CN104807156A - Air conditioner and air supplying device for air conditioner - Google Patents

Abstract

The invention discloses an air conditioner and an air supplying device for the air conditioner. The air supplying device for the air conditioner comprises an air supplying body, wherein the air supplying body comprises at least three air guide bodies which are sequentially arranged from front to back, and a through air channel is formed among the air guide bodies; an air supply gap is formed between two adjacent air guide bodies. The air supplying device further comprises a driving mechanism and an air leaking preventing mechanism, wherein the driving mechanism is used for driving a medium air guide body of the air guide bodies arranged from front to back in sequence to dynamically change the air supplying gap between the front and back adjacent air guide bodies; the air leaking preventing mechanism is formed between one end air guide body which is arranged at the end part of each air guide body arranged in front to back in the sequence and a medium air guide body adjacent to the end air guide body. With the adoption of the device, the air discharging direction can be changed, so that the whole indoor area can be uniformly and quickly refrigerated for heated; in addition, the discharged air can be adjusted to the direction as the user requirement, and the comfortable experience of the user using an air conditioner can be increased.

Description

Air-conditioning and air-conditioner air supply device

Technical field

The invention belongs to air-conditioning technique field, specifically, relate to a kind of air-conditioning and air-conditioner air supply device.

Background technology

At present, vertical air conditioner common on the market when blowing, the air outlet blowout that the wind after heat exchanger heat exchange is directly offered under the effect of fan inside, from air-conditioning, and the wind blown out is all heat exchange wind.General, between heat exchanger and air outlet, extra air-supply arrangement is not set.A shortcoming of this air-conditioning is all heat exchange wind owing to sending wind, and air quantity is limited, and indoor air circulation speed is slow; Another shortcoming is that the wind sent is soft not, and especially in cooling mode, the cool breeze blown out directly blows to it user, and user feels uncomfortable.

For solving this problem, the applicant once proposed a kind of air-conditioner air supply device that can be applied on air-conditioning.This air-conditioner air supply device has air-supply main body, and through before and after air-supply main body, form the through air channel with open front and after-opening, after-opening is non-heat exchange wind inlet, and open front is the outlet of mixing wind; Air-supply main body is also formed the heat exchange wind air channel that air channel through with it is connected.After between the heat exchanger and air outlet of air-conditioning, this air-conditioner air supply device is set, by the heat exchange wind in inner for air-conditioning air channel while the blowout of front end, through air channel, non-heat exchange wind by the outside non-heat exchange of non-heat exchange wind inlet suction part participates in the last air-out of air-conditioning, increase the overall intake of air-conditioning, accelerate the flowing of room air, improve the overall uniformity of room air.And such mixing wind is comparatively soft, blows to user and can feel more comfortable with it, improve 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 the temperature in the just right middle section of air-conditioner air outlet and other regions of periphery to there is deviation, whole room is uneven in temperature.Simultaneously, there is the trend of assembling to middle section, therefore, if time user is in this middle section in the wind that air-conditioning is sent, 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.

Based on this, how to design the structure of above-mentioned air-conditioner air supply device, can regulate air-out wind direction, be the key technical problem needing research and solve, this is technical problem to be solved by this invention just also.

Summary of the invention

The object of this invention is to provide and a kind ofly can regulate the air-conditioner air supply device of air-out wind direction and there is the air-conditioning of this air-conditioner air supply device.

For achieving the above object, air-conditioner air supply device provided by the invention adopts following technical proposals to be achieved:

A kind of air-conditioner air supply device, comprise air-supply body, it is through that described air-supply body includes at least three centres, there is the wind guiding member of front and back opening, be arranged in order before and after described wind guiding member, through air channel through before and after middle formation, air-supply gap is formed between wind guiding member described in adjacent two, described air-supply arrangement also includes driving mechanism and Anti-air-leakage mechanism, described driving mechanism dynamically changes with front for being positioned at middle middle wind guiding member in each wind guiding member of being arranged in order before and after driving, air-supply gap between rear adjacent wind guiding member, and then the air supply direction of air-supply arrangement is changed by the change in air-supply gap, in the middle of an end wind guiding member in end in each wind guiding member of being arranged in order before and after described Anti-air-leakage mechanism is formed in and be adjacent one between wind guiding member, for the air-supply gap between this end wind guiding member of shutoff and the middle wind guiding member that is adjacent.

For realizing aforementioned invention object, present invention also offers another kind of air-conditioner air supply device, specifically:

A kind of air-conditioner air supply device, comprise air-supply body, it is through that described air-supply body includes at least four centres, there is the wind guiding member of front and back opening, be arranged in order before and after described wind guiding member, through air channel through before and after middle formation, air-supply gap is formed between wind guiding member described in adjacent two, described air-supply arrangement also includes driving mechanism, Anti-air-leakage mechanism and link gear, be positioned at middle multiple middle wind guiding member in each wind guiding member that front and back are arranged in order to be linked by link gear, one of them middle wind guiding member is as wind guiding member in the middle of active, drive with described driving mechanism and be connected, described driving mechanism drives the middle wind guiding member of described active dynamically to change with front, air-supply gap between rear adjacent wind guiding member, and then drive all the other the middle wind guiding members as the middle wind guiding member of interlock dynamically to change with front by link gear, air-supply gap between rear adjacent wind guiding member, in the middle of an end wind guiding member in end in each wind guiding member of being arranged in order before and after described Anti-air-leakage mechanism is formed in and be adjacent one between wind guiding member, for the air-supply gap between this end wind guiding member of shutoff and the middle wind guiding member that is adjacent.

In addition, present invention also offers the air-conditioning respectively with above-mentioned air-conditioner air supply device.

Compared with prior art, advantage of the present invention and good effect are: the present invention by arranging driving mechanism and Anti-air-leakage mechanism in the air-conditioner air supply device with multiple wind guiding member, wind guiding member in the middle of driving mechanism driving is utilized dynamically to change the air-supply gap between forward and backward adjacent wind guiding member, and then change the air output of air-supply gap different directions, and Anti-air-leakage process is carried out on the gap affecting air supply direction, thus, the accurate adjustment of the change of different directions air output realization to air-out direction can be utilized.Apply this air-conditioner air supply device in air-conditioning after, can air-out direction be increased, make indoor whole region reach refrigeration or heating effect evenly, rapidly; And air-out can also be adjusted to the direction required for user, comfortableness when improve user's using air-condition is experienced.

After reading the specific embodiment of the present invention by reference to the accompanying drawings, the other features and advantages of the invention will become clearly.

