CN110836528A - Multidirectional air ducting and have device's defeated wind equipment - Google Patents
Multidirectional air ducting and have device's defeated wind equipment Download PDFInfo
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- CN110836528A CN110836528A CN201911066746.1A CN201911066746A CN110836528A CN 110836528 A CN110836528 A CN 110836528A CN 201911066746 A CN201911066746 A CN 201911066746A CN 110836528 A CN110836528 A CN 110836528A
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- 230000008859 change Effects 0.000 abstract description 14
- 238000006073 displacement reaction Methods 0.000 abstract description 12
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- 230000000694 effects Effects 0.000 description 4
- 108091006146 Channels Proteins 0.000 description 2
- 238000007664 blowing Methods 0.000 description 1
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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
- F24F13/14—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
- F24F13/1426—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/02—Units comprising pumps and their driving means
- F04D25/08—Units comprising pumps and their driving means the working fluid being air, e.g. for ventilation
- F04D25/10—Units comprising pumps and their driving means the working fluid being air, e.g. for ventilation the unit having provisions for automatically changing direction of output air
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- Engineering & Computer Science (AREA)
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- General Engineering & Computer Science (AREA)
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- Combustion & Propulsion (AREA)
- Air-Flow Control Members (AREA)
Abstract
A multi-directional air guide device is provided with an air guide plate, a main frame body and a six-dimensional driving mechanism, wherein the main frame body is used for being assembled at an air duct outlet, the air guide plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guide plate, and the six-dimensional driving mechanism drives the air guide plate to move in the front-back direction, the left-right direction or the up-down direction. The multi-directional air guide device drives the air guide plate to move in the front-back direction through the front-back driving mechanism, so that the air guide plate can generate front-back displacement change at the outlet of the air duct, and the change of the air outlet direction within 180 degrees is realized; the left and right driving mechanism drives the air deflector to move in the left and right directions, so that the characteristic of different left and right air outlet sizes is realized; the air guide plate is driven by the up-and-down driving mechanism to move in the up-and-down direction, so that the characteristics of downward hot air outlet and upward cold air outlet are realized, and the comfort of a user is improved.
Description
Technical Field
The invention relates to the technical field of wind conveying equipment, in particular to a multidirectional wind guide device and wind conveying equipment with the same.
Background
With the continuous progress of science and technology and the increasing improvement of the living standard of people, air outlet equipment such as fans, air conditioners, purifiers, humidifiers and the like become one of the most important household appliances in daily life of people.
In the prior art, the wind discharged from the air outlet of the household appliance equipment is guided by changing the wind outlet direction through the wind deflector or the direction of the air outlet is changed by swinging the machine body, the form of the wind outlet is single, the wind blowing range cannot be reasonably distributed, and the problems of waste of the wind outlet and poor experience of a user are caused.
Therefore, it is necessary to provide a multi-directional wind guiding device and a wind transporting apparatus having the same to solve the deficiencies of the prior art.
Disclosure of Invention
One of the objectives of the present invention is to provide a multi-directional wind guiding device to overcome the disadvantages of the prior art. This multidirectional air ducting can produce the air-out of multiple mode through the change of front and back, left and right sides or upper and lower direction displacement to change the effect of air-out, improve user's comfort level.
The above object of the present invention is achieved by the following technical means.
A multidirectional air guide device is provided with an air guide plate, a main frame body and a six-dimensional driving mechanism, wherein the main frame body is used for being assembled at an air duct outlet, the air guide plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guide plate, and the six-dimensional driving mechanism drives the air guide plate to move in the front-back direction, the left-right direction or the up-down direction.
Preferably, the main frame body is provided with an air duct interface used for being connected with an air duct outlet, and the six-dimensional driving mechanism is assembled on the air duct interface.
Preferably, the six-dimensional driving mechanism is provided with a support frame, a left-right driving mechanism, an up-down driving mechanism and a front-back driving mechanism, and the left-right driving mechanism, the up-down driving mechanism and the front-back driving mechanism are respectively assembled on the support frame.
Preferably, the left and right driving mechanism is provided with a first driving motor and a first rotating wheel; the first driving motor is fixed with the air deflector, a motor shaft of the first driving motor is fixedly connected with the first rotating wheel, and the first driving motor drives the first rotating wheel to rotate.
