided on the rotating shaft 24, one end of the flexible door body 22 is connected to the connecting portion 28, when the rotating shaft 24 rotates, the connecting portion 28 drives one end of the flexible door body 22 connected to the rotating shaft 24 to be wound on the rotating shaft 24 or to be unfolded from the rotating shaft 24, so that one end of the flexible door body 22 far away from the rotating shaft 24 moves towards the direction close to the rotating shaft 24 or moves towards the direction far away from the rotating shaft 24, so as to open.

Optionally, a plurality of air outlets 12 are disposed on the air outlet panel 10, and the flexible door 22 can control the air outlet area by controlling the number of the opened air outlets 12, so as to provide various wind sensations for users.

Alternatively, the material of the flexible door 22 may be, but is not limited to: cloth, flexible plastic, rubber material.

Optionally, the air outlets 12 may be adjacently disposed on one side of the air outlet panel 10, or may be uniformly disposed on the air outlet panel 10, and the number and the positions of the air outlets 12 are set according to actual requirements.

Example 2

As shown in fig. 9, in addition to the features of the above embodiment, further defined are:

a cavity 2422 for accommodating one end of the flexible door body 22 is arranged inside at least one rotating shaft 24, a gap 2424 is arranged on the outer wall of the rotating shaft 24 and corresponds to the cavity 2422, the gap 2424 is communicated with the cavity 2422, one end of the flexible door body 22 can enter the cavity 2422 through the gap 2424, and the flexible door body 22 is fixedly connected with the rotating shaft 24.

Further, in the cross section of the rotating shaft 24, the width of the gap 2424 is smaller than the width of the cavity 2422, so that when the part of the flexible door 22 disposed in the cavity 2422 is subjected to a pulling force towards the outside of the gap 2424, the part of the flexible door 22 disposed in the cavity 2422 is clamped in the gap 2424 and is blocked by the inner walls of the rotating shaft 24 at two sides of the gap 2424, so as to fixedly connect the flexible door 22 to the rotating shaft 24, it should be emphasized that the structures of the cavity 2422 and the gap 2424 of the rotating shaft 24 are simple, so that the assembly manner of the flexible door and the rotating shaft 24 is simple and reliable, and the flexible door and the rotating shaft 24 can be.

Example 3

As shown in fig. 4, in addition to the features of any of the embodiments described above, further defined are:

the cavity 2422 extends along the axial direction of the rotating shaft 24, so that the flexible door body 22 can be installed through one side of the rotating shaft 24 when being assembled to the rotating shaft 24, and the assembly of the flexible door body 22 and the rotating shaft 24 is facilitated to be simplified.

Further, the cavity 2422 extends along the axial direction of the rotating shaft 24, and the cavity 2422 and the gap 2424 on the rotating shaft 24 limit the relative movement between the parts, corresponding to the cavity 2422 and the gap 2424 of the rotating shaft 24, of the flexible door body 22, so that the transverse wrinkles and bends at the end, connected with the rotating shaft 24, of the flexible door body 22 are avoided, and the flexible door body 22 is more smoothly wound on the rotating shaft 24.

Example 4

As shown in fig. 9, in addition to the features of any of the embodiments described above, further defined are:

a clamping portion 26 is further arranged at one end of the flexible door body 22 connected with the rotating shaft 24, the clamping portion 26 is arranged in the cavity 2422 of the rotating shaft 24 to achieve fixed connection of the flexible door body 22 and the rotating shaft 24, wherein the thickness of the clamping portion 26 is larger than the width of the gap 2424 and smaller than the width of the cavity 2422, so that when the rotating shaft 24 rotates, the flexible door body 22 is partially pulled towards the outside of the gap 2424, the part of the clamping portion 26 of the flexible door body 22, which is arranged in the cavity 2422, is clamped in the gap 2424 and is blocked by the inner walls of the rotating shaft 24 at two sides of the gap 2424, and therefore movement of the clamping portion 26 of the flexible door body 22 along the radial direction of the rotating shaft 24 is limited, and the flexible door body 22 is fixedly connected.

