CN109916068A - A kind of air-conditioning wind direction regulating device - Google Patents
A kind of air-conditioning wind direction regulating device Download PDFInfo
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- CN109916068A CN109916068A CN201910093732.2A CN201910093732A CN109916068A CN 109916068 A CN109916068 A CN 109916068A CN 201910093732 A CN201910093732 A CN 201910093732A CN 109916068 A CN109916068 A CN 109916068A
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- inflection point
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Abstract
The invention discloses a kind of air-conditioning wind direction regulating device, including framework, it is vertically directed plate, horizontally-guided plate, the first transmission component and the second transmission component;The both ends of framework are respectively air intake vent and air outlet, are vertically directed plate and horizontally-guided plate is located on the inside of framework;The both ends for being vertically directed plate are rotatablely connected with the inner wall of framework vertically respectively, and the both ends of horizontally-guided plate horizontally rotate with framework inner wall respectively to be connect;First transmission component respectively be vertically directed plate and the transmission connection of horizontally-guided plate to drive is vertically directed plate and horizontally-guided plate synchronous rotary;Second transmission component respectively be vertically directed plate and the transmission connection of horizontally-guided plate to drive is vertically directed plate and horizontally-guided plate synchronous rotary.
Description
Technical field
The present invention relates to air-conditioning technical fields, and in particular to a kind of air-conditioning wind direction regulating device.
Background technique
Air-conditioning adjustable plate is that one kind is mounted on air-conditioning blowing mouth, for being rotated relative to air-conditioning to change the device of wind direction.
Existing air-conditioning wind direction regulating device generally includes vertical rotary guide plate and rotates horizontally guide plate, vertical rotary
Guide plate is used to adjust the angle changed between wind direction and horizontal plane, rotates horizontally guide plate for adjusting and changes wind direction in level
Angle on face, two guide plates cannot can not rotate simultaneously, can only realize the one of which in left and right swing flap and vertical swing flap
Function.
Summary of the invention
The embodiment of the present invention is designed to provide a kind of air-conditioning wind direction regulating device, cannot be same to solve existing air-conditioning
When the problem of adjusting the angle of angle and wind direction between wind direction and horizontal plane in the horizontal plane.
To achieve the above object, the technical solution of the embodiment of the present invention are as follows:
A kind of air-conditioning wind direction regulating device, including framework, it is vertically directed plate, horizontally-guided plate, the first transmission component and
Two transmission components;
The both ends of framework are respectively air intake vent and air outlet, are vertically directed plate and horizontally-guided plate is located in framework
Side;
The both ends for being vertically directed plate are rotatablely connected with the inner wall of framework vertically respectively, the both ends of horizontally-guided plate respectively with frame
Internal wall horizontally rotates connection;
First transmission component respectively be vertically directed plate and horizontally-guided plate be sequentially connected with drive be vertically directed plate with
And horizontally-guided plate synchronous rotary;
Second transmission component respectively be vertically directed plate and horizontally-guided plate be sequentially connected with drive be vertically directed plate with
And horizontally-guided plate synchronous rotary;
When the driving of first transmission component is vertically directed plate and horizontally-guided plate synchronous rotary, it is vertically directed plate and is led with level
It is i1 to the rotating ratio of plate relative rotation;
When the driving of second transmission component is vertically directed plate and horizontally-guided plate synchronous rotary, it is vertically directed plate and is led with level
It is i2 to the rotating ratio of plate relative rotation;
I1 is greater than i2, and i1 is the non-integral multiple of i2.
The embodiment of the present invention is further arranged to: first transmission component includes first motor, the first synchronous belt, first
Driving wheel and the first driven wheel;
The both ends of the horizontally-guided plate are fixedly connected with horizontal rotating shaft, and horizontal rotating shaft and the framework horizontally rotate company
It connects;
First motor is fixedly connected with the framework, the Pivot axle of the output shaft of first motor and the horizontal rotating shaft
Line is parallel, and the output shaft of first motor is fixedly connected with horizontal rotating shaft, and the first driving wheel is fixedly connected with horizontal rotating shaft;
The both ends for being vertically directed plate are fixedly connected with vertical shaft, and vertical shaft is rotatablely connected vertically with framework, the
One driven wheel is fixedly connected with vertical shaft;
First synchronous belt is respectively wound around on the first driven wheel and the first driving wheel, the first driving wheel and the first driven wheel it
Between by the first toothed belt transmission connect.