Preferably, the support frame is fixed with a first rack, and the first rack is meshed with the first rotating wheel.
According to the multidirectional air guide device, the left and right driving mechanisms are further provided with limiting wheels, the limiting wheels are coaxially connected with the first rotating wheel, the radius of each limiting wheel is larger than that of the first rotating wheel, and the limiting wheels are attached to the side wall of the first rack.
Preferably, one surface of the air deflector, which is close to the air duct outlet, is the inner surface of the air deflector, and the surface of the air deflector, which is back to the air duct outlet, is the outer surface of the air deflector;
the first driving motor is fixed on the inner surface of the wind shield; or
The first driving motor is fixed on the outer surface of the wind shield, and a motor shaft of the first driving motor penetrates through a through hole formed in the wind shield to be fixedly assembled with the first rotating wheel.
Preferably, the six-dimensional driving mechanism is provided with two sets of left and right driving mechanisms which are respectively arranged in the upper row and the lower row on the supporting frame.
Preferably, the support frame is provided with second portion, front and back sliding sleeve, front and back slide bar and third portion, front and back sliding sleeve, front and back slide bar, and the second portion is fixed in the wind channel export, and front and back sliding sleeve and second portion fixed connection, front and back slide bar slide assembly in front and back sliding sleeve, third portion and front and back slide bar fixed connection.
Preferably, the front-rear driving mechanism is provided with a second driving motor fixed to the second stationary portion, a second rotary wheel driving a second rotary wheel shaft to rotate, and a second rotary wheel engaged with a second rack fixed to the third stationary portion.
Preferably, the support frame is provided with an upper sliding rod, a lower sliding rod, an upper sliding sleeve and a lower sliding sleeve; the third portion decides and upper and lower sliding sleeve fixed connection, and the third portion is decided sliding assembly in upper and lower sliding sleeve.
Preferably, the up-down driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed on the third portion, the third driving motor drives the third rotating wheel to rotate, and the third rotating wheel is meshed with a third rack arranged on the up-down sliding rod;
the second rack is fixed on the upper and lower sliding sleeves, the upper and lower sliding rods are fixedly connected with the upper and lower sliding sleeves,
the first rack is fixedly connected with the upper sliding rod and the lower sliding rod.
The multi-directional air guide device is provided with an air guide plate, a main frame body and a six-dimensional driving mechanism, wherein the main frame body is used for being assembled at an air duct outlet, the air guide plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guide plate, and the six-dimensional driving mechanism drives the air guide plate to move in the front-back direction, the left-right direction or the up-down direction. According to the multidirectional air guide device, the air guide plate is driven by the six-dimensional driving mechanism to move in the front-back, left-right or up-down directions, and displacement changes in the front-back, left-right or up-down directions can be generated at the air outlet of the air duct, so that air outlet in various modes is generated, the air outlet effect is changed, and the comfort of a user is improved.
Another object of the present invention is to provide a wind delivery device that avoids the disadvantages of the prior art. This defeated wind equipment can produce the air-out of multiple mode through the change of front and back, left and right sides or upper and lower direction displacement to change the effect of air-out, improve user's comfort level.
The above object of the present invention is achieved by the following technical means.
A multi-directional air guide device is provided with an air guide plate, a main frame body and a six-dimensional driving mechanism, wherein the main frame body is used for being assembled at an air duct outlet, the air guide plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guide plate, and the six-dimensional driving mechanism drives the air guide plate to move in the front-back direction, the left-right direction or the up-down direction.
Preferably, the main frame body is provided with an air duct interface used for being connected with an air duct outlet, and the six-dimensional driving mechanism is assembled on the air duct interface.
Preferably, the six-dimensional driving mechanism is provided with a support frame, a left-right driving mechanism, an up-down driving mechanism and a front-back driving mechanism, and the left-right driving mechanism, the up-down driving mechanism and the front-back driving mechanism are respectively assembled on the support frame.
