CN112484199A

CN112484199A - Intelligent humidifier with interaction function

Info

Publication number: CN112484199A
Application number: CN202011410369.1A
Authority: CN
Inventors: 翟伟民; 何继伟; 徐碧文; 包力源; 赵世宽; 刘琳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2021-03-12
Anticipated expiration: 2040-12-03
Also published as: CN112484199B

Abstract

The invention discloses an intelligent humidifier with an interactive function, which comprises a water storage cavity, a flow guide assembly and a closing-up assembly, wherein the water storage cavity is an inner cavity of a shell, the center in the water storage cavity is the flow guide cavity which vertically penetrates through the water storage cavity, water in the water storage cavity can flow into the flow guide cavity, is atomized, is guided by spiral airflow on the inner wall of the flow guide cavity, and is gathered by the closing-up assembly and then is sprayed out of the shell. Compared with the prior art, the intelligent humidifier with the interaction function has the advantages that the atomization effect is fine and smooth, the air is uniformly mixed, different mist outlet quantities can keep the more consistent spraying height, and the visual effect is better.

Description

Intelligent humidifier with interaction function

Technical Field

The invention relates to the technical field of household air humidifiers, in particular to an intelligent humidifier with an interactive function.

Background

With the development of economy and the improvement of the living standard of people, the requirements of people on the quality and health of life are higher and higher. The air humidifier is a small household appliance which is slowly moved into many families all over the world and is indispensable for the families in dry areas. The air humidifier still belongs to a new product in China, and according to statistics of relevant departments, the per-capita occupancy rate of humidifier products in China is far lower than the level of developed countries such as America, Korea and Japan. The research and development of the air humidifier are enhanced, the development of the domestic air humidifier industry is facilitated, and the improvement of the national life quality and the improvement of the national health level are facilitated.

In the prior art, a humidifier mainly atomizes water into 1-5 micron ultrafine particles and negative oxygen ions through ultrasonic high-frequency oscillation so as to realize uniform humidification, or water is heated to 100 ℃ in a heating body to generate steam, and the steam is sent out by a motor so as to humidify air. Meanwhile, a temperature sensor and a humidity sensor are also arranged or are linked with other electrical appliances such as an air conditioner, and the spraying amount of the humidifier is controlled according to the air environment.

Among the prior art, the air supply arrangement of humidifier sets up the below at atomizing device mostly, so that blow off atomizing water smoke particle, but atomizing device is in the atomizing in-process, water smoke particle is gradually diminishing, and after it received ascending kinetic energy and overcomes gravity, also refine to the certain degree after, begin upwards spun, because air supply arrangement's exogenic action, can make water smoke particle break away from the surface of water in advance and spill over, thereby make atomizing fine and smooth degree receive the influence, in addition, still touch atomizing intracavity wall easily at the water smoke particle at the in-process that rises, make its liquefaction and flow back to in the humidifier, reduce atomization efficiency.

In addition, because the spraying export of humidifier all is fixed size, when the play fog volume is great, the export will produce indiscriminate stream inadequately and lead to water smoke particle collision each other to make water smoke particle merge the grow, make originally fine and smooth water smoke particle become coarse, be unfavorable for its even diffusion in the air, probably liquefy into the water droplet near the export even and wet the desktop, and when the play fog volume was less, the export too big can lead to water smoke to lose power and sink, and the spraying height is not enough to be unfavorable for water smoke and air mixing.

Therefore, it is necessary to provide an intelligent humidifier with an interactive function to solve the problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an intelligent humidifier with interactive function, includes water storage chamber, water conservancy diversion subassembly, wherein, the water storage chamber is the inner chamber of casing, the center in the water storage chamber is rather than the water conservancy diversion chamber that runs through from top to bottom, the water of water storage intracavity can flow in the water conservancy diversion intracavity to with its atomizing back, through the spiral air current guide blowout outside of water conservancy diversion intracavity wall.

Further, as preferred, the bottom center of water conservancy diversion intracavity is rather than the atomizing chamber that separates, atomizing chamber top opening, the bottom side erects in the water conservancy diversion intracavity through built on stilts pipeline, the bottom of atomizing intracavity is equipped with atomizing device, be equipped with the water conservancy diversion subassembly between atomizing chamber outer wall and water conservancy diversion intracavity wall.

