CN218884229U - Bidirectional air deflector structure and air conditioner thereof - Google Patents

Abstract

The utility model discloses a two-way aviation baffle structure and air conditioner thereof, including first aviation baffle and second aviation baffle, first aviation baffle is equipped with first connecting portion, be equipped with the second connecting portion on the second aviation baffle, first connecting portion with second connecting portion swing joint, so that first aviation baffle and the second aviation baffle is different angle settings. An air conditioner comprises an air conditioner main machine, wherein the air conditioner main machine is provided with a first air outlet and a second air outlet, and the first air outlet is used for guiding airflow out along a first direction; the second air outlet is used for guiding the airflow out along a second direction; the first direction and the second direction form an included angle; the bidirectional air guide plate structure is provided. The utility model discloses a set up first air outlet and second air outlet on the air conditioner host computer, cooperate first aviation baffle and second aviation baffle to carry out the wind-guiding in two directions.

Description

Bidirectional air deflector structure and air conditioner thereof

Technical Field

The utility model relates to an air conditioner technical field especially relates to a two-way aviation baffle structure and air conditioner thereof.

Background

At present, a common air conditioner is generally provided with an air outlet which is only provided with an air deflector, the structure of the air deflector is fixed and can not be changed, when the air conditioner rotates, the adjustment of the air outlet direction can be realized only by the up-and-down rotation or the left-and-right rotation of the air deflector, and the air outlet can be generally led out in the horizontal direction or the vertical direction, so that even if the air deflector can swing up and down or swing left and right, the adjustment of the air supply direction is limited, and the air outlet angle during the refrigeration and heating can not completely meet the corresponding requirements.

Particularly, if the air outlet is in the horizontal direction, after the air conditioner is assembled, if the air outlet faces the user, even if the air guiding direction is adjusted, the air outlet may face the user. The existing air conditioner generally realizes wind shielding by additionally installing a wind shielding plate structure, but the wind shielding plate structure not only needs to be additionally purchased, and the use cost is increased. And the air conditioner appearance is also easily caused to be inconsistent after the air conditioner is additionally installed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, an object of the present invention is to provide a bidirectional air guiding plate structure, which can guide air in two directions by setting a first air guiding plate and a second air guiding plate, and the angles of the two air guiding plates are adjustable.

A second object of the utility model is to provide an air conditioner, set up first air outlet and second air outlet on its air conditioner host computer, cooperate first aviation baffle and second aviation baffle to wind at two orientations.

The utility model discloses an one of the purpose adopts following technical scheme to realize:

a bidirectional air deflector structure comprises a first air deflector and a second air deflector, wherein the first air deflector is provided with a first connecting portion, the second air deflector is provided with a second connecting portion, and the first connecting portion and the second connecting portion are movably connected, so that the first air deflector and the second air deflector are arranged at different angles.

Furthermore, the first connecting portion and the second connecting portion are rotatably connected, so that the first air deflector and the second air deflector rotate relatively and are arranged at different angles.

Furthermore, the first air deflector is arranged at an included angle A after rotating relative to the second air deflector; the included angle A is more than or equal to 0 ⁰ The included angle A is less than or equal to 180 DEG ⁰ 。

Furthermore, a rotating groove is formed in the first air deflector, and shaft holes are formed in two side walls of the rotating groove; a rotary seat is arranged on the second air deflector, and rotating shafts are arranged on two sides of the rotary seat; the rotary seat is arranged in the rotary groove, and the rotary shaft is rotatably connected in the shaft hole in a penetrating manner; the shaft hole is formed as the first connection part; the rotation shaft is formed as the second connection portion.

Furthermore, the bidirectional air deflector structure also comprises a driving assembly, wherein the driving assembly comprises a motor and a gear transmission mechanism, and a rotating shaft of the motor is connected with input teeth of the gear transmission mechanism; and the output teeth of the gear transmission mechanism are connected with the rotating shaft.

Furthermore, the first air deflector and/or the second air deflector are/is provided with an anti-condensation piece, and the first air deflector and the second air deflector are both provided with an air guide surface and a leeward surface; the anti-condensation piece is arranged on the air guide surface of the first air guide plate and/or the second air guide plate; the condensation preventing piece is used for slowing down the air flow to flow towards the leeward side when the flow guide surfaces of the first air guide plate and the second air guide plate guide the flow.

Further, an assembly area is formed between the first air deflector and the second air deflector after the first air deflector and the second air deflector are connected through the first connecting portion and the second connecting portion; the anti-condensation piece covers the assembly area.

