CN104807156B - Air-conditioning and air-conditioner air supply device - Google Patents
Air-conditioning and air-conditioner air supply device Download PDFInfo
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- CN104807156B CN104807156B CN201410039280.7A CN201410039280A CN104807156B CN 104807156 B CN104807156 B CN 104807156B CN 201410039280 A CN201410039280 A CN 201410039280A CN 104807156 B CN104807156 B CN 104807156B
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- air
- guiding member
- wind
- supply device
- wind guiding
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
Abstract
The invention discloses a kind of air-conditioning and air-conditioner air supply devices, air-conditioner air supply device includes blowing body, the blowing body includes at least three air guiding members, it is arranged successively before and after the air guiding member, centre forms the insertion air channel that front and back penetrates through, air-supply gap is formed between adjacent two air guiding member, the air supply device further includes having driving mechanism and leakproof wind mechanism, middle wind guiding member dynamic is located in the middle in each air guiding member that the driving mechanism is used to that front and back to be driven to be arranged successively to change with before, air-supply gap between adjacent wind guiding member afterwards, the leakproof wind mechanism is formed between the end air guiding member and a middle wind guiding member adjacent thereto for being located at end in each air guiding member that front and back is arranged successively.Air-conditioner air supply device of the 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 outlet air to be adjusted to the comfortable sexual experience for improving user to direction required for user using air-conditioning when.
Description
Technical field
The invention belongs to air-conditioning technique fields, specifically, being to be related to a kind of air-conditioning and air-conditioner air supply device.
Background technique
Currently, for common vertical air conditioner in air-supply, the wind after heat exchanger heat exchange is directly in internal fan 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.In general, in heat exchange
Additional air supply device is not provided between device and air outlet.One of this air-conditioning is the disadvantage is that be entirely heat due to sending out wind
Wind is exchanged, air quantity is limited, and indoor air circulation speed is slow;It has another disadvantage that the wind sent out is not soft enough, is especially freezing
Under mode, the cool breeze blown out is directly blown into user, and user feels uncomfortable.
To solve this problem, 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 device that there is air-supply main body, perforation before and after 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 in air-supply main body and is connected with its insertion air channel
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 duct is blown out through insertion air channel front end, it can pass through outside non-heat exchange wind inlet suction part not
The non-heat exchange wind of heat exchange participates in the last outlet air of air-conditioning, increases the whole intake of air-conditioning, accelerates Interior Space
The flowing of gas improves the whole uniformity of room air.Moreover, such mixing wind is more soft, meeting with user is blown to
Feel more comfortable, improves user's comfortableness experience effect.
But this air supply device 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, the temperature of the middle section and other regions of periphery that lead to air-conditioner air outlet face there are deviation,
Entire room is uneven in temperature.Meanwhile there is the trend assembled to middle section in the wind that air-conditioning is sent out, therefore, if user is in
It, can be because generating uncomfortable feeling by wind blow-through when the middle section, and other region meetings except middle section
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, is to need to study
With a key technical problem of solution, this is also exactly the technical problems to be solved by the invention.
Summary of the invention
The air-conditioner air supply device of air-out wind direction can be adjusted the object of the present invention is to provide one kind and there is the air-conditioning
The air-conditioning of device.
For achieving the above object, air-conditioner air supply device provided by the invention, which adopts the following technical solutions, is achieved:
A kind of air-conditioner air supply device, including blowing body, the blowing body include perforation among at least three, have
The air guiding member of front and back opening, the insertion air channel that the air guiding member front and back is arranged successively, intermediate formation front and back penetrates through, described in adjacent two
Air-supply gap is formed between air guiding member, the air supply device further includes having driving mechanism and leakproof wind mechanism, the driving mechanism
Middle wind guiding member dynamic is located in the middle in each air guiding member for driving front and back to be arranged successively to change and forward and backward adjacent wind guiding member
Between air-supply gap, and then by air-supply gap variation change air supply device air supply direction;The leakproof wind mechanism shape
At the intermediate wind-guiding of an end air guiding member and adjacent thereto one for being located at end in each air guiding member that front and back is arranged successively
Between body, for blocking the air-supply gap between the end air guiding member and middle wind guiding member adjacent thereto.
To realize aforementioned invention purpose, the present invention also provides another air-conditioner air supply devices, specifically:
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 back opening, the insertion air channel that the air guiding member front and back is arranged successively, intermediate formation front and back penetrates through, described in adjacent two
Air-supply gap is formed between air guiding member, the air supply device further includes having driving mechanism, leakproof wind mechanism and linkage mechanism, front and back
It is located in the middle multiple middle wind guiding members in each air guiding member being arranged successively to link by linkage mechanism, one of intermediate wind-guiding
Body is drivingly connected as active intermediate air guiding member with the driving mechanism, and the driving mechanism drives wind-guiding among the active
Air-supply gap between the change of body dynamic and forward and backward adjacent wind guiding member, and then driven by linkage mechanism as intermediate lead of linking
Remaining middle wind guiding member dynamic of wind body changes the air-supply gap between forward and backward adjacent wind guiding member;The leakproof wind mechanism shape
At the intermediate wind-guiding of an end air guiding member and adjacent thereto one for being located at end in each air guiding member that front and back is arranged successively
Between body, for blocking the air-supply gap between the end air guiding member and middle wind guiding member adjacent thereto.
In addition, the present invention also provides the air-conditionings for being respectively provided with above-mentioned air-conditioner air supply device.
Compared with prior art, the advantages and positive effects of the present invention are: the present invention passes through with multiple air guiding members
Driving mechanism and leakproof wind mechanism are set in air-conditioner air supply device, using driving mechanism driving middle wind guiding member dynamic change with
Air-supply gap between forward and backward adjacent wind guiding member, and then change the air output of air-supply gap different directions, and to influence air-supply side
To gap carry out Anti-air-leakage processing, thus, it is possible to using different directions air output variation realization to the accurate of air-out direction
It adjusts.Using after this air-conditioner air supply device in air-conditioning, be capable of increasing air-out direction so that the entire area of the indoor uniformly,
Rapidly reach refrigeration or heating effect;It can also adjusting outlet air to direction required for user, user's use is improved
Comfortable sexual experience when air-conditioning.
