CN218442533U - Zero wind sense air conditioner - Google Patents

Abstract

The utility model provides a zero-wind-sensing air conditioner. The air conditioner includes an air conditioner casing, a panel and an air deflector. A panel air channel is formed between the air conditioner shell and the panel, and the air deflector is used to open or close the air outlet, and is also used to open or close the panel air channel, and a mobile device is arranged between the panel and the air conditioner shell, and the mobile device can The panel is driven to move upwards, the panel is provided with a panel air outlet, and the outer surface of the panel is provided with a panel fabric, and the panel fabric is used for zero-wind-sense air outlet. The utility model sets the air outlet holes on the panel and the air deflector, and arranges cloth on the outer surface of the panel and the air deflector, so that the air from the air conditioner is blown out after passing through the cloth, and realizes the zero wind sense of the air conditioner. , and then the panel can be raised and set, and with the rotation of the wind deflector, the switch of various air outlet modes of the air conditioner can be realized to meet the different needs of users.

Description

A wind-free air conditioner

technical field

The utility model relates to the field of air conditioning, in particular to a zero-wind-sensing air conditioner.

Background technique

In the prior art, the air outlet of the air conditioner generally switches directions through the air deflector, and blows directly forward to the room, causing the indoor air to flow, so that the user always feels the wind blowing, especially when resting at night, there is often wind blowing. On the user's body, the flowing air will take away part of the water through the surface of the human body, and the water will be lost through the vaporization of liquid water on the skin surface into gaseous water. This process will absorb the heat of the skin, and then make the human body feel cold, resulting in Discomfort affects the user experience. At the same time, because cooling and heating have different requirements on the air outlet direction, the existing air deflector can only be adjusted within a small angle range, and the user experience is not good.

Utility model content

The problem solved by the utility model is that in the prior art, the air outlet of the air conditioner generally switches directions through the air guide plate, and blows directly forward to the room, causing the indoor air to flow, so that the user can always feel the wind blowing, and the wind guide The board can only be adjusted within a small range of angles, and the adjustment of the air outlet angle under heating and cooling conditions is not good, which affects the user experience.

In order to solve the above problems, the utility model discloses a zero-wind-sensing air conditioner, which includes an air conditioner housing, a panel and an air deflector, the panel is arranged on the front side of the air conditioner housing, and an outlet The air outlet, the air guide plate is rotatably arranged at the air outlet, a panel air channel is formed between the air conditioner casing and the panel, the air guide plate is used to open or close the air outlet, and is also used to open or Close the air duct of the panel, and a moving device is provided between the panel and the air conditioner casing, the moving device can drive the panel to move upwards, the panel is provided with a panel air outlet, and the panel outer surface is provided with a panel fabric, the said Panel fabric is used for wind-free ventilation.

In this setting, when the air guide plate closes the air outlet, the air duct inside the air conditioner is in communication with the air duct on the panel. Since the air cannot be discharged from the air outlet, it moves along the air duct on the panel and passes through the panel in turn. The air outlet and the panel fabric are discharged to the outside. The panel fabric is a breathable fabric. Because the air holes on it are very small, the airflow passing through the panel air outlet and the panel fabric is cut and dispersed twice and then discharged, which cannot form a uniform direction. Therefore, when the air conditioner is running and exhausting, the user cannot feel the air flow discharged from the air conditioner, which realizes the zero wind feeling of the air conditioner and greatly improves the user experience. The setting of the panel fabric, on the one hand It is used for air outlet with zero wind feeling. On the other hand, it can cover the panel air outlet hole on the surface of the panel, so that the user cannot directly see the panel air outlet hole on the panel, which greatly improves the appearance of the air conditioner and avoids causing At the same time, the texture of the panel fabric is better than that of the plastic panel commonly used in the prior art, which improves the user perception of the product. Combined with the setting that the panel can be raised and the rotation of the wind deflector, a variety of air outlet modes are realized.

Further, an upper air outlet is provided between the panel and the air conditioner casing, and the upper air outlet is arranged on the upper side of the panel.