Furthermore, an assembly area is formed between the first air deflector and the second air deflector after the first air deflector and the second air deflector are connected through the first connecting part and the second connecting part; the anti-condensation piece is arranged on one side of the assembly area.

The second purpose of the utility model is realized by adopting the following technical scheme:

an air conditioner, comprising a plurality of air-conditioning units,

the air conditioner main machine is provided with a first air outlet and a second air outlet, and the first air outlet is used for guiding airflow out along a first direction; the second air outlet is used for guiding the air flow out along a second direction; the first direction and the second direction form an included angle;

in the bidirectional air deflector structure, the first air deflector is arranged at the first air outlet, and the second air deflector is arranged at the second air outlet; the first air deflector and the second air deflector are used for guiding air to flow through the first air outlet and/or the second air outlet and then to be led out.

Furthermore, a limiting part is arranged on the air conditioner main machine; the limiting part is used for being abutted against the first air deflector or the second air deflector.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the first air deflector and the second air deflector of the bidirectional air deflector structure can be movably connected through the first connecting part and the second connecting part, so that the first air deflector and the second air deflector can be arranged at different angles, the horizontal air outlet, the angle air outlet and the vertical air outlet of the air deflectors can be adjusted according to different operation modes of the air conditioner, meanwhile, the first air deflector and the second air deflector can also be used as extension plates of each other, the length of an air outlet channel can be increased, air conditioning air can be sent farther, and the temperature changing efficiency of the air conditioner is accelerated.

2. The air conditioner host is provided with the first air outlet and the second air outlet, the first air outlet can guide air in the first direction, and the second air outlet can guide air in the second direction, so that the air conditioner host can have two air outlet directions and can exhaust air in different directions.

3. The first air deflector of the bidirectional air deflector structure is assembled to the first air outlet, the second air deflector is assembled to the second air outlet, and the first air deflector and the second air deflector are movably connected through the first connecting portion and the second connecting portion, so that horizontal air outlet, angle air outlet and vertical air outlet of the two air deflectors can be adjusted according to different operation modes of the air conditioner.

Drawings

Fig. 1 is a schematic structural view of a double air guide plate of the present invention;

FIG. 2 is a schematic structural view of the double air guide plate of the present invention;

fig. 3 is a schematic view of a partially exploded structure of the dual air guide plate of the present invention;

fig. 4 is a schematic structural view of one of the condensation preventing members of the dual air guide plate of the present invention;

fig. 5 is another schematic structural view of the anti-condensation member of the dual air guide plate of the present invention;

fig. 6 is a schematic structural view of a first air deflector of the present invention;

fig. 7 is a schematic structural view of a second air deflector of the present invention;

fig. 8 is a schematic structural view of the air conditioner of the present invention;

fig. 9 is a schematic structural diagram of the main air conditioner of the present invention.

In the figure: 10. a first air deflector; 11. a rotating groove; 111. a shaft hole; 20. a second air deflector; 21. rotating; 211. a rotating shaft; 22. a condensation-preventing member; 30. a drive assembly; 31. a motor; 32. a gear transmission mechanism; 40. a limiting part; 50. an air conditioner main machine; 51. a first air outlet; 52. and a second air outlet.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 9, a bidirectional air guiding plate structure includes a first air guiding plate 10 and a second air guiding plate 20, wherein the first air guiding plate 10 is provided with a first connecting portion, the second air guiding plate 20 is provided with a second connecting portion correspondingly, the first connecting portion and the second connecting portion are movably connected, and after the first connecting portion and the second connecting portion are movably connected, the first air guiding plate 10 and the second air guiding plate 20 can be arranged at different angles.

On the basis of the structure, when the bidirectional air deflector structure of the utility model is used, the bidirectional air deflector structure can be applied to the structures which need to be guided by the outlet air, such as an air conditioner, an air conditioning fan, a humidifier, a fan, etc., in the specific embodiment, the bidirectional air deflector structure can be applied to the air outlet of the air conditioner as an example,

the air-conditioning main unit 50 is provided with an air outlet channel, two adjacent surfaces of the air outlet channel can be respectively provided with a first air outlet 51 and a second air outlet 52, the bidirectional air deflector structure can be installed on the air-conditioning main unit 50, the first air deflector 10 and the second air deflector 20 can be vertically arranged after being movably connected through the first connecting portion and the second connecting portion, in this state, the first air deflector 10 can be covered at the first air outlet 51, and the second air deflector 20 can be covered at the second air outlet 52.