After a specific embodiment of the invention is read in conjunction with the figure, the other features and advantages of the invention will become more clear
Chu.
Detailed description of the invention
Fig. 1 is the main view of air-conditioning 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 in Fig. 2 under the first working condition of air-conditioner air supply device;
Fig. 4 is the top view in Fig. 2 under second of working condition of air-conditioner air supply device;
Fig. 5 is the side view of second embodiment of air-conditioner air supply device in Fig. 1;
Fig. 6 is the top view in Fig. 5 under the first working condition of air-conditioner air supply device;
Fig. 7 is the top view in Fig. 5 under second of working condition of air-conditioner air supply device;
Fig. 8 is the stereogram exploded view of air-conditioner air supply device third embodiment in Fig. 1;
Fig. 9 is the enlarged drawing in the portion A in Fig. 8;
Figure 10 is the perspective view in Fig. 8 under the first working condition of linkage mechanism;
Figure 11 is the perspective view in Fig. 8 under second of working condition of linkage mechanism;
Figure 12 is the top view in Fig. 8 under the first working condition of air-conditioner air supply device;
Figure 13 is the top view in Fig. 8 under second of working condition of air-conditioner air supply device;
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 the portion B in Figure 14.
Specific embodiment
The technical scheme of the present invention will be explained in further detail with reference to the accompanying drawings and detailed description.
Firstly, making a brief description to the technical term being related in the specific embodiment: 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 the device that is constituted with the multiple structural members phase under normal operating condition
The definition done for the position of user.
Referring to Figure 1, the figure shows the main views of air conditioner indoor unit one embodiment of the present invention.
As shown in Figure 1, the air-conditioning of the embodiment includes indoor set body 100, indoor set body 100 has front panel 102,
It is formed with air outlet 1021 on plate 102 in front, indoors inside machine ontology 100, position corresponding with air outlet 1021 sets
It is equipped with air-conditioner air supply device 101.The specific structure of air-conditioner air supply device 101 refers 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 is air-conditioning dress
101 side view is set, 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
Including the annular wind guiding member that there are six centres to penetrate through, is open with front and back, before being respectively (for from left to right in Fig. 2) from front to back
Fixed wind guiding member 111, the first middle wind guiding member 113, the second middle wind guiding member 114, among third 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 (is not marked in figure, refers to opening for each air guiding member right end
Mouthful) be air inlet, open front (being not marked in figure, refer to the opening of each air guiding member left end) is air outlet, and rear fixed wind guiding member
112 after-opening is the non-heat exchange wind inlet of entire air-conditioner air supply device 101.It is arranged successively before and after six air guiding members, it is intermediate
The insertion air channel (being not marked in figure) that front and back penetrates through is formed, forms air-supply gap between two neighboring air guiding member.Specifically, preceding
The first air-supply gap (not shown), the first intermediate wind-guiding are formed between fixed wind guiding member 111 and the first middle wind guiding member 113
The second air-supply gap 117 is formed between body 113 and the second middle wind guiding member 114, is led among the second middle wind guiding member 114 and third
Third air-supply gap 118 is formed between wind body 115, and the is formed between third 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 be joined by linkage mechanism 15
It is dynamic.15 one end of linkage mechanism and rear fixed wind guiding member 112 are fixed, and the other end and the first middle wind guiding member 113 are fixed.And
And linkage mechanism 15 is two (Fig. 2 illustrates only one), two linkage mechanisms 15 are symmetrical arranged (ginseng is as shown in figure 3 and figure 4)
In middle wind guiding member.Linkage mechanism 15 preferably uses folding bar linkage structure, and specific structure can refer to Figure 10, Tu11Suo
Show.
In addition, air-conditioner air supply device 101 further includes having driving mechanism 12, for driving the first middle wind guiding member 113.Specifically
For, driving mechanism 12 includes motor 121 and the connecting shaft being connected with the output shaft of motor 121 122, 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 motor 121 and the first middle wind guiding member
Connector between 113 is both used as transmission parts, can be by the power transmission of motor 121 to the first middle wind guiding member 113, also
It can be used as support member, support 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 further includes having supporting mechanism, for supporting each middle wind guiding member.Specifically, machine is supported
Structure includes the first supporting mechanism for supporting the first middle wind guiding member 113 and the second support machine for supporting 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, and the other end and the first locating rod 132 are rotatablely connected.Specifically, the first support shaft 131 and
The lower end of one middle wind guiding member 113 is fixedly connected, to be symmetrically disposed in the first middle wind guiding member 113 with driving mechanism 12
On.Further, axle sleeve (be not marked in figure) and first of first support shaft 131 also by being formed in the first locating rod 132
Locating rod 132 carries out smooth rotation connection.Second supporting mechanism includes the second support shaft 141,142,143 and third branch
Support axis 144,145,146.Second support shaft 141 and third support shaft 144 are symmetricly set on the lower end of the second middle wind guiding member 114
The upper end and.Specifically, 141 one end of the second support shaft is fixedly connected with the second middle wind guiding member 114, and the other end and first is determined
Position bar 132 is rotatablely connected by axle sleeve (being not marked in figure);144 one end of third support shaft and the second middle wind guiding member 114 are fixed
Connection, the other end and the second locating rod 133 are rotatablely connected.Second support shaft 142 and third 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 and third middle wind guiding member 115 are fixed
Connection, the other end and the first locating rod 132 are rotatablely connected by axle sleeve (being not marked in figure);145 one end of third support shaft with
Third middle wind guiding member 115 is fixedly connected, and the other end and the second locating rod 133 are rotatablely connected.Second support shaft 143 and third
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, and the other end and the first locating rod 132 are connected by axle sleeve (being not marked in figure) rotation
It connects;146 one end of third support shaft is fixedly connected with the 4th middle wind guiding member 116, and the other end and the rotation of the second locating rod 133 connect
It connects.In addition, further to stablize the first middle wind guiding member 113, connecting shaft 122 also passes through the second locating rod 133 and is positioned.
