CN218096472U - Air conditioner - Google Patents

Abstract

The utility model relates to the technical field of air conditioners, in particular to an air conditioner, which comprises an air conditioner body and an air guide door, wherein the air conditioner body is provided with an air duct and an air outlet communicated with the air duct; the air guide door is rotationally connected with the air conditioner body, the axis of the air guide door is located in the air channel, the air guide door is used for shielding or opening the air outlet, and when the air guide door opens the air outlet, one end of the air guide door extends into the air channel. The utility model discloses an air conditioner can compromise the effect of refrigeration and heating, promotes the travelling comfort, improves user experience.

Description

Air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air conditioner.

Background

Air conditioners may be used to regulate the temperature and humidity of an environment, for example: in high-temperature weather in summer, the temperature of the environment is reduced; in winter, cold weather, it is used to raise the ambient temperature. The air conditioner provided by the related art generally needs to adjust the direction of the outlet air by rotating the air guide door to different positions, so as to achieve a better cooling or heating effect.

However, the air conditioner provided by the related art is difficult to give consideration to both the cooling and heating effects, the comfort needs to be improved, and the user experience is not good.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how make the air conditioner compromise the effect of refrigeration and heating, promote the travelling comfort, improve user experience.

In order to solve the above problem, the utility model provides an air conditioner, include:

the air conditioner comprises an air conditioner body, a fan and a fan, wherein the air conditioner body is provided with an air duct and an air outlet communicated with the air duct;

the air guide door, the air guide door is rotationally connected with the air conditioner body, and the axle center of air guide door is located the wind channel, and the air guide door is used for sheltering from or opening the air outlet, and when the air outlet was opened to the air guide door, the one end of air guide door stretched into in the wind channel.

Set up the axle center with the air guide door in the wind channel, and when the air guide door is rotatory in order to open the air outlet, the one end of air guide door stretches into in the wind channel, make the air guide door have bigger rotation angle range around its axle center, can be convenient for be in the mode of refrigerating or heating according to the air conditioner body, make the air guide door rotatory to suitable angle, thereby ensure no matter the air conditioner refrigerates or heats and all have good effect, also ensure that the air conditioner can compromise the effect of refrigerating and heating, and the comfort is improved, and the user experience is improved.

In an alternative embodiment, the length of the damper is less than the length of the outlet vent.

Optimize the length size of air guide door and air outlet, can ensure that the air guide door can rotate around the axle center that is located the wind channel reliably, and stretch into the wind channel with the one end of self, in order to open the air outlet, and make the suitable state of refrigerating or heating of the rotatory angle of air guide door, also ensure on the one hand that the rotation of air guide door can not receive other parts in the wind channel, the interference of structure, on the other hand ensures that the air guide door can be smooth rotate to the angle range of guaranteeing good refrigeration or heating effect, thereby ensure that the air conditioner compromises the effect of refrigerating and heating, promote the travelling comfort, improve user experience.

In an optional embodiment, the air duct is internally provided with an obstacle point, and a projection point of the axis, which is projected to the air guide door along a direction vertical to the air guide door, is a preset point; the distance between the tail end point of the lower edge of the air guide door and the preset point is smaller than the distance between the preset point and the obstacle point.

Optimize the position in the axle center of air guide door and the size of air guide door, can ensure that air guide door can not receive the hindrance of obstacle point in the wind channel when rotatory to opening the air outlet, can ensure that air guide door can be according to the condition that the air conditioner body refrigerate or heat, rotate to suitable angle, ensure that the air conditioner compromises the effect of refrigeration and heating reliably, promote the travelling comfort, improve user experience.

In an alternative embodiment, the distance from the hub to the damper is less than or equal to the maximum distance from a point in the duct to the damper.

The position of the axis is optimized, so that on one hand, the rotation of the air guide door is not interfered by other parts or structures in the air duct, and the air guide door can smoothly and reliably open the air outlet; on the other hand, the air guide door can be rotated to a proper angle according to the refrigeration or heating condition of the air conditioner, so that a good refrigeration or heating effect is ensured, namely, the air conditioner can be ensured to take the refrigeration and heating effects into consideration, the comfort is improved, and the user experience is improved.