Preferably, the left and right driving mechanism is provided with a first driving motor and a first rotating wheel; the first driving motor is fixed with the air deflector, a motor shaft of the first driving motor is fixedly connected with the first rotating wheel, and the first driving motor drives the first rotating wheel to rotate.
Preferably, the support frame is fixed with a first rack, and the first rack is meshed with the first rotating wheel.
According to the air conveying equipment, the left and right driving mechanisms in the multidirectional air guide device are further provided with the limiting wheels, the limiting wheels are coaxially connected with the first rotating wheel, the radius of each limiting wheel is larger than that of the first rotating wheel, and the limiting wheels are attached to the side wall of the first rack.
Preferably, one surface of the air deflector, which is close to the air duct outlet, is the inner surface of the air deflector, and the surface of the air deflector, which is back to the air duct outlet, is the outer surface of the air deflector;
the first driving motor is fixed on the inner surface of the wind shield; or
The first driving motor is fixed on the outer surface of the wind shield, and a motor shaft of the first driving motor penetrates through a through hole formed in the wind shield to be fixedly assembled with the first rotating wheel.
Preferably, the six-dimensional driving mechanism is provided with two sets of left and right driving mechanisms which are respectively arranged in the upper row and the lower row on the supporting frame.
Preferably, the support frame is provided with second portion, front and back sliding sleeve, front and back slide bar and third portion, front and back sliding sleeve, front and back slide bar, and the second portion is fixed in the wind channel export, and front and back sliding sleeve and second portion fixed connection, front and back slide bar slide assembly in front and back sliding sleeve, third portion and front and back slide bar fixed connection.
Preferably, the front and rear driving mechanism is provided with a second driving motor and a second rotating wheel,
the second driving motor is fixed on the second fixed part and drives the second rotating wheel shaft to rotate, and the second rotating wheel is meshed with a second rack fixed on the third fixed part.
Preferably, the support frame is provided with an upper sliding rod, a lower sliding rod, an upper sliding sleeve and a lower sliding sleeve; the third portion decides and upper and lower sliding sleeve fixed connection, and the third portion is decided sliding assembly in upper and lower sliding sleeve.
Preferably, the up-down driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed on the third portion, the third driving motor drives the third rotating wheel to rotate, and the third rotating wheel is meshed with a third rack arranged on the up-down sliding rod;
the second rack is fixed on the upper and lower sliding sleeves, the upper and lower sliding rods are fixedly connected with the upper and lower sliding sleeves, and the first rack is fixedly connected with the upper and lower sliding rods.
Preferably, the air delivery device is any one of an air conditioner, a tower fan, a blower, or an air purifier.
The invention relates to a wind conveying device, wherein a multidirectional wind guiding device is provided with a wind guiding plate, a main frame body and a six-dimensional driving mechanism, wherein the main frame body is assembled at an outlet of an air duct, the wind guiding plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the wind guiding plate, and the six-dimensional driving mechanism drives the wind guiding plate to move in the front-back direction, the left-right direction or the up-down direction. According to the multidirectional air guide device, the air guide plate is driven by the six-dimensional driving mechanism to move in the front-back, left-right or up-down directions, and displacement changes in the front-back, left-right or up-down directions can be generated at the air outlet of the air duct, so that air outlet in various modes is generated, the air outlet effect is changed, and the comfort of a user is improved.
Drawings
The invention is further illustrated by means of the attached drawings, the content of which is not in any way limiting.
Fig. 1 is a schematic structural diagram of a multidirectional air guiding device of the present invention.
Fig. 2 is a schematic view of a support frame of a multidirectional air guiding device of the present invention.
Fig. 3 is an exploded schematic view of a multidirectional air guiding device according to the present invention.
In fig. 1 to 3, the following are included:
an air deflector 100,
A through hole 110,
A main frame body 200,
A six-dimensional driving mechanism 300,
A left and right driving mechanism 310,
A first driving motor 311, a first rotating wheel 312, a stopper wheel 313,
A front and rear driving mechanism 320,
A second drive motor 321, a second rotating wheel 322,
An up-down driving mechanism 330,
A third drive motor 331, a third rotating wheel 332,
A supporting frame 340,
A first rack 341, a second portion 342, a front and rear sliding sleeve 343, a front and rear sliding bar 344, a third portion 345, an upper and lower sliding bar 346, an upper and lower sliding sleeve 347, a first sliding sleeve, a second sliding sleeve, a third sliding sleeve 343, a first sliding rod, a second sliding sleeve 347, a second sliding sleeve 343, a third,
Detailed Description
The invention is further described with reference to the following examples.
