CN117906212A - Dehumidifier capable of outputting air at 360 degrees and air outputting method - Google Patents

Abstract

The invention discloses a dehumidifier capable of outputting air at 360 degrees and an air-out method, comprising a dehumidifier body, wherein the dehumidifier body is provided with an air guide cover assembly in an upper air-out mode, the air guide cover assembly is arranged on the outer side of the upper part of the dehumidifier body, a rotating assembly is arranged on the inner side of the air guide cover assembly, a concentrating assembly is arranged on the top of the dehumidifier body, and the concentrating assembly is connected with the rotating assembly. According to the invention, the wind scooper component is utilized to diffuse the air outlet of the dehumidifier body, so that the air outlet and dehumidification range of the dehumidifier body is enlarged, the wind guided out of the dehumidifier body is intensively blown to the rotating component by the centralizing component, and the wind power is converted into the power for rotating the wind scooper component under the conversion action of the rotating component, so that the wind scooper component rotates, the wind scooper component is assisted to diffuse the air outlet of the dehumidifier body, 360-degree air outlet is realized, and the air outlet range of the dehumidifier body is further enlarged.

Description

Dehumidifier capable of outputting air at 360 degrees and air outputting method

Technical Field

The invention relates to a dehumidifier capable of outputting air at 360 degrees and an air output method.

Background

The dehumidifier is also called dehumidifier, drier, dehumidifier, can be divided into two general categories, namely domestic dehumidifier and industry dehumidifier, it is a part in the air conditioning family. In general, a conventional dehumidifier is composed of a compressor, a heat exchanger, a fan, a water container, a casing and a controller, and the working principle is as follows: the moist air is pumped into the machine by the fan and passes through the heat exchanger, water molecules in the air are condensed into water drops, the treated dry air is discharged out of the machine, and the indoor humidity is kept at the proper relative humidity by circulation.

The current dehumidifier air outlet angle adjustment is limited by an air outlet, and generally the air outlet angle adjustment can be carried out only in a certain range, and in the granted Chinese patent publication No.: CN204665474U, name: in the dehumidifier with the 360-degree air outlet structure, an elliptical upper cover plate is arranged on an upper air outlet, and an air outlet grid is arranged on the upper air outlet around the upper cover plate, so that the air outlet can be used for outputting air to 360 degrees around, and the air outlet air angle in the dehumidifier is horizontal and difficult to cast air flow farther, so that the air outlet range of the dehumidifier is still limited greatly.

Disclosure of Invention

The invention aims to overcome the defect of larger limitation of the air outlet range of a dehumidifier in the prior art, and provides a dehumidifier capable of outputting air at 360 degrees and an air outlet method.

The invention solves the technical problems by the following technical scheme:

the invention provides a dehumidifier capable of exhausting air by 360 degrees and an air exhausting method, comprising a dehumidifier body, wherein the bottom of the dehumidifier body is provided with a plurality of movable wheels, the dehumidifier body is in an upper air exhausting mode,

The air guide cover assembly is arranged on the outer side of the upper part of the dehumidifier body and is used for diffusing the air outlet of the dehumidifier to make the dehumidifier air outlet degree;

the rotating assembly is arranged on the inner side of the wind scooper assembly and is used for converting the air outlet of the dehumidifier into driving force which is used for rotating the wind scooper assembly;

the centralized component is arranged at the top of the dehumidifier body and is connected with the rotating component, and the centralized component is used for centralized blowing of the air outlet of the dehumidifier to the rotating component.

In this technical scheme, utilize the wind scooper subassembly to diffuse the air-out of dehumidifier body to enlarge the air-out, the dehumidification scope of dehumidifier body, utilize concentrated subassembly to concentrate the wind of dehumidifier body derivation to blow to rotating assembly, and under rotating assembly's conversion effect, change wind-force into wind scooper subassembly pivoted power, make the wind scooper subassembly take place to rotate, supplementary wind scooper subassembly diffuses the air-out of dehumidifier body, realize 360 degrees air-outs, further enlarge the air-out scope of dehumidifier body.

Preferably, the air guide cover assembly comprises an outer cover body and an inner cover body, wherein the inner cover body is arranged on the inner side of the outer cover body, and a gap exists between the inner cover body and the outer cover body to form an air guide channel.

In the technical scheme, the air guide cover assembly is utilized to diffuse the air outlet of the dehumidifier body, so that the air outlet range of the dehumidifier body is enlarged.

Preferably, the outer cover body is provided with a plurality of air outlet holes, the air outlet holes are obliquely arranged, and the angle of inclination of the air outlet holes is sixty degrees, so that the air flow of the dehumidifier is thrown farther;

The top of the inner cover body is provided with a communication port which is used for communicating the outer cover body and the inner cover body;

the upper side of the communication port is provided with a uniform flow block which is arranged on the inner wall of the outer cover body.