Further, as a preferred option, a turbofan is arranged at the bottom of the atomizing cavity, and the turbofan can blow airflow out from between the outer wall of the atomizing cavity and the inner wall of the flow guide cavity.

Further, preferably, the atomization device is capable of realizing at least one of ultrasonic atomization, electric heating type atomization, immersion type electrode atomization and cold mist atomization.

Further, as preferred, the guide assembly includes guide vane, adjusting ring, the circumference is provided with a plurality of guide vane between atomizing chamber outer wall and the inner wall of guide chamber, the one corner in guide vane upper end outside passes through universal joint one and is connected with guide chamber inner wall, and the inboard one corner that is close to the center of guide vane passes through universal joint two and is connected with adjusting ring.

Furthermore, preferably, the second universal joint is connected with the adjusting ring through a second universal joint groove, the second universal joint groove in the adjusting ring is a groove which limits the second universal joint in a circle and can enable the second universal joint to move along the groove, one surface of the adjusting ring, which is far away from the second universal joint groove, is provided with a circle of tooth grooves, and the adjusting ring is connected with the lifting ring through a plurality of adjusting ring gears meshed with the tooth grooves;

the adjusting ring gear can rotate relative to the lifting ring, one of the adjusting ring gears is driven by a motor, and a telescopic rod is arranged on the back of the lifting ring.

Further, as a preferred mode, the atomization cavity is a barrel-shaped cavity with a small radius at the lower part and a large radius at the upper part.

Further, as preferred, the close-up assembly comprises close-up blades, the close-up blades are curved blades, a plurality of close-up blades surround along the circumference of the outlet of the flow guide cavity, one edge of each close-up blade is sequentially attached to the surface of the adjacent close-up blade, and a cylinder with a closed side is formed.

Further, preferably, one corner of the bottom of the closing-in blade, which is far away from the edge attached to the surface of the adjacent closing-in blade, is connected with the inner wall of the flow guide cavity through a universal joint III, a hinge joint is fixed at the back of the closing-in blade, a closing-in connecting rod is hinged to the hinge joint, the other end of the closing-in connecting rod is a vertical sliding column, each sliding column is fixedly connected with the rotating disc, a sliding groove plate is further arranged between the closing-in connecting rod and the rotating disc, and a sliding groove is arranged at the position of the sliding groove plate, which corresponds to the;

and the chute is an arc chute, the closing-up connecting rod can pull the closing-up blades to rotate between the closing-up position and the opening position due to the radian and the position of the chute, one edge of each closing-up blade is kept to be attached to the surface of the adjacent closing-up blade, and the lower side line of each closing-up blade is kept to be attached to the inner wall of the flow guide cavity.

Further, as a preferred option, a control device is arranged outside the water storage cavity, and a sensor capable of detecting at least one index of ambient temperature/humidity/air composition/dust concentration is further arranged.

Compared with the prior art, the invention has the beneficial effects that:

in the application, high-pressure air blown out of an air channel by a turbofan is separated by guide vanes which are inclined and twisted at a certain angle, so that twisted air flow can be formed, water mist particles sprayed out of an atomizing cavity are guided to the path of the water mist particles, the water mist particles are prevented from being dispersed in a chaotic way when an atomizing device generates turbulent flow in the water mist generating process, the water mist is prevented from hitting the inner wall to reduce the humidifying efficiency, certain rotary kinetic energy of the water mist particles outside spraying equipment can be kept, the water mist is sprayed out in a rotary dispersion way, the surrounding air can be humidified better, and a better visual effect can be achieved;

the twisted air flow forms a certain included angle relative to the linearly sprayed water mist particles, so that the water mist particles are laterally dispersed and are more uniformly mixed with the air.

The opening degree of the closing-in blade is adjusted according to the size of the mist outlet quantity, so that the water mist can keep a certain spraying height and guarantee the fine and smooth water mist, when the mist outlet quantity is large, the outlet generates too small turbulence to cause the mutual collision of the water mist particles to enable the water mist particles to be combined to be enlarged, and when the mist outlet quantity is small, the outlet generates too large water mist to lose power, sink and the like, so that the problem that the humidification effect is influenced by the water mist and air mixing is avoided.

