CN106225067B - A kind of vertical air conditioner and air guide structure - Google Patents

Abstract

The invention discloses a kind of vertical air conditioner and air guide structures, air guide structure includes several vertical blades, vertical blade is fixedly connected by lateral connection muscle, vertical blade is divided into the first vane region and the second vane region, the direction blade of first vane region forms the first air-out direction, the direction blade of second vane region forms the second air-out direction, and the first air-out direction and the second air-out direction have certain angle.The air guide structure of vertical air conditioner of the present invention is capable of forming the first air-out direction and the second air-out direction with certain angle, thus, air guide structure increases air outlet angle angle and air-out area, realizes the shunting of air, outlet air is more releived soft, greatly improves comfort level.

Description

A kind of vertical air conditioner and air guide structure

Technical field

The invention belongs to air-conditioning technique fields, specifically, being to be related to a kind of vertical air conditioner and air guide structure.

Background technique

Vertical air conditioner is widely used in office space, public place because of the features such as air output is big, cooling and warming ability is strong And in family parlor.

Vertical air conditioner air channel structure on existing market is generally all made of air inlet, blower, heat exchanger and air outlet. Air guide structure is provided at air outlet, air guide structure includes several wind blades, for exporting air to the direction of setting. The existing substantially parallel setting of wind blade is merely able to export air to a direction, and air outlet angle and air-out area are small, relaxes Appropriateness is poor.

Room air enters inside air-conditioning from air inlet, and after blower accelerates, air carries out hot friendship through over-heat-exchanger It changes, the air after heat exchange blows to interior by air outlet again, realizes the purpose of air-conditioning.Due to existing vertical air conditioner be only capable of by Air after heat exchanger heat exchange is sent out, and the wind of submitting is not soft enough.Especially in cooling mode, air-conditioning is sent out Air temperature it is lower, this lower cool breeze of temperature is directly blown into user, and the old man of user, especially chilly can be made to use Feel extremely uncomfortable in family.

Summary of the invention

The object of the present invention is to provide a kind of air guide structures of vertical air conditioner, solve existing air guide structure air-out area It is small, the technical problem of comfort level difference.

For achieving the above object, the present invention, which adopts the following technical solutions, is achieved:

A kind of air guide structure of vertical air conditioner, the air guide structure include several vertical blades, and the vertical blade is logical It crosses lateral connection muscle to be fixedly connected, the vertical blade is divided into the first vane region and the second vane region, first vane region Direction blade forms the first air-out direction, and the direction blade of second vane region forms the second air-out direction, and described first goes out Wind direction and the second air-out direction have certain angle.

The air guide structure of vertical air conditioner as described above, first vane region blade adjacent with the second vane region are the One adjacent blades, second vane region blade adjacent with the first vane region are the second adjacent blades, the first adjacent leaf Piece and second adjacent blades are at an angle.

The outlet air end of the air guide structure of vertical air conditioner as described above, first adjacent blades and the second adjacent blades is equal It is connected with end air dam, at an angle between first adjacent blades and its end air dam, described second is adjacent It is at an angle between blade and its end air dam.

The air guide structure of vertical air conditioner as described above, the end air dam of first adjacent blades and second phase The end air dam of adjacent blade is parallel or less parallel.

The width of blade of the air guide structure of vertical air conditioner as described above, first vane region is greater than the second vane region Width of blade.

The air guide structure of vertical air conditioner as described above, the adjacent blades of first vane region are in one on air-out direction The adjacent blades of fixed angle, second vane region are at an angle on air-out direction.

The air guide structure of vertical air conditioner as described above, the blade is plane or curved surface or streamlined, alternatively, the leaf Piece is formed on air-out direction by two planes at an angle.