The setting of the upper air outlet can compensate for the wind. When a part of the wind is discharged from the panel, the other part is discharged through the upper air outlet. Since the air flow discharged from the upper air outlet passes through the air duct of the air conditioner, The panel air duct, the upper air outlet, and a considerable part of the air flow are discharged from the panel. The air flow discharged from the upper air outlet is relatively moderate, the upper air outlet is smaller, and the supplementary flow of air is also smaller. The front airflow has little effect, and the user will not feel the wind blowing. While ensuring the smooth discharge of the airflow, the air conditioner achieves zero wind feeling and ensures the user's experience.

Further, an arc-shaped air guide part is provided on the air conditioner casing, and the arc-shaped air guide part is arranged at a position close to the upper air outlet.

The arrangement of the arc-shaped air guide part can ensure the normal air discharge from the upper air outlet and avoid return air.

Furthermore, the air deflector is arranged in an arc or an "L" shape, and when the first end of the air deflector closes the air outlet, its second end directs the airflow to the ground.

Through the above setting, when the air guide plate closes the air outlet, the air conditioner’s wall-mounted air outlet mode can be realized, so that the airflow can be guided to the ground during heating, and uniform heating can be realized when the hot air rises , and because the airflow is blown toward the ground, it has limited influence on the flow of air on the front side of the air conditioner, and the user will not feel the wind blowing, which realizes the zero-wind feeling of the wind during heating, and improves the user experience.

Further, a panel fabric air outlet is provided on the panel fabric, and the size of the panel fabric air outlet is smaller than that of the panel air outlet.

When the air outlet of the panel fabric is not provided, the types of fabrics that can be selected for the panel fabric are limited, and it is necessary to choose a fabric with a certain degree of air permeability, and the setting of the air outlet hole of the panel fabric makes the selection of fabrics for the panel fabric difficult. limited, it is suitable for the production of air conditioners of different styles, and the setting of the air outlet of the panel fabric can appropriately increase the air output of the panel, so as to avoid the excessive wind resistance on the panel fabric from affecting the air outlet of the air conditioner, and the panel fabric The size of the air outlet is smaller than the size of the panel air outlet, so that the panel air outlet and the panel cloth air outlet can form a secondary cut on the air outlet airflow, so that the airflow discharged through the panel cloth air outlet is relatively weak, The air flow at the front side of the air conditioner cannot be caused, which ensures the air outlet effect of the air conditioner with zero wind feeling.

Further, an air duct side wall is provided on the side of the air conditioner housing facing the panel, and the air duct side wall is used to separate the panel from the evaporator.

The setting of the side wall of the air duct separates the panel from the evaporator, which can avoid the return air of the fan and ensure the normal operation of the air conditioner.

Further, a counterbore is provided on the side wall of the air duct facing the panel, and the counterbore is the same as the air outlet hole of the panel fabric.

After the panel is moved down, the user will be able to visually observe the side wall of the air duct. The setting of the counterbore makes the appearance of the air conditioner remain consistent after the panel is moved down, ensuring the user's intuitive experience.

Further, an air outlet of the air deflector is provided on the air deflector, and cloth for the air deflector is also arranged on the outer surface of the air deflector.

The wind deflector air outlet hole and the air deflector cloth are set on the air deflector to supplement the air flow, so that the airflow generated during the operation of the air conditioner can be discharged in time, ensuring the normal operation of the air conditioner.

Further, the air deflector cloth is provided with an air outlet hole of the air deflector cloth, and the size of the air outlet hole of the air deflector cloth is smaller than that of the air outlet hole of the air deflector.

When the air outlet holes of the air deflector cloth are not provided, the fabric types that can be selected for the air deflector cloth are limited, and it is necessary to select fabrics with certain air permeability, and the setting of the air outlet holes of the air deflector cloth makes the air deflector cloth The material selection of the air deflector cloth is not limited, and it is suitable for the production of air conditioners of different styles, and the setting of the air outlet holes of the air deflector cloth can appropriately increase the air output of the air deflector, so as to prevent the air deflector cloth from being excessively Large wind resistance affects the air outlet of the air conditioner. The size of the air outlet hole of the air guide plate is smaller than the size of the air outlet hole of the air guide plate so that the air outlet hole of the air guide plate and the air outlet hole of the air guide plate cloth The air outlet airflow forms a secondary cut, so that the airflow discharged through the air outlet holes of the air deflector fabric is relatively weak, which cannot cause the air flow on the front side of the air conditioner, ensuring the air outlet effect of the air conditioner with zero wind feeling.