When air-conditioner air supply device 101 is set inside machine ontology 100 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 the suitable position inside indoor set body 100.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 guarantee determining position.Moreover, it is also possible under the driving of driving mechanism 12, with the axis perpendicular to each middle wind guiding member
The straight line of the central axis of line namely air-conditioner air supply device 101 is that axis of oscillation is swung.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
It swings under the driving of driving mechanism 12, and the stable oscillation under the support of supporting mechanism.Moreover, also passing through linkage mechanism 15
Linkage effect, drive remaining each middle wind guiding member also to swing.
In each middle wind guiding member during swinging, it will change between the air-supply between forward and backward adjacent wind guiding member
Gap.It specifically, 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 are formed with leakproof wind mechanism 16 between middle wind guiding member 113, for blocking in preceding fixed wind guiding member 111 and first
Between be formed by air-supply gap between air guiding member 113.Leakproof wind mechanism 16 can be the air damper structure of fixed peripheral wall sealing,
It is preferable to employ the extensible member structures that can be stretched, such as telescoping tube.The preferred structure of leakproof wind mechanism 16 can be with reference to figure
Shown in 14 and Figure 15.
The principle that air-conditioner air supply device 101 changes air-out direction is described in detail below 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
It is rotated according to certain orientation, for example, being defined as rotating in the forward direction.Under the rotating in the forward direction 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.It is led among first
113 counter-clockwise swing of wind body, left side Forward, right side moves back.It moves forward on the left of first middle wind guiding member 113, stretches and be located at left side
Linkage mechanism 151, so that the left side of remaining middle wind guiding member be driven to move forward;It moves back, presses on the right side of first middle wind guiding member 113
It condenses in the linkage mechanism 152 on right side, so that the right side of remaining middle wind guiding member be driven to move back.To present as shown in Figure 3
Working condition.
It anticipates as shown in connection with fig. 2, in Fig. 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 parts for being located at left side significantly become larger, and the part for being located at right side significantly becomes smaller;In second middle wind guiding member 114 and third
Between third air-supply gap 118 between air guiding member 115 be located at the part in left side and significantly become larger, and the part for being located at right side significantly becomes
It is small;The part that the 4th air-supply gap 119 between third middle wind guiding member 115 and the 4th middle wind guiding member 116 is located at left side is aobvious
Work becomes larger, and the part for being located at right side significantly becomes smaller;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 the part for being located at right side significantly becomes smaller.
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, and the part for being located at left side is significant
Become smaller.But the air-supply gap will be blocked by leakproof wind mechanism 16, have no or only a little air and send from this
The outflow of wind gap.Therefore, the heat exchange wind inside indoor set body 100 is most of blows to perforation wind from the biggish left side in gap
Then road is blown out from the right front of preceding fixed wind guiding member 111.And the lesser right side in gap only has the wind of fraction to perforation
Air duct.So wind direction is to the right, to go out that is, realizing right side when so that most wind being blown out from indoor set body 100
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, drive the first middle wind guiding member 113 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, right side
Forward, left side moves back.It moves forward on the right side of first middle wind guiding member 113, the linkage mechanism 152 for being located at right side is stretched, to drive it
The right side of remaining middle wind guiding member moves forward;It being moved back on the left of first middle wind guiding member 113, compression is located at the linkage mechanism 151 in left side,
To drive the left side of remaining middle wind guiding member to move back.To which working condition 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 the part for being located at left side significantly becomes smaller;Second middle wind guiding member 114 and third middle wind guiding member 115 it
Between third air-supply gap 118 be located at the part on right side and significantly become larger, and the part for being located at left side significantly becomes smaller;It is led among third
The part that the 4th air-supply gap 119 between wind body 115 and the 4th middle wind guiding member 116 is located at right side significantly becomes larger, and is located at
The part in left side significantly becomes smaller;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 the part for being located at left side significantly becomes smaller.
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, and the part for being located at right side is significant
Become smaller.But the air-supply gap will be blocked by leakproof wind mechanism 16, have no or only a little air and send from this
The outflow of wind gap.Therefore, the heat exchange wind inside indoor set body 100 is most of blows to perforation wind from the biggish right side in gap
Then road is blown out from the left front of preceding fixed wind guiding member 111.And the lesser left side in gap only has the wind of fraction to perforation
Air duct.So wind direction is to the left, to go out that is, realizing left side when so that most wind being blown out from indoor set body 100
Wind.
It drives the first middle wind guiding member 113 to swing by setting driving mechanism 12, and remaining is driven by linkage mechanism 15
Middle wind guiding member is swung, and is changed the size of air-supply gap, can be changed the air output of air-supply gap different directions;Then, it realizes
Adjusting to air-out direction.Blowing range cannot be capable of increasing so that the entire area of the indoor uniformly, rapidly reach refrigeration or
Heating effect, it can also outlet air to be adjusted to the comfort body for improving user to direction required for user using air-conditioning when
It tests.
In this embodiment, motor 121 is preferably but not limited to stepper motor, to facilitate through the control to stepper motor
System realizes the accurate positioning to middle wind guiding member amplitude of fluctuation.
Moreover, although in this embodiment, driving mechanism 12 drives the first middle wind guiding member 113 to put around axis of oscillation or so
It is dynamic, but be not limited to swing.By changing the position of driving mechanism and supporting mechanism, each intermediate 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, to realize
The air-supply of upper and lower direction.
