CN221629872U - Indoor unit with wind sense adjusting device and air conditioner - Google Patents

Abstract

The utility model provides an indoor unit with a wind sense adjusting device and an air conditioner, which comprise a shell and a fan-shaped wind shielding structure, wherein two ends of the fan-shaped wind shielding structure are rotatably connected with two ends of the shell, the fan-shaped wind shielding structure selectively covers an air outlet or an air inlet of the indoor unit, the fan-shaped wind shielding structure comprises a first wind shielding component and a second wind shielding component, the first wind shielding component and the second wind shielding component are driven separately, a wind shielding plate of the second wind shielding component is arranged as a flexible piece, the first wind shielding component selectively covers the air outlet or the air inlet, and the second wind shielding component is folded or unfolded at the air outlet. The air sense is adjusted through the control of the first wind shielding component and the second wind shielding component, and when the air conditioner is not used, the first wind shielding component can cover the air inlet of the indoor unit, dust is prevented from being deposited inside the indoor unit through the air inlet, and the inside of the indoor unit is kept clean.

Description

Indoor unit with wind sense adjusting device and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an indoor unit with a wind sense adjusting device and an air conditioner.

Background

The air outlet of the existing air conditioner is provided with air outlets through air guide doors and/or air sweeping blades, the air sense felt by indoor users is strong, zero-sense air outlet is needed to be achieved for improving comfort, the air guide plates are provided with holes in the air guide plates, the air outlet is carried out in a state that the air guide plates are closed, air flows are enabled to be discharged through micro holes in the air guide plates, the air outlet direct blowing effect is reduced, and zero-sense air outlet is achieved. However, the air guide door is hard in material and does not improve soft wind sense much, and different wind senses cannot be realized by the same air guide plate; if different air deflectors are adopted, folding, semi-folding or storage cannot be realized when the air deflectors are not used, and the appearance of the indoor unit is affected.

Disclosure of utility model

In view of the above, the present utility model aims to provide an indoor unit and an air conditioner with a wind sensing adjusting device, which solve the problems that the wind deflector in the prior art cannot realize different wind senses and cannot realize folding or storage when the wind deflector is not used.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

The utility model provides an indoor set with wind sense adjusting device, includes casing and fan-shaped wind shielding structure, fan-shaped wind shielding structure's both ends with the both ends swivelling joint of casing, fan-shaped wind shielding structure selectively covers the air outlet or the air intake of indoor set, fan-shaped wind shielding structure includes first wind shielding subassembly and second wind shielding subassembly, first wind shielding subassembly and second wind shielding subassembly separate drive, the wind shielding plate of second wind shielding subassembly sets up to the flexible piece, first wind shielding subassembly selectively covers air outlet or air intake, the second wind shielding subassembly is in the air outlet department is folding or is opened. The air sense is adjusted through the control of the first wind shielding component and the second wind shielding component, and when the air conditioner is not used, the first wind shielding component can cover the air inlet of the indoor unit, dust is prevented from being deposited inside the indoor unit through the air inlet, and the inside of the indoor unit is kept clean.

Further, driving devices are arranged at two ends of the first wind shielding component and the second wind shielding component, each driving device comprises a first driving component and a second driving component, the first driving components drive the first wind shielding component to rotate to the air outlet or the air inlet, and the second driving components drive the second wind shielding component to be unfolded or folded at the air inlet. When the first wind shielding component is positioned at the air outlet, the air outlet speed can be slowed down, the wind sense is reduced, and when the first wind shielding component is positioned at the air inlet, dust can be prevented from falling into the indoor unit, and the indoor unit is cleaned and protected; when the second wind shielding component is in an open state at the air inlet, the air outlet speed can be slowed down, the wind sense is reduced, and when the second wind shielding component is in a folded state at the air inlet, the front end space of the indoor unit is not occupied, and the appearance structure of the indoor unit is not influenced.

Further, the second wind shielding assembly is located inside the first wind shielding assembly.

Further, the first wind shielding assembly comprises a first wind shielding plate, a supporting framework and a first driving assembly, wherein the first driving assembly is at least partially arranged on the outer side of the shell, the supporting framework is connected with the first driving assembly, and one end, away from the first driving assembly, of the supporting framework is connected with the first wind shielding plate.