Further, the moving device includes a sliding rail and a sliding block, and the sliding rail cooperates with the sliding block to move.

The structure of the slide rail and the slide block is simple and easy to produce, which can ensure the smooth movement of the panel.

Compared with the prior art, the zero-wind-sensing air conditioner described in the utility model has the following advantages:

The utility model arranges air outlet holes on the panel and the air deflector, sets a panel air duct between the air duct and the panel, and arranges a layer of cloth on the outer surface of the panel and the air guide plate, so that the air outlet of the air conditioner passes through The cloth is blown out afterwards, because the holes in the cloth are very small, so that the user does not feel the feeling of wind blowing, and realizes the zero wind feeling of the air conditioner. , realize the switching of the air conditioner panel and top air outlet mode, normal air outlet mode, and wall outlet air mode, to meet the different needs of users. The utility model has the advantages of simple structure and convenient use, realizes the zero-wind-feeling air output of the air conditioner, and improves the user experience.

Description of drawings

Fig. 1 is a structural schematic diagram when the air guide plate of the air conditioner according to the embodiment of the present invention closes the air outlet;

Fig. 2 is a schematic diagram of the exploded structure of the air conditioner housing, panel, panel cloth, air deflector, and air deflector cloth according to the embodiment of the present invention;

Fig. 3 is a front view of the air deflector of the air conditioner according to the embodiment of the present invention when the air outlet is closed;

Fig. 4 is the schematic cross-sectional structure diagram of A-A part in Fig. 3;

Fig. 5 is a structural schematic diagram of the position of the panel when the air conditioner according to the embodiment of the present invention is in the wall-mounted air outlet mode;

Fig. 6 is a front view of the air conditioner according to the embodiment of the present invention when it is in the wall-mounted air outlet mode;

Fig. 7 is a schematic cross-sectional structure diagram of C-C position in Fig. 6;

Fig. 8 is a schematic cross-sectional structure diagram of the sliding rail and the sliding block according to the embodiment of the present invention.

Explanation of reference signs:

1- air conditioner shell; 11- air duct side wall; 111- counterbore; 112- slide rail; 2- panel; 21- panel air outlet; 22- slider; 3- panel fabric; 31- panel fabric outlet Hole; 4-air deflector; 41-air outlet hole of air deflector; 5-cloth of air deflector; 51-air outlet of air deflector cloth; 6-panel air duct; 7-upper air outlet; 8-arc Air guide.

Detailed ways

In order to make the purpose, technical solution and advantages of the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the described embodiments are some of the embodiments of the present invention, but not all of them. The specific embodiments described here are only used to explain the utility model, and are not intended to limit the utility model. It should be noted that, in the case of no conflict, the embodiments of the present invention and the features in the embodiments can be combined with each other.

A zero-wind-sensing air conditioner according to an embodiment of the present invention will be specifically described below in conjunction with the accompanying drawings.

