CN219454235U - Air outlet panel and air duct machine - Google Patents

Abstract

The application provides an air-out panel and tuber pipe machine. The air outlet panel comprises a panel main body and an air guide assembly, wherein the panel main body is provided with a vent, the air guide assembly comprises a first air guide plate, a second air guide plate, a first driving piece and a second driving piece, the first air guide plate and the second air guide plate are both rotatably arranged at the vent around an axis parallel to the length direction of the vent, the first air guide plate and the second air guide plate are arranged at intervals along the height direction of the vent, and the first driving piece and the second driving piece are both arranged on the panel main body; the air guide assembly is configured to: in the refrigeration condensation preventing mode, the first driving piece can drive the first air deflector to rotate to an upward inclined state, and the second driving piece can drive the second air deflector to rotate so as to enable the second air deflector to be circularly switched between the upward inclined state and the downward inclined state. The problem that the upper and lower edges of the air-out panel produce condensation under the refrigeration working condition can be solved, and simultaneously, the refrigeration capacity and the refrigeration comfort are guaranteed.

Description

Air outlet panel and air duct machine

Technical Field

The application belongs to the technical field of air conditioners, and particularly relates to an air outlet panel and an air duct machine.

Background

As the living standard of people increases, air duct machine products are becoming more popular. Because the air duct machine installation scene is limited, the air outlet panel component and the air duct machine product are designed and sold separately, the air outlet panels of most air duct machines adopt simple horizontal and vertical grid structures and have no automatic air sweeping function, so that the comfort of the air duct machine can be reduced, and the problem that the air outlet panel generates condensation under the refrigeration working condition can not be effectively solved.

Disclosure of Invention

The embodiment of the application provides an air-out panel and tuber pipe machine to solve current air-out panel and produce the problem of condensation under the refrigeration operating mode.

In a first aspect, an embodiment of the present application provides an air-out panel, the air-out panel includes a panel main body and an air guide assembly, a vent is formed in the panel main body, the air guide assembly includes a first air guide plate, a second air guide plate, a first driving piece and a second driving piece, the first air guide plate and the second air guide plate are both rotatably disposed at the vent around an axis parallel to the length direction of the vent, the first air guide plate and the second air guide plate are arranged at intervals along the height direction of the vent, and the first driving piece and the second driving piece are both disposed on the panel main body; the air guide assembly is configured to: in the refrigeration condensation prevention mode, the first driving piece can drive the first air deflector to rotate to an upward inclined state, and the second driving piece can drive the second air deflector to rotate so as to enable the second air deflector to circularly switch between the upward inclined state and the downward inclined state.

Optionally, the air guiding assembly is configured to: under the refrigeration condensation preventing mode, the second driving piece can drive the second air deflector to rotate to a downward inclined state after the second air deflector rotates to an upward inclined state for a first preset time, and can drive the second air deflector to rotate to an upward inclined state after the second air deflector rotates to a downward inclined state for a second preset time, and the first preset time is longer than the second preset time.

Optionally, the air guide assembly includes a plurality of second air guide plates, and the second air guide plates are connected through air guide connecting rods; the output end of the second driving piece is connected with the air guide connecting rod and can drive the air guide connecting rod to drive the plurality of second air deflectors to synchronously rotate.

Optionally, both ends of the first air deflector are provided with first rotating shafts, and both ends of the second air deflector are provided with second rotating shafts; the panel main body is provided with a first shaft hole and a second shaft hole on two opposite sides, the first rotating shaft is rotatably arranged in the first shaft hole in a penetrating mode, and the second rotating shaft is rotatably arranged in the second shaft hole in a penetrating mode so that the second air deflector can be arranged.

Optionally, the air-out panel further includes a support, the support is located the middle part of vent and follows the direction of height of vent extends, first aviation baffle with the middle part of second aviation baffle all with the support rotates to be connected.

Optionally, the support includes support main part and a plurality of connecting plate, support main part is followed the direction of height of vent extends, and is a plurality of the connecting plate is in support main part is last to be followed the direction of height of vent is arranged in proper order, first aviation baffle with the second aviation baffle with a plurality of the connecting plate is through the rotation of third pivot one-to-one is connected.