Example 1.
A multi-directional air guide device is provided with an air guide plate 100, a main frame body 200 assembled at an air duct outlet, and a six-dimensional driving mechanism 300, as shown in FIG. 1, wherein the air guide plate 100 is assembled on the main frame body 200, the six-dimensional driving mechanism 300 is assembled between the main frame body 200 and the air guide plate 100, and the six-dimensional driving mechanism 300 drives the air guide plate 100 to move in the front-back, left-right or up-down directions.
When the six-dimensional driving mechanism 300 drives the air deflector 100 to move in the front-back, left-right or up-down directions, the direction of the wind blown out by the airflow from the outlet of the air duct is defined as the front, and the direction of the wind blown out by the airflow in the direction opposite to the front is defined as the back; the left-right direction is defined as the direction that the wind shield shields the wind outlet and moves left or right; the direction in which the wind shield shields the wind outlet to move upwards or downwards is defined as the vertical direction.
In the invention, the air deflector 100 is assembled on the main frame body 200, and the main frame body 200 is driven by the six-dimensional driving mechanism 300 to move in the front-back, left-right or up-down directions, so that the air deflector 100 can be driven to move, and the air deflector 100 generates displacement change at the air duct outlet, thereby changing the air outlet mode and meeting the requirements of user difference.
Further, the main frame body 200 is provided with an air duct interface for connecting with an air duct outlet, and the six-dimensional driving mechanism 300 is assembled at the air duct interface.
Further, the six-dimensional driving mechanism 300 is provided with a support frame 340, a left-right driving mechanism 310, an up-down driving mechanism 330, and a front-rear driving mechanism 320, and the left-right driving mechanism 310, the up-down driving mechanism 330, and the front-rear driving mechanism 320 are respectively assembled to the support frame 340.
In the present invention, the supporting frame 340 is used to integrally assemble and connect the left and right driving mechanism 310, the up and down driving mechanism 330, and the front and rear driving mechanism 320.
Specifically, as shown in fig. 2 to 3, the left-right driving mechanism 310 is provided with a first driving motor 311 and a first rotating wheel 312; the first driving motor 311 is fixed to the air deflector 100, a motor shaft of the first driving motor 311 is fixedly connected to the first rotating wheel 312, and the first driving motor 311 drives the first rotating wheel 312 to rotate. The supporting frame 340 is fixed with a first rack 341, and the first rack 341 is engaged with the first rotating wheel 312.
In the actual air outlet process, the first driving motor 311 rotates to drive the first rotating wheel 312 to rotate, so that the first rack 341 engaged with the first rotating wheel 312 rotates left and right, and the air deflector 100 is displaced left and right, thereby realizing the inconsistent air outlet sizes in the left and right directions and achieving the difference required by the user.
In the multi-directional air guide device, the left and right driving mechanism 310 is also provided with a limiting wheel 313, the limiting wheel 313 is coaxially connected with the first rotating wheel 312, the radius of the limiting wheel 313 is larger than that of the first rotating wheel 312, and the limiting wheel 313 is attached to the side wall of the first rack 341.
It should be noted that the limiting wheel 313 is used for being attached to the first rack 341, so as to ensure the stability of the first rotating wheel 312 in the moving process.
One surface of the air deflector 100 close to the air duct outlet is the inner surface of the air deflector, and the surface of the air deflector 100 back to the air duct outlet is the outer surface of the air deflector; the first drive motor 311 may be fixed to an inner surface of the windshield.
It is also possible to fix the first drive motor 311 to the outer surface of the windshield plate, and the motor shaft of the first drive motor 311 is fixedly fitted to the first rotating wheel 312 through the through hole 110 provided in the windshield plate.
In this embodiment, the first drive motor 311 is fixedly mounted to the outer surface of the windshield. In an actual design, a person skilled in the art can set the position of the first driving motor 311 according to an actual situation, and details are not repeated here.