The embodiment of the present invention is further arranged to: first transmission component further includes the first inflection point, the first inflection point and institute
Framework is stated to be fixedly connected;
First inflection point tool there are four and respectively A inflection point, B inflection point, C inflection point and D inflection point;
First synchronous belt is successively overlapped in four the first inflection points around folding, and four the first inflection points are set along the first synchronous belt
Setting sequence is the-the first driven wheel of A inflection point-B inflection point-C inflection point-D inflection point the-the first driving wheel-A inflection point;
A inflection point, B inflection point, C inflection point and D inflection point are located on the first driven wheel Plane of rotation;
A inflection point, C inflection point and D inflection point are located on the first driving gear Plane of rotation;
First synchronous belt between first driving wheel and A inflection point and the first synchronous belt between A inflection point and B inflection point
Vertically;
The synchronous belt between the first synchronous belt and B inflection point and the first driven wheel between A inflection point and B inflection point is vertical;
First between the first synchronous belt and the first driven wheel and C inflection point between B inflection point and the first driven wheel is synchronous
Band is vertical;
The first synchronous belt between the first synchronous belt and C inflection point and D inflection point between first driven wheel and C inflection point hangs down
Directly;
The first synchronous belt between the first synchronous belt and D inflection point and the first driving wheel between C inflection point and D inflection point hangs down
Directly;
First between the first synchronous belt and A inflection point and the first driving wheel between D inflection point and the first driving wheel is synchronous
Band is parallel.
The embodiment of the present invention is further arranged to: second transmission component includes the second motor, the second synchronous belt, second
Driving wheel and the second driven wheel;
The both ends of the horizontally-guided plate are fixedly connected with vertical shaft, and vertical shaft and the framework horizontally rotate company
It connects;
Second motor is fixedly connected with the framework, the Pivot axle of the output shaft of the second motor and the vertical shaft
Line is parallel, and the output shaft of the second motor is fixedly connected with vertical shaft, and the second driving wheel is fixedly connected with vertical shaft;
The both ends for being vertically directed plate are fixedly connected with vertical shaft, and vertical shaft is rotatablely connected vertically with framework, the
Two driven wheels are fixedly connected with vertical shaft;
Second synchronous belt is respectively wound around on the second driven wheel and the second driving wheel, the second driving wheel and the second driven wheel it
Between by the second toothed belt transmission connect.
The embodiment of the present invention is further arranged to: second transmission component further includes Second Inflexion Point, Second Inflexion Point and institute
Framework is stated to be fixedly connected;
Second Inflexion Point tool there are four and respectively E inflection point, F inflection point, G inflection point and H inflection point;
Second synchronous belt is successively overlapped on four Second Inflexion Points around folding, and four Second Inflexion Points are set along the second synchronous belt
Setting sequence is the-the second driven wheel of E inflection point-F inflection point-G inflection point-H inflection point the-the second driving wheel-E inflection point;
E inflection point, F inflection point, G inflection point and H inflection point are located on the second driven wheel Plane of rotation;
E inflection point, G inflection point and H inflection point are located on the second driving gear Plane of rotation;
Second synchronous belt between second driving wheel and E inflection point and the second synchronous belt between E inflection point and F inflection point
Vertically;
The synchronous belt between the second synchronous belt and F inflection point and the second driven wheel between E inflection point and F inflection point is vertical;
Second between the second synchronous belt and the second driven wheel and G inflection point between F inflection point and the second driven wheel is synchronous
Band is vertical;
The second synchronous belt between the second synchronous belt and G inflection point and H inflection point between second driven wheel and G inflection point hangs down
Directly;
The second synchronous belt between the second synchronous belt and H inflection point and the second driving wheel between G inflection point and H inflection point hangs down
Directly;
Second between the second synchronous belt and E inflection point and the second driving wheel between H inflection point and the second driving wheel is synchronous
Band is parallel.
The embodiment of the present invention is further arranged to: first transmission component and second transmission component are located at institute
State the both ends for being vertically directed plate.
The embodiment of the present invention is further arranged to: it is described to be vertically directed there are two plate at least has, it is solid in the vertical shaft
Surely it is connected with vertical coupled wheel, vertical linkage is wound on vertical coupled wheel, passes through vertical linkage between vertical coupled wheel
Transmission connection.
