CN110836528B - Multidirectional air guide device and air conveying equipment with same - Google Patents

Abstract

The utility model provides an air conveying equipment, multidirectional air ducting is provided with the aviation baffle, is used for assembling in the body of wind channel export and six-dimensional actuating mechanism, and the aviation baffle is assembled in the body, and six-dimensional actuating mechanism assembles between body and aviation baffle, and six-dimensional actuating mechanism drive aviation baffle is according to fore-and-aft, control or the upward and downward motion. According to the multidirectional air guide device, the front-rear driving mechanism drives the air guide plate to move in the front-rear direction, so that the air guide plate can generate front-rear displacement change at the outlet of the air duct, and the change of the range of 180 degrees of the air outlet direction is realized; the air deflector is driven by the left and right driving mechanisms to move in the left and right directions, so that the characteristic of different sizes of left and right air outlets is realized; the air deflector is driven by the up-down driving mechanism to move up and down, 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

Multidirectional air guide device and air conveying equipment with same

Technical Field

The invention relates to the technical field of air conveying equipment, in particular to a multidirectional air guiding device and air conveying equipment with the same.

Background

With the continuous progress of scientific technology and the increasing level of living of people, air outlet devices such as fans, air conditioners, purifiers, humidifiers and the like have become one of the most important household appliances in daily life of people.

In the prior art, the direction of the air outlet is changed by changing the air outlet direction through an air deflector to conduct air guiding or swinging of a machine body to change the direction of the air outlet, the form of the air outlet is single, the blowing range can not be reasonably distributed, and the problems of air outlet waste and poor user experience are caused.

Therefore, it is necessary to provide a multi-directional air guiding device and an air conveying device with the same to solve the defects in the prior art.

Disclosure of Invention

One of the objectives of the present invention is to provide a multi-directional air guiding device that avoids the drawbacks of the prior art. The multidirectional air guide device can generate air outlet in various modes through the change of front-back, left-right or up-down displacement, so that the effect of the air outlet is changed, and the comfort level of a user is improved.

The above object of the present invention is achieved by the following means.

The utility model provides a multidirectional air ducting, is provided with the aviation baffle, is used for assembling in the body frame body and the six-dimensional actuating mechanism of wind channel export, and the aviation baffle is assembled in the body frame body, and six-dimensional actuating mechanism assembles between body frame body and aviation baffle, and six-dimensional actuating mechanism drive aviation baffle is according to fore-and-aft, control or the upward and downward movement.

Preferably, the main frame body is provided with an air duct interface 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 supporting 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 supporting frame.

Preferably, the left-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 driving mechanism and the right driving mechanism 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 close to the air duct outlet is the inner surface of the air deflector, and the surface of the air deflector opposite 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 alternatively

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 on the supporting frame in an up-down arrangement mode.

Preferably, the support frame is provided with a second fixed part, a front sliding sleeve, a rear sliding sleeve, a front sliding rod, a rear sliding rod and a third fixed part, the front sliding sleeve, the rear sliding rod and the front sliding rod are fixed at the outlet of the air duct, the front sliding sleeve and the rear sliding sleeve are fixedly connected with the second fixed part, the front sliding rod and the rear sliding rod are slidingly assembled on the front sliding sleeve and the rear sliding sleeve, and the third fixed part is fixedly connected with the front sliding rod and the rear sliding rod.

Preferably, the front-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, the second driving motor 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 slide bar, a lower slide bar and an upper sliding sleeve and a lower sliding sleeve; the third fixed part is fixedly connected with the upper sliding sleeve and the lower sliding sleeve, and the third fixed part is assembled on the upper sliding sleeve and the lower sliding sleeve in a sliding way.

Preferably, the upper and lower driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed on the 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 upper and lower sliding rods;

the second rack is fixed on the upper sliding sleeve and the lower sliding sleeve, the upper sliding rod and the lower sliding rod are fixedly connected with the upper sliding sleeve and the lower sliding sleeve,

The first rack is fixedly connected with the upper slide bar and the lower slide bar.

