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CN-224230168-U - Air treatment device

CN224230168UCN 224230168 UCN224230168 UCN 224230168UCN-224230168-U

Abstract

The application provides air treatment equipment which comprises a shell, an adjusting assembly and a driving assembly, wherein the shell is provided with a mounting surface and a first air outlet, the first air outlet is positioned on one side, far away from the ground, of the mounting surface, the adjusting assembly comprises a movably arranged air guide blade, the driving assembly is in transmission connection with the adjusting assembly and drives the air guide blade to change in position, and the driving assembly also drives the adjusting assembly to change in position relative to the first air outlet. According to the air treatment equipment provided by the embodiment of the application, the first air outlet far away from the ground is arranged, and the first air outlet combines with the natural convection rule, so that cold air is uniformly diffused to the whole room from a high position during refrigeration, the indoor temperature is further rapidly reduced, high-efficiency air circulation is realized, at the moment, the air supply distance is long, the cold air can be delivered to a far-distance area of the room, the air outlet is not easy to touch after installation, and the artificial interference is reduced.

Inventors

  • LI ZHENGLIANG
  • WANG PENGJIE
  • WANG WEI

Assignees

  • 追觅创新科技(苏州)有限公司

Dates

Publication Date
20260512
Application Date
20250530

Claims (13)

