CN204187793U - A rimq device, spiral case subassembly and air conditioner for spiral case - Google Patents

Abstract

The utility model discloses a rimq device, spiral case subassembly and air conditioner for spiral case relates to the air supply arrangement field. The technical problem of large air quantity loss in the prior art is solved. The wind shielding device for the volute comprises a wind shielding plate and a driving mechanism, wherein the driving mechanism is connected with the wind shielding plate and can drive the wind shielding plate to move to a first wind outlet position which shields a second wind outlet of the volute and exposes out of a first wind outlet or a second wind outlet position which shields the first wind outlet of the volute and exposes out of a second wind outlet; when the wind shield moves to the first air outlet position, an annular air duct which surrounds the fan in the volute and is communicated with the first air outlet and is complete is formed between the wind shield and the volute; when the wind shield moves to the second air outlet position, a complete annular air duct surrounding the fan in the volute and communicated with the second air outlet is formed between the wind shield and the volute. The air conditioner includes the wind shielding device for the volute. The utility model is used for reduce the noise and the air loss of air conditioner.

Description

For the abat-vent of spiral case, spiral case assembly and air-conditioner

Technical field

The utility model relates to air-supply arrangement field, particularly relates to a kind of abat-vent for spiral case, spiral case assembly and arranges this air-conditioner for the abat-vent of spiral case.

Background technology

Mostly air-conditioning is all single air outlet in the market, for the air-conditioner of a small amount of multi-air outlet structure, they in working order under, there is air-out in each air port.On open market, the distribution of existing air conditioner wind outlet is roughly as follows: air-out mode, left and right and lower air-out mode, four sides air-out mode etc. up and down, but do not have a kind of can the function of certain air port air-out of unrestricted choice.

The applicant finds: prior art at least exists following technical problem:

1, the air outlet of existing air-conditioner is by wind deflector to control air-out direction, and does not design a mechanism and can close some air outlets or control the closed of multiple air outlet.Cannot better meet the upper air-out of refrigeration like this, heat the implementation of lower air-out, comfortableness is lower.

2, utilize wind deflector to close to block a certain air port in prior art, thus block the frame mode of air-out, realize by this method selecting which air port air-out, that air port not air-out.This mode is owing to being directly stop air port, easily gets muddled in the flow field in air channel near air port, produces whirlpool, and can produce noise problem;

3. utilize wind deflector to block air port in prior art, not only can affect air channel noise problem, also not following the wind due to shield portions forms an entirety, duct cross-section is not smooth, be subject to the impact of whirlpool simultaneously, cause drainage, water conservancy diversion not exclusively, easily cause the loss of air quantity.

Utility model content

One of them object of the present utility model proposes a kind of abat-vent for spiral case, spiral case assembly and arranges this air-conditioner for the abat-vent of spiral case, solves prior art and there is the larger technical problem of wind loss.

Many technique effects that optimal technical scheme in the many technical schemes of the utility model can produce refer to hereafter sets forth.

For achieving the above object, the utility model provides following technical scheme:

The abat-vent for spiral case that the utility model embodiment provides comprises deep bead and driving mechanism, wherein:

Spiral case is provided with the first air outlet and the second air outlet, and described deep bead is arranged in described spiral case;

Described driving mechanism is connected with described deep bead and second air outlet that described deep bead can be driven to move to shelter from spiral case and expose the first air-out position of the first air outlet or move to described first air outlet and the second air-out position of exposing described second air outlet that shelter from described spiral case;

When described deep bead moves to described first air-out position, formed around the fan in described spiral case between described deep bead with described spiral case, be connected and complete annular passage with described first air outlet;

When described deep bead moves to described second air-out position, formed around the fan in described spiral case between described deep bead with described spiral case, be connected and complete annular passage with described second air outlet.

In preferably or alternatively embodiment, described driving mechanism can also drive described deep bead to move to expose the 3rd air-out position of described first air outlet and described second air outlet simultaneously;

When described deep bead moves to described 3rd air-out position, formed around the fan in described spiral case between described deep bead with described spiral case, to be all connected with described first air outlet, described second air outlet and the smooth air channel of duct cross-section.

In preferably or alternatively embodiment, described deep bead comprises first gear aerofoil and second gear aerofoil.

In preferably or alternatively embodiment, described deep bead comprises first gear aerofoil and second gear aerofoil.In preferably or alternatively embodiment, the medial surface of described first gear aerofoil and described second gear aerofoil is cambered surface.

