CN113932342A - Integrated humidifier - Google Patents

Abstract

The invention discloses an integrated humidifier, which comprises a box body, wherein a water tank and an atomization chamber are integrally formed in the cavity of the box body, the water tank is communicated with the atomization chamber through a communicating device, the communicating device is provided with a water outlet hole for injecting water in the communicating device into the atomization chamber, an atomization unit and a water level adjusting device are further arranged in the atomization chamber, the atomization unit is used for atomizing the water in the atomization chamber, the water level adjusting device comprises a floating ball, a floating lever and a water level control plug, the floating lever is movably hinged with the atomization unit, the water level control plug is arranged at one end of the floating lever and used for sealing or opening the water outlet hole, the floating ball is arranged at the other end of the floating lever, and the floating ball can lift based on the water level in the atomization chamber to drive the water level control plug to correspondingly seal or open the water outlet hole. Through this application, solved air humidifier water tank and easily leaked, the watering, atomization effect is not good, uses unsafe problem, realizes that the circulation is intake the moisturizing, is improved atomization effect, humidifier safe in utilization and the convenient beneficial effect of equipment.

Description

Integrated humidifier

Technical Field

The invention belongs to the technical field of humidifiers, and particularly relates to an integrated humidifier.

Background

The air humidifier in the related art mainly has a two-piece structure, the bottom of the air humidifier is a humidifier atomization structure, and the upper part of the air humidifier is a water tank structure, wherein water leaks into an atomizer of the humidifier atomization structure located at the lower part along a hole at the bottom of the water tank, so that atomization is realized.

In the air humidifier with the two-piece structure in the related art, the design precision is not high, a break exists, and the water tank at the upper part of the air humidifier with the two-piece structure is difficult to quickly level, so that water leakage and water sprinkling of the water tank are easily caused; simultaneously, because control is lost efficacy when the water tank, thereby it leads to water to spill out to lead to the water level out of control very easily, in the easy direct entering atomizing device of water tank incrustation scale to lead to atomizer life low or effect poor, and, on the desk was placed to the humidifier of two-piece structure, easily knocked over and cause incident such as electric leakage.

At present, no effective solution is provided aiming at the problems of easy water leakage and water sprinkling, poor atomization effect and unsafe use of an air humidifier water tank in the related technology.

Disclosure of Invention

In view of the above, there is a need to provide an integrated humidifier to at least solve the problems of water leakage, water spraying, poor atomization effect and unsafe use of the water tank of the air humidifier in the related art.

In order to realize the functions, the technical scheme adopted by the invention is as follows: an integrated humidifier, comprising: the box, integrated into one piece has water tank and atomizing cavity in the cavity of box, the water tank with atomizing cavity passes through the linker intercommunication, the linker is equipped with the confession water in the linker is injected atomizing cavity's apopore, still be equipped with atomizing unit and water level regulating device in the atomizing cavity, wherein, atomizing unit be used for with water atomization in the atomizing cavity, water level regulating device includes floater, float lever and water level control stopper, float the lever with atomizing unit activity is articulated, water level control stopper is located the one end of the lever that floats, and be used for sealed or open the apopore, the floater is located the other end of the lever that floats, the floater can be based on water level in the atomizing cavity goes up and down, drives water level control stopper corresponds sealed or opens the apopore.

In the integrated humidifier, the water tank and the atomization chamber are ingeniously separated by forming the water tank and the atomization chamber in one step in the cavity of the box body, so that the integration level of the humidifier is improved, the functional modules of the chambers are distinguished, the humidifier is ensured to be in an integrated structural design, the gravity center of the humidifier is positioned at the lower part, and the humidifier is ensured not to be easily knocked over; through adopting the water level adjusting device based on lever and buoyancy principle, water level control is exquisite, is difficult for leaking, promotes the atomization effect of humidifier, has solved air humidifier water tank among the correlation technique and has easily leaked, the watering, and atomization effect is not good, uses unsafe problem, realizes that the circulation is intake the moisturizing, is improved atomization effect, humidifier safe in utilization and the convenient beneficial effect of equipment.