In the multi-directional air guiding device of the present invention, the six-dimensional driving mechanism 300 is provided with two sets of left and right driving mechanisms 310, and the two sets of left and right driving mechanisms 310 are respectively arranged in an up-down direction on the supporting frame 340. The two sets of left and right driving mechanisms 310 can simultaneously drive the first rotating wheels 312 by the first driving motor 311 to move left and right, and can change the displacement of the air deflector 100 in the left and right direction.
Further, the support frame is provided with a second fixing portion 342, a front-rear sliding sleeve 343, a front-rear sliding rod 344 and a third fixing portion 345, the front-rear sliding sleeve 343, the front-rear sliding rod 344, the second fixing portion 342 is fixed at the outlet of the air duct, the front-rear sliding sleeve 343 is fixedly connected with the second fixing portion 342, the front-rear sliding rod 344 is slidably assembled on the front-rear sliding sleeve 343, and the third fixing portion 345 is fixedly connected with the front-rear sliding rod 344.
Further, the front-rear driving mechanism 320 is provided with a second driving motor 321 and a second rotating wheel 322, the second driving motor 321 is fixed to the second fixing portion 342, the second driving motor 321 drives the second rotating wheel 322 to rotate, and the second rotating wheel 322 is engaged with a second rack 3471 fixed to the third fixing portion 345.
The supporting frame 340 of the present invention is further provided with an upper and lower sliding bar 346 and an upper and lower sliding sleeve 347; the third fixing portion 345 is fixedly connected with the upper and lower sliding sleeves 347, and the third fixing portion 345 is slidably assembled on the upper and lower sliding sleeves 347.
Further, the up-down driving mechanism 330 is provided with a third driving motor 331 and a third rotating wheel 332, the third driving motor 331 is fixed to the third fixing portion 345, the third driving motor 331 drives the third rotating wheel 332 to rotate, and the third rotating wheel 332 is engaged with a third rack 3461 provided on the up-down sliding bar 346; the second rack 3471 is fixed on the upper and lower sliding sleeves 347, the upper and lower sliding bars 346 are fixedly connected with the upper and lower sliding sleeves 347, and the first rack 341 is fixedly connected with the upper and lower sliding bars 346.
It should be noted that the manner in which the front-back driving mechanism, the left-right driving mechanism, or the up-down driving mechanism drives the air deflector to move is not limited to that described in this embodiment, and other driving manners may also be used.
In the actual air outlet process, the second driving motor 321 fixed on the second fixing portion 342 rotates to drive the second rotating wheel 322 to rotate, so that the second rack 3471 engaged with the second rotating wheel 322 rotates back and forth, and the front and rear sliding rods 344 assembled on the front and rear sliding sleeves 343 move back and forth, so that the air deflector 100 is displaced back and forth, and the air outlet direction is changed within 180 degrees;
the third driving motor 331 fixed to the third fixing portion 345 rotates to drive the third rotating wheel 332 to rotate, so that the third rack 3461 engaged with the third rotating wheel 332 moves up and down, and the up-down sliding bar 346 is driven to move up and down, thereby realizing the characteristics of downward outlet of hot air and upward outlet of cold air.
The multi-directional air guide device is provided with an air guide plate 100, a main frame body 200 assembled at an air duct outlet and a six-dimensional driving mechanism 300, wherein the air guide plate 100 is assembled on the main frame body 200, the six-dimensional driving mechanism 300 is assembled between the main frame body 200 and the air guide plate 100, and the six-dimensional driving mechanism 300 drives the air guide plate 100 to move in the front-back direction, the left-right direction or the up-down direction. According to the multi-directional air guide device, the front and rear driving mechanism 320 drives the air guide plate 100 to move in the front and rear directions, so that the air guide plate 100 can generate front and rear displacement change at the outlet of an air duct, and the change of the air outlet direction within 180 degrees is realized; the left and right driving mechanism 310 drives the air deflector 100 to move in the left and right directions, so that the characteristic of different left and right air outlet sizes is realized; the up-and-down driving mechanism 330 drives the air deflector 100 to move in the up-and-down direction, so that the characteristics of downward hot air outlet and upward cold air outlet are realized, and the comfort of a user is improved.
