CN219414982U - Double-through air outlet structure and air conditioner thereof - Google Patents

Abstract

The utility model discloses a double through air outlet structure and an air conditioner thereof, wherein the double through air outlet structure is arranged in an air conditioner body and comprises two air outlet channels arranged in the air conditioner body, wherein the air outlet of one air outlet channel is arranged at the front air outlet of the air conditioner body, and the air outlet of the other air outlet channel is arranged at the lower air outlet of the air conditioner body; compared with the prior art, the utility model has the advantages that the whole structure is relatively small in volume; and in this two through air outlet structures two air outlet passageways's of air-out wind air outlet is the front wind gap department that sets up at the air conditioner body, and another air outlet is the lower wind gap department that sets up at the air conditioner body, then can both can receive the wind in the front side and the downside of air conditioner body, has increased the radiating area of wind.

Description

Double-through air outlet structure and air conditioner thereof

Technical Field

The utility model relates to the technical field of air conditioner structures, in particular to a double-through air outlet structure and an air conditioner thereof.

Background

The existing double-through-flow air conditioner adopts an induced air technology, so that the indoor air and the air after heat exchange can be mixed and then enter the indoor environment, cooling can be realized without cooling, and quick cooling can be realized after induced air is closed. However, in actual use, the air supply requirements of the air conditioner are different due to the age, physical condition and the like of the user, and the induced air quantity in the existing air conditioner is not adjustable, so that the comfort requirement is difficult to meet.

In order to solve the above problems, patent application document CN201810870722.0 discloses an air conditioner indoor unit and an air conditioner with adjustable induced air quantity and wind direction, which comprises at least two air conditioner bodies, wherein a through air duct is formed between adjacent air conditioner bodies, the through air duct comprises an induced air duct at the rear side and an air supply duct at the front side, an air quantity adjusting part is arranged in the through air duct, and the air quantity adjusting part comprises a guide plate, a first driving mechanism and a second driving mechanism; the first driving mechanism drives the guide plate to move back and forth between the induced air duct and the air supply duct; the second driving mechanism drives the guide plate to rotate, when the guide plate is positioned in the induced air duct, the induced air quantity can be adjusted by adjusting the opening angle, and when the guide plate is positioned in the air supply duct, the air outlet direction can be adjusted by adjusting the opening angle. By the indoor unit, the guide plate is arranged, so that the indoor unit can move between the induced air duct and the air supply duct, and the air supply quantity can be adjusted in the induced air duct; in the air supply duct, the air supply duct can be matched with air outlets on two sides to adjust the air outlet direction, so that the air supply comfort is improved.

The air conditioner comprises two air conditioner bodies, and the whole structure volume of the air conditioner is relatively large; and the air outlets on two sides are arranged towards the front side of the air conditioner body, and the air direction of the air outlet is carried out towards the front side of the air conditioner body as a whole although the air deflector can change the air directions of the air outlets on two sides, so that the radiation surface of the air is relatively small.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a double-through air outlet structure so as to solve the problems that in the prior art, the whole structure is relatively large due to the inclusion of two air conditioner bodies, and the air outlets at two sides are arranged towards the front side of the air conditioner body, and although the air deflector can change the air directions of the air outlets at two sides, the air direction of the air outlet is carried out towards the front side of the air conditioner body as a whole, and the radiation surface of the air is relatively small.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a double through air outlet structure is arranged in an air conditioner body and comprises two air outlet channels arranged in the air conditioner body, wherein one air outlet of each air outlet channel is arranged at a front air outlet of the air conditioner body, and the other air outlet of each air outlet channel is arranged at a lower air outlet of the air conditioner body.

Compared with the prior art, the utility model has the following beneficial effects:

the double through air outlet structure is characterized in that two air outlet channels are arranged on one air conditioner body, and the whole structure is relatively small in volume; and in this two through air outlet structures two air outlet passageways's of air-out wind air outlet is the front wind gap department that sets up at the air conditioner body, and another air outlet is the lower wind gap department that sets up at the air conditioner body, then can both can receive the wind in the front side and the downside of air conditioner body, has increased the radiating area of wind.

Drawings

FIG. 1 is a schematic view of an embodiment of the present utility model in an inactive state;

FIG. 2 is a schematic view of a front air outlet according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a structure of an embodiment of the present utility model when the air outlet of the air outlet is in a lower air port;

fig. 4 is a schematic structural view of the front tuyere and the lower tuyere according to an embodiment of the present utility model.

Reference numerals in the drawings of the specification include: the air conditioner comprises an air conditioner body 1, an air outlet channel 2, a front air port 3, a lower air port 4, an air conditioner evaporator 5, an air conditioner through-flow fan 6, an air duct changing moving part 7 and an air conditioner swing blade 8.