In the technical scheme, the uniform flow block can be used for guiding the air outlet flow of the dehumidifier body to be uniform, and the air outlet of the dehumidifier body is uniformly guided to the outer cover body to be discharged, so that 360-degree air outlet is realized.

Preferably, the rotating assembly comprises a rotating shaft, a plurality of rotating blades are fixedly connected to the surface of the rotating shaft, a first bevel gear is fixedly connected to two ends of the rotating shaft, a second bevel gear is connected to the side face of the first bevel gear in a meshed mode, a rotating gear is connected to the upper side of the second bevel gear, the side face of the rotating gear is connected to the inner side of an inner gear ring in a meshed mode, and the outer side of the inner gear ring is fixedly connected to the inner wall of the wind scooper assembly;

the two ends of the rotating shaft are rotatably connected with supporting plates, and the two supporting plates are fixedly connected to the top of the centralizing assembly;

The second bevel gear downside fixedly connected with support column, the support column rotates with concentrated subassembly top and is connected.

In this technical scheme, utilize the wind-force conversion of rotating assembly with dehumidifier body air-out to wind scooper subassembly pivoted power to carry out further throwing to the air-out of dehumidifier body, enlarge the air-out scope.

Preferably, the centralized component comprises a supporting frame and a centralized shell, the supporting frame is arranged at the top of the dehumidifier body, the centralized shell is arranged at the inner side of the supporting frame, one end of the centralized shell is connected with an air outlet of the dehumidifier body, and the other end of the centralized shell is connected with the inner side of the supporting frame;

and a centralizing port is formed at the joint of the centralizing shell and the supporting frame.

In this technical scheme, utilize concentrating the subassembly and can concentrate the air-out of dehumidifier body, make concentrated wind-force can blow the rotary blade, provide driving force for the rotation of wind scooper subassembly.

Preferably, a dustproof structure is arranged on the upper side of the wind scooper assembly, the dustproof structure comprises a storage shell, two mounting plates are fixedly connected to the bottom of the storage shell, the mounting plates are arranged on the side face of the dehumidifier body, a winding and unwinding motor is arranged on one side of the storage shell, the output end of the winding and unwinding motor is fixedly connected with a winding and unwinding shaft, and the surface of the winding and unwinding shaft is connected with a dustproof cover;

An anti-overturning structure is arranged at one end of the dust cover, which is far away from the folding shaft;

An access opening is formed in the lower side of the storage shell, a connecting shaft assembly is rotationally connected to the access opening, and the connecting shaft assembly is composed of two symmetrically distributed connecting shafts.

In this technical scheme, utilize dustproof construction can carry out dustproof processing to the wind scooper subassembly, prevent that the dust from getting into the dehumidifier is internal and influence the use.

Preferably, the anti-overturning structure comprises a positioning assembly I, wherein the positioning assembly I comprises an upper fixing ring and a lower fixing ring, the upper fixing ring and the lower fixing ring are fixedly connected to the outer side of the dehumidifier body, the upper fixing ring and the lower fixing ring are connected through a plurality of fixing columns, the surfaces of the fixing columns are slidably connected with sliding plates, connecting springs are arranged below the sliding plates, elastic ropes are fixedly connected to the bottoms of the sliding plates, and the other ends of the elastic ropes are connected with dust covers;

The upper end of the connecting spring is connected with the sliding plate, the lower end of the connecting spring is connected with the top of the lower fixing ring, and the connecting spring is sleeved on the surface of the fixing column;

The lower fixed ring is provided with a moving port, and a guide shaft assembly is rotationally connected to the moving port;

The guide shaft assembly is composed of two symmetrically distributed guide shafts, and one end of the elastic rope passes through the space between the two guide shafts.

In this technical scheme, utilize locating component one can prescribe a limit to the dust cover lower extreme, make the dust cover lower extreme hug closely the wind scooper subassembly outside, prevent that the dust cover from turning up and influencing dustproof effect, can make the dust cover hug closely the wind scooper subassembly simultaneously, improve dustproof effect.

Preferably, the anti-overturning structure further comprises a second positioning assembly, the second positioning assembly comprises a fixed shell, the fixed shell is connected to one end, far away from the folding shaft, of the dust cover, the movable magnet block is mounted on the inner wall of the fixed shell, one side of the movable magnet block is magnetically connected with the fixed magnet block, and the fixed magnet block is connected with the outer side of the wind scooper assembly.

In this technical scheme, utilize locating component two to inject the dust cover lower extreme, make the dust cover lower extreme hug closely the wind scooper subassembly outside, prevent that the dust cover from turning up and influencing dustproof effect.