In preferably or alternatively embodiment, the lateral surface of described first gear aerofoil and described second gear aerofoil is provided with double wedge.

In preferably or alternatively embodiment, described driving mechanism comprises rotary power output device and drive mechanism, wherein:

Described drive mechanism is arranged on described first gear aerofoil, between described second gear aerofoil and described rotary power output device, described rotary power output device drives described first gear aerofoil and second gear aerofoil around described fan turns extremely described first air-out position, described second air-out position and described 3rd air-out position by described drive mechanism.

In preferably or alternatively embodiment, described rotary power output device is motor, and described drive mechanism is the gear transmission structure be meshed with described double wedge.

In preferably or alternatively embodiment, described gear transmission structure is the travelling gear be connected with described electric machine main shaft.

In preferably or alternatively embodiment, described first gear aerofoil and described second gear aerofoil include separately to be held and small end greatly, and at described fan in the radial direction, the size of described large end is greater than described small end;

When described first gear aerofoil and described second gear aerofoil all move to described first air-out position separately, the described large end of described first gear aerofoil moves to the snail tongue position of the described spiral case around described first air outlet, the small end of described second gear aerofoil moves to the snail tongue position of the described spiral case around described second air outlet, and the described small end of described first gear aerofoil and the large end of described second gear aerofoil connect;

When described first gear aerofoil and described second gear aerofoil all move to described second air-out position separately, the described large end of described second gear aerofoil moves to the snail tongue position of the described spiral case around described second air outlet, the described small end of described first gear aerofoil moves to the snail tongue position of the described spiral case around described first air outlet, and the described large end of described first gear aerofoil and the small end of described second gear aerofoil connect.

In preferably or alternatively embodiment, between described deep bead and described spiral case, be also provided with position limiting structure, wherein:

Described first gear aerofoil and described second gear aerofoil all move to separately described first air-out position, described second air-out position and described 3rd air-out position time, described position limiting structure can apply barrier force to described first gear aerofoil and described second gear aerofoil.

In preferably or alternatively embodiment, described position limiting structure comprises spacing preiection, the first positive stop and the second positive stop, wherein:

The respective described large end of described first gear aerofoil and described second gear aerofoil and described small end are provided with described spacing preiection, described first positive stop is installed on the snail tongue position of the described spiral case around described first air outlet, and described second positive stop is installed on the snail tongue position of the described spiral case around described second air outlet;

When described first gear aerofoil and described second gear aerofoil all move to described first air-out position separately, spacing preiection on the described large end of described first gear aerofoil and described first positive stop connect, spacing preiection on the described small end of described second gear aerofoil and described second positive stop connect, and the large end of the spacing preiection on the described small end of described first gear aerofoil and described second gear aerofoil connects;

When described first gear aerofoil and described second gear aerofoil all move to described second air-out position separately, spacing preiection on the described small end of described first gear aerofoil and described first positive stop connect, spacing preiection on the described large end of described second gear aerofoil and described second positive stop connect, and the spacing preiection on the described large end of described first gear aerofoil and the small end of described second gear aerofoil connects.

In preferably or alternatively embodiment, when described first gear aerofoil and described second gear aerofoil all move to described first air-out position separately, on the direction of described first air outlet to described second air outlet, described first gear aerofoil and the distance between described second gear aerofoil and described fan increase gradually;

When described first gear aerofoil and described second gear aerofoil all move to described second air-out position separately, on the direction of described second air outlet to described first air outlet, described first gear aerofoil and the distance between described second gear aerofoil and described fan increase gradually.

The spiral case assembly that the utility model embodiment provides, comprises spiral case, and described spiral case is provided with exhaust air flue and lower exhaust air flue, also comprises the abat-vent for spiral case that the arbitrary technical scheme of the utility model described above provides, wherein:

The air outlet of described upper exhaust air flue forms described first air outlet, and the air outlet of described lower exhaust air flue forms described second air outlet.

The air-conditioner that the utility model embodiment provides, comprises the abat-vent for spiral case that the arbitrary technical scheme of spiral case, fan and the utility model provides, and described fan is arranged in described spiral case.

