CN217274493U - Embedded air conditioner with lower air outlet - Google Patents

Abstract

The utility model discloses an embedded air conditioner with a lower air outlet, which comprises a main body frame and an air outlet assembly, wherein the air outlet assembly is connected on the main body frame in a liftable way, the air outlet assembly is provided with a side air port and a lower air port, and the side air port and the lower air port are communicated with an air outlet duct of the embedded air conditioner; in the refrigeration mode of the embedded air conditioner, the side air inlet is opened, and the lower air inlet is closed; in the heating mode of the embedded air conditioner, the side air inlet is closed, and the lower air inlet is opened. The embedded air conditioner of the utility model can open the side air inlet and close the lower air inlet in the cooling mode by arranging the lower air inlet on the air outlet component, so that cold air is blown flatly, and the waterfall type refrigeration is realized; in the heating mode, the side air inlet can be closed, and the lower air inlet can be opened, so that hot air is directly blown to the ground, and the heating effect is improved. The proper air outlet can be switched under the working mode by arranging the lower air inlet and the side air inlet, so that the air supply effect is optimized, and the comfort of a user is improved.

Description

Embedded air conditioner with lower air outlet

Technical Field

The utility model relates to an air conditioning technology field, concretely relates to embedded air conditioner with lower wind gap.

Background

The embedded air conditioner is also called a ceiling air conditioner or a courtyard machine. The embedded air conditioner can save space and is attractive, so that the embedded air conditioner is wide in application.

At present, the embedded air conditioner often adopts a mode that air outlets are arranged on a frame, the number of the air outlets is generally one, air is supplied to a room from a ceiling at a certain angle, namely, the air is supplied to four directions along the angles respectively arranged on the air outlets. However, because the air outlet direction of the air outlet and the horizontal plane where the ceiling is located have a certain included angle, and the air supply direction is limited, when the air conditioner is in the refrigeration mode, cold air can directly blow downwards, and if someone is located near the air conditioner, the cold air can directly blow towards the human body, so that the comfort level is reduced.

In order to solve the problem, an existing embedded air conditioner with a liftable air outlet assembly comprises a main body frame and an air outlet assembly, wherein the main body frame and the air outlet assembly are mounted on a ceiling, a side air opening is formed in the air outlet assembly, the air outlet assembly is mounted on the main body frame through a lifting mechanism, the air outlet assembly is driven by the lifting mechanism to descend relative to the main body frame when air is exhausted, and after the air outlet assembly descends, the air outlet assembly exposes out of the side air opening to form a horizontal air outlet, so that air can be blown out horizontally, waterfall type refrigeration is realized, and the comfort of users is improved.

However, the existing embedded air conditioner only has a side air port, hot air can only be blown out from the side air port during heating, and the hot air density is low, so that the hot air cannot effectively reach the vicinity of the ground, and the using effect is greatly influenced. Therefore, how to make the embedded air conditioner capable of blowing both horizontally and downwards is a problem to be solved in the field.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an embedded air conditioner with wind gap has solved current embedded air conditioner and has only the side wind gap, heats and can not blow down and lead to the poor problem of result of use.

The utility model discloses an embedded air conditioner with a lower air port, which comprises a main body frame and an air outlet assembly, wherein the air outlet assembly is connected on the main body frame in a liftable way, the air outlet assembly is provided with a side air port and a lower air port, and the side air port is communicated with the lower air port and an air outlet duct of the embedded air conditioner; when the embedded air conditioner is in a refrigeration mode, the side air inlet is opened, and the lower air inlet is closed; and in the heating mode of the embedded air conditioner, the side air inlet is closed, and the lower air inlet is opened.

Further, the embedded air conditioner further includes: the wind shield is rotatably arranged on the air outlet assembly and closes the side air opening or the lower air opening through rotation.

Furthermore, the number of the wind shields is one, the wind shields are located between the side air openings and the lower air openings, and the rotating shafts of the wind shields are located at the intersection positions of the plane where the side air openings are located and the plane where the lower air openings are located.

Further, in a refrigeration mode of the embedded air conditioner, the wind shield rotates to cover the position of the lower air inlet, the lower air inlet is closed, and the side air inlet is opened; in the heating mode of the embedded air conditioner, the wind shield rotates to cover the position of the side air inlet, the side air inlet is closed, and the lower air inlet is opened.

Further, the wind deflector includes: the first wind shield is positioned at the position of the side air inlet and opens or closes the side air inlet through rotation; and the second wind baffle is positioned at the position of the lower wind port and opens or closes the lower wind port through rotation.

Further, when the embedded air conditioner is in a refrigeration mode, the first wind shield opens the side air inlet, and the second wind shield closes the lower air inlet; in the heating mode of the embedded air conditioner, the second air baffle closes the side air inlet, and the second air baffle opens the lower air inlet.

