CN104807157B - Air-conditioner air supply device and indoor apparatus of air conditioner - Google Patents

Abstract

The invention discloses a kind of air-conditioner air supply device and indoor apparatus of air conditioner.Air-conditioner air supply device includes blowing body, blowing body includes at least four air guiding members, air-supply gap is formed between adjacent two air guiding member, air-conditioner air supply device has further included a driving mechanism and a linkage mechanism, linked in the front and rear each air guiding member being arranged in order positioned at middle multiple middle wind guiding members by linkage mechanism, one of middle wind guiding member is as active intermediate air guiding member, it is drivingly connected with driving mechanism, driving mechanism driving active intermediate air guiding member dynamic changes with before, air-supply gap between adjacent wind guiding member afterwards, and then remaining middle wind guiding member dynamic is driven to change with before by linkage mechanism, air-supply gap between adjacent wind guiding member afterwards.The air-conditioner air supply device of the present invention can adjust air-out direction so that the entire area of the indoor is uniform, rapidly reaches refrigeration or heating effect；It can also adjusting outlet air to the required direction of user, comfortable sexual experience when user uses air-conditioning is improved.

Description

Air-conditioner air supply device and indoor apparatus of air conditioner

Technical field

The invention belongs to air-conditioning technique field, specifically, is related in a kind of air-conditioner air supply device and air conditioning chamber Machine.

Background technology

At present, in air-supply, the wind after heat exchanger heat exchange is directly in internal fan for common vertical air conditioner on the market Under the action of, the blowout of the air outlet that is opened up from air-conditioning, and the wind blown out is entirely heat exchange wind.Generally, in heat exchange Extra air-supply arrangement is not provided between device and air outlet.One shortcoming of this air-conditioning is due to send out wind entirely heat Wind is exchanged, air quantity is limited, and indoor air circulation speed is slow；Another disadvantage is that the wind sent out is not soft enough, especially freezing Under pattern, the cool breeze blown out is directly blown onto with user, and user feels uncomfortable.

To solve the problems, such as this, the applicant is it is proposed that a kind of can apply the air-conditioner air supply device on air-conditioning.The sky Adjust air-supply arrangement that there is air-supply main body, the front and rear perforation of air-supply main body, forms the insertion air channel with open front and after-opening, after open Mouth is non-heat exchange wind inlet, and open front is mixing wind outlet；It is also formed with being connected with its insertion air channel in air-supply main body Heat exchange wind air channel.After the air-conditioner air supply device is set between the heat exchanger and air outlet of air-conditioning, in by air-conditioning While heat exchange wind in portion air passage is blown out through insertion air channel front end, can by outside non-heat exchange wind inlet suction part not The non-heat exchange wind of heat exchange is participated in the last outlet air of air-conditioning, is increased the overall intake of air-conditioning, is accelerated Interior Space The flowing of gas, improves the overall uniformity of room air.Moreover, such mixing wind is more soft, meeting with user is blown to Feel more comfortable, improve user's comfortableness experience effect.

But this air-supply arrangement can not adjust wind direction in use so that air-conditioning can not be equal by cold wind or hot wind It is even to blow to all angles indoor, cause the middle section of air-conditioner air outlet face and the temperature in other regions of periphery there are deviation, Whole room is uneven in temperature.Meanwhile the wind that air-conditioning is sent out has the trend assembled to middle section, therefore, if user is in , can be because producing uncomfortable sensation by wind blow-through when the middle section, and other regions outside middle section can Feel that cooling, heating effect has the problem of delay.

Based on this, the structure of above-mentioned air-conditioner air supply device how is designed, air-out wind direction can be adjusted, be to need to study With a key technical problem of solution, this is also exactly the technical problems to be solved by the invention.

The content of the invention

The object of the present invention is to provide a kind of air-conditioner air supply device that can adjust air-out wind direction and there is the air-conditioning The indoor apparatus of air conditioner of device.

For achieving the above object, air-conditioner air supply device provided by the invention is achieved using following technical proposals：

A kind of air-conditioner air supply device, including blowing body, the blowing body include perforation among at least four, have The air guiding member of front and rear opening, is arranged in order before and after the air guiding member, the middle insertion air channel for forming front and rear perforation, described in adjacent two Form air-supply gap between air guiding member, the air-supply arrangement further included a driving mechanism and a linkage mechanism, front and rear to be arranged in order Linked in each air guiding member positioned at middle multiple middle wind guiding members by linkage mechanism, one of middle wind guiding member is as actively Middle wind guiding member, is drivingly connected with the driving mechanism, and the driving mechanism drives the active intermediate air guiding member dynamic to change With the air-supply gap between forward and backward adjacent wind guiding member, and then by linkage mechanism drive be used as link middle wind guiding member remaining Middle wind guiding member dynamic changes the air-supply gap between forward and backward adjacent wind guiding member.

Preferably, the linkage mechanism is two, is symmetricly set on the air guiding member.

Air-conditioner air supply device as described above, the linkage mechanism include multiple parallel―ordinal shifts, and multiple parallel four connect Bar is hinged successively, forms foldable type connecting rod structure, and the outside of a parallel―ordinal shift of end is located in foldable type connecting rod structure Articulated section is fixedly connected with being located at an end air guiding member of end in the front and rear each air guiding member being arranged in order, two neighboring parallel The articulated section of double leval jib and the outside articulated section of another parallel―ordinal shift positioned at end are led with a centre respectively Wind body is corresponded to and is fixedly connected.

Preferably, the driving mechanism drives the active intermediate air guiding member with perpendicular to the axis of the active intermediate air guiding member The straight line of line is swung for axis of oscillation.

Air-conditioner air supply device as described above, the air-supply arrangement have further included the support active intermediate air guiding member, use In the first supporting mechanism for stablizing its swing.

Preferably, first supporting mechanism is symmetrically disposed in the active intermediate air guiding member with the driving mechanism On.

Air-conditioner air supply device as described above, the driving mechanism include：

Motor, there is provided power；

Connector, connects the motor and the active intermediate air guiding member.

Air-conditioner air supply device as described above, the connector include connecting shaft, the one end of the connecting shaft and the electricity The output axis connection of machine, the other end are fixedly connected with the active intermediate air guiding member.

Alternatively, the connector includes the first crank being connected with the motor and connects with the active intermediate air guiding member The second crank connect, first crank are connected with second crank by connecting rod.