Detailed Description

The utility model is described in further detail below by way of specific embodiments:

as shown in fig. 1, 2, 3 and 4, the embodiment of the utility model provides a double through air outlet structure, which is arranged in an air conditioner body 1 and comprises two air outlet channels 2 arranged in the air conditioner body 1, wherein an air outlet of one air outlet channel 2 is arranged at a front air outlet 3 of the air conditioner body 1, and an air outlet of the other air outlet channel 2 is arranged at a lower air outlet 4 of the air conditioner body 1.

The double through air outlet structure is characterized in that two air outlet channels 2 are arranged on one air conditioner body 1, and the whole structure volume is relatively small; and in the double through air outlet structure, one air outlet of the two air outlet channels 2 is arranged at the front air outlet 3 of the air conditioner body 1, and the other air outlet is arranged at the lower air outlet 4 of the air conditioner body 1, so that the air can be received at the front side and the lower side of the air conditioner body 1, and the radiation area of the air is increased.

In this embodiment: two air outlet channels 2 are formed in the air conditioner body 1 through separation strips, and air inlets of the two air outlet channels 2 are arranged in the air conditioner body 1 in parallel.

As shown in fig. 1, 2, 3 and 4, according to another embodiment of the present utility model, the dual through-flow air outlet structure further includes an air conditioning evaporator 5, an air conditioning through-flow fan 6 and an air duct changing moving member 7;

the air conditioner evaporator 5 is arranged in the air conditioner body 1 and is positioned at one side of air inlets of the two air outlet channels 2;

the two air conditioner cross-flow fans 6 are arranged in the air inlets of the two air outlet channels 2 in a one-to-one correspondence manner;

the air duct changing moving part 7 is rotatably arranged in a space formed between the air conditioner evaporator 5 and the air inlets of the two air outlet channels 2 and is used for controlling the air quantity of the air inlets of the two air outlet channels 2.

In this embodiment: the middle part of the air conditioner evaporator 5 is convexly arranged in a direction away from the two air outlet channels 2, and two ends of the air conditioner evaporator 5 are connected to one sides of air inlets of the two air outlet channels 2 to enclose the air conditioner evaporator, so that the air channel changing moving part 7 is reasonably arranged in a space formed between the air conditioner evaporator 5 and the air inlets of the two air outlet channels 2 to move so as to control the air inlet quantity of the two air outlet channels 2; specifically, two air conditioning evaporators 5 are adopted, the two air conditioning evaporators 5 are arranged in a V shape, the separated ends of the two air conditioning evaporators 5 are distributed on different sides of air inlets of the two air outlet channels 2, at the moment, a space is formed by surrounding between the two air conditioning evaporators 5 and the air inlets of the two air outlet channels 2, and an air channel changing moving piece 7 rotates in the space to adjust the air inlet quantity of the two air outlet channels 2 so as to meet the use requirement; the air conditioning evaporator 5 specifically exchanges heat with air, and the rear air conditioning cross-flow fan 6 operates to provide power to guide the exchanged air into the air outlet channel 2 and then discharge the air.

As shown in fig. 1, 2, 3 and 4, according to another embodiment of the present utility model, the dual through air outlet structure further includes two air conditioner swing blades 8, where the two air conditioner swing blades 8 are rotatably disposed at the air outlets of the two air outlet channels 2 in a one-to-one correspondence manner, and are used for controlling the conduction state of the air outlets of the corresponding air outlet channels 2.

Specifically in this embodiment: the adopted air conditioner swing blades 8 are all rotatably connected in the air outlets of the corresponding air outlet channels 2 through rotating shafts at the middle parts.

The rotating shafts can be driven to rotate by power provided by the micro motor, so that the air conditioner swing blades 8 rotate in the air outlets of the corresponding air outlet channels 2, and the air conditioner swing blades 8 can seal the air outlets of the air outlet channels 2 to stop the air outlet of the corresponding air outlet channels 2; the inclination angle of the air conditioner swing blade 8 in the air outlet of the corresponding air outlet channel 2 can be changed, so that the air outlet direction of the air outlet channel 2 can be changed.

As shown in fig. 1, 2, 3 and 4, according to another embodiment of the present utility model, the double through air outlet structure is provided, wherein the air duct changing moving member 7 includes a moving bar;

one end of the moving strip is rotatably arranged between the air inlets of the two air outlet channels 2, and the other end of the moving strip rotates in a space formed between the air inlets of the two air outlet channels 2 and the air conditioner evaporator 5.

One end of the moving strip can be driven to rotate by the power provided by the motor, and when the moving strip rotates to seal the air inlet of one air outlet channel 2, air subjected to heat exchange by the air conditioner evaporator 5 at the moment is led into the other air outlet channel 2; when the movement strip rotates to different positions in the space formed between the air conditioner evaporator 5 and the air inlets of the two air outlet channels 2, the air inlet quantity of the two air outlet channels 2 can be changed so as to adjust the air quantity of the front air inlet 3 and the air quantity of the lower air inlet 4 to meet the requirements of users.