Optionally, the air guiding assembly is configured to: in a rapid refrigeration mode, the first driving piece can drive the first air deflector to rotate to a horizontal state, and the second driving piece can drive the second air deflector to rotate to the horizontal state; and/or, in the bath refrigeration mode, the first driving piece can drive the first air deflector to rotate to an upward inclined state, and the second driving piece can drive the second air deflector to rotate to an upward inclined state.

Optionally, the air guiding assembly is configured to: under a rapid heating mode, the first driving piece can drive the first air deflector to rotate to a horizontal state, and the second driving piece can drive the second air deflector to rotate to the horizontal state; and/or, in the carpet heating mode, the first driving piece can drive the first air deflector to rotate to a downward inclined state, and the second driving piece can drive the second air deflector to rotate to a downward inclined state; and/or under the encircling heating mode, the first driving piece can drive the first air deflector to rotate to an upward inclined state, and the second driving piece can drive the second air deflector to rotate to a downward inclined state.

Optionally, the air outlet panel further comprises a wind sweeping assembly, the wind sweeping assembly comprises a plurality of wind sweeping blades, a wind sweeping connecting rod and a wind sweeping driving piece, and the wind sweeping blades are provided with a plurality of ventilation holes which are uniformly distributed; the wind sweeping blades can be rotationally connected to the wind sweeping connecting rod around an axis parallel to the height direction of the ventilation opening, the output end of the wind sweeping driving piece is connected to the wind sweeping connecting rod, and the wind sweeping connecting rod can be driven to drive the wind sweeping blades to synchronously rotate.

In a second aspect, an embodiment of the present application further provides an air duct machine, where the air duct machine includes a casing and an air outlet panel as described above, and an air outlet is provided on the casing, where the air outlet panel is installed at the air outlet and a vent in the air outlet panel is disposed opposite to the air outlet.

The air-out panel and the tuber pipe machine that this embodiment provided through the first aviation baffle and the second aviation baffle with wind-guiding subassembly all can set up in vent department around being on a parallel with vent length direction's axis rotation to make first aviation baffle and second aviation baffle follow the high direction interval arrangement of vent, thereby under the refrigeration anti-condensation mode, accessible first driving piece drive first aviation baffle rotates to the tilt up state, and rotate with making the second aviation baffle circulate and switch between tilt up state and downward slope state through second driving piece drive second aviation baffle, avoid panel main part's upper and lower edge to produce the condensation under the refrigeration operating mode from this, the problem that the panel main part upper and lower edge of air-out panel produced the condensation under the refrigeration operating mode has been solved, refrigeration ability and refrigeration travelling comfort have been guaranteed simultaneously.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive effort to a person skilled in the art.

For a more complete understanding of the present application and the advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings. Wherein like reference numerals refer to like parts throughout the following description.

Fig. 1 is a schematic structural diagram of an air outlet panel according to an embodiment of the present application.

Fig. 2 is an exploded view of the air outlet panel shown in fig. 1.

Fig. 3 is a schematic structural diagram of an air outlet panel in a fast cooling mode according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of an air outlet panel in a shower cooling mode according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of an air outlet panel in a refrigeration condensation preventing mode according to an embodiment of the present application.

Fig. 6 is a schematic structural diagram of an air outlet panel in a rapid heating mode according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of an air outlet panel in a carpet heating mode according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of an air outlet panel provided in an embodiment of the present application in an encircling heating mode.

Fig. 9 is a schematic structural diagram of an air outlet panel in a soft air mode according to an embodiment of the present application.

Reference numerals illustrate:

100. a panel main body; 101. a vent; 110. a display screen; 210. a first air deflector; 220. a second air deflector; 240. a first driving member; 250. a second driving member; 260. an air guide connecting rod; 271. a first rotating shaft; 272. a second rotating shaft; 280. a shaft sleeve; 300. a bracket; 400. a wind sweeping component; 410. wind sweeping blades; 420. a wind sweeping connecting rod; 430. and the wind sweeping driving piece.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

The embodiment of the application provides an air outlet panel, as shown in fig. 1-9, the air outlet panel includes a panel main body 100 and an air guiding assembly, a ventilation opening 101 is formed on the panel main body 100, the air guiding assembly includes a first air guiding plate 210, a second air guiding plate 220, a first driving member 240 and a second driving member 250, the first air guiding plate 210 and the second air guiding plate 220 are both rotatably arranged at the ventilation opening 101 around an axis parallel to a length direction a of the ventilation opening 101, the first air guiding plate 210 and the second air guiding plate 220 are arranged at intervals along a height direction B of the ventilation opening 101, and the first driving member 240 and the second driving member 250 are both arranged on the panel main body 100; as shown in fig. 5, the air guiding assembly is configured to: in the cooling condensation preventing mode, the first driving member 240 can drive the first air deflector 210 to rotate to an upwardly inclined state, and the second driving member 250 can drive the second air deflector 220 to rotate to cyclically switch the second air deflector 220 between the upwardly inclined state and the downwardly inclined state. Wherein, the first driving member 240 and the second driving member 250 may be motors.