When the first air outlet 51 is needed to discharge air, cold air or hot air in the air conditioner main unit 50 is guided out through the first air outlet 51, at this time, the first air deflector 10 may be opened away from the first air outlet 51, and the first air deflector 10 may move relative to the second connecting portion through the first connecting portion at this time, so that the first air deflector 10 is opened at an angle relative to the second air deflector 20.

When the second air outlet 52 is needed to discharge air, the hot air or the cold air in the air conditioner main unit 50 is guided out through the second air outlet 52, at this time, the second air guiding plate 20 may be opened away from the second air outlet 52, and the first air guiding plate 10 may move relative to the first connecting portion through the second connecting portion at this time, so that the angle of the second air guiding plate 20 relative to the first air guiding plate 10 is opened.

Certainly, the first connecting portion may move relative to the second connecting portion, so that the first air deflector 10 and the second air deflector 20 are folded mutually, that is, the second air deflector 20 is folded close to the first air deflector 10, and at this time, the second air outlet 52 is opened; or the first air guiding plate 10 may be folded close to the second air guiding plate 20, and the first air outlet 51 is opened at this time.

In addition, the first connecting part can move relative to the second connecting part, so that the first air deflector 10 and the second air deflector 20 are in a mutually unfolded state, namely the first air deflector 10 and the second air deflector 20 can be mutually used as extension plates of each other, the length of an air outlet channel can be increased, air-conditioned air can be sent farther, and the temperature changing efficiency of the air conditioner is accelerated.

In the case of the example 1, the following examples are given,

in the embodiment, the first connecting portion and the second connecting portion are used as a rotatable connecting member, that is, when the first air guiding plate 10 and the second air guiding plate 20 are assembled, the first connecting portion and the second connecting portion are rotatably connected to each other, and the first air guiding plate 10 and the second air guiding plate 20 are rotatably matched to each other, so that different angle settings of the first air guiding plate 10 and the second air guiding plate 20 can be realized.

Specifically, the first air guiding plate 10 can be disposed at an included angle a after rotating relative to the second air guiding plate 20, and the included angle a is greater than or equal to 0 ⁰ The included angle A is less than or equal to 180 DEG ⁰ 。

The angle A is 0 ⁰ 、90 ⁰ 、180 ⁰ For the purpose of illustration, it is to be understood that,

at an included angle A equal to 0 ⁰ When the first air guiding plate 10 and the second air guiding plate 20 rotate to the mutually attached state, the first air guiding plate is in a first using stateAt this time, the first air guiding plate 10 may rotate to be attached to the second air guiding plate 20, at this time, the first air outlet 51 may be opened, the second air outlet 52 may be closed, and the air conditioner may be in the first direction in the air outlet direction. The second air guiding plate 20 may rotate to be attached to the first air guiding plate 10, at this time, the second air outlet 52 is opened, the first air outlet 51 is closed, and the air outlet direction of the air conditioner is the second direction. That is, the angle adjustment can be achieved by rotating the first wind deflector 10 or the second wind deflector 20.

At an included angle A equal to 90 ⁰ In this case, the first air outlet 51 and the second air outlet 52 of the air conditioner are in the horizontal direction and the vertical direction, so when the first air outlet 10 and the second air outlet 20 are in the vertical state, the first air outlet 51 can be sealed by the first air outlet 10, and the second air outlet 52 can be sealed by the second air outlet 20, and at this time, both the two air outlets of the air conditioner main unit 50 are in the sealed state.

At an included angle A equal to 180 ⁰ In this case, the first air deflector 10 and the second air deflector 20 are integrally rotated and can be used for guiding the air of the first air outlet 51 and/or the second air outlet 52, so that the length of an air outlet channel can be increased, the air-conditioned air can be sent farther, and the temperature changing efficiency of the air conditioner is accelerated.

Specifically, when the first air deflector 10 and the second air deflector 20 integrally rotate to be in an inclined state, the first air deflector 10 is away from the first air outlet 51 and is opened outwards, and at the moment, the second air deflector 20 is positioned at the inner side of the air-conditioning main unit 50, in this state, the air guide duct inside the air-conditioning main unit is formed by matching the first air deflector and the second air deflector with a cavity structure inside the main unit, the first air deflector is used as an outward extending part of the air guide duct, and the airflow can be partially led out from the upper parts of the second air deflector and the first air deflector through the first air outlet; in addition, part of the air flow can be led out from the second air deflector and the lower part of the first air deflector through the second air outlet, and the air guiding length of the air flow is formed by combining the first air deflector and the second air deflector no matter which air outlet is led out from which air outlet.