This embodiment provides a zero-wind-sensing air conditioner, as shown in Figures 1-7, comprising an air-conditioning housing 1, a panel 2 and a wind deflector 4, the panel 2 is arranged on the front side of the air-conditioning housing 1, and The air conditioner housing 1 is provided with an air outlet, the air deflector 4 is rotatably arranged at the air outlet, and a panel air duct 6 is formed between the air conditioner housing 1 and the panel 2, and the air guide plate 4 is used to open or close the air outlet, and is also used to open or close the panel air duct 6. There is also a moving device between the panel 2 and the air conditioner casing 1. The moving device can drive the panel 2 to move upwards. A panel air outlet hole 21 is arranged on the upper surface, and a panel fabric 3 is arranged on the outer surface of the panel 2, and the panel fabric 3 is used for blowing out wind with zero wind feeling. It should be understood that during the rotation of the air deflector 4, it can close or open the air outlet, and the zero-wind-sensing air output includes: the air guide 4 closes the air outlet, and at this time, the inside of the air conditioner The air duct communicates with the panel air duct 6. Since the air flow cannot be discharged from the air outlet, it moves along the panel air duct 6, and passes through the panel air outlet hole 21 and the panel fabric 3 to be discharged to the outside in turn. The panel fabric 3 is air-permeable. Fabric, because the air holes on it are very small, the airflow passing through the air outlet hole 21 of the panel and the fabric 3 of the panel is discharged after being cut and dispersed twice, and the airflow in a uniform direction cannot be formed, so that during the exhaust process of the air conditioner, The user cannot feel the airflow exhausted by the air conditioner, which realizes the zero wind feeling of the air conditioner, which greatly improves the user experience, and the setting of the panel fabric 3 on the outer surface of the panel 2 is used for zero wind on the one hand. On the other hand, the panel air outlet hole 21 on the surface of the panel 2 can be covered, so that the user cannot directly see the panel air outlet hole 21 on the panel 2, which greatly improves the appearance of the air conditioner and avoids causing At the same time, compared with the plastic panels commonly used in the prior art, the texture of the panel fabric 3 is better, which improves the user perception of the product. It should be noted that the connection method between the panel fabric 3 and the panel 2 can be bonded, and the adhesive used for bonding can be the material in the prior art, which will not be limited or repeated here. It should be understood that the driving panel 2 to move upward in this embodiment refers to driving the panel 2 to move upward relative to the original position.

As an embodiment of the present invention, an upper air outlet 7 is provided between the panel 2 and the air conditioner housing 1 , and the upper air outlet 7 is arranged on the upper side of the panel 2 . It should be understood that after the panel fabric 3 is arranged on the outer surface of the panel 2, due to the small air holes on the panel fabric 3, excessive wind resistance is likely to occur, and the airflow generated during the operation of the air conditioner cannot be discharged in time, affecting its normal operation. In operation, the setting of the upper air outlet 7 can compensate for the wind. When a part of the wind is discharged from the panel 2, the other part is discharged through the upper air outlet 7, because the airflow discharged from the upper air outlet 7 passes through Air conditioner air duct, panel air duct 6, upper air outlet 7, plus a considerable part of the air flow is discharged from the panel 2, the air flow discharged from the upper air outlet 7 is relatively moderate, and the upper air outlet 7 is smaller, supplementing The outflow air flow is also small, which has little effect on the airflow in front of the air conditioner, and the user will not feel the wind blowing. Under the condition of ensuring the smooth discharge of the airflow, the zero wind feeling of the air conditioner is realized, ensuring that the user use experience.

As one of the preferred embodiments, an arc-shaped air guide portion 8 is provided on the air-conditioning housing 1 , and the arc-shaped air guide portion 8 is arranged at a position close to the upper air outlet 7 . It can also be considered that the arc-shaped air guide part 8 is arranged at the top of the panel air duct 6, and the arc-shaped air guide part 8 is used to guide the airflow to the upper air outlet 7, so that the compensation air can be discharged smoothly. The top of the panel air channel 6 is a plane structure, and the air flow will flow back when it blows to the top, which is not conducive to the normal air outlet of the upper air outlet 7, and will affect the normal operation of the air conditioner in severe cases. The setting can ensure that the upper air outlet 7 is normally air-out, avoiding return air.

In this embodiment, as shown in Fig. 4 and Fig. 7, the air deflector 4 is arranged in an arc or "L" shape, and when the first end of the air deflector 4 closes the air outlet, its second The end directs the airflow to the ground. Through the above settings, when the air guide plate 4 closes the air outlet, the air outlet mode of the air conditioner can be realized, so that the airflow can be guided to the ground during heating, and uniform cooling can be realized during the rising process of the hot air. Because the airflow blows out to the ground, the air flow on the front side of the air conditioner is limited, and the user will not feel the wind blowing, which realizes the zero-wind-feeling airflow during heating and improves the user experience.

