CN204006350U - A kind of vertical air conditioner - Google Patents

Abstract

The utility model discloses a kind of vertical air conditioner, comprise indoor set body, on described indoor set body, be formed with front air outlet, in described indoor set body, be formed with heat exchanger and air-supply arrangement, described air-supply arrangement connects in the middle of including at least two, the wind guiding member of opening before and after having, before and after described wind guiding member, be arranged in order, the perforation air channel connecting before and after middle formation, between adjacent two described wind guiding members, form air-supply gap, described vertical air conditioner also comprises: driving mechanism, in order to drive described wind guiding member to rotate to change described air-supply gap, by the variation in air-supply gap, change the air supply direction of described air-supply arrangement, air flow guide, is formed on described in each on wind guiding member, for by from described heat exchanger the heat exchange wind that enters described air-supply gap with the horizontal direction described perforation air channel of leading.The utility model, by changing the structure of the air-supply arrangement in air-conditioning, makes vertical air conditioner can utilize air-supply arrangement to realize the accurate adjusting of air-out direction.

Description

A kind of vertical air conditioner

Technical field

The utility model belongs to air-conditioning technique field, specifically, relates to a kind of vertical air conditioner.

Background technology

At present, there is on the market a kind of vertical air conditioner, between air-conditioning inside, evaporimeter and air outlet, be provided with air-conditioner air supply device.This air-conditioner air supply device has air-supply main body, before and after air-supply main body, connects, and forms the perforation air channel with open front and after-opening, and after-opening is non-heat exchange wind inlet, and open front is for mixing wind outlet; In air-supply main body, be also formed with the heat exchange wind air channel being connected with its perforation air channel.After this air-conditioner air supply device being set between the heat exchanger of air-conditioning and air outlet, heat exchange wind in the inner air channel by air-conditioning is when perforation air channel front end blows out, can by non-heat exchange wind inlet suction part outside not the non-heat exchange wind of heat exchange participate in the last air-out of air-conditioning, increased the whole intake of air-conditioning, accelerate flowing of room air, improved the whole uniformity of room air.And such mixing wind is comparatively soft, blow to user and can feel more comfortable with it, improved user's comfortableness experience effect.

But, this air-supply arrangement in use cannot regulate wind direction, make air-conditioning cold wind or hot blast evenly cannot be blowed to indoor all angles, cause air-conditioner air outlet over against middle section and the temperature in other regions of periphery there is deviation, whole room is uneven in temperature.Simultaneously, there is the trend of assembling to middle section in the wind that air-conditioning is sent, therefore, if when user is in this middle section, can produce uncomfortable sensation because directly being blown by wind, and other regions outside middle section can feel that refrigeration, heating effect have the problem of delay.

Therefore, the air-conditioning that how to make to have above-mentioned air-supply arrangement can be realized the accurate adjusting of wind direction, is the technical problems to be solved in the utility model.

Summary of the invention

The purpose of this utility model is to provide a kind of vertical air conditioner, by changing the structure of the air-supply arrangement in air-conditioning, makes vertical air conditioner can utilize air-supply arrangement to realize the accurate adjusting of air-out direction.

For realizing above-mentioned utility model object, the utility model adopts following technical proposals to be achieved:

A kind of vertical air conditioner, comprise indoor set body, on described indoor set body, be formed with front air outlet, in described indoor set body, be formed with heat exchanger and air-supply arrangement, the wind guiding member of opening before and after described air-supply arrangement connects, has in the middle of including at least two, the perforation air channel be arranged in order before and after described wind guiding member, middle formation front and back connecting, forms air-supply gap between adjacent two described wind guiding members, described vertical air conditioner also comprises:

Driving mechanism, is formed in described indoor set body, in order to drive described wind guiding member to rotate to change described air-supply gap, changes the air supply direction of described air-supply arrangement by the variation in air-supply gap; And

Air flow guide, is formed on described in each on wind guiding member, for by from described heat exchanger the heat exchange wind that enters described air-supply gap with the horizontal direction described perforation air channel of leading.

Preferably, described in each, on wind guiding member, be formed with a plurality of described air flow guide, and a plurality of described air flow guide is along the symmetrical distribution of air-supply wind direction of described heat exchange wind.