Example 5

As shown in fig. 9, in addition to the features of any of the embodiments described above, further defined are:

joint portion 26 and the flexible door body 22 integrated into one piece have simplified the assembly step of air-out subassembly on the one hand, and on the other hand, joint portion 26 has restricted the relative movement of the link of the flexible door body 22 with pivot 24 along the axis direction of pivot 24, has avoided the fold of the flexible door body 22 to do benefit to the more smooth and easy winding of the flexible door body 22 to pivot 24.

Example 6

As shown in fig. 5 and 6, in addition to the features of any of the above embodiments, further defined are:

the rotating shaft 24 includes a first rotating shaft 242 and a second rotating shaft 244, the first rotating shaft 242 and the second rotating shaft 244 are respectively disposed at two opposite ends of the air outlet panel 10, and the flexible door body 22 is connected to the first rotating shaft 242 or the second rotating shaft 244, so that the flexible door body 22 is driven by the first rotating shaft 242 or the second rotating shaft 244 to move, and the flexible door is wound around the first rotating shaft 242 or the second rotating shaft 244 to open or close the at least one air outlet 12.

Optionally, the flexible door 22 is connected to the first rotating shaft 242 and the second rotating shaft 244, the flexible door 22 is wound around the first rotating shaft 242 and the second rotating shaft 244 at the same time, and the flexible door 22 is driven by the first rotating shaft 242 and the second rotating shaft 244 to move from one of the first rotating shaft 242 and the second rotating shaft 244 to the other to open or close the at least one air outlet 12.

Example 7

As shown in fig. 10, in addition to the features of any of the embodiments described above, further defines:

the driven members 74 are arranged at two ends of the first rotating shaft 242 and the second rotating shaft 244, and the driven members 74 are arranged corresponding to the clamping portion 26, so that wrinkles generated by movement of the flexible door body 22 along the axial direction of the first rotating shaft 242 or the second rotating shaft 244 when the flexible door body 22 is driven by the first rotating shaft 242 or the second rotating shaft 244 to rotate are avoided.

Optionally, the driven members 74 are disposed at two ends of the first rotating shaft 242 and the second rotating shaft 244, and the driven members 74 and the clamping portion 26 are correspondingly disposed, so that wrinkles generated by movement of the flexible door body 22 along the axial direction of the first rotating shaft 242 or the second rotating shaft 244 when the flexible door body 22 is driven by the first rotating shaft 242 and the second rotating shaft 244 to rotate are avoided.

Furthermore, a guide portion 742 protruding upwards is disposed on a side of the rotating shaft close to the flexible door 22, and a guide inclined surface is disposed on a side of the guide portion 742 close to the flexible door 22, so that when the flexible door 22 is wound around the first rotating shaft 242 or the second rotating shaft 244, the flexible door 22 is accurately wound around the first rotating shaft 242 or the second rotating shaft 244 by the guide effect of the guide portion 742.

Example 8

As shown in fig. 11, in addition to the features of any of the embodiments described above, further defined are:

the rotating shaft 24 comprises a first sub-shaft 246 and a second sub-shaft 248 which are detachably connected, a plane is correspondingly arranged on one opposite side of the first sub-shaft 246 and the second sub-shaft 248, a counter bore is arranged on one of the first sub-shaft 246 and the second sub-shaft 248, a through hole is arranged in the counter bore, a threaded hole is correspondingly arranged on the other one of the first sub-shaft 246 and the second sub-shaft 248 and the through hole, a screw is arranged in the counter bore, penetrates through the through hole and the flexible door body 22 and extends into the threaded hole, and fixed connection of the first sub-shaft 246 and the second sub-shaft 248 and fixed connection of the flexible door body 22 and the rotating shaft 24 are achieved.

Example 9

As shown in fig. 10 and 11, in addition to the features of any of the above embodiments, further defined are:

the followers 74 on both sides of the rotating shaft 24 are integrally formed with one of the first sub-shaft 246 and the second sub-shaft 248.

Optionally, each follower 74 is integrally formed with one of the first and second sub-shafts 246, 248, respectively.