In some embodiments, in order to realize the communication between the water tank and the communicating vessel, a through hole is further arranged on the communicating vessel, wherein the through hole is used for communicating the water tank and the communicating vessel, so that water in the water tank is injected into the communicating vessel.

So set up the through hole to the trompil often, ensure that the water tank is continuous supplies water to the linker, when the apopore is opened, make water pour into the atomizing cavity fast, thereby guarantee the atomization effect.

In some embodiments, in order to ensure the purity of water injected into the communicating vessel, thereby reducing the risk of the communicating vessel being blocked, the communicating vessel is provided with a hollow cavity, the water outlet hole communicates with the hollow cavity and the atomization cavity, the through hole communicates with the hollow cavity and the water tank, and a filter and a sealing plug are sequentially arranged in the hollow cavity from top to bottom, wherein the sealing plug is in threaded connection with the hollow cavity and is used for sealing the hollow cavity, and the filter is used for filtering the water injected into the hollow cavity.

According to the arrangement, the water injected into the communicating vessel from the water tank is filtered through the filter, so that the purity of the water in the communicating vessel is ensured, and the risk of blockage of the communicating vessel is reduced; meanwhile, the hollow cavity can be movably opened or sealed through the screw connection of the sealing plug and the hollow cavity, so that the filter can be conveniently replaced and the communicating vessel can be conveniently cleaned, the smoothness of the communicating vessel is ensured, the blocking risk is reduced, and the service life of the humidifier is prolonged.

In some of these embodiments, realize atomizing water and make things convenient for the change of atomizing piece for constructing atomizing unit, atomizing unit includes support, atomizing piece and closing plate, the support inlays to be established in the atomizing chamber, the support includes integrated into one piece's control box, two vertical extension's stand and locates two the stand is kept away from the atomizing portion of control box one end, the lever that floats is located two between the stand to through pivot and two the stand is connected, be equipped with the holding chamber that link up in the atomizing portion, the atomizing piece is located the holding intracavity, the closing plate set firmly in the bottom in holding chamber, and sealed the holding chamber, wherein, the atomizing piece is used for will flowing in the water atomization in holding chamber, the holding chamber is the progressively crescent holding chamber of internal diameter top-down.

According to the arrangement, the atomizing part for placing the atomizing sheet is arranged at the lower end of the central axis of the support, and the movable sealing installation is carried out through the sealing plate, so that the atomizing unit can integrally move, and the atomizing sheet is convenient to replace; the accommodating cavity is arranged to be small at the top and large at the bottom, so that the atomizing sheet is convenient to take, place and fix; the floating lever is installed by utilizing the bracket, so that the water level adjusting device is arranged right above the atomizing sheet, the atomizing sheet is not influenced to atomize, and meanwhile, the water level adjusting device can accurately sense the change of the water level in the atomizing chamber, and further, the atomizing chamber is replenished with water circularly and continuously; through setting up the support that integrated into one piece has control box, stand and atomizing portion, improve processing and packaging efficiency to effectual atomizing chamber that will have the water environment is kept apart with anhydrous environment's control box, guarantees the safe normal use of humidifier.

In some of these embodiments, in order to realize the output of the atomized water fog of atomizing unit, still include air supply system, air supply system establish with in the control box, at least one of support be equipped with the wind channel on the stand, air supply system's air outlet butt joint the wind channel, evenly set up a plurality of vertical arrangements and intercommunication on the lateral wall in wind channel the mouth of blowing in of wind channel, wherein, the wind channel is used for with the wind that air supply system generated is followed the mouth of blowing blows in atomizing cavity to with atomizing unit atomized water fog blows out to outside the atomizing cavity.