Air-conditioner air supply device as described above, first supporting mechanism include the first support shaft and the first locating rod, Described first support shaft one end is fixedly connected with the active intermediate air guiding member, and the other end is rotated with first locating rod to be connected Connect.

Air-conditioner air supply device as described above, the air-supply arrangement have further included the support linkage middle wind guiding member, have used In the second supporting mechanism for stablizing its swing.

Preferably, second supporting mechanism includes the second support being symmetricly set in the linkage middle wind guiding member Axis and the 3rd support shaft, described second support shaft one end are fixedly connected with the linkage middle wind guiding member, the other end and described the Two locating rods be rotatablely connected, described 3rd support shaft one end with it is described link middle wind guiding member be fixedly connected, the other end with it is described 3rd locating rod is rotatablely connected.

To realize aforementioned invention purpose, indoor apparatus of air conditioner provided by the invention is realized using following technical proposals：

A kind of indoor apparatus of air conditioner, including indoor set body, formed with air outlet in the indoor set body, in the room Air-conditioner air supply device described above is provided with interior machine body.

Compared with prior art, the advantages and positive effects of the present invention are：The present invention is by with multiple air guiding members A driving mechanism and a linkage mechanism is set in air-conditioner air supply device, a middle wind guiding member is driven using driving mechanism, utilizes linkage Mechanism drives other middle wind guiding members, realizes that dynamic changes the air-supply gap between forward and backward adjacent wind guiding member, and then change and send The air output of wind gap different directions, thus, it is possible to realize the adjusting to air-out direction using the change of different directions air output. After applying this air-conditioner air supply device in air-conditioning, air-out direction can be increased so that the entire area of the indoor is uniformly, rapidly Reach refrigeration or heating effect；It can also adjusting outlet air to the required direction of user, when improving user and using air-conditioning Comfortable sexual experience.

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

Brief description of the drawings

Fig. 1 is the front view of indoor apparatus of air conditioner one embodiment of the present invention；

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

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

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

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

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

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

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

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

Figure 10 is the stereogram under the first working status of linkage mechanism in Fig. 8；

Figure 11 is the stereogram under second of working status of linkage mechanism in Fig. 8；

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

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

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

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

Embodiment

Technical scheme is described in further detail with reference to the accompanying drawings and detailed description.

First, a brief description is made to the technical term arrived involved in the embodiment：It is following to mention each knot Component it is front or rear when, be to be defined under structural member normal operating condition relative to the position of user；For multiple knots The arrangement position of component carry out before or after description when, and with the device that multiple structural members are formed under normal operating condition phase The definition done for the position of user.

Fig. 1 is referred to, the figure shows the front view of indoor apparatus of air conditioner one embodiment of the present invention.

As shown in Figure 1, the indoor apparatus of air conditioner of the embodiment includes indoor set body 100, indoor set body 100 has above Plate 102, formed with air outlet 1021 on front panel 102, indoors inside machine body 100, corresponding with air outlet 1021 Position is provided with air-conditioner air supply device 101.The concrete structure of air-conditioner air supply device 101 is referred to below shown in each attached drawing.

Fig. 2 to Fig. 4 show one embodiment of air-conditioner air supply device 101 in Fig. 1.Wherein, Fig. 2 fills for air-conditioning 101 side view is put, Fig. 3 and Fig. 4 are top view of the air-conditioner air supply device 101 under two kinds of different working conditions respectively.

As shown in Fig. 2, the air-conditioner air supply device 101 of the embodiment includes blowing body 11.Specifically, blowing body 11 Include perforation among six, there is the annular wind guiding member of front and rear opening, from front to back（For from left to right in Fig. 2）Before respectively Fixed wind guiding member 111, the first middle wind guiding member 113, the second middle wind guiding member 114, among the 3rd middle wind guiding member the 115, the 4th Air guiding member 116 and rear fixed wind guiding member 112.The after-opening of each air guiding member（Do not marked in figure, refer to opening for each air guiding member right end Mouthful）For air inlet, open front（Do not marked in figure, refer to the opening of each air guiding member left end）For air outlet, and rear fixed wind guiding member 112 after-opening is the non-heat exchange wind inlet of whole air-conditioner air supply device 101.It is arranged in order before and after six air guiding members, it is middle Form the insertion air channel of front and rear perforation（Do not marked in figure）, air-supply gap is formed between two neighboring air guiding member.Specifically, it is preceding The first air-supply gap is formed between 111 and first middle wind guiding member 113 of fixed wind guiding member（Not shown in figure）, the first middle wind-guiding The second air-supply gap 117 is formed between 113 and second middle wind guiding member 114 of body, is led among the second middle wind guiding member 114 and the 3rd The 3rd air-supply gap 118 is formed between wind body 115, the is formed between the 3rd middle wind guiding member 115 and the 4th middle wind guiding member 116 Four air-supply gaps 119, form the 5th air-supply gap 1110 between the 4th middle wind guiding member 116 and rear fixed wind guiding member 112.

Wherein, multiple middle wind guiding members are linked together by linkage mechanism 15, and can be realized and joined by linkage mechanism 15 It is dynamic.15 one end of linkage mechanism is fixed with rear fixed wind guiding member 112, and the other end is fixed with the first middle wind guiding member 113.And And linkage mechanism 15 is two（Fig. 2 illustrate only one）, two linkage mechanisms 15 are symmetrical arranged（Referring to shown in Fig. 3 and Fig. 4） In middle wind guiding member.Linkage mechanism 15 preferably uses folding bar linkage structure, and concrete structure may be referred to Figure 10, Tu11Suo Show.

In addition, air-conditioner air supply device 101 has further included driving mechanism 12, for driving the first middle wind guiding member 113.Specifically For, driving mechanism 12 includes motor 121 and the connecting shaft 122 being connected with the output shaft of motor 121, connecting shaft 122 The other end is fixedly connected with the upper end of the first middle wind guiding member 113.Connecting shaft 122 is used as 121 and first middle wind guiding member of motor Connector between 113, can be by the power transmission of motor 121 to the first middle wind guiding member 113, also both as transmission parts Support member can be used as, supports the first middle wind guiding member 113.Under this structure, be connected with driving mechanism 12 first among Air guiding member 113 is directly driven as the active intermediate air guiding member in multiple middle wind guiding members by driving mechanism 12.And among remaining Air guiding member will follow the first middle wind guiding member 113 to link as linkage middle wind guiding member by linkage mechanism 15.

