CN110285561A - Convenient for switching the air ducting and air-conditioning of air-out mode - Google Patents

Abstract

The invention discloses a kind of air ductings convenient for switching air-out mode, it is arranged close to air outlet, including wind deflector, the first wind unit and the second wind unit are provided on wind deflector, first wind unit is different from the air exhausting structure on the second wind unit, and wind deflector is movably arranged at air outlet, so that the first wind unit or the alignment air outlet setting of the second wind unit, wind at air outlet can be blown out by the first wind unit or the second wind unit, to switch air-out mode；Also disclose a kind of air-conditioning including above-mentioned air ducting.Of the invention can be switched different air-out modes convenient for the air ducting and air-conditioning of switching air-out mode, meet user to the diverse requirements of wind sense and refrigeration effect；The handover operation of air-out mode is fast and convenient；The micropore air-out mode of air-conditioning can realize 90 ° or more of Wide blowing angle, outlet air can either be kept soft, and can be improved cold wind and blow range, reinforce refrigeration effect.

Description

Convenient for switching the air ducting and air-conditioning of air-out mode

Technical field

The present invention relates to a kind of air ducting more particularly to a kind of air ductings and air-conditioning convenient for switching air-out mode.

Background technique

Compared with general split-type air conditioner, mobile air conditioner have the advantages that it is easy for installation, arbitrarily move, and mobile air conditioner Power is small, can either be to local space fast cooling, and very power saving.

Existing mobile air conditioner, wind guiding mechanism are usually single plate structure, or be composed for muti-piece plate Lattice structure.The wind-guiding of this wind guiding mechanism is in the form of a single, and based on directly going out, straight outlet air blow-through human body is easy to make one to feel wind direction Discomfort or even sick；But if wind does not blow to human body, then for general split-type air conditioner, refrigeration effect is not again It is very ideal.

Summary of the invention

The invention proposes a kind of air ducting and air-conditioning convenient for switching air-out mode, difference is provided on air ducting Air exhausting structure, and can be quickly converted by simple operations between different air exhausting structure, to change air-out mode.Specific skill Art scheme is as follows:

A kind of air ducting convenient for switching air-out mode, is arranged, including wind deflector close to air outlet, is arranged on wind deflector There are the first wind unit and the second wind unit, the first wind unit is different from the air exhausting structure on the second wind unit, wind-guiding Plate is movably arranged at air outlet, so that the first wind unit or the second wind unit alignment air outlet are arranged, at air outlet Wind can be blown out by the first wind unit or the second wind unit, to switch air-out mode.

Further, rotary components are provided between wind deflector and air outlet, wind deflector can be by rotary components relative to out Air port rotation, so that the first wind unit or the alignment air outlet setting of the second wind unit on wind deflector.

Further, angle is formed between the first wind unit and the second wind unit on wind deflector.

Further, the first wind unit and the second wind unit are connected, in the first wind unit and the second wind unit Junction be provided with shaft, the first wind unit and the second wind unit can rotate around the axis.

Further, the first wind unit and the second wind unit are an integral structure.

Further, the first wind unit is lattice structure.

Further, the second wind unit is microcellular structure.

Further, the second wind unit is cambered surface, and multiple micropores are uniformly distributed in cambered surface.

Further, the micro-pore diameter on the second wind unit is along the bottom edge of cambered surface to the descending variation of top margin.

Further, the diameter of the maximum micropore on the second wind unit is 4mm to 5.5mm, and the diameter of minimum micropore is 2mm To 3.5mm.

A kind of air-conditioning, including the air ducting convenient for switching air-out mode described above.

Further, including shell, wind deflector are movably arranged on shell by rotary components, and blower is provided in shell, It is formed with angle between the first wind unit and the second wind unit on wind deflector, angle space is corresponding with the outlet air end of blower Setting, wind deflector can be rotated around rotary components, so that the outlet air of blower is blown out by the first wind unit or the second wind unit.

Further, air-conditioning is movable air conditioner.

Of the invention has the advantage that convenient for the air ducting and air-conditioning of switching air-out mode

1, in use, air-conditioning can be switched to different air-out modes, meet user to the more of wind sense and refrigeration effect Sample demand；

2, the handover operation of air-out mode is fast and convenient；

3, the micropore air-out mode of air-conditioning can realize 90 ° or more of Wide blowing angle, and outlet air can either be made soft, and can mention High cold wind blows range, reinforces refrigeration effect.

Detailed description of the invention

Fig. 1 is the perspective view of the air-conditioning in the present invention.