In an optional embodiment, the air conditioner further comprises a motor and a rotating shaft, wherein the rotating shaft is connected with the air guide door and is in transmission connection with the motor, so that the motor can drive the rotating shaft to drive the air guide door to rotate;

the distance from the axis to the air guide door is larger than or equal to the radius of the outer ring of the rotating shaft.

The position of the axle center that the optimization is located the wind channel to ensure the rotation that the air guide door can be smooth, and ensure that the air guide door can be according to the condition that the air conditioner refrigerates or heats, rotatory to suitable angle, and then ensure that the air conditioner can compromise the effect of refrigeration and heating, promote the travelling comfort, improve user experience.

In an alternative embodiment, the distance between the projection point of the axis to the air guide door along the direction perpendicular to the air guide door and the axis is 6mm-12.6mm.

The position of the axle center that the optimization is located the wind channel ensures the rotation that the air guide door can be smooth on the one hand, and can not receive the interference of other structures of air conditioner and part, and on the other hand ensures that the air guide door can be according to the condition that the air conditioner refrigerates or heats, and rotatory to suitable angle, and then ensures that the air conditioner can compromise the effect of refrigeration and heating, promotes the travelling comfort, improves user experience.

In an alternative embodiment, when the air conditioner body is in the stopped state, the rotation angle of the damper door is configured to be 0 °;

when the air conditioner body is in a cooling mode, the rotation angle range of the air guide door is configured to be 0-86 degrees;

the rotation angle range of the air guide door is configured to be 50-120 deg. when the air conditioner body is in the heating mode.

Respectively under the mode of air conditioner body refrigeration and heating, optimize the rotatory angle of wind-guiding door to ensure that the air conditioner all has good effect under refrigeration and the mode of heating, promote the travelling comfort, improve user experience.

In an optional embodiment, the air conditioner body comprises a frame, an upper air duct plate and a lower air duct plate which are connected to the frame, an air duct is formed between the upper air duct plate and the lower air duct plate, and a diffusion angle is formed between the upper air duct plate and the lower air duct plate; the air guide door is rotatably connected with the frame;

when the rotation angle of the air guide door is 86 degrees, the included angle between the lower air duct plate and the air guide door is 25.5-33.8 degrees;

when the rotation angle of the air guide door is 120 degrees, the included angle between the lower air duct plate and the air guide door is 30.2-40 degrees;

the included angle between the position of the air guide door rotating by 86 degrees and the position of the air guide door rotating by 120 degrees is 114.5-116 degrees.

The position of optimizing axle center and air guide door ensures the rotation that air guide door can be smooth on the one hand, and can not receive the interference of other structures of air conditioner and part, and on the other hand ensures that air guide door can rotate to suitable angle according to the condition that the air conditioner refrigerates or heats, and then ensures that the air conditioner can compromise the effect of refrigeration and heating, promotes the travelling comfort, improves user experience.

In an optional embodiment, the air guide door is an arc-shaped plate, and when the air guide door blocks the air outlet, an arc-shaped concave surface of the air guide door faces the inner side of the air outlet;

when the rotation angle of the air guide door is 86 degrees, the included angle between the lower air duct plate and the tangent line of the arc convex surface of the air guide door is 25.5 degrees;

when the rotation angle of the air guide door is 120 degrees, the included angle between the lower air duct plate and the tangent line of the arc convex surface of the air guide door is 40 degrees;

the included angle between the position of the tangent line of the arc-shaped convex surface of the air guide door rotating by 86 degrees and the position of the tangent line of the arc-shaped convex surface of the air guide door rotating by 120 degrees is 114.5 degrees.

Under the condition that the air guide door is the arc, the positions of the axis and the air guide door are further optimized, the air guide door can be smoothly rotated, the air conditioner can be further reliably ensured to take refrigeration and heating effects into consideration, the comfort is improved, and the user experience is improved.