Fig. 5 to Fig. 7 show second embodiment of air-conditioner air supply device 101 in Fig. 1.Wherein, Fig. 5 is air-conditioning dress
101 side view is set, 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,
It include blowing body 21.Specifically, blowing body 21 also includes that there are six intermediate perforation, the annulars with front and back opening to lead
Wind body, (in Fig. 5 for from left to right) is respectively preceding fixed wind guiding member 211, in the first middle wind guiding member 213, second from front to back
Between air guiding member 214, third 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 (being not marked in figure, refer to the opening of each air guiding member right end) is air inlet, open front (is not marked in figure, refers to each lead
The opening of wind body left end) it is air outlet, and the after-opening of rear fixed wind guiding member 212 is the non-thermal of entire air-conditioner air supply device 101
Exchange wind inlet.It is arranged successively before and after six air guiding members, centre forms the insertion air channel (being not marked in figure) that front and back penetrates through, 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 and preceding fixed wind guiding member 211 are fixed, 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 to 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 being connected with the output shaft of motor 221 222, 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 above structure, leakproof is formed between rear fixed wind guiding member 212 and the 4th middle wind guiding member 216
Blower structure 26 is formed by air-supply gap between rear fixed wind guiding member 212 and the 4th middle wind guiding member 216 for blocking.
Other than the difference of above structure, the connection relationship between other component and component in second embodiment is equal
It can refer to one embodiment, do not repeat herein.
For the air-conditioner air supply device with above structure, change the principle and one embodiment class of air-out direction
Seemingly, difference is only that the corresponding relationship between the direction of rotation of middle wind guiding member and air supply direction changes, and specific implementation is former
Reason can refer to shown in Fig. 6 and Fig. 7 and following descriptions to two figure.
Specifically, when applying the air-conditioner air supply device 101 of second embodiment in air conditioner indoor unit, if user presses
Wind direction regulating key on lower air-conditioning remote control or indoor unit panel, motor 221 work on power, rotate according to certain orientation, example
Such as, it is defined as rotating in the forward direction.Under the rotating in the forward direction 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,
Its left side moves back, right side Forward.It is moved back on the left of 4th middle wind guiding member 216, stretches the linkage mechanism 251 for being located at left side, thus
The left side of remaining middle wind guiding member is driven to move back;It moves forward on the right side of 4th middle wind guiding member 216, compression is located at the gear on right side
Structure 252, so that the right side of remaining middle wind guiding member be driven to move forward.To which working condition as shown in FIG. 6 be presented.To make
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 is obtained to present
The variation tendency that left part significantly becomes larger, right part significantly becomes smaller.
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, and the part for being located at left side is significant
Become smaller.But the air-supply gap will be blocked by leakproof wind mechanism 26, have no or only a little air and send from this
The outflow of wind gap.Therefore, the heat exchange wind inside indoor set body 100 is most of blows to perforation wind from the biggish left side in gap
Then road is blown out from the right front of preceding fixed wind guiding member 211.And the lesser right side in gap only has the wind of fraction to perforation
Air duct.So wind direction is to the right, to go out that is, realizing right side when so that most wind being blown out from indoor set body 100
Wind.
Left side outlet air is then in contrast.Specifically, if user presses the control button of left side outlet air, motor 221
It reversely rotates.Under the reverse rotation of motor 221, drive the 4th middle wind guiding member 216 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, left side before
It moves, right side moves back.It moves forward on the left of 4th middle wind guiding member 216, compression is located at the linkage mechanism 251 in left side, to drive remaining
The left side of middle wind guiding member moves forward;It is moved back on the right side of 4th middle wind guiding member 216, stretches the linkage mechanism 252 for being located at right side, from
And the right side of remaining middle wind guiding member is driven to move back.To which working condition as shown in Figure 7 be presented.To so that removing the 4th
Right part is presented in remaining air-supply gap except 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 becomes smaller.
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, and the part for being located at right side is significant
Become smaller.But the air-supply gap will be blocked by leakproof wind mechanism 26, have no or only a little air and send from this
The outflow of wind gap.Therefore, the heat exchange wind inside indoor set body 100 is most of blows to perforation wind from the biggish right side in gap
Then road is blown out from the left front of preceding fixed wind guiding member 211.And the lesser left side in gap only has the wind of fraction to perforation
Air duct.So wind direction is to the left, to go out that is, realizing left side when so that most wind being blown out from indoor set body 100
Wind.
Likewise, in this embodiment, motor 221 is preferably but not limited to stepper motor, to facilitate by stepping
The accurate positioning to middle wind guiding member amplitude of fluctuation is realized in the control of motor.
It swings moreover, driving mechanism drives the 4th middle wind guiding member 216 to be also not limited to around axis of oscillation, by changing
The position for becoming driving mechanism and supporting mechanism, can also realize each middle wind guiding member with the axis perpendicular to middle wind guiding member its
His straight line is that axis of oscillation is swung.For example, each intermediate wind-guiding is symmetrically arranged in driving mechanism and support construction
On body, then middle wind guiding member can be driven to make upper and lower swing, to realize the air-supply of upper and lower direction.
Fig. 8 to Figure 15 shows as the third embodiment of air-conditioner air supply device 101 in Fig. 1.
Fig. 8 is referred to, which show the stereogram exploded view of 101 third embodiment of air-conditioner air supply device.As shown,
Similar with first and second embodiment, the air-conditioner air supply device 101 of the embodiment includes blowing body 31.It is specific and
It says, blowing body 31 includes that there are five intermediate perforations, the annular wind guiding member with front and back opening, (is from front to back from a left side in Fig. 8
To the right side) it is respectively preceding fixed wind guiding member 311, the first middle wind guiding member 313, the second middle wind guiding member 314, third middle wind guiding member
315 and rear fixed wind guiding member 312.The after-opening (being not marked in figure, refer to the opening of each air guiding member right end) of each air guiding member is
Air inlet, open front (being not marked in figure, refer to the opening of each air guiding member left end) are air outlet, and rear fixed wind guiding member 312
After-opening is the non-heat exchange wind inlet of entire air-conditioner air supply device 101.It is arranged successively before and after five air guiding members, before centre is formed
The insertion air channel (being not marked in figure) penetrated through afterwards forms air-supply gap between two neighboring air guiding member.