Certainly, under another condition, the first air deflector and the second air deflector are unfolded at 180 degrees, so that the second air deflector is outwards far away from the second air outlet to rotate, the first air deflector rotates towards the position close to the first air outlet until the sealing cover is covered at the first air outlet, at the moment, the second air deflector and the first air deflector are also in an unfolded state at 180 degrees, an air channel which is parallel to the vertical surface and leads out air flow is formed by the first air deflector and the internal cavity of the air-conditioning main unit, at the moment, the air flow is vertically guided by the first air deflector and the second air deflector and is led out through the second air outlet, and in the state, the air outlet direction is in the vertical direction.

The other condition is that the first air deflector and the second air deflector are unfolded at 180 degrees, so that the second air deflector rotates towards the direction close to the second air outlet until the second air outlet is covered by the sealing cover, the first air deflector rotates towards the direction far away from the first air outlet, at the moment, the second air deflector and the first air deflector are also in an unfolded state at 180 degrees and are parallel to the horizontal plane, an air channel for guiding out the air flow is formed by the first air deflector and the internal cavity of the air-conditioning main unit, at the moment, the air flow is horizontally guided by the second air deflector and the first air deflector and is guided out through the first air outlet, and in the state, the air outlet direction is the horizontal direction.

Certainly, the included angle a between the first air deflector 10 and the second air deflector 20 may also be an acute angle or an obtuse angle, at this time, the first air deflector 10 and the second air deflector 20 may guide air at the first air outlet 51 or the second air outlet 52 at an angle, and during air guiding, the air flow may be guided by the first air deflector 10 and then guided out by the second air deflector 20 or guided by the second air deflector 20 and then guided out by the first air deflector 10.

Further, when switching the air-out direction:

the first air deflector and the second air deflector are respectively sealed at the first air outlet and the second air outlet, when the first air outlet is opened, the first air deflector can be rotated inwards to the second air outlet, the first air deflector is attached to the second air deflector above the second air deflector, at the moment, the second air outlet is sealed by the first air deflector together, or the first air deflector can be rotated outwards to the second air outlet, at the moment, the first air deflector is kept attached to the second air deflector below the second air deflector, and the second air outlet can be sealed similarly.

When the second air outlet is opened, the second guiding plate may rotate inwards to the first air guide plate, the second air guide plate is attached to the first air guide plate at the inner side, the first air outlet is sealed by the first air guide plate at the moment, or the second air guide plate rotates outwards to the first air outlet, the second air guide plate is attached to the second air guide plate at the outer side, and the first air outlet can be sealed similarly.

When horizontal wind-guiding and vertical wind-guiding switch are realized:

the first air deflector rotates to the horizontal position of the first air outlet, the second air deflector keeps closed at the second air outlet, and at the moment, air flow can be guided horizontally through the first air deflector in the horizontal state of the first air outlet.

The first air deflector rotates inwards to the horizontal position of the second air outlet, the second air deflector rotates outwards to the horizontal position of the first air outlet, the second air outlet is sealed by the first air deflector at the moment, air current can be guided by the second air deflector horizontally in the horizontal state of the first air outlet, during switching, the first air deflector can rotate to the vertical state towards the second air outlet outside the air-conditioning host, the second air deflector of the first air outlet can continue to rotate to the first air outlet in the outside of the air-conditioning host to seal the first air outlet in the vertical state, and at the moment, the air current can be guided by the first air deflector vertically in the vertical state of the second air outlet.

When the first air outlet and the second air outlet are switched, the rotating directions of the first air deflector and the second air deflector are not limited, and the first air deflector and the second air deflector can be selected according to actual needs.

Furthermore, in order to facilitate the rotatable assembly of the first air guiding plate 10 and the second air guiding plate 20, a rotating groove 11 may be further disposed on the first air guiding plate 10, and shaft holes 111 are disposed on both sidewalls of the rotating groove 11. In addition, a rotating base 21 is arranged on the second air deflector 20, and rotating shafts are arranged on two sides of the rotating base 21. Thus, when the second air deflector 20 is assembled, the rotary base 21 on the second air deflector 20 can be installed in the rotary groove 11, and the rotary shafts on both sides of the rotary base 21 can be correspondingly and rotatably inserted into the shaft holes 111 on both sides of the rotary groove 11, and on the basis of the structure, the shaft holes 111 form a first connecting part; the rotating shaft is formed as a second connecting portion.