Vertical air conditioner as above, in a described air-supply gap, described air flow guide is formed on adjacent two the described wind guiding members that form described air-supply gap in the following manner:

Described air flow guide on adjacent two described wind guiding members is corresponding one by one, form multipair air flow guide pair, every pair of described air flow guide is to including the first air flow guide and the second air flow guide, described the first air flow guide and described the second air flow guide are close to and shift to install, under the air-supply gap width maximum rating of described the first air flow guide and described the second air flow guide position, described the first air flow guide and described the second air flow guide are along having overlapping portion in described air-supply gap width direction, and under the air-supply gap width minimum state of described the first air flow guide and described the second air flow guide position, described the first air flow guide near or just contact the wind guiding member at described the second air flow guide place, and described the second air flow guide near or just contact the wind guiding member at described the first air flow guide place.

Vertical air conditioner as above, described the first air flow guide and described the second air flow guide shift to install and form interval, and the distance at described interval is 3-15mm.

Vertical air conditioner as above, described in each, on wind guiding member, be formed with along six air flow guide of the symmetrical distribution of air-supply wind direction of described heat exchange wind, three air flow guide of every side distribute from bottom to top along described heat exchange wind air supply direction, and the distance of top air flow guide and middle air flow guide is less than the distance of below air flow guide and described middle air flow guide.

Vertical air conditioner as above, described air flow guide is crooked with the contrary direction of the air supply direction with described heat exchange wind, master at described wind guiding member looks in cross section, and described air flow guide is pointed to the below of described perforation air channel central point near the end in described perforation air channel.

Vertical air conditioner as above is relative with its end in described air flow guide, away from the top in described perforation air channel, from the outward flange of the described wind guiding member at this air flow guide place, stretch out.

Vertical air conditioner as above, described air flow guide includes the incomplete same or completely not identical bend of multistage radian, between adjacent flex portion, seamlessly transits.

Vertical air conditioner as above, described vertical air conditioner also comprises the link gear being formed on described wind guiding member, and the wind guiding member of driving mechanism and one of them rotation is rotationally connected, and this wind guiding member is connected by link gear and all the other wind guiding members.

Compared with prior art, advantage of the present utility model and good effect are: the utility model by arranging driving mechanism in vertical air conditioner, drive the wind guiding member in air-supply arrangement to rotate the air-supply gap between dynamically change and adjacent wind guiding member, and then the air output of change air-supply gap different directions, thereby, can utilize the variation of different directions air output to realize the adjusting to air-out direction; By air flow guide is set, the heat exchange wind that enters air-supply gap is connected to air channel with horizontal direction guiding, can control the intermediate flow of the heat exchange wind direction air-supply arrangement blowing from the heat exchanger of below, and then guarantee that air-out is accurately adjusted to the needed direction of user, make indoor whole region reach evenly, rapidly refrigeration or heating effect, comfortableness when raising user uses air-conditioning is experienced.

Read by reference to the accompanying drawings after the specific embodiment of the present utility model, other features of the present utility model and advantage will become clearer.

Accompanying drawing explanation

Fig. 1 is the front view of an embodiment of the utility model vertical air conditioner;

Fig. 2 is the front view of the part-structure in Fig. 1;

Fig. 3 is the sectional view of Fig. 2;

Fig. 4 is the explosive view of part-structure in Fig. 1;

Fig. 5 is that the A1 of Fig. 2 under wind guiding member normal condition is to cutaway view;

Fig. 6 is the top view of air-supply arrangement under wind guiding member normal condition;

To be Fig. 2 turn to A2 under maximum angle state to cutaway view at wind guiding member to Fig. 7;

To be Fig. 2 turn to A1 under maximum angle state to cutaway view at wind guiding member to Fig. 8;

Fig. 9 is the top view that wind guiding member turns to air-supply arrangement under maximum angle state.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below with reference to drawings and Examples, the utility model is described in further detail.

First, the technical term relating in this specific embodiment is made to a brief description: following when mentioning each structural member front or rear, be to define with the position with respect to user under structural member normal operating condition; During description before or after carrying out for the arrangement position of a plurality of structural members, it is also the definition that the device that forms with a plurality of structural members is done with respect to user's position under normal operating condition.

Fig. 1 to Fig. 9 shows an embodiment of the utility model vertical air conditioner.