Based on technique scheme, the utility model embodiment at least can produce following technique effect:

The utility model provide in the abat-vent of spiral case, driving mechanism can drive deep bead to move to the first air-out position or the second air-out position, when no matter deep bead moves to the first air-out position or when deep bead moves to the second air-out position, all can be formed around the fan in spiral case between deep bead and spiral case, be connected and complete annular passage with the first air outlet or the second air outlet, complete annular passage not easily gets muddled, whirlpool can not be produced, so noise is little, noise problem can not be produced, simultaneously, there is not other airflow leaks mouths in complete annular passage except the first air outlet or the second air outlet, efficiently avoid wind loss, so solve prior art to there is the larger technical problem of wind loss.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, and form a application's part, schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 for the utility model embodiment provide for when in the abat-vent of spiral case, deep bead moves to the first air-out position, the schematic diagram of position relationship between deep bead and spiral case, fan;

Fig. 2 for the utility model embodiment provide for when in the abat-vent of spiral case, deep bead moves to the second air-out position, the schematic diagram of position relationship between deep bead and spiral case, fan;

Fig. 3 for the utility model embodiment provide for when in the abat-vent of spiral case, deep bead moves to the 3rd air-out position, the schematic diagram of position relationship between deep bead and spiral case, fan;

Reference numeral: 1, deep bead; 11, first gear aerofoil; 12, second gear aerofoil; 21, the first air outlet; 22, the second air outlet; 111, hold greatly; 112, small end; 121, hold greatly; 122, small end; 4, double wedge; 5, position limiting structure; 50, spacing preiection; 51, the first positive stop; 52, the second positive stop; 6, spiral case; 7, fan.

Detailed description of the invention

Content of the present utility model and the distinctive points between the utility model and prior art can be understood below with reference to accompanying drawing Fig. 1 ~ Fig. 3 and word content.Hereafter by accompanying drawing and the mode enumerating embodiment more of the present utility model, the technical solution of the utility model (comprising optimal technical scheme) is described in further detail.It should be noted that: any technical characteristic in the present embodiment, any technical scheme is all one or more in the technical characteristic of plurality of optional or optional technical scheme, cannot exhaustive all alternative technical characteristics of the present utility model and alternative technical scheme in order to describe succinct to need in presents, also the embodiment being not easy to each technical characteristic all emphasizes that it is one of optional numerous embodiments, so those skilled in the art should know: arbitrary technological means that the utility model can be provided carries out two or more technological means any of replacing or being provided by the utility model or technical characteristic carries out mutually combining and obtaining new technical scheme.Any technical characteristic in the present embodiment and any technical scheme all do not limit protection domain of the present utility model, protection domain of the present utility model should comprise those skilled in the art do not pay creative work thinkable any alternate embodiments and those skilled in the art two or more technological means any that the utility model is provided or the technical characteristic new technical scheme carrying out mutually combining and obtain.

The utility model embodiment provides a kind of noise is little, wind loss the is few abat-vent for spiral case, arrange this for the spiral case assembly of the abat-vent of spiral case and arrange this air-conditioner for the abat-vent of spiral case.

Below in conjunction with the elaboration that Fig. 1 ~ Fig. 3 carries out specifically to the technical scheme that the utility model provides.

As shown in FIG. 1 to 3, the abat-vent for spiral case 6 that the utility model embodiment provides, comprises deep bead 1 and driving mechanism, wherein:

Spiral case 6 is provided with the first air outlet (in Fig. 1-Fig. 3, above air outlet is example) 21 and the second air outlet (in Fig. 1-Fig. 3, following air outlet is example) 22, and deep bead 1 is arranged in spiral case 6.

Driving mechanism is connected with deep bead 1 and deep bead 1 can be driven to move to and shelters from the second air outlet 22 of spiral case 6 as shown in Figure 1 and expose the first air-out position of the first air outlet 21 or move to the first air outlet 21 and the second air-out position of exposing the second air outlet 22 that shelter from spiral case 6 as shown in Figure 2.When deep bead 1 moves to the first air-out position, formed around the fan 7 in spiral case 6 between deep bead 1 with spiral case 6, be connected and complete annular passage with the first air outlet 21.

When deep bead 1 moves to the second air-out position, formed around the fan 7 in spiral case 6 between deep bead 1 with spiral case 6, be connected and complete annular passage with the second air outlet 22.