Further, the first wind deflector is provided with a plurality of holes.

Further, the first driving component is connected with the side plate of the shell or connected with the end part of the inner base through the side plate, and at least part of the first driving component penetrates through the side plate to extend outwards and is connected with the supporting framework.

Further, the supporting framework comprises a first supporting framework and a second supporting framework, one ends of the first supporting framework and the second supporting framework are connected to the first driving assembly, the other end of the first supporting framework is connected with one end of the first wind shield in the width direction, the other end of the second supporting framework is connected with the other end of the first wind shield in the width direction, the first supporting framework, the second supporting framework and the side face of the first wind shield form a fan-shaped structure, and the first wind shield is arranged to be an arc-shaped plate.

Further, the second wind shielding assembly comprises a second wind shielding plate, a connecting framework and a second driving assembly, wherein the second driving assembly is at least partially arranged on the outer side of the shell, one end of the second wind shielding plate is connected with the connecting framework, the other end of the second wind shielding plate is fixed on the lower portion of the shell, and the other end of the connecting framework is connected with the second driving assembly.

Further, the second wind deflector is arranged in a multi-stage folded pleated structure.

Compared with the prior art, the indoor unit with the wind sense adjusting device has the following advantages:

The air sense is adjusted through the control of the first wind shielding component and the second wind shielding component, and when the air conditioner is not used, at least the first wind shielding component can cover the air inlet of the indoor unit, dust is prevented from being deposited inside the indoor unit through the air inlet, and the inside of the indoor unit is kept clean.

The utility model also provides an air conditioner which comprises the indoor unit with the wind sense adjusting device.

The air conditioner has the same advantages as the indoor unit with the wind sense adjusting device compared with the prior art, and the description is omitted herein.

Drawings

Fig. 1 is a schematic structural diagram of an indoor unit according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a wind-sensing adjusting device according to an embodiment of the utility model;

FIG. 3 is an indoor side view of an embodiment of the present utility model;

fig. 4 is a schematic diagram of an indoor unit in a first air outlet mode according to an embodiment of the present utility model;

Fig. 5 is a schematic diagram of an indoor unit in a second air outlet mode according to an embodiment of the present utility model;

Fig. 6 is a schematic diagram of an indoor unit in a third air outlet mode according to an embodiment of the present utility model;

fig. 7 is a schematic diagram of an indoor unit in a primary cleaning mode according to an embodiment of the present utility model.

Reference numerals illustrate:

100-fan-shaped wind shielding structure, 1-first wind shielding component, 11-first wind shielding plate, 12-first supporting framework, 13-second supporting framework, 14-first driving component, 2-second wind shielding component, 21-second wind shielding plate, 22-connecting framework, 23-second driving component, 200-shell, 210-air outlet, 220-air inlet, 230-front panel and 240-side plate

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 1 to 7, an indoor unit with a wind sensing adjustment device includes a housing 200 and a fan-shaped wind shielding structure 100, wherein two ends of the fan-shaped wind shielding structure 100 are rotatably connected with two ends of the housing 200, the fan-shaped wind shielding structure 100 selectively covers an air outlet 210 or an air inlet 220 of the indoor unit, specifically, the fan-shaped wind shielding structure 100 includes a first wind shielding component 1 and a second wind shielding component 2, the first wind shielding component 1 and the second wind shielding component 2 are separately driven, a plurality of holes are formed in a wind shielding plate of the first wind shielding component 1, the wind shielding plate of the second wind shielding component 2 is provided as a flexible member, the first wind shielding component 1 selectively covers the air outlet 210 or the air inlet 220 of the indoor unit, and the second wind shielding component 2 is folded or unfolded at the air outlet 210. Therefore, the wind sense is adjusted through the control of the first wind shielding component and the second wind shielding component, and when the air conditioner is not used, the first wind shielding component can cover the air inlet of the indoor unit, dust is prevented from being deposited inside the indoor unit through the air inlet, and the inside of the indoor unit is kept clean.