The control device can adjust the spraying amount in real time according to the environmental information known by the sensor, and the air pressure and the flow of the vortex fan, the torsion angle of the guide vanes and the opening degree of the closing-in vanes are adjusted and matched with each other according to the difference of the spraying amount, so that the humidifier is always in the optimal state of the humidifying effect, and the interaction function is realized.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent humidifier with an interactive function;

fig. 2 is an enlarged cross-sectional structural view of a flow guide assembly of an intelligent humidifier with an interactive function;

fig. 3 is a schematic structural diagram of a flow guide assembly of an intelligent humidifier with an interaction function;

fig. 4 is a schematic structural diagram of a necking assembly of an intelligent humidifier with an interactive function;

in the figure: 1. a water storage cavity; 2. a flow guide cavity; 3. an atomizing chamber; 4. a pipeline; 5. a turbo fan; 6. a flow guide assembly; 61. a guide vane; 611. a second universal joint; 610. a first universal joint; 62. an air passage; 63. a lifting ring; 64. an adjustment ring; 65. adjusting the ring gear; 66. a telescopic rod; 7. a closing-in component; 71. closing the leaves; 72. a chute plate; 73. a rotating plate; 74. a chute; 75. a closing-in connecting rod; 76. a hinge joint; 77. a universal joint III; 8. an atomizing device.

Detailed Description

Referring to fig. 1, in this embodiment, an intelligent humidifier with an interactive function includes a water storage chamber 1, a flow guide chamber 2, a flow guide assembly 6, and a closing assembly 7, where the water storage chamber 1 is an inner chamber of a housing, the center in the water storage chamber 1 is the flow guide chamber 2 penetrating through the water storage chamber 1 from top to bottom, and water in the water storage chamber 1 can flow into the flow guide chamber 2 and atomize the water, and is guided by a spiral air flow on an inner wall of the flow guide chamber 2 and is ejected outside after being gathered by the closing assembly 7.

In the embodiment, the bottom center in the flow guide cavity 2 is an atomization cavity 3 separated from the flow guide cavity, the atomization cavity 3 is opened above, the side edge of the bottom is erected in the flow guide cavity 2 through an overhead pipeline 4, the pipeline 4 not only plays a role in fixing, but also can guide water in the water storage cavity 1 into the atomization cavity 3, a valve is further arranged between the pipeline 4 and the water storage cavity 1, the valve needs to be closed when water is added, and when the water storage cavity 1 is closed and water is sufficient, the height of the water surface in the atomization cavity 3 is always equal to the inner diameter height of the pipeline 4 due to the liquid sealing function;

the bottom in the atomizing chamber 3 is equipped with atomizing device 8, be equipped with water conservancy diversion subassembly 6 between 3 outer walls in atomizing chamber and the 2 inner walls in water conservancy diversion chamber.

In this embodiment, the bottom of the atomizing chamber 2 is provided with a turbofan 5, and the turbofan 5 can blow out airflow from between the outer wall of the atomizing chamber 3 and the inner wall of the diversion chamber 2.

In this embodiment, the atomization device 8 can realize at least one of ultrasonic atomization, electric heating atomization, immersion electrode atomization, and cold mist atomization.

In this embodiment, the guide assembly 6 includes a guide vane 61 and an adjusting ring 64, a plurality of guide vanes 61 are circumferentially arranged between the outer wall of the atomizing chamber 3 and the inner wall of the guide chamber 2, one corner of the outer side of the upper end of each guide vane 61 is connected with the inner wall of the guide chamber 2 through a first universal joint 610, one corner of the inner side of each guide vane 61 close to the center is connected with the adjusting ring 64 through a second universal joint 611, and the guide vanes 61 can be inclined and rotated by rotation and forward pushing of the adjusting ring 64;

the rear end of the guide vane 61 is an air passage 62, the air passage 62 is provided with an air flow by the turbofan 5, and the turbofan 5 can adjust at least one of air pressure, flow rate and temperature of air.