As shown in the front view of Fig. 1, the vertical air conditioner of this embodiment comprises indoor set body 100, indoor set body 100 has front panel 2 and postnotum (not shown), is formed with front air outlet 21 on front panel 2, is formed with rear air inlet (not marking in figure) on postnotum.In indoor set body 100 inside, the position corresponding with front air outlet 21 and rear air inlet be provided with air-supply arrangement 1.The concrete structure of air-supply arrangement 1 refers to below shown in each accompanying drawing.Below indoor set body 100 inside, air-supply arrangement 1, be provided with heat exchanger (not shown).

Refer to shown in Fig. 2, Fig. 3 and Fig. 4, wherein, Fig. 2 is the front view of the part-structure in Fig. 1, and Fig. 3 is the sectional view of Fig. 2, and Fig. 4 is the explosive view of part-structure in Fig. 1.

Specifically, as shown in Figure 4, the annular wind guiding members of opening before and after air-supply arrangement 1 includes in the middle of four and connects, has, (in figure for from right to left) is respectively the first wind guiding member 11, the second wind guiding member 12, the 3rd wind guiding member 13 and the 4th wind guiding member 14 from front to back.The after-opening of each wind guiding member (do not mark in figure, refer to the opening of each wind guiding member left end) is that air inlet, open front (do not mark in figure, refer to the opening of each wind guiding member right-hand member) are air outlet.And the 4th wind guiding member 14 fixes with the housing of indoor set, its after-opening is as the non-heat exchange wind inlet of whole air-supply arrangement 1, and the corresponding setting of rear air inlet with on postnotum, makes the wind energy of air-conditioning outside enter into air-supply arrangement 1 through rear air inlet.Four wind guiding members front and back are arranged in order, and the perforation air channel connecting before and after middle formation (in figure, not marking), forms air-supply gap between adjacent two wind guiding members.Concrete, shown in the cutaway view of Fig. 5, between the first wind guiding member 11 and the second wind guiding member 12, form to form between the first air-supply gap 15, the second wind guiding members 12 and the 3rd wind guiding member 13 and between the second air-supply gap 16, the three wind guiding members 13 and the 4th wind guiding member 14, form the 3rd air-supply gap 17.

In indoor set body 100 inside, be also formed with driving mechanism 3 and link gear 4.Wherein, driving mechanism 3 is used for driving the wind guiding member in air-supply arrangement 1 to rotate, by rotation, change formed air-supply gap between adjacent two wind guiding members, and then the variation by air-supply gap changes the direction through air-supply arrangement, the wind sent from front air outlet 21.And link gear 4 is formed on the wind guiding member of air-supply arrangement 1, is structure for simplifying driving mechanism 3, improves each wind guiding member and rotate uniformity and arrange.

Specifically, shown in Figure 4, driving mechanism 3 includes drive motors (not shown), connecting rod 31, crank 32, the first back shaft 33 and the second back shaft 34.Wherein, connecting rod 31 drives and is connected with drive motors.For example, connecting rod 31 is driven and is connected with drive motors by crank.Crank 32 has two connecting portions (not marking in figure), and the first connecting portion and connecting rod 31 are hinged, and the second connecting portion is connected with the first wind guiding member 13.The transmission connection piece that connecting rod 31 and crank 32 form between drive motors and the first wind guiding member 11, when drive motors rotates, drives the first wind guiding member 11 to rotate.The first back shaft 33, as the upper end rotational support portion of the second wind guiding member 12, is connected with the second wind guiding member 12, to support the second wind guiding member 12, stably rotates.The second back shaft 34, as the upper end rotational support portion of the 3rd wind guiding member 13, is connected with the 3rd wind guiding member 13, to support the 3rd wind guiding member 13, stably rotates.In addition, in the lower end of the first wind guiding member 11, the second wind guiding member 12 and the 3rd wind guiding member 14, lower end rotational support portion is also correspondingly set, thereby, these three wind guiding members can more stably be rotated.

In addition, in this embodiment, four wind guiding members are linked together by link gear 4, thereby the first wind guiding member 11, the second wind guiding member 12 and the 3rd wind guiding member 13 that make it possible to rotate can be realized interlock by link gear.Therefore, driving mechanism 3 can only provide power, drives the first wind guiding member 11 to rotate; After the first wind guiding member 11 rotates, utilize the interlock effect of link gear, drive the second wind guiding member 12 and the 3rd wind guiding member 13 to carry out servo-actuated.Specifically, link gear 4 comprises the first link gear 41 and the second link gear 42, and both are symmetrically arranged on each wind guiding member.The first link gear 51 and the second link gear 52 preferably adopt foldable type connecting rod structure to realize.