The driving devices are arranged at two ends of the first wind shielding component 1 and the second wind shielding component 2, the second wind shielding component 2 is located on the inner side of the first wind shielding component 1, the driving devices comprise a first driving component 14 and a second driving component 23, the first driving component 14 drives the first wind shielding component 1 to rotate to an air outlet 210 or an air inlet 220, and the second driving component 23 drives the second wind shielding component 2 to open or fold at the air inlet 220. Therefore, when the first wind shielding component 1 is positioned at the air outlet, the air outlet speed can be slowed down, the wind sense is reduced, and when the first wind shielding component is positioned at the air inlet, dust can be prevented from falling into the indoor unit, and the indoor unit is cleaned and protected; when the second wind shielding component is in an open state at the air inlet, the air outlet speed can be slowed down, the wind sense is reduced, and when the second wind shielding component is in a folded state at the air inlet, the front end space of the indoor unit is not occupied, and the appearance structure of the indoor unit is not influenced.

Specifically, the first wind shielding assembly 1 comprises a first wind shielding plate 11, a supporting framework and a first driving assembly 14, wherein the first driving assembly 14 is at least partially arranged on the outer side of the shell 200, the supporting framework is connected with the first driving assembly 14, one end, away from the first driving assembly 14, of the supporting framework is connected with the first wind shielding plate 11, the first wind shielding plate 11 is connected with the first driving assembly 14 through the supporting framework, a plurality of holes are formed in the first wind shielding plate 11, the first driving assembly 14 drives the supporting framework to rotate, and the supporting framework drives the first wind shielding plate 11 to rotate, so that the first driving assembly 14 drives the first wind shielding plate.

In this embodiment, the first driving assembly 14 is connected to the side plate 240 of the housing 200, or passes through the side plate 240 to be connected to the end of the inner base, at least part of the first driving assembly 14 extends out through the side plate 240 and is connected to the supporting frame, so as to realize that the first driving assembly 14 smoothly drives the supporting frame and the first wind deflector to rotate, and avoid interference with the side plate of the housing when the first wind deflector 11 rotates.

Further, the supporting framework comprises a first supporting framework 12 and a second supporting framework 13, one ends of the first supporting framework 12 and the second supporting framework 13 are connected to the first driving assembly 14, the other end of the first supporting framework 12 is connected with one end of the first wind deflector 11 in the width direction, the other end of the second supporting framework 13 is connected with the other end of the first wind deflector 11 in the width direction, the first supporting framework 12, the second supporting framework 13 and the side face of the first wind deflector 11 form a fan-shaped structure, the first wind deflector 11 is arranged to be an arc-shaped plate, when the wind deflector 11 is covered at the air outlet 210 to reduce wind sensation, the front side and the rear side of the wind deflector form an upturned structure, an approximate wrapping effect is formed on the air outlet 210, and the influence on indoor user comfort caused by direct blowing of the air outlet to the indoor space without passing through the wind deflector is avoided.

Preferably, the driving shaft of the first driving assembly 14 is exposed outside the housing 200, a shaft sleeve is arranged outside the driving shaft, the shaft sleeve integrally rotates along with the driving shaft, and the first supporting framework 12 and the second supporting framework 13 are connected to the shaft sleeve, so that the first driving assembly drives the first supporting framework 12 and the second supporting framework 13 to rotate.

The second wind shielding assembly 2 comprises a second wind shielding plate 21, a connecting framework 22 and a second driving assembly 23, wherein the second driving assembly 23 is at least partially arranged on the outer side of the shell 200, the second wind shielding plate 21 is made of flexible and breathable materials, one end of the second wind shielding plate 21 is connected with the connecting framework 22, the other end of the second wind shielding plate 21 is fixed on the lower portion of the shell 200, the other end of the connecting framework 22 is connected with the second driving assembly 23, and the second driving assembly 23 drives the second wind shielding plate 21 through the connecting framework 22. When the second wind shielding assembly 2 needs to be opened, the second driving assembly 23 drives the connection framework 22 to rotate, and then drives one end of the second wind shielding plate 21 to rotate, and as the other end of the second wind shielding plate 21 is fixed at the position of the lower end of the shell close to the air outlet, when the connection framework 22 drives one end of the second wind shielding plate 21 to rotate, the second wind shielding plate 21 is opened to cover the air outlet 210.