The embodiment of the present invention is further arranged to: solid on the horizontal rotating shaft there are two the horizontally-guided plate at least has
Surely it is connected with horizontal coupled wheel, horizontal linkage is wound on horizontal coupled wheel, passes through horizontal linkage between horizontal coupled wheel
Transmission connection.
The embodiment of the present invention is further arranged to: first synchronous belt and second synchronous belt are flexible rubber
Adhesive tape, cross section are circle.
The embodiment of the present invention is further arranged to: the horizontal linkage and the vertical linkage are tooth band, described perpendicular
Direct connection driving wheel and the horizontal coupled wheel are gear, and gear is connected by meshing transmission with tooth band.
The embodiment of the present invention has the advantages that
1, the air intake vent of framework is docked with the air outlet of air-conditioning, horizontally-guided plate and be vertically directed plate simultaneously rotary motion,
It horizontally-guided plate and is vertically directed plate and leads the wind that air-conditioner air outlet is blown out along the vertical direction and in the horizontal direction respectively
To the angle being vertically directed between plate change air-flow and horizontal plane, horizontally-guided plate changes the folder between air-flow and perpendicular
Angle;
2, horizontally-guided plate and be vertically directed plate and meanwhile movement air current flow direction can be made along horizontal and vertical two sides
To compound, the adjustable range of air-flow direction is improved, since i1 is greater than i2 and i1 is the non-integral multiple of i2, horizontally-guided plate and vertical
The rotation angle of guide plate will not form integer relation, and horizontally-guided plate and the period of motion for being vertically directed plate linkage extend, wind
To can keep not repeating in a longer period of time.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the embodiment of the present invention;
Fig. 2 is that the schematic diagram for being vertically directed plate and horizontally-guided plate connection relationship is embodied in the embodiment of the present invention;
Fig. 3 is the schematic diagram that the first transmission component structure is embodied during the present invention is implemented;
Fig. 4 is the schematic diagram of the horizontal coupled wheel of embodiment and horizontal linkage band structure in the embodiment of the present invention;
Fig. 5 is the schematic diagram that the second transmission component structure is embodied in the embodiment of the present invention.
Wherein,
1, framework;11, air intake vent;12, air outlet;
2, it is vertically directed plate;21, vertical shaft;
3, horizontally-guided plate;31, horizontal rotating shaft;
4, the first transmission component;41, first motor;42, the first synchronous belt;43, the first driving wheel;44, the first driven wheel;
45, the first inflection point;
5, the second transmission component;51, the second motor;52, the second synchronous belt;53, the second driving wheel;54, the second driven wheel;
55, Second Inflexion Point;
6, vertical coupled wheel;
7, vertical linkage;
8, horizontal coupled wheel;
9, horizontal linkage.
Specific embodiment
The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention..
Embodiment
A kind of air-conditioning wind direction regulating device, complex chart 1 and Fig. 2, including framework 1, be vertically directed plate 2, horizontally-guided plate 3,
First transmission component 4 and the second transmission component 5;The both ends of framework 1 are respectively air intake vent 11 and air outlet 12, are vertically directed plate 2
1 inside of framework is located at horizontally-guided plate 3;It is vertically directed the air outlet 12 that plate 2 is located at framework 1, is vertically directed the two of plate 2
End is rotatablely connected with the inner wall of framework 1 vertically respectively, and the both ends of horizontally-guided plate 3 horizontally rotate with 1 inner wall of framework respectively to be connect;
First transmission component 4 respectively be vertically directed plate 2 and the transmission connection of horizontally-guided plate 3 to drive is vertically directed plate 2 and water
Flat 3 synchronous rotary of guide plate;Second transmission component 5 respectively be vertically directed plate 2 and horizontally-guided plate 3 transmission connection to drive
It is vertically directed 3 synchronous rotary of plate 2 and horizontally-guided plate;The driving of first transmission component 4 is vertically directed plate 2 and horizontally-guided plate
When 3 synchronous rotary, the rotating ratio for being vertically directed plate 2 and 3 relative rotation of horizontally-guided plate is i1;The driving of second transmission component 5 is perpendicular
When straight guide plate 2 and horizontally-guided 3 synchronous rotary of plate, it is vertically directed plate 2 and the rotating ratio of 3 relative rotation of horizontally-guided plate is
i2;I1 is greater than i2, and i1 is the non-integral multiple of i2.