In this embodiment, on each wind guiding member of air-supply arrangement 1, be also formed with air flow guide, be used for respectively blowing the heat exchange wind in gap with the perforation air channel of horizontal direction guiding air-supply arrangement 1 from being positioned at the heat exchanger of air-supply arrangement 1 below and entering air-supply arrangement 1.Utilize the horizontally-guided effect of air flow guide, the enough central region to perforation air channel of heat exchange wind energy that up blow from heat exchanger are concentrated and are flowed, the problem that avoid most of directly past blowing up, blows out from connecting the upper area in air channel.

Specifically, as shown in Figure 4, at the back side of the first wind guiding member 11, be also formed with six air flow guide 111 to 116 in the one side of the second wind guiding member 12.And these six air flow guide are with the air-supply wind direction of heat exchange wind, also i.e. symmetrical being distributed on the first wind guiding member 11 of vertical direction from bottom to top.The second wind guiding member 12 towards the first wind guiding member 11 above and on the back side of the 3rd wind guiding member 13, be formed with six air flow guide 121 to 126.It is symmetry axis, symmetrical being distributed on the second wind guiding member 12 that these six air flow guide also be take the axis of vertical direction.Similarly, the 3rd wind guiding member 13 towards the second wind guiding member 12 above and on the back side of the 4th wind guiding member 14, form six air flow guide 131 to 136 of symmetrical distribution.Before the 3rd wind guiding member 14, also on the face of the 3rd wind guiding member 13, be formed with six air flow guide 141 to 146 of symmetrical distribution.By symmetrical six air flow guide are set on each wind guiding member, realize stream pressure loss and the air-flow concentrative balance that leads.

And, for three air flow guide that are positioned at a side on each wind guiding member, preferably adopt not equidistant set-up mode.Three air flow guide that take the first wind guiding member 11 right sides, distribute are from bottom to top example, air flow guide 114 is as top air flow guide, itself and as the distance between the air flow guide 115 of middle air flow guide, be less than as the air flow guide 116 of below air flow guide and the distance between air flow guide 115.Distance herein, refers to along the arc length on the first wind guiding member 11 surfaces.Thus, can stablize the air-flow of below and top, balancedly control.

For any air flow guide on any wind guiding member, the bend incomplete same or completely not identical by multistage radian forms, and seamlessly transit, thereby forming surface is the warp architecture of level and smooth wind-guiding cambered surface between adjacent flex portion.And, referring to the master of Fig. 3, to look shown in sectional view, the air flow guide 121 of take on the second wind guiding member 12 is example, and it has relative top 1211 and end 1212, and top 1211 is away from connecting air channel, and end 1212 is near connecting air channel.Wherein, top 1211 stretches out from the outward flange of wind guiding member 12, and also, top 1211 leans out the outward flange of wind guiding member 12, thereby can lengthen air-guiding aisle, strengthens the steering capability that below is blowed to the heat exchange wind coming.And end 1212 points to the below that connects air channel central point.Also, in Fig. 3, some M1 is the main central point of looking the perforation air channel in cross section, and the intersection point M2 of the vertical axis L in the perforation air channel of the tangent line of end 1212 and process point M1 is positioned at the below of a M1.Thereby, effectively control air-flow and to connecting central area, air channel, concentrate mobile along air flow guide.All the other each air flow guide also arrange according to said structure, at this, do not describe one by one.

Each air flow guide, when meeting above-mentioned condition, also will meet when wind guiding member rotates the heat exchange wind in air-supply gap, place is led.Specifically, air flow guide is also followed following condition and is arranged:

Air flow guide on adjacent two wind guiding members is corresponding one by one, forms multipair air flow guide pair.In this embodiment, say in quantity, the air flow guide on each wind guiding member is six, is one to one mutually.From distributing position, the air flow guide on each wind guiding member is symmetrical distribution, is also mutually corresponding.In addition, on distributing position, also to meet following condition:

Take the first wind guiding member 11 and the second wind guiding member 12 is example, air flow guide on air flow guide 111 on the first wind guiding member and the second wind guiding member 12 121 forms air flow guide pair, and air flow guide 114 and the air flow guide on the second wind guiding member 12 124 on the first wind guiding member forms another to air flow guide pair.Referring to Fig. 5, about Fig. 2, the A1 under wind guiding member normal condition (being also the original state that each wind guiding member does not rotate) turns to A2 maximum angle state under about Fig. 2 at wind guiding member to cutaway view, Fig. 7 and about Fig. 2, at wind guiding member, turns to A1 under maximum angle state to shown in cutaway view to cutaway view and Fig. 8, master in conjunction with Fig. 3 looks shown in sectional view simultaneously, air flow guide 111 and air flow guide 121 are close to and shift to install, the distance H 1 at both formed intervals under wind guiding member normal condition is 3-15mm, and preferred distance is 5-6mm.When each wind guiding member turns to maximum angle, the width in the air-supply gap 15 of air flow guide 111 illustrated in fig. 7 and air flow guide 121 positions will present Breadth Maximum; Now, symmetrical, as shown in Figure 8, the width in the air-supply gap 15 of air flow guide 114 and air flow guide 124 positions will present minimum widith.Its maximum width in air-supply gap 15 still there is overlapping portion in air flow guide 111 and air flow guide 121 in edge air-supply gap width direction.Thereby, make the heat exchange wind that enters air-supply gap all can access the guiding of air flow guide.Minimum widith place in air-supply gap 15, air flow guide 114 near or just contact second wind guiding member 12 at air flow guide 124 places; Meanwhile, air flow guide 124 also near or just contact first wind guiding member 11 at air flow guide 114 places.Thereby, make the air flow guide interference that can not rotate with adjacent wind guiding member.

Air flow guide on adjacent two wind guiding members in an air-supply gap of all the other formations arranges also following above-mentioned condition.At this, do not narrate one by one.

Air-supply arrangement 1 based on said structure, under the original state that each wind guiding member does not rotate, as shown in Figure 6, the air-supply gap width on circumferential direction between adjacent two wind guiding members is consistent for the top view of air-supply arrangement 1.Come the distinguished and admirable gap that enters respectively to blow of heat exchange of automatic heat-exchanger, under the guiding of the gas-flow deflector in air-supply gap, along circumferential direction, evenly to connecting air channel central region, concentrate, and then send from the circumferential direction of front air outlet 21.Meanwhile, utilize to connect the negative pressure forming in air channel, from the non-heat exchange wind of rear air inlet introducing portion outside, from front air outlet 21, blow out with connecting after heat exchange wind in air channel mixes.Not only make the wind that blows out softer, comfortable, and increased air-supply air quantity, accelerated flowing and temperature governing speed of room air.

For example, and when needs regulate air-out direction,, button is controlled in the right air-out that user presses on air-conditioning remote control or air-conditioner indoor unit panel.Drive motors works on power, and according to certain orientation rotation, for example, is defined as and is rotated in the forward.Under being rotated in the forward of drive motors, by transmission connection piece, drive the first wind guiding member 11 to take the straight line of vertical direction at crank 32 places as pivot center rotates counterclockwise, also, turn right.First wind guiding member 11 rotates counterclockwise, and its left side reach, moves behind right side.The first wind guiding member 11 left side reaches, the link gear 41 on the left of stretching is positioned at, presents extended state as shown in Figure 4, thereby drives the left side of the second wind guiding member 12 and the 3rd wind guiding member 13 all to move forward; Behind the first wind guiding member 11 right sides, move, compression is positioned at the link gear 42 on right side, presents compressive state as shown in Figure 4, thereby drives the right side of the second wind guiding member 12 and the 3rd wind guiding member 13 all to move afterwards.After rotateing in place, the top view of air-supply arrangement 1 as shown in Figure 9.Thereby, make the first air-supply gap 15, the second air-supply gap 16 and the 3rd air-supply gap 17 all present left part and significantly become variation tendency large, that right side part significantly diminishes.Therefore, from gap, larger left side blows to the gap of respectively blowing to the heat exchange wind major part of indoor set body 100 inside, and under the guiding of the air flow guide in each air-supply gap, towards the central region that connects air channel, concentrates and flow.Finally, from the right side of front air outlet 21, blow out.And compare little right side, gap is under the stopping of air flow guide, can blow to and connect air channel.So, making to connect that heat exchange wind in air channel forms with non-heat exchange wind when mixing wind and blowing out from front air outlet 21, wind direction is to the right.Also, realized right side air-out.

Direction adjustment process and the air-out of above-mentioned right side of left side air-out are symmetrical, can be with reference to the description of right side air-out.