Accompanying drawing explanation

Fig. 1 is the front view of an air-conditioning of the present invention embodiment;

Fig. 2 is the side view of air-conditioner air supply device first embodiment in Fig. 1;

Fig. 3 is the top view in Fig. 2 under the first duty of air-conditioner air supply device;

Fig. 4 is the top view in Fig. 2 under air-conditioner air supply device the second duty;

Fig. 5 is the side view of air-conditioner air supply device second embodiment in Fig. 1;

Fig. 6 is the top view in Fig. 5 under the first duty of air-conditioner air supply device;

Fig. 7 is the top view in Fig. 5 under air-conditioner air supply device the second duty;

Fig. 8 is the three-dimensional exploded view of air-conditioner air supply device the 3rd embodiment in Fig. 1;

Fig. 9 is the enlarged drawing in A portion in Fig. 8;

Figure 10 is the stereogram in Fig. 8 under the first duty of link gear;

Figure 11 is the stereogram in Fig. 8 under link gear the second duty;

Figure 12 is the top view in Fig. 8 under the first duty of air-conditioner air supply device;

Figure 13 is the top view in Fig. 8 under air-conditioner air supply device the second duty;

Figure 14 is the sectional side view after the assembling of Fig. 8 air-conditioner air supply device;

Figure 15 is the enlarged drawing in B portion in Figure 14.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, technical scheme of the present invention is described in further detail.

First, making a brief description to the technical term related in this detailed description of the invention: following when mentioning before or after each structural member, is to define relative to the position of user under structural member normal operating condition; When arrangement position for multiple structural member carries out front or rear description, be also the device that formed with multiple structural member under normal operating condition relative to the definition that the position of user is done.

Refer to Fig. 1, the figure shows the front view of an indoor apparatus of air conditioner of the present invention embodiment.

As shown in Figure 1, the air-conditioning of this embodiment comprises indoor set body 100, indoor set body 100 has front panel 102, and front panel 102 is formed air outlet 1021, and, with air outlet 1021 corresponding position inner at indoor set body 100 is provided with air-conditioner air supply device 101.The concrete structure of air-conditioner air supply device 101 refers to below shown in each accompanying drawing.

Fig. 2 is to first embodiment that Figure 4 shows that air-conditioner air supply device 101 in Fig. 1.Wherein, Fig. 2 is the side view of air-conditioner air supply device 101, Fig. 3 and Fig. 4 is the top view of air-conditioner air supply device 101 under two kinds of different operating states respectively.

As shown in Figure 2, the air-conditioner air supply device 101 of this embodiment comprises air-supply body 11.Specifically, air-supply body 11 includes the annular wind guiding member that six centres are through, have front and back opening, and (for from left to right in Fig. 2) is respectively front and fixes the middle wind guiding member 114 of wind guiding member the 111, first middle wind guiding member 113, second, the 3rd middle wind guiding member 115, the 4th middle wind guiding member 116 and rear fixing wind guiding member 112 from front to back.The after-opening of each wind guiding member (does not mark in figure, refer to the opening of each wind guiding member right-hand member) (do not mark in figure for air inlet, open front, refer to the opening of each wind guiding member left end) be air outlet, and the after-opening of rear fixing wind guiding member 112 is the non-heat exchange wind inlet of whole air-conditioner air supply device 101.Be arranged in order before and after six wind guiding members, through air channel (not marking in figure) through before and after middle formation, between adjacent two wind guiding members, form air-supply gap.Specifically, before fixing form first between wind guiding member 111 and the first middle wind guiding member 113 and to blow gap (not shown), form second between first middle wind guiding member 113 and the second middle wind guiding member 114 to blow gap 117, form the 3rd between second middle wind guiding member 114 and the 3rd middle wind guiding member 115 to blow gap 118, form the 4th between 3rd middle wind guiding member 115 and the 4th middle wind guiding member 116 to blow and to form the 5th between the middle wind guiding member 116 in gap the 119, four and rear fixing wind guiding member 112 and to blow gap 1110.

Wherein, multiple middle wind guiding member is linked together by link gear 15, and realizes interlock by link gear 15.Link gear 15 1 end and rear fixing wind guiding member 112 are fixed, and the other end and the first middle wind guiding member 113 are fixed.And link gear 15 is two (Fig. 2 illustrate only one), and two link gears 15 are symmetrical arranged (shown in Fig. 3 and Fig. 4) on middle wind guiding member.Link gear 15 preferably adopts folding bar linkage structure, and concrete structure can with reference to shown in Figure 10, Figure 11.

In addition, air-conditioner air supply device 101 also includes driving mechanism 12, is used for the middle wind guiding member 113 of driving first.Specifically, the connecting axle 122 that driving mechanism 12 includes motor 121 and is connected with the output shaft of motor 121, the other end of connecting axle 122 is fixedly connected with the upper end of the first middle wind guiding member 113.Connecting axle 122, as the connector between motor 121 and the first middle wind guiding member 113, both as drive disk assembly, by middle for the power transmission to the first of motor 121 wind guiding member 113, as support component, can also support the first middle wind guiding member 113.Under this structure, the be connected with driving mechanism 12 first middle wind guiding member 113 as wind guiding member in the middle of active in multiple middle wind guiding member, by driving mechanism 12 Direct driver.And all the other middle wind guiding members are as wind guiding member in the middle of interlock, the first middle wind guiding member 113 will be followed by link gear 15 and link.

Air-conditioner air supply device 101 also includes supporting mechanism, is used for supporting each middle wind guiding member.Specifically, supporting mechanism comprises the first supporting mechanism of the middle wind guiding member of support first 113 and supports the second supporting mechanism of all the other each middle wind guiding members.First supporting mechanism includes the first back shaft 131 and first backstay 132, first back shaft 131 one end is fixedly connected with the first middle wind guiding member 113, and its other end and the first backstay 132 are rotationally connected.Specifically, the first back shaft 131 is fixedly connected with the lower end of the first middle wind guiding member 113, thus is arranged on symmetrically on the first middle wind guiding member 113 with driving mechanism 12.Further, the first back shaft 131 is also by being formed in axle sleeve (not marking in figure) on the first backstay 132 and smoothing being rotationally connected of the first backstay 132.Second supporting mechanism includes the second back shaft the 141,142,143 and the 3rd back shaft 144,145,146.Second back shaft 141 and the 3rd back shaft 144 are symmetricly set on lower end and the upper end of the second middle wind guiding member 114.Specifically, second back shaft 141 one end is fixedly connected with the second middle wind guiding member 114, and its other end and the first backstay 132 are rotationally connected by axle sleeve (not marking in figure); 3rd back shaft 144 one end is fixedly connected with the second middle wind guiding member 114, and its other end and the second backstay 133 are rotationally connected.Second back shaft 142 and the 3rd back shaft 145 are symmetricly set on lower end and the upper end of the 3rd middle wind guiding member 115.Specifically, second back shaft 142 one end is fixedly connected with the 3rd middle wind guiding member 115, and its other end and the first backstay 132 are rotationally connected by axle sleeve (not marking in figure); 3rd back shaft 145 one end is fixedly connected with the 3rd middle wind guiding member 115, and its other end and the second backstay 133 are rotationally connected.Second back shaft 143 and the 3rd back shaft 146 are symmetricly set on lower end and the upper end of the 4th middle wind guiding member 116.Specifically, second back shaft 143 one end is fixedly connected with the 4th middle wind guiding member 116, and its other end and the first backstay 132 are rotationally connected by axle sleeve (not marking in figure); 3rd back shaft 146 one end is fixedly connected with the 4th middle wind guiding member 116, and its other end and the second backstay 133 are rotationally connected.In addition, for stablizing the first middle wind guiding member 113 further, connecting axle 122 also positions through the second backstay 133.