When work, framework 1 is fixedly mounted on to the air outlet of air-conditioning, the air intake vent 11 of framework 1 and the air outlet pair of air-conditioning
It connects, horizontally-guided plate 3 and is vertically directed the rotary motion simultaneously of plate 2, horizontally-guided plate 3 and be vertically directed plate 2 for air-conditioner air outlet
The wind of 12 blowouts are oriented to along the vertical direction and in the horizontal direction respectively, be vertically directed plate 2 change air-flow and horizontal plane it
Between angle, horizontally-guided plate 3 changes the angle between air-flow and perpendicular.
Horizontally-guided plate 3 and be vertically directed plate 2 simultaneously move air current flow direction can be made along horizontal and vertical two sides
To compound, the adjustable range of raising air-flow direction.It is the non-integral multiple of i2 since i1 is greater than i2 and i1, horizontally-guided plate 3 and perpendicular
The rotation angle of straight guide plate 2 will not form integer relation, and horizontally-guided plate 3 and the period of motion for being vertically directed the linkage of plate 2 prolong
Long, wind direction can keep not repeating in a longer period of time.
In conjunction with Fig. 3, the first transmission component 4 include first motor 41, the first synchronous belt 42, the first driving wheel 43 and first from
Driving wheel 44;The both ends of horizontally-guided plate 3 are fixedly connected with horizontal rotating shaft 31, and horizontal rotating shaft 31 horizontally rotates with framework 1 to be connect;The
One motor 41 is fixedly connected with framework 1, and the output shaft of first motor 41 is parallel with the center of rotation axis of horizontal rotating shaft 31, and first
The output shaft of motor 41 is fixedly connected with horizontal rotating shaft 31, and the first driving wheel 43 is fixedly connected with horizontal rotating shaft 31;It is vertically directed
The both ends of plate 2 are fixedly connected with vertical shaft 21, and vertical shaft 21 is rotatablely connected vertically with framework 1, the first driven wheel 44 with it is perpendicular
Straight shaft 21 is fixedly connected;First synchronous belt 42 is respectively wound around on the first driven wheel 44 and the first driving wheel 43, and first actively
It is sequentially connected between wheel 43 and the first driven wheel 44 by the first synchronous belt 42.First transmission component 4 further includes the first inflection point 45,
First inflection point 45 is fixedly connected with framework 1;First inflection point 45 tool there are four and respectively A inflection point, B inflection point, C inflection point and D inflection point;
First synchronous belt 42 is successively overlapped in four the first inflection points 45 around folding, and four the first inflection points 45 are arranged suitable along the first synchronous belt 42
Sequence is the-the first driven wheel of A inflection point-B inflection point 44-C inflection point-D inflection point the-the first driving wheel 43-A inflection point;A inflection point, B inflection point, C inflection point
It is located on 44 Plane of rotation of the first driven wheel with D inflection point;A inflection point, C inflection point and D inflection point are located at the first driving gear
On Plane of rotation;The first synchronous belt 42 between first driving wheel 43 and A inflection point and first between A inflection point and B inflection point is together
It is vertical to walk band 42;The synchronous belt between the first synchronous belt 42 and B inflection point and the first driven wheel 44 between A inflection point and B inflection point
Vertically;First between the first synchronous belt 42 and the first driven wheel 44 and C inflection point between B inflection point and the first driven wheel 44 is same
It is vertical to walk band 42;The first synchronous belt 42 between first driven wheel 44 and C inflection point and first between C inflection point and D inflection point is together
It is vertical to walk band 42;First between the first synchronous belt 42 and D inflection point and the first driving wheel 43 between C inflection point and D inflection point is same
It is vertical to walk band 42;Between the first synchronous belt 42 and A inflection point and the first driving wheel 43 between D inflection point and the first driving wheel 43
First synchronous belt 42 is parallel.