Air-conditioner air supply device 101 has further included supporting mechanism, for supporting each middle wind guiding member.Specifically, machine is supported Structure includes the first supporting mechanism of the first middle wind guiding member 113 of support and supports the second support machine of remaining each middle wind guiding member Structure.First supporting mechanism includes the first support shaft 131 and the first locating rod 132, among 131 one end of the first support shaft and first Air guiding member 113 is fixedly connected, its other end is rotatablely connected with the first locating rod 132.Specifically, the first support shaft 131 and The lower end of one middle wind guiding member 113 is fixedly connected, so as to be symmetrically disposed in the first middle wind guiding member 113 with driving mechanism 12 On.Further, axle sleeve of first support shaft 131 also by being formed in the first locating rod 132（Do not marked in figure）With first Locating rod 132 carries out smooth rotation connection.Second supporting mechanism includes the second support shaft 141,142,143 and the 3rd Support axis 144,145,146.Second support shaft 141 and the 3rd support shaft 144 are symmetricly set on the lower end of the second middle wind guiding member 114 And upper end.Specifically, 141 one end of the second support shaft is fixedly connected with the second middle wind guiding member 114, its other end and first is determined Position bar 132 passes through axle sleeve（Do not marked in figure）Rotation connection；3rd support shaft, 144 one end is fixed with the second middle wind guiding member 114 Connection, its other end are rotatablely connected with the second locating rod 133.Second support shaft 142 and the 3rd support shaft 145 are symmetricly set on The lower end and upper end of three middle wind guiding members 115.Specifically, 142 one end of the second support shaft is fixed with the 3rd middle wind guiding member 115 Connection, its other end and the first locating rod 132 pass through axle sleeve（Do not marked in figure）Rotation connection；3rd support shaft, 145 one end with 3rd middle wind guiding member 115 is fixedly connected, its other end is rotatablely connected with the second locating rod 133.Second support shaft 143 and the 3rd Support shaft 146 is symmetricly set on the lower end and upper end of the 4th middle wind guiding member 116.Specifically, 143 one end of the second support shaft with 4th middle wind guiding member 116 is fixedly connected, its other end and the first locating rod 132 pass through axle sleeve（Do not marked in figure）The company of rotation Connect；3rd support shaft, 146 one end is fixedly connected with the 4th middle wind guiding member 116, its other end and the second locating rod 133 are rotated and connected Connect.In addition, further to stablize the first middle wind guiding member 113, connecting shaft 122 is positioned also through the second locating rod 133.

When the inside of machine body 100 sets air-conditioner air supply device 101 indoors, preceding fixed wind guiding member 111 and rear fixed wind-guiding Body 112 is fixed with 100 phase of indoor set body, and motor 121, the first locating rod 132 and the second locating rod 133 are also by suitable Mode be fixed on suitable position inside indoor set body 100.So as to which for air-conditioner air supply device 101, preceding fixation is led Wind body 111 and rear fixed wind guiding member 112 are fixed, and each middle wind guiding member can be in supporting mechanism and the branch of driving mechanism 12 Support is lower to ensure definite position.Moreover, it is also possible under the driving of driving mechanism 12, with perpendicular to the axis of each middle wind guiding member The straight line of the central axis of line namely air-conditioner air supply device 101 is swung for axis of oscillation.In driving mechanism 12 and support machine Structure is arranged in the embodiment in the first middle wind guiding member 113 with upper and lower symmetric mode, and the first middle wind guiding member 113 will be Swing under the driving of driving mechanism 12, and the stable oscillation under the support of supporting mechanism.Moreover, also pass through linkage mechanism 15 Linkage effect, drive remaining each middle wind guiding member also to swing.

During the swinging of each middle wind guiding member, it be able to will change between air-supply between forward and backward adjacent wind guiding member Gap.Specifically, it is the gap size that can change each air-supply gap.Moreover, same gap can be changed in different directions Size.

Moreover, in this embodiment, the adjusting of wind direction is influenced to avoid air-supply gap from leaking out, in preceding fixed wind guiding member 111 and first between middle wind guiding member 113 formed with leakproof wind mechanism 16, for blocking in preceding fixed wind guiding member 111 and first Between the air-supply gap that is formed between air guiding member 113.Leakproof wind mechanism 16 can be the air damper structure of fixed perisporium sealing, It is preferable to employ the extensible member structure that can be stretched, such as telescoping tube.16 preferred structure of leakproof wind mechanism may be referred to figure Shown in 14 and Figure 15.

Describe the principle of the change air-out direction of air-conditioner air supply device 101 in detail with reference to 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, presses Rotated according to certain orientation, for example, being defined as rotating forward.Under the rotating forward of motor 121, the is driven by connecting shaft 122 One middle wind guiding member 113 is using the straight line of vertical direction as axis of oscillation counter-clockwise swing, that is, swinging to the right.Led among first 113 counter-clockwise swing of wind body, its left side move forward, are moved behind right side.The reach of the left side of first middle wind guiding member 113, stretching are located at left side Linkage mechanism 151, so as to drive the left side of remaining middle wind guiding member to move forward；First middle wind guiding member 113 is moved behind right side, is pressed Condense in the linkage mechanism 152 on right side, so as to drive the right side of remaining middle wind guiding member to move afterwards.So as to present as shown in Figure 3 Working status.

With reference to illustrated in Figure 2, in figure 3, due to the swing between each middle wind guiding member so that most of air-supply gap Size changes.Specifically, the second air-supply gap between the first middle wind guiding member 113 and the second middle wind guiding member 114 117 significantly become larger positioned at the part in left side, and significantly diminish positioned at the part on right side；In second middle wind guiding member 114 and the 3rd Between the 3rd air-supply gap 118 between air guiding member 115 be located at the part in left side and significantly become larger, and significantly become positioned at the part on right side It is small；The part that the 4th air-supply gap 119 between 3rd middle wind guiding member 115 and the 4th middle wind guiding member 116 is located at left side is shown Work becomes larger, and significantly diminishes positioned at the part on right side；The 5th between 4th middle wind guiding member 116 and rear fixed wind guiding member 112 The part that air-supply gap 1110 is located at left side significantly becomes larger, and significantly diminishes positioned at the part on right side.