In this implementation, as shown in Fig. 1, Fig. 3 and Fig. 4, when the air deflector 4 closes the air outlet, the panel 2 is in the original position; 7), the panel 2 moves up. The original position of the panel 2 refers to the state where the panel 2 is recovered after the air conditioner is turned off. When the air guide plate 4 closes the air outlet, the panel 2 is in the original position at this time. In this state, the air conditioner The airflow discharged from the air conditioner is discharged through the panel air outlet hole 21 on the panel 2, the panel cloth 3, the air deflector air outlet 41 on the air deflector 4, the air deflector cloth 5, and the upper air outlet 7, realizing the air conditioner. Panel and top air outlet mode, this mode is suitable for cooling air outlet, on the one hand, the cold air is discharged from a higher position, and the uniform cooling of the space is realized during the falling process, on the other hand, the user will not feel the wind blowing, ensuring The user's body surface comfort; when the air deflector 4 is closing the panel air duct 6, one end of the air guide plate will close the panel air duct 6, and the other end will guide the airflow to the ground. This mode is suitable for the heating mode of the air conditioner. When the hot air rises, uniform heating is realized, and since the air flow is blown to the ground, the influence on the air flow at the front side of the air conditioner is limited, and the user will not feel the wind blowing. user experience. It should be noted that when the air deflector 4 closes the air outlet, if the panel 2 is in the original position, interference between the two is likely to occur, resulting in the air deflector 4 being unable to rotate to the position of closing the air duct 6 of the panel, and the panel 2 The upward movement provides a corresponding rotation space for the wind deflector 4 , so that it can close the panel air duct 6 . It should be noted that, when the panel 2 is in the original position, the wind deflector 4 rotates according to the wind sweeping mode of the wind deflector 4 in the prior art, and a conventional air outlet mode can be realized.

In this embodiment, the panel fabric 3 is provided with panel fabric air outlet holes 31 , and the size of the panel fabric air outlet holes 31 is smaller than the size of the panel air outlet holes 21 . It should be understood that when the panel fabric air outlet 31 is not provided, the types of fabrics that can be selected for the panel fabric 3 are limited, and it is necessary to select a fabric with a certain degree of air permeability, and the setting of the panel fabric air outlet 31 makes the panel fabric 3 The fabric selection of the panel fabric 3 is not limited, and is suitable for producing air conditioners of different styles, and the setting of the air outlet 31 of the panel fabric can appropriately increase the air output of the panel 2, and avoid the influence of excessive wind resistance on the panel fabric 3 The air outlet of the air conditioner, the size of the panel cloth outlet hole 31 is smaller than the size of the panel outlet hole 21 can make the panel outlet hole 21 and the panel cloth outlet hole 31 form a secondary cut for the outlet air flow , so that the airflow discharged through the air outlet holes 31 of the panel fabric is relatively scattered, which cannot cause the air flow at the front side of the air conditioner, and ensures the air outlet effect of the air conditioner with zero wind feeling. The shapes and specific sizes of the panel fabric air outlet holes 31 and the panel air outlet holes 21 are not limited here.

As an optional embodiment of the present utility model, as shown in FIG. 2 , the wind deflector 4 is provided with an air deflector outlet hole 41 , and the outer surface of the wind deflector 4 is also provided with a wind deflector Cloth5. It should be understood that setting the wind deflector air outlet 41 and the wind deflector cloth 5 on the wind deflector 4 can also supplement the wind, so that the airflow generated during the operation of the air conditioner can be discharged in time, ensuring the normal operation of the air conditioner. run. The connection method of the wind deflector fabric 5 and the wind deflector 4 can also be bonded, which will not be repeated here.