Further, in the heating mode of the embedded air conditioner, the second air baffle rotates to the outer side of the air outlet assembly, and the second air baffle is located between the lower air inlet and the air return inlet of the embedded air conditioner.

Further, the air outlet assembly comprises an air outlet frame, and the air outlet frame is lifted independently.

Further, the air-out subassembly includes air-out frame and return air panel, the return air panel is provided with the return air inlet, the air-out frame with the return air panel is connected and goes up and down jointly.

Furthermore, the side air inlet and the lower air inlet are arranged on the air outlet frame.

The embedded air conditioner of the utility model can open the side air inlet and close the lower air inlet in the cooling mode by arranging the lower air inlet on the air outlet component, so that cold air is blown flatly, and the waterfall type refrigeration is realized; in the heating mode, the side air inlet can be closed, and the lower air inlet can be opened, so that hot air is directly blown to the ground, and the heating effect is improved. The suitable air outlets can be switched under different working modes by arranging the lower air outlet and the side air outlet, so that the air supply effect is optimized, and the comfort of a user is improved.

Drawings

Fig. 1 is a schematic structural view of an embedded air conditioner according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embedded air conditioner according to a second embodiment of the present invention;

legend: 10. a main body frame; 20. an air outlet assembly; 21. a side tuyere; 22. a lower tuyere; 40. an air outlet duct; 50. a wind deflector; 51. a first windshield; 52. and a second wind deflector.

Detailed Description

The present invention is further illustrated by the following examples, but is not limited to the contents of the specification.

As shown in fig. 1, the first embodiment of the present invention discloses an embedded air conditioner with a lower air outlet, which includes a main frame 10 and an air outlet assembly 20, wherein the air outlet assembly 20 is connected to the main frame 10 in a liftable manner, the air outlet assembly 20 is provided with a side air outlet 21 and a lower air outlet 22, and the side air outlet 21 and the lower air outlet 22 are communicated with an air outlet duct 40 of the embedded air conditioner; when the embedded air conditioner is in a refrigeration mode, the side air inlet 21 is opened, and the lower air inlet 22 is closed; in the heating mode of the embedded air conditioner, the side air inlet 21 is closed, and the lower air inlet 22 is opened. The embedded air conditioner of the utility model can open the side air port 21 and close the lower air port 22 to blow cold air horizontally and realize 'waterfall type' refrigeration by arranging the lower air port 22 on the air outlet component 20 in the refrigeration mode; in the heating mode, the side air inlet 21 can be closed, and the lower air inlet 22 can be opened, so that hot air can be directly blown to the ground, and the heating effect can be improved. Suitable air outlets can be switched under different working modes by arranging the lower air opening 22 and the side air opening 21, so that the air supply effect is optimized, and the comfort of a user is improved.

The embedded air conditioner further comprises a wind screen 50, wherein the wind screen 50 is rotatably arranged on the wind outlet assembly 20, and the wind screen 50 closes the side air opening 21 or the lower air opening 22 through rotation. Through setting up deep bead 50, close or down wind gap 22 and close through rotation control side wind gap 21, realize the switching of air outlet to optimize the air supply effect, improve user's travelling comfort.

The number of wind deflectors 50 may be one or two. In this embodiment, the number of the wind deflectors 50 is one, the wind deflectors 50 are located between the side air opening 21 and the lower air opening 22, and the rotation axis of the wind deflectors 50 is located at the intersection position of the plane where the side air opening 21 is located and the plane where the lower air opening 22 is located. In the refrigeration mode of the embedded air conditioner, the wind shield 50 rotates to cover the position of the lower air opening 22, the lower air opening 22 is closed, and the side air opening 21 is opened; in the heating mode of the embedded air conditioner, the wind shield 50 rotates to cover the position of the side air inlet 21, the side air inlet 21 is closed, and the lower air inlet 22 is opened. The wind shield 50 is arranged between the side air inlet 21 and the lower air inlet 22, and the rotating shaft of the wind shield 50 is positioned at the intersection position of the plane of the side air inlet 21 and the plane of the lower air inlet 22. The wind shield 50 can cover the side air inlet 21 and the lower air inlet 22 through rotation, so that the states of the two air inlets can be controlled through one wind shield 50, the structure is simpler, and the cost is reduced.

In the second embodiment shown in fig. 2, the structure of the embedded air conditioner is substantially the same as that of the first embodiment, except that the wind guard 50 includes a first wind guard 51 and a second wind guard 52, the wind guard 50 is located at the position of the side air opening 21, and the first wind guard 51 opens or closes the side air opening 21 by rotating; the wind guard 50 is located at the position of the lower wind opening 22, and the second wind guard 52 opens or closes the lower wind opening 22 by rotating. When the embedded air conditioner is in a cooling mode, the first wind shield 51 opens the side air inlet 21, and the second wind shield 52 closes the lower air inlet 22; in the heating mode of the embedded air conditioner, the second air baffle 52 closes the side air inlet 21, and the second air baffle 52 opens the lower air inlet 22. By adopting the two wind shields 50 respectively arranged on the side air inlet 21 and the lower air inlet 22, the side air inlet 21 and the lower air inlet 22 can be respectively controlled, and the outlet air can be guided; in addition, when the embedded air conditioner is closed, the side air inlet 21 and the lower air inlet 22 can be closed at the same time, so that dust or insects are prevented from entering the air duct, and the cleanness of the air duct is ensured.