Fig. 2 is the schematic diagram of internal structure of the air-conditioning in the present invention.

Fig. 3 is the perspective view of the wind deflector in the present invention.

Fig. 4 is the side sectional view of the air-conditioning in the present invention.

Fig. 5 is the schematic diagram of the wind deflector switching air-out mode in the present invention.

Fig. 6 is the schematic diagram of the wind deflector switching air-out mode in the present invention.

Fig. 7 is the partial enlarged view of the wind deflector in the present invention.

Fig. 8 is the air-out effect schematic diagram of the wind deflector in the present invention

Specific embodiment

In order to be best understood from the purpose of the present invention, function and specific design scheme, with reference to the accompanying drawing, to the present invention Convenient for switching air-out mode air ducting and air-conditioning be described in further detail.

As depicted in figs. 1 and 2, the air-conditioning in the present invention includes shell 1, and air inlet grid 2 is provided on the side wall of shell 1, It is provided with blower 3 in shell 1, enters the wind and is provided with evaporator 4 between grid 2 and blower 3.The top of shell 1 is provided with air outlet, Wind deflector 5 is provided at air outlet, blower 3 rotates, and enters extraneous air inside shell 1 by air inlet grid 2, air warp After pervaporation device 4 is cooling, then passing through blower 3 and blow to wind deflector 5, air after cooling is blown out outside shell 1 by wind deflector 5, Form cold wind.

Specifically, as shown in figure 3, wind deflector 5 include the first wind unit 51 interconnected and the second wind unit 52, Wind deflector 5 can rotate at air outlet, to change the position of the first wind unit 51 and the second wind unit 52, make after cooling Air can be blown out outside shell 1 by the first wind unit 51 or the second wind unit 52.Due to the first wind unit 51 and second Air exhausting structure on wind unit 52 is different, therefore the mode of cold wind blowout and effect are also different.

Further, the first wind unit 51 is lattice structure made of multiple thin plates are arranged side by side, the cold wind that air-conditioning generates It can be blown out by lattice structure.The cold wind air quantity blown out by lattice structure is larger, and the direction controllability that cold wind blows is strong, can Achieve the effect that fast cooling, but long-time blow-through human body easily causes discomfort.

Further, the micropore of multiple evenly dispersed layings is offered on the second wind unit 52, the cold wind that air-conditioning generates can It is blown out by multiple micropores.Microcellular structure can control and reduce the air output of cold wind, keep wind sense soft comfortable, although cooling speed Degree and cooling effect are weaker compared with lattice structure, but are more suitable for blowing for a long time, maintain ambient temperature-stable.

Preferably, as shown in Figure 7 and Figure 8, it is in arc surfaced that the second wind unit 52 is whole, and multiple micropores are evenly arranged in arc On face.The size of multiple micropores is different, and the diameter of micropore is along the bottom edge of cambered surface to the descending even variation of top margin.Due to Second wind unit 52 is cambered surface, therefore the axial direction of every row's micropore is all different in cambered surface, i.e., the wind blown out by micropore, Blowing direction is not also identical；The blowing direction of wind changes along the circumferential direction of cambered surface, and blowing direction is not less than 90 °, it can be achieved that 90 ° or more Wide blowing angle effect, increase wind blows range.

Further, since micro-pore diameter descending variation from bottom to top, therefore the intensity of the air quantity and wind blowed is also by big To small variation.In general, the lower half of the air-conditioning cambered surface that is located closer to second wind unit 52 opposite with human body, therefore cambered surface The pore size of lower half is larger, and blowout in front of wind direction, air quantity is big and soft, can make one body-sensing by better refrigeration effect Fruit；The upper half pore size of the cambered surface of second wind unit 52 is smaller, and blows above wind direction, can supplement as cold wind, Auxiliary keeps room temperature to stablize.

Preferably, the diameter of the maximum micropore on the second wind unit 52 is 4mm to 5.5mm, and the diameter of minimum micropore is 2mm to 3.5mm.

Further, it is formed with angle between the first wind unit 51 and the second wind unit 52, in the first wind unit 51 It is provided with shaft 53 at the position being connected with the second wind unit 52, axis hole, shaft 53 are correspondingly arranged on the shell 1 of air-conditioning End be movably arranged in axis hole, rotate shaft 53 can in axis hole, and then make the first wind unit 51 and the second outlet air Unit 52 can go out rotate in air outlet.

Preferably, the first wind unit 51 of wind deflector 5 and the second wind unit 52 are an integral structure, the first outlet air list Member 51 and the second wind unit 52 can 53 synchronous rotaries around the shaft.