When indoor set body 100 inside arranges air-conditioner air supply device 101, front fixing wind guiding member 111 and rear fixing wind guiding member 112 all fix with indoor set body 100, and motor 121, first backstay 132 and the second backstay 133 are also all fixed on the correct position of indoor set body 100 inside by suitable mode.Thus for air-conditioner air supply device 101, front fixing wind guiding member 111 and rear fixing wind guiding member 112 maintain static, and each middle wind guiding member can ensure the position determined under the support of supporting mechanism and driving mechanism 12.And, can also under the driving of driving mechanism 12, with perpendicular to each middle wind guiding member axis, also namely the straight line of the central axis of air-conditioner air supply device 101 swings for axis of oscillation.To be arranged on upper and lower symmetric mode at driving mechanism 12 and supporting mechanism in this embodiment on the first middle wind guiding member 113, the first middle wind guiding member 113 swings under the driving of driving mechanism 12, and under the support of supporting mechanism stable oscillation.And, also by the interlock effect of link gear 15, drive all the other each middle wind guiding members also to swing.

Swing in process at each middle wind guiding member, the air-supply gap between forward and backward adjacent wind guiding member can be changed.Specifically, be the gap length that can change each air-supply gap.And, same gap size in different directions can be changed.

And, in this embodiment, for avoiding air-supply gap to leak out and affect the adjustment of wind direction, between front fixing wind guiding member 111 and the first middle wind guiding member 113, being formed with Anti-air-leakage mechanism 16, being used for the fixing air-supply gap formed between wind guiding member 111 and the first middle wind guiding member 113 before shutoff.Anti-air-leakage mechanism 16 can be fix, the air damper structure of perisporium sealing, but preferably adopt the extensible member structure that can stretch, as telescoping tube etc.The preferred structure of Anti-air-leakage mechanism 16 can with reference to shown in Figure 14 and Figure 15.

The principle that air-conditioner air supply device 101 changes air-out direction is described in detail below in conjunction with Fig. 3 and Fig. 4.

If user presses the wind direction regulating key on air-conditioning remote control or indoor unit panel, motor 121 works on power, and rotates, such as, be defined as and rotate forward according to certain orientation.Under the rotating forward of motor 121, drive the first middle wind guiding member 113 with the straight line of vertical direction for axis of oscillation counter-clockwise swing by connecting axle 122, also, swing to the right.First middle wind guiding member 113 counter-clockwise swing, moves forward on the left of it, moves behind right side.Move forward on the left of first middle wind guiding member 113, stretch and be positioned at the link gear 151 in left side, thus drive the left side of all the other middle wind guiding members all to move forward; Move after on the right side of first middle wind guiding member 113, compression is positioned at the link gear 152 on right side, thus drives the right side of all the other middle wind guiding members to move all afterwards.Thus, present duty as shown in Figure 3.

In conjunction with illustrated in Figure 2, in figure 3, due to the swing between each middle wind guiding member, the size in major part air-supply gap is changed.Specifically, between the first middle wind guiding member 113 and the second middle wind guiding member 114 second blow gap 117 be positioned at left side part significantly become large, and be positioned at right side part significantly diminish; Between second middle wind guiding member 114 and the 3rd middle wind guiding member 115 the 3rd blow gap 118 be positioned at left side part significantly become large, and be positioned at right side part significantly diminish; Between 3rd middle wind guiding member 115 and the 4th middle wind guiding member 116 the 4th blow gap 119 be positioned at left side part significantly become large, and be positioned at right side part significantly diminish; Between 4th middle wind guiding member 116 and rear fixing wind guiding member 112 the 5th blow gap 1110 be positioned at left side part significantly become large, and be positioned at right side part significantly diminish.

Meanwhile, because front fixing wind guiding member 111 maintains static, the air-supply gap variation tendency between the first middle wind guiding member 113 with front fixing wind guiding member 111 is contrary, and the part being also namely positioned at right side significantly becomes large, and the part being positioned at left side significantly diminishes.But will be got up by Anti-air-leakage mechanism 16 shutoff in this air-supply gap, do not have or only have a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part left side larger from gap of indoor set body 100 inside blows to through air channel, then, and the right front blowout of fixing wind guiding member 111 in the past.And only there is the wind of fraction on less right side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is to the right, also, achieves right side air-out.

If control air-conditioner air supply device 101 air-out to the left, then only need to press to control button accordingly, motor 121 reversely rotates.Under the reverse rotation of motor 121, drive the first middle wind guiding member 113 with the straight line of vertical direction for axis of oscillation clockwise oscillation by connecting axle 122, also, swing left.First middle wind guiding member 113 clockwise oscillation, moves forward on the right side of it, moves behind left side.Move forward on the right side of first middle wind guiding member 113, stretch and be positioned at the link gear 152 on right side, thus drive the right side of all the other middle wind guiding members all to move forward; Move after on the left of first middle wind guiding member 113, compression is positioned at the link gear 151 in left side, thus drives the left side of all the other middle wind guiding members to move all afterwards.Thus, present duty as shown in Figure 4.

In the diagram, due to the swing between each middle wind guiding member, the size in major part air-supply gap is changed.Specifically, between the first middle wind guiding member 113 and the second middle wind guiding member 114 second blow gap 117 be positioned at right side part significantly become large, and be positioned at left side part significantly diminish; Between second middle wind guiding member 114 and the 3rd middle wind guiding member 115 the 3rd blow gap 118 be positioned at right side part significantly become large, and be positioned at left side part significantly diminish; Between 3rd middle wind guiding member 115 and the 4th middle wind guiding member 116 the 4th blow gap 119 be positioned at right side part significantly become large, and be positioned at left side part significantly diminish; Between 4th middle wind guiding member 116 and rear fixing wind guiding member 112 the 5th blow gap 1110 be positioned at right side part significantly become large, and be positioned at left side part significantly diminish.