In this embodiment, the second driving assembly 23 is connected to the side plate 240 of the housing 200, or passes through the side plate 240 to be connected to the end of the inner base, at least part of the second driving assembly 23 extends out through the side plate 240 and is connected to the connection frame 22, so as to realize that the second driving assembly 23 smoothly drives the connection frame and the second wind deflector to rotate, and avoid interference with the side plate of the housing when the second wind deflector rotates.

As one of the embodiments of the present utility model, the second drive assembly 23 may be provided separately from the first drive assembly 14 or may be provided coaxially with the first drive assembly. When the first driving component 14 and the second driving component 23 are coaxially arranged, the second driving component 23 is sleeved outside the first driving component 14, the first driving component 14 is close to the side plate, and the second driving component 23 is arranged outside the first driving component 14 relative to the position of the first driving component 14, so that the formed first wind shielding component is located inside the area of the surrounding city of the second wind shielding component, and cross interference of the first wind shielding component and the second wind shielding component is avoided.

Further, the second wind deflector 21 is configured as a multi-stage folded pleated structure, and when the connecting frame 22 rotates, the second wind deflector 21 is driven to open so as to selectively cover the air outlet. Preferably, the folding stage number of the second wind deflector 21 can be increased, and when the connecting framework 22 rotates to the air inlet, the second wind deflector 21 can basically cover the whole indoor unit, thereby playing a role in fully preventing dust.

In order to fully explain the specific function of the fan-shaped wind shielding structure in the application, the states of each part in different operation modes are described as follows. The first air outlet mode is primary air sense, and air is discharged only through the first wind shield; the second air outlet mode is a second-stage air outlet mode, and the air is discharged only through the second wind shield; the third air outlet mode is three-level wind sense, and air is discharged through the first wind shield and the second wind shield. The wind sensation size distribution felt by the user is as follows: the first air outlet mode is larger than the second air outlet mode and larger than the third air outlet mode.

The air conditioner also comprises a primary cleaning mode and a secondary cleaning mode, wherein the primary cleaning mode is that the first wind shield 11 covers the air inlet, and the air conditioner is temporarily not started, for example, in a gap between two adjacent refrigerating or heating modes. The second-stage cleaning mode is that the second wind shield covers the whole area from the air inlet to the lower end of the shell, and the air conditioner is in a state of long-time unused at the moment, for example, in spring and autumn, and in a period of time when the air conditioner is not required to be cooled or heated for a long time.

When the indoor unit receives the instruction of the first air outlet mode, the main control module controls the first driving assembly 14 to rotate by a preset angle, the first driving assembly 14 drives the first supporting framework 12 and the second supporting framework 13 to rotate by a preset angle, and then drives the first wind shield 11 to rotate to cover the air outlet 210, the second wind shield group is not opened but is in a folded state, and air outlet is disturbed by the first wind shield and then blown into a room during the time.

When the indoor unit receives the instruction of the second air-out mode, the main control module controls the second driving assembly to rotate by a first preset angle, the second driving assembly 23 drives the connecting framework to rotate by the first angle, and then drives the second wind deflector 21 to open by a certain angle to cover the air outlet 210, and meanwhile, the first driving assembly drives the first wind deflector to be located between the air inlet and the air outlet, for example, the first wind deflector is located at the front side of the front panel 230, and air-out is disturbed by the second wind deflector and blown into the room during the air-out.

When the indoor unit receives the instruction of the third air outlet mode, the main control module controls the first driving assembly 14 to rotate by a preset angle, the first driving assembly 14 drives the first supporting framework 12 and the second supporting framework 13 to rotate by a preset angle, and then drives the first wind shield 11 to rotate to cover the air outlet 210, meanwhile, the main control module controls the second driving assembly to drive the second wind shield 21 to rotate by a first preset angle, and the second driving assembly 23 drives the second wind shield 21 to open by a first angle to cover the air outlet 210, so that air is blown into a room after being disturbed by the first wind shield and the second wind shield.

When the indoor unit receives the first-level cleaning mode instruction, the first driving assembly drives the first wind shield to be located at the air inlet, the first wind shield covers the air inlet, dust is prevented from entering the air conditioner through the air inlet, the second driving assembly is motionless, the second wind shield is not opened and is in a folding state, and after the first wind shield and the second wind shield rotate in place, the air conditioner enters a shutdown state.