According to another embodiment of the present utility model, the air conditioner may include a double through-air outlet structure according to any of the above embodiments.

In this embodiment: the specific air conditioner may be a wall-mounted air conditioner, as shown in fig. 1, when not in operation, the two air conditioner swing blades 8 seal the air outlets of the two air outlet channels 2 respectively.

As shown in fig. 2, when the front tuyere 3 is used for air outlet: an air conditioner swing blade 8 positioned at the lower air opening 4 of the air conditioner body 1 seals the air outlet of the matched air outlet channel 2, and the moving strip rotates to seal the air inlet of the air outlet channel 2; meanwhile, the air conditioner swing blades 8 at the front air opening 3 of the air conditioner body 1 are in an open state to enable the air outlet channel 2 communicated with the front air opening 3 of the air conditioner body 1 to be in a communicated state, the air conditioner evaporator 5 operates, and the air conditioner cross flow fan 6 in the communicated air outlet channel 2 operates to guide out generated wind from the front air opening 3 of the air conditioner body 1, so that the front air outlet of the full-area air conditioner is realized; the state can effectively improve the air supply distance of the air conditioner, can realize the effect that the wind does not blow people, and meets the selectable use requirement of a user.

As shown in fig. 3, when the air outlet of the air outlet 4 is: an air conditioner swing blade 8 positioned at the front air opening 3 of the air conditioner body 1 seals the air outlet of the matched air outlet channel 2, and the moving strip rotates to seal the air inlet of the air outlet channel 2; meanwhile, the air conditioner swing blades 8 positioned at the lower air inlet 4 of the air conditioner body 1 are in an open state to enable the air outlet channel 2 communicated with the lower air inlet 4 of the air conditioner body 1 to be in a conducting state, so that the lower air outlet of the full-area air conditioner is realized; the state can effectively supply air in a carpet-like mode under a heating mode, and the state can realize the effect of blowing people, so that the selectable use requirement of a user is met.

As shown in fig. 4, when both the front tuyere 3 and the lower tuyere 4 are out: the movement strip rotates to a position between air inlets of the two air outlet channels 2, and the two air conditioner swing blades 8 are in an open state to enable the two air outlet channels 2 to be in a conducting state; at this time, the air conditioner evaporator 5 and the air conditioner cross-flow fan 6 are operated to realize air-out division, the front air-out and the lower air-out are matched, the upper air-out and the lower air-out are surrounded, and the temperature environment of a room is effectively and uniformly improved. And the rotation angle of the movable strip is set to match with the rotation speed of the cross-flow fan, so that the size of the separated air outlet air quantity is adjusted, and the use requirements of different users are met.

The air conditioner realizes the air supply modes in multiple directions through air duct switching, and effectively improves the stability of room temperature.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (7)

1. The utility model provides a two through air-out structures, its setting is in the air conditioner body and including setting up two air-out passageway in the air conditioner body, its characterized in that, one of them the air outlet of air-out passageway sets up in the preceding wind gap department of air conditioner body, another the air outlet of air-out passageway sets up in the lower wind gap department of air conditioner body.

2. The bi-pass wind out structure according to claim 1, further comprising:

the air conditioner evaporator is arranged in the air conditioner body and is positioned at one side of air inlets of the two air outlet channels;

the air conditioner cross-flow fans are arranged in the air inlets of the two air outlet channels in a one-to-one correspondence manner;

the air duct changing moving part is rotatably arranged in a space formed between the air conditioner evaporator and the air inlets of the two air outlet channels and used for controlling the air quantity of the air inlets of the two air outlet channels.

3. The bi-pass wind out structure according to claim 2, further comprising:

the air conditioner swing blades are arranged at the air outlets of the two air outlet channels in a one-to-one correspondence mode and used for controlling the conduction state of the air outlets of the corresponding air outlet channels.

4. A bi-pass wind out structure according to claim 2, wherein: the middle part of the air conditioner evaporator is convexly arranged in a direction away from the two air outlet channels, and two ends of the air conditioner evaporator are connected to one sides of air inlets of the two air outlet channels to enclose the air conditioner evaporator.

5. A bi-pass wind out structure according to claim 2, wherein: the air duct changing moving part comprises:

and one end of the motion strip is rotatably arranged between the air inlets of the two air outlet channels, and the other end of the motion strip rotates in a space formed between the air inlets of the two air outlet channels and the air conditioner evaporator.

6. A bi-pass wind out structure according to claim 3, wherein: the air conditioner swing blades are all connected in the air outlets of the corresponding air outlet channels in a rotating mode through rotating shafts at the middle portions of the air conditioner swing blades.

7. An air conditioner, characterized in that: comprising a double through-flow wind structure according to any of claims 1-6.