That is, during the rotation, the rotatable connection between the first air deflector 10 and the second air deflector 20 can be realized by the rotation of the rotating shaft and the shaft hole 111, and after the assembly, the rotating base 21 is located in the rotating groove 11, so that the gap between the first air deflector 10 and the second air deflector 20 after the assembly can be reduced, and during the rotation, the rotating shaft and the shaft hole 111 located inside the rotating groove 11 are used to limit the rotation in the rotating groove 11, and the gap between the first air deflector 10 and the second air deflector 20 during the rotation can also be reduced.

Of course, the rotatable connection between the first and second wind deflectors 10 and 20 may be realized by a hinge structure, and two connection leaves of the hinge may be respectively formed as the first connection portion and the second connection portion.

Further, the bidirectional air guiding plate structure further includes a driving assembly 30, in this embodiment, the driving assembly 30 includes a motor 31 and a gear transmission mechanism 32, a rotating shaft of the motor 31 is connected with an input tooth of the gear transmission mechanism 32, and an output tooth of the gear transmission mechanism 32 is connected with the rotating shaft.

Specifically, in this embodiment, the gear transmission mechanism 32 includes a first gear, a second gear and a third gear, the first gear is connected to the rotating shaft of the motor 31, the second gear is engaged with the first gear, and the third gear is engaged with the second gear and connected to the rotating shaft, so that the rotating shaft of the motor 31 can rotate to drive the first gear, the first gear can rotate to drive the second gear, and then the third gear is driven to rotate, so as to drive the second air deflector 20 connected to the rotating shaft to rotate.

Of course, two motors 31 may be provided, the rotating shafts of the two motors 31 may be connected to the first air guiding plate 10 and the second air guiding plate 20, respectively, and the two motors 31 may realize that the first air guiding plate 10 and the second air guiding plate 20 realize independent rotation of the first air guiding plate 10 and the second air guiding plate 20.

On the basis of the structure with two driving assemblies, one driving assembly can drive the first air guide plate to rotate, the other driving assembly can drive the second air guide plate to rotate, and the first air guide plate and the second air guide plate can be driven by the corresponding driving assemblies to rotate independently. When the first air deflector and the second air deflector rotate to be in a 180-degree unfolded state, the two driving assemblies can simultaneously and synchronously drive the first air deflector and the second air deflector to rotate in the same direction, the first air deflector and the second air deflector can be used as extension plates of each other to synchronously rotate in the synchronous rotation process, and the inclined state of the first air deflector and the second air deflector in the 180-degree unfolded state is adjusted.

In this embodiment, the rotation of the rotating shaft of the second air deflector 20 is realized by the motor 31 cooperating with the gear transmission mechanism 32, because the motor 31 has a large volume and a small assembly space on the air conditioner main unit 50, if the rotating shaft of the motor 31 is directly coupled with the air deflector, the large space of the motor 31 of the air conditioner main unit 50 will be used temporarily after the connection, in this embodiment, the gear transmission mechanism 32 is used to couple the rotating shaft of the motor 31 and the rotating shaft of the second air deflector 20, so that the rotating shaft 211 of the first air deflector 10 and the second air deflector 20 is not coaxial with the axis of the rotating shaft of the motor 31, and the internal installation space is reduced.

In addition, the multi-stage gears of the gear transmission mechanism 32 are used for realizing power output, so that the driving structure is more stable, and the rotating process of the first air deflector 10 and the second air deflector 20 is more stable.

In the case of the example 2, the following examples are given,

in this embodiment, a rotating hole may be formed in the second air deflector 20, a plurality of slots may be formed in an inner wall of the rotating hole, and the plurality of slots may be distributed at intervals in the circumferential direction of the rotating hole; and establish the pivot on first aviation baffle 10, set up spacing axle in the circumference of pivot, when assembling, can penetrate the rotation hole through the pivot on the first aviation baffle 10, spacing axle joint alright realize that first aviation baffle 10 and second aviation baffle 20 are the angle setting in the draw-in groove of difference.

It should be noted that, the limiting shaft can be arranged on the surface of the rotating shaft and is provided with an elastic pin structure, and the positioning can be realized by sliding the elastic pin into different clamping grooves.

First connecting portion and second connecting portion can choose for use to realize for spacing axle and a plurality of draw-in groove structure among the prior art on this structure basis.