The 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. According to the multidirectional air guide device, the air guide plate is driven to move in the front-back direction, the left-right direction or the up-down direction through the six-dimensional driving mechanism, and displacement changes in the front-back direction, the left-right direction or the up-down direction 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 an air delivery device to solve the shortcomings of the prior art. The air conveying equipment can generate air outlet in various modes through the change of front-back, left-right or up-down displacement, so that the effect of the air outlet is changed, and the comfort level of a user is improved.

The above object of the present invention is achieved by the following means.

The utility model provides an air conveying equipment, multidirectional air ducting is provided with the aviation baffle, is used for assembling in the body of wind channel export and six-dimensional actuating mechanism, and the aviation baffle is assembled in the body, and six-dimensional actuating mechanism assembles between body and aviation baffle, and six-dimensional actuating mechanism drive aviation baffle is according to fore-and-aft, control or the upward and downward motion.

Preferably, the main frame body is provided with an air duct interface 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 supporting 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 supporting frame.

Preferably, the left-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.

The left and right driving mechanisms in the multi-directional air guiding device are also provided with limiting wheels, the limiting wheels are coaxially connected with the first rotating wheels, the radius of each limiting wheel is larger than that of each first rotating wheel, and the limiting wheels are attached to the side wall of the first rack.

Preferably, one surface of the air deflector close to the air duct outlet is the inner surface of the air deflector, and the surface of the air deflector opposite 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 alternatively

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 on the supporting frame in an up-down arrangement mode.

Preferably, the support frame is provided with a second fixed part, a front sliding sleeve, a rear sliding sleeve, a front sliding rod, a rear sliding rod and a third fixed part, the front sliding sleeve, the rear sliding rod and the front sliding rod are fixed at the outlet of the air duct, the front sliding sleeve and the rear sliding sleeve are fixedly connected with the second fixed part, the front sliding rod and the rear sliding rod are slidingly assembled on the front sliding sleeve and the rear sliding sleeve, and the third fixed part is fixedly connected with the front sliding rod and the rear sliding rod.

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, the second driving motor drives the second rotating wheel shaft to rotate, and the second rotating wheel is meshed with the second rack fixed on the third fixed part.

Preferably, the support frame is provided with an upper slide bar, a lower slide bar and an upper sliding sleeve and a lower sliding sleeve; the third fixed part is fixedly connected with the upper sliding sleeve and the lower sliding sleeve, and the third fixed part is assembled on the upper sliding sleeve and the lower sliding sleeve in a sliding way.

Preferably, the upper and lower driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed on the 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 upper and lower sliding rods;

The second rack is fixed on the upper sliding sleeve and the lower sliding sleeve, the upper sliding rod and the lower sliding sleeve are fixedly connected, and the first rack is fixedly connected with the upper sliding rod and the lower sliding rod.

Preferably, the air conveying device is any one of an air conditioner, a tower fan, a blower or an air purifier.

The multi-directional air guiding device is provided with the air guiding plate, the main frame body and the six-dimensional driving mechanism, wherein the main frame body is used for being assembled at an air duct outlet, the air guiding plate is assembled on the main frame body, the six-dimensional driving mechanism is assembled between the main frame body and the air guiding plate, and the six-dimensional driving mechanism drives the air 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 to move in the front-back direction, the left-right direction or the up-down direction through the six-dimensional driving mechanism, and displacement changes in the front-back direction, the left-right direction or the up-down direction 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 the accompanying drawings, which are not to be construed as limiting the invention in any way.

Fig. 1 is a schematic structural view of a multi-directional air guiding device according to the present invention.

Fig. 2 is a schematic view of a support frame of a multi-directional air guiding device according to the present invention.

Fig. 3 is an exploded view of a multi-directional air guiding device according to the present invention.