Based on the design of above-mentioned air guide structure, the invention also provides a kind of vertical air conditioner, including air conditioner main body, the sky Adjust and be formed with air outlet on ontology, the vertical air conditioner includes the first wind deflector and the second wind deflector, first wind deflector and Second wind deflector is installed in the air conditioner main body, and first wind deflector and the second wind deflector are located at the air outlet two sides, The first air-inducing passage is formed between first wind deflector and the air conditioner main body, first wind deflector is close to the air outlet One end and the air conditioner main body between formed be connected to first air-inducing passage the first air inducing outlet, first wind-guiding The first air inducing being connected to first air-inducing passage is formed between the one end of plate far from the air outlet and the air conditioner main body Entrance；The second air-inducing passage is formed between second wind deflector and the air conditioner main body, second wind deflector is close to described It forms the second air inducing for being connected to second air-inducing passage between one end of air outlet and the air conditioner main body to export, described the The be connected to second air-inducing passage is formed between the one end of two wind deflectors far from the air outlet and the air conditioner main body Two air inducing entrances；Above-mentioned air guide structure is provided at the air outlet.

Vertical air conditioner as described above, the air guide structure are rotatably installed at the air outlet.

Vertical air conditioner as described above, first wind deflector and the second wind deflector are slidably mounted on the air-conditioning sheet On body, by adjusting the absorbing quantity of the first air-inducing passage described in the position control of first wind deflector and the air conditioner main body, By the absorbing quantity for adjusting the second air-inducing passage described in the position control of second wind deflector and the air conditioner main body.

Compared with prior art, the advantages and positive effects of the present invention are: the air guide structure of vertical air conditioner of the present invention can First air-out direction and the second air-out direction with certain angle are formed, thus, air guide structure increases air outlet angle angle And air-out area, air outlet angle are sector, can cover indoor most of region, realize that the shunting of air, outlet air are more releived It is soft, greatly improve comfort level.

Vertical air conditioner of the invention, while sending out the heat exchange wind inside air-conditioning by air outlet, in air outlet The negative pressure that place is generated using heat exchange wind flowing sucks the non-heat exchange wind outside air-conditioning by drainage air duct, by two parts wind shape It is sent out simultaneously at mixing wind, the temperature of such mixing wind meets the comfortable required temperature of human body body-sensing, blows to meeting with user Feel more comfortable, improves user's comfortableness experience effect.Meanwhile utilizing suction function sucting caused by air outlet The wind of the exceptionally non-heat exchange in portion participates in the last air-supply of air-conditioning, increases the whole intake of air-conditioning, accelerates Interior Space The flowing of gas further improves the whole uniformity of room air.

The present invention can by adjusting the absorbing quantity of the position control air-inducing passage of wind deflector and air conditioner main body, thus, can To meet different absorbing quantity demands under different operating statuses.

After a specific embodiment of the invention is read in conjunction with the figure, the other features and advantages of the invention will become more clear Chu.

Detailed description of the invention

Fig. 1 is that the first wind deflector of vertical air conditioner one embodiment and the second wind deflector of the present invention are in the first air inducing state Main view；

Fig. 2 be Figure 1A-A to cross-sectional view；

Fig. 3 is that the first wind deflector of vertical air conditioner one embodiment and the second wind deflector of the present invention are in the second air inducing state Main view；

Fig. 4 be Fig. 3 A-A to cross-sectional view；

Fig. 5 is the sliding equipment partial structure diagram that one embodiment of the invention vertical air conditioner removes the first wind deflector；

Fig. 6 is that the sliding equipment part-structure of the first wind deflector of one embodiment of the invention vertical air conditioner medial surface is illustrated Figure；

Fig. 7 is the cross-sectional view of Fig. 6 B-B direction；

Fig. 8 is the exploded view of Fig. 6.

Fig. 9 is the guiding mechanism part-structure signal that one embodiment of the invention vertical air conditioner removes the first wind deflector Figure；

Figure 10 is the guiding mechanism part-structure of the first wind deflector of one embodiment of the invention vertical air conditioner medial surface Schematic diagram；

Figure 11 is the cross-sectional view of one embodiment of the invention vertical air conditioner guiding mechanism；

Figure 12 is the exploded view of one embodiment of the invention vertical air conditioner guiding mechanism:

Figure 13 is the schematic diagram of one embodiment of the invention vertical air conditioner air guide structure；

Figure 14 is the cross-sectional view of one embodiment of the invention air guide structure；

Figure 15 is the cross-sectional view of another embodiment of the present invention air guide structure.