According to the air outlet panel, the first air deflector 210 and the second air deflector 220 of the air guide assembly can be rotationally arranged at the air vent 101 around the axis parallel to the length direction A of the air vent 101, and the first air deflector 210 and the second air deflector 220 are arranged at intervals along the height direction B of the air vent 101, so that in a refrigeration condensation prevention mode, the first air deflector 210 can be driven to rotate to an upward inclination state by the first driving piece 240, and the second air deflector 220 can be driven to rotate by the second driving piece 250 so that the second air deflector 220 can be circularly switched between the upward inclination state and the downward inclination state, thereby avoiding condensation generated at the upper edge and the lower edge of the panel main body 100 of the air outlet panel under refrigeration working conditions, and simultaneously guaranteeing refrigeration capacity and refrigeration comfort.

The conventional air duct machine adopts a simple horizontal and vertical grid structure and has no automatic air sweeping function, cold air can be blown out only towards the horizontal direction in a refrigerating mode, refrigerating comfort is poor, and the temperature of the upper edge and the lower edge of the panel main body 100 can be higher than the ambient temperature due to the fact that the ambient temperature can be quickly reduced by the cold air with low temperature, so that a large temperature difference exists between the panel main body and the ambient temperature, and the upper edge and the lower edge of the panel main body 100 are easy to generate a condensation phenomenon in the refrigerating mode. This application is through setting up first driving piece 240 drive first aviation baffle 210 and rotate to the tilt up state, and second driving piece 250 drive second aviation baffle 220 rotates simultaneously so that second aviation baffle 220 is in tilt up state and tilt down between the state circulation switch, makes the cold wind of vent 101 department partly upwards supply air, and partly circulate between upwards supply air and downwards supply air to avoid producing the condensation phenomenon because of the temperature of panel main part 100 upper and lower edge is higher than ambient temperature, can promote the refrigeration travelling comfort again simultaneously.

It should be noted that, the "upward inclination" mentioned in the present application refers to upward inclination from back to front, and the "downward inclination" mentioned in the present application refers to downward inclination from back to front. Wherein, the panel main body 100 is equipped with a display 110 for displaying parameters such as temperature, humidity, etc., for a user to use. Of course, in other implementations, the display screen 110 may not be provided, and may specifically be provided according to actual requirements. The first air deflector 210 and the second air deflector 220 may be elongated air deflectors with a length direction parallel to the length direction a of the ventilation opening 101, and the first air deflector 210 and the second air deflector 220 have a plurality of states, so that the air outlet panel has a plurality of air supply modes.

Specifically, the air guide assembly is configured to: in the cooling condensation preventing mode, the second driving member 250 can drive the second air deflector 220 to rotate to a downwardly inclined state after the second air deflector 220 rotates to an upwardly inclined state for a first preset time, and the second driving member 250 can drive the second air deflector 220 to rotate to an upwardly inclined state after the second air deflector 220 rotates to a downwardly inclined state for a second preset time, wherein the first preset time is longer than the second preset time.

For example, the air guide assembly may be configured to: in the cooling condensation preventing mode, after the second air deflector 220 rotates to an upward inclined state to guide air upward for 10 to 20 minutes, the second driving member 250 can drive the second air deflector 220 to rotate to a downward inclined state to guide air downward, and after the second air deflector 220 guides air downward for 1 to 2 minutes to cool the lower edge of the panel body, the second driving member 250 can drive the second air deflector 220 to rotate to an upward inclined state to guide air upward, and the circulation is repeated in such a way, thereby solving the problem that condensation is generated at the upper and lower edges of the panel body 100 under the cooling condition, and simultaneously ensuring the cooling comfort and the cooling capacity.