  1. 1. An air treatment apparatus (300), comprising: A housing (200) having a mounting surface (m) and a first air outlet (210), the first air outlet (210) being located on a side of the mounting surface (m) remote from the ground; an adjusting assembly (10) comprising a movably arranged wind guiding blade (12); The driving assembly (20) is in transmission connection with the adjusting assembly (10), the driving assembly (20) drives the air guide blade (12) to change in position, and the driving assembly (20) also drives the adjusting assembly (10) to change in position relative to the first air outlet (210).
  2. 2. The air treatment device (300) according to claim 1, further comprising an air deflector (220), the air deflector (220) being located at the first air outlet (210), the air deflector (220) being movably connected to the mounting surface (m), the air deflector (220) being configured to open the first air outlet (210); An air outlet channel (230) is formed between the air deflector (220) and the mounting surface (m), and the driving assembly (20) drives the adjusting assembly (10) to enter or move out of the air outlet channel (230).
  3. 3. The air treatment device (300) according to claim 2, wherein the ratio between the ventilation area of the first air outlet (210) and the area of the mounting surface (m) ranges from 1/4 to 1/2; and/or the ratio between the height of the first air outlet (210) and the height of the mounting surface (m) is in the range of 1/4-1/2.
  4. 4. An air treatment device (300) according to claim 2 or 3, further comprising an air guiding drive connected to the air deflector (220), the air guiding drive being adapted to drive a change in angle between the air deflector (220) and the mounting surface (m).
  5. 5. The air treatment device (300) of claim 4, wherein the housing (200) further has a second air outlet (240), the second air outlet (240) being located on a side of the first air outlet (210) that is closer to the ground; The air treatment device (300) further comprises a panel (250), the panel (250) being rotatably connected to the mounting surface (m); The direction of rotation between the panel (250) and the mounting surface (m) is different from the direction of angular change between the air deflector (220) and the mounting surface (m).
  6. 6. The air treatment device (300) of claim 5, wherein a range of angular variation between the air deflector (220) and the mounting surface (m) is greater than a range of angular variation between the panel (250) and the mounting surface (m); and/or the cross-sectional area of the second air outlet (240) is greater than the cross-sectional area of the first air outlet (210); And/or, the first air outlet (210) and the second air outlet (240) are arranged at intervals and are communicated with the inside of the shell (200).
  7. 7. The air treatment device (300) according to claim 4, wherein the adjusting assembly (10) comprises a bearing plate (11) and a plurality of air guide blades (12), the extending direction of the bearing plate (11) is the same as the extending direction of the adjusting assembly (10), the plurality of air guide blades (12) are arranged at intervals along the extending direction of the bearing plate (11), and each air guide blade (12) is movably connected with the bearing plate (11); The direction of the angle change between the wind guide blade (12) and the carrier plate (11) is different from the direction of the angle change between the wind guide plate (220) and the mounting surface (m).
  8. 8. The air treatment device (300) of claim 7, wherein the drive assembly (20) comprises a first drive member (21) and a second drive member (22), wherein, The first driving piece (21) is in transmission connection with the air guide blade (12), and the first driving piece (21) drives the air guide blade (12) to rotate relative to the bearing plate (11); The second driving piece (22) is in transmission connection with the bearing plate (11), and the second driving piece (22) drives the bearing plate (11) to change in position relative to the mounting surface (m).
  9. 9. The air treatment device (300) according to claim 8, wherein the first driving member (21) comprises a first transmission member (212), wherein, The first transmission piece (212) is in transmission connection with all the wind guide blades (12) on the adjusting assembly (10); in the extending direction of the bearing plate (11), the first transmission piece (212) is movably connected with the bearing plate (11), and when the first transmission piece (212) moves along the extending direction of the adjusting assembly (10), the wind guide blade (12) connected with the first transmission piece (212) is driven to rotate relative to the bearing plate (11); Or alternatively The second drive element (22) comprises a second motor (222) and a second transmission element (221), The second motor (222) is in transmission connection with the second transmission piece (221), and the second transmission piece (221) is connected with the bearing plate (11); The second motor (222) drives the second transmission piece (221) to move so as to drive the bearing plate (11) to change in position relative to the mounting surface (m).
  10. 10. The air treatment apparatus (300) of claim 9, comprising: -a plurality of said adjustment assemblies (10), each said adjustment assembly (10) comprising said wind guiding blades (12) movably arranged; -a plurality of first drive assemblies (20 a), each of said first drive assemblies (20 a) corresponding to one of said adjustment assemblies (10); The second driving assembly (20 b) is in transmission connection with the plurality of adjusting assemblies (10), and the second driving assembly (20 b) simultaneously drives at least part of structures of the plurality of adjusting assemblies (10) to change positions relative to the mounting surface (m).
  11. 11. The air treatment device (300) according to claim 10, wherein the two conditioning assemblies (10) are a first conditioning assembly (10 a) and a second conditioning assembly (10 b), respectively; -the first adjustment assembly (10 a) comprises a first base point (13 a), the second adjustment assembly (10 b) comprises a second base point (13 b); -said second drive assembly (20 b) simultaneously driving said first adjustment assembly (10 a) and said second adjustment assembly (10 b) to rotate said first adjustment assembly (10 a) about said first base point (13 a), said second adjustment assembly (10 b) being rotated about said second base point (13 b); And/or the number of the groups of groups, The second transmission piece (221) comprises a first connecting rod (2212), a second connecting rod (2211) and a push-pull rod (2213); One end of the first connecting rod (2212) is connected with the push-pull rod (2213), and the other end of the first connecting rod is connected with one of the two adjusting assemblies (10); one end of the second connecting rod (2211) is connected with the push-pull rod (2213), and the other end of the second connecting rod is connected with the other one of the two adjusting assemblies (10); The second motor (222) is in transmission connection with the push-pull rod (2213), the second motor (222) drives the push-pull rod (2213) to change in position relative to the installation surface (m), so that at least part of structures of the two adjusting assemblies (10) are driven to change in position relative to the installation surface (m) through the first connecting rod (2212) and the second connecting rod (2211).
  12. 12. The air treatment apparatus (300) of claim 7, comprising: The plurality of adjusting assemblies (10) respectively correspond to the plurality of air outlet areas, and the plurality of driving assemblies (20) respectively and independently drive the adjusting assemblies (10) corresponding to the driving assemblies (20); The driving assembly (20) is at least used for driving at least part of the structure of the adjusting assembly (10) corresponding to the driving assembly (20) to change relative to the mounting surface (m), and each adjusting assembly (10) comprises a movably arranged wind guide blade (12); The direction of the angle change between the wind guide blade (12) and the mounting surface (m) is different from the direction of the angle change between the wind guide plate (220) and the mounting surface (m).
  13. 13. The air treatment device (300) of claim 12, further comprising a collection means and a control means (30), wherein, The acquisition device is in communication connection with the control device (30), and the control device (30) is electrically connected with each driving assembly (20); The acquisition device is used for acquiring area information in different air outlet areas and transmitting the area information to the control device (30); The control device (30) is used for controlling one or more driving assemblies (20) in the driving assemblies (20) according to the area information, and driving at least part of structures of one or more adjusting assemblies (10) corresponding to the one or more driving assemblies (20) to change positions relative to the mounting surface (m).