Wherein, the first middle wind guiding member 313, the second middle wind guiding member 314, third 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 that the first linkage mechanism 351 and the second linkage mechanism 352, the two 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 specific structure can refer to Figure 10
With shown in Figure 11.
Figure 10 show the perspective view under the first working condition of linkage mechanism, and specifically linkage mechanism is in rugosity
Perspective view under state;And Figure 11 show the perspective view under second of working condition of linkage mechanism, specifically linkage mechanism
Perspective view in a stretched state.
As shown in Figure 10 and Figure 11, by taking the first linkage mechanism 351 as an example, including there are three parallel―ordinal shifts 3511,3512
With 3513, and these three parallel―ordinal shifts are successively hinged, form foldable type connecting rod structure.In conjunction with 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, positioned at the outside articulated section 3515 of the parallel―ordinal shift 3513 of the other end and the fixed company of the first middle wind guiding member 313
It connects, and the inside articulated section 3516 between parallel―ordinal shift 3511 and 3512 is fixedly connected with third middle wind guiding member 315, in parallel
Inside 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 further includes having driving mechanism 32, for driving the first middle wind guiding member 313.Specifically
For, the enlarged drawing about the portion A in Fig. 8 in conjunction with shown in Fig. 9, driving mechanism 32 includes motor 321, the first crank 322, connects
Bar 323 and the second crank 324.Wherein, there are two interconnecting piece (being not marked in figure), first connecting portion and electricity for the first crank 322 tool
The output axis connection of machine 321, second connecting portion and connecting rod 323 are rotatablely connected.Second crank 324 also have there are two interconnecting piece (figure
In do not mark), first connecting portion and connecting rod 323 are rotatablely connected, and second connecting portion passes through and positioned to the second crank 324, is hidden
The lower cover 326 of hiding and be fixedly connected with the first middle wind guiding member 313.First crank 322, connecting rod 323 and the second crank 324 are constituted
Connector between motor 321 and the first middle wind guiding member 313 drives the first middle wind guiding member 313 when motor 321 rotates
It swings.
Air-conditioner air supply device 101 further includes having supporting mechanism, for supporting each middle wind guiding member.Specifically, machine is supported
Structure includes to support to lead among the first supporting mechanism of the first middle wind guiding member 313 and the second middle wind guiding member 314 of support, third
Second supporting mechanism of wind body 315.First supporting mechanism includes the first support shaft 333 and positioned to the first support shaft,
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, the other end
It is rotatablely connected across 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, to be symmetrically disposed in the first middle wind guiding member 313 above and below with driving mechanism 32.Second supporting mechanism
It include the second support shaft 341,342 and third support shaft 343 and 344.Second support shaft 341 and third support shaft 343 are right
Claim lower end and upper end that the second middle wind guiding member 314 is set.Specifically, it is led among 341 one end of the second support shaft and second
Wind body 314 is fixedly connected, and the other end passes through upper cover 332 and is rotatablely connected with lower cover 331;343 one end of third support shaft and the
Two middle wind guiding members 314 are fixedly connected, and the other end and lower cover 326 are rotatablely connected.Second support shaft 342 and third support shaft
344 are symmetricly set on the lower end and upper end of third middle wind guiding member 315.Specifically, in 342 one end of the second support shaft and third
Between air guiding member 315 be fixedly connected, the other end pass through upper cover 332 and with lower cover 331 be rotatablely connected;344 one end of third support shaft
It is fixedly connected with third middle wind guiding member 315, the other end and lower cover 326 are rotatablely connected.
Moreover, also button is equipped with upper cover 325 on lower cover 326, so as to by connecting rod 323, the second crank 324, third support shaft 343
And 344 stash as much as possible.
When air-conditioner air supply device 101 is set inside machine ontology 100 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.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, with perpendicular to middle wind guiding member axis namely air-conditioning give
The straight line of the central axis of wind apparatus 101 is that axis of oscillation is swung.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 will be in the drive of driving mechanism 32
It swings under dynamic, and the stable oscillation under the support of supporting mechanism.Moreover, also being made by the linkage of linkage mechanism 351 and 352
With the second middle wind guiding member 314 of drive and third 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 are formed with leakproof wind mechanism 36 between middle wind guiding member 313, for blocking in preceding fixed wind guiding member 311 and first
Between be formed by air-supply gap between air guiding member 313.The specific structure of leakproof wind mechanism 36 is referring to Figure 1 shown in 4 and Figure 15.
Figure 14 show the sectional side view after the third embodiment air-conditioner air supply device 101 assembling, and Figure 15 is the portion B in Figure 14
Enlarged drawing.Illustrated in conjunction with the stereogram exploded view of Fig. 8, leakproof wind mechanism 36 includes that front and back be arranged successively three is kept out the wind
Body, (Fig. 8 and Figure 14 is from left to right) is respectively the fixed body 361 that keeps out the wind, adjusts keep out the wind body 362 and the body that keeps out the wind that links from front to back
363.Wherein, the fixed body 361 that keeps out the wind is fixedly connected with lower cover 326, and front end and the inner wall of preceding fixed wind guiding member 311 fit.
Link the first middle wind guiding member 313 of package of body 363 of keeping out the wind, and 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, can follow the swing of the first middle wind guiding member 313.It adjusts
The body 362 that keeps out the wind be located at it is fixed keep out the wind body 361 and linkage is kept out the wind between body 363, the outer wall and linkage for adjusting the body 362 that keeps out the wind keep out the wind body
363 inner wall fits, and adjusts and keep out the wind the inner wall of body 362 and the outer wall of fixed wind guiding member 361 fits.That is, in Figure 15
Sectional side view in, the fixed body 361 that keeps out the wind adjusts and keeps out the wind body 362 and the linkage body 363 that keeps out the wind is arranged with the sequence of from-inner-to-outer, and
It is fixed to keep out the wind body 361 and adjusting keeps out the wind body 362 there are lap, it 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 respectively is formed with via hole (not shown) above and below, for the second crank 324 and the first support
Axis 333 passes through, so that adjusting be supported to keep out the wind body 362 using the second crank 324 and the first support shaft 333.
