CN110864353A - Air outlet structure and air conditioner - Google Patents

Abstract

The invention discloses an air outlet structure which comprises an air outlet channel and an air outlet baffle arranged in the air outlet channel, wherein micropores are formed in the surface of the air outlet baffle, and the air outlet baffle can partially shield, completely shield or not shield the air outlet channel. The invention can improve the problem of human body discomfort caused by direct blowing of air out to the human body, and does not influence the temperature regulation effect.

Description

Air outlet structure and air conditioner

Technical Field

The invention relates to the field of household appliances, in particular to an air outlet structure and an air conditioner.

Background

An air conditioner, i.e., an air conditioner, refers to a process of manually adjusting and controlling parameters such as temperature, humidity, cleanliness, speed, etc. of ambient air inside a building/structure. The system generally comprises a cold source/heat source device, a cold and hot medium transmission and distribution system, a tail end device and other auxiliary devices, wherein the tail end device is used for specifically processing air and temperature by utilizing cold and hot energy transmitted and distributed so as to enable air parameters of a target environment to meet requirements.

When the air conditioner works, the air temperature of the air conditioner is adjusted in an air outlet mode, and particularly when the difference between the set temperature of a user and the actual temperature is large, the working efficiency and the air outlet quantity are generally improved to achieve a faster temperature adjusting effect; in this period, when the air output is increased and the difference between the air output temperature and the ambient temperature is too large, the direct blowing causes discomfort to human body.

Disclosure of Invention

The invention aims to provide an air outlet structure, which can solve the problem of human body discomfort caused by direct blowing of air out and does not influence the temperature regulation effect.

In order to solve the technical problem, the invention provides an air outlet structure which comprises an air outlet channel and an air outlet baffle arranged in the air outlet channel, wherein micropores are formed in the surface of the air outlet baffle, and the air outlet baffle can partially shield, completely shield or not shield the air outlet channel.

Furthermore, the air outlet baffle is arranged between the two rotary support plates, one of the rotary support plates is connected with the air outlet channel through a rotary shaft, the rotary shaft of the other rotary support plate is connected with a rotary driver, the rotary driver drives the air outlet baffle to swing, and two blocking edges used for blocking the air outlet baffle are matched with the inner wall of the air outlet channel to form a hot air channel and a cold air channel.

Furthermore, an air deflector is arranged on an air outlet of the air outlet channel.

Further, the air outlet channel comprises an air source cavity and an air guide cavity, the air outlet baffle is arranged between the air source cavity and the air guide cavity, the air source cavity is internally provided with a fan blade and a heat exchanger, and the air source cavity or the air guide cavity is internally provided with a swing blade.

Furthermore, a guide surface matched with air outlet is arranged on the air guide cavity.

Furthermore, a water drainage tank is arranged on the air outlet channel corresponding to the air outlet baffle, the water drainage tank is used for receiving liquid on the heat exchanger, the surface of the water drainage tank is provided with a storage avoiding portion, and the air outlet baffle can enter the storage avoiding portion to carry out air outlet avoiding.

Further, the accommodating and avoiding part and the air outlet baffle are both arc-shaped structures.

Furthermore, two air guide strips are arranged on one side of the surface of the air outlet baffle plate, which is positioned inside the air outlet channel, the two air guide strips are respectively matched with two blocking edges of the air outlet baffle plate, which are used for blocking, to form an air guide opening, the air guide strips are matched with the surface of the air outlet baffle plate to form an air guide channel, and the air guide strips are connected with the air outlet baffle plate through a connecting part.

Further, the air outlet is arranged towards the air outlet direction of the air outlet channel.

Based on foretell air-out structure, still provide an air conditioner, it has the air-out structure of above-mentioned arbitrary item.