In the case of the example 3, the following examples are given,

the structure in this embodiment is set based on the structural basis of embodiment 1 and embodiment 2:

specifically, referring to fig. 6 and 7, the first air guiding plate 10 and/or the second air guiding plate 20 may be provided with a condensation preventing member 22, and both the first air guiding plate 10 and the second air guiding plate may be provided with an air guiding surface and a leeward surface. The anti-condensation piece 22 is arranged on the air guide surface of the first air guide plate 10 and/or the second air guide plate 20; the anti-condensation member 22 can slow down the airflow to the leeward side when the flow guide surfaces of the first air deflector 10 and the second air deflector 20 guide the airflow.

Due to the adoption of the bidirectional air deflector structure, the double air deflectors are connected through the first connecting part and the second connecting part, so that an assembly area is inevitably formed between the first air deflector 10 and the second air deflector 20 after assembly, and an assembly gap is inevitably formed in the assembly area.

The event is when carrying out the air guide, if guide hot-blast or cold wind and derive, hot-blast or cold wind when the water conservancy diversion face guide through first aviation baffle 10 or second aviation baffle 20, the temperature on the water conservancy diversion face can be the assembly gap conduction between two aviation baffles and deviate from the leeward side of water conservancy diversion face, and the leeward side can form the difference in temperature with ambient temperature, so the leeward side can meet the condensation of heat production to drip, influence the result of use.

Therefore, in this embodiment, by providing the anti-condensation member 22, the air flow can be slowed down to flow toward the leeward side, so that the temperature of the leeward side is reduced from being affected by the temperature of the diversion surface, the temperature difference between the leeward side and the ambient temperature is not too large, and the generation of condensation on the leeward side can be reduced.

Specifically, the condensation preventing members 22 may be disposed on both the first air guiding plate 10 and the second air guiding plate 20, or the condensation preventing members 22 may be disposed on the first air guiding plate 10 alone, or the condensation preventing members 22 may be disposed on the second air guiding plate 20 alone, which is specifically selected according to actual needs.

In one embodiment, referring to fig. 7, the first air guiding plate 10 and the second air guiding plate 20 are connected by the first connecting portion and the second connecting portion to form an assembly area, and the anti-condensation member 22 covers the assembly area, on the basis of the connection, the anti-condensation member 22 may be respectively connected to two sides of the first guiding plate and the second guiding plate, and in order not to affect the rotation of the first guiding plate and the second guiding plate, the anti-condensation member 22 covering between the first guiding plate and the second guiding plate may be a flexible cloth (such as a waterproof portion of oxford cloth), or a flexible silica gel or a rubber, which can block the air flow from flowing to the leeward side through the assembly gap of the assembly area. In addition, the anti-condensation member 22 may be made of other flexible materials capable of insulating heat in the prior art.

In another embodiment, referring to fig. 6, the first air guiding plate 10 and the second air guiding plate 20 are connected by the first connecting portion and the second connecting portion to form an assembly area, the anti-condensation member 22 is disposed on one side of the assembly area, and specifically, the anti-condensation member 22 may be a protruding strip protruding from a side of the assembly area, so that when the air flows into the assembly gap of the assembly area, the air flow is blocked, and the air flow flowing towards the assembly gap is slowed down.

In the case of the example 4, the following examples are given,

referring to fig. 1 to 9, the embodiment further provides an air conditioner, which includes an air conditioner main unit 50, where the air conditioner main unit 50 is provided with a first air outlet 51 and the second air outlet 52, and a cooling or heating module (which may be a compressor, an evaporator, or the like) for an air conditioner in the prior art is provided in the air conditioner main unit 50, where the first air outlet 51 is used to guide an air flow to be led out along a first direction, and the second air outlet 52 is used to guide an air flow to be led out along a second direction. The first direction and the second direction form an included angle.

In the bidirectional air deflector structures in all the embodiments, the first air deflector 10 is installed at the first air outlet 51; the second air guiding plate 20 is installed at the second air outlet 52. The first air deflector 10 and the second air deflector 50 may be used to guide the airflow to be guided out along the first air outlet 51 and/or the second air outlet 52.

Specifically, the bidirectional air guiding plate structure in this embodiment may be assembled in an air outlet channel of the air conditioner main unit 50, and the first air outlet 51 and the second air outlet 52 are opened or closed by the rotation switching of the first air guiding plate 10 and the second air guiding plate 20.