Meanwhile, because front fixing wind guiding member 111 maintains static, the air-supply gap variation tendency between the first middle wind guiding member 113 with front fixing wind guiding member 111 is contrary, and the part being also namely positioned at left side significantly becomes large, and the part being positioned at right side significantly diminishes.But will be got up by Anti-air-leakage mechanism 16 shutoff in this air-supply gap, do not have or only have a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part right side larger from gap of indoor set body 100 inside blows to through air channel, then, and the left front blowout of fixing wind guiding member 111 in the past.And only there is the wind of fraction in less left side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is left, also, achieves left side air-out.

Drive the first middle wind guiding member 113 to swing by arranging driving mechanism 12, and drive all the other middle wind guiding members to swing by link gear 15, change the size in air-supply gap, the air output of air-supply gap different directions can be changed; Then, the adjustment to air-out direction is achieved.Can not increase blowing range, make indoor whole region reach refrigeration or heating effect evenly, rapidly, and air-out can also be adjusted to the direction required for user, comfortableness when improve user's using air-condition is experienced.

In this embodiment, motor 121 preferably but not limited to being stepper motor, with facilitate by the control realization of stepper motor to the accurate location of middle wind guiding member amplitude of fluctuation.

And although in this embodiment, driving mechanism 12 drives the first middle wind guiding member 113 to swing around axis of oscillation, is not limited to and swings.By changing the position of driving mechanism and supporting mechanism, each middle wind guiding member can also be realized with other straight lines of the axis perpendicular to middle wind guiding member for axis of oscillation swings.Such as, driving mechanism and supporting construction are symmetrically arranged on each middle wind guiding member, then middle wind guiding member can be driven to do upper and lower swing, thus realize upper and lower to air-supply.

Fig. 5 is to second embodiment that Figure 7 shows that air-conditioner air supply device 101 in Fig. 1.Wherein, Fig. 5 is the side view of air-conditioner air supply device 101, Fig. 6 and Fig. 7 is the top view of air-conditioner air supply device 101 under two kinds of different operating states respectively.

As shown in Figure 5, the structure of air-conditioner air supply device and the similar of first embodiment in this second embodiment, include air-supply body 21.Specifically, air-supply body 21 also includes the annular wind guiding member that six centres are through, have front and back opening, and (for from left to right in Fig. 5) is respectively front and fixes the middle wind guiding member 214 of wind guiding member the 211, first middle wind guiding member 213, second, the 3rd middle wind guiding member 215, the 4th middle wind guiding member 216 and rear fixing wind guiding member 212 from front to back.The after-opening of each wind guiding member (does not mark in figure, refer to the opening of each wind guiding member right-hand member) (do not mark in figure for air inlet, open front, refer to the opening of each wind guiding member left end) be air outlet, and the after-opening of rear fixing wind guiding member 212 is the non-heat exchange wind inlet of whole air-conditioner air supply device 101.Be arranged in order before and after six wind guiding members, through air channel (not marking in figure) through before and after middle formation, between adjacent two wind guiding members, form air-supply gap.Multiple middle wind guiding member is also linked by link gear 25.With first embodiment unlike, in this embodiment, link gear 25 1 end and front fixing wind guiding member 211 are fixed, and the other end and the 4th middle wind guiding member 216 fix.

And the air-conditioner air supply device 101 of this second embodiment also includes driving mechanism 22, but time different from first embodiment, driving mechanism 22 is used for the middle wind guiding member 216 of driving the 4th, and also, driving mechanism 22 is rearmounted.Specifically, the connecting axle 222 that driving mechanism 22 includes motor 221 and is connected with the output shaft of motor 221, the other end of connecting axle 222 is fixedly connected with the upper end of the 4th middle wind guiding member 216.

Corresponding with said structure, between rear fixing wind guiding member 212 and the 4th middle wind guiding member 216, be formed with Anti-air-leakage mechanism 26, be used for fixing the air-supply gap formed between wind guiding member 212 and the 4th middle wind guiding member 216 after shutoff.

Except the difference of said structure, the miscellaneous part in second embodiment and the annexation between parts all with reference to first embodiment, can not repeated at this.

For the air-conditioner air supply device with said structure, principle and first embodiment of its change air-out direction are similar, difference is only that the corresponding relation between the direction of rotation of middle wind guiding member and air supply direction changes, and specific implementation principle can with reference to shown in figure 6 and Fig. 7 and the following description to this two figure.

Specifically, when applying the air-conditioner air supply device 101 of second embodiment in indoor apparatus of air conditioner, if user presses the wind direction regulating key on air-conditioning remote control or indoor unit panel, motor 221 works on power, rotate according to certain orientation, such as, be defined as and rotate forward.Under the rotating forward of motor 221, drive the 4th middle wind guiding member 216 with the straight line of vertical direction for axis of oscillation clockwise oscillation by connecting axle 222, also, swing left.4th middle wind guiding member 216 clockwise oscillation, moves after on the left of it, and right side moves forward.Move after on the left of 4th middle wind guiding member 216, stretch and be positioned at the link gear 251 in left side, thus drive the left side of all the other middle wind guiding members to move all afterwards; Move forward on the right side of 4th middle wind guiding member 216, compression is positioned at the link gear 252 on right side, thus drives the right side of all the other middle wind guiding members all to move forward.Thus, present duty as shown in Figure 6.Thus, make all the other gaps of blowing except the air-supply gap between the 4th middle wind guiding member 216 and rear fixing wind guiding member 212 all present the variation tendency that left part significantly becomes greatly, right part significantly diminishes.

Meanwhile, because rear fixing wind guiding member 212 maintains static, the air-supply gap variation tendency between the 4th middle wind guiding member 216 with rear fixing wind guiding member 212 is contrary, and the part being also namely positioned at right side significantly becomes large, and the part being positioned at left side significantly diminishes.But will be got up by Anti-air-leakage mechanism 26 shutoff in this air-supply gap, do not have or only have a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part left side larger from gap of indoor set body 100 inside blows to through air channel, then, and the right front blowout of fixing wind guiding member 211 in the past.And only there is the wind of fraction on less right side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is to the right, also, achieves right side air-out.