Preferably, the wind scooper component is further connected with a rotating component, the rotating component comprises a delivery pipe, the delivery pipe is arranged at the top of the dehumidifier body, an external gear ring is arranged at the outer side of the delivery pipe, a driving gear is connected to the side face of the external gear ring in a meshed manner, the driving gear is fixedly connected to the output end of a rotating motor, and the rotating motor is arranged at the top of the dehumidifier body;

The bottom of the outer gear ring is provided with a limiting ring, the limiting ring is in sliding connection with the inner wall of a limiting shell, the bottom of the limiting shell is connected with a plurality of connecting columns distributed in an annular array, and the connecting columns are all arranged at the top of the dehumidifier body;

the inner side of the outer gear ring is rotationally connected with a plurality of rotary rolling balls distributed in an annular array, the outer side of the delivery pipe is provided with a sliding groove, and the rotary rolling balls are in sliding connection with the outer side of the delivery pipe through the sliding groove.

In the technical scheme, the rotating assembly can be utilized to actively drive the wind scooper assembly to rotate, so that the rotating speed of the wind scooper assembly is controllable and is high, and the air flow is conveniently thrown to a place farther away.

Preferably, the air outlet method comprises the following operation steps:

S1, starting a dehumidifier body, blowing out air working on the dehumidifier body to a rotating assembly by using a concentrating assembly, and converting the force of the air flow blown out by the dehumidifier body into a rotating force for driving a wind scooper assembly to rotate, or driving the wind scooper assembly to rotate by using a rotating assembly, so that the air flow is diffused farther;

s2, after the air flow drives the rotating assembly to rotate, continuing to upwards, guiding and homogenizing the air flow by utilizing a homogenizing flow block, and then discharging the air-out of the dehumidifier body to the outer cover body uniformly, so as to realize air-out;

S3, after the dehumidifier body finishes working, the dust cover is discharged by utilizing the dust-proof structure, and the dust cover is arranged outside the wind-guiding cover component, so that dust prevention is carried out on the wind-guiding cover component, and when the dust cover is used, the lower end of the dust cover can be tightly attached to the wind-guiding cover component by utilizing the first positioning component or the second positioning component, so that the dust cover is prevented from turning up to influence the dust prevention effect.

On the basis of conforming to the common knowledge in the field, the above preferred conditions can be arbitrarily combined to obtain the preferred examples of the invention.

The invention has the positive progress effects that:

According to the invention, the wind scooper component is utilized to diffuse the air outlet of the dehumidifier body, so that the air outlet and dehumidification range of the dehumidifier body is enlarged, the wind guided out of the dehumidifier body is intensively blown to the rotating component by the centralizing component, and the wind power is converted into the power for rotating the wind scooper component under the conversion action of the rotating component, so that the wind scooper component rotates, the wind scooper component is assisted to diffuse the air outlet of the dehumidifier body, 360-degree air outlet is realized, and the air outlet range of the dehumidifier body is further enlarged.

Drawings

Fig. 1 is a schematic structural diagram of a dehumidifier capable of outputting air at 360 degrees and an air-out method according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an internal structure of the dehumidifier capable of outputting air at 360 degrees and an air-out method shown in fig. 1.

Fig. 3 is a schematic structural diagram of a positional relationship between a rotating assembly and a concentrating assembly of the dehumidifier capable of outputting air at 360 degrees and an air-out method shown in fig. 1.

Fig. 4 is an exploded view of the rotational assembly of the dehumidifier and the air-out method of fig. 1, which can be used for 360 degrees of air-out.

Fig. 5 is a schematic top view of a positioning assembly of the dehumidifier and the air-out method shown in fig. 1.

Fig. 6 is a schematic diagram of a part of an enlarged structure of a portion a of the dehumidifier and the air-out method shown in fig. 2, which can output air at 360 degrees.

Fig. 7 is a structural schematic diagram of structural relationships among a wind scooper assembly, a dust-proof structure and a positioning assembly two of the dehumidifier capable of outputting 360 degrees and the wind outputting method shown in fig. 1.

Fig. 8 is a schematic diagram of a part of a portion B of the dehumidifier and the air-out method shown in fig. 7, which can be used for 360 degrees of air-out.

Fig. 9 is a schematic structural diagram of a positional relationship between a rotating assembly and a fan housing assembly of the dehumidifier and the air-out method shown in fig. 1.

Fig. 10 is a schematic top view of a rotating assembly of the dehumidifier capable of outputting air at 360 degrees and an air-out method shown in fig. 1.

Fig. 11 is a schematic diagram of a part of a structure of a dehumidifier capable of outputting air at 360 degrees and a part C of an air-out method shown in fig. 9.