According to the principle of air cold-hot circulation, the density of cold air is higher than that of air at normal temperature, the outlet air is blown upwards during refrigeration, and the cold air sinks to cool the whole room; the density of the hot air is lower than that of the air at normal temperature, the air is properly blown downwards during heating, and the hot air rises, so that the temperature of the whole room is raised.

Therefore, in the present embodiment, in order to enable the air conditioner to achieve the cooling and heating functions better, the air conditioner main unit 50 is provided with a first air outlet 51 and a second air outlet 52, and the first air outlet 51 is used for guiding the airflow to be led out along a first direction; the second air outlet 52 is used for guiding the air flow out along a second direction; the first direction and the second direction are arranged at an included angle, specifically, the first direction is a horizontal direction, and the second direction is a vertical direction.

Therefore, in the present embodiment, in order to enable the bidirectional air guiding plate structure to be applied to the air conditioner main unit 50, on the basis of the structure that the first direction is a horizontal direction and the second direction is a vertical direction, in the present embodiment, the first air guiding plate 10 and the second air guiding plate 20 are perpendicular to each other, the first air guiding plate 10 closes and opens the first air outlet 51, and the second air guiding plate 20 closes and opens the second air outlet 52.

When the first air outlet 51 is needed to discharge air, hot air or cold air in the air conditioner main unit 50 is guided out through the first air outlet 51, at this time, the first air deflector 10 can be opened away from the first air outlet 51, the first air deflector 10 can move relative to the second connecting portion through the first connecting portion at this time, so that the first air deflector 10 can be opened at an angle relative to the second air deflector 20, and at this time, cold air or hot air of the air conditioner can be guided out in the horizontal direction.

When the second air outlet 52 is needed to discharge air, the hot air or the cold air in the air conditioner main unit 50 is guided out through the second air outlet 52, at this time, the second air deflector 20 may be opened away from the second air outlet 52, the first air deflector 10 may move relative to the first connecting portion through the second connecting portion, so that the angle of the second air deflector 20 relative to the first air deflector 10 is opened, and at this time, the cold air or the hot air of the air conditioner may be guided out in the vertical direction. Of course, the first air guiding plate 10 and the second air guiding plate 20 may be folded by moving the first connecting portion relative to the second connecting portion, that is, the second air guiding plate 20 is folded close to the first air guiding plate 10, and the second air outlet 52 is opened at this time; or the first air guiding plate 10 may be folded close to the second air guiding plate 20, and the first air outlet 51 is opened at this time.

In addition, the first connecting part can move relative to the second connecting part, so that the first air deflector 10 and the second air deflector 20 are in a mutually unfolded state, namely the first air deflector 10 and the second air deflector 20 can be mutually used as extension plates of each other, the length of an air outlet channel can be increased, air-conditioned air can be sent farther, and the temperature changing efficiency of the air conditioner is accelerated.

Specifically, when the first air deflector 10 and the second air deflector 20 integrally rotate to be in an inclined state, the first air deflector 10 is away from the first air outlet 51 and is opened outwards, and at the moment, the second air deflector 20 is positioned at the inner side of the air-conditioning main unit 50, in this state, the air guide duct inside the air-conditioning main unit is formed by matching the first air deflector and the second air deflector with a cavity structure inside the main unit, the first air deflector is used as an outward extending part of the air guide duct, and the airflow can be partially led out from the upper parts of the second air deflector and the first air deflector through the first air outlet; in addition, part of the air flow can be led out from the lower parts of the second air deflector and the first air deflector through the second air outlet, and the air guiding length of the air flow is formed by combining the first air deflector and the second air deflector no matter which air outlet is led out from which air outlet.

Certainly, in another case, the first air deflector and the second air deflector are unfolded at 180 degrees, so that the second air deflector is outwards far away from the second air outlet to rotate, the first air deflector rotates towards the position close to the first air outlet until the first air outlet is covered by the sealing cover, at the moment, the second air deflector and the first air deflector are also in an unfolded state at 180 degrees, an air channel which is parallel to the vertical surface and leads out air flow is formed by the first air deflector and the internal cavity of the air-conditioning host, at the moment, the air flow is vertically guided by the first air deflector and the second air deflector and is led out through the second air outlet, and in the state, the air outlet direction is in the vertical direction.

The other condition is that the first air deflector and the second air deflector are unfolded at 180 degrees, so that the second air deflector rotates towards the direction close to the second air outlet until the second air outlet is covered by the sealing cover, the first air deflector rotates towards the direction far away from the first air outlet, at the moment, the second air deflector and the first air deflector are also in an unfolded state at 180 degrees and are parallel to the horizontal plane, an air channel for guiding out the air flow is formed by the first air deflector and the internal cavity of the air-conditioning main unit, at the moment, the air flow is horizontally guided by the second air deflector and the first air deflector and is guided out through the first air outlet, and in the state, the air outlet direction is the horizontal direction.