Left side air-out then in contrast.Specifically, if user presses the control button of left side air-out, motor 221 reversely rotates.Under the reverse rotation of motor 221, drive the 4th middle wind guiding member 216 with the straight line of vertical direction for axis of oscillation counter-clockwise swing by connecting axle 222, also, swing to the right.4th middle wind guiding member 216 counter-clockwise swing, moves forward on the left of it, moves behind right side.Move forward on the left of 4th middle wind guiding member 216, compression is positioned at the link gear 251 in left side, thus drives the left side of all the other middle wind guiding members all to move forward; Move after on the right side of 4th middle wind guiding member 216, stretch and be positioned at the link gear 252 on right side, thus drive the right side of all the other middle wind guiding members to move all afterwards.Thus, present duty as shown in Figure 7.Thus, make all the other gaps of blowing except the air-supply gap between the 4th middle wind guiding member 216 and rear fixing wind guiding member 212 all present the variation tendency that right part significantly becomes greatly, left part significantly diminishes.

Meanwhile, because rear fixing wind guiding member 212 maintains static, the air-supply gap variation tendency between the 4th middle wind guiding member 216 with rear fixing wind guiding member 212 is contrary, and the part being also namely positioned at left side significantly becomes large, and the part being positioned at right side significantly diminishes.But will be got up by Anti-air-leakage mechanism 26 shutoff in this air-supply gap, do not have or only have a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part right side larger from gap of indoor set body 100 inside blows to through air channel, then, and the left front blowout of fixing wind guiding member 211 in the past.And only there is the wind of fraction in less left side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is left, also, achieves left side air-out.

Same, in this embodiment, motor 221 preferably but not limited to being stepper motor, with facilitate by the control realization of stepper motor to the accurate location of middle wind guiding member amplitude of fluctuation.

And, driving mechanism drives the 4th middle wind guiding member 216 to be also not limited to and swings around axis of oscillation, by changing the position of driving mechanism and supporting mechanism, each middle wind guiding member can also be realized with other straight lines of the axis perpendicular to middle wind guiding member for axis of oscillation swings.Such as, driving mechanism and supporting construction are symmetrically arranged on each middle wind guiding member, then middle wind guiding member can be driven to do upper and lower swing, thus realize upper and lower to air-supply.

Fig. 8 to Figure 15 shows the 3rd embodiment into air-conditioner air supply device in Fig. 1 101.

Refer to Fig. 8, this figure is depicted as the three-dimensional exploded view of air-conditioner air supply device 101 the 3rd embodiment.As shown in the figure, with first and second embodiment similar, the air-conditioner air supply device 101 of this embodiment includes air-supply body 31.Specifically, air-supply body 31 includes the annular wind guiding member that five centres are through, have front and back opening, and (for from left to right in Fig. 8) is respectively front and fixes the middle wind guiding member 314 of wind guiding member the 311, first middle wind guiding member 313, second, the 3rd middle wind guiding member 315 and rear fixing wind guiding member 312 from front to back.The after-opening of each wind guiding member (does not mark in figure, refer to the opening of each wind guiding member right-hand member) (do not mark in figure for air inlet, open front, refer to the opening of each wind guiding member left end) be air outlet, and the after-opening of rear fixing wind guiding member 312 is the non-heat exchange wind inlet of whole air-conditioner air supply device 101.Be arranged in order before and after five wind guiding members, through air channel (not marking in figure) through before and after middle formation, between adjacent two wind guiding members, form air-supply gap.

Wherein, the middle wind guiding member 314 of the first middle wind guiding member 313, second, the 3rd middle wind guiding member 315 and rear fixing wind guiding member 312 are linked together by link gear, and in the middle of three, wind guiding member realizes interlock by link gear.Specifically, link gear comprises the first link gear 351 and the second link gear 352, and both are symmetrically arranged on each wind guiding member.First link gear 351 and the second link gear 352 preferably adopt folding bar linkage structure, and concrete structure can with reference to shown in Figure 10 and Figure 11.

Figure 10 shows that the stereogram under the first duty of link gear, specifically link gear stereogram in a folded configuration; And Figure 11 shows that the stereogram under link gear the second duty, link gear stereogram in a stretched state specifically.

As shown in Figure 10 and Figure 11, for the first link gear 351, include three parallel―ordinal shift 3511,3512 and 3513, and these three parallel―ordinal shift are hinged successively, form foldable type connecting rod structure.Shown in composition graphs 8, Figure 12 and Figure 13, in foldable type connecting rod structure, the articulated section, outside 3514 being positioned at the parallel―ordinal shift 3511 of end is fixedly connected with rear fixing wind guiding member 312, the articulated section, outside 3515 being positioned at the parallel―ordinal shift 3513 of the other end is fixedly connected with the first middle wind guiding member 313, and the articulated section, inner side 3516 between parallel―ordinal shift 3511 and 3512 is fixedly connected with the 3rd middle wind guiding member 315, the articulated section, inner side 3517 between parallel―ordinal shift 3512 and 3513 is fixedly connected with the second middle wind guiding member 314.

In addition, air-conditioner air supply device 101 also includes driving mechanism 32, is used for the middle wind guiding member 313 of driving first.Specifically, the enlarged drawing about A portion in Fig. 8 shown in composition graphs 9, driving mechanism 32 includes motor 321, first crank 322, connecting rod 323 and the second crank 324.Wherein, the first crank 322 has two connecting portions (not marking in figure), and the first connecting portion is connected with the output shaft of motor 321, and the second connecting portion and connecting rod 323 are rotationally connected.Second crank 324 also has two connecting portions (not marking in figure), and the first connecting portion and connecting rod 323 are rotationally connected, and the second connecting portion is fixedly connected with the first middle wind guiding member 313 through the lower cover 326 positioning the second crank 324, hide.First crank 322, connecting rod 323 and the second crank 324 form the connector between motor 321 and the first middle wind guiding member 313, when motor 321 rotates, drive the first middle wind guiding member 313 to swing.