According to the arrangement, the air supply system is arranged in the control box and is in butt joint with the air channel, so that the air supply system and the atomization unit are integrally arranged, and the humidifier is convenient to process and assemble; meanwhile, the air duct is arranged on the upright post, so that the air duct is ingeniously isolated from the atomizing chamber, and the water mist at the upper section is prevented from being brought back to the bottom of the atomizing chamber; the air blown out through the air blowing openings arranged vertically helps to blow the water mist generated by the atomizing unit upwards and send the water mist out, the air blowing openings are arranged more, the water mist blowing efficiency is improved, and the water mist condensation is reduced.

In some embodiments, to improve the air supply effect, the air duct is a spiral air duct, and/or the air blowing ports are disposed on two side walls of the upright post in the axial direction of the floating lever, and the air blowing ports are air blowing ports that are obliquely disposed from the top end of the air duct toward the bottom end of the air duct, and the inclination angle of the air blowing ports is 45-60 °.

According to the arrangement, the spiral air channel is adopted, the air speed of the air channel is increased through spiral pressurization, so that atomized water mist is blown out, and water mist aggregation and condensation in the atomization cavity are reduced; the air blowing ports are arranged on the two side walls of the corresponding upright posts, and the two side walls are positioned in the axial direction of the floating lever, so that when air generated by the air supply system is obliquely blown into the atomizing chamber, the air is not directly blown to the generated water mist, and the air is reduced from blowing the water mist downwards; meanwhile, the air blowing port is obliquely arranged, so that air is blown into the atomization chamber in a jet flow mode, the air speed of the air is improved, the air is blown towards the bottom and is vertically blown upwards after being reflected, and therefore the water mist is driven to be blown out of the atomization chamber upwards, and the water mist blowing effect is improved.

In some embodiments, in order to construct the air supply system, the air supply system further includes a wind wheel bin, a wind wheel and a wind wheel drive, wherein the wind wheel bin protrudes inward from the bottom of the control box into the atomization chamber and is connected with the corresponding upright post, the air outlet is formed in a position where the wind wheel bin is connected with the corresponding upright post, the wind wheel drive is formed in one side of the wind wheel bin far away from the atomization chamber and is in transmission connection with the wind wheel arranged in the wind wheel bin, and the wind wheel is used for generating wind blowing into the air duct along the air outlet through the rotation of the wind wheel drive.

According to the arrangement, the wind wheel bin is arranged to protrude from the bottom of the control box to the atomization chamber, and is connected with the corresponding upright post, so that the air supply system and the atomization unit can be assembled together by adopting an integrally formed support; meanwhile, the transmission wind wheel is driven to rotate by the wind wheel, so that wind is generated and blown into the atomization chamber, and generated water mist is blown out.

In some embodiments, in order to realize control over the humidifier, a control panel is further fixedly installed in the control box, and the control panel is in driving electric connection with the wind wheel, wherein the control panel is at least used for controlling the wind wheel to drive and work.

In some of these embodiments, for realizing fog, the top of box with the control box with be equipped with control box lid and tank lid on the position that the water tank corresponds respectively, the control box is close to be equipped with out the fog passageway on the lateral wall of tank lid, it communicates to go out the fog passageway the atomizing cavity, the control box lid with be equipped with the spout on the position that goes out the fog passageway and correspond, the tank lid with be equipped with on the position that goes out the fog passageway and extend to the intake duct on the top of tank lid.

According to the arrangement, the mist outlet channel is formed on the outer side wall of the control box in a concave mode, so that the control box can be integrally formed, the air channel is isolated from the mist outlet channel, and normal mist outlet is guaranteed; meanwhile, the water tank cover is provided with an air inlet channel, so that the water inlet abnormality caused by the fact that the water tank is closed is avoided.

In some embodiments, in order to supply power to the control board, the power supply device further comprises a power supply interface, wherein the power supply interface penetrates through the side walls of the box body and the control box and extends into the control box, and the power supply interface is further electrically connected with the control board.