Optionally, the air guiding assembly is further configured to: in the fast cooling mode, the first driving member 240 can drive the first air deflector 210 to rotate to a horizontal state to supply air horizontally toward the space, and the second driving member 250 can drive the second air deflector 220 to rotate to a horizontal state to supply air horizontally toward the space, as shown in fig. 3; and/or, in the shower cooling mode, the first driving member 240 can drive the first air guide plate 210 to rotate to an upwardly inclined state to blow air obliquely upward, and the second driving member 250 can drive the second air guide plate 220 to rotate to an upwardly inclined state to blow air obliquely downward, as shown in fig. 4.

Optionally, the air guiding assembly is further configured to: in the rapid heating mode, the first driving member 240 can drive the first air deflector 210 to rotate to a horizontal state, and the second driving member 250 can drive the second air deflector 220 to rotate to a horizontal state, as shown in fig. 6; and/or, in the carpet heating mode, the first driving member 240 can drive the first air deflector 210 to rotate to a downward inclined state, and the second driving member 250 can drive the second air deflector 220 to rotate to a downward inclined state, as shown in fig. 7; and/or, in the encircling heating mode, the first driving member 240 can drive the first air deflector 210 to rotate to an upwardly inclined state, and the second driving member 250 can drive the second air deflector 220 to rotate to a downwardly inclined state, as shown in fig. 8.

In some embodiments of the present application, the number of the second air deflectors 220 may be multiple, and the number of the first air deflectors 210 is less than that of the second air deflectors 220, so that the air outlet dispersibility of the ventilation opening 101 can be reduced, the air loss is reduced, the refrigerating and heating effects are ensured, and the comfort is improved. Specifically, when the air guide assembly includes a plurality of second air guide plates 220, the plurality of second air guide plates 220 are connected by air guide links 260; the output end of the second driving member 250 is connected with the air guide connecting rod 260, and can drive the air guide connecting rod 260 to drive the plurality of second air deflectors 220 to synchronously rotate, so that the function of driving the plurality of second air deflectors 220 to rotate through one driving member is realized, the number of the second driving members 250 can be reduced, and the equipment cost is reduced.

As shown in fig. 1-9, the air guiding assembly includes a first air guiding plate 210 and two second air guiding plates 220, and the output end of the first driving member 240 is connected to the first air guiding plate 210 and can drive the first air guiding plate 210 to rotate; the two second air deflectors 220 are connected through an air guiding connecting rod 260, and the output end of the second driving piece 250 is connected with the air guiding connecting rod 260 and can drive the air guiding connecting rod 260 to drive the two second air deflectors 220 to synchronously rotate. Of course, in other embodiments, the number of the first air deflectors 210 and the second air deflectors 220 may be other, for example, the number of the first air deflectors 210 and the second air deflectors 220 is one, or the number of the first air deflectors 210 and the second air deflectors 220 is one and three, or the number of the first air deflectors 210 and the second air deflectors 220 is two and three, or the number of the first air deflectors 210 and the second air deflectors 220 is one and four, which may be specifically set according to practical requirements, so long as the number of the first air deflectors 210 is ensured not to exceed the number of the second air deflectors 220. Optionally, to provide more precise air outlet effect control, the total number of the first air deflection plates 210 and the second air deflection plates 220 may be set to four or more, so as to achieve more uniform air outlet control.

In some embodiments of the present application, the first air deflector 210 is provided with a first rotating shaft 271 at both ends, the second air deflector 220 is provided with a second rotating shaft 272 at both ends, and the axial directions of the first rotating shaft 271 and the second rotating shaft 272 are parallel to the length direction a of the ventilation opening 101; the panel body 100 is provided with a first shaft hole and a second shaft hole at opposite sides thereof, the first shaft 271 is rotatably inserted into the first shaft hole to enable the first air deflector 210 to rotate around the first shaft 271, and the second shaft 272 is rotatably inserted into the second shaft hole to enable the second air deflector 220 to rotate around the second shaft 272. Wherein, a sleeve 280 may be disposed between the first shaft 271 and the first shaft hole to improve smoothness when the first shaft 271 rotates, and similarly, a sleeve 280 may be disposed between the second shaft 272 and the second shaft hole to improve smoothness when the second shaft 272 rotates.