Example 10

As shown in fig. 7 and 8, in addition to the features of any of the above embodiments, further defined are:

the air outlet panel 10 is further provided with a driving motor 70 and a driving part 72, a driving shaft of the driving motor 70 is in transmission connection with the driving part 72, the driving part 72 is in transmission connection with the driven part 74, the driving part 72 is driven to rotate by the driving motor 70, and the driving part 72 drives the driven part 74 to rotate, so that the rotation of the first rotating shaft 242 or the second rotating shaft 244 is realized.

Further, a mounting base 704 is fixedly arranged on the air outlet panel 10, a cover plate 706 is fixedly connected to the mounting base 704, a space for accommodating the driving element 72 is arranged between the cover plate 706 and the mounting base, the driving element 72 is arranged in the accommodating space between the mounting base 704 and the cover plate 706, the driving motor 70 is fixedly connected to one side of the cover plate 706 far away from the mounting base 704, and a driving shaft of the driving motor 70 penetrates through the cover plate 706 to be connected with the driving element 72 so as to drive the driving element 72 to rotate through the driving motor 70.

Optionally, the connection between the driving member 72 and the driven member 74 includes, but is not limited to: chain transmission, gear transmission, belt transmission.

Example 11

As shown in fig. 7, in addition to the features of any of the embodiments described above, further defined are:

the driven member 74 and the driving member 72 are gears engaged with each other, the driven member 74 is a first gear, and the driving member 72 is a second gear, wherein the axis of the first gear coincides with the axis of the first rotating shaft 242 or the axis of the second rotating shaft 24, and the axis of the second gear coincides with the axis of the driving shaft of the driving motor 70, so that the relative positions of the axes of the first gear and the second gear are unchanged during the rotation process, and the first gear and the second gear always keep good contact.

Example 12

As shown in fig. 5, in addition to the features of any of the embodiments described above, further defined are:

the door assembly 20 further includes a tension member 30, wherein one end of the flexible door 22 is fixedly connected to the first rotating shaft 242, the other end of the flexible door 22 is connected to one end of the tension member 30, the other end of the tension member 30 is connected to the second rotating shaft 244, so that when the other end of the flexible door 22 moves towards the first rotating shaft 242, the other end of the flexible door 22 pulls the tension member 30 to move towards the first rotating shaft 242, and provides a pulling force for the flexible door 22 through the tension member 30, the direction of the pulling force is opposite to the moving direction of the other end of the flexible door 22, and the flexible door 22 is tensioned through the tension member 30.

Alternatively, the first rotating shaft 242 and the second rotating shaft 244 may rotate in both clockwise and counterclockwise directions, so that the flexible door 22 may be wound on the first rotating shaft 242 when the first rotating shaft 242 and the second rotating shaft 244 rotate in one direction, and the flexible door 22 on the first rotating shaft 242 may be unfolded outwards when the first rotating shaft 242 and the second rotating shaft 244 rotate in the other direction.

Example 13

In addition to the features of any of the embodiments described above, further defined are:

the flexible door body 22 and the tensioning piece 30 are integrally formed, so that the assembly process of the door body assembly 20 is reduced, and the labor cost is saved.

Example 14

As shown in fig. 6, in addition to the features of any of the embodiments described above, further defined are:

the axis of the first rotating shaft 242 is parallel to the axis of the second rotating shaft 244, so that when the flexible door 22 is driven by the first rotating shaft 242 and the second rotating shaft 244 to move, the flexible door 22 moves along a straight line, and the stress of the flexible door 22 is more uniform, so that the flexible door 22 is tensioned, and wrinkles and bending caused by uneven stress of the flexible door 22 are avoided.

Example 15

In addition to the features of any of the embodiments described above, further defined are:

the axis of the first rotating shaft 242 and the axis of the second rotating shaft 244 form a non-zero angle, and the flexible door 22 is fan-shaped, so that when the flexible door 22 moves between the first rotating shaft 242 and the second rotating shaft 244, at least one air outlet 12 can be opened or closed, thereby being beneficial to adapting to various air outlets 12 with different arrangements and enabling the product to be more attractive.