It is formed with back-off portion 3631 on body 363 moreover, linkage is kept out the wind, adjusts and is formed with limiting stand 3622 on the body 362 that keeps out the wind,
Back-off portion 3631 leans with limiting stand 3622, thus, linkage keep out the wind body 363 swing when, drive adjust keep out the wind body 362 also with
Equidirectional swing.Adjusting, which is kept out the wind, is formed with back-off portion 3621 on body 362, is formed with sliding slot 3611 on the fixed body 361 that keeps out the wind,
Buckle 3621 can the forward and backward sliding in sliding slot 3611.
In the air conditioner indoor unit course of work, when motor 321 drives the first middle wind guiding member 313 to swing, link the body that keeps out the wind
363 swing simultaneously 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 simultaneously.During the swing, body 363 is kept out the wind in linkage and adjusting keeps out the wind between body 362 and there is overlay region always
Domain will not form gap therebetween.Adjusting keep out the wind body 362 swing when, the forward and backward cunning in sliding slot 3611 of back-off portion 3621
It is dynamic, and adjust the body 362 that keeps out the wind using 3611 pairs of sliding slot and limit, it is ensured that adjusting is kept out the wind between body 362 and the fixed body 361 that keeps out the wind
Always there is 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 prevents two air guiding members
Between Air Leakage.
The leakproof wind mechanism 36 of the embodiment uses three bodies that keep out the wind, but not limited to this, one, two can also be used
A or more than three bodies that keep out the wind.In addition to this, leakproof wind mechanism can not also use the body that keeps out the wind, and can use can 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 third embodiment with above structure, change air-out direction principle with first
Embodiment and second embodiment are similar, and specific implementation principle shown in 2 and Figure 13 and following retouches two figure referring to Figure 1
It states.
Specifically, when applying the air-conditioner air supply device 101 of third embodiment in air conditioner indoor unit, if user presses
Right outlet air control button on lower air-conditioning remote control or indoor unit panel, motor 321 work on power, rotate according to certain orientation,
For example, being defined as rotating in the forward direction.Under the rotating in the forward direction of motor 321, pass through the first crank 322, connecting rod 323 and the second crank
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, left side Forward, right side moves back.It moves forward, stretches on the left of first middle wind guiding member 313
Linkage mechanism 351 positioned at left side, thus before driving the left side of the second middle wind guiding member 314 and third middle wind guiding member 315 equal
It moves;It is moved back on the right side of first middle wind guiding member 313, compression is located at the linkage mechanism 352 on right side, to drive the second middle wind guiding member
314 and the right side of third middle wind guiding member 315 move back.To which working condition as shown in figure 12 be presented.To, so that the
Among air-supply gap, the second middle wind guiding member 314 and third between one middle wind guiding member 313 and the second middle wind guiding member 314
The air-supply gap between air-supply gap and third 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 becomes smaller 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, and the part for being located at left side is significant
Become smaller.But the air-supply gap will be blocked by leakproof wind mechanism 36, have no or only a little air and send from this
The outflow of wind gap.Therefore, the heat exchange wind inside indoor set body 100 is most of blows to perforation wind from the biggish left side in gap
Then road is blown out from the right front of preceding fixed wind guiding member 311.And the lesser right side in gap only has the wind of fraction to perforation
Air duct.So wind direction is to the right, to go out that is, realizing right side when so that most wind being blown out from indoor set body 100
Wind.
Left side outlet air is then in contrast.Specifically, if user presses the control button of left side outlet air, motor 321
It reversely rotates.Under the reverse rotation of motor 321, driven in first by the first crank 322, connecting rod 323 and the second crank 324
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, right side Forward, left side moves back.It moves forward on the right side of first middle wind guiding member 313, stretches the connection for being located at right side
Motivation structure 352, so that the right side of the second middle wind guiding member 314 and third middle wind guiding member 315 be driven to move forward;It is led among first
It is moved back on the left of wind body 313, compression is located at the linkage mechanism 351 in left side, to drive among the second middle wind guiding member 314 and third
The left side of air guiding member 315 moves back.To which working condition as shown in fig. 13 that be presented.To so that the first middle wind guiding member
Between 313 and the second air-supply gap, the second middle wind guiding member 314 and third middle wind guiding member 315 between middle wind guiding member 314
Air-supply gap and third 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 becomes smaller.
At the same time, leakproof wind mechanism 36 blocks the air-supply between preceding fixed wind guiding member 311 and the first middle wind guiding member 313
Gap has no or only a little air and flows out from the air-supply gap.Therefore, the heat inside indoor set body 100 is handed over
It changes wind major part and blows to insertion air channel from the biggish right side in gap, then, blown out from the left front of preceding fixed wind guiding member 311.And
The lesser 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 out, wind direction is to the left, that is, realizing left side outlet air.
Likewise, in this embodiment, motor 321 is preferably but not limited to stepper motor, to facilitate by stepping
The accurate positioning to middle wind guiding member amplitude of fluctuation is realized in the control of motor.
It swings, passes through around axis of oscillation moreover, driving mechanism 32 drives the first middle wind guiding member 313 to be also not limited to
The position for changing driving mechanism and supporting mechanism, can also realize each middle wind guiding member with the axis perpendicular to middle wind guiding member
Other straight lines are that axis of oscillation is swung.It is led for example, each centre is symmetrically arranged in driving mechanism and support construction
On wind body, then middle wind guiding member can be driven to make upper and lower swing, to realize the air-supply of upper and lower direction.