At the same time, since preceding fixed wind guiding member 111 is fixed, the first middle wind guiding member 113 and preceding fixed wind guiding member Air-supply gap variation tendency between 111 on the contrary, namely significantly become larger positioned at the part on right side, it is and notable positioned at the part in left side Diminish.But the air-supply gap will block by leakproof wind mechanism 16, have no or only a little air and be sent from this Flow out in wind gap.Therefore, the most of left side larger from gap of the heat exchange wind inside indoor set body 100 blows to perforation wind Road, then, blows out from the right front of preceding fixed wind guiding member 111.And the less right side in gap only has the wind of fraction to perforation Air passage.So so that most wind from indoor set body 100 blow out when, wind direction be to the right, that is, realize right side go out Wind.

If controlling the side air-out to the left of air-conditioner air supply device 101, only need to press corresponding control button, motor 121 reversely rotate.Under the reverse rotation of motor 121, the first middle wind guiding member 113 is driven with vertical side by connecting shaft 122 To straight line be axis of oscillation clockwise oscillation, that is, swinging to the left.First middle wind guiding member, 113 clockwise oscillation, its right side Move forward, moved behind left side.The reach of the right side of first middle wind guiding member 113, stretching is located at the linkage mechanism 152 on right side, so as to drive it The right side of remaining middle wind guiding member moves forward；First middle wind guiding member 113 is moved behind left side, and compression is located at the linkage mechanism 151 in left side, So as to drive the left side of remaining middle wind guiding member to move afterwards.So as to which working status as shown in Figure 4 be presented.

In Fig. 4, due to the swing between each middle wind guiding member so that the size of most of air-supply gap changes. Specifically, the second air-supply gap 117 between the first middle wind guiding member 113 and the second middle wind guiding member 114 is located at right side Part significantly becomes larger, and significantly diminishes positioned at the part in left side；Second middle wind guiding member 114 and the 3rd middle wind guiding member 115 it Between the 3rd air-supply gap 118 be located at the part on right side and significantly become larger, and significantly diminish positioned at the part in left side；Led among 3rd The part that the 4th air-supply gap 119 between 115 and the 4th middle wind guiding member 116 of wind body is located at right side significantly becomes larger, and is located at The part in left side significantly diminishes；The 5th air-supply gap 1110 between 4th middle wind guiding member 116 and rear fixed wind guiding member 112 Significantly become larger in the part on right side, and significantly diminish positioned at the part in left side.

At the same time, since preceding fixed wind guiding member 111 is fixed, the first middle wind guiding member 113 and preceding fixed wind guiding member Air-supply gap variation tendency between 111 on the contrary, namely significantly become larger positioned at the part in left side, it is and notable positioned at the part on right side Diminish.But the air-supply gap will block by leakproof wind mechanism 16, have no or only a little air and be sent from this Flow out in wind gap.Therefore, the most of right side larger from gap of the heat exchange wind inside indoor set body 100 blows to perforation wind Road, then, blows out from the left front of preceding fixed wind guiding member 111.And the less left side in gap only has the wind of fraction to perforation Air passage.So so that most wind from indoor set body 100 blow out when, wind direction be to the left, that is, realize left side go out Wind.

Remaining is driven by setting driving mechanism 12 to drive the first middle wind guiding member 113 to swing, and by linkage mechanism 15 Middle wind guiding member is swung, and changes the size of air-supply gap, can change the air output of air-supply gap different directions；Then, realize Adjusting to air-out direction.Cannot can increase blowing range so that the entire area of the indoor uniformly, rapidly reach refrigeration or Heating effect, it can also adjusting outlet air to the required direction of user, improves comfort body when user uses air-conditioning Test.

In this embodiment, it is stepper motor that motor 121, which is preferably but not limited to, to facilitate by the control to stepper motor System is realized and middle wind guiding member amplitude of fluctuation is accurately positioned.

Moreover, although in this embodiment, driving mechanism 12 drives the first middle wind guiding member 113 to be put around axis of oscillation or so It is dynamic, but be not limited to swing.By varying driving mechanism and the position of supporting mechanism, each middle wind-guiding can also be realized Body is swung using other straight lines of the axis perpendicular to middle wind guiding member as axis of oscillation.For example, by driving mechanism and support Structure is symmetrically arranged in each middle wind guiding member, then middle wind guiding member can be driven to make upper and lower swing, so as to fulfill Upper and lower to air-supply.

Fig. 5 to Fig. 7 show second embodiment of air-conditioner air supply device 101 in Fig. 1.Wherein, Fig. 5 fills for air-conditioning 101 side view is put, Fig. 6 and Fig. 7 are top view of the air-conditioner air supply device 101 under two kinds of different working conditions respectively.

As shown in figure 5, the structure of air-conditioner air supply device is similar with the structure of one embodiment in second embodiment, Include blowing body 21.Specifically, blowing body 21 also includes perforation among six, there is the front and rear annular being open to lead Wind body, from front to back（For from left to right in Fig. 5）Respectively in preceding fixed wind guiding member 211, the first middle wind guiding member 213, second Between air guiding member 214, the 3rd middle wind guiding member 215, the 4th middle wind guiding member 216 and rear fixed wind guiding member 212.Each air guiding member After-opening（Do not marked in figure, refer to the opening of each air guiding member right end）For air inlet, open front（Do not marked in figure, refer to each lead The opening of wind body left end）For air outlet, and the after-opening of rear fixed wind guiding member 212 is the non-thermal of whole air-conditioner air supply device 101 Exchange wind inlet.It is arranged in order before and after six air guiding members, centre forms the insertion air channel of front and rear perforation（Do not marked in figure）, it is adjacent Air-supply gap is formed between two air guiding members.Multiple middle wind guiding members link also by linkage mechanism 25.With one embodiment Unlike, in this embodiment, 25 one end of linkage mechanism is fixed with preceding fixed wind guiding member 211, in the other end and the 4th Between 216 phase of air guiding member fix.

Moreover, the air-conditioner air supply device 101 of second embodiment also includes driving mechanism 22, still, with first Embodiment it is different when, driving mechanism 22 be used for drive the 4th middle wind guiding member 216, that is, 22 postposition of driving mechanism.It is specific next Say, driving mechanism 22 includes motor 221 and the connecting shaft 222 being connected with the output shaft of motor 221, connecting shaft 222 it is another One end is fixedly connected with the upper end of the 4th middle wind guiding member 216.

It is corresponding with said structure, formed with leakproof between 212 and the 4th middle wind guiding member 216 of rear fixed wind guiding member Wind mechanism 26, for blocking the air-supply gap formed between 212 and the 4th middle wind guiding member 216 of rear fixed wind guiding member.

In addition to the difference of said structure, the connection relation between miscellaneous part and component in second embodiment is equal One embodiment is referred to, is not repeated herein.