Complex chart 4 and Fig. 5, the second transmission component 5 include the second motor 51, the second synchronous belt 52,53 and of the second driving wheel
Second driven wheel 54;The both ends of horizontally-guided plate 3 are fixedly connected with vertical shaft 21, and vertical shaft 21 horizontally rotates with framework 1
Connection;Second motor 51 is fixedly connected with framework 1, and the center of rotation axis of the output shaft of the second motor 51 and vertical shaft 21 is flat
Row, the output shaft of the second motor 51 are fixedly connected with vertical shaft 21, and the second driving wheel 53 is fixedly connected with vertical shaft 21;It is perpendicular
The both ends of straight guide plate 2 are fixedly connected with vertical shaft 21, and vertical shaft 21 is rotatablely connected vertically with framework 1, the second driven wheel
54 are fixedly connected with vertical shaft 21;Second synchronous belt 52 is respectively wound around on the second driven wheel 54 and the second driving wheel 53, the
It is sequentially connected between two driving wheels 53 and the second driven wheel 54 by the second synchronous belt 52.Second transmission component 5 further includes second
Inflection point 55, Second Inflexion Point 55 are fixedly connected with framework 1;The tool of Second Inflexion Point 55 there are four and respectively E inflection point, F inflection point, G inflection point
With H inflection point;Second synchronous belt 52 is successively overlapped on four Second Inflexion Points 55 around folding, and four Second Inflexion Points 55 are along the second synchronous belt
52 settings sequence is E inflection point-F inflection point the-the second driven wheel 54-G inflection point-H inflection point the-the second driving wheel 53-E inflection point;E inflection point, F are turned
Point, G inflection point and H inflection point are located on 54 Plane of rotation of the second driven wheel;E inflection point, G inflection point and H inflection point are located at second
On driving gear Plane of rotation;Between the second synchronous belt 52 and E inflection point and F inflection point between second driving wheel 53 and E inflection point
The second synchronous belt 52 it is vertical;Between the second synchronous belt 52 and F inflection point and the second driven wheel 54 between E inflection point and F inflection point
Synchronous belt it is vertical;Between the second synchronous belt 52 and the second driven wheel 54 and G inflection point between F inflection point and the second driven wheel 54
The second synchronous belt 52 it is vertical;Between the second synchronous belt 52 and G inflection point and H inflection point between second driven wheel 54 and G inflection point
The second synchronous belt 52 it is vertical;Between the second synchronous belt 52 and H inflection point and the second driving wheel 53 between G inflection point and H inflection point
The second synchronous belt 52 it is vertical;The second synchronous belt 52 and E inflection point and the second driving wheel between H inflection point and the second driving wheel 53
The second synchronous belt 52 between 53 is parallel.
First transmission component 4 and the second transmission component 5 are located at the both ends for being vertically directed plate 2, and structure is more compact.
It is vertically directed there are two plate 2 at least has, vertical coupled wheel 6, vertical coupled wheel 6 is fixedly connected in vertical shaft 21
On be wound with vertical linkage 7, be sequentially connected between vertical coupled wheel 6 by vertical linkage 7.Horizontally-guided plate 3 at least has
There are two, it is fixedly connected with horizontal coupled wheel 8 on horizontal rotating shaft 31, horizontal linkage 9 is wound on horizontal coupled wheel 8, it is horizontal
It is sequentially connected between coupled wheel 8 by horizontal linkage 9.First synchronous belt 42 and the second synchronous belt 52 are flexible rubber
Band, cross section are circle.It can keep steadily cooperating with belt wheel when turning round and turning to.
Horizontal linkage 9 and vertical linkage 7 are tooth band, and vertical coupled wheel 6 and horizontal coupled wheel 8 are gear, gear with
Tooth band is connected by meshing transmission.
First inflection point 45 and Second Inflexion Point 55 are rotatablely connected using belt pulley and with framework 1, are convenient for and the first synchronous belt 42
Or second synchronous belt 52 be sequentially connected.
Although above having used general explanation and specific embodiment, the present invention is described in detail, at this
On the basis of invention, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Therefore,
These modifications or improvements without departing from theon the basis of the spirit of the present invention are fallen within the scope of the claimed invention.
Claims (10)
1. a kind of air-conditioning wind direction regulating device, it is characterized in that: include framework (1), be vertically directed plate (2), horizontally-guided plate (3),
First transmission component (4) and the second transmission component (5);
The both ends of framework (1) are respectively air intake vent (11) and air outlet (12), are vertically directed plate (2) and horizontally-guided plate (3) point
It Wei Yu not framework (1) inside;
It is vertically directed inner wall of the both ends of plate (2) respectively with framework (1) to be rotatablely connected vertically, the both ends point of horizontally-guided plate (3)
Do not horizontally rotate with framework (1) inner wall and connect;
First transmission component (4) respectively be vertically directed plate (2) and horizontally-guided plate (3) transmission connection is vertically directed to drive
Plate (2) and horizontally-guided plate (3) synchronous rotary;
Second transmission component (5) respectively be vertically directed plate (2) and horizontally-guided plate (3) transmission connection is vertically directed to drive
Plate (2) and horizontally-guided plate (3) synchronous rotary;
When first transmission component (4) driving is vertically directed plate (2) and horizontally-guided plate (3) synchronous rotary, it is vertically directed plate (2)
Rotating ratio with horizontally-guided plate (3) relative rotation is i1;
When second transmission component (5) driving is vertically directed plate (2) and horizontally-guided plate (3) synchronous rotary, it is vertically directed plate (2)
Rotating ratio with horizontally-guided plate (3) relative rotation is i2;
I1 is greater than i2, and i1 is the non-integral multiple of i2.