Example 16

In addition to the features of any of the embodiments described above, further defined are:

the flexible door 22 is in transmission connection with the first rotating shaft 242, so that the flexible door 22 can move around the first rotating shaft 242, so as to realize the relative movement between the flexible door 22 and the air outlet panel 10.

Alternatively, a strip-shaped tooth is provided on the flexible door 22, and a gear engaged with the strip-shaped tooth is provided on the first rotating shaft 242, so as to drive the flexible door 22 to move by the rotation of the first rotating shaft 242.

Alternatively, a chain is disposed on the flexible door body 22 along the moving direction of the flexible door body 22, and a sprocket tooth engaged with the chain is disposed on the first rotating shaft 242, so as to drive the movement of the flexible door body 22 through the rotation of the first rotating shaft 242.

Example 17

As shown in fig. 2, in addition to the features of any of the embodiments described above, further defined are:

the air outlet assembly further comprises a sliding rail 14, the sliding rail 14 extends along the moving direction of the flexible door body 22 and is arranged on the air outlet panel 10, at least part of the flexible door body 22 is in sliding connection with the sliding rail 14, so that when the flexible door body 22 moves under the driving of the rotating shaft 24, part of the flexible door body 22 moves along the sliding rail 14 under the limitation of the sliding rail 14, the whole smoothness of the flexible door body 22 is facilitated, and the flexible door body 22 is prevented from being bent along the moving direction of the flexible door body 22.

Further, along the moving direction of the flexible door body 22, the slide rails 14 are disposed at two sides of the air outlet panel 10, and two sides of the flexible door body 22 corresponding to the slide rails 14 are slidably connected to the slide rails 14, so that the two sides of the flexible door body 22 can slide on the slide rails 14.

Optionally, a groove extending along the moving direction of the flexible door body 22 is formed in the slide rail 14, and a part of two side edges of the flexible door body 22 corresponding to the slide rail 14 extends into the groove, so that the sliding connection between the flexible door body 22 and the slide rail 14 is realized.

Optionally, a groove extending along the moving direction of the flexible door 22 is formed in the slide rail 14, two side edges of the flexible door 22 corresponding to the slide rail 14 are provided with sliding portions, the sliding portions extend into the groove, and the sliding portions can slide in the groove, so that the sliding connection between the flexible door 22 and the slide rail 14 is realized.

Optionally, grooves extending along the moving direction of the flexible door body 22 are formed in two side edges of the flexible door body 22 corresponding to the slide rail 14, and one side of the slide rail 14 corresponding to the flexible door body 22 extends into the groove, so that the sliding connection between the flexible door body 22 and the slide rail 14 is realized.

Example 18

As shown in fig. 2, in addition to the features of any of the embodiments described above, further defined are:

slide rail 14 and air-out panel 10 integrated into one piece to reduce the assembly process of air-out subassembly, reduce unnecessary assembly error, can also improve slide rail 14's intensity and stability, and make air-out panel 10's overall structure compact.

Example 19

As shown in fig. 1 and 3, according to another embodiment of the present invention, there is provided an air conditioner defining:

the air conditioner comprises a shell 40 and a plurality of fan assemblies 50, wherein the air outlet assembly of any one of the above embodiments is arranged on the shell 40, so that the technical effects of any one of the above embodiments are achieved, and no further description is given here, at least one fan assembly 50 of the plurality of fan assemblies 50 and the air outlet 12 of one air outlet assembly are correspondingly arranged in the shell 40, wherein at least one air outlet 12 is opened by the flexible door body 22 of the air outlet assembly, so that air in the shell 40 is driven to be exhausted outwards through the opened air outlet 12 through the air outlet assembly.

Example 20

As shown in fig. 3, in addition to the features of any of the embodiments described above, further defines:

the fan assembly 50 specifically includes: the fan motor to and with at least one flabellum of the drive shaft transmission of fan motor connection, and every flabellum corresponds the setting with an air outlet 12, so that when the flabellum rotated under the drive of the drive shaft of motor, the drive air outwards airs exhaust through at least one air outlet 12.