For the air-conditioner air supply device with said structure, it changes the principle of air-out direction and one embodiment class Seemingly, the correspondence differed only between the direction of rotation of middle wind guiding member and air supply direction changes, and specific implementation is former Reason refers to shown in Fig. 6 and Fig. 7 and following descriptions to two figure.

Specifically, when in indoor apparatus of air conditioner using the air-conditioner air supply device 101 of second embodiment, if user presses Wind direction regulating key on lower air-conditioning remote control or indoor unit panel, motor 221 work on power, are rotated according to certain orientation, example Such as, it is defined as rotating forward.Under the rotating forward of motor 221, by connecting shaft 222 drive the 4th middle wind guiding member 216 with The straight line of vertical direction is axis of oscillation clockwise oscillation, that is, swinging to the left.4th middle wind guiding member, 216 clockwise oscillation, Moved behind its left side, right side reach.4th middle wind guiding member 216 is moved behind left side, and stretching is located at the linkage mechanism 251 in left side, so that The left side of remaining middle wind guiding member is driven to move afterwards；The reach of the right side of 4th middle wind guiding member 216, gear of the compression positioned at right side Structure 252, so as to drive the right side of remaining middle wind guiding member to move forward.So as to which working status as shown in Figure 6 be presented.So as to make Must it be presented except remaining air-supply gap in addition to the air-supply gap between the 4th middle wind guiding member 216 and rear fixed wind guiding member 212 The variation tendency that left part significantly becomes larger, right part significantly diminishes.

At the same time, since rear fixed wind guiding member 212 is fixed, the 4th middle wind guiding member 216 and rear fixed wind guiding member Air-supply gap variation tendency between 212 on the contrary, namely significantly become larger positioned at the part on right side, it is and notable positioned at the part in left side Diminish.But the air-supply gap will block by leakproof wind mechanism 26, have no or only a little air and be sent from this Flow out in wind gap.Therefore, the most of left side larger from gap of the heat exchange wind inside indoor set body 100 blows to perforation wind Road, then, blows out from the right front of preceding fixed wind guiding member 211.And the less right side in gap only has the wind of fraction to perforation Air passage.So so that most wind from indoor set body 100 blow out when, wind direction be to the right, that is, realize right side go out Wind.

Left side outlet air is then in contrast.Specifically, if user presses the control button of left side outlet air, motor 221 Reversely rotate.Under the reverse rotation of motor 221, the 4th middle wind guiding member 216 is driven with vertical direction by connecting shaft 222 Straight line is axis of oscillation counter-clockwise swing, that is, swinging to the right.4th middle wind guiding member, 216 counter-clockwise swing, its left side before Move, moved behind right side.The reach of the left side of 4th middle wind guiding member 216, compression is located at the linkage mechanism 251 in left side, so as to drive remaining The left side of middle wind guiding member moves forward；4th middle wind guiding member 216 is moved behind right side, and stretching is located at the linkage mechanism 252 on right side, from And the right side of remaining middle wind guiding member is driven to move afterwards.So as to which working status as shown in Figure 7 be presented.So as to so that except the 4th Right part is presented in remaining air-supply gap outside air-supply gap between middle wind guiding member 216 and rear fixed wind guiding member 212 Significantly become larger, the variation tendency that left part significantly diminishes.

At the same time, since rear fixed wind guiding member 212 is fixed, the 4th middle wind guiding member 216 and rear fixed wind guiding member Air-supply gap variation tendency between 212 on the contrary, namely significantly become larger positioned at the part in left side, it is and notable positioned at the part on right side Diminish.But the air-supply gap will block by leakproof wind mechanism 26, have no or only a little air and be sent from this Flow out in wind gap.Therefore, the most of right side larger from gap of the heat exchange wind inside indoor set body 100 blows to perforation wind Road, then, blows out from the left front of preceding fixed wind guiding member 211.And the less left side in gap only has the wind of fraction to perforation Air passage.So so that most wind from indoor set body 100 blow out when, wind direction be to the left, that is, realize left side go out Wind.

Likewise, in this embodiment, it is stepper motor that motor 221, which is preferably but not limited to, to facilitate by stepping The control of motor, which is realized, is accurately positioned middle wind guiding member amplitude of fluctuation.

Moreover, driving mechanism drives the 4th middle wind guiding member 216 to be also not limited to swing around axis of oscillation, by changing Become the position of driving mechanism and supporting mechanism, can also realize each middle wind guiding member with perpendicular to the axis of middle wind guiding member its He is swung straight line for axis of oscillation.For example, driving mechanism and supporting structure are symmetrically arranged on each middle wind-guiding On body, then middle wind guiding member can be driven to make upper and lower swing, so as to fulfill upper and lower to air-supply.

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

Fig. 8 is referred to, which show the three-dimensional exploded view of the 3rd embodiment of air-conditioner air supply device 101.As shown in the figure, Similar with first and second embodiment, the air-conditioner air supply device 101 of the embodiment includes blowing body 31.It is specific and Speech, blowing body 31 include perforation among five, have the annular wind guiding member of front and rear opening, from front to back（It is from a left side in Fig. 8 To the right side）Respectively preceding fixed wind guiding member 311, the first middle wind guiding member 313, the second middle wind guiding member 314, the 3rd middle wind guiding member 315 and rear fixed wind guiding member 312.The after-opening of each air guiding member（Do not marked in figure, refer to the opening of each air guiding member right end）For Air inlet, open front（Do not marked in figure, refer to the opening of each air guiding member left end）For air outlet, and rear fixed wind guiding member 312 After-opening is the non-heat exchange wind inlet of whole air-conditioner air supply device 101.It is arranged in order before and after five air guiding members, before centre is formed The insertion air channel penetrated through afterwards（Do not marked in figure）, air-supply gap is formed between two neighboring air guiding member.

Wherein, the first middle wind guiding member 313, the second middle wind guiding member 314, the 3rd middle wind guiding member 315 and rear fixation are led Wind body 312 is linked together by linkage mechanism, and three middle wind guiding members can be realized by linkage mechanism to link.Specifically, Linkage mechanism includes the first linkage mechanism 351 and the second linkage mechanism 352, both are symmetrically arranged on each air guiding member. First linkage mechanism 351 and the second linkage mechanism 352 preferably use folding bar linkage structure, and concrete structure may be referred to Figure 10 Shown in Figure 11.