2. a kind of air-conditioning wind direction regulating device according to claim 1, it is characterized in that: first transmission component (4) wraps
Include first motor (41), the first synchronous belt (42), the first driving wheel (43) and the first driven wheel (44);
The both ends of the horizontally-guided plate (3) are fixedly connected with horizontal rotating shaft (31), horizontal rotating shaft (31) and the framework (1) water
Flat rotation connection;
First motor (41) is fixedly connected with the framework (1), the output shaft of first motor (41) and the horizontal rotating shaft (31)
Center of rotation axis it is parallel, the output shaft of first motor (41) is fixedly connected with horizontal rotating shaft (31), the first driving wheel (43)
It is fixedly connected with horizontal rotating shaft (31);
The both ends for being vertically directed plate (2) are fixedly connected with vertical shaft (21), and vertical shaft (21) and framework (1) turn vertically
Dynamic connection, the first driven wheel (44) are fixedly connected with vertical shaft (21);
First synchronous belt (42) is respectively wound around on the first driven wheel (44) and the first driving wheel (43), the first driving wheel (43) with
It is sequentially connected between first driven wheel (44) by the first synchronous belt (42).
3. a kind of air-conditioning wind direction regulating device according to claim 2, it is characterized in that: first transmission component (4) is also
Including the first inflection point (45), the first inflection point (45) is fixedly connected with the framework (1);
First inflection point (45) tool there are four and respectively A inflection point, B inflection point, C inflection point and D inflection point;
First synchronous belt (42) is successively overlapped on four the first inflection points (45) around folding, and four the first inflection points (45) are along first
Synchronous belt (42) setting sequence is that A inflection point-B the-the first driven wheel of inflection point (44)-C inflection point-D the-the first driving wheel of inflection point (43)-A is turned
Point;
A inflection point, B inflection point, C inflection point and D inflection point are located on the first driven wheel (44) Plane of rotation;
A inflection point, C inflection point and D inflection point are located on the first driving gear Plane of rotation;
First synchronous belt (42) between first driving wheel (43) and A inflection point and first between A inflection point and B inflection point is together
Step band (42) is vertical;
The synchronous belt between the first synchronous belt (42) and B inflection point and the first driven wheel (44) between A inflection point and B inflection point hangs down
Directly;
Between the first synchronous belt (42) and the first driven wheel (44) and C inflection point between B inflection point and the first driven wheel (44)
First synchronous belt (42) is vertical;
The first synchronous belt (42) between first driven wheel (44) and C inflection point and the first synchronous belt between C inflection point and D inflection point
(42) vertical;
The first synchronous belt between the first synchronous belt (42) and D inflection point and the first driving wheel (43) between C inflection point and D inflection point
(42) vertical;
Between the first synchronous belt (42) and A inflection point and the first driving wheel (43) between D inflection point and the first driving wheel (43)
First synchronous belt (42) is parallel.
4. a kind of air-conditioning wind direction regulating device according to claim 3, it is characterized in that: second transmission component (5) wraps
Include the second motor (51), the second synchronous belt (52), the second driving wheel (53) and the second driven wheel (54);
The both ends of the horizontally-guided plate (3) are fixedly connected with vertical shaft (21), vertical shaft (21) and the framework (1) water
Flat rotation connection;
Second motor (51) is fixedly connected with the framework (1), the output shaft of the second motor (51) and the vertical shaft (21)
Center of rotation axis it is parallel, the output shaft of the second motor (51) is fixedly connected with vertical shaft (21), the second driving wheel (53)
It is fixedly connected with vertical shaft (21);
The both ends for being vertically directed plate (2) are fixedly connected with vertical shaft (21), and vertical shaft (21) and framework (1) turn vertically
Dynamic connection, the second driven wheel (54) are fixedly connected with vertical shaft (21);
Second synchronous belt (52) is respectively wound around on the second driven wheel (54) and the second driving wheel (53), the second driving wheel (53) with
It is sequentially connected between second driven wheel (54) by the second synchronous belt (52).