Optionally, each air outlet 12 corresponds to one fan blade, so that the fan motor drives the fan blades to drive the air in the casing 40 to be exhausted outwards through each air outlet 12, so as to provide a larger area of air supply for the user.

Example 21

As shown in fig. 3, in addition to the features of any of the embodiments described above, further defines:

the fan assembly 50 specifically includes: the fan motor 52 and at least one fan blade 54 in transmission connection with the driving shaft of the fan motor 52, and each fan blade 54 is arranged corresponding to one air outlet 12, so that when the fan blade 54 is driven by the driving shaft of the motor to rotate, the driving air is exhausted outwards through at least one air outlet 12.

Optionally, one fan blade 54 is corresponding to each air outlet 12, so that the fan motor 52 drives the fan blades 54 to drive the air in the housing 40 to be exhausted outwards through each air outlet 12, thereby providing a larger area of air supply for the user.

Example 22

As shown in fig. 3, in addition to the features of any of the embodiments described above, further defines:

the evaporator 60 is arranged on one side of the fan assembly 50 in the casing 40, which is far away from the air outlet 12, so that air in the casing can be discharged to the air outlet assembly through the fan assembly 50 after exchanging heat with the evaporator 60, thereby realizing refrigeration or heating of the air conditioner. Example 23

A specific embodiment of the utility model provides a components of a whole that can function independently formula air conditioner that falls to ground, include: the air conditioner comprises a rear box body part, an evaporator part, a fan part, an air outlet panel part and an air outlet 12 opening and closing device, wherein the evaporator part is assembled in the rear box body part, the fan part is positioned in front of the evaporator part, the fan part is composed of a plurality of fan assemblies 50, and each fan assembly 50 can independently control the starting, stopping and rotating speed; the air outlet panel part is positioned in front of the fan part, the air outlet panel 10 is provided with a plurality of air outlets 12, and each air outlet 12 corresponds to one fan assembly 50; an air outlet 12 opening and closing device is disposed in front of the air outlet panel 10 for opening or closing the air outlet 12.

Further, the opening and closing device of the air outlet 12 comprises an opening and closing door assembly, the opening and closing door assembly comprises a rolling shutter shaft, the opening and closing door assembly is provided with the rolling shutter shaft, the rolling shutter shaft is connected with a driving assembly, the driving assembly drives the rolling shutter shaft to rotate around the axis of the rolling shutter shaft, one end of the opening and closing door is fixed on the rolling shutter shaft, the opening and closing door is driven to be wound on the rolling shutter shaft through the rotation of the rolling shutter shaft, and the other end of the opening and closing door is; the other end of the switch door is correspondingly provided with a winding shaft, the winding shaft is connected with a driving assembly, the winding shaft is driven to rotate around the axis of the winding shaft through the driving assembly, the other end of the pull rope is fixed on the winding shaft, the pull rope can be wound on the roller shutter shaft when the winding shaft rotates, the switch door is pulled to move through the pull rope, specifically, when the switch door moves, the steering directions of the roller shutter shaft and the winding shaft are the same, and when the roller shutter shaft drives the lower opening door to be wound on the roller shutter shaft, the pull rope wound on the winding shaft is released and stretched; when the winding shaft drives the lower pull rope to be wound on the winding shaft, the opening and closing door wound on the rolling shaft is released to extend.

Optionally, the switching door assembly is provided with two rotating shafts 24 respectively located at two ends of the air outlet panel part, the two rotating shafts 24 are connected with the driving assembly, the driving assembly drives the two rotating shafts 24 to rotate, and the rotation directions and the rotating speeds of the two rotating shafts 24 are the same; the switch door is made of flexible parts, two ends of the switch door are respectively connected with two ends of the pull rope, the switch door is annular, the annular switch door is sleeved between the two rotating shafts 24, and the annular switch door can be pushed to rotate when the rotating shafts 24 rotate.