Figure 10 show the stereogram under linkage mechanism the first working status, and specifically linkage mechanism is in rugosity Stereogram under state；And Figure 11 show the stereogram under second of working status of linkage mechanism, specifically linkage mechanism Stereogram in a stretched state.

As shown in Figure 10 and Figure 11, by taking the first linkage mechanism 351 as an example, three parallel―ordinal shifts 3511,3512 are included With 3513, and these three parallel―ordinal shifts are hinged successively, form foldable type connecting rod structure.With reference to shown in Fig. 8, Figure 12 and Figure 13, It is solid positioned at the outside articulated section 3514 of the parallel―ordinal shift 3511 of end and rear fixed wind guiding member 312 in foldable type connecting rod structure Fixed connection, fixes positioned at 3515 and first middle wind guiding member 313 of outside articulated section of the parallel―ordinal shift 3513 of the other end and connects Connect, and the inner side articulated section 3516 between parallel―ordinal shift 3511 and 3512 is fixedly connected with the 3rd middle wind guiding member 315, it is parallel Inner side articulated section 3517 between double leval jib 3512 and 3513 is fixedly connected with the second middle wind guiding member 314.

In addition, air-conditioner air supply device 101 has further included driving mechanism 32, for driving the first middle wind guiding member 313.Specifically For, the enlarged drawing on A portions in Fig. 8 with reference to shown in Fig. 9, driving mechanism 32 includes motor 321, the first crank 322, connects 323 and second crank 324 of bar.Wherein, the first crank 322 has two connecting portions（Do not marked in figure）, first connecting portion with electricity The output axis connection of machine 321, second connecting portion are rotatablely connected with connecting rod 323.Second crank 324 also has two connecting portions（Figure In do not mark）, first connecting portion is rotatablely connected with connecting rod 323, and second connecting portion is through positioning the second crank 324, is hidden The lower cover 326 of Tibetan and be fixedly connected with the first middle wind guiding member 313.First crank 322,323 and second crank 324 of connecting rod are formed Connector between 321 and first middle wind guiding member 313 of motor, when motor 321 rotates, drives the first middle wind guiding member 313 Swing.

Air-conditioner air supply device 101 has further included supporting mechanism, for supporting each middle wind guiding member.Specifically, machine is supported Structure includes leads among the second middle wind guiding member the 314, the 3rd of the first supporting mechanism and support of the first middle wind guiding member 313 of support Second supporting mechanism of wind body 315.First supporting mechanism includes the first support shaft 333 and the first support shaft is positioned, Hiding lower cover 331 and upper cover 332,333 one end of the first support shaft are fixedly connected with the first middle wind guiding member 313, its other end It is rotatablely connected through upper cover 332 and with lower cover 331.Specifically, under the first support shaft 333 and the first middle wind guiding member 313 End is fixedly connected, thus with driving mechanism 32 is upper and lower is symmetrically disposed in the first middle wind guiding member 313.Second supporting mechanism Include the second support shaft 341,342 and the 3rd support shaft 343 and 344.Second support shaft 341 and the 3rd support shaft 343 are right Claim the lower end and upper end for being arranged on the second middle wind guiding member 314.Specifically, led among 341 one end of the second support shaft and second Wind body 314 is fixedly connected, its other end is rotatablely connected through upper cover 332 and with lower cover 331；3rd support shaft, 343 one end and the Two middle wind guiding members 314 are fixedly connected, its other end is rotatablely connected with lower cover 326.Second support shaft 342 and the 3rd support shaft 344 are symmetricly set on the lower end and upper end of the 3rd middle wind guiding member 315.Specifically, in 342 one end of the second support shaft and the 3rd Between air guiding member 315 be fixedly connected, its other end with lower cover 331 through upper cover 332 and being rotatablely connected；3rd support shaft, 344 one end It is fixedly connected with the 3rd middle wind guiding member 315, its other end is rotatablely connected with lower cover 326.

Moreover, also button is equipped with upper cover 325 on lower cover 326, so as to by connecting rod 323, the second crank 324, the 3rd support shaft 343 And 344 stash as much as possible.

When the inside of machine body 100 sets air-conditioner air supply device 101 indoors, preceding fixed wind guiding member 311 and rear fixed wind-guiding Body 312 is fixed with 100 phase of indoor set body, and motor 321, upper cover 325 and lower cover 331 are also fixed on by suitable mode Suitable position inside indoor set body 100.So as to which for air-conditioner air supply device 101, preceding fixed wind guiding member 311 is with after Fixed wind guiding member 312 is fixed, and each middle wind guiding member can keep true under the support of supporting mechanism and driving mechanism 32 Fixed position.Moreover, it is also possible under the driving of driving mechanism 32, to be sent perpendicular to the axis of middle wind guiding member namely air-conditioning The straight line of the central axis of wind apparatus 101 is swung for axis of oscillation.In driving mechanism 32 and supporting mechanism with upper and lower symmetrical Mode is arranged in the embodiment in the first middle wind guiding member 313, and the first middle wind guiding member 313 is by the drive of driving mechanism 32 Swing under dynamic, and the stable oscillation under the support of supporting mechanism.Moreover, also made by the linkage of linkage mechanism 351 and 352 With the second middle wind guiding member 314 of drive and the 3rd middle wind guiding member 315 also swing.

Moreover, in this embodiment, the adjusting of wind direction is influenced to avoid air-supply gap from leaking out, in preceding fixed wind guiding member 311 and first between middle wind guiding member 313 formed with leakproof wind mechanism 36, for blocking in preceding fixed wind guiding member 311 and first Between the air-supply gap that is formed between air guiding member 313.The concrete structure of leakproof wind mechanism 36 is referred to shown in Figure 14 and Figure 15.