For example, taking the first driving member 240 and the second driving member 250 as a first motor and a second motor respectively as examples, the first rotating shafts 271 on two sides of the first air deflector 210 are limited in the corresponding first shaft holes, and the rotating shafts of the first motors are directly connected with one of the first rotating shafts 271 and can drive the first rotating shafts 271 to drive the first air deflector 210 to rotate around the central axis of the first rotating shaft 271; the second rotating shafts 272 at two sides of the second air deflector 220 are limited in the corresponding second shaft holes, when the number of the first air deflector 210 is one, the rotating shafts of the second motor are directly connected with one of the second rotating shafts 272, and the second rotating shafts 272 can be driven to drive the second air deflector 220 to rotate around the central axis of the second rotating shaft 272; when the number of the first air deflectors 210 is plural, the plurality of second air deflectors 220 are connected through the air guiding connecting rod 260, and the rotating shaft of the second motor is directly connected with the air guiding connecting rod 260, and can drive the air guiding connecting rod 260 to drive the plurality of second air deflectors 220 to synchronously rotate around the central axis of the corresponding second rotating shaft 272.

Optionally, the air outlet panel further includes a bracket 300, where the bracket 300 is located at the middle of the air vent 101 and extends along the height direction B of the air vent 101, and the middle of the first air deflector 210 and the middle of the second air deflector 220 are rotationally connected with the bracket 300. Because can lead to the middle part of aviation baffle to collapse downwards and warp when the length overlength of aviation baffle, the aviation baffle warp the back and interfere with other aviation baffles when rotating easily, consequently this application has set up above-mentioned support 300, can avoid leading to the middle part of first aviation baffle 210 and second aviation baffle 220 to collapse downwards and warp because of the length overlength of first aviation baffle 210 and second aviation baffle 220 through setting up support 300, improves the structural stability of first aviation baffle 210 and second aviation baffle 220 from this.

Specifically, the support 300 includes a support 300 main body and a plurality of connection plates, the support 300 main body extends along the height direction B of the ventilation opening 101, the plurality of connection plates are sequentially arranged on the support 300 main body along the height direction B of the ventilation opening 101, and the first air deflector 210 and the second air deflector 220 are rotatably connected with the plurality of connection plates in a one-to-one correspondence manner through a third rotating shaft.

In some embodiments of the present application, the air outlet panel further includes a wind sweeping assembly 400, as shown in fig. 2, the wind sweeping assembly 400 includes a plurality of wind sweeping blades 410, a wind sweeping connecting rod 420 and a wind sweeping driving member 430, and the wind sweeping blades 410 are provided with a plurality of ventilation holes uniformly distributed; the plurality of wind sweeping blades 410 are rotatably connected to the wind sweeping connecting rod 420 around an axis parallel to the height direction B of the ventilation opening 101, and the output end of the wind sweeping driving member 430 is connected to the wind sweeping connecting rod 420 and can drive the wind sweeping connecting rod 420 to drive the plurality of wind sweeping blades 410 to rotate synchronously. By providing the wind sweeping assembly 400 of the above structure, a soft wind function and a wind sweeping function can be realized. Specifically, as shown in fig. 9, when the wind sweeping driving member 430 drives the wind sweeping connecting rod 420 to drive the plurality of wind sweeping blades 410 to synchronously rotate to the position with the largest wind receiving area, the wind outlet can be sent out from the through hole after passing through the ventilation hole, so as to realize the soft wind function; as shown in fig. 1, when the wind sweeping driving part 430 drives the wind sweeping connecting rod 420 to drive the plurality of wind sweeping blades 410 to rotate back and forth synchronously, a wind sweeping function can be realized. Wherein, the wind sweeping driving part 430 may be a motor.

The embodiment of the application also provides an air duct machine, which comprises an air outlet panel, wherein the specific structure of the air outlet panel refers to the embodiment, an air outlet is formed in the casing, and the air outlet panel is arranged at the air outlet and the ventilation opening 101 in the air outlet panel is arranged opposite to the air outlet. Because the air duct machine adopts all the technical schemes of all the embodiments, the air duct machine at least has all the beneficial effects brought by the technical schemes of the embodiments, and the detailed description is omitted.