In addition, if being 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 arranged in the first middle wind guiding member 313
The symmetrical driving mechanism of structure 32 provides driving power 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 referring to aforementioned reality
Applying example, invention is explained in detail, for those of ordinary skill in the art, still can be to aforementioned implementation
Technical solution documented by example is modified or equivalent replacement of some of the technical features;And these are modified or replace
It changes, the spirit and scope for claimed technical solution of the invention that it does not separate the essence of the corresponding technical solution.
Claims (26)
1. a kind of air-conditioner air supply device, including blowing body, before the blowing body includes perforation among at least three, has
The air guiding member of after-opening, the insertion air channel that the air guiding member front and back is arranged successively, intermediate formation front and back penetrates through, leads described in adjacent two
Air-supply gap is formed between wind body, which is characterized in that the air supply device further includes having driving mechanism and leakproof wind mechanism, described
Middle wind guiding member dynamic is located in the middle in each air guiding member that driving mechanism is used to that front and back to be driven to be arranged successively to change and forward and backward phase
Air-supply gap between adjacent air guiding member, changes the air output of air-supply gap different directions, and then is changed by the variation of air-supply gap
The air supply direction of pick-up wind apparatus;The leakproof wind mechanism, which is formed in each air guiding member that front and back is arranged successively, is located at the one of end
Between a end air guiding member and a middle wind guiding member adjacent thereto, for block the end air guiding member and it is adjacent thereto in
Between air-supply gap between air guiding member.
2. air-conditioner air supply device according to claim 1, which is characterized in that the leakproof wind mechanism is extensible member, described
Extensible member has the first connecting pin compatible with the end air guiding member and the middle wind guiding member adjacent with the end air guiding member
Compatible second connection end, the extensible member are connect by first connecting pin with the end air guiding member, pass through second
Connecting pin is connect with compatible middle wind guiding member.
3. air-conditioner air supply device according to claim 1, which is characterized in that the leakproof wind mechanism includes that fixation is kept out the wind
The linkage of body and middle wind guiding member linkage, which is kept out the wind, body and keeps out the wind body positioned at the fixation and the linkage is kept out the wind between body
Adjusting keep out the wind body.
4. air-conditioner air supply device according to any one of claim 1 to 3, which is characterized in that the driving mechanism driving
Middle wind guiding member is swung using the straight line of the axis perpendicular to the middle wind guiding member as axis of oscillation.
5. air-conditioner air supply device according to claim 4, which is characterized in that the air supply device further includes having described in support
Middle wind guiding member, the supporting mechanism for stablizing its swing.
6. air-conditioner air supply device according to claim 5, which is characterized in that the supporting mechanism and the driving mechanism pair
Ground is claimed to be arranged in the middle wind guiding member.
7. air-conditioner air supply device according to claim 4, which is characterized in that the driving mechanism includes:
Motor provides power;
Connector connects the motor and the middle wind guiding member.
8. air-conditioner air supply device according to claim 7, which is characterized in that the connector includes connecting shaft, described
The output axis connection of one end of the connecting shaft and the motor, the other end are fixedly connected with the middle wind guiding member.
9. air-conditioner air supply device according to claim 7, which is characterized in that the connector includes to connect with the motor
The first crank connect and the second crank connecting with the middle wind guiding member, first crank and second crank pass through company
Bar connection.
10. air-conditioner air supply device according to claim 5, which is characterized in that the supporting mechanism include support shaft and
Locating rod, described support shaft one end are fixedly connected with the middle wind guiding member, and the other end and the locating rod are rotatablely connected.
11. a kind of air-conditioning, including indoor set body are formed with air outlet in the indoor set body, which is characterized in that in institute
It states and is provided with air-conditioner air supply device described in any one of the claims 1 to 10 in indoor set body.
12. a kind of air-conditioner air supply device, including blowing body, the blowing body includes perforation among at least four, has
The air guiding member of front and back opening, the insertion air channel that the air guiding member front and back is arranged successively, intermediate formation front and back penetrates through, described in adjacent two
Air-supply gap is formed between air guiding member, which is characterized in that the air supply device further includes having driving mechanism, leakproof wind mechanism and connection
Motivation structure is located in the middle multiple middle wind guiding members in each air guiding member that front and back is arranged successively and is linked by linkage mechanism, wherein
One middle wind guiding member is drivingly connected as active intermediate air guiding member with the driving mechanism, described in the driving mechanism driving
Active intermediate air guiding member dynamic changes the air-supply gap between forward and backward adjacent wind guiding member, and then is acted by linkage mechanism band
Change the air-supply gap between forward and backward adjacent wind guiding member for remaining middle wind guiding member dynamic for the middle wind guiding member that links, changes
The air output of air-supply gap different directions, and then the air supply direction of the variation change air supply device by air-supply gap;It is described anti-
Mechanism of leaking out is formed in the end air guiding member and adjacent thereto one for being located at end in each air guiding member that front and back is arranged successively
Between a middle wind guiding member, for blocking the air-supply gap between the end air guiding member and middle wind guiding member adjacent thereto.
13. air-conditioner air supply device according to claim 12, which is characterized in that the leakproof wind mechanism is extensible member, institute
Extensible member is stated with the first connecting pin compatible with the end air guiding member and the intermediate wind-guiding adjacent with the end air guiding member
The compatible second connection end of body, the extensible member are connect by first connecting pin with the end air guiding member, by the
Two connecting pins are connect with compatible middle wind guiding member.
14. air-conditioner air supply device according to claim 12, which is characterized in that it is characterized in that, the leakproof wind mechanism
It keeps out the wind and body and keeps out the wind body and described positioned at the fixation including the fixed body that keeps out the wind, with the linkage of middle wind guiding member linkage
Adjusting between the dynamic body that keeps out the wind is kept out the wind body.
15. air-conditioner air supply device according to claim 12, which is characterized in that the linkage mechanism is two, is symmetrically set
It sets on the air guiding member.