In the abat-vent for spiral case 6 that the utility model provides, driving mechanism can drive deep bead 1 to move to the first air-out position or the second air-out position, when no matter deep bead 1 moves to the first air-out position or when deep bead 1 moves to the second air-out position, all can be formed between deep bead 1 and spiral case 6 around the fan 7 in spiral case 6, be connected and complete annular passage with the first air outlet 21 or the second air outlet 22, complete annular passage not easily gets muddled, whirlpool can not be produced, so noise is little, noise problem can not be produced, simultaneously, there is not other airflow leaks mouths in complete annular passage except the first air outlet 21 or the second air outlet 22, efficiently avoid wind loss.

As preferably or alternatively embodiment, driving mechanism can also drive deep bead 1 to move to expose as shown in Figure 3 the 3rd air-out position of the first air outlet 21 and the second air outlet 22 simultaneously.

When deep bead 1 moves to the 3rd air-out position, formed around the fan 7 in spiral case 6 between deep bead 1 with spiral case 6, to be all connected with the first air outlet 21, second air outlet 22 and the smooth air channel of duct cross-section.

Said structure can realize the air-out all simultaneously of the first air outlet 21 and the second air outlet 22, and wind loss more effectively can be reduced in the smooth air channel of duct cross-section.

As another kind of embodiment, deep bead 1 comprises first gear aerofoil 11 and second gear aerofoil 12.By first gear aerofoil 11 and second gear aerofoil 12 dock the deep bead 1 formed have be convenient to install, mobile, the convenient advantage driven.Certainly, deep bead 1 can be only one piece of deep bead and be formed, and also can be that more than two pieces deep bead docking are formed.

As preferably or alternatively embodiment, first gear aerofoil 11 is cambered surface with the medial surface of second gear aerofoil 12.Cambered surface can reduce the resistance caused the air-flow flow through effectively, avoids getting muddled, whirlpool, and noise is little.

Deep bead 1, first gear aerofoil 11 are reaping hook arc separately with second gear aerofoil 12, and inner side molded line is similar to existing spiral case inlet pressure.This structure is convenient to coordinate with spiral case 7 form involute shape medial surface, and then contributes to reducing aerodynamic loss.

As preferably or alternatively embodiment, first gear aerofoil 11 is provided with double wedge 4 with the lateral surface of second gear aerofoil 12.Double wedge 4 is convenient to processing, is manufactured.Adopt the driving that gear transmission structure can utilize this double wedge 4 to realize first gear aerofoil 11 and second gear aerofoil 12.Double wedge 4 can be the teeth of multiple projection, also can be the position, interval between multiple adjacent groove.

As preferably or alternatively embodiment, driving mechanism comprises rotary power output device and drive mechanism, wherein: rotary power output device can be motor, and drive mechanism is gear transmission structure.Drive mechanism is arranged on first gear aerofoil 11, between second gear aerofoil 12 and rotary power output device, rotary power output device drives first gear aerofoil 11 and second gear aerofoil 12 to turn to the first air-out position, the second air-out position and the 3rd air-out position around fan 7 by drive mechanism.Gear transmission structure can be the travelling gear be connected with electric machine main shaft.

Rotary power output device is adopted to drive first gear aerofoil 11 and second gear aerofoil 12 is easily quick when fan 7 rotates switches air channel.In addition, gear transmission structure compact conformation, mechanical energy transmission efficiency is higher.

As preferably or alternatively embodiment, first gear aerofoil 11 and both second gear aerofoils 12 include separately hold and small end greatly, and at fan 7 in the radial direction, the size of holding greatly is greater than small end.

When first gear aerofoil 11 all moves to the first air-out position separately with both second gear aerofoils 12, the large end 111 of first gear aerofoil 11 moves to the snail tongue position of the spiral case 6 around the first air outlet 21, the small end 122 of second gear aerofoil 12 moves to the snail tongue position of the spiral case 6 around the second air outlet 22, and the small end 112 of first gear aerofoil 11 connects with the large end 121 of second gear aerofoil 12;

When first gear aerofoil 11 all moves to the second air-out position separately with both second gear aerofoils 12, the large end 121 of second gear aerofoil 12 moves to the snail tongue position of the spiral case 6 around the second air outlet 22, the small end 112 of first gear aerofoil 11 moves to the snail tongue position of the spiral case 6 around the first air outlet 21, and the large end 111 of first gear aerofoil 11 connects with the small end 122 of second gear aerofoil 12.