Example 2.
The multi-directional air guide device of embodiment 1 is provided with an air deflector 100, a main frame body 200 for being assembled at an outlet of an air duct, and a six-dimensional driving mechanism 300, wherein the air deflector 100 is assembled on the main frame body 200, the six-dimensional driving mechanism 300 is assembled between the main frame body 200 and the air deflector 100, and the six-dimensional driving mechanism 300 drives the air deflector 100 to move in the front-back direction, the left-right direction or the up-down direction.
When the six-dimensional driving mechanism 300 drives the air deflector 100 to move in the front-back, left-right or up-down directions, the direction of the wind blown out by the airflow from the outlet of the air duct is defined as the front, and the direction of the wind blown out by the airflow in the direction opposite to the front is defined as the back; the left-right direction is defined as the direction that the wind shield shields the wind outlet and moves left or right; the direction in which the wind shield shields the wind outlet to move upwards or downwards is defined as the vertical direction.
It should be noted that the air deflector 100 is assembled to the main frame 200, and the six-dimensional driving mechanism 300 drives the air deflector 100 to move in the front-back, left-right, or up-down directions, so as to drive the air deflector 100 to move, and cause the air deflector 100 to generate displacement change at the air duct outlet, thereby changing the air outlet mode and meeting the user difference requirements.
Further, the main frame body 200 is provided with an air duct interface for connecting with an air duct outlet, and the six-dimensional driving mechanism 300 is assembled at the air duct interface.
Further, the six-dimensional driving mechanism 300 is provided with a support frame 340, a left-right driving mechanism 310, an up-down driving mechanism 330, and a front-rear driving mechanism 320, and the left-right driving mechanism 310, the up-down driving mechanism 330, and the front-rear driving mechanism 320 are respectively assembled to the support frame 340.
In the present invention, the supporting frame 340 is used to integrally assemble and connect the left and right driving mechanism 310, the up and down driving mechanism 330, and the front and rear driving mechanism 320.
Specifically, the left-right driving mechanism 310 is provided with a first driving motor 311 and a first rotating wheel 312; the first driving motor 311 is fixed to the air deflector 100, a motor shaft of the first driving motor 311 is fixedly connected to the first rotating wheel 312, and the first driving motor 311 drives the first rotating wheel 312 to rotate. The supporting frame 340 is fixed with a first rack 341, and the first rack 341 is engaged with the first rotating wheel 312.
In the actual air outlet process, the first driving motor 311 rotates to drive the first rotating wheel 312 to rotate, so that the first rack 341 engaged with the first rotating wheel 312 rotates left and right, and the air deflector 100 is displaced left and right, thereby realizing the inconsistent air outlet sizes in the left and right directions and achieving the difference required by the user.
According to the wind conveying equipment, the left and right driving mechanism 310 in the multi-directional wind guide device is further provided with a limiting wheel 313, the limiting wheel 313 is coaxially connected with the first rotating wheel 312, the radius of the limiting wheel 313 is larger than that of the first rotating wheel 312, and the limiting wheel 313 is attached to the side wall of the first rack 341.
It should be noted that the limiting wheel 313 is used for being attached to the first rack 341, so as to ensure the stability of the first rotating wheel 312 in the moving process.
One surface of the air deflector 100 close to the air duct outlet is the inner surface of the air deflector, and the surface of the air deflector 100 back to the air duct outlet is the outer surface of the air deflector; the first drive motor 311 may be fixed to an inner surface of the windshield.
It is also possible to fix the first drive motor 311 to the outer surface of the windshield plate, and the motor shaft of the first drive motor 311 is fixedly fitted to the first rotating wheel 312 through the through hole 110 provided in the windshield plate.
In the present embodiment, the first drive motor 311 is fixedly mounted to the outer surface of the windshield. In an actual design, a person skilled in the art can set the position of the first driving motor 311 according to an actual situation, and details are not repeated here.