Specific embodiment

The technical scheme of the present invention will be explained in further detail with reference to the accompanying drawings and detailed description.

Firstly, making a brief description to the technical term being related in specific embodiment:

It is following mention each structural member before or after, when left or right, be under structural member normal operating condition relative to The position of user defines.In addition, it is desirable to which explanation, is merely for convenience of being described and simplified with front or rear, left or right Description, rather than the device or structural member of indication or suggestion meaning must have a particular orientation, with specific orientation construct and Operation, therefore should not be understood as the limitation to invention.Following heat exchange winds refers to inside air-conditioning, hands over through heat exchanger heat Wind after changing；Non- heat exchange wind refers to the wind from air-conditioning local environment space, is for heat exchange wind, is not direct From the wind of heat exchanger；Mixing wind refers to the wind that heat exchange wind and non-heat exchange wind are mixed to form.

The first wind deflector and the second wind deflector of vertical air conditioner can be fixedly installed in air conditioner main body, positioned at the two of air outlet Side forms the first air-inducing passage, the one end and air-conditioning of the first wind deflector close to air outlet between the first wind deflector and air conditioner main body The the first air inducing outlet being connected to the first air-inducing passage, the first wind deflector one end and air-conditioning far from air outlet are formed between ontology The first air inducing entrance being connected to the first air-inducing passage is formed between ontology；Second is formed between second wind deflector and air conditioner main body Air-inducing passage, the second wind deflector form second be connected to the second air-inducing passage between one end and air conditioner main body of air outlet Air inducing outlet, forms second be connected to the second air-inducing passage between the one end of the second wind deflector far from air outlet and air conditioner main body Air inducing entrance.At this point, the absorbing quantity of the first air-inducing passage and the second air-inducing passage is constant.

Certainly, the first wind deflector and the second wind deflector are also slidably mounted in air conditioner main body, logical to adjust the first air inducing The absorbing quantity in road and the second air-inducing passage.

The present embodiment is illustrated so that the first wind deflector and the second wind deflector are slidably mounted in air conditioner main body as an example.The One wind deflector and the second wind deflector are fixedly installed in air conditioner main body to be equivalent to and be slidably mounted in air conditioner main body and in positioning A kind of example of state.

Referring to Figure 1 to one embodiment of the vertical air conditioner of the present invention shown in Fig. 4, a specifically vertical air conditioner room Interior machine.Fig. 1, Fig. 2 shows the schematic diagram that the first wind deflector, the second wind deflector are in the first air inducing state, Fig. 3,4 show One wind deflector, the second wind deflector are in the schematic diagram of the second air inducing state.Certainly, the present invention only by taking above-mentioned two states as an example into Row explanation, but it is not limited to above two air inducing state, several air inducing states can be arranged in the present invention according to actual needs.

The vertical air conditioner of the embodiment includes whole pedestal 7 and air conditioner main body 100 in cylindrical body.But it is not limited to justify Column structure can also be other structures, for example, air conditioner main body 100 and pedestal 7 are rectangular parallelepiped structure, ellipsoidal configuration etc. Deng.In the vertical air conditioner, unsplit bedplate of the pedestal 7 as air conditioner main body 100 is placed on the ground, air conditioner main body 100 is lifted High certain altitude.Air conditioner main body 100 is as the structure for realizing the basic air conditioning function such as air conditioner refrigerating, heating, dehumidifying, in sky Adjust ontology 100 in be formed with supply air duct, heat exchanger, blower etc. (unmarked in figure), the rear portion of air conditioner main body 100 be provided with The air inlet of supply air duct connection, the front of air conditioner main body 100 is provided with the air outlet 101 being connected to supply air duct.Air-conditioning sheet When body 100 starts, under the action of blower, the air outside air conditioner main body 100 enters supply air duct by air inlet, by changing Hot device forms heat exchange wind after carrying out heat exchange, sends out from air outlet 101.