Air-conditioner air supply device 101 also includes supporting mechanism, is used for supporting each middle wind guiding member.Specifically, supporting mechanism includes the first supporting mechanism of the middle wind guiding member of support first 313 and supports the second supporting mechanism of the second middle wind guiding member 314, the 3rd middle wind guiding member 315.First supporting mechanism include the first back shaft 333 and the first back shaft is positioned, hide lower cover 331 and upper cover 332, first back shaft 333 one end is fixedly connected with the first middle wind guiding member 313, and its other end passes upper cover 332 and is rotationally connected with lower cover 331.Specifically, the first back shaft 333 is fixedly connected with the lower end of the first middle wind guiding member 313, thus is arranged on symmetrically on the first middle wind guiding member 313 with driving mechanism 32 is upper and lower.Second supporting mechanism includes the second back shaft the 341,342 and the 3rd back shaft 343 and 344.Second back shaft 341 and the 3rd back shaft 343 are symmetricly set on lower end and the upper end of the second middle wind guiding member 314.Specifically, second back shaft 341 one end is fixedly connected with the second middle wind guiding member 314, and its other end passes upper cover 332 and is rotationally connected with lower cover 331; 3rd back shaft 343 one end is fixedly connected with the second middle wind guiding member 314, and its other end and lower cover 326 are rotationally connected.Second back shaft 342 and the 3rd back shaft 344 are symmetricly set on lower end and the upper end of the 3rd middle wind guiding member 315.Specifically, second back shaft 342 one end is fixedly connected with the 3rd middle wind guiding member 315, and its other end passes upper cover 332 and is rotationally connected with lower cover 331; 3rd back shaft 344 one end is fixedly connected with the 3rd middle wind guiding member 315, and its other end and lower cover 326 are rotationally connected.

And also button is provided with upper cover 325, connecting rod 323, second crank 324, the 3rd back shaft 343 and 344 to be stashed as much as possible on lower cover 326.

When indoor set body 100 inside arranges air-conditioner air supply device 101, front fixing wind guiding member 311 and rear fixing wind guiding member 312 all fix with indoor set body 100, and motor 321, upper cover 325 and lower cover 331 are also all fixed on the correct position of indoor set body 100 inside by suitable mode.Thus for air-conditioner air supply device 101, front fixing wind guiding member 311 and rear fixing wind guiding member 312 maintain static, and each middle wind guiding member can keep the position determined under the support of supporting mechanism and driving mechanism 32.And, can also under the driving of driving mechanism 32, with perpendicular to middle wind guiding member axis, also namely the straight line of the central axis of air-conditioner air supply device 101 swings for axis of oscillation.To be arranged on upper and lower symmetric mode at driving mechanism 32 and supporting mechanism in this embodiment on the first middle wind guiding member 313, the first middle wind guiding member 313 swings under the driving of driving mechanism 32, and under the support of supporting mechanism stable oscillation.And, also by the interlock effect of link gear 351 and 352, drive the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 also to swing.

And, in this embodiment, for avoiding air-supply gap to leak out and affect the adjustment of wind direction, between front fixing wind guiding member 311 and the first middle wind guiding member 313, being formed with Anti-air-leakage mechanism 36, being used for the fixing air-supply gap formed between wind guiding member 311 and the first middle wind guiding member 313 before shutoff.The concrete structure of Anti-air-leakage mechanism 36 refers to shown in Figure 14 and Figure 15.

Figure 14 shows that the sectional side view after the 3rd embodiment air-conditioner air supply device 101 assembling, Figure 15 is the enlarged drawing in B portion in Figure 14.The three-dimensional exploded view of composition graphs 8 illustrated, three bodies that keep out the wind be arranged in order before and after Anti-air-leakage mechanism 36 includes, and (Fig. 8 and Figure 14 is for from left to right) is respectively the body 361 that fixedly keeps out the wind, regulates keep out the wind body 362 and the body 363 that keeps out the wind that links from front to back.Wherein, the body 361 that fixedly keeps out the wind is fixedly connected with lower cover 326, and the inwall of its front end and front fixing wind guiding member 311 fits.The interlock body 363 that keeps out the wind wraps up the first middle wind guiding member 313, and the outer wall of its inwall and the first middle wind guiding member 313 fits.And keep out the wind body 363 and the first middle wind guiding member 313 of interlock fixes, and can follow the first middle wind guiding member 313 and swing.The adjustment body 362 that keeps out the wind keeps out the wind between body 363 in fixedly keep out the wind body 361 and interlock, regulates the keep out the wind inwall of body 363 of the outer wall of the body 362 that keeps out the wind and interlock to fit, and regulates the keep out the wind inwall of body 362 and the outer wall of fixing wind guiding member 361 to fit.Also be, in the sectional side view of Figure 15, fixedly keep out the wind body 361, regulate keep out the wind body 362 and the interlock body 363 that keeps out the wind arranges with the order of from-inner-to-outer, and fixedly keep out the wind body 361 and adjustment are kept out the wind there is lap in body 362, and keep out the wind body 362 and interlock of adjustment is kept out the wind between body 363 and also be there is lap.

Adjustment is kept out the wind, and body 362 is upper and lower is respectively formed with via hole (not shown), passes for the second crank 324 and the first back shaft 333, thus utilizes the second crank 324 and the first back shaft 333 to keep out the wind body 362 to support adjustment.

And interlock is kept out the wind on body 363 and is formed with back-off portion 3631, regulate on the body 362 that keeps out the wind and be formed with limiting stand 3622, back-off portion 3631 and limiting stand 3622 lean, thus, interlock keep out the wind body 363 swing time, drive adjustment to keep out the wind body 362 also equidirectional swing thereupon.Adjustment is kept out the wind on body 362 and is formed with back-off portion 3621, and the body 361 that fixedly keeps out the wind is formed with chute 3611, and back-off portion 3621 can forward and backward slip in chute 3611.

In the indoor apparatus of air conditioner course of work, when motor 321 drives the first middle wind guiding member 313 to swing, keep out the wind body 363 and the first middle wind guiding member 313 of interlock swings simultaneously.Interlock keeps out the wind body 363 when swinging, and utilizes its back-off portion 3631 to drive the adjustment body 362 that keeps out the wind to swing simultaneously.In swing process, keep out the wind body 363 and adjustment of interlock is kept out the wind between body 362 and be there is overlapping region all the time, can not form gap between.Adjustment keeps out the wind body 362 when swinging, the forward and backward slip in chute 3611 of its back-off portion 3621, and utilize chute 3611 to carry out spacing to the adjustment body 362 that keeps out the wind, guarantee that adjustment is kept out the wind body 362 and fixedly keep out the wind between body 361 and there is overlapping region all the time, gap can not be formed between.

Utilize above-mentioned three keep out the wind body and the Anti-air-leakage mechanisms 36 formed, can in the first middle wind guiding member 313 swing process, avoid forming gap between the first middle wind guiding member 313 and front fixing wind guiding member 311, effectively prevent the Air Leakage between two wind guiding members.

The Anti-air-leakage mechanism 36 of this embodiment have employed three bodies that keep out the wind, but is not limited to this, can also adopt one, two or the body that keeps out the wind more than three.In addition, Anti-air-leakage mechanism also can not adopt the body that keeps out the wind, and the extensible member structure that can stretch can be adopted, as structures such as flexible telescopic tube, flexible more piece pull bars, as long as shutoff the gap that may occur between wind guiding member 311 and the first middle wind guiding member 313 can be fixed.