In the wind delivery device of the present invention, the six-dimensional driving mechanism 300 in the multi-directional wind guiding device is provided with two sets of left and right driving mechanisms 310, and the two sets of left and right driving mechanisms 310 are respectively arranged in the upper and lower rows on the supporting frame 340. The two sets of left and right driving mechanisms 310 can simultaneously drive the first rotation wheel to move left and right by the first driving motor 311, and can change the displacement of the air deflector 100 in the left and right direction.
Further, the supporting frame 340 is provided with a second fixing portion 342, a front-rear sliding sleeve 343, a front-rear sliding rod 344 and a third fixing portion 345, the front-rear sliding sleeve 343, the front-rear sliding rod 344, the second fixing portion 342 is fixed at the outlet of the air duct, the front-rear sliding sleeve 343 is fixedly connected with the second fixing portion 342, the front-rear sliding rod 344 is slidably assembled on the front-rear sliding sleeve 343, and the third fixing portion 345 is fixedly connected with the front-rear sliding rod 344.
Further, the front-rear driving mechanism 320 is provided with a second driving motor 321 and a second rotating wheel 322, the second driving motor 321 is fixed to the second fixing portion 342, the second driving motor 321 drives the second rotating wheel 322 to rotate, and the second rotating wheel 322 is engaged with a second rack 3471 fixed to the third fixing portion 345.
The supporting frame 340 in the wind conveying equipment of the invention is also provided with an upper sliding bar 346, a lower sliding bar 347 and an upper sliding sleeve 346 and a lower sliding sleeve 347; the third fixing portion 345 is fixedly connected with the upper and lower sliding sleeves 347, and the third fixing portion 345 is slidably assembled on the upper and lower sliding sleeves 347.
Further, the up-down driving mechanism 330 is provided with a third driving motor 331 and a third rotating wheel 332, the third driving motor 331 is fixed to the third fixing portion 345, the third driving motor 331 drives the third rotating wheel 332 to rotate, and the third rotating wheel 332 is engaged with a third rack 3461 provided on the up-down sliding bar 346; the second rack 3471 is fixed on the upper and lower sliding sleeves 347, the upper and lower sliding bars 346 are fixedly connected with the upper and lower sliding sleeves 347, and the first rack 341 is fixedly connected with the upper and lower sliding bars 346.
In the actual air outlet process, the second driving motor 321 fixed on the second fixing portion 342 rotates to drive the second rotating wheel 322 to rotate, so that the second rack 3471 engaged with the second rotating wheel 322 rotates back and forth, and the front and rear sliding rods 344 assembled on the front and rear sliding sleeves 343 move back and forth, so that the air deflector 100 is displaced back and forth, and the air outlet direction is changed within 180 degrees;
the third driving motor 331 fixed to the third fixing portion 345 rotates to drive the third rotating wheel 332 to rotate, so that the third rack engaged with the third rotating wheel 332 moves up and down, and the upper and lower sliding bars 346 are driven to move up and down, thereby realizing the characteristics of downward hot air outlet and upward cold air outlet.
The invention relates to a wind conveying device, wherein a multidirectional wind guiding device is provided with a wind guiding plate 100, a main frame body 200 assembled at an outlet of an air duct and a six-dimensional driving mechanism 300, the wind guiding plate 100 is assembled on the main frame body 200, the six-dimensional driving mechanism 300 is assembled between the main frame body 200 and the wind guiding plate 100, and the six-dimensional driving mechanism 300 drives the wind guiding plate 100 to move in the front-back direction, the left-right direction or the up-down direction. According to the multi-directional air guide device, the front and rear driving mechanism 320 drives the air guide plate 100 to move in the front and rear directions, so that the air guide plate 100 can generate front and rear displacement change at the outlet of an air duct, and the change of the air outlet direction within 180 degrees is realized; the left and right driving mechanism 310 drives the air deflector 100 to move in the left and right directions, so that the characteristic of different left and right air outlet sizes is realized; the up-and-down driving mechanism 330 drives the air deflector 100 to move in the up-and-down direction, so that the characteristics of downward hot air outlet and upward cold air outlet are realized, and the comfort of a user is improved.
Example 3.
The other structures of the wind conveying equipment are the same as those of the embodiment 2, and the difference is that: the air delivery device in the invention is any one of an air conditioner, a tower fan, a draught fan or an air purifier.