Due at fan 7 in the radial direction, the size of large end is greater than small end, so around the axis of rotation first gear aerofoil 11 of fan 7 with second gear aerofoil 12 time, spacing separately and between fan 7 of large end and small end is also inconsistent, the air channel that this structure is formed can form whirlpool pressing system, can be led a large amount of wind the first air outlet 21 or the second air outlet 22, avoids the loss of air quantity.

As preferably or alternatively embodiment, when first gear aerofoil 11 all moves to the first air-out position separately with both second gear aerofoils 12, on the direction of the first air outlet 21 to the second air outlet 22, both first gear aerofoil 11 and second gear aerofoil 12 and the distance between fan 7 increase gradually;

When first gear aerofoil 11 all moves to the second air-out position separately with both second gear aerofoils 12, on the direction of the second air outlet 22 to the first air outlet 21, both first gear aerofoil 11 and second gear aerofoil 12 and the distance between fan 7 increase gradually.

The madial wall of first gear aerofoil 11 and second gear aerofoil 12 and spiral case 6 forms a gradually wide opening air channel (namely first gear aerofoil 11 and the distance between the respective madial wall of second gear aerofoil 12 and fan 7 increase gradually).This air channel can form more preferably whirlpool pressing system, more effectively avoids the loss of air quantity thus.

As preferably or alternatively embodiment, position limiting structure 5 is also provided with between deep bead 1 and spiral case 6, deep bead 1 move to the first air-out position, the second air-out position and the 3rd air-out position time, position limiting structure 5 can apply barrier force to first gear aerofoil 11 and second gear aerofoil 12.Position limiting structure 5 can guarantee the accuracy of first gear aerofoil 11 and second gear aerofoil 12 position adjustments.

As preferably or alternatively embodiment, position limiting structure 5 comprises spacing preiection 50, first positive stop 51 and the second positive stop 52, wherein: first gear aerofoil 11 two ends respective with both second gear aerofoils 12 are provided with spacing preiection 50.First positive stop 51 is installed on the snail tongue position of the spiral case 6 around the first air outlet 21, and the second positive stop 52 is installed on the snail tongue position of the spiral case 6 around the second air outlet 22;

When first gear aerofoil 11 all moves to the first air-out position separately with both second gear aerofoils 12, spacing preiection 50 on the large end of first gear aerofoil 11 and the first positive stop 51 connect, spacing preiection 50 on the small end of second gear aerofoil 12 and the second positive stop 52 connect, and the spacing preiection 50 on the small end of first gear aerofoil 11 connects with the large end of second gear aerofoil 12;

When first gear aerofoil 11 all moves to the second air-out position separately with both second gear aerofoils 12, spacing preiection 50 on the small end of first gear aerofoil 11 and the first positive stop 51 connect, spacing preiection 50 on the large end of second gear aerofoil 12 and the second positive stop 52 connect, and the spacing preiection 50 on the large end of first gear aerofoil 11 and the small end of second gear aerofoil 12 connects.

Above-mentioned position limiting structure 5 is convenient to processing, is manufactured, with low cost, and compact conformation, save space.The spiral case assembly that the utility model embodiment provides, comprise spiral case 6, spiral case 6 is provided with exhaust air flue and lower exhaust air flue, also comprise the abat-vent for spiral case that the as above arbitrary technical scheme of the utility model provides, wherein: the air outlet of upper exhaust air flue forms the first air outlet 21, and the air outlet of lower exhaust air flue forms the second air outlet 22.

The abat-vent for spiral case provided due to the utility model can produce aforementioned techniques effect, so adopt spiral case assembly of the present utility model at least also can produce aforementioned techniques effect.When the locus of spiral case assembly changes, upper exhaust air flue and lower exhaust air flue also can be considered as left exhaust air flue and right exhaust air flue.

The air-conditioner that the utility model embodiment provides comprises the abat-vent for spiral case 6 that spiral case 6, fan 7 and the arbitrary technical scheme of the utility model provide, and fan 7 is arranged in spiral case 6.The abat-vent for spiral case 6 provided due to the utility model can produce aforementioned techniques effect, so adopt air-conditioner of the present utility model at least also can produce aforementioned techniques effect, is conducive to the performance and the operating efficiency that improve air-conditioner.

Certainly, the abat-vent for spiral case 6 that the utility model provides also can be applied to other household electrical appliance (such as smoke exhaust ventilator) outside air-conditioner.