There is the air-conditioner air supply device of the 3rd embodiment of said structure, its change principle and first embodiment of air-out direction and second embodiment similar, specific implementation principle refers to the shown and following description to this two figure of Figure 12 and Figure 13.

Specifically, when applying the air-conditioner air supply device 101 of the 3rd embodiment in indoor apparatus of air conditioner, if the right air-out that user presses on air-conditioning remote control or indoor unit panel controls button, motor 321 works on power, rotate according to certain orientation, such as, be defined as and rotate forward.Under the rotating forward of motor 321, drive the first middle wind guiding member 313 with the straight line of vertical direction for axis of oscillation counter-clockwise swing by the first crank 322, connecting rod 323 and the second crank 324, also, swing to the right.First middle wind guiding member 313 counter-clockwise swing, moves forward on the left of it, moves behind right side.Move forward on the left of first middle wind guiding member 313, stretch and be positioned at the link gear 351 in left side, thus drive the left side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 all to move forward; Move after on the right side of first middle wind guiding member 313, compression is positioned at the link gear 352 on right side, thus drives the right side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 to move all afterwards.Thus, present duty as shown in figure 12.Thus, make the air-supply gap between the first middle wind guiding member 313 and the second middle wind guiding member 314, the air-supply gap between the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 and the air-supply gap between the 3rd middle wind guiding member 315 and rear fixing wind guiding member 312 all present the variation tendency that left part significantly becomes greatly, right part significantly diminishes.

Meanwhile, because front fixing wind guiding member 311 maintains static, the air-supply gap variation tendency between the first middle wind guiding member 313 with rear fixing wind guiding member 212 is contrary, and the part being also namely positioned at right side significantly becomes large, and the part being positioned at left side significantly diminishes.But will be got up by Anti-air-leakage mechanism 36 shutoff in this air-supply gap, do not have or only have a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part left side larger from gap of indoor set body 100 inside blows to through air channel, then, and the right front blowout of fixing wind guiding member 311 in the past.And only there is the wind of fraction on less right side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is to the right, also, achieves right side air-out.

Left side air-out then in contrast.Specifically, if user presses the control button of left side air-out, motor 321 reversely rotates.Under the reverse rotation of motor 321, drive the first middle wind guiding member 313 with the straight line of vertical direction for axis of oscillation clockwise oscillation by the first crank 322, connecting rod 323 and the second crank 324, also, swing left.First middle wind guiding member 313 clockwise oscillation, moves forward on the right side of it, moves behind left side.Move forward on the right side of first middle wind guiding member 313, stretch and be positioned at the link gear 352 on right side, thus drive the right side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 all to move forward; Move after on the left of first middle wind guiding member 313, compression is positioned at the link gear 351 in left side, thus drives the left side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 to move all afterwards.Thus, present duty as shown in fig. 13 that.Thus, make the air-supply gap between the first middle wind guiding member 313 and the second middle wind guiding member 314, the air-supply gap between the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 and the air-supply gap between the 3rd middle wind guiding member 315 and rear fixing wind guiding member 312 all present the variation tendency that right part significantly becomes greatly, left part significantly diminishes.

Meanwhile, before Anti-air-leakage mechanism 36 shutoff, fixing air-supply gap between wind guiding member 311 and the first middle wind guiding member 313, does not have or only has a little air to flow out from this air-supply gap.Therefore, the heat exchange wind major part right side larger from gap of indoor set body 100 inside blows to through air channel, then, and the left front blowout of fixing wind guiding member 311 in the past.And only there is the wind of fraction in less left side, gap to through air channel.So when making most wind machine body 100 blows out indoor, wind direction is left, also, achieves left side air-out.

Same, in this embodiment, motor 321 preferably but not limited to being stepper motor, with facilitate by the control realization of stepper motor to the accurate location of middle wind guiding member amplitude of fluctuation.

And, driving mechanism 32 drives the first middle wind guiding member 313 to be also not limited to and swings around axis of oscillation, by changing the position of driving mechanism and supporting mechanism, each middle wind guiding member can also be realized with other straight lines of the axis perpendicular to middle wind guiding member for axis of oscillation swings.Such as, driving mechanism and supporting construction are symmetrically arranged on each middle wind guiding member, then middle wind guiding member can be driven to do upper and lower swing, thus realize upper and lower to air-supply.

In addition, if adopt a set of driving mechanism 32 to be difficult to meet the driving power demand to multiple middle wind guiding member, then one or more sets driving mechanisms can also be set up again.Such as, can be that the first middle wind guiding member 313 arranges driving mechanism that is a set of and driving mechanism 32 symmetry, utilize two cover driving mechanisms to provide driving power.

Above embodiment only in order to technical scheme of the present invention to be described, but not is limited; Although with reference to previous embodiment to invention has been detailed description, for the person of ordinary skill of the art, still can modify to the technical scheme described in previous embodiment, or equivalent replacement is carried out to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of the present invention's technical scheme required for protection.

Claims (26)

1. an air-conditioner air supply device, comprise air-supply body, it is through that described air-supply body includes at least three centres, there is the wind guiding member of front and back opening, be arranged in order before and after described wind guiding member, through air channel through before and after middle formation, air-supply gap is formed between wind guiding member described in adjacent two, it is characterized in that, described air-supply arrangement also includes driving mechanism and Anti-air-leakage mechanism, described driving mechanism dynamically changes with front for being positioned at middle middle wind guiding member in each wind guiding member of being arranged in order before and after driving, air-supply gap between rear adjacent wind guiding member, and then the air supply direction of air-supply arrangement is changed by the change in air-supply gap, in the middle of an end wind guiding member in end in each wind guiding member of being arranged in order before and after described Anti-air-leakage mechanism is formed in and be adjacent one between wind guiding member, for the air-supply gap between this end wind guiding member of shutoff and the middle wind guiding member that is adjacent.

2. air-conditioner air supply device according to claim 1, it is characterized in that, described Anti-air-leakage mechanism is extensible member, described extensible member has first link suitable with described end wind guiding member and suitable the second link of the middle wind guiding member adjacent with this end wind guiding member, described extensible member is connected with described end wind guiding member by described first link, is connected with suitable middle wind guiding member by the second link.

3. air-conditioner air supply device according to claim 1, it is characterized in that, described Anti-air-leakage mechanism comprises interlock that fixedly keep out the wind body and described middle wind guiding member link and to keep out the wind body and keeping out the wind body in described fixedly keep out the wind body and the described interlock adjustment of keeping out the wind between body.