The first wind deflector 200 and the second wind deflector 300 are provided in air conditioner main body 100.First wind deflector 200 and second is led Aerofoil 300 is slidably mounted in air conditioner main body 100.First wind deflector 200 and the second wind deflector 300 can also be positioned at air-conditioning On ontology 100, it is equivalent to the first wind deflector 200 and the second wind deflector 300 is fixedly installed in situation in air conditioner main body 100.

The present embodiment is by taking the first wind deflector 200 and the second wind deflector 300 are slidably mounted in air conditioner main body 100 as an example It is illustrated.When first wind deflector 200 and the second wind deflector 300 respectively slide to the two sides of air outlet 101, the first wind deflector 200 are located at the left side of air outlet 101, and the second wind deflector 300 is located at the right side of air outlet 101.First wind deflector 200 and second is led Aerofoil 300 does not block the air-supply of air outlet 101, forms air supplying part between the first wind deflector 200 and the second wind deflector 300 400.Wherein, the first air-inducing passage 201, the second wind deflector 300 and sky are formed between the first wind deflector 200 and air conditioner main body 100 It adjusts and forms the second air-inducing passage 301 between ontology 100, by the position control for adjusting the first wind deflector 200 and air conditioner main body 100 The absorbing quantity of first air-inducing passage 201, by the second air inducing of position control for adjusting the second wind deflector 300 and air conditioner main body 100 The absorbing quantity in channel 301.

Air inside air conditioner main body 100, which forms the heat exchange wind negative pressure that outlet air generates at air outlet 101, makes air-conditioning sheet Air outside body 100 forms non-heat exchange wind by the first air-inducing passage 201, the second air-inducing passage 301 and reaches air supplying part 400, air supplying part 400 sends out the mixing wind that the inside and outside air of air conditioner main body 100 is formed.Sky outside air conditioner main body 100 Gas can reach the air supplying part 400 of 101 front side of air outlet by air-inducing passage, form non-heat exchange wind, non-heat exchange wind and outlet air The heat exchange winds that mouth 101 is sent out form mixing wind after the mixing of air supplying part 400 and are sent to interior from vertical air conditioner.Such mixing The temperature of wind meets the comfortable required temperature of human body body-sensing, and blowing to user can feel more comfortable with it, and it is comfortable to improve user Sexual experience effect.Meanwhile the whole intake of air-conditioning is increased, the flowing of room air is accelerated, interior is further improved The whole uniformity of air.

Draw specifically, the first wind deflector 200 is formed between one end and air conditioner main body 100 of air outlet 101 with first The first air inducing outlet 202 that wind channel 201 is connected to, the one end of the first wind deflector 200 far from air outlet 101 and air conditioner main body 100 Between form the first air inducing entrance 203 for being connected to the first air-inducing passage 201.Thus, the air outside air conditioner main body 100 can lead to It crosses the first air inducing entrance 203, the first air-inducing passage 201 and the 202 non-heat exchange wind of formation of the first air inducing outlet and reaches air supplying part 400, the heat exchange wind that non-heat exchange wind is sent out at air supplying part 400 with air outlet 101 mixes.

The second air-inducing passage 301 is formed between second wind deflector 300 and air conditioner main body 100.Second wind deflector 300 is close to out The second air inducing being connected to the second air-inducing passage 301 is formed between the one end in air port 101 and air conditioner main body 100 exports 302, second Second be connected to the second air-inducing passage 301 is formed between the one end of wind deflector 300 far from air outlet 101 and air conditioner main body 100 Air inducing entrance 303.

Thus, the air outside air conditioner main body 100 can pass through the second air inducing entrance 303, the second air-inducing passage 301 and second Air inducing outlet 302 forms non-heat exchange wind and reaches air supplying part 400, and non-heat exchange wind is sent out at air supplying part 400 with air outlet 101 Heat exchange wind mixing.Heat exchange wind and non-heat exchange wind are mixed to get after the air-flow of preference temperature from sending at air supplying part 400 It sends out in wind portion 400.