Further, roll up the curtain axle and be cylindricly, the inside cavity that is formed with of cylinder, the cylinder outer wall is equipped with sharp gap, the inside cavity of gap intercommunication, the one end with rolling up the assembly of curtain axle on the switch door is equipped with the thickening edge, the thickness at this thickening edge is greater than the gap width and is less than inside cavity width, the inside that the cavity was located in the gap is passed with the one end of rolling up the assembly of curtain axle to the switch door to realize the fixed connection of switch door and rolling up the curtain axle.

Furthermore, two driven wheels are arranged at two ends of the roller shutter shaft assembly, one side of each driven wheel, facing the roller shutter shaft, is provided with a guide inclined plane, the outer diameter of each guide inclined plane is larger than the diameter of the roller shutter shaft, the two guide inclined planes limit a containing groove after the roller shutter is rolled up, and the width of the containing groove is 0.2-5 mm larger than the width of the opening and closing door.

Furthermore, two driven wheels are respectively assembled at two ends of the roller shutter shaft to seal the thickened edge of the opening and closing door in the cavity.

Optionally, the roller shutter shaft is divided into a left part and a right part, the two parts are fixedly assembled to form a cylinder, and the opening and closing door is clamped between the two parts for fixing.

Further, the driven wheels on both sides are integrally formed with one of the two parts constituting the roll screen shaft.

Alternatively, the driven wheels at the two sides are respectively integrally formed with one of the driven wheels, and can also be assembled on the roller shutter shaft after being separately formed.

According to the utility model discloses an air-out subassembly that provides, when making the flexible door body convolute in the pivot, occupation space is less to do benefit to the miniaturization of air-out subassembly and air conditioner, outwards air exhaust through a plurality of air outlets, the air-out area of air-out subassembly has been improved, and simultaneously, the flexible door body can be through the quantity control air-out area of the air outlet that the control was opened, for the user provides manifold wind sense, horizontal fold and buckling appear in the one end of avoiding the flexible door body to be connected with the pivot, make the more smooth and easy coiling of the flexible door body in the pivot.

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

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or unit indicated must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

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

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

Claims (20)

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

the air outlet panel is provided with an air outlet;

the door body subassembly, with the air-out panel corresponds the setting, the door body subassembly specifically includes: a rotating shaft arranged on at least one side of the air outlet panel, and a flexible door body connected with the rotating shaft,

at least one of the rotating shafts is provided with a connecting part used for connecting the flexible door body, and the rotating shaft drives the flexible door body to wind on the rotating shaft or outwards expand from the rotating shaft so as to open or close at least one air outlet.

2. The air outlet assembly of claim 1, wherein a cavity for accommodating one end of the flexible door body is arranged inside at least one of the rotating shafts, a gap corresponding to the cavity is arranged on the outer wall of the rotating shaft, at least one end of the flexible door body is arranged in the cavity through the gap,

wherein, on the cross section of the rotating shaft, the width of the gap is smaller than that of the cavity.

3. The air outlet assembly of claim 2, wherein the cavity extends in an axial direction of the rotating shaft.

4. The air outlet assembly of claim 2, further comprising:

the joint portion is located be used for on the flexible door body with the link that the pivot links to each other, the thickness of joint portion is greater than the width in gap and be less than the width of cavity, through joint portion passes the gap is located in the cavity, realize the flexible door body with the fixed connection of pivot.

5. The air outlet assembly of claim 4,

the clamping portion and the flexible door body are integrally formed.

6. The air outlet assembly of claim 4, wherein the rotating shaft specifically comprises: a first rotating shaft and a second rotating shaft which are respectively arranged at two opposite ends of the air outlet panel,

the flexible door body is connected with the first rotating shaft and the second rotating shaft, and at least part of the flexible door body is driven to be wound on the first rotating shaft through the rotation of the first rotating shaft; or

At least part of the flexible door body is driven to be wound on the second rotating shaft through the rotation of the first rotating shaft; or

At least part of the flexible door body is driven to be wound on the first rotating shaft through the rotation of the second rotating shaft; or

And at least part of the flexible door body is driven to be wound on the second rotating shaft through the rotation of the second rotating shaft.