In fig. 1 to 3, there are:

100 parts of air deflector,

A through hole 110,

A main frame 200,

A six-dimensional driving mechanism 300,

A left-right driving mechanism 310,

A first driving motor 311, a first rotating wheel 312, a limiting wheel 313,

A front-rear driving mechanism 320,

A second driving motor 321, a second rotating wheel 322,

An up-down driving mechanism 330,

A third driving motor 331, a third rotating wheel 332,

A supporting frame 340,

A first rack 341, a second fixed part 342, a front-back sliding sleeve 343, a front-back sliding bar 344, a third fixed part 345, an upper-lower sliding bar 346, an upper-lower sliding sleeve 347,

Second rack 3471, third rack 3461.

Detailed Description

The invention will be further described with reference to the following examples.

Example 1.

As shown in fig. 1, the multi-directional air guiding device is provided with an air guiding plate 100, a main frame 200 for being assembled at an outlet of an air duct, and a six-dimensional driving mechanism 300, wherein the air guiding plate 100 is assembled at the main frame 200, the six-dimensional driving mechanism 300 is assembled between the main frame 200 and the air guiding plate 100, and the six-dimensional driving mechanism 300 drives the air guiding plate 100 to move in the front-back, left-right or up-down directions.

In the six-dimensional driving mechanism 300 driving the air deflector 100 to move in the front-back, left-right or up-down direction, the direction of the air blown out from the air duct outlet is defined as the front, and the direction of the air blown out in the direction opposite to the front is defined as the rear; the direction of the wind shield shielding the air outlet to move leftwards or rightwards is defined as a left-right direction; the direction in which the wind shield shields the air outlet to move up or down is defined as the up-down direction.

In the invention, the air deflector 100 is assembled on the main frame 200, and the six-dimensional driving mechanism 300 drives the main frame 200 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 displacement of the air deflector 100 at the outlet of the air duct is changed, thereby changing the air outlet mode and meeting the requirements of user differences.

Further, the main frame 200 is provided with an air duct interface for connecting with an air duct outlet, and the six-dimensional driving mechanism 300 is assembled on the air duct interface.

Further, the six-dimensional driving mechanism 300 is provided with a support 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 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 wind 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 support 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-out process, the first driving motor 311 rotates to drive the first rotating wheel 312 to rotate, so that the first rack 341 meshed with the first rotating wheel 312 rotates left and right, further the air deflector 100 is changed in left and right displacement, inconsistent air-out size in the left and right direction is achieved, and the difference required by users is achieved.

In the multidirectional air guide device, the left and right driving mechanism 310 is further provided with the 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 attaching to the first rack 341, so as to ensure the stability of the first rotating wheel 312 in the moving process.

The air deflector 100 is arranged on the inner surface of the air deflector, which is close to the air duct outlet, and the air deflector 100 is arranged on the outer surface of the air deflector, which is opposite to the air duct outlet; the first driving motor 311 may be fixed to an inner surface of the wind deflector.

The first driving motor 311 may be fixed to the outer surface of the wind deflector, and the motor shaft of the first driving motor 311 may be fixedly assembled with the first rotating wheel 312 through the penetration 110 provided in the wind deflector.

In this embodiment, the first driving motor 311 is fixedly mounted on the outer surface of the wind deflector. In an actual design, a person skilled in the art may set the position of the first driving motor 311 according to an actual situation, which will not be described in detail herein.

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 on the supporting frame 340 in an up-down arrangement. The two sets of left-right driving mechanisms 310 may simultaneously drive the first rotating wheel 312 to move left and right by the first driving motor 311, and may change the displacement of the air guide plate 100 in the left-right direction.

Further, the support frame is provided with a second fixed portion 342, a front sliding sleeve 343, a rear sliding rod 344 and a third fixed portion 345, the front sliding sleeve 343, the rear sliding rod 344, the second fixed portion 342 is fixed at the air duct outlet, the front sliding sleeve 343 is fixedly connected with the second fixed portion 342, the front sliding rod 344 is slidably assembled with the front sliding sleeve 343, and the third fixed portion 345 is fixedly connected with the front 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 fixed portion 342, the second driving motor 321 drives the second rotating wheel 322 to rotate by the shaft, and the second rotating wheel 322 is engaged with the second rack 3471 fixed to the third fixed portion 345.