Drawings

Fig. 1 is a perspective view of a humidifier according to an embodiment of the present application;

fig. 2 is an exploded view of a humidifier according to an embodiment of the present application;

FIG. 3 is a partial cross-sectional view of a humidifier according to an embodiment of the present application;

fig. 4 is another partial cross-sectional view of a humidifier according to an embodiment of the present application;

FIG. 5 is a further partial cross-sectional view of a humidifier according to an embodiment of the present application;

fig. 6 is a structural view illustrating an open state of a water outlet hole of a humidifier according to an embodiment of the present application;

fig. 7 is a half sectional view of a humidifier according to an embodiment of the present application.

Reference numerals

1. A box body;

2. a water tank;

3. an atomizing chamber;

4. a communicating vessel 41, a water outlet hole 42, a communicating hole 43 and a hollow cavity;

5. the device comprises an atomizing unit 51, a support 52, an atomizing sheet 53, a sealing plate 511, a control box 512, a column 513, an atomizing part 514, an accommodating cavity 515, an air duct 516, an air blowing port 517 and a mist outlet channel;

6. the water level control device comprises a water level adjusting device 61, a floating ball 62, a floating lever 63, a water level control plug 64 and a rotating shaft;

7. the wind power generation system comprises a wind supply system 71, a wind wheel bin 72, a wind wheel 73, a wind wheel driver 701 and an air outlet;

8. a sealing plug;

9. a control panel;

10. a control box cover 101 and a nozzle;

11. a tank cover 111, an air inlet;

12. and a power interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly mounted on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

Fig. 1 is a perspective view of a humidifier according to an embodiment of the present application, fig. 2 is an exploded view of the humidifier according to the embodiment of the present application, fig. 3 is a partial sectional view of the humidifier according to the embodiment of the present application, fig. 4 is another partial sectional view of the humidifier according to the embodiment of the present application, fig. 5 is still another partial sectional view of the humidifier according to the embodiment of the present application, fig. 6 is a structural view of a humidifier according to an embodiment of the present application in a state where a water outlet hole is opened, and fig. 7 is a half sectional view of the humidifier according to the embodiment of the present application, the integrated humidifier shown in the figure is applied to air purification and humidification of an indoor environment, solves the problems that in the related art, an air humidifier water tank is prone to water leakage and water sprinkling, the atomization effect is poor, the use is unsafe, and achieves the beneficial effects of circulating water inflow and water supplement, improvement of the atomization effect, safety in use of the humidifier and convenience in assembly.

Referring to fig. 1 to 7, an integrated humidifier according to an embodiment of the present application includes: box 1, integrated into one piece has water tank 2 and atomizing chamber 3 in the cavity of box 1, water tank 2 and atomizing chamber 3 communicate through linker 4, linker 4 is equipped with the apopore 41 that supplies the water in linker 4 to inject atomizing chamber 3, still be equipped with atomizing unit 5 and water level regulating device 6 in the atomizing chamber 3, wherein, atomizing unit 5 is used for atomizing the water in atomizing chamber 3, water level regulating device 6 includes floater 61, lever 62 and water level control stopper 63 float, lever 62 and atomizing unit 5 activity hinge joint float, the one end of lever 62 floats is located to water level control stopper 63, and be used for sealed or open apopore 41, the other end of lever 62 floats is located to floater 61, floater 61 can go up and down based on the water level in the atomizing chamber 3, it corresponds sealed or open apopore 41 to drive water level control stopper 63.

In the integrated humidifier, the water tank 2 and the atomization chamber 3 are ingeniously separated by forming the water tank 2 and the atomization chamber 3 in one step in the cavity of the box body 1, so that the integration level of the humidifier is improved, the functional modules of the separated cavities are distinguished, the humidifier is ensured to be in an integrated structural design, the center of gravity of the humidifier is positioned at the lower part, and the humidifier is ensured not to be easily knocked over; through adopting water level adjusting device 6 based on lever and buoyancy principle, water level control is exquisite, is difficult for leaking, promotes the atomization effect of humidifier.