The invention has the beneficial effects that:

the air outlet baffle plate is provided with the micropores on the surface, the air outlet baffle plate can shield the inside of the air outlet channel, and when the air outlet baffle plate shields the inside of the air outlet channel, the air pressure in the air outlet channel can overflow from the micropores to the outside, so that the effect of no wind sense air outlet is achieved, and discomfort caused by direct blowing of a human body can be avoided while the temperature is adjusted;

wherein the air-out baffle can remove in the air-out passageway to realize that the part shelters from, whole shelters from or does not shelter from the effect of air-out passageway, thereby reach the air-out mode that directly blows out, no wind sense air-out and directly blow and no wind sense combines, thereby can optimize refrigeration heating effect, provide better comfortable use and experience.

Drawings

FIG. 1 is a schematic view of an air outlet channel and an internal structure thereof according to the present invention;

FIG. 2 is a schematic view of the air outlet channel of the present invention without being blocked;

FIG. 3 is a schematic view of a partial block of a first aspect of an outlet duct according to the present invention;

FIG. 4 is a schematic view of a partial shield of an air outlet channel according to a second aspect of the present invention;

FIG. 5 is a schematic view of the structure of the air outlet baffle of the present invention;

fig. 6 is a schematic view of an air outlet baffle according to another embodiment of the present invention;

FIG. 7 is a schematic cross-sectional side view of the outlet baffle of FIG. 6 according to the present invention;

FIG. 8 is a schematic diagram of the full shading in the air conditioner of the present invention;

FIG. 9 is a schematic view of a partial occlusion for a first case of the air conditioner of the present invention;

fig. 10 is a schematic diagram of partial occlusion in a second case of the air conditioner of the present invention.

The reference numbers in the figures illustrate: 1. the air outlet device comprises an air outlet channel, 11, an air source cavity, 12, an air guide cavity, 111, fan blades, 112, a heat exchanger, 121, a guide surface, 2, an air outlet baffle, 21, a rotary support plate, 22, a rotary driver, 3, micropores, 4, an air guide plate, 5, a drainage groove, 6, an air guide strip, 7, an air guide opening, 8, an air guide channel, 9 and a connecting part.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

The embodiment of the air outlet structure comprises an air outlet channel 1 and an air outlet baffle 2 arranged in the air outlet channel 1, wherein the surface of the air outlet baffle is provided with micropores 3, and the air outlet baffle can partially shield, completely shield or not shield the air outlet channel 1.

Referring to fig. 1, the air-out baffle is all sheltered from in the air-out passageway 1, when wind was discharged from air-out passageway 1, was blockked by the air-out baffle completely, because the design of the micropore 3 on air-out baffle surface can make wind spill over from micropore 3, reaches the effect of no wind sense air-out, consequently when the air-out baffle was all sheltered from air-out passageway 1, can also adjust ambient temperature, and the wind comfort level that blows out is high, and is no wind sense. When the difference between the ambient temperature and the set temperature is 1 ℃, the air can be discharged by adopting a windless effect; or after the ambient temperature reaches the set temperature, the air is discharged by adopting a windless effect so as to carry out comfortable ambient temperature control operation and improve the use comfort level.

Referring to fig. 2, the air outlet baffle does not block the air outlet channel 1, and the wind energy can be directly blown out from the air outlet channel 1, and is consistent with the existing air outlet channel 1, and the air outlet baffle does not shield to achieve the effect of quickly adjusting the ambient temperature.

Referring to fig. 3 and 4, the air outlet baffle partially shields the air outlet channel 1, that is, one part of the air outlet channel 1 is not shielded, the other part is shielded by the air outlet baffle, in the non-shielded part, the air can be directly blown out, and in the shielded part, the air can only overflow from the micropores 3; because the outlet air has air pressure, the part of the air blown to the outlet air baffle can be blown out from the shelterless part except the air overflowing from the micropores 3, so that the outlet air baffle has the effect of air pressure pressurization on the shelterless part, the flow velocity of the air in the environment can be increased, and the effect of accelerating the temperature regulation is achieved; two blocking edges used for blocking of the air outlet baffle plate are matched with the inner wall of the air outlet channel 1 to form two non-blocking parts, and the two non-blocking parts are designed into a hot air channel and a cold air channel;