Further, as shown in Figure 4, Figure 5 and Figure 6, the angle institute between the first wind unit 51 and the second wind unit 52 The angle space of formation and the outlet air end of blower 3 are correspondingly arranged.When wind deflector 5 is located at position shown in Fig. 4, the second wind unit 52 are located at air outlet, and the cold wind that blower 3 is sent out via angle space, is blown out, first goes out just by the second wind unit 52 Wind unit 51 will not cause to hinder to cold wind.When needing to switch air-out mode, it is only necessary to by the second lift upwards of wind unit 52 It rises, makes the first wind unit 51 and the second wind unit 52 while around the shaft 53 rotation, the first wind unit 51 can be switched To air outlet, change air-out mode.

In the present invention is preferably movable air conditioner convenient for the air ducting and air-conditioning of switching air-out mode, can also be fission Formula air-conditioning；The air ducting convenient for switching air-out mode in the present invention is also applicable on other exhaust apparatus, for switching Air-out mode.

Of the invention has the advantage that convenient for the air ducting and air-conditioning of switching air-out mode

1, in use, air-conditioning can be switched to different air-out modes, meet user to the more of wind sense and refrigeration effect Sample demand；

2, the handover operation of air-out mode is fast and convenient；

3, the micropore air-out mode of air-conditioning can realize 90 ° or more of Wide blowing angle, and outlet air can either be made soft, and can mention High cold wind blows range, reinforces refrigeration effect.

The present invention is further described by specific embodiment above, it should be understood that, here specifically Description, should not be construed as the restriction for the essence of the present invention with range, and one of ordinary skilled in the art is reading this explanation The various modifications made after book to above-described embodiment belong to the range that the present invention is protected.

Claims (13)

1. a kind of air ducting convenient for switching air-out mode, is arranged, which is characterized in that including wind deflector, lead close to air outlet The first wind unit and the second wind unit, the air exhausting structure on the first wind unit and the second wind unit are provided on aerofoil Difference, wind deflector are movably arranged at air outlet, so that the first wind unit or the alignment air outlet setting of the second wind unit, out Wind at air port can be blown out by the first wind unit or the second wind unit, to switch air-out mode.

2. the air ducting convenient for switching air-out mode as described in claim 1, which is characterized in that wind deflector and air outlet it Between be provided with rotary components, wind deflector can be rotated by rotary components relative to air outlet, so that the first outlet air on wind deflector Unit or the alignment air outlet setting of the second wind unit.

3. the air ducting convenient for switching air-out mode as claimed in claim 1 or 2, which is characterized in that the on wind deflector Angle is formed between one wind unit and the second wind unit.

4. the air ducting convenient for switching air-out mode as claimed in claim 3, which is characterized in that the first wind unit and the Two wind units are connected, and the junction of the first wind unit and the second wind unit is provided with shaft, the first wind unit It can rotate around the axis with the second wind unit.

5. the air ducting as described in claim 1 or 4 convenient for switching air-out mode, which is characterized in that the first wind unit It is an integral structure with the second wind unit.

6. the air ducting as described in claim 1 convenient for switching air-out mode, which is characterized in that the first wind unit is grid Lattice structure.

7. the air ducting as described in claim 1 or 6 convenient for switching air-out mode, which is characterized in that the second wind unit For microcellular structure.

8. the air ducting as claimed in claim 7 convenient for switching air-out mode, which is characterized in that the second wind unit is arc Face, multiple micropores are uniformly distributed in cambered surface.

9. the air ducting as claimed in claim 8 convenient for switching air-out mode, which is characterized in that on the second wind unit Micro-pore diameter is along the bottom edge of cambered surface to the descending variation of top margin.

10. the air ducting as claimed in claim 9 convenient for switching air-out mode, which is characterized in that on the second wind unit The diameter of maximum micropore be 4mm to 5.5mm, the diameter of minimum micropore is 2mm to 3.5mm.

11. a kind of air-conditioning, which is characterized in that including any described convenient for switching air-out mode in the claims 1 to 10 Air ducting.

12. air-conditioning as claimed in claim 11, which is characterized in that including shell, wind deflector is arranged by rotary components activity On shell, it is provided with blower in shell, is formed with angle between the first wind unit and the second wind unit on wind deflector, The outlet air end in angle space and blower between the first wind unit and the second wind unit is correspondingly arranged, and wind deflector can be around rotation Component rotation, so that the outlet air of blower is blown out by the first wind unit or the second wind unit.

13. air-conditioning as claimed in claim 12, which is characterized in that air-conditioning is movable air conditioner.