Description

Air treatment device Technical Field The application relates to the technology of air treatment equipment, in particular to air treatment equipment. Background Air treatment equipment, such as air conditioning equipment, generally includes an air outlet and an air deflector disposed outside the air outlet, one end of the air deflector being rotatably connected to the bottom of the air outlet, and the direction of air supplied from the air outlet being changed by changing the angle at which the air deflector is opened relative to the air outlet. In the related art, a part of air conditioning equipment blows air upward. However, this way of adjusting the direction of the air supply as described above results in a smaller area of the air conditioning equipment being covered by the air. Disclosure of utility model The application provides air treatment equipment which is used for solving the problem that the area covered by blowing air of air conditioning equipment is smaller. The present application provides an air treatment apparatus comprising: the shell is provided with a mounting surface and a first air outlet, and the first air outlet is positioned at one side of the mounting surface far away from the ground; the adjusting component comprises a movably arranged wind guide blade; The driving assembly is in transmission connection with the adjusting assembly, the driving assembly drives the wind guide blades to change in position, and the driving assembly also drives the adjusting assembly to change in position relative to the first air outlet. According to the air treatment equipment provided by the embodiment of the application, the first air outlet far away from the ground is arranged, and the first air outlet combines with the natural convection rule, so that cold air is uniformly diffused to the whole room from a high position during refrigeration, the indoor temperature is further rapidly reduced, high-efficiency air circulation is realized, at the moment, the air supply distance is long, the cold air can be delivered to a far-distance area of the room, the air outlet is not easy to touch after installation, and the artificial interference is reduced. Through setting up adjusting part and drive assembly to through drive assembly drive adjusting part for installation face change in position, can make like this that wind guiding component can be located the outside of the air outlet of using this wind guiding component's air treatment facility, and the area that shelters from of the air outlet lateral wall that the wind guiding component that is located the air outlet outside received can reduce, thereby can enlarge the area of blowing of wind guiding component, so that this wind guiding component's air treatment facility can cover bigger area of blowing, increase amount of wind. Compared with the prior art, the air supply angle is adjusted through the air deflector, the technical scheme of the application can cover a larger air supply area, improve the air treatment efficiency and further save energy. Through set up swing joint's wind-guiding blade on adjusting part to control wind-guiding blade takes place position change, for example, rotate and/or translation etc. so that wind-guiding blade can realize the pendulum wind, and then adjust wind-guiding assembly's air supply direction through adjusting wind-guiding blade's angle, after adjusting part moves certain distance towards the air outlet outside for the installation, can reduce the interference when the air outlet lateral wall swings wind-guiding blade, thereby increase wind-guiding blade's swing angle, and then enlarge wind-guiding assembly's coverage area. The air supply angle of the air guide assembly is controlled by adjusting the air guide blades, so that the direction of air flow can be controlled more accurately, air distribution can be optimized according to the layout of a room and the requirements of users, different shapes and sizes of the room can be adapted, and more uniform temperature distribution can be provided. By optimizing the airflow path, the running time and energy consumption of the air conditioner can be reduced, thereby improving the overall energy efficiency. This helps to reduce power consumption and operating costs. The air supply angle of the air outlet is adjusted through the air guide assembly, so that the air outlet does not directly blow air to the area where people move, namely, the area where people blow air is avoided, and discomfort or health problems caused by direct blowing of cold air to the body are avoided. In addition, the air supply angle of the air outlet can be continuously changed through the adjustment of the air guide assembly, so that the air conditioner can be prevented from directly blowing in a certain direction for a long time, and further the air conditioner is prevented from directly blowing. In the above air treatment device, optionally, the air treatment device further comprises an air d