In an alternative embodiment, the air guide door is a flat plate,

when the rotation angle of the air guide door is 86 degrees, the included angle between the lower air duct plate and the air guide door is 33.8 degrees;

when the rotation angle of the air guide door is 120 degrees, the included angle between the lower air duct plate and the air guide door is 30.2 degrees;

the included angle between the position where the air guide door rotates by 86 degrees and the position where the air guide door rotates by 120 degrees is 116 degrees.

Under the condition that the air guide door is flat, the positions of the axis and the air guide door are further optimized, the air guide door can be smoothly rotated, the air conditioner can be further reliably ensured to take refrigeration and heating effects into consideration, the comfort is improved, and the user experience is improved.

Drawings

Fig. 1 is a sectional view of an air conditioner according to an embodiment of the present invention, when an air outlet is closed by an air guide door;

FIG. 2 is a schematic view of a partial structure of a damper door and a rotating shaft according to an embodiment of the present invention;

fig. 3 is a partial sectional view of an air conditioner according to an embodiment of the present invention;

fig. 4 is a sectional view of the air conditioner in the cooling mode according to the embodiment of the present invention;

fig. 5 is a sectional view of the air conditioner in the heating mode according to the embodiment of the present invention;

fig. 6 is a schematic view of an intersection state of the air guiding door in the cooling mode and the air guiding door in the heating mode according to an embodiment of the present invention.

Description of reference numerals:

010-an air conditioner; 100-air conditioner body; 110-a frame; 111-air outlet; 112-an air duct; 113-upper airway plate; 114-lower duct board; 115-a rotation axis; 120-linker arm; 130-wind sweeping blades; 200-a damper door; 210-axial center; a-the point of failure; b-presetting points; c-lower edge end point.

Detailed Description

An air conditioner is a commonly used electric appliance for adjusting the temperature and humidity of an indoor environment. Air conditioners typically include wall-mounted or cabinet-mounted type. When the air conditioner is used, the air outlet is opened by rotating the air guide door, and the direction of air outlet is adjusted by rotating the air guide door to different angles, so that a better refrigerating or heating effect is achieved.

However, the related art provides an air conditioner having a limited rotation angle adjustable range of the damper; if the air conditioner obtains better effect when refrigerating through the rotation angle of adjusting the air guide door, but when heating, just difficult to reach better heating effect through adjusting the angle to suitable through the air guide door, or if the air conditioner obtains better effect when heating through the rotation angle of adjusting the air guide door, but when refrigerating, just difficult to reach better refrigerating effect through adjusting the air guide door to suitable angle, the air conditioner that the correlation technique provided is difficult to compromise the effect of refrigerating and heating through the air guide door promptly, the travelling comfort remains to be promoted, user experience is not good.

The embodiment provides an air conditioner, then can compromise the effect of refrigeration and heating, promotes the travelling comfort, improves user experience.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, the air conditioner 010 of the present embodiment includes an air conditioner body 100 and an air guide door 200, wherein the air conditioner body 100 is provided with an air duct 112 and an air outlet 111 communicated with the air duct 112; the air guide door 200 is rotatably connected to the air conditioner body 100 to block or open the air outlet 111. When the air conditioner body 100 is used for cooling or heating, the air guide door 200 is rotated to open the air outlet 111, and can be rotated to different angles to adjust the air outlet direction, so as to obtain a better cooling or heating effect.

The air conditioner body 100 further includes a frame 110 and a motor (not shown), the frame 110 is provided with an air outlet 111, and the motor is disposed on the frame 110 and is in transmission connection with the air guide door 200 to drive the air guide door 200 to rotate relative to the frame 110 to open or block the air outlet 111.

Further, referring to fig. 2, the air conditioner 010 further includes a rotating shaft 115, and the rotating shaft 115 is connected to the air guide door 200 by, but not limited to, integral molding or thermal welding; the output shaft of the motor is drivingly connected to the rotating shaft 115, so that the motor can drive the rotating shaft 115 to rotate the air guide door 200.

Further, referring to fig. 3, the air conditioner body 100 further includes a connecting arm 120, the connecting arm 120 is connected to the frame 110 and located in the air duct 112, and one end of the connecting arm 120 is rotatably connected to the air guide door 200; thus, the damper 200 can be stably and reliably rotatably connected to the frame 110 via the connecting arm 120, and the damper 200 can be smoothly rotated to open or block the outlet 111.