It should be noted that, in the embodiment of the present application, water in the water tank 2 is conveyed into the atomizing chamber 3 through the water level adjusting device 6 and the communicating vessel 4, and after the water in the atomizing chamber 3 reaches a certain height, the water level adjusting device 6 blocks the communicating vessel 4 under the action of buoyancy to prevent water from entering the atomizing chamber 3 again; meanwhile, through the lever principle, the floating ball 61 and the water level control plug 63 are respectively arranged at the two axial ends of the floating lever 62, when no water exists in the atomizing chamber 3, the gravity of the floating ball 61 is greater than that of the water level control plug 63, according to the lever principle, one end of the water level control plug 63 is lifted, the water outlet hole 41 is in an open state (refer to fig. 6), water is injected into the water tank 2, the water enters the atomizing chamber 4 through the communicating vessel 4, the floating ball 61 floats under the action of the buoyancy of the water along with the rise of the water level in the atomizing chamber 4, the water level control plug 63 presses the other end of the floating lever 63 under the action of the gravity, when the floating ball 61 floats to a certain height and is balanced due to the fact that the forces on the two sides are balanced, in reality, when the water level in the atomizing chamber 3 rises to 5cm with the best atomizing effect, the floating ball 61 and the water level control plug 63 are just in a horizontal state, the water level control plug 63 plugs the water outlet hole on the communicating vessel 4 (refer to fig. 3-5 and fig. 7), the water does not flow into the atomizing chamber 3 any more, at the moment, the atomizing unit 5 atomizes the water in the atomizing chamber 3, so that the water in the atomizing chamber 3 can be always supplied to a humidifier device, and the problem of sensing failure caused by scale adsorption due to overlong use time of a sensor when the traditional humidifier uses the sensor to detect the water level is solved; when the water level in the atomizing chamber 3 continuously drops, the floating ball 61 drives the water level control plug 63 to be away from the water outlet hole 20 through the floating lever 62, so that the water level control plug 63 is opened (refer to fig. 6), and therefore continuous water feeding, supplementing and atomizing are achieved.

It should be noted that, in order to improve the sealing performance of the water level control plug 63 when the water outlet hole 41 is blocked, in some alternative embodiments, a sealing ring (not shown in the drawings) is further sleeved on a portion of the water level control plug 63 that is inserted into the water outlet hole 41, for example: silica gel sealing washer, flexible glue sealing washer.

It needs to be further explained that the integrated humidifier of the embodiment of the application is simple to operate, compact in structure, reasonable in design, capable of realizing ultra-long time atomization by utilizing the design in a space maximization mode and 6L of ultra-large capacity, integrated in structure design, capable of being distinguished by the functional modules of the sub-cavities, attractive and elegant, capable of avoiding water overflow or overflow risks, capable of ensuring integration, and capable of ensuring that the gravity center is at the lower end and not easy to knock over; the water tank and the atomization chamber are skillfully separated by using a simple lever principle and a buoyancy principle, and the atomization effect is ensured to be optimal; the humidifier provided by the embodiment of the application is convenient to disassemble and assemble, and can be maintained and cleaned in time; the integrated die is formed, the cost is low, and the manufacturability is good.

It should be further noted that the humidifier case 1 according to the embodiment of the present invention includes, but is not limited to, a square, a circle, and other shapes.

In order to communicate the water tank 2 with the communicating vessel 4, in some embodiments, the communicating vessel 4 is further provided with a through hole 42, wherein the through hole 42 is used for communicating the water tank 2 with the communicating vessel 4, so that the water in the water tank 2 is injected into the communicating vessel 4.

It can be understood that, with such an arrangement, the through hole 42 is set to be a normally open hole, which ensures that the water tank continuously supplies water to the communicating vessel 4, and when the water outlet hole 41 is opened, the water is quickly injected into the atomizing chamber 3, thereby ensuring the atomizing effect.

It should be noted that, in this embodiment, in order to ensure that the atomizing chamber 3 is filled with water smoothly, the water outlet 41 is disposed to have a large aperture on one side close to the atomizing chamber 3 and a small aperture on one side far away from the atomizing chamber 3, so as to ensure that the water is filled into the atomizing chamber 3 smoothly from the communicating vessel 4.