Wherein, the location of the first wind deflector 200 and the second wind deflector 300 can guarantee that 101 outlet air of air outlet generates Negative pressure make the air outside air conditioner main body 100 by air-inducing passage reach air supplying part 400, to guarantee that air supplying part 400 can be sent The inside and outside air of air conditioner main body 100 out.Specifically, the location of first wind deflector 200 can guarantee air outlet 101 The negative pressure that outlet air generates makes the air outside air conditioner main body 100 by the first air inducing entrance 203, the first air-inducing passage 201, first Air supplying part 400 is reached behind air inducing outlet 202；The location of second wind deflector 300 can guarantee what 101 outlet air of air outlet generated Negative pressure makes the air outside air conditioner main body 100 by the second air inducing entrance 303, the second air-inducing passage 301, the outlet of the second air inducing Air supplying part 400 is reached after 302.

Preferably, the first wind deflector 200 and the second wind deflector 300 are symmetricly set on the two sides of air outlet 101 always.It can be with It is more uniform to guarantee that heat exchange wind is mixed with non-heat exchange wind, improves comfort level, and can make an uproar to avoid air turbulence, generation Sound etc..

As viewed in figures 5-8, the present embodiment vertical air conditioner preferably includes to drive the first wind deflector of first wind deflector 200 Second wind deflector sliding equipment of the second wind deflector 300 of sliding equipment and driving.First wind deflector sliding equipment driving first is led Aerofoil 200, the second wind deflector sliding equipment drive 300 dorsal glide of the second wind deflector.For example, the first wind deflector 200 to the left or Left back sliding, and the second wind deflector 300 to the right or right back sliding, to reduce the first air-inducing passage 201, the second air-inducing passage 301 absorbing quantity.First wind deflector sliding equipment drives the first wind deflector 200, the second wind deflector sliding equipment driving second to lead Aerofoil 300, so that the first wind deflector 200 and the second wind deflector 300 slide in opposition.For example, the first wind deflector 200 is to the right or before the right side Side sliding, and the second wind deflector 300 to the left or left front sliding, to increase the first air-inducing passage 201, the second air-inducing passage 301 Absorbing quantity.

First wind deflector sliding equipment and the second wind deflector sliding equipment include being located at wind deflector close to air conditioner main body side Rack gear and driving mechanism in air conditioner main body realize that driving mechanism includes motor and gear, wheel and rack cooperation. Moreover, wind deflector biggish for length is provided at least two for the stability for guaranteeing sliding between wind deflector and air conditioner main body Group sliding equipment.The present embodiment, which is used, is respectively arranged a set of sliding equipment in the middle upper end of wind deflector and middle lower end, synchronizes to wind-guiding Plate is driven.

Specifically, being illustrated by taking one of sliding equipment of the first wind deflector as an example, sliding equipment includes:

First rack gear is mounted on the first wind deflector 200 close to the side of air conditioner main body 100, and the first rack gear can be led first It is slided in the setting space of aerofoil 200, wherein the glide direction of the first wind deflector 200 and the glide direction of the first rack gear are in one Clamp angle.Preferably, the glide direction of the first wind deflector 200 is vertical with the glide direction of the first rack gear.

In the present embodiment, the first wind deflector 200 slides in the horizontal direction, and the first rack gear can slide in the vertical direction. Alternatively, the first wind deflector 200 is close to horizontal square upward sliding, the first rack gear can also in close vertical square upward sliding.

As shown in figs 6-8, the first rack gear is installed to the mounting means on the first wind deflector 200 and is illustrated:

First wind deflector 200 is provided with sliding slot 210 in the side close to air conditioner main body 100, and the first rack gear can along the chute 210 Sliding.First rack gear includes teeth portion 511 and at least one strip, and strip and sliding slot 210 cooperate, strip be preferably provided with it is multiple, To increase stability.