In order to further adjust the air conditioner 010 to have a good cooling or heating effect; the air conditioner body 100 further includes a wind sweeping blade 130 movably disposed on the frame 110, and the wind sweeping blade 130 is located in the air duct 112, and the wind sweeping blade 130 is used for adjusting the wind outlet direction. The structure and operation principle of the wind sweeping blade 130 are similar to those of the related art, and are not described in detail herein.

Referring to fig. 1, in the present embodiment, the air conditioner body 100 further includes an upper duct plate 113 and a lower duct plate 114 connected to the frame 110, an air duct 112 is formed between the upper duct plate 113 and the lower duct plate 114, and a diffusion angle is formed between the upper duct plate 113 and the lower duct plate 114. Further, the distance between the upper duct plate 113 and the lower duct plate 114 is gradually increased to form a flare-shaped diffusion angle, so as to diffuse the air in the air duct 112, thereby not only improving the uniformity of the air discharged from the air outlet 111, but also increasing the air supply distance, and ensuring an excellent temperature adjusting effect.

In this embodiment, the axis 210 of the air guide door 200 is located in the air duct 112, and when the air guide door 200 opens the air outlet 111, one end of the air guide door 200 extends into the air duct 112.

Set up the axle center 210 with air guide door 200 in wind channel 112, and when air guide door 200 rotates in order to open air outlet 111, air guide door 200's one end stretches into in wind channel 112, make air guide door 200 can have bigger rotation angle range around its axle center 210, can be convenient for be in the refrigeration mode or heat the mode according to air conditioner body 100, make air guide door 200 rotate to suitable angle, thereby ensure that air conditioner 010 all has good effect no matter refrigerate or heat, also ensure that air conditioner 010 can compromise the effect of refrigeration and heating, promote the travelling comfort, improve user experience.

The shaft center 210 coincides with the rotation center of the rotation shaft 115.

Further, the length L1 of the damper 200 is smaller than the length L2 of the outlet 111.

The length dimensions of the air guiding door 200 and the air outlet 111 are optimized, so that the air guiding door 200 can reliably rotate around the axis 210 in the air duct 112, one end of the air guiding door 200 extends into the air duct 112 to open the air outlet 111, and the rotation angle of the air guiding door 200 is suitable for a cooling or heating state, that is, on one hand, the rotation of the air guiding door 200 is not interfered by other components and structures in the air duct 112, and on the other hand, the air guiding door 200 can smoothly rotate to an angle range ensuring a good cooling or heating effect, so that the air conditioner 010 can ensure cooling and heating effects, the comfort is improved, and the user experience is improved.

Still further, referring to fig. 3, an obstacle point a is provided in the air duct 112, in order to ensure that the air guide door 200 is not blocked by the obstacle point a in the air duct 112 when rotating; defining a projection point of the axis 210 projected to the air guide door 200 along a direction perpendicular to the air guide door 200 as a preset point b; the lower edge end point c of the damper 200 is spaced from the preset point b by a distance smaller than the distance between the preset point b and the obstacle point a.

Optimize the position of the axle center 210 of air guide door 200, and the size of air guide door 200, can ensure that air guide door 200 stretches into wind channel 112 along the tail end under it in rotating, and when opening air outlet 111, can not receive the hindrance of air channel 112 cataract point a, can ensure that air guide door 200 can refrigerate or the condition of heating according to air conditioner body 100, rotate to suitable angle, ensure that air conditioner 010 compromises the effect of refrigeration and heating reliably, promote the travelling comfort, improve user experience.

In this embodiment, the distance from the shaft center 210 to the air guiding door 200 is less than or equal to the maximum distance from a point in the air duct 112 to the air guiding door 200, that is, the distance from the shaft center 210 to the air guiding door 200 is less than or equal to the distance between the point in the air duct 112 farthest from the air guiding door 200 and the air guiding door 200.