In this embodiment, the second universal joint 611 and the adjusting ring 64 are connected by a second universal joint groove, the second universal joint groove in the adjusting ring 64 is a groove which limits the second universal joint 611 in a circle and can allow the second universal joint 611 to move along the groove, one side of the adjusting ring 64, which is far away from the second universal joint groove, is provided with a circle of tooth grooves, and the inner side of the adjusting ring 64 is connected with the lifting ring 63 by a plurality of adjusting ring gears 65 which are meshed with the tooth grooves;

the adjusting ring gears 65 can rotate relative to the lifting ring 63, one of the adjusting ring gears 65 is driven by a motor, and the back of the lifting ring 63 is provided with an expansion link 66;

the high-pressure air blown out from the air channel 62 is separated by the guide vanes 61 which are obliquely twisted at a certain angle, so that a spiral twisted air flow can be formed, water mist particles sprayed out of the atomizing cavity 3 are guided to the path of the water mist particles, the water mist particles are prevented from being dispersed in a chaotic way when the atomizing device 8 generates turbulent flow in the water mist generating process, the water mist is prevented from hitting the inner wall to reduce the humidifying efficiency, certain rotary kinetic energy of the water mist particles outside the spraying equipment can be kept, the water mist is sprayed out in a rotary dispersion way, the surrounding air can be humidified better, and a better visual effect can be achieved;

the twisted air flow has a certain included angle relative to the linearly sprayed water mist particles, so that the water mist particles are laterally dispersed and are more uniformly mixed with the air, and the inclination and the twisted angle of the guide vane 61 and the air pressure are related to the water mist flow, the spraying distance and other factors.

In the embodiment, the atomizing chamber 3 is a barrel-shaped chamber with a small radius at the lower part and a large radius at the upper part, so that the water mist particles generated by the atomizing device 8 are not easy to collide with the inner wall of the atomizing chamber 3,

in this embodiment, the closing-up assembly 7 includes closing-up blades 71, the closing-up blades 71 are curved blades, a plurality of closing-up blades 71 surround along the outlet circumference of the flow guide cavity 2, and one edge of each closing-up blade 71 is sequentially attached to the surface of the adjacent closing-up blade 71 to form a cylinder with a closed side;

in this embodiment, one corner of the bottom of the closing-in blade 71 away from the edge attached to the surface of the adjacent closing-in blade 71 is connected with the inner wall of the diversion cavity 2 through a universal joint three 77, a hinge joint 76 is fixed at the back, the hinge joint 76 is hinged with a closing-in connecting rod 75, the other end of the closing-in connecting rod 75 is a vertical sliding column, each sliding column is fixedly connected with a rotating disc 73, a sliding groove plate 72 is further arranged between the closing-in connecting rod 75 and the rotating disc 73, and a sliding groove 74 is arranged at the position of the sliding groove plate 72 corresponding to the sliding column;

and, the chute 74 is an arc chute, and the radian and the position of the chute enable the closing-up connecting rod 75 to pull the closing-up blades 71 to rotate between the closed and opened positions, one edge of each closing-up blade 71 keeps to be attached to the surface of the adjacent closing-up blade 71, and the lower side line of each closing-up blade 71 keeps to be attached to the inner wall of the diversion cavity 2.

The opening degree of the closing-in blade 71 is adjusted according to the mist outlet quantity, so that the mist can keep a certain spraying height and guarantee fine mist, when the mist outlet quantity is large, the outlet is too small to generate turbulence to enable mist particles to collide with each other to enable the mist particles to be combined to be enlarged, and when the mist outlet quantity is small, the outlet is too large to enable the mist to lose power to sink and the like, so that the problem that the humidifying effect is influenced by the mixing of the mist and the air is solved.

In specific implementation, the high-pressure air blown out from the air channel 62 by the turbofan 5 is separated by the guide vanes 61 which are inclined and twisted at a certain angle, so that a spiral twisted air flow can be formed, and the water mist particles sprayed out from the atomizing device 8 in the atomizing cavity 3 are blown out, and the opening degree of the closing-in vanes 71 is adjusted according to the mist outlet quantity, so that the water mist can keep a certain spraying height and the water mist is fine.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides an intelligent humidifier with interactive function, includes water storage chamber (1), water conservancy diversion chamber (2), water conservancy diversion subassembly (6), binding off subassembly (7), its characterized in that, water storage chamber (1) is the inner chamber of casing, center in water storage chamber (1) is water conservancy diversion chamber (2) that run through from top to bottom rather than, water in water storage chamber (1) can flow in water conservancy diversion chamber (2) to with its atomizing back, through the spiral air current guide of water conservancy diversion chamber (2) inner wall, and spout the outside after binding off subassembly (7) gathers together.