Figure 14 show the sectional side view after the 3rd embodiment air-conditioner air supply device 101 assembles, and Figure 15 is B portions in Figure 14 Enlarged drawing.Illustrated with reference to the three-dimensional exploded view of Fig. 8, leakproof wind mechanism 36 includes front and rear three be arranged in order and keeps out the wind Body, from front to back（Fig. 8 and Figure 14 is from left to right）The respectively fixed body 361 that keeps out the wind, adjust keep out the wind body 362 and the body that keeps out the wind that links 363.Wherein, the fixed body 361 that keeps out the wind is fixedly connected with lower cover 326, its front end and the inner wall of preceding fixed wind guiding member 311 fit. Link the first middle wind guiding member 313 of parcel of body 363 of keeping out the wind, its inner wall and the outer wall of the first middle wind guiding member 313 fit.And And the linkage body 363 that keeps out the wind is fixed with 313 phase of the first middle wind guiding member, and the first middle wind guiding member 313 can be followed to swing.Adjust The body 362 that keeps out the wind keeps out the wind body 361 and linkage is kept out the wind between body 363 positioned at fixed, adjusts the outer wall for the body 362 that keeps out the wind and linkage is kept out the wind body 363 inner wall fits, and adjust keep out the wind body 362 inner wall and the outer wall of fixed wind guiding member 361 fit.That is, in Figure 15 Sectional side view in, the fixed body 361 that keeps out the wind, adjust and keep out the wind body 362 and the linkage body 363 that keeps out the wind is arranged with the order of from-inner-to-outer, and The fixed body 361 that keeps out the wind keeps out the wind body 362 there are lap with adjusting, is also deposited between body 362 is kept out the wind in adjusting and linkage is kept out the wind body 363 In lap.

The adjusting body 362 that keeps out the wind is upper and lower respectively formed with via（Not shown in figure）, for the second crank 324 and the first support Axis 333 passes through, so as to support adjusting to keep out the wind body 362 using the second crank 324 and the first support shaft 333.

Moreover, linkage is kept out the wind formed with back-off portion 3631 on body 363, adjusting is kept out the wind on body 362 formed with limiting stand 3622, Back-off portion 3631 leans with limiting stand 3622 so that, linkage keep out the wind body 363 swing when, drive adjusting keep out the wind body 362 also with Equidirectional swing.Adjusting is kept out the wind on body 362 formed with back-off portion 3621, formed with sliding slot 3611 on the fixed body 361 that keeps out the wind, is fallen Buckle 3621 can the forward and backward slip in sliding slot 3611.

In the indoor apparatus of air conditioner course of work, when motor 321 drives the swing of the first middle wind guiding member 313, link the body that keeps out the wind 363 swing at the same time with the first middle wind guiding member 313.Linkage keep out the wind body 363 swing when, utilize its back-off portion 3631 drive adjust gear Wind body 362 is swung at the same time.In swing process, there are overlay region all the time between body 363 is kept out the wind in linkage and adjusting is kept out the wind body 362 Domain, will not form gap therebetween.Adjusting keep out the wind body 362 swing when, its back-off portion 3621 forward and backward cunning in sliding slot 3611 It is dynamic, and the body 362 that kept out the wind to adjusting using sliding slot 3611 carry out it is spacing, it is ensured that adjusting is kept out the wind between body 362 and the fixed body 361 that keeps out the wind All the time there are overlapping region, gap will not be formed therebetween.

Using the leakproof wind mechanism 36 that above three keeps out the wind body and is formed, can be swung in the first middle wind guiding member 313 Cheng Zhong, avoids forming gap between the first middle wind guiding member 313 and preceding fixed wind guiding member 311, effectively prevent two air guiding members Between Air Leakage.

The leakproof wind mechanism 36 of the embodiment employs three bodies that keep out the wind, but not limited to this, can also use one, two A or more than three bodies that keep out the wind.In addition, leakproof wind mechanism can not also use the body that keeps out the wind, and can use to stretch Extensible member structure, such as flexible telescopic tube, flexible more piece pull rod structure, as long as fixed wind guiding member 311 and first can be blocked The gap being likely to occur between middle wind guiding member 313.

The air-conditioner air supply device of the 3rd embodiment with said structure, it changes the principle of air-out direction and first Embodiment and second embodiment are similar, and specific implementation principle is referred to shown in Figure 12 and Figure 13 and following two figure retouched State.

Specifically, when in indoor apparatus of air conditioner using the air-conditioner air supply device 101 of the 3rd embodiment, if user presses Right outlet air control button on lower air-conditioning remote control or indoor unit panel, motor 321 work on power, are rotated according to certain orientation, For example, it is defined as rotating forward.Under the rotating forward of motor 321, pass through the first crank 322,323 and second crank of connecting rod 324 drive the first middle wind guiding member 313 using the straight line of vertical direction as axis of oscillation counter-clockwise swing, that is, swinging to the right.The One middle wind guiding member, 313 counter-clockwise swing, its left side move forward, are moved behind right side.The reach of the left side of first middle wind guiding member 313, stretching Linkage mechanism 351 positioned at left side, so that before driving the left side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 equal Move；First middle wind guiding member 313 is moved behind right side, and compression is located at the linkage mechanism 352 on right side, so as to drive the second middle wind guiding member 314 and the 3rd the right side of middle wind guiding member 315 move afterwards.So as to which working status as shown in figure 12 be presented.So as to so that the Among air-supply gap, the second middle wind guiding member 314 and the 3rd between one middle wind guiding member 313 and the second middle wind guiding member 314 The air-supply gap between air-supply gap and the 3rd middle wind guiding member 315 and rear fixed wind guiding member 312 between air guiding member 315 is equal The variation tendency that left part significantly becomes larger, right part significantly diminishes is presented.

At the same time, since preceding fixed wind guiding member 311 is fixed, the first middle wind guiding member 313 and rear fixed wind guiding member Air-supply gap variation tendency between 212 on the contrary, namely significantly become larger positioned at the part on right side, it is and notable positioned at the part in left side Diminish.But the air-supply gap will block by leakproof wind mechanism 36, have no or only a little air and be sent from this Flow out in wind gap.Therefore, the most of left side larger from gap of the heat exchange wind inside indoor set body 100 blows to perforation wind Road, then, blows out from the right front of preceding fixed wind guiding member 311.And the less right side in gap only has the wind of fraction to perforation Air passage.So so that most wind from indoor set body 100 blow out when, wind direction be to the right, that is, realize right side go out Wind.

Left side outlet air is then in contrast.Specifically, if user presses the control button of left side outlet air, motor 321 Reversely rotate.Under the reverse rotation of motor 321, driven by the first crank 322,323 and second crank 324 of connecting rod in first Between air guiding member 313 using the straight line of vertical direction as axis of oscillation clockwise oscillation, that is, swinging to the left.First middle wind guiding member 313 clockwise oscillations, its right side move forward, are moved behind left side.The reach of the right side of first middle wind guiding member 313, connection of the stretching positioned at right side Motivation structure 352, so as to drive the right side of the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 to move forward；Led among first Wind body 313 moves behind left side, and compression is located at the linkage mechanism 351 in left side, so as to drive among the second middle wind guiding member 314 and the 3rd The left side of air guiding member 315 is moved afterwards.So as to which working status as shown in fig. 13 that be presented.So as to so that the first middle wind guiding member Between 313 and second air-supply gap between middle wind guiding member 314, the second middle wind guiding member 314 and the 3rd middle wind guiding member 315 Air-supply gap and the 3rd middle wind guiding member 315 and rear fixed wind guiding member 312 between air-supply gap right part is presented Significantly become larger, the variation tendency that left part significantly diminishes.