In order to ensure the purity of the water injected into the communicating vessel 4, thereby reducing the risk of blocking the communicating vessel 4, in some embodiments, the communicating vessel 4 is provided with a hollow cavity 43, the water outlet hole 41 is communicated with the hollow cavity 43 and the atomizing cavity 3, the through hole 42 is communicated with the hollow cavity 43 and the water tank 2, the hollow cavity 43 is provided with a filter and a sealing plug 8 in sequence from top to bottom, wherein the sealing plug 8 is screwed with the hollow cavity 43 and is used for sealing the hollow cavity 43, and the filter is used for filtering the water injected into the hollow cavity 43.

It will be appreciated that the arrangement is such that the water injected into the communicating vessel 4 from the tank 2 is filtered by the filter, ensuring the purity of the water in the communicating vessel 4 and reducing the risk of the communicating vessel 4 becoming blocked; meanwhile, the sealing plug 8 is in threaded connection with the hollow cavity 43, the hollow cavity 43 can be opened or sealed movably, the filter can be replaced and the communicating vessel 4 can be cleaned conveniently, smoothness of the communicating vessel 4 is guaranteed, blocking risks are reduced, and the service life of the humidifier is prolonged.

In order to construct the atomizing unit 5, the atomizing unit 5 can atomize water and facilitate replacement of the atomizing sheet 52, in some embodiments, the atomizing unit 5 includes a support 51, the atomizing sheet 52 and a sealing plate 53, the support 51 is embedded in the atomizing chamber 3, the support 51 includes an integrally formed control box 511, two vertically extending pillars 512 and an atomizing part 513 disposed at one end of the two pillars 512 far away from the control box 511, a floating lever 62 is disposed between the two pillars 512 and connected to the two pillars 512 through a rotating shaft 64, a through accommodating cavity 514 is disposed on the atomizing part 513, the atomizing sheet 52 is disposed in the accommodating cavity 514, the sealing plate 53 is fixedly disposed at the bottom of the accommodating cavity 514 and seals the accommodating cavity 514, wherein the atomizing sheet 52 is used for atomizing water flowing into the accommodating cavity 514, and the accommodating cavity 514 has an inner diameter gradually increasing from top to bottom.

It can be understood that, with such an arrangement, by arranging the atomizing part 513 on which the atomizing sheet 52 is placed at the lower end of the central axis of the bracket 51 and performing movable sealing installation through the sealing plate 53, the atomizing unit 5 can be moved integrally, and the atomizing sheet 52 is convenient to replace; the accommodating cavity 514 is small at the top and large at the bottom, so that the atomizing sheet 52 can be conveniently taken, put and fixed; the bracket 51 is utilized to install the floating lever 62, so that the water level adjusting device 6 is arranged right above the atomizing sheet 52, the atomizing sheet 52 is not influenced to atomize, and meanwhile, the water level adjusting device 6 can accurately sense the change of the water level in the atomizing chamber 3, and further, the atomizing chamber is replenished with water circularly and continuously; the bracket 51 with the control box 511, the upright column 512 and the atomizing part 513 integrally formed is arranged, so that the processing and assembling efficiency is improved, the atomizing chamber 3 with the water environment is effectively isolated from the control box 511 in the anhydrous environment, and the safe and normal use of the humidifier is ensured.

In order to output the water mist atomized by the atomizing unit 5, in some embodiments, the integrated humidifier further includes an air supply system 7, the air supply system 7 is disposed in the control box 511, at least one upright column 512 of the support 51 is provided with an air duct 515, an air outlet 701 of the air supply system 7 is in butt joint with the air duct 515, a plurality of air blowing ports 516 vertically arranged and communicated with the air duct 515 are uniformly formed in a side wall of the air duct 515, wherein the air duct 515 is used for blowing the air generated by the air supply system 7 into the atomizing chamber 3 along the air blowing ports 516, and blowing the water mist atomized by the atomizing unit 5 out of the atomizing chamber 3.