Specifically, strip protrudes from the two sides of teeth portion 511 in the present embodiment, the strip definition of 511 upside of teeth portion is protruded from For upper strip 513, the strip for protruding from 511 downside of teeth portion is defined as lower strip 514.First wind deflector 200 is close to air conditioner main body 100 side is provided with and the card slot 211 of lower strip 514 cooperation, the pressing plate 212 with the cooperation of upper strip 513.In order to facilitate rack gear Installation, pressing plate 212 is removably installed in side of the wind deflector close to air conditioner main body.Card slot 211 and pressing plate 212 limit rack gear It is scheduled on wind deflector, lower strip 514 can slide in card slot 211, and upper strip 513 can slide in pressing plate 212.

Since the lower section stress of rack gear is greater than the stress of top, thus, card slot 211 is located at the lower section of teeth portion 511, pressing plate 212 are located at the top of teeth portion 511.

Upper strip 513 is deviate from from card slot 211 from abjection, lower strip 514 in pressing plate 212 in order to prevent, under card slot 211 The position of lower section or lower part that the card slot 211 is corresponded on side or lower part or air conditioner main body 100 is provided with for lower strip 514 The lower limit portion 213 limited is defined the extreme lower position of lower strip 514, for preventing upper strip 513 from pressing plate 212 abjections.The position of the top or top that correspond to pressing plate 212 on the top or top of pressing plate 212 or air conditioner main body 100 is provided with Upper limit portion 214 for being limited to upper strip 513 is defined the extreme higher position of upper strip 513, for preventing down Strip 514 is deviate from from card slot 211.

Thus, when wind deflector deforms, since opposite sliding can occur with rack gear for wind deflector, the position of rack gear is not It is influenced by wind deflector deformation, so that rack gear and driving mechanism are always maintained at constant driving use level, the fortune of wind deflector Dynamic much smoother always, the even stuck hidden danger of the Caton of wind deflector, guarantees the flat of wind deflector in effective solution driving operation Steady smooth operation.

When assembling, by the inserting to card slot 211 of lower strip 514 of rack gear, pressing plate 212 is passed through into screw for upper strip 513 It is limited on the first wind deflector 200, structure is simple, quick for installation.

First motor is formed in air conditioner main body 100；It is preferred that motor box 8, first motor position are arranged in air conditioner main body 100 In in motor box 8.

First gear 53 is rotatablely connected with first motor, and engages with the first rack gear；

Second wind deflector sliding equipment is identical as the structure of the first wind deflector sliding equipment, and details are not described herein again.

Guiding mechanism is additionally provided between first wind deflector 200 and air conditioner main body 100, wherein sliding equipment distribution In the top and bottom of the first wind deflector 200, guiding mechanism is between two sliding equipments.

Specifically, as shown in figs9-12, guiding mechanism includes interior guide rail 1001 and position in air conditioner main body 100 Outer guide 2001 on the first wind deflector 200, interior guide rail 1001 have the support portion 1002 of support outer guide 2001, support portion 1002 with 2001 sliding contact of outer guide.

Wherein, support portion 1002 is the protrusion on interior guide rail 1001, and support portion 1002 includes upper and lower surfaces. Outer guide 2001 includes sliding slot 2002, and sliding slot 2002 includes upper groove surface and lower groove face, and support portion 1002 is flush-mounted in sliding slot 2002, The upper surface of support portion 1002 is opposite with the upper groove surface of sliding slot 2002, the lower surface of support portion 1002 and the lower groove face of sliding slot 2002 Relatively.Idler wheel 9 is provided between the upper surface of support portion 1002 and the upper groove surface of sliding slot 2002.Support portion 1002 and outer guide Be provided with idler wheel 9 between 2001, when the first wind deflector 200 is slided with air conditioner main body 100, interior guide rail 1001 and outer guide 2001 it Between be sliding contact, greatly reduce frictional force between the two, improve the smoothness of sliding, solve wind deflector Caton very To stuck problem.