Description of the reference numerals

1. A dehumidifier body;

2. a moving wheel;

3. A wind scooper assembly; 31. a housing body; 32. an inner cover; 33. an air outlet hole; 34. a uniform flow block;

4. A rotating assembly; 41. a rotating shaft; 42. a rotating blade; 43. a first bevel gear; 44. a second bevel gear; 45. rotating the gear; 46. an inner gear ring; 47. a support plate; 48. a support column;

5. A centralizing component; 51. a support frame; 52. a centralized housing;

6. a dust-proof structure; 61. a storage case; 62. a mounting plate; 63. a winding and unwinding motor; 64. a winding and unwinding shaft; 65. a dust cover; 66. a connecting shaft assembly;

7. positioning a first component; 71. an upper fixing ring; 72. a lower fixing ring; 73. fixing the column; 74. a sliding plate; 75. a connecting spring; 76. an elastic rope; 77. a guide shaft assembly;

8. A second positioning component; 81. a fixed housing; 82. moving the magnet block; 83. fixing a magnet block;

9. A rotating assembly; 91. a delivery tube; 92. an outer gear ring; 93. a drive gear; 94. a rotating electric machine; 95. a limiting ring; 96. a limit housing; 97. a connecting column; 98. the ball is rotated.

Detailed Description

The invention is further illustrated by means of the following examples, which are not intended to limit the scope of the invention.

Fig. 1 to 6 are schematic structural diagrams of a dehumidifier and an air-out method according to an embodiment of the present invention, which can output air at 360 degrees.

The dehumidifier capable of exhausting air by 360 degrees and the air exhausting method comprise a dehumidifier body 1, wherein a plurality of moving wheels 2 are arranged at the bottom of the dehumidifier body 1, the dehumidifier can be conveniently moved by utilizing the moving wheels 2, the dehumidifier body 1 is in an upper air exhausting mode,

The air guide cover assembly 3 is arranged on the outer side of the upper part of the dehumidifier body 1, and the air guide cover assembly 3 is used for diffusing the air outlet of the dehumidifier to enable the air outlet to be 360 degrees;

The rotating assembly 4 is arranged on the inner side of the wind scooper assembly 3, the rotating assembly 4 is used for converting the air outlet of the dehumidifier into driving force, and the driving force is used for rotating the wind scooper assembly 3;

The centralized component 5, centralized component 5 installs in dehumidifier body 1 top, just centralized component 5 is connected with rotating assembly 4, centralized component 5 is used for blowing the air-out of dehumidifier to rotating assembly 4 in a centralized way.

In this technical scheme, utilize wind scooper subassembly 3 to diffuse the air-out of dehumidifier body 1 to enlarge the air-out, the dehumidification scope of dehumidifier body 1, utilize concentrated subassembly 5 to concentrate the wind that dehumidifier body 1 derived to blow to rotating assembly 4, and under rotating assembly 4's conversion effect, convert wind-force into wind scooper subassembly 3 pivoted power, make wind scooper subassembly 3 take place to rotate, supplementary wind scooper subassembly 3 diffuses the air-out of dehumidifier body 1, realize 360 degrees air-outs, further enlarge the air-out scope of dehumidifier body 1.

The air guide cover assembly 3 comprises an outer cover body 31 and an inner cover body 32, wherein the inner cover body 32 is arranged on the inner side of the outer cover body 31, and a gap exists between the inner cover body 32 and the outer cover body 31 to form an air guide channel.

In this technical scheme, utilize wind scooper subassembly 3 to diffuse the air-out of dehumidifier body 1 to enlarge the air-out scope of dehumidifier body 1.

The outer cover 31 is provided with a plurality of air outlet holes 33, the air outlet holes 33 are obliquely arranged, the angle of inclination of the air outlet holes 33 is sixty degrees, and the air flow of the dehumidifier is thrown farther;

A communication port is formed in the top of the inner cover 32, and the communication port is used for communicating the outer cover 31 and the inner cover 32;

the upper side of the communication port is provided with a uniform flow block 34, and the uniform flow block 34 is mounted on the inner wall of the outer cover 31.

The air outlet of the dehumidifier body 1 is discharged from the communication port to the inner cover body 32, then the air flow is guided by the uniform flow block 34, so that the air flow can be uniformly guided into the air guide channel between the outer cover body 31 and the inner cover body 32, and then the air flow is ejected by the air outlet hole 33.

In the technical scheme, the air-out flow of the dehumidifier body 1 can be guided and evenly flowed by the even flow block 34, and the air-out of the dehumidifier body 1 is evenly guided to the outer cover 31 to be discharged, so that 360-degree air-out is realized.