16. air-conditioner air supply device according to claim 15, which is characterized in that the linkage mechanism includes multiple parallel
Double leval jib, multiple parallel―ordinal shifts are successively hinged, form foldable type connecting rod structure, are located at the one of end in foldable type connecting rod structure
An end air guiding member for being located at end in each air guiding member that the outside articulated section and front and back of a parallel―ordinal shift are arranged successively is solid
The outside hinge portion of fixed connection, the articulated section of two neighboring parallel―ordinal shift and another parallel―ordinal shift positioned at end
It is not corresponding with a middle wind guiding member to be fixedly connected.
17. air-conditioner air supply device described in any one of 2 to 16 according to claim 1, which is characterized in that the driving mechanism is driven
The active intermediate air guiding member is moved to be swung using the straight line of the axis perpendicular to the active intermediate air guiding member as axis of oscillation.
18. air-conditioner air supply device according to claim 17, which is characterized in that the air supply device further includes having support institute
State active intermediate air guiding member, the first supporting mechanism for stablizing its swing.
19. air-conditioner air supply device according to claim 18, which is characterized in that first supporting mechanism and the driving
Mechanism is symmetrically disposed in the active intermediate air guiding member.
20. air-conditioner air supply device according to claim 17, which is characterized in that the driving mechanism includes:
Motor provides power;
Connector connects the motor and the active intermediate air guiding member.
21. air-conditioner air supply device according to claim 20, which is characterized in that the connector includes connecting shaft, institute
The output axis connection of one end of the connecting shaft Yu the motor is stated, the other end is fixedly connected with the active intermediate air guiding member.
22. air-conditioner air supply device according to claim 20, which is characterized in that the connector includes and the motor
First crank of connection and the second crank being connect with the active intermediate air guiding member, first crank and second crank
It is connected by connecting rod.
23. air-conditioner air supply device according to claim 18, which is characterized in that first supporting mechanism includes first
Support shaft and the first locating rod, 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.
24. air-conditioner air supply device according to claim 18, which is characterized in that the air supply device further includes having support institute
State linkage middle wind guiding member, the second supporting mechanism for stablizing its swing.
25. air-conditioner air supply device according to claim 24, which is characterized in that second supporting mechanism includes symmetrical
The second support shaft and third support shaft in the linkage middle wind guiding member, second support shaft one end and described are set
Dynamic middle wind guiding member is fixedly connected, and the other end and the second locating rod are rotatablely connected, third support shaft one end and the linkage
Middle wind guiding member is fixedly connected, and the other end and third locating rod are rotatablely connected.
26. a kind of air-conditioning, including indoor set body are formed with air outlet in the indoor set body, which is characterized in that in institute
It states and is provided with air-conditioner air supply device described in any one of the claims 12 to 25 in indoor set body.
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Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105423418B (en) * | 2015-11-13 | 2019-03-26 | 青岛海尔空调器有限总公司 | Air conditioner indoor unit |
CN105318436B (en) * | 2015-11-13 | 2018-10-12 | 青岛海尔空调器有限总公司 | Air conditioner indoor unit |
CN105352036B (en) * | 2015-11-13 | 2018-10-12 | 青岛海尔空调器有限总公司 | Air conditioner indoor unit |
CN105371363B (en) * | 2015-11-13 | 2018-10-12 | 青岛海尔空调器有限总公司 | Air conditioner indoor unit |
CN106705212A (en) * | 2015-11-13 | 2017-05-24 | 青岛海尔空调器有限总公司 | Air conditioner indoor unit |
CN106052066B (en) * | 2016-05-31 | 2019-05-31 | 青岛海尔空调器有限总公司 | Air-conditioner air supply device and air conditioner indoor unit |
CN106016657B (en) * | 2016-05-31 | 2021-04-20 | 青岛海尔空调器有限总公司 | Air conditioner air supply device and air conditioner indoor unit |
CN106052024B (en) * | 2016-05-31 | 2019-02-05 | 青岛海尔空调器有限总公司 | The air blowing control method of air conditioner |
CN105928173B (en) * | 2016-05-31 | 2019-04-23 | 青岛海尔空调器有限总公司 | Air-conditioner air supply device and air conditioner indoor unit |
CN107014050B (en) * | 2017-05-09 | 2023-06-06 | 珠海格力电器股份有限公司 | Air guide device, control method thereof and air conditioner |
CN108119977B (en) * | 2018-01-30 | 2024-04-09 | 远大洁净空气科技有限公司 | New fan prevents irritating wind structure |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2575526Y (en) * | 2002-08-27 | 2003-09-24 | 春兰(集团)公司 | Gas combustion wall-hanging stove air-conditioner system |
CN201561536U (en) * | 2009-12-02 | 2010-08-25 | 南方风机股份有限公司 | Anti-icing air volume adjusting valve |
CN202707209U (en) * | 2012-08-09 | 2013-01-30 | 陕西重型汽车有限公司 | Wind guide device of car cooling system opening fan |
CN103453648A (en) * | 2013-06-03 | 2013-12-18 | 海尔集团公司 | Condensation preventing method implemented by air supply device of air conditioner |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100717481B1 (en) * | 2006-04-26 | 2007-05-14 | 기아자동차주식회사 | A dual damper strucuture in vehicle with air damper |
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2014
- 2014-01-27 CN CN201410039280.7A patent/CN104807156B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2575526Y (en) * | 2002-08-27 | 2003-09-24 | 春兰(集团)公司 | Gas combustion wall-hanging stove air-conditioner system |
CN201561536U (en) * | 2009-12-02 | 2010-08-25 | 南方风机股份有限公司 | Anti-icing air volume adjusting valve |
CN202707209U (en) * | 2012-08-09 | 2013-01-30 | 陕西重型汽车有限公司 | Wind guide device of car cooling system opening fan |
CN103453648A (en) * | 2013-06-03 | 2013-12-18 | 海尔集团公司 | Condensation preventing method implemented by air supply device of air conditioner |
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