When being installed on interior guide rail 1001 due to outer guide 2001, the gravity of the first wind deflector 200 is applied to support portion On 1002 upper surface and the upper groove surface of sliding slot 2002, thus, by the upper of the upper surface in roller supporting portion 1002 and sliding slot 2002 Frictional force can be greatly reduced between groove face.

In order to facilitate the installation of and maintenance, idler wheel 9 are set to the upper surface of support portion 1002.Preferably, idler wheel 9 passes through idler wheel Pressing plate 91 is installed on support portion 1002.Interior guide rail 1001 is installed in air conditioner main body 100, and outer guide 2001 is installed in first and leads On aerofoil 200.

In order to improve guiding performance, there is guide groove 1003 on interior guide rail 1001, there is guide post 2003 on outer guide 2001, Guide post 2003 is inlaid in guide groove 1003.Preferably, guide groove 1003 is located at the lower surface of support portion 1002, guide post 2003 are located at the lower groove face of sliding slot 2002.

Second wind deflector guiding mechanism is identical as the structure of the first wind deflector guiding mechanism, no longer superfluous herein It states.

As shown in Figure 2,4, it is provided with air guide structure 6 at the present embodiment air conditioner main body air outlet 101, be used for air outlet 101 air-flow is exported to interior, and air guide structure 6 is rotatably installed on air outlet 101.It can be equipped in air conditioner main body 100 6 driving mechanism of air guide structure, for driving air guide structure 6 to rotate.

As shown in figs. 12-14, the upper and lower ends of air guide structure 6 are provided with shaft 63, and air guide structure 6 can be turned by shaft 63 It is installed in air conditioner main body 100 dynamicly.Air guide structure 6 includes several vertical blades 61, and vertical blade 61 passes through lateral connection Muscle 62 is fixedly connected, and vertical blade 61 divides for the first vane region Y1 and the second vane region Y2, the direction blade of the first vane region Y1 The first air-out direction is formed, the direction blade of the second vane region Y2 forms the second air-out direction, and the first air-out direction goes out with second Wind direction has certain angle.Position of the shaft 63 between the first vane region Y1 and the second vane region Y2.

Blade first blade Y1 adjacent with the second vane region Y2 is the first adjacent blades 611, the second vane region Y2 and the One vane region Y1 adjacent blade is the second adjacent blades 612, the first adjacent blades 611 and the second adjacent blades 612 in certain Angle.In the present embodiment, the first adjacent blades 611 and the second adjacent blades 612 are in V-shape, to increase air outlet angle and go out Wind area.Preferably, the angle between the first adjacent blades 611 and the second adjacent blades 612 is acute angle.

The adjacent blades of air outlet angle and air-out area in order to further increase, the first vane region Y1 are on air-out direction The adjacent blades of certain angle, the second vane region Y2 are at an angle on air-out direction.

Wherein, blade is plane or curved surface or streamlined, alternatively, blade is on air-out direction by two at an angle Plane is formed.

Since the air duct in air-conditioning is spiral case, the air quantity at the second vane region Y2 is greater than the air quantity at the first vane region Y1, Thus, the outlet air in order to guarantee the first vane region Y1 and the second vane region Y2 is uniform, and the width of blade of the first vane region Y1 is greater than The width of blade of second vane region Y2, to increase the air quantity at the first vane region Y1.

In order to further increase air outlet angle and air-out area, as shown in figure 15,611 He of the first adjacent blades of the present embodiment The outlet air end of second adjacent blades 612 is respectively connected with end air dam 613, the first adjacent blades 611 and its end air dam 613 Between it is at an angle, it is at an angle between the second adjacent blades 612 and its end air dam 613.First adjacent leaf The end air dam 613 of piece 611 is parallel with the end air dam 613 of the second adjacent blades 612 or less parallel.