The rotating assembly 4 comprises a rotating shaft 41, a plurality of rotating blades 42 are fixedly connected to the surface of the rotating shaft 41, a first bevel gear 43 is fixedly connected to two ends of the rotating shaft 41, a second bevel gear 44 is connected to the side face of the first bevel gear 43 in a meshed mode, a rotating gear 45 is connected to the upper side of the second bevel gear 44, the side face of the rotating gear 45 is connected to the inner side of an inner gear ring 46 in a meshed mode, and the outer side of the inner gear ring 46 is fixedly connected to the inner wall of the wind scooper assembly 3;

the two ends of the rotating shaft 41 are rotatably connected with supporting plates 47, and the two supporting plates 47 are fixedly connected to the top of the centralizing assembly 5;

The lower side of the second bevel gear 44 is fixedly connected with a support column 48, and the support column 48 is rotatably connected with the top of the centralizing assembly 5.

In this technical scheme, utilize rotating assembly 4 can be with the wind-force conversion of dehumidifier body 1 air-out wind-guiding cover subassembly 3 pivoted power to carry out further throwing to the air-out of dehumidifier body 1, enlarge the air-out scope.

When the dehumidifier body 1 works, wind blown out by the dehumidifier body 1 blows the rotating blades 42 so as to drive the rotating shaft 41 to rotate and further drive the first bevel gear 43 to rotate, at the moment, the second bevel gear 44 can be driven to rotate, and when the second bevel gear 44 rotates, the rotating gear 45 can be driven to rotate so as to drive the inner gear ring 46 to rotate, at the moment, the wind scooper component 3 can be driven to rotate so as to accelerate the projection of the air flow, thereby expanding the range of the air outlet and the dehumidification range

The centralized component 5 comprises a supporting frame 51 and a centralized shell 52, the supporting frame 51 is arranged at the top of the dehumidifier body 1, the centralized shell 52 is arranged at the inner side of the supporting frame 51, one end of the centralized shell 52 is connected with an air outlet of the dehumidifier body 1, and the other end of the centralized shell 52 is connected with the inner side of the supporting frame 51;

a centralizing port is formed at the joint of the centralizing case 52 and the supporting frame 51.

In this technical scheme, utilize concentrated subassembly 5 can concentrate the air-out of dehumidifier body 1, make concentrated wind-force can blow the rotary vane 42, provide the driving force for the rotation of wind scooper subassembly 3.

The rotating assembly 4 is supported by the supporting frame 51, the air flow blown out of the dehumidifier body 1 is concentrated by the concentrating assembly 5, and the air flow is blown to one rotating blade 42 to drive the rotating blade 42 to rotate.

The dustproof structure 6 is arranged on the upper side of the wind scooper assembly 3, the dustproof structure 6 comprises a storage shell 61, two mounting plates 62 are fixedly connected to the bottom of the storage shell 61, the mounting plates 62 are arranged on the side face of the dehumidifier body 1, a storage motor 63 is arranged on one side of the storage shell 61, the output end of the storage motor 63 is fixedly connected with a storage shaft 64, and the surface of the storage shaft 64 is connected with a dustproof cover 65;

an anti-overturning structure is arranged at one end of the dust cover 65 away from the folding shaft 64;

An access opening is formed in the lower side of the storage shell 61, a connecting shaft assembly 66 is rotatably connected to the access opening, the connecting shaft assembly 66 is composed of two symmetrically distributed connecting shafts, and the connecting shaft assembly 66 can guide the dust cover 65.

In this technical scheme, utilize dustproof construction 6 can carry out dustproof processing to wind scooper subassembly 3, prevent that the dust from getting into dehumidifier body 1 and influencing the use.

After the dehumidifier body 1 finishes working, the winding and unwinding motor 63 is utilized to drive the winding and unwinding shaft 64 to rotate, so that the dust cover 65 is loosened, the dust cover 65 is covered outside the wind scooper assembly 3, and thus the wind scooper assembly 3 is subjected to dust prevention treatment, and before the dehumidifier body 1 works, the dust cover 65 needs to be stored into the storage shell 61 by utilizing the winding and unwinding shaft 64.

The anti-overturning structure comprises a positioning assembly I7, wherein the positioning assembly I7 comprises an upper fixing ring 71 and a lower fixing ring 72, the upper fixing ring 71 and the lower fixing ring 72 are fixedly connected to the outer side of the dehumidifier body 1, the upper fixing ring 71 and the lower fixing ring 72 are connected through a plurality of fixing columns 73, the surfaces of the fixing columns 73 are slidably connected with a sliding plate 74, a connecting spring 75 is arranged below the sliding plate 74, an elastic rope 76 is fixedly connected to the bottom of the sliding plate 74, and the other end of the elastic rope 76 is connected with a dust cover 65;

the upper end of the connecting spring 75 is connected with the sliding plate 74, the lower end of the connecting spring 75 is connected with the top of the lower fixed ring 72, and the connecting spring 75 is sleeved on the surface of the fixed column 73;

the lower fixed ring 72 is provided with a moving port, and a guide shaft assembly 77 is rotatably connected to the moving port;

The guide shaft assembly 77 is composed of two symmetrically distributed guide shafts, and one end of the elastic rope 76 passes through the space between the two guide shafts.