The position of the shaft center 210 is optimized, so that on one hand, the rotation of the air guide door 200 is not interfered by other parts or structures in the air duct 112, and further, the air guide door 200 can smoothly and reliably open the air outlet 111; on the other hand, it is ensured that the air guide door 200 can rotate to a proper angle according to the cooling or heating condition of the air conditioner 010, so as to ensure a good cooling or heating effect, that is, the air conditioner 010 can give consideration to both the cooling and heating effects, thereby improving the comfort and improving the user experience.

Note that, the points in the air duct 112 refer to: when the air guide door 200 blocks the air outlet 111, the lower duct plate 114, the air sweeping blade 130, the connecting arm 120, and the air guide door 200 form an arbitrary point in the region.

Further, referring to fig. 2, the distance from the shaft center 210 to the air guiding door 200 is greater than or equal to the outer circle radius r of the rotating shaft 115, for example: when the outer radius of the rotating shaft 115 is 5mm, the distance from the shaft center 210 to the air guide door 200 is greater than or equal to 5mm.

The position of the shaft center 210 in the air duct 112 is optimized to ensure that the air guide door 200 can smoothly rotate, and ensure that the air guide door 200 can rotate to a proper angle according to the condition of refrigeration or heating of the air conditioner 010, thereby ensuring that the air conditioner 010 can give consideration to the effects of refrigeration and heating, improving the comfort and improving the user experience.

Still further, referring to fig. 4, a distance h between a projection point of the shaft center 210 projected to the air guide door 200 along a direction perpendicular to the air guide door 200 and the shaft center 210 is 6mm to 12.6mm, for example: 6mm, 7mm, 8mm, 9mm, 10mm, 11mm, 12.6mm, etc., and is not particularly limited herein.

The position of the axle center 210 in the air duct 112 is optimized, on one hand, the air guide door 200 can be smoothly rotated without being interfered by other structures and components of the air conditioner 010, on the other hand, the air guide door 200 can be rotated to a proper angle according to the refrigeration or heating condition of the air conditioner 010, and therefore the air conditioner 010 can be enabled to give consideration to the refrigeration and heating effects, the comfort is improved, and the user experience is improved.

Referring to fig. 4 and 5, when the air conditioner body 100 is in a shutdown state, the rotation angle of the air guide door 200 blocking the air outlet 111 is configured to be 0 °; when the air conditioner body 100 is in the cooling mode, the rotation angle range of the damper 200 opening the outlet port 111 is configured to be 0 to 86 °, for example: 30 degrees, 45 degrees, 60 degrees, 86 degrees and the like; when the air conditioner body 100 is in the heating mode, the rotation angle range of the damper 200 opening the outlet port 111 is configured to be 50 ° -120 °, for example: 50 °, 79 °, 90 °, 100 °, 120 °, etc.

The cold air generally has a tendency of flowing downwards automatically, and the hot air generally floats upwards, so when the air guide door 200 is rotated to obtain a better cooling or heating effect by adjusting the rotation angle of the air guide door 200, the preferred angle of the air guide door 200 is generally different in the cooling and heating modes, so that the rotation angle of the air guide door 200 is optimized respectively in the cooling and heating modes of the air conditioner body 100, so as to ensure that the air conditioner 010 has a good effect in both the cooling and heating modes, improve the comfort and improve the user experience.

Further, when the angle of rotation of the air guide door 200 is 86 °, the angle between the lower duct plate 114 and the air guide door 200 is 25.5 ° to 33.8 °, for example: 25.5 °, 27 °, 29 °, 31 °, 33.8 °; when the angle of rotation of the air guide door 200 is 120 °, the angle between the lower duct plate 114 and the air guide door 200 is 30.2 ° to 40 °, for example: 30.2 °, 33 °, 35 °, 37 °, 40 °, etc.; the included angle between the position of the air guide door 200 rotating by 86 degrees and the position of the air guide door 200 rotating by 120 degrees is 114.5-116 degrees, for example: 114.5 °, 115 °, 116 °, etc.

With such a configuration, the positions of the shaft center 210 and the air guide door 200 can be optimized, on one hand, the air guide door 200 can be smoothly rotated without being interfered by other structures and components of the air conditioner 010, on the other hand, the air guide door 200 can be rotated to a proper angle according to the condition of cooling or heating of the air conditioner 010, and therefore the air conditioner 010 can have cooling and heating effects at the same time, the comfort is improved, and the user experience is improved.