5. a kind of air-conditioning wind direction regulating device according to claim 4, it is characterized in that: second transmission component (5) is also
Including Second Inflexion Point (55), Second Inflexion Point (55) is fixedly connected with the framework (1);
Second Inflexion Point (55) tool there are four and respectively E inflection point, F inflection point, G inflection point and H inflection point;
Second synchronous belt (52) is successively overlapped on four Second Inflexion Points (55) around folding, and four Second Inflexion Points (55) are along second
Synchronous belt (52) setting sequence is that E inflection point-F the-the second driven wheel of inflection point (54)-G inflection point-H the-the second driving wheel of inflection point (53)-E is turned
Point;
E inflection point, F inflection point, G inflection point and H inflection point are located on the second driven wheel (54) Plane of rotation;
E inflection point, G inflection point and H inflection point are located on the second driving gear Plane of rotation;
Second synchronous belt (52) between second driving wheel (53) and E inflection point and second between E inflection point and F inflection point is together
Step band (52) is vertical;
The synchronous belt between the second synchronous belt (52) and F inflection point and the second driven wheel (54) between E inflection point and F inflection point hangs down
Directly;
Between the second synchronous belt (52) and the second driven wheel (54) and G inflection point between F inflection point and the second driven wheel (54)
Second synchronous belt (52) is vertical;
The second synchronous belt (52) between second driven wheel (54) and G inflection point and the second synchronous belt between G inflection point and H inflection point
(52) vertical;
The second synchronous belt between the second synchronous belt (52) and H inflection point and the second driving wheel (53) between G inflection point and H inflection point
(52) vertical;
Between the second synchronous belt (52) and E inflection point and the second driving wheel (53) between H inflection point and the second driving wheel (53)
Second synchronous belt (52) is parallel.
6. a kind of air-conditioning wind direction regulating device according to claim 5, it is characterized in that: first transmission component (4) and
Second transmission component (5) is located at the both ends for being vertically directed plate (2).
7. a kind of air-conditioning wind direction regulating device according to claim 6, it is characterized in that: described be vertically directed plate (2) at least
There are two tools, is fixedly connected with vertical coupled wheel (6) on the vertical shaft (21), and it is vertical to be wound on vertical coupled wheel (6)
Linkage (7) is sequentially connected between vertical coupled wheel (6) by vertical linkage (7).
8. a kind of air-conditioning wind direction regulating device according to claim 7, it is characterized in that: the horizontally-guided plate (3) is at least
There are two tools, is fixedly connected with horizontal coupled wheel (8) on the horizontal rotating shaft (31), is wound with level on horizontal coupled wheel (8)
Linkage (9) is sequentially connected between horizontal coupled wheel (8) by horizontal linkage (9).
9. a kind of air-conditioning wind direction regulating device according to claim 8, it is characterized in that: first synchronous belt (42) and institute
Stating the second synchronous belt (52) is flexible rubber strip, and cross section is circle.
10. a kind of air-conditioning wind direction regulating device according to claim 8, it is characterized in that: the horizontal linkage (9) and institute
Stating vertical linkage (7) is tooth band, and the vertical coupled wheel (6) and the horizontal coupled wheel (8) are gear, and gear is nibbled with tooth band
Close transmission connection.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910093732.2A CN109916068B (en) | 2019-01-30 | 2019-01-30 | Air conditioner wind direction adjusting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910093732.2A CN109916068B (en) | 2019-01-30 | 2019-01-30 | Air conditioner wind direction adjusting device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN109916068A true CN109916068A (en) | 2019-06-21 |
| CN109916068B CN109916068B (en) | 2021-04-23 |
Family
ID=66961213
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201910093732.2A Active CN109916068B (en) | 2019-01-30 | 2019-01-30 | Air conditioner wind direction adjusting device |
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| Country | Link |
|---|---|
| CN (1) | CN109916068B (en) |
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| CN112460680B (en) * | 2020-11-30 | 2022-03-25 | 佛山市顺德区美的电子科技有限公司 | Air conditioner, control method thereof, electronic device and computer readable storage medium |
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