4. air-conditioner air supply device according to any one of claim 1 to 3, is characterized in that, described driving mechanism drives middle wind guiding member with the straight line of the axis perpendicular to this middle wind guiding member for axis of oscillation swings.

5. air-conditioner air supply device according to claim 4, is characterized in that, described air-supply arrangement also includes and supports described middle wind guiding member, for stablizing the supporting mechanism that it swings.

6. air-conditioner air supply device according to claim 5, is characterized in that, described supporting mechanism and described driving mechanism are arranged on described middle wind guiding member symmetrically.

7. air-conditioner air supply device according to claim 4, is characterized in that, described driving mechanism comprises:

Motor, provides power;

Connector, connects described motor and described middle wind guiding member.

8. air-conditioner air supply device according to claim 7, is characterized in that, described connector includes connecting axle, and described connecting axle one end is connected with the output shaft of described motor, and the other end is fixedly connected with described middle wind guiding member.

9. air-conditioner air supply device according to claim 7, is characterized in that, described connector includes the first crank be connected with described motor and the second crank be connected with described middle wind guiding member, and described first crank is connected by connecting rod with described second crank.

10. air-conditioner air supply device according to claim 5, is characterized in that, described supporting mechanism includes back shaft and backstay, and described back shaft one end is fixedly connected with described middle wind guiding member, and the other end and described backstay are rotationally connected.

11. 1 kinds of air-conditionings, comprise indoor set body, described indoor set body is formed with air outlet, it is characterized in that, are provided with the air-conditioner air supply device according to any one of the claims 1 to 10 in described indoor set body.

12. 1 kinds of air-conditioner air supply devices, comprise air-supply body, it is through that described air-supply body includes at least four centres, there is the wind guiding member of front and back opening, be arranged in order before and after described wind guiding member, through air channel through before and after middle formation, air-supply gap is formed between wind guiding member described in adjacent two, it is characterized in that, described air-supply arrangement also includes driving mechanism, Anti-air-leakage mechanism and link gear, be positioned at middle multiple middle wind guiding member in each wind guiding member that front and back are arranged in order to be linked by link gear, one of them middle wind guiding member is as wind guiding member in the middle of active, drive with described driving mechanism and be connected, described driving mechanism drives the middle wind guiding member of described active dynamically to change with front, air-supply gap between rear adjacent wind guiding member, and then drive all the other the middle wind guiding members as the middle wind guiding member of interlock dynamically to change with front by link gear, air-supply gap between rear adjacent wind guiding member, in the middle of an end wind guiding member in end in each wind guiding member of being arranged in order before and after described Anti-air-leakage mechanism is formed in and be adjacent one between wind guiding member, for the air-supply gap between this end wind guiding member of shutoff and the middle wind guiding member that is adjacent.

13. air-conditioner air supply devices according to claim 12, it is characterized in that, described Anti-air-leakage mechanism is extensible member, described extensible member has first link suitable with described end wind guiding member and suitable the second link of the middle wind guiding member adjacent with this end wind guiding member, described extensible member is connected with described end wind guiding member by described first link, is connected with suitable middle wind guiding member by the second link.

14. air-conditioner air supply devices according to claim 12, it is characterized in that, it is characterized in that, described Anti-air-leakage mechanism comprises interlock that fixedly keep out the wind body and described middle wind guiding member link and to keep out the wind body and keeping out the wind body in described fixedly keep out the wind body and the described interlock adjustment of keeping out the wind between body.

15. air-conditioner air supply devices according to claim 12, is characterized in that, described link gear is two, are symmetricly set on described wind guiding member.

16. air-conditioner air supply devices according to claim 15, it is characterized in that, described link gear includes multiple parallel―ordinal shift, multiple parallel―ordinal shift is hinged successively, form foldable type connecting rod structure, the articulated section, outside being arranged in a parallel―ordinal shift of end in foldable type connecting rod structure is fixedly connected with the end wind guiding member that each wind guiding member that front and back are arranged in order is positioned at end, the articulated section of adjacent two parallel―ordinal shift and be positioned at the articulated section, outside of another parallel―ordinal shift of end middle wind guiding member described with is corresponding respectively and be fixedly connected with.

17., according to claim 12 to the air-conditioner air supply device according to any one of 16, is characterized in that, described driving mechanism drives the middle wind guiding member of described active with the straight line of the axis perpendicular to the middle wind guiding member of this active for axis of oscillation swings.

18. air-conditioner air supply devices according to claim 17, is characterized in that, described air-supply arrangement also includes and supports wind guiding member in the middle of described active, for stablizing the first supporting mechanism that it swings.

19. air-conditioner air supply devices according to claim 18, is characterized in that, described first supporting mechanism and described driving mechanism are arranged on the middle wind guiding member of described active symmetrically.

20. air-conditioner air supply devices according to claim 17, is characterized in that, described driving mechanism comprises:

Motor, provides power;

Connector, connects wind guiding member in the middle of described motor and described active.

21. air-conditioner air supply devices according to claim 17, is characterized in that, described connector includes connecting axle, and described connecting axle one end is connected with the output shaft of described motor, and the other end is fixedly connected with wind guiding member in the middle of described active.

22. air-conditioner air supply devices according to claim 17, it is characterized in that, described connector includes the first crank be connected with described motor and the second crank be connected with wind guiding member in the middle of described active, and described first crank is connected by connecting rod with described second crank.

23. air-conditioner air supply devices according to claim 18, it is characterized in that, described first supporting mechanism includes the first back shaft and the first backstay, and described first back shaft one end is fixedly connected with wind guiding member in the middle of described active, and the other end and described first backstay are rotationally connected.

24. air-conditioner air supply devices according to claim 18, is characterized in that, described air-supply arrangement also includes and supports wind guiding member in the middle of described interlock, for stablizing the second supporting mechanism that it swings.

25. air-conditioner air supply devices according to claim 24, it is characterized in that, described second supporting mechanism includes and is symmetricly set on the second back shaft in the middle of described interlock on wind guiding member and the 3rd back shaft, described second back shaft one end is fixedly connected with wind guiding member in the middle of described interlock, the other end and described second backstay are rotationally connected, described 3rd back shaft one end is fixedly connected with wind guiding member in the middle of described interlock, and the other end and described 3rd backstay are rotationally connected.

26. 1 kinds of air-conditionings, comprise indoor set body, described indoor set body is formed with air outlet, it is characterized in that, are provided with the air-conditioner air supply device according to any one of the claims 12 to 25 in described indoor set body.