In the heating mode of the embedded air conditioner, the second air baffle 52 rotates to the outside of the air outlet assembly 20, and the second air baffle 52 is located between the lower air inlet 22 and the air return inlet of the embedded air conditioner. By arranging the second wind deflector 52, the wind can be guided, and the second wind deflector 52 is located between the lower wind inlet 22 and the return wind inlet of the embedded air conditioner. Therefore, the air outlet and the return air can be isolated, and the air outlet of the lower air inlet 22 is prevented from directly entering the return air channel through the return air inlet, so that the air outlet effect is greatly improved.

In the above embodiment, the air outlet assembly 20 includes the air outlet frame and the return air panel, and the return air panel is provided with the return air inlet, and the air outlet frame is connected with the return air panel and goes up and down together. In some other embodiments not shown in the drawings, the air outlet assembly 20 includes an air outlet frame, and the air outlet frame is lifted and lowered independently.

It should be noted that, in the above embodiment, the side air inlet 21 and the lower air inlet 22 are provided on the air outlet frame.

It is to be understood that the above-described embodiments of the present invention are merely examples provided for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. Not all embodiments are exhaustive. All obvious changes or variations led out by the technical scheme of the utility model are still in the protection scope of the utility model.

Claims (10)

1. An embedded air conditioner with a lower air outlet comprises a main body frame (10) and an air outlet component (20), wherein the air outlet component (20) is connected on the main body frame (10) in a lifting way,

the air outlet assembly (20) is provided with a side air inlet (21) and a lower air inlet (22), and the side air inlet (21) and the lower air inlet (22) are communicated with an air outlet duct (40) of the embedded air conditioner;

when the embedded air conditioner is in a refrigeration mode, the side air inlet (21) is opened, and the lower air inlet (22) is closed;

and in the heating mode of the embedded air conditioner, the side air opening (21) is closed, and the lower air opening (22) is opened.

2. The built-in air conditioner according to claim 1, further comprising:

the wind shield (50) is rotatably arranged on the wind outlet assembly (20), and the wind shield (50) closes the side air opening (21) or the lower air opening (22) through rotation.

3. The built-in air conditioner according to claim 2,

the wind shield (50) is one, the wind shield (50) is located between the side air opening (21) and the lower air opening (22), and a rotating shaft of the wind shield (50) is located at the intersection position of the plane where the side air opening (21) is located and the plane where the lower air opening (22) is located.

4. The built-in air conditioner according to claim 3,

when the embedded air conditioner is in a refrigeration mode, the wind shield (50) rotates to a position covering the lower air opening (22), the lower air opening (22) is closed, and the side air opening (21) is opened;

under the heating mode of the embedded air conditioner, the wind shield (50) rotates to cover the position of the side air opening (21), the side air opening (21) is closed, and the lower air opening (22) is opened.

5. The embedded air conditioner according to claim 2, wherein the wind deflector (50) includes:

a first wind deflector (51), the first wind deflector (51) being located at the position of the side tuyere (21), the first wind deflector (51) opening or closing the side tuyere (21) by rotating;

the second wind deflector (52), the second wind deflector (52) is located in the position of the lower wind gap (22), and the second wind deflector (52) opens or closes the lower wind gap (22) through rotation.

6. The built-in air conditioner according to claim 5,

when the embedded air conditioner is in a cooling mode, the first wind shield (51) opens the side air opening (21), and the second wind shield (52) closes the lower air opening (22);

in the heating mode of the embedded air conditioner, the second wind deflector (52) closes the side wind opening (21), and the second wind deflector (52) opens the lower wind opening (22).

7. The built-in air conditioner according to claim 6,

in the heating mode of the embedded air conditioner, the second air baffle (52) rotates to the outer side of the air outlet assembly (20), and the second air baffle (52) is located between the lower air inlet (22) and the air return inlet of the embedded air conditioner.

8. The built-in air conditioner according to claim 1,

the air outlet assembly (20) comprises an air outlet frame, and the air outlet frame is lifted independently.

9. The built-in air conditioner according to claim 1,

the air outlet assembly (20) comprises an air outlet frame and a return air panel, the return air panel is provided with a return air inlet, and the air outlet frame is connected with the return air panel and is lifted together.

10. The built-in air conditioner according to claim 8 or 9,

the side air opening (21) and the lower air opening (22) are arranged on the air outlet frame.

Images