Further, the air conditioner main unit 50 may be provided with a stopper 40, and the stopper 40 may abut against the first air guiding plate 10 or the second air guiding plate 20.

Specifically, the limiting portion 40 can be a limiting plate or a limiting block structure in the prior art, and the limiting plate or the limiting block can be disposed on the air conditioner host 50, specifically located between the first air outlet 51 and the second air outlet 52, and when the first air deflector 10 rotates towards the second air deflector 20 to close the first air outlet 51, the first air deflector 10 can abut against the limiting plate or the limiting block, so as to prevent the first air deflector 10 from rotating to the closed position. Similarly, when the second air guiding plate 20 rotates towards the first air guiding plate 10 to close the second air outlet 52, the second air guiding plate 20 may abut against the limiting plate or the limiting block, so as to prevent the second air guiding plate 20 from rotating to the closed position.

Of course, the limiting portion 40 may be implemented by a limiting bolt or the like in the prior art, which can abut against and limit the first air guiding plate 10 or the second air guiding plate 20.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (10)

1. The bidirectional air deflector structure is characterized by comprising a first air deflector and a second air deflector, wherein the first air deflector is provided with a first connecting part, the second air deflector is provided with a second connecting part, and the first connecting part and the second connecting part are movably connected, so that the first air deflector and the second air deflector are arranged at different angles.

2. The structure of claim 1, wherein the first connecting portion is rotatably connected to the second connecting portion, so that the first wind deflector and the second wind deflector rotate relatively and are disposed at different angles.

3. The structure of claim 2, wherein the first wind deflector is disposed at an included angle a after rotating relative to the second wind deflector; the included angle A is greater than or equal to 0 ⁰ The included angle A is less than or equal to 180 ⁰ 。

4. The structure of claim 2, wherein the first air guiding plate is provided with a rotating groove, and two side walls of the rotating groove are provided with shaft holes; a rotary seat is arranged on the second air deflector, and rotating shafts are arranged on two sides of the rotary seat; the rotary seat is arranged in the rotary groove, and the rotary shaft is rotatably connected in the shaft hole in a penetrating way; the shaft hole is formed as the first connection part; the rotation shaft is formed as the second connection portion.

5. The structure of claim 4, further comprising a driving assembly, wherein the driving assembly comprises a motor and a gear transmission mechanism, and a rotating shaft of the motor is connected with an input gear of the gear transmission mechanism; and the output teeth of the gear transmission mechanism are connected with the rotating shaft.

6. The bidirectional air guide plate structure of any one of claims 2 to 5, wherein the first air guide plate and/or the second air guide plate is provided with an anti-condensation member, and the first air guide plate and the second air guide plate are provided with air guide surfaces and leeward surfaces; the anti-condensation piece is arranged on the air guide surface of the first air guide plate and/or the second air guide plate; the condensation preventing piece is used for slowing down the air flow to flow towards the leeward side when the flow guide surfaces of the first air guide plate and the second air guide plate guide the flow.

7. The bidirectional air deflection structure of claim 6, wherein the first air deflection plate and the second air deflection plate are connected by the first connecting portion and the second connecting portion to form a mounting area therebetween; the anti-condensation piece covers the assembly area.

8. The bidirectional air deflection structure of claim 6, wherein the first air deflection plate and the second air deflection plate are connected by the first connecting portion and the second connecting portion to form a mounting area therebetween; the anti-condensation piece is arranged on one side of the assembly area.

9. An air conditioner is characterized by comprising a heat exchanger,

the air conditioner main machine is provided with a first air outlet and a second air outlet, and the first air outlet is used for guiding airflow out along a first direction; the second air outlet is used for guiding the air flow out along a second direction; the first direction and the second direction form an included angle;

the bidirectional air deflection structure of any one of claims 1-8, wherein the first air deflection panel is mounted at the first outlet opening and the second air deflection panel is mounted at the second outlet opening; the first air deflector and the second air deflector are used for guiding air to flow through the first air outlet and/or the second air outlet and then to be led out.

10. The air conditioner according to claim 9, wherein a limit part is provided on the air conditioner main unit; the limiting part is used for being abutted against the first air deflector or the second air deflector.

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