In this technical scheme, utilize locating component one 7 can prescribe a limit to dust cover 65 lower extreme, make dust cover 65 lower extreme hug closely the wind scooper subassembly 3 outside, prevent that dust cover 65 from turning up and influencing the dustproof effect, can make dust cover 65 hug closely wind scooper subassembly 3 simultaneously, improve dustproof effect.

Can stimulate the elastic cord 76 when dust cover 65 moves up to further drive sliding plate 74 and remove along fixed column 73, thereby compress connecting spring 75, when dust cover 65 moves down, can make dust cover 65 resume initial position through elastic cord 76 and connecting spring 75, and can make dust cover 65 lower extreme hug closely wind scooper subassembly 3, prevent that dust cover 65 from turning up and influencing the dustproof effect.

As another embodiment of the present application, as shown in fig. 7 and 8, the difference from the first embodiment is that the anti-turning structure further includes a second positioning assembly 8, the second positioning assembly 8 includes a fixed housing 81, the fixed housing 81 is connected to an end of the dust cover 65 away from the retraction shaft 64, a moving magnet 82 is mounted on an inner wall of the fixed housing 81, a fixed magnet 83 is magnetically connected to one side of the moving magnet 82, and the fixed magnet 83 is connected to an outer side of the wind scooper assembly 3.

In this technical scheme, utilize locating component two 8 can inject dust cover 65 lower extreme, make dust cover 65 lower extreme hug closely the wind scooper subassembly 3 outside, prevent that dust cover 65 from turning up and influencing the dustproof effect.

When the dust cover 65 covers the outer side of the wind scooper assembly 3, the lower end of the dust cover 65 is tightly attached to the side surface of the wind scooper assembly 3 by the adsorption action of the movable magnet block 82 and the fixed magnet block 83, so that the lower end of the dust cover 65 is prevented from turning upwards.

As yet another embodiment of the present application, as shown in fig. 9 to 11, the difference from the first embodiment is that the wind scooper assembly 3 is further connected to the rotating assembly 9, the rotating assembly 9 includes a delivery pipe 91, the delivery pipe 91 is installed at the top of the dehumidifier body 1, an external gear ring 92 is installed at the outer side of the delivery pipe 91, a driving gear 93 is connected to the side of the external gear ring 92 in a meshed manner, the driving gear 93 is fixedly connected to the output end of a rotating electric machine 94, and the rotating electric machine 94 is installed at the top of the dehumidifier body 1;

The bottom of the outer gear ring 92 is provided with a limiting ring 95, the limiting ring 95 is slidably connected with the inner wall of the limiting shell 96, the bottom of the limiting shell 96 is connected with a plurality of connecting columns 97 distributed in an annular array, the connecting columns 97 are all arranged at the top of the dehumidifier body 1, the connecting columns 97 can reduce the overall mass of the rotating assembly 9, and when the outer gear ring 92 rotates, the limiting ring 95 can be driven to rotate in the limiting shell 96, so that the rotating track of the outer gear ring 92 can be limited;

The inside rotation of external tooth wheel ring 92 is connected with a plurality of rotatory spin balls 98 that are annular array and distribute, the sliding tray has been seted up in the delivery tube 91 outside, rotatory spin balls 98 pass through sliding tray and delivery tube 91 outside sliding connection, and when external tooth wheel ring 92 rotated, rotatory spin balls 98 can make the rotation of external tooth wheel ring 92 more smooth and easy.

In this technical scheme, utilize rotary component 9 can initiatively drive wind scooper subassembly 3 rotation, make the rotational speed of wind scooper subassembly 3 controllable and the rotational speed is faster, be convenient for throw the air current to more distant place.

When the dehumidifier body 1 works, the rotating motor 94 is utilized to drive the driving gear 93 to rotate, so as to drive the outer gear ring 92 to rotate, and further drive the wind scooper component 3 to rotate, so that the rotating speed of the wind scooper component 3 is controllable and is higher, the air flow can be thrown to a place farther, and the air outlet range of the dehumidifier is further enlarged.