7. The air outlet assembly of claim 6, further comprising:

the driven parts are arranged at two ends of the first rotating shaft and/or the second rotating shaft and are arranged corresponding to the clamping parts so as to limit the clamping parts to move along the axial direction of the first rotating shaft and/or the second rotating shaft through the driven parts,

one side of the driven piece, which is close to the flexible door body, protrudes upwards to form a guide part, and one side of the guide part, which is close to the flexible door body, is provided with a guide inclined plane.

8. The air outlet assembly of claim 7, wherein the rotating shaft specifically comprises:

the first sub-axle and locate respectively the second sub-axle at first sub-axle both ends, the second sub-axle with the connection can be dismantled to first sub-axle, first sub-axle with be formed with after the second sub-axle is connected connecting portion, the one end of the flexible door body is located in the connecting portion, in order to realize the flexible door body with the fixed connection of pivot.

9. The air outlet assembly of claim 8,

the driven part is integrally formed with the first sub-shaft or the second sub-shaft; or

The driven member, the first sub-shaft and the second sub-shaft are integrally formed.

10. The air outlet assembly of claim 9, further comprising:

the mounting seat is fixedly connected to the air outlet panel;

the cover plate is fixedly connected with the mounting seat, the driving motor is fixedly connected with the cover plate, and the driving part is in transmission connection with a driving shaft of the driving motor, and the driving part is in transmission connection with the driven part so as to drive the driven part to rotate through the driving motor.

11. The air outlet assembly of claim 10,

the driven part and the driving part are respectively a first gear and a second gear which are meshed with each other,

the axis of the first gear coincides with the axis of the first rotating shaft or the axis of the second rotating shaft, and the axis of the second gear coincides with the axis of the driving shaft of the driving motor.

12. The air outlet assembly of any one of claims 9 to 11,

one end of the flexible door body is fixedly connected with the first rotating shaft,

the door body assembly further comprises a tensioning piece, one end of the tensioning piece is connected with the other end of the flexible door body, and the other end of the tensioning piece is fixedly connected to the second rotating shaft.

13. The air outlet assembly of claim 12,

the flexible door body and the tensioning piece are integrally formed.

14. The air outlet assembly of claim 8,

the axis of the first rotating shaft is parallel to the axis of the second rotating shaft.

15. The air outlet assembly of claim 8, wherein an axis of the first rotating shaft and an axis of the second rotating shaft form a non-zero angle therebetween, the flexible door body is shaped like a sector, and the flexible door body is movable in a sector area formed between the first rotating shaft and the second rotating shaft to open or close at least one air outlet in the sector area.

16. The air outlet assembly of claim 1, wherein the flexible door body is in transmission connection with the rotating shaft, so that the flexible door body is driven to move around the rotating shaft through rotation of the rotating shaft, and relative movement between the flexible door body and the air outlet panel is achieved.

17. The air outlet assembly of claim 1, further comprising

A slide rail arranged on the air outlet panel,

the sliding rail extends along the moving direction of the flexible door body, the sliding rail is arranged corresponding to the flexible door body, and at least part of the flexible door body is connected with the sliding rail in a sliding mode.

18. The air outlet assembly of claim 17, wherein the slide rail is integrally formed with the air outlet panel.

19. An air conditioner, comprising:

a housing; the air outlet assembly of any one of claims 1 to 18, which is arranged on the casing;

at least one fan component and the air outlet of one air outlet component are correspondingly arranged in the shell,

and at least one air outlet is opened by the flexible door body of the air outlet assembly, and air is exhausted outwards through the opened air outlet.

20. The air conditioner of claim 19, wherein the fan assembly specifically comprises:

a fan motor and at least one fan blade in transmission connection with a driving shaft of the fan motor,

each fan blade is arranged corresponding to one air outlet;

the evaporator is arranged on one side of the fan motor, which is far away from the air outlet panel in the shell, and the air in the shell is discharged from the air outlet assembly through the fan assembly after heat exchange of the evaporator.

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