2. The intelligent humidifier with the interaction function according to claim 1, wherein the bottom center in the flow guide chamber (2) is an atomization chamber (3) separated from the flow guide chamber, the atomization chamber (3) is opened at the top, the bottom side is erected in the flow guide chamber (2) through an overhead pipeline (4), an atomization device (8) is arranged at the bottom in the atomization chamber (3), and a flow guide assembly (6) is arranged between the outer wall of the atomization chamber (3) and the inner wall of the flow guide chamber (2).

3. The intelligent humidifier with the interaction function as claimed in claim 2, wherein a turbofan (5) is arranged at the bottom of the atomization chamber (2), and the turbofan (5) can blow out airflow from between the outer wall of the atomization chamber (3) and the inner wall of the flow guide chamber (2).

4. An intelligent humidifier with interactive function according to claim 2, characterized in that the atomization device (8) can realize at least one atomization mode of ultrasonic atomization/electric heating atomization/immersion electrode atomization/cold fog atomization.

5. The intelligent humidifier with the interaction function according to claim 2, wherein the flow guide assembly (6) comprises a flow guide vane (61) and an adjusting ring (64), a plurality of flow guide vanes (61) are circumferentially arranged between the outer wall of the atomization chamber (3) and the inner wall of the flow guide chamber (2), one corner of the outer side of the upper end of each flow guide vane (61) is connected with the inner wall of the flow guide chamber (2) through a first universal joint (610), and one corner of the inner side of each flow guide vane (61), which is close to the center, is connected with the adjusting ring (64) through a second universal joint (611).

6. An intelligent humidifier with an interactive function according to claim 5, wherein the second universal joint (611) is connected with the adjusting ring (64) through a universal joint groove, the universal joint groove in the adjusting ring (64) is a groove which limits the second universal joint (611) in one circle and enables the second universal joint (611) to move along the groove, one side of the adjusting ring (64) far away from the universal joint groove is provided with a circle of tooth grooves, and the adjusting ring is connected with the lifting ring (63) through a plurality of adjusting ring gears (65) meshed with the adjusting ring gears;

the adjusting ring gears (65) can rotate relative to the lifting rings (63), one of the adjusting ring gears (65) is driven by a motor, and the back of each lifting ring (63) is provided with an expansion link (66).

7. An intelligent humidifier with an interactive function according to claim 3, wherein the atomizing chamber (3) is a barrel-shaped chamber with a small radius at the lower part and a large radius at the upper part.

8. The intelligent humidifier with the interaction function as claimed in claim 1, wherein the closing-in assembly (7) comprises closing-in blades (71), the closing-in blades (71) are curved blades, a plurality of closing-in blades (71) surround along the outlet circumference of the flow guide chamber (2), and one edge of each closing-in blade (71) is sequentially attached to the surface of the adjacent closing-in blade (71) to form a cylinder with a closed side.

9. The intelligent humidifier with the interaction function according to claim 8, wherein one corner of the bottom of the closing-in blade (71), which is far away from the edge which is close to the surface of the adjacent closing-in blade (71), is connected with the inner wall of the flow guide chamber (2) through a universal joint III (77), the back of the closing-in blade is fixed with a hinge joint (76), the hinge joint (76) is hinged with a closing-in connecting rod (75), the other end of the closing-in connecting rod (75) is a vertical sliding column, each sliding column is fixedly connected with a rotating disc (73), a sliding groove plate (72) is further arranged between the closing-in connecting rod (75) and the rotating disc (73), and a sliding groove (74) is arranged at the position of the sliding groove plate (72) corresponding to the sliding column;

and the sliding groove (74) is an arc sliding groove, the radian and the position of the sliding groove enable the closing-up connecting rod (75) to pull the closing-up blades (71) to rotate between the closing-up position and the opening-up position, one edge of each closing-up blade (71) is kept to be attached to the surface of the adjacent closing-up blade (71), and the lower side line of each closing-up blade (71) is kept to be attached to the inner wall of the flow guide cavity (2).

10. An intelligent humidifier with interactive function as claimed in claim 1, characterized in that the water storage chamber (1) is provided with a control device outside, and a sensor capable of detecting at least one index of ambient temperature/humidity/air composition/dust concentration.