The air outlet method comprises the following operation steps:

S1, starting a dehumidifier body 1, blowing out air working on the dehumidifier body 1 to a rotating assembly 4 by using a concentrating assembly 5, and converting the force of the air blown out by the dehumidifier body 1 into the rotating force for driving a wind scooper assembly 3 by the rotating assembly 4, so as to drive the wind scooper assembly 3 to rotate, or driving the wind scooper assembly 3 to rotate by using a rotating assembly 9, so that the air is diffused farther;

s2, after the air flow drives the rotating assembly 4 to rotate, continuing to upwards, and then guiding and homogenizing the air flow by utilizing the homogenizing flow block 34, and then uniformly guiding the air outlet of the dehumidifier body 1 to the outer cover 31 for discharging, so that 360-degree air outlet is realized;

S3, after the dehumidifier body 1 finishes working, the dustproof structure 6 is utilized to discharge the dustproof cover 65, the dustproof cover 65 is covered on the outer side of the wind scooper component 3, so that the wind scooper component 3 is dustproof, and when the dustproof cover 65 is used, the lower end of the dustproof cover 65 can be tightly attached to the wind scooper component 3 by the aid of the first positioning component 7 or the second positioning component 8, and the dustproof cover 65 is prevented from being turned up to influence the dustproof effect.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the invention, but such changes and modifications fall within the scope of the invention.

Claims (10)

1. The utility model provides a dehumidifier that can 360 degrees air-out, includes dehumidifier body (1), a plurality of removal wheel (2) are installed to dehumidifier body (1) bottom, dehumidifier body (1) are the mode of last air-out, its characterized in that, but 360 degrees air-out's dehumidifier still includes: the air guide cover assembly (3), the air guide cover assembly (3) is arranged on the outer side of the upper part of the dehumidifier body (1), and the air guide cover assembly (3) is used for diffusing the air outlet of the dehumidifier to enable the air outlet of the dehumidifier to be 360-degree;

The rotating assembly (4) is arranged on the inner side of the wind scooper assembly (3), the rotating assembly (4) is used for converting the air outlet of the dehumidifier into driving force, and the driving force is used for rotating the wind scooper assembly (3);

the centralized component (5), centralized component (5) install in dehumidifier body (1) top, just centralized component (5) are connected with rotating assembly (4), centralized component (5) are used for blowing the air-out of dehumidifier to rotating assembly (4) in a centralized way.

2. The 360 degree outlet dehumidifier of claim 1, wherein: the wind scooper component (3) comprises an outer cover body (31) and an inner cover body (32), wherein the inner cover body (32) is arranged on the inner side of the outer cover body (31), and a gap exists between the inner cover body (32) and the outer cover body (31) to form a wind scooper channel.

3. The 360 degree outlet dehumidifier of claim 2, wherein: the outer cover body (31) is provided with a plurality of air outlet holes (33), the air outlet holes (33) are obliquely arranged, the angle of inclination of the air outlet holes (33) is sixty degrees, and the air flow of the dehumidifier is thrown farther;

The top of the inner cover body (32) is provided with a communication port which is used for communicating the outer cover body (31) with the inner cover body (32);

The upper side of the communication port is provided with a uniform flow block (34), and the uniform flow block (34) is arranged on the inner wall of the outer cover body (31).

4. The 360 degree outlet dehumidifier of claim 1, wherein: the rotating assembly (4) comprises a rotating shaft (41), a plurality of rotating blades (42) are fixedly connected to the surface of the rotating shaft (41), first bevel gears (43) are fixedly connected to the two ends of the rotating shaft (41), second bevel gears (44) are connected to the side faces of the first bevel gears (43) in a meshed mode, rotating gears (45) are connected to the upper sides of the second bevel gears (44), the side faces of the rotating gears (45) are connected to the inner side of an inner gear ring (46) in a meshed mode, and the outer sides of the inner gear ring (46) are fixedly connected to the inner wall of the air guide cover assembly (3);

The two ends of the rotating shaft (41) are rotatably connected with supporting plates (47), and the two supporting plates (47) are fixedly connected to the top of the centralizing assembly (5);

The lower side of the second bevel gear (44) is fixedly connected with a support column (48), and the support column (48) is rotationally connected with the top of the concentration assembly (5).

5. The 360 degree outlet dehumidifier of claim 1, wherein: the centralized assembly (5) comprises a supporting frame (51) and a centralized shell (52), the supporting frame (51) is arranged at the top of the dehumidifier body (1), the centralized shell (52) is arranged at the inner side of the supporting frame (51), one end of the centralized shell (52) is connected with an air outlet of the dehumidifier body (1), and the other end of the centralized shell (52) is connected with the inner side of the supporting frame (51);

the joint of the centralizing shell (52) and the supporting frame (51) is provided with a centralizing opening.

6. The 360 degree outlet dehumidifier of claim 1, wherein: the novel dehumidifier is characterized in that a dustproof structure (6) is arranged on the upper side of the wind scooper assembly (3), the dustproof structure (6) comprises a storage shell (61), two mounting plates (62) are fixedly connected to the bottom of the storage shell (61), the mounting plates (62) are arranged on the side face of the dehumidifier body (1), a winding and unwinding motor (63) is arranged on one side of the storage shell (61), the output end of the winding and unwinding motor (63) is fixedly connected with a winding and unwinding shaft (64), and the surface of the winding and unwinding shaft (64) is connected with a dustproof cover (65);

an anti-overturning structure is arranged at one end of the dust cover (65) far away from the folding and unfolding shaft (64);

An access opening is formed in the lower side of the storage shell (61), a connecting shaft assembly (66) is rotatably connected to the access opening, and the connecting shaft assembly (66) is composed of two symmetrically distributed connecting shafts.