It should be noted that, when the rotation angle of the air guide door 200 is 86 °, the specific included angle between the lower duct plate 114 and the air guide door 200, and when the rotation angle of the air guide door 200 is 120 °, the specific included angle between the lower duct plate 114 and the air guide door 200, and the specific included angle between the position where the air guide door 200 is rotated by 86 ° and the position where the air guide door 200 is rotated by 120 ° may be configured according to the case where the air guide door 200 is an arc-shaped plate or a flat plate.

Referring to fig. 4, 5 and 6, in the present embodiment, the air guiding door 200 is an arc-shaped plate, and when the air guiding door 200 blocks the air outlet 111, the arc-shaped concave surface of the air guiding door 200 faces the inner side of the air outlet 111; when the rotation angle of the air guide door 200 is 86 degrees, the included angle γ between the lower air duct plate 114 and the tangent of the arc convex surface of the air guide door 200 is 25.5 degrees; when the rotation angle of the air guide door 200 is 120 degrees, the included angle theta between the lower air duct plate 114 and the tangent line of the arc convex surface of the air guide door 200 is 40 degrees; the included angle delta between the position of the tangent line of the arc-shaped convex surface of the air guide door 200 rotating for 86 degrees and the position of the tangent line of the arc-shaped convex surface of the air guide door 200 rotating for 120 degrees is 114.5 degrees; the distance h between the projection of the shaft center 210 to the air guide door 200 in the direction perpendicular to the air guide door 200 and the shaft center 210 is 12.6mm.

Under the condition that air guide door 200 is the arc, further optimize axle center 210 and air guide door 200's position, not only can ensure the rotation that air guide door 200 can be smooth to can further ensure air conditioner 010 to compromise the effect of refrigeration and heating reliably, promote the travelling comfort, improve user experience.

It should be appreciated that depending on the degree of curvature of the arcuate damper 200, the angle of the damper 200 to the downwind shield in each state, and the angle of the damper 200 between each state, will vary.

Of course, in other embodiments, the air guiding door 200 is a flat plate, and when the rotation angle of the air guiding door 200 is 86 °, the included angle γ between the lower air guiding plate 114 and the air guiding door 200 is 33.8 °; when the rotation angle of the air guide door 200 is 120 degrees, the included angle theta between the lower air duct plate 114 and the air guide door 200 is 30.2 degrees; an included angle delta between the position where the air guide door 200 rotates by 86 degrees and the position where the air guide door 200 rotates by 120 degrees is 116 degrees; the distance h between the axis 210 and the projection point of the air guide door 200 projected from the axis 210 in the direction perpendicular to the air guide door 200 is 6mm. Under the condition that air guide door 200 is the flat board, further optimize axle center 210 and air guide door 200's position, not only can ensure the rotation that air guide door 200 can be smooth to can further ensure air conditioner 010 to compromise the effect of refrigeration and heating reliably, promote the travelling comfort, improve user experience.

When the air conditioner 010 of the present embodiment is used, the rotation angle of the damper 200 may be adjusted for cooling or heating according to its operation mode; when the air conditioner 010 refrigerates, the air guide door 200 can rotate within the range of 0-86 degrees of rotation angle, so as to obtain better refrigeration effect; when the air conditioner 010 heats, the air guide door 200 can rotate within the range of the rotation angle of 50 degrees to 120 degrees, so that a better heating effect is obtained.

To sum up, the utility model discloses an air conditioner 010 can compromise the effect of refrigeration and heating, promotes the travelling comfort, improves user experience.

Although the present invention is disclosed above, the present invention is not limited thereto. 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. An air conditioner, comprising:

the air conditioner comprises an air conditioner body (100), wherein the air conditioner body (100) is provided with an air duct (112) and an air outlet (111) communicated with the air duct (112);

air guide door (200), air guide door (200) with air conditioner body (100) rotationally connect, just axle center (210) of air guide door (200) are located in wind channel (112), air guide door (200) are used for sheltering from or opening air outlet (111), work as air guide door (200) are opened during air outlet (111), the one end of air guide door (200) stretches into in wind channel (112).