First wind deflector 200 is remoter apart from air outlet 101 close to one end of air outlet 101, the negative pressure that air outlet 101 generates Influence to the first air-inducing passage 201 is smaller, and the absorbing quantity of the first air-inducing passage 201 is smaller；Second wind deflector 300 is close to outlet air One end of mouth 101 is remoter apart from air outlet 101, and influence of the negative pressure that air outlet 101 generates to the second air-inducing passage 301 is smaller, The absorbing quantity of second air-inducing passage 301 is smaller.In the present embodiment, Fig. 1, the 2 hollow absorbing quantities for adjusting air-inducing passage are greater than in Fig. 3,4 The absorbing quantity of air-conditioning air-inducing passage.

In the present embodiment, air outlet 101 is strip, and the length of wind deflector is adapted with the length of air outlet 101, or Person, the length of wind deflector are greater than the length of air outlet 101.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than is limited；Although referring to aforementioned reality Applying example, invention is explained in detail, for those of ordinary skill in the art, still can be to aforementioned implementation Technical solution documented by example is modified or equivalent replacement of some of the technical features；And these are modified or replace It changes, the spirit and scope for claimed technical solution of the invention that it does not separate the essence of the corresponding technical solution.

Claims (9)

1. a kind of vertical air conditioner, including air conditioner main body, air outlet is formed in the air conditioner main body, which is characterized in that described vertical Formula air-conditioning includes the first wind deflector and the second wind deflector, and first wind deflector and the second wind deflector are installed on the air conditioner main body On, first wind deflector and the second wind deflector are located at the air outlet two sides, first wind deflector and the air conditioner main body Between form the first air-inducing passage, first wind deflector is formed between one end and the air conditioner main body of the air outlet Be connected to first air-inducing passage the first air inducing outlet, the one end of first wind deflector far from the air outlet with it is described The first air inducing entrance being connected to first air-inducing passage is formed between air conditioner main body；Second wind deflector and the air-conditioning The second air-inducing passage is formed between ontology, second wind deflector is between one end and the air conditioner main body of the air outlet The second air inducing for be connected to second air-inducing passage is formed to export, the one end of second wind deflector far from the air outlet and The second air inducing entrance being connected to second air-inducing passage is formed between the air conditioner main body；It is provided with and leads at the air outlet Wind structure；The air guide structure includes several vertical blades, and the vertical blade is fixedly connected by lateral connection muscle, described Vertical blade is divided into the first vane region and the second vane region, and the direction blade of first vane region forms the first air-out direction, The direction blade of second vane region forms the second air-out direction, and first air-out direction and the second air-out direction have one Determine angle.

2. vertical air conditioner according to claim 1, which is characterized in that first vane region is adjacent with the second vane region Blade is the first adjacent blades, and second vane region blade adjacent with the first vane region is the second adjacent blades, described the One adjacent blades and second adjacent blades are at an angle.

3. vertical air conditioner according to claim 2, which is characterized in that first adjacent blades and the second adjacent blades Outlet air end is respectively connected with end air dam, at an angle between first adjacent blades and its end air dam, described It is at an angle between second adjacent blades and its end air dam.

4. vertical air conditioner according to claim 3, which is characterized in that the end air dam of first adjacent blades and institute State the second adjacent blades end air dam is parallel or less parallel.

5. vertical air conditioner according to claim 1, which is characterized in that the width of blade of first vane region is greater than second The width of blade of vane region.

6. vertical air conditioner described in -5 any one according to claim 1, which is characterized in that the adjacent leaf of first vane region Piece is at an angle on air-out direction, and the adjacent blades of second vane region are at an angle on air-out direction.

7. vertical air conditioner according to claim 6, which is characterized in that the blade is plane or curved surface, alternatively, the leaf Piece is formed on air-out direction by two planes at an angle.

8. vertical air conditioner according to claim 1, which is characterized in that the air guide structure be rotatably installed on it is described go out At air port.

9. vertical air conditioner according to claim 1, which is characterized in that first wind deflector and the second wind deflector are slidably Ground is installed in the air conditioner main body, by adjusting first described in the position control of first wind deflector and the air conditioner main body The absorbing quantity of air-inducing passage is logical by adjusting the second air inducing described in the position control of second wind deflector and the air conditioner main body The absorbing quantity in road.