In another embodiment of the present utility model, the air deflector cloth 5 is provided with an air deflector cloth outlet 51 , and the size of the air deflector cloth outlet 51 is smaller than the air outlet 41 of the air deflector. It should be understood that when the air outlet holes 51 of the air deflector cloth are not provided, the types of fabrics that can be selected for the air deflector cloth 5 are limited, and it is necessary to select fabrics that have a certain degree of air permeability, and the air outlet holes of the air deflector cloth The setting of 51 makes the material selection of the air deflector cloth 5 unlimited, and is suitable for producing air conditioners of different styles, and the setting of the air outlet holes 51 of the air deflector cloth can appropriately increase the outlet of the air deflector 4 . Air volume, to avoid excessive wind resistance on the air deflector cloth 5 affecting the air outlet of the air conditioner, the size of the air outlet hole 51 of the air deflector cloth is smaller than the setting of the air outlet hole 41 of the air deflector can make the air deflector The air outlet hole 41 and the air outlet hole 51 of the air deflector cloth form a secondary cut to the air outlet airflow, so that the airflow discharged through the air outlet hole 51 of the air deflector cloth is relatively scattered, and the air flow at the front side of the air conditioner cannot be caused, ensuring The air outlet effect of the air conditioner is zero wind. The shapes and specific sizes of the cloth air outlet holes 51 of the air deflector and the air outlet holes 41 of the air deflector are not limited herein.

As an embodiment of the present utility model, as shown in FIG. 2 , an air duct side wall 11 is provided on the side of the air conditioner housing 1 facing the panel 2, and the air duct side wall 11 is used to connect the panel 2 and the panel 2. The evaporator is separated. If the space where the evaporator is located is directly connected to the panel air duct 6, it is easy for the fan to return air, seriously affecting the normal operation of the air conditioner. The setting of the air duct side wall 11 separates the panel 2 from the evaporator, The phenomenon of returning air from the fan can be avoided, and the normal operation of the air conditioner can be ensured.

As a preferred embodiment, as shown in FIG. 2 , a counterbore 111 is provided on the side of the air duct side wall 11 facing the panel 2 , and the counterbore 111 is the same as the air outlet hole 31 of the panel fabric. The counterbore 111 being the same as the panel fabric air outlet hole 31 means that the counterbore 111 and the panel fabric air outlet hole 31 have the same size and shape. After the panel 2 is moved down, the user will be able to visually observe the side wall 11 of the air duct. The setting of the counterbore 111 makes the appearance of the air conditioner remain consistent after the panel 2 is moved down, ensuring the intuitive experience of the user. It should be understood that the counterbore 111 does not penetrate through the side wall 11 of the air duct, nor does it connect the space where the evaporator is located with the panel air duct 6 , and exists only as a decorative hole to avoid return air.

It should be noted that the air outlet holes and counterbore 111 on each component in the accompanying drawings are only for the convenience of understanding the utility model, and are not used to limit the size relationship, size relationship and relationship between each air outlet hole and counterbore 111 in the utility model. shape etc.

In this embodiment, as shown in FIG. 2 , FIG. 4 , and FIG. 8 , the moving device includes a sliding rail 112 and a sliding block 22 , and the sliding rail 112 moves in cooperation with the sliding block 22 . The structure of the slide rail 112 and the slide block 22 is simple, easy to produce, and can ensure the smooth movement of the panel 2. For the driving device required for the slide rail 112 and the slide block 22 to move, reference can be made to the prior art, which will not be repeated here. Qualify and elaborate. Certainly, the mobile device may also adopt a structure for moving in the prior art, which will not be limited or repeated here.

As one of the preferred embodiments, as shown in FIG. 2 and FIG. 4 , the slide rail 112 is set on the air conditioner casing 1 , and the slide block 22 is set on the panel 2 . Optionally, the slide rail 112 is arranged on the air duct side wall 11, because of the arrangement of the panel air duct 6, the air duct side wall 11 is concave toward the air conditioner casing 1 relative to the panel 2 Advance, so that it has more abundant space to install the mobile device, in addition, if the slide rail 112 is arranged on the panel 2, the thickness of the panel 2 will be greatly increased, which is not conducive to the overall production and appearance of the air conditioner.