when the air-out baffle plays the pressure boost, have the change function to the direction of air-out:

as shown in fig. 3, the air outlet baffle shields the upper part of the air outlet channel 1, the lower part is not shielded, air can be blown out quickly at the lower part, and the air is prevented from overflowing at the upper part; when the environment needs to be heated, the outlet air temperature is higher than the environment temperature and is hot air, the hot air is directly blown out from the non-shielding part at the lower part, the non-shielding part is a hot air channel and is blown to the lower part of the environment, and the hot air temperature is higher than the environment temperature, so that the temperature rises and exchanges heat with cold air at the upper part of the environment, and the effect of quickly heating is achieved;

the air outlet of the air outlet channel 1 is provided with an air deflector 4, and the air deflector 4 can guide the outlet air to ensure that the air is blown to the middle of the environment, so that the heating effect is improved; and the air deflector 4 can also shield the air outlet channel 1, thereby playing the roles of beauty and dust prevention.

The air-out baffle can effectively block to blow to the environment in the middle or well upper portion or upper portion hot-blast, concentrates the heat and supplies with towards the environment lower part, reaches the effect of whole environment heat exchange, avoids the heat accumulation to appear the inhomogeneous problem of ambient temperature on environment upper portion, optimizes the effect of heating.

As shown in fig. 4, the air outlet baffle shields the lower part of the air outlet channel 1, the upper part is not shielded, air can be blown out quickly at the upper part, and the air is blocked from overflowing at the lower part; when the environment needs to be cooled, the outlet air temperature is lower than the environment temperature and is cold air, the cold air is directly blown out from the non-shielding part at the upper part, the non-shielding part is a cold air channel and is blown to the upper part of the environment, and the temperature of the cold air is lower than the environment temperature, so that the cold air is reduced and exchanges heat with hot air at the lower part of the environment, and the effect of quickly cooling is achieved;

the air outlet baffle can effectively block cold air blown to the middle or middle lower part or the lower part of the environment, the cold air is concentrated to be supplied to the upper part of the environment, the heat exchange effect of the whole environment is achieved, the problem that the environment temperature is uneven due to the fact that the cold air is accumulated on the lower part of the environment is avoided, and the refrigeration effect is optimized.

The air outlet channel 1 comprises an air source cavity 11 and an air guide cavity 12, an air outlet baffle is arranged between the air source cavity 11 and the air guide cavity 12, and a fan blade 111 and a heat exchanger 112 are arranged in the air source cavity 11 and used for exchanging heat of air and then blowing out the air; the swinging blades are arranged in the air source cavity 11 or the air guide cavity 12, the swinging blades adjust the air direction of the outlet air in the horizontal direction to achieve the comfortable effect of the outlet air, and the arrangement positions of the swinging blades are adjusted according to requirements. Wherein, the guide cavity 12 is provided with a guide surface 121 matched with the air outlet, so as to achieve the effect of air blowing guide.

Referring to fig. 5, in order to achieve the above purpose in a limited space, the air outlet baffle is disposed between two rotating support plates 21, one of the rotating support plates 21 is connected to the air outlet channel 1 through a rotating shaft, the rotating shaft of the other rotating support plate 21 is connected to a rotating actuator 22, and the rotating actuator 22 drives the air outlet baffle to swing, so as to achieve the effects of blocking and accommodating in the rotation.

Be provided with water drainage tank 5 on the air-out passageway 1 that the air-out baffle corresponds, water drainage tank 5 is used for accepting the liquid on the heat exchanger 112, and water drainage tank 5 surface is provided with accomodates dodging the portion, and the air-out baffle can get into accomodate dodging and carry out the air-out in the portion and dodge, and accomodate dodging the portion and be the arc structure with the air-out baffle, reaches the shadow through rotatory mode and hides the effect, effectually uses in finite space.