Above-mentioned arbitrary technical scheme disclosed in the utility model unless otherwise stated, if the number range of it discloses, so disclosed number range is preferred number range, anyly it should be appreciated by those skilled in the art: preferred number range is only the numerical value that in many enforceable numerical value, technique effect is obvious or representative.Because numerical value is more, cannot be exhaustive, so the utility model just discloses component values to illustrate the technical solution of the utility model, and the above-mentioned numerical value enumerated should not form restriction the utility model being created to protection domain.

If employ the word such as " first ", " second " herein to limit parts, those skilled in the art should know: the use of " first ", " second " is only used to be convenient to describe carry out difference as not having outside Stated otherwise to parts, the implication that above-mentioned word is not special.

Simultaneously, if above-mentioned the utility model discloses or relate to parts or the structural member of connection fastened to each other, so, unless otherwise stated, be fixedly connected with and can be understood as: can releasably be fixedly connected with (such as using bolt or screw to connect), also can be understood as: to be non-removablely fixedly connected with (such as rivet, weld), certainly, connection fastened to each other also can be replaced by integral type structure (such as use casting technique is integrally formed create) (obviously cannot adopt except integrally formed technique).

In addition, apply in arbitrary technical scheme disclosed in above-mentioned the utility model for represent position relationship or shape term unless otherwise stated its implication comprise approximate with it, similar or close state or shape.Arbitrary parts that the utility model provides both can be assembled by multiple independent part, and also can be one of the forming manufacture technics separate part out.

Finally should be noted that: above embodiment is only in order to illustrate that the technical solution of the utility model is not intended to limit; Although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the field have been to be understood that: still can modify to detailed description of the invention of the present utility model or carry out equivalent replacement to portion of techniques feature; And not departing from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope of the utility model request protection.

Claims (15)

1. for an abat-vent for spiral case, it is characterized in that, comprise deep bead (1) and driving mechanism, wherein:

Spiral case is provided with the first air outlet (21) and the second air outlet (22), and described deep bead (1) is arranged in described spiral case (6);

Described driving mechanism is connected with described deep bead (1) and described deep bead (1) can be driven to move to and shelters from second air outlet (22) of spiral case (6) and expose the first air-out position of the first air outlet (21) or move to described first air outlet (21) and the second air-out position of exposing described second air outlet (22) that shelter from described spiral case (6);

When described deep bead (1) moves to described first air-out position, formed around the fan (7) in described spiral case (6) between described deep bead (1) with described spiral case (6), be connected and complete annular passage with described first air outlet (21);

When described deep bead (1) moves to described second air-out position, formed around the fan (7) in described spiral case (6) between described deep bead (1) with described spiral case (6), be connected and complete annular passage with described second air outlet (22).

2. the abat-vent for spiral case according to claim 1, it is characterized in that, described driving mechanism can also drive described deep bead (1) to move to expose the 3rd air-out position of described first air outlet (21) and described second air outlet (22) simultaneously;

When described deep bead (1) moves to described 3rd air-out position, formed around the fan (7) in described spiral case (6) between described deep bead (1) with described spiral case (6), to be all connected with described first air outlet (21), described second air outlet (22) and the smooth air channel of duct cross-section.

3. the abat-vent for spiral case according to claim 1 and 2, is characterized in that, described deep bead (1) comprises first gear aerofoil (11) and second gear aerofoil (12).

4. the abat-vent for spiral case according to claim 2, is characterized in that, described deep bead (1) comprises first gear aerofoil (11) and second gear aerofoil (12).

5. the abat-vent for spiral case according to claim 4, is characterized in that, described first gear aerofoil (11) is cambered surface with the medial surface of described second gear aerofoil (12).

6. the abat-vent for spiral case according to claim 4, is characterized in that, described first gear aerofoil (11) is provided with double wedge (4) with the lateral surface of described second gear aerofoil (12).

7. the abat-vent for spiral case according to claim 6, is characterized in that, described driving mechanism comprises rotary power output device and drive mechanism, wherein:

Described drive mechanism is arranged on described first gear aerofoil (11), between described second gear aerofoil (12) and described rotary power output device, described rotary power output device drives described first gear aerofoil (11) and second gear aerofoil (12) to turn to described first air-out position, described second air-out position and described 3rd air-out position around described fan (7) by described drive mechanism.

8. the abat-vent for spiral case according to claim 7, is characterized in that, described rotary power output device is motor, and described drive mechanism is the gear transmission structure be meshed with described double wedge.