The support 340 of the present invention is also provided with upper and lower slide bars 346 and upper and lower slide sleeves 347; the third fixed portion 345 is fixedly connected with the upper and lower sliding sleeves 347, and the third fixed 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 on the third fixed portion 345, the third driving motor 331 drives the third rotating wheel 332 to rotate, and the third rotating wheel 332 is meshed with a third rack 3461 provided on the up-down sliding bar 346; the second rack 3471 is fixed to the upper and lower sliding sleeves 347, the upper and lower sliding rods 346 are fixedly connected to the upper and lower sliding sleeves 347, and the first rack 341 is fixedly connected to the upper and lower sliding rods 346.

The manner in which the front-rear driving mechanism, the left-right driving mechanism, or the up-down driving mechanism drives the air guide plate to move is not limited to that described in the present embodiment, but may be other driving manners, and those skilled in the art may set the driving manner according to actual situations, and the detailed description is omitted here.

In the actual air outlet process, the second driving motor 321 fixed on the second fixed part 342 rotates to drive the second rotating wheel 322 to rotate, so that the second rack 3471 meshed with the second rotating wheel 322 rotates forwards and backwards, and meanwhile, the front and rear sliding bars 344 assembled on the front and rear sliding sleeve 343 move forwards and backwards, so that the air deflector 100 is subjected to front and rear displacement change, and the change of the 180-degree range of the air outlet direction is realized;

the third driving motor 331 fixed on the third fixing portion 345 rotates to drive the third rotating wheel 332 to rotate, so that the third rack 3461 meshed with the third rotating wheel 332 moves up and down, and simultaneously drives the up and down sliding rod 346 to move up and down, thereby realizing the characteristic that hot air is discharged downwards and cold air is discharged upwards.

The multi-directional air guiding device is provided with an air guiding plate 100, a main frame body 200 and a six-dimensional driving mechanism 300, wherein the main frame body 200 is used for being assembled at an air duct outlet, the air guiding plate 100 is assembled at the main frame body 200, the six-dimensional driving mechanism 300 is assembled between the main frame body 200 and the air guiding plate 100, and the six-dimensional driving mechanism 300 drives the air guiding plate 100 to move in the front-back, left-right or up-down directions. In the multidirectional air guide device, the front-rear driving mechanism 320 drives the air guide plate 100 to move in the front-rear direction, so that the air guide plate 100 can generate front-rear displacement change at the outlet of an air duct, and the change of the range of 180 degrees of the air outlet direction is realized; the air deflector 100 is driven to move in the left-right direction by the left-right driving mechanism 310, so that the characteristic of different sizes of left and right air outlets is realized; the up-and-down driving mechanism 330 drives the air deflector 100 to move up and down, so that the downward hot air outlet and the upward cold air outlet are realized, and the comfort of a user is improved.

Example 2.

An air delivery device has a multi-directional air guide device of embodiment 1, which is provided with an air guide plate 100, a main frame 200 for being assembled at an outlet of an air duct, and a six-dimensional driving mechanism 300, wherein the air guide plate 100 is assembled at the main frame 200, the six-dimensional driving mechanism 300 is assembled between the main frame 200 and the air guide plate 100, and the six-dimensional driving mechanism 300 drives the air guide plate 100 to move in a front-back, left-right or up-down direction.

In the six-dimensional driving mechanism 300 driving the air deflector 100 to move in the front-back, left-right or up-down direction, the direction of the air blown out from the air duct outlet is defined as the front, and the direction of the air blown out in the direction opposite to the front is defined as the rear; the direction of the wind shield shielding the air outlet to move leftwards or rightwards is defined as a left-right direction; the direction in which the wind shield shields the air outlet to move up or down is defined as the up-down direction.