According to the air delivery device, the air deflector 100 is driven by the six-dimensional driving mechanism in the multidirectional air guide device to move in the front-back, left-right or up-down directions, the displacement distances of the air deflector 100 in the front-back, left-right and up-down directions can be adjusted, various air outlet modes can be realized, and the comfortable experience of a user is improved.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.
Claims (10)
1. A multidirectional air ducting device is characterized in that: the air guide plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guide plate, and the six-dimensional driving mechanism drives the air guide plate to move in the front-back direction, the left-right direction or the up-down direction.
2. The multidirectional air guiding device as set forth in claim 1, wherein: the main frame body is provided with an air duct interface used for being connected with an air duct outlet, and the six-dimensional driving mechanism is assembled on the air duct interface.
3. The multidirectional air guiding device as set forth in claim 2, wherein: the six-dimensional driving mechanism is provided with a support frame, a left driving mechanism, a right driving mechanism, an upper driving mechanism, a lower driving mechanism and a front and back driving mechanism, wherein the left driving mechanism, the right driving mechanism, the upper driving mechanism, the lower driving mechanism and the front and back driving mechanism are respectively assembled on the support frame.
4. The multidirectional air guiding device as set forth in claim 3, wherein: the left and right driving mechanism is provided with a first driving motor and a first rotating wheel;
the first driving motor is fixed with the air deflector, a motor shaft of the first driving motor is fixedly connected with the first rotating wheel, and the first driving motor drives the first rotating wheel to rotate;
the support frame is fixed with a first rack, and the first rack is meshed with the first rotating wheel.
5. The multidirectional air guiding device as set forth in claim 4, wherein: the limiting wheel is coaxially connected with the first rotating wheel, the radius of the limiting wheel is larger than that of the first rotating wheel, and the limiting wheel is attached to the side wall of the first rack.
6. The multidirectional air guiding device as set forth in claim 4, wherein: one side of the air deflector, which is close to the air duct outlet, is the inner surface of the air deflector, and the side of the air deflector, which is back to the air duct outlet, is the outer surface of the air deflector;
the first driving motor is fixed on the inner surface of the wind shield; or
The first driving motor is fixed on the outer surface of the wind shield, and a motor shaft of the first driving motor penetrates through a through hole formed in the wind shield to be fixedly assembled with the first rotating wheel.
7. The multidirectional air guiding device as set forth in claim 3, wherein: two sets of left and right driving mechanisms are arranged on the supporting frame in an up-down arrangement mode respectively.
8. A multidirectional air guiding device according to any one of claims 3 to 7, wherein:
the supporting frame is provided with a second fixing part, a front sliding sleeve, a rear sliding sleeve, a front sliding rod, a rear sliding rod and a third fixing part, the front sliding sleeve, the rear sliding sleeve and the front sliding rod are fixed at an outlet of the air duct, the front sliding sleeve and the rear sliding sleeve are fixedly connected with the second fixing part, the front sliding sleeve and the rear sliding rod are assembled on the front sliding sleeve and the rear sliding sleeve in a sliding manner, and the third fixing;
the front and rear driving mechanism is provided with a second driving motor and a second rotating wheel, the second driving motor is fixed at the second fixed part, the second driving motor drives a second rotating wheel shaft to rotate, and the second rotating wheel is meshed with a second rack fixed at the third fixed part.
9. A multidirectional air guiding device according to any one of claims 3 to 7, wherein:
the support frame is provided with an upper sliding rod, a lower sliding rod, an upper sliding sleeve and a lower sliding sleeve;
the third fixed part is fixedly connected with the upper and lower sliding sleeves and is assembled on the upper and lower sliding sleeves in a sliding manner;
the up-down driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed at a third fixed part, the third driving motor drives the third rotating wheel to rotate, and the third rotating wheel is meshed with a third rack arranged on the up-down sliding rod;
the second rack is fixed on the upper and lower sliding sleeves, the upper and lower sliding rods are fixedly connected with the upper and lower sliding sleeves,
the first rack is fixedly connected with the upper sliding rod and the lower sliding rod.
10. A wind delivery apparatus, characterized by: a multidirectional air guiding device as claimed in any one of claims 1 to 9.
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