9. the abat-vent for spiral case according to claim 8, is characterized in that, described gear transmission structure is the travelling gear be connected with described electric machine main shaft.

10. the abat-vent for spiral case according to claim 4, it is characterized in that, described first gear aerofoil (11) and described second gear aerofoil (12) both include separately and hold and small end greatly, at described fan (7) in the radial direction, the size of described large end is greater than described small end;

Described first gear aerofoil (11) is with when all moving to described first air-out position separately both described second gear aerofoil (12), the described large end (111) of described first gear aerofoil (11) moves to the snail tongue position of described first air outlet (21) described spiral case (6) around, the small end (122) of described second gear aerofoil (12) moves to the snail tongue position of described second air outlet (22) described spiral case (6) around, the described small end (112) of described first gear aerofoil (11) and the large end (121) of described second gear aerofoil (12) connect,

Described first gear aerofoil (11) is with when all moving to described second air-out position separately both described second gear aerofoil (12), the described large end (121) of described second gear aerofoil (12) moves to the snail tongue position of described second air outlet (22) described spiral case (6) around, the described small end (112) of described first gear aerofoil (11) moves to the snail tongue position of described first air outlet (21) described spiral case (6) around, the described large end of described first gear aerofoil (11) and the small end of described second gear aerofoil (12) connect.

11. abat-vents for spiral case according to claim 10, is characterized in that, are also provided with position limiting structure (5) between described deep bead (1) and described spiral case (6), wherein:

Described first gear aerofoil (11) and described second gear aerofoil (12) both all move to separately described first air-out position, described second air-out position and described 3rd air-out position time, described position limiting structure (5) can apply barrier force to described first gear aerofoil (11) and described second gear aerofoil (12).

12. abat-vents for spiral case according to claim 11, it is characterized in that, described position limiting structure (5) comprises spacing preiection (50), the first positive stop (51) and the second positive stop (52), wherein:

Both respective described large ends of described first gear aerofoil (11) and described second gear aerofoil (12) and described small end are provided with described spacing preiection (50), described first positive stop (51) is installed on the snail tongue position of described first air outlet (21) described spiral case (6) around, and described second positive stop (52) is installed on the snail tongue position of described second air outlet (22) described spiral case (6) around;

Described first gear aerofoil (11) is with when all moving to described first air-out position separately both described second gear aerofoil (12), spacing preiection (50) on the described large end (111) of described first gear aerofoil (11) and described first positive stop (51) connect, spacing preiection (50) on the described small end (122) of described second gear aerofoil (12) and described second positive stop (52) connect, spacing preiection (50) on the described small end (112) of described first gear aerofoil (11) connects with the large end (121) of described second gear aerofoil (12),

Described first gear aerofoil (11) is with when all moving to described second air-out position separately both described second gear aerofoil (12), spacing preiection (50) on the described small end (112) of described first gear aerofoil (11) and described first positive stop (51) connect, spacing preiection (50) on the described large end of described second gear aerofoil (12) and described second positive stop (52) connect, the described large end (111) of described first gear aerofoil (11) connects with the spacing preiection (50) on the small end (121) of described second gear aerofoil (12).

13. abat-vents for spiral case according to claim 12, it is characterized in that, described first gear aerofoil (11) is with when all moving to described first air-out position separately both described second gear aerofoil (12), on the direction of described first air outlet (21) to described second air outlet (22), the distance between both described first gear aerofoil (11) and described second gear aerofoil (12) and described fan (7) increases gradually;

Described first gear aerofoil (11) is with when all moving to described second air-out position separately both described second gear aerofoil (12), on the direction of described second air outlet (22) to described first air outlet (21), the distance between both described first gear aerofoil (11) and described second gear aerofoil (12) and described fan (7) increases gradually.

14. 1 kinds of spiral case assemblies, comprise spiral case (6), it is characterized in that, described spiral case (6) is provided with exhaust air flue and lower exhaust air flue, also comprise the arbitrary described abat-vent for spiral case of claim 1-13 described above, wherein:

The air outlet of described upper exhaust air flue forms described first air outlet (21), and the air outlet of described lower exhaust air flue forms described second air outlet (22).

15. 1 kinds of air-conditioners, is characterized in that, comprise the arbitrary described abat-vent for spiral case of spiral case (6), fan (7) and claim 1-13, described fan (7) is arranged in described spiral case (6).