7. The 360 degree out-flow dehumidifier of claim 6, wherein: the anti-overturning structure comprises a first positioning assembly (7), the first positioning assembly (7) comprises an upper fixing ring (71) and a lower fixing ring (72), the upper fixing ring (71) and the lower fixing ring (72) are fixedly connected to the outer side of a dehumidifier body (1), the upper fixing ring (71) and the lower fixing ring (72) are connected through a plurality of fixing columns (73), the surfaces of the fixing columns (73) are slidably connected with a sliding plate (74), a connecting spring (75) is arranged below the sliding plate (74), an elastic rope (76) is fixedly connected to the bottom of the sliding plate (74), and the other end of the elastic rope (76) is connected with a dust cover (65);

The upper end of the connecting spring (75) is connected with the sliding plate (74), the lower end of the connecting spring (75) is connected with the top of the lower fixed ring (72), and the connecting spring (75) is sleeved on the surface of the fixed column (73);

The lower fixed ring (72) is provided with a moving port, and a guide shaft assembly (77) is rotatably connected to the moving port;

The guide shaft assembly (77) is composed of two symmetrically distributed guide shafts, and one end of the elastic rope (76) passes through the space between the two guide shafts.

8. The 360 degree out-flow dehumidifier of claim 6, wherein: the anti-overturning structure further comprises a second positioning assembly (8), the second positioning assembly (8) comprises a fixed shell (81), the fixed shell (81) is connected to one end of the dust cover (65) away from the folding shaft (64), a movable magnet block (82) is mounted on the inner wall of the fixed shell (81), a fixed magnet block (83) is magnetically connected to one side of the movable magnet block (82), and the fixed magnet block (83) is connected to the outer side of the wind scooper assembly (3).

9. The 360 degree outlet dehumidifier of claim 1, wherein: the wind scooper assembly (3) is further connected with the rotating assembly (9), the rotating assembly (9) comprises a delivery pipe (91), the delivery pipe (91) is arranged at the top of the dehumidifier body (1), an outer gear ring (92) is arranged at the outer side of the delivery pipe (91), a driving gear (93) is connected to the side face of the outer gear ring (92) in a meshed mode, the driving gear (93) is fixedly connected to the output end of a rotating motor (94), and the rotating motor (94) is arranged at the top of the dehumidifier body (1);

A limiting ring (95) is arranged at the bottom of the outer gear ring (92), the limiting ring (95) is in sliding connection with the inner wall of a limiting shell (96), a plurality of connecting columns (97) distributed in an annular array are connected to the bottom of the limiting shell (96), and a plurality of connecting columns (97) are arranged at the top of the dehumidifier body (1);

The inner side of the outer gear ring (92) is rotationally connected with a plurality of rotary rolling balls (98) distributed in an annular array, the outer side of the delivery pipe (91) is provided with a sliding groove, and the rotary rolling balls (98) are in sliding connection with the outer side of the delivery pipe (91) through the sliding groove.

10. The method for obtaining the air outlet of the dehumidifier capable of outputting air at 360 degrees by using the dehumidifier capable of outputting air at 360 degrees according to any one of claims 1 to 9, wherein the method comprises the following steps: the air outlet method comprises the following operation steps:

S1, starting a dehumidifier body (1), blowing out air working on the dehumidifier body (1) to a rotating assembly (4) by using a concentrating assembly (5), and converting the air flow blowing out of the dehumidifier body (1) into a rotating force for driving a wind scooper assembly (3) by the rotating assembly (4), so as to drive the wind scooper assembly (3) to rotate, or driving the wind scooper assembly (3) to rotate by using a rotating assembly (9), so that the air flow is diffused farther;

S2, after the air flow drives the rotating assembly (4) to rotate, continuing to upwards, and then guiding and homogenizing the air flow by utilizing the homogenizing flow block (34), and then discharging the air out of the dehumidifier body (1) uniformly to the outer cover body (31) to realize 360-degree air out;

S3, after the dehumidifier body (1) finishes working, the dustproof structure (6) is used for discharging the dustproof cover (65), the dustproof cover (65) is covered on the outer side of the wind scooper assembly (3), so that the wind scooper assembly (3) is subjected to dustproof treatment, and when the dustproof cover (65) is used, the lower end of the dustproof cover (65) can be tightly attached to the wind scooper assembly (3) by the aid of the first positioning assembly (7) or the second positioning assembly (8), and the dustproof cover (65) is prevented from being turned up to influence the dustproof effect.