At the same time, leakproof wind mechanism 36 blocks the air-supply between 311 and first middle wind guiding member 313 of preceding fixed wind guiding member Gap, has no or only a little air and is flowed out from the air-supply gap.Therefore, the heat friendship inside indoor set body 100 Change the most of right side larger from gap of wind and blow to insertion air channel, then, blown out from the left front of preceding fixed wind guiding member 311.And The less left side in gap only has the wind of fraction to insertion air channel.So so that most wind is blown from indoor set body 100 When going out, wind direction is to the left, that is, realizing left side outlet air.

Likewise, in this embodiment, it is stepper motor that motor 321, which is preferably but not limited to, to facilitate by stepping The control of motor, which is realized, is accurately positioned middle wind guiding member amplitude of fluctuation.

Moreover, driving mechanism 32 drives the first middle wind guiding member 313 to be also not limited to swing around axis of oscillation, pass through Change the position of driving mechanism and supporting mechanism, each middle wind guiding member can also be realized with perpendicular to the axis of middle wind guiding member Other straight lines are swung for axis of oscillation.Led for example, driving mechanism and supporting structure are symmetrically arranged on each centre On wind body, then middle wind guiding member can be driven to make upper and lower swing, so as to fulfill upper and lower to air-supply.

In addition, if it is difficult to meet the driving power demand to multiple middle wind guiding members using a set of driving mechanism 32, then One or more sets driving mechanisms can also be added again.For example, can be that a set of and driving machine is set in the first middle wind guiding member 313 32 symmetrical driving mechanism of structure, driving power is provided using two sets of driving mechanisms.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than is limited；Although with reference to foregoing reality Example is applied the present invention is described in detail, for those of ordinary skill in the art, still can be to foregoing implementation Technical solution described in example is modified, or carries out equivalent substitution to which part technical characteristic；And these are changed or replace Change, the essence of appropriate technical solution is departed from the spirit and scope of claimed technical solution of the invention.

Claims (13)

1. a kind of air-conditioner air supply device, including blowing body, the blowing body includes perforation among at least four, have before The air guiding member of after-opening, is arranged in order before and after the air guiding member, the middle insertion air channel for forming front and rear perforation, is led described in adjacent two Form air-supply gap between wind body, it is characterised in that the air-supply arrangement has further included a driving mechanism and a linkage mechanism, it is front and rear according to Linked in each air guiding member of secondary arrangement positioned at middle multiple middle wind guiding members by linkage mechanism, one of middle wind guiding member As active intermediate air guiding member, it is drivingly connected with the driving mechanism, the driving mechanism drives the active intermediate air guiding member Dynamic changes the air-supply gap between forward and backward adjacent wind guiding member, and then is driven by linkage mechanism and be used as wind-guiding among linkage Remaining middle wind guiding member dynamic of body changes the air-supply gap between forward and backward adjacent wind guiding member；And change same air-supply gap Size in different directions；It is located at the preceding air guiding member of front end in the front and rear each air guiding member being arranged in order and is led behind rear end Wind body is fixed.

2. air-conditioner air supply device according to claim 1, it is characterised in that the linkage mechanism is two, is symmetrical arranged On the air guiding member.

3. air-conditioner air supply device according to claim 2, it is characterised in that the linkage mechanism includes multiple parallel four Connecting rod, multiple parallel―ordinal shifts are hinged successively, form foldable type connecting rod structure, and one of end is located in foldable type connecting rod structure The outside articulated section of parallel―ordinal shift is fixed with being located at an end air guiding member of end in the front and rear each air guiding member being arranged in order The outside articulated section difference of connection, the articulated section of two neighboring parallel―ordinal shift and another parallel―ordinal shift positioned at end It is corresponding with a middle wind guiding member to be fixedly connected.

4. air-conditioner air supply device according to any one of claim 1 to 3, it is characterised in that the driving mechanism driving The active intermediate air guiding member is swung using the straight line of the axis perpendicular to the active intermediate air guiding member as axis of oscillation.

5. air-conditioner air supply device according to claim 4, it is characterised in that the air-supply arrangement has been further included described in support Active intermediate air guiding member, the first supporting mechanism for stablizing its swing.

6. air-conditioner air supply device according to claim 5, it is characterised in that first supporting mechanism and the driving machine Structure is symmetrically disposed in the active intermediate air guiding member.

7. air-conditioner air supply device according to claim 4, it is characterised in that the driving mechanism includes：

Motor, there is provided power；

Connector, connects the motor and the active intermediate air guiding member.

8. air-conditioner air supply device according to claim 7, it is characterised in that the connector includes connecting shaft, described One end of the connecting shaft and the output axis connection of the motor, the other end are fixedly connected with the active intermediate air guiding member.

9. air-conditioner air supply device according to claim 7, it is characterised in that the connector includes to be connected with the motor The first crank connect and the second crank being connected with the active intermediate air guiding member, first crank and second crank lead to Cross connecting rod connection.

10. air-conditioner air supply device according to claim 5, it is characterised in that first supporting mechanism includes first Support shaft and the first locating rod, described first support shaft one end are fixedly connected with the active intermediate air guiding member, the other end and institute State the rotation connection of the first locating rod.

11. air-conditioner air supply device according to claim 5, it is characterised in that the air-supply arrangement has further included support institute State linkage middle wind guiding member, the second supporting mechanism for stablizing its swing.

12. air-conditioner air supply device according to claim 11, it is characterised in that second supporting mechanism includes symmetrically Be arranged on it is described linkage middle wind guiding member on the second support shaft and the 3rd support shaft, described second support shaft one end with it is described Dynamic middle wind guiding member is fixedly connected, and the other end and the second locating rod are rotatablely connected, described 3rd support shaft one end and the linkage Middle wind guiding member is fixedly connected, and the other end and the 3rd locating rod are rotatablely connected.

13. a kind of indoor apparatus of air conditioner, including indoor set body, exist in the indoor set body formed with air outlet, its feature In being provided with the air-conditioner air supply device any one of the claims 1 to 12 in the indoor set body.