When the indoor unit receives a second-level cleaning mode instruction, the first driving assembly drives the first wind shield to be positioned at the air inlet, and the first wind shield covers the air inlet; meanwhile, the second driving assembly drives the connecting framework to rotate by a second angle, and then drives the second wind shield 21 to open by a maximum angle so as to cover all areas from the air inlet to the lower end of the shell, and the air conditioner is powered off.

As a part of the embodiment of the utility model, an air conditioner is also provided, which comprises the indoor unit with the wind sense adjusting device.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. An indoor unit with a wind sense adjustment device, characterized in that it comprises a shell (200) and a fan-shaped wind shield structure (100), two ends of the fan-shaped wind shield structure (100) are rotatably connected to two ends of the shell (200), the fan-shaped wind shield structure (100) selectively covers an air outlet (210) or an air inlet (220) of the indoor unit, the fan-shaped wind shield structure (100) comprises a first wind shield component (1) and a second wind shield component (2), the first wind shield component (1) and the second wind shield component (2) are driven separately, the wind shield plate of the second wind shield component (2) is set as a flexible part, the first wind shield component (1) selectively covers the air outlet (210) or the air inlet (220), and the second wind shield component (2) is folded or opened at the air outlet (210). 2. The indoor unit with a wind sense adjustment device according to claim 1 is characterized in that a driving device is arranged at both ends of the first wind shield component (1) and the second wind shield component (2), and the driving device comprises a first driving component (14) and a second driving component (23), the first driving component (14) drives the first wind shield component (1) to rotate to the air outlet (210) or the air inlet (220), and the second driving component (23) drives the second wind shield component (2) to open or fold at the air inlet (220). 3. The indoor unit with a wind sense adjustment device according to claim 1, characterized in that the second wind shielding component (2) is located on the inner side of the first wind shielding component (1). 4. The indoor unit with a wind sense adjustment device according to claim 1 is characterized in that the first wind shield assembly (1) includes a first wind shield plate (11), a support frame and a first drive assembly (14), the first drive assembly (14) is at least partially arranged on the outside of the shell (200), the support frame is connected to the first drive assembly (14), and the end of the support frame away from the first drive assembly (14) is connected to the first wind shield plate (11). 5. The indoor unit with a wind sense adjustment device according to claim 4, characterized in that a plurality of holes are provided on the first wind shield plate (11). 6. An indoor unit with a wind sense adjustment device according to claim 4, characterized in that the first drive component (14) is connected to the side panel (240) of the shell (200), or is connected to the end of the internal base through the side panel (240), and at least a part of the first drive component (14) extends outward through the side panel (240) and is connected to the supporting frame. 7. The indoor unit with a wind sense regulating device according to claim 4 is characterized in that the supporting frame comprises a first supporting frame (12) and a second supporting frame (13), one end of the first supporting frame (12) and the second supporting frame (13) are both connected to the first driving assembly (14), the other end of the first supporting frame (12) is connected to one end of the first wind shield (11) in the width direction, and the other end of the second supporting frame (13) is connected to the other end of the first wind shield (11) in the width direction, the first supporting frame (12), the second supporting frame (13) and the side surface of the first wind shield (11) form a fan-shaped structure, and the first wind shield (11) is set as an arc-shaped plate. 8. The indoor unit with a wind sense regulating device according to claim 1 is characterized in that the second wind shield assembly (2) comprises a second wind shield plate (21), a connecting frame (22) and a second driving assembly (23), the second driving assembly (23) is at least partially arranged on the outside of the shell (200), one end of the second wind shield plate (21) is connected to the connecting frame (22), the other end of the second wind shield plate (21) is fixed to the lower part of the shell (200), and the other end of the connecting frame (22) is connected to the second driving assembly (23). 9. The indoor unit with a wind sense adjustment device according to claim 8, characterized in that the second wind shield (21) is configured as a multi-stage folding pleated structure. 10. An air conditioner, characterized by comprising an indoor unit with a wind feel adjustment device as claimed in any one of claims 1 to 9.