It should be noted that, the air deflector 100 is assembled on 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 that the air deflector 100 can be driven to move, and the air deflector 100 generates displacement change at the outlet of the air duct, thereby changing the air outlet mode and meeting the requirements of user differences.

Further, the main frame 200 is provided with an air duct interface for connecting with an air duct outlet, and the six-dimensional driving mechanism 300 is assembled on the air duct interface.

Further, the six-dimensional driving mechanism 300 is provided with a support 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 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 wind 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 support 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-out process, the first driving motor 311 rotates to drive the first rotating wheel 312 to rotate, so that the first rack 341 meshed with the first rotating wheel 312 rotates left and right, further the air deflector 100 is changed in left and right displacement, inconsistent air-out size in the left and right direction is achieved, and the difference required by users is achieved.

In the air conveying device, the left and right driving mechanism 310 in the multi-directional air guiding device is further provided with the 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 attaching to the first rack 341, so as to ensure the stability of the first rotating wheel 312 in the moving process.

The air deflector 100 is arranged on the inner surface of the air deflector, which is close to the air duct outlet, and the air deflector 100 is arranged on the outer surface of the air deflector, which is opposite to the air duct outlet; the first driving motor 311 may be fixed to an inner surface of the wind deflector.

The first driving motor 311 may be fixed to the outer surface of the wind deflector, and the motor shaft of the first driving motor 311 may be fixedly assembled with the first rotating wheel 312 through the penetration 110 provided in the wind deflector.

In the present embodiment, the first driving motor 311 is fixedly mounted to the outer surface of the wind deflector. In an actual design, a person skilled in the art may set the position of the first driving motor 311 according to an actual situation, which will not be described in detail herein.

In the air conveying device, a six-dimensional driving mechanism 300 in a multi-directional air 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 on a supporting frame 340 in an up-down arrangement mode. The two sets of left-right driving mechanisms 310 may simultaneously drive the first rotating wheel to move left and right by the first driving motor 311, and may change the displacement of the air guide plate 100 in the left-right direction.

Further, the support 340 is provided with a second fixed portion 342, a front and rear sliding sleeve 343, a front and rear sliding rod 344 and a third fixed portion 345, the front and rear sliding sleeve 343 and the front and rear sliding rod 344, the second fixed portion 342 is fixed at the air duct outlet, the front and rear sliding sleeve 343 is fixedly connected with the second fixed portion 342, the front and rear sliding rod 344 is slidably assembled on the front and rear sliding sleeve 343, and the third fixed portion 345 is fixedly connected with the front and 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 fixed portion 342, the second driving motor 321 drives the second rotating wheel 322 to rotate by the shaft, and the second rotating wheel 322 is engaged with the second rack 3471 fixed to the third fixed portion 345.

The supporting frame 340 in the air conveying device is also provided with an upper sliding rod 346, a lower sliding rod 346 and an upper sliding sleeve 347; the third fixed portion 345 is fixedly connected with the upper and lower sliding sleeves 347, and the third fixed 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 on the third fixed portion 345, the third driving motor 331 drives the third rotating wheel 332 to rotate, and the third rotating wheel 332 is meshed with a third rack 3461 provided on the up-down sliding bar 346; the second rack 3471 is fixed to the upper and lower sliding sleeves 347, the upper and lower sliding rods 346 are fixedly connected to the upper and lower sliding sleeves 347, and the first rack 341 is fixedly connected to the upper and lower sliding rods 346.