In addition, this embodiment is done to following some explanation:

The first, driving mechanism 3 drives the first wind guiding member 11 to be not limited to the rotation axis left-right rotation that rotates.By changing the position of driving mechanism 3 and rotational support portion, can also realize each wind guiding member and take and rotate as pivot center perpendicular to other straight lines of its axis.For example, driving mechanism and rotational support portion thereof are symmetrically arranged on each wind guiding member, can drive wind guiding member to do upper and lower swing, thus realize upper and lower to air-supply.

The second, each wind guiding member in this embodiment drives a wind guiding member active rotation by driving mechanism 3, and drives other wind guiding members to follow rotation by link gear.But be not limited to this, also can adopt the mode of a plurality of wind guiding member drive to realize the synchronous swing of each wind guiding member.

Above embodiment is only in order to the technical solution of the utility model to be described, but not is limited; Although the utility model is had been described in detail with reference to previous embodiment, for the person of ordinary skill of the art, the technical scheme that still can record previous embodiment is modified, or part technical characterictic is wherein equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of the utility model technical scheme required for protection.

Claims (9)

1. a vertical air conditioner, comprise indoor set body, on described indoor set body, be formed with front air outlet, in described indoor set body, be formed with heat exchanger and air-supply arrangement, the wind guiding member of opening before and after described air-supply arrangement connects, has in the middle of including at least two, the perforation air channel be arranged in order before and after described wind guiding member, centre connecting before and after forming, forms the gap of blowing between adjacent two described wind guiding members, it is characterized in that, described vertical air conditioner also comprises:

Driving mechanism, is formed in described indoor set body, in order to drive described wind guiding member to rotate to change described air-supply gap, changes the air supply direction of described air-supply arrangement by the variation in air-supply gap; And

Air flow guide, is formed on described in each on wind guiding member, for by from described heat exchanger the heat exchange wind that enters described air-supply gap with the horizontal direction described perforation air channel of leading.

2. vertical air conditioner according to claim 1, is characterized in that, is formed with a plurality of described air flow guide described in each on wind guiding member, and a plurality of described air flow guide is along the symmetrical distribution of air-supply wind direction of described heat exchange wind.

3. vertical air conditioner according to claim 2, is characterized in that, in a described air-supply gap, described air flow guide is formed on adjacent two the described wind guiding members that form described air-supply gap in the following manner:

Described air flow guide on adjacent two described wind guiding members is corresponding one by one, form multipair air flow guide pair, every pair of described air flow guide is to including the first air flow guide and the second air flow guide, described the first air flow guide and described the second air flow guide are close to and shift to install, under the air-supply gap width maximum rating of described the first air flow guide and described the second air flow guide position, described the first air flow guide and described the second air flow guide are along having overlapping portion in described air-supply gap width direction, and under the air-supply gap width minimum state of described the first air flow guide and described the second air flow guide position, described the first air flow guide near or just contact the wind guiding member at described the second air flow guide place, and described the second air flow guide near or just contact the wind guiding member at described the first air flow guide place.

4. vertical air conditioner according to claim 3, is characterized in that, described the first air flow guide and described the second air flow guide shift to install and form interval, and the distance at described interval is 3-15mm.

5. vertical air conditioner according to claim 2, it is characterized in that, described in each, on wind guiding member, be formed with along six air flow guide of the symmetrical distribution of air-supply wind direction of described heat exchange wind, three air flow guide of every side distribute from bottom to top along described heat exchange wind air supply direction, and the distance of top air flow guide and middle air flow guide is less than the distance of below air flow guide and described middle air flow guide.

6. according to the vertical air conditioner described in any one in claim 1 to 5, it is characterized in that, described air flow guide is crooked with the contrary direction of the air supply direction with described heat exchange wind, master at described wind guiding member looks in cross section, and described air flow guide is pointed to the below of described perforation air channel central point near the end in described perforation air channel.

7. vertical air conditioner according to claim 6, is characterized in that, relative with its end in described air flow guide, away from the top in described perforation air channel, from the outward flange of the described wind guiding member at this air flow guide place, stretch out.

8. vertical air conditioner according to claim 6, is characterized in that, described air flow guide includes the incomplete same or completely not identical bend of multistage radian, between adjacent flex portion, seamlessly transits.

9. vertical air conditioner according to claim 1, it is characterized in that, described vertical air conditioner also comprises the link gear being formed on described wind guiding member, and the wind guiding member of driving mechanism and one of them rotation is rotationally connected, and this wind guiding member is connected by link gear and all the other wind guiding members.