Specifically, the ducted air machine further includes a temperature sensor disposed on the chassis and in communication with the first and second drivers 240, 250. When the air duct machine is in a refrigeration mode and no wind-shielding requirement exists, as shown in fig. 3, the first air deflector 210 and the second air deflector 220 rotate to a horizontal state at the same time in the initial stage of refrigeration, and cold air is horizontally sent out through the first air deflector 210 and the second air deflector 220, so that the maximum air quantity and the furthest-distance air supply are realized for rapid refrigeration; when the temperature sensor detects that the ambient temperature is close to the set temperature, as shown in fig. 4, the first air deflector 210 and the second air deflector 220 are both rotated to an upward inclined state to guide air, and cold air is sent out obliquely upwards through the first air deflector 210 and the second air deflector 220, so that a bath type refrigeration effect is realized, refrigeration comfort is greatly improved, and meanwhile, direct blowing of the cold air is avoided; as shown in fig. 5, after the first preset time (for example, 10 to 20 minutes) of continuous cooling, the second air deflector 220 rotates to a downward inclined state to guide cold air to the lower edge of the panel body 100, and after the downward inclined state of the second air deflector 220 continues to blow the lower edge of the panel body for the second preset time (for example, 1 to 2 minutes), the second air deflector 220 rotates to an upward inclined state again to send cold air obliquely upward, and after the first preset time (for example, 10 to 20 minutes) the second air deflector 220 rotates to a downward inclined state again, so that the reciprocating cycle is performed, thereby solving the problem of condensation on the upper and lower edges of the panel body 100 in the cooling mode and simultaneously ensuring cooling comfort and cooling capacity.

When the air duct machine is in a heating mode, as shown in fig. 6, the first air guide plate 210 and the second air guide plate 220 rotate to a horizontal state at the same time in the initial stage of heating, and hot air is horizontally sent out through the first air guide plate 210 and the second air guide plate 220, so that the maximum air quantity and the furthest-distance air supply are realized to quickly heat; when the temperature sensor detects that the ambient temperature is close to the set temperature, as shown in fig. 7, the first air deflector 210 and the second air deflector 220 are both rotated to a downward inclined state to guide air, and hot air is sent out obliquely downwards through the first air deflector 210 and the second air deflector 220, so that a carpet type heating effect is achieved, and heating comfort is improved. In addition, as shown in fig. 8, the first air deflector 210 may also rotate to an upward inclined state, and the second air deflector 220 simultaneously rotates to a downward inclined state, so that air in the upward, middle and lower directions of the air outlet can be simultaneously blown, and the surrounding type air blowing experience is realized, so as to meet different use requirements of consumers.

To sum up, this application is through setting up independent automatic control's first aviation baffle 210 and second aviation baffle 220 in the vent 101 department of air-out panel, rotate to different states through control first aviation baffle 210 and second aviation baffle 220 under different operating mode modes, the problem that the upper and lower edge produced the condensation of panel main part 100 of air-out panel has been solved in the promotion refrigeration and heating travelling comfort, can also realize multiple air supply functions such as shower-type refrigeration air supply, carpet formula heating air supply and encircling air supply simultaneously, satisfy multiple user's user demand, thereby promote product core competitiveness, and is simple structure is reliable simultaneously, and the realization is with low costs, does benefit to popularization.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

In the description of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first," "second," etc. may explicitly or implicitly include one or more features. The term "and/or" includes any and all combinations of one or more of the associated listed items.

The air outlet panel and the air duct machine provided by the embodiment of the present application are described in detail, and specific examples are applied to illustrate the principle and the implementation of the present application, and the description of the above embodiments is only used for helping to understand the method and the core idea of the present application; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the ideas of the present application, the contents of the present specification should not be construed as limiting the present application in summary.

Claims (10)

1. The utility model provides an air-out panel, its characterized in that includes panel main part (100) and air guide subassembly, be formed with vent (101) on panel main part (100), air guide subassembly includes first aviation baffle (210), second aviation baffle (220), first driving piece (240) and second driving piece (250), first aviation baffle (210) with second aviation baffle (220) are all can around being parallel to the axis rotation of vent (101) length direction set up vent (101) department, first aviation baffle (210) with second aviation baffle (220) are followed vent (101) highly direction interval arrangement, first driving piece (240) with second driving piece (250) all set up on panel main part (100);

the air guide assembly is configured to: in the refrigeration condensation preventing mode, the first driving piece (240) can drive the first air deflector (210) to rotate to an upward inclined state, and the second driving piece (250) can drive the second air deflector (220) to rotate so that the second air deflector (220) can be circularly switched between the upward inclined state and the downward inclined state.