It should be noted that, when the panel 2 described in the utility model is in the original position, it may not block the front side of the air outlet, or partially or even completely block the front side of the air outlet. When it partially or completely blocks the front side of the air outlet side, the air deflector 4 is arc-shaped or "L"-shaped and arranged on the rear side of the panel 2, (such as extending the panel 2 in Fig. 4 and Fig. 7 downward, and setting the air deflector 4 backward ) The wind deflector 4 cannot be observed from the front or part of the wind deflector 4 can be observed, thereby further improving the appearance of the air conditioner. The structure is the same, when normal wind is required, the panel 2 needs to be moved up, and the wind deflector 4 can be rotated according to the conventional wind sweeping method.

Although the utility model is disclosed as above, the utility model is not limited thereto. In the description of this specification, references to the terms "one embodiment," "some embodiments," "exemplary embodiments," "example," "specific examples," or "some examples" are intended to mean that the implementation Specific features, structures, materials or characteristics described in an embodiment or example are included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Any person skilled in the art can make various changes and modifications without departing from the spirit and scope of the present utility model, so the protection scope of the present utility model should be based on the scope defined in the claims.

Claims (10)

1. A zero-wind-sensing air conditioner, characterized in that it comprises an air-conditioning housing (1), a panel (2) and a wind deflector (4), and the panel (2) is arranged on the front side of the air-conditioning housing (1) , an air outlet is provided on the air conditioner casing (1), and the wind deflector (4) is rotatably arranged at the air outlet, and is formed between the air conditioner casing (1) and the panel (2). There is a panel air channel (6), and the air deflector (4) is used to open or close the air outlet, and is also used to open or close the panel air channel (6), between the panel (2) and the air conditioner casing (1) There is also a moving device between them, the moving device can drive the panel (2) to move up, the panel (2) is provided with a panel air outlet (21), and the panel (2) is provided with a panel cloth (3) , the panel cloth (3) is used for zero-wind sensation. 2. The zero-wind-sensing air conditioner according to claim 1, characterized in that an upper air outlet (7) is arranged between the panel (2) and the air-conditioning housing (1), and the upper air outlet ( 7) Arranged on the upper side of the panel (2). 3. The zero-wind-sensing air conditioner according to claim 2, characterized in that an arc-shaped air guide part (8) is arranged on the air-conditioning housing (1), and the arc-shaped air guide part (8) Set it near the upper air outlet (7). 4. The zero-wind-sensing air conditioner according to claim 1, characterized in that, the air deflector (4) is arranged in an arc or "L" shape, and the first end of the air deflector (4) is at When the air outlet is closed, its second end guides the airflow to the ground. 5. The zero-wind-sensing air conditioner according to claim 1, characterized in that, the panel fabric (3) is provided with a panel fabric outlet hole (31), and the panel fabric outlet hole (31) The size is smaller than the size of the panel air outlet (21). 6. The zero-wind-sensing air conditioner according to claim 5, characterized in that an air duct side wall (11) is provided on the side of the air-conditioning casing (1) facing the panel (2), and the air duct side wall (11) is The channel side wall (11) is used to separate the panel (2) from the evaporator. 7. The zero-wind-sensing air conditioner according to claim 6, characterized in that, a counterbore (111) is provided on the side of the air duct side wall (11) facing the panel (2), and the counterbore (111) 111) is the same as the air outlet (31) of the panel cloth. 8. The zero-wind-sensing air conditioner according to any one of claims 1-7, characterized in that, an air outlet hole (41) of the air guide plate is provided on the air guide plate (4), The outer surface of the wind deflector (4) is also provided with wind deflector cloth (5). 9. The zero wind-sensing air conditioner as claimed in claim 8, characterized in that, the air deflector cloth (5) is provided with an air deflector cloth air outlet hole (51), and the air deflector cloth air outlet hole The size of (51) is less than the wind deflector air outlet (41). 10. The zero-wind-sensing air conditioner according to any one of claims 1-7, 9, characterized in that the moving device comprises a slide rail (112) and a slide block (22), and the slide rail (112 ) cooperates with slide block (22) to move.

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