Referring to fig. 6 and 7, in an embodiment, two air guide strips 6 are disposed on one side of the surface of the air outlet baffle located inside the air outlet channel 1, the two air guide strips 6 are respectively matched with two blocking edges of the air outlet baffle for blocking to form an air guide opening 7, the air guide strips 6 are matched with the surface of the air outlet baffle to form an air guide duct 8, and the air guide strips 6 are connected with the air outlet baffle through a connecting portion 9. The connecting parts are used for fixing the air guide strips 6, the number of the connecting parts is at least two, and the connecting parts also play a stable role in air outlet; wind-guiding strip 6 forms the contained angle with the air-out baffle surface to form wind-guiding channel and wind-guiding mouth, the wind that blows to the air-out baffle surface can move towards the wind-guiding channel because of the wind pressure, and the wind-guiding channel plays the guide effect, and wind blows out through the wind-guiding mouth with the wind that does not shelter from the part in the lump, and the wind-guiding stage has the water conservancy diversion effect, thereby improves whole air-out flow direction, reaches the stationary flow effect, has also strengthened the air-out wind speed. Preferably, the air outlet is arranged toward the air outlet direction of the air outlet channel 1.

In an embodiment, an air conditioner 10 is further provided, which has the air outlet structure of any one of the above items;

referring to fig. 8, the fully blocking wind exit mode is shown; referring to fig. 9, a heating air-out mode is shown; referring to fig. 10, a cooling air-out mode is shown. Of course the above modes can be adjusted as desired.

The above embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (10)

1. The utility model provides an air-out structure, its characterized in that includes air-out passageway and sets up the air-out baffle in the air-out passageway, air-out baffle surface is provided with the micropore, air-out baffle can partially shelter from, totally shelter from or do not shelter from the air-out passageway.

2. The air outlet structure of claim 1, wherein the air outlet baffle is disposed between two rotating support plates, one of the rotating support plates is connected to the air outlet channel through a rotating shaft, the rotating shaft of the other rotating support plate is connected to a rotating driver, the rotating driver drives the air outlet baffle to swing, and a hot air channel and a cold air channel are formed between two blocking flanges of the air outlet baffle and an inner wall of the air outlet channel.

3. The air outlet structure of claim 1, wherein an air deflector is disposed at the air outlet of the air outlet channel.

4. The air outlet structure of claim 1, wherein the air outlet channel comprises an air source cavity and an air guide cavity, the air outlet baffle is arranged between the air source cavity and the air guide cavity, the air source cavity is internally provided with a fan blade and a heat exchanger, and the air source cavity or the air guide cavity is internally provided with a swing blade.

5. The air outlet structure of claim 4, wherein the air guide cavity is provided with a guide surface matched with the outlet air.

6. The air outlet structure of claim 1, wherein a drainage groove is arranged on the air outlet channel corresponding to the air outlet baffle, the drainage groove is used for receiving liquid on the heat exchanger, a storage avoiding portion is arranged on the surface of the drainage groove, and the air outlet baffle can enter the storage avoiding portion to perform air outlet avoiding.

7. The air outlet structure of claim 6, wherein the storage and escape portion and the air outlet baffle are both arc-shaped.

8. The air outlet structure of claim 1, wherein two air guide strips are arranged on one side of the surface of the air outlet baffle inside the air outlet channel, the two air guide strips are respectively matched with two blocking flanges of the air outlet baffle to form an air outlet, the air guide strips are matched with the surface of the air outlet baffle to form an air guide channel, and the air guide strips are connected with the air outlet baffle through a connecting part.

9. The air outlet structure of claim 8, wherein the air outlet is disposed toward the air outlet direction of the air outlet channel.

10. An air conditioner, characterized in that, it has the air outlet structure of any one of the above claims 1-9.

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