In the actual air outlet process, the second driving motor 321 fixed on the second fixed part 342 rotates to drive the second rotating wheel 322 to rotate, so that the second rack 3471 meshed with the second rotating wheel 322 rotates forwards and backwards, and meanwhile, the front and rear sliding bars 344 assembled on the front and rear sliding sleeve 343 move forwards and backwards, so that the air deflector 100 is subjected to front and rear displacement change, and the change of the 180-degree range of the air outlet direction is realized;

The third driving motor 331 fixed on the third fixing portion 345 rotates to drive the third rotating wheel 332 to rotate, so that the third rack meshed with the third rotating wheel 332 moves up and down, and meanwhile, the upper and lower sliding bars 346 are driven to move up and down, and the characteristic that hot air is discharged downwards and cold air is discharged upwards can be achieved.

The air conveying device is provided with an air deflector 100, a main frame body 200 for being assembled at an air duct outlet 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, left-right or up-down directions. In the multidirectional air guide device, the front-rear driving mechanism 320 drives the air guide plate 100 to move in the front-rear direction, so that the air guide plate 100 can generate front-rear displacement change at the outlet of an air duct, and the change of the range of 180 degrees of the air outlet direction is realized; the air deflector 100 is driven to move in the left-right direction by the left-right driving mechanism 310, so that the characteristic of different sizes of left and right air outlets is realized; the up-and-down driving mechanism 330 drives the air deflector 100 to move up and down, so that the downward hot air outlet and the upward cold air outlet are realized, and the comfort of a user is improved.

Example 3.

An air delivery device, other structures being the same as those of embodiment 2, except that: the air conveying equipment is any one of an air conditioner, a tower fan, a blower or an air purifier.

This air conveying equipment drives aviation baffle 100 through six-dimensional actuating mechanism among the multidirectional air ducting and carries out the motion of fore-and-aft, left and right or upper and lower direction, can adjust the displacement distance of aviation baffle 100 fore-and-aft, left and right and upper and lower direction, can realize multiple air-out mode, improves user's comfort experience.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been 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 to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (6)

1. A multidirectional wind-guiding device which is characterized in that: the air guide plate 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 main frame body is provided with an air channel interface used for being connected with an air channel outlet, and the six-dimensional driving mechanism is assembled on the air channel interface;

the six-dimensional driving mechanism is provided with a supporting 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 supporting frame;

The support frame is provided with a second fixed part, a front sliding sleeve, a rear sliding sleeve, a front sliding rod, a rear sliding rod and a third fixed part, the front sliding sleeve, the rear sliding rod and the front sliding rod are fixed at an air duct outlet, the front sliding sleeve and the rear sliding sleeve are fixedly connected with the second fixed part, the front sliding rod and the rear sliding rod are assembled on the front sliding sleeve and the rear sliding sleeve in a sliding manner, and the third fixed part is fixedly connected with the front sliding rod and the rear sliding rod;

the front-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, the second driving motor 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;

the support frame is provided with an upper slide bar, a lower slide bar and an upper sliding sleeve and a lower sliding sleeve;

the third fixed part is fixedly connected with the upper sliding sleeve and the lower sliding sleeve and is assembled on the upper sliding sleeve and the lower sliding sleeve in a sliding way;

The upper and lower driving mechanism is provided with a third driving motor and a third rotating wheel, the third driving motor is fixed on 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 upper and lower sliding rods;

the second rack is fixed on the upper sliding sleeve and the lower sliding sleeve, the upper sliding rod and the lower sliding rod are fixedly connected with the upper sliding sleeve and the lower sliding sleeve,

The first rack is fixedly connected with the upper slide bar and the lower slide bar.

2. A multi-directional wind-guiding apparatus as defined in claim 1, 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 first rack, and first rack and first rotation wheel meshing.

3. A multi-directional wind-guiding apparatus as defined in claim 2, wherein: and 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.

4. A multi-directional wind-guiding apparatus as defined in claim 3, wherein: 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 alternatively

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.

5. A multi-directional wind-guiding apparatus as defined in claim 1, wherein: two sets of left and right driving mechanisms are arranged on the supporting frame in an up-down arrangement mode respectively.

6. An air delivery device, characterized in that: a multi-directional wind guide apparatus as claimed in any one of claims 1 to 5.