2. The air conditioner according to claim 1, wherein the length of the air guide door (200) is smaller than the length of the air outlet (111).

3. The air conditioner according to claim 1, wherein the air duct (112) has an obstacle point (a) therein, and a projection point of the shaft center (210) onto the air guide door (200) in a direction perpendicular to the air guide door (200) is a preset point (b); the distance between the tail end point (c) of the lower edge of the air guide door (200) and the preset point (b) is smaller than the distance between the preset point (b) and the obstacle point (a).

4. The air conditioner according to claim 1, wherein the distance from the hub (210) to the air guide door (200) is less than or equal to a maximum value of the distance from a point in the air duct (112) to the air guide door (200).

5. The air conditioner according to claim 1, further comprising a motor and a rotating shaft (115), wherein the rotating shaft (115) is connected with the air guide door (200) and is in transmission connection with the motor, so that the motor can drive the rotating shaft (115) to drive the air guide door (200) to rotate;

the distance from the shaft center (210) to the air guide door (200) is larger than or equal to the outer ring radius of the rotating shaft (115).

6. The air conditioner according to claim 1, wherein a distance between a projection point of the shaft center (210) projected to the air guide door (200) in a direction perpendicular to the air guide door (200) and the shaft center (210) is 6mm to 12.6mm.

7. The air conditioner according to any one of claims 1 to 6, wherein the rotation angle of the air guide door (200) is configured to be 0 ° when the air conditioner body (100) is in a stopped state;

the rotation angle range of the damper door (200) is configured to be 0 ° -86 ° when the air conditioner body (100) is in a cooling mode;

the rotation angle range of the damper (200) is configured to be 50-120 ° when the air conditioner body (100) is in a heating mode.

8. The air conditioner according to claim 7, wherein the air conditioner body (100) comprises a frame (110) and an upper duct plate (113) and a lower duct plate (114) connected to the frame (110), the upper duct plate (113) and the lower duct plate (114) forming the duct (112) therebetween, and the upper duct plate (113) and the lower duct plate (114) forming a diffuser angle therebetween; the air guide door (200) is rotatably connected with the frame (110);

when the rotation angle of the air guide door (200) is 86 degrees, the included angle between the lower air duct plate (114) and the air guide door (200) is 25.5-33.8 degrees;

when the rotation angle of the air guide door (200) is 120 degrees, the included angle between the lower air duct plate (114) and the air guide door (200) is 30.2-40 degrees;

the included angle between the position of the air guide door (200) rotating by 86 degrees and the position of the air guide door (200) rotating by 120 degrees is 114.5-116 degrees.

9. The air conditioner according to claim 8, wherein the air guide door (200) is an arc-shaped plate, and when the air guide door (200) blocks the air outlet (111), an arc-shaped concave surface of the air guide door (200) faces the inner side of the air outlet (111);

when the rotation angle of the air guide door (200) is 86 degrees, the included angle between the lower air duct plate (114) and the tangent line of the arc convex surface of the air guide door (200) is 25.5 degrees;

when the rotation angle of the air guide door (200) is 120 degrees, the included angle between the lower air duct plate (114) and the tangent line of the arc convex surface of the air guide door (200) is 40 degrees;

the included angle between the position of the tangent line of the arc-shaped convex surface where the air guide door (200) rotates by 86 degrees and the position of the tangent line of the arc-shaped convex surface where the air guide door (200) rotates by 120 degrees is 114.5 degrees.

10. The air conditioner according to claim 8, wherein the air guide door (200) is a flat plate,

when the rotation angle of the air guide door (200) is 86 degrees, the included angle between the lower air duct plate (114) and the air guide door (200) is 33.8 degrees;

when the rotation angle of the air guide door (200) is 120 degrees, the included angle between the lower air duct plate (114) and the air guide door (200) is 30.2 degrees;

the included angle between the position where the air guide door (200) rotates by 86 degrees and the position where the air guide door (200) rotates by 120 degrees is 116 degrees.

Images