2. The air outlet panel of claim 1, wherein the air guide assembly is configured to:

under the refrigeration condensation preventing mode, the second driving piece (250) can drive the second air deflector (220) to rotate to a downward inclined state after the second air deflector (220) rotates to an upward inclined state for a first preset time, and can drive the second air deflector (220) to rotate to an upward inclined state after the second air deflector (220) rotates to a downward inclined state for a second preset time, and the first preset time is longer than the second preset time.

3. The air outlet panel according to claim 1, wherein the air guiding assembly comprises a plurality of the second air guiding plates (220), the plurality of second air guiding plates (220) being connected by air guiding links (260); the output end of the second driving piece (250) is connected with the air guide connecting rod (260), and the air guide connecting rod (260) can be driven to drive the plurality of second air deflectors (220) to synchronously rotate.

4. The air outlet panel according to claim 1, wherein both ends of the first air deflector (210) are provided with a first rotating shaft (271), and both ends of the second air deflector (220) are provided with a second rotating shaft (272); the panel main body (100) is provided with a first shaft hole and a second shaft hole on two opposite sides, the first rotating shaft (271) is rotatably arranged in the first shaft hole in a penetrating mode, and the second rotating shaft (272) is rotatably arranged in the second shaft hole in a penetrating mode so that the second air deflector (220) can be arranged in a penetrating mode.

5. The air outlet panel according to claim 1, further comprising a bracket (300), wherein the bracket (300) is located at a middle portion of the ventilation opening (101) and extends along a height direction of the ventilation opening (101), and the middle portions of the first air deflector (210) and the second air deflector (220) are rotatably connected with the bracket (300).

6. The air outlet panel according to claim 5, wherein the bracket (300) comprises a bracket (300) body and a plurality of connection plates, the bracket (300) body extends along the height direction of the ventilation opening (101), the plurality of connection plates are sequentially arranged on the bracket (300) body along the height direction of the ventilation opening (101), and the first air deflector (210) and the second air deflector (220) are in one-to-one rotary connection with the plurality of connection plates through a third rotary shaft.

7. The air outlet panel of claim 1, wherein the air guide assembly is configured to:

in a rapid refrigeration mode, the first driving piece (240) can drive the first air deflector (210) to rotate to a horizontal state, and the second driving piece (250) can drive the second air deflector (220) to rotate to the horizontal state;

and/or, in the bath refrigeration mode, the first driving piece (240) can drive the first air deflector (210) to rotate to an upward inclined state, and the second driving piece (250) can drive the second air deflector (220) to rotate to an upward inclined state.

8. The air outlet panel of claim 1, wherein the air guide assembly is configured to:

in a rapid heating mode, the first driving piece (240) can drive the first air deflector (210) to rotate to a horizontal state, and the second driving piece (250) can drive the second air deflector (220) to rotate to a horizontal state;

and/or, in the carpet heating mode, the first driving piece (240) can drive the first air deflector (210) to rotate to a downward inclined state, and the second driving piece (250) can drive the second air deflector (220) to rotate to a downward inclined state;

and/or, in the encircling heating mode, the first driving piece (240) can drive the first air deflector (210) to rotate to an upward inclined state, and the second driving piece (250) can drive the second air deflector (220) to rotate to a downward inclined state.

9. The air outlet panel according to claim 1, further comprising a wind sweeping assembly (400), wherein the wind sweeping assembly (400) comprises a plurality of wind sweeping blades (410), a wind sweeping connecting rod (420) and a wind sweeping driving piece (430), and a plurality of ventilation holes which are uniformly distributed are formed in the wind sweeping blades (410); the wind sweeping blades (410) can be rotationally connected to the wind sweeping connecting rod (420) around an axis parallel to the height direction of the ventilation opening (101), the output end of the wind sweeping driving piece (430) is connected with the wind sweeping connecting rod (420), and the wind sweeping connecting rod (420) can be driven to drive the wind sweeping blades (410) to synchronously rotate.

10. An air duct machine, characterized in that the air duct machine comprises a casing and an air outlet panel according to any one of claims 1 to 9, wherein an air outlet is formed in the casing, the air outlet panel is installed at the air outlet, and a ventilation opening (101) in the air outlet panel is arranged opposite to the air outlet.