It can be understood that, with such an arrangement, the air supply system 7 is arranged in the control box 511 and is in butt joint with the air duct 515, so that the air supply system 7 and the atomizing unit 5 are integrally arranged, and the humidifier is convenient to process and assemble; meanwhile, the air duct 515 is arranged on the upright column 512, so that the air duct 515 is ingeniously isolated from the atomizing chamber 3, and the water mist at the upper section is prevented from being brought back to the bottom of the atomizing chamber 3; the air blown out through the air blowing ports 516 arranged vertically helps to blow the water mist generated by the atomizing unit 5 upwards and send the water mist out, and the multiple air blowing ports 516 are arranged, so that the water mist blowing efficiency is improved, and the water mist condensation is reduced.

In the present embodiment, in order to satisfy the electrical control of the atomizing plate 52, for example; the atomizing plate 52 vibrates to atomize the water, and one of the two posts 512 also serves as a corresponding threading conduit.

In some embodiments, to improve the air supply effect, the air duct 515 is a spiral air duct; in an alternative embodiment of the present application, to further achieve the effect of improving the air supply, air blowing ports 516 are disposed on two side walls of the upright column 512 in the axial direction of the floating lever 62, and the air blowing ports 516 are air blowing ports disposed obliquely from the top end of the air duct 515 toward the bottom end of the air duct 515, and the inclination angle of the air blowing ports 516 is 45 ° to 60 °.

In the embodiment, the spiral air channel is designed to generate turbine spinning, so that the atomizer can meet the corresponding three-dimensional dynamic design, and the atomization effect is optimal; the spiral air duct is adopted, and the air speed in the air duct 515 is increased through spiral pressurization, so that atomized water mist is blown out, and the water mist aggregation and condensation in the atomization chamber 3 are reduced. Meanwhile, by arranging the air blowing ports 516 on two side walls of the corresponding upright column 512, and the two side walls are located in the axial direction of the floating lever 62, when the air generated by the air supply system 7 is obliquely blown into the atomizing chamber 3, the air is not directly blown to the generated water mist, and the air blowing of the water mist downwards is reduced; meanwhile, the air blowing port 516 is obliquely arranged, the air flow speed can be reduced by the air blowing port horizontally arranged, air is blown into the atomizing chamber 3 in a jet mode, the air speed of the air is improved, the air is blown towards the bottom and is vertically blown upwards after being reflected, so that the water mist is driven to be upwards blown out of the atomizing chamber, and the water mist blowing effect is improved.

In order to construct the air supply system, in some embodiments, the air supply system 7 further includes a wind wheel bin 71, a wind wheel 72 and a wind wheel drive 73, wherein the wind wheel bin 71 protrudes from the bottom of the control box 511 into the atomizing chamber 3 to be connected with the corresponding upright column 512, the air outlet 701 is disposed at a position where the wind wheel bin 71 is connected with the corresponding upright column 512, the wind wheel drive 73 is disposed at a side of the wind wheel bin 71 away from the atomizing chamber 3 and is in transmission connection with the wind wheel 72 disposed at the wind wheel bin 71, and the wind wheel 72 is configured to be driven to rotate by the wind wheel drive 73 to generate wind blowing into the air duct 515 along the air outlet 701.

It can be understood that, with such an arrangement, the wind wheel bin 71 is arranged to protrude from the bottom of the control box 511 to the atomizing chamber 3, and the wind wheel bin 71 is connected with the corresponding upright column 512, so that the air supply system 7 and the atomizing unit 5 can be assembled together by using the integrally-formed bracket 51; meanwhile, the wind wheel 72 is driven to rotate by the wind wheel drive 73, so that wind is generated and blown into the atomizing chamber 3, and the generated water mist is blown out.

In some of these alternative embodiments, wind wheel drive 73 includes, but is not limited to, an electric motor.

In some embodiments, in order to control the humidifier, a control board 9 is further fixedly installed in the control box 511, and the control board 9 is electrically connected to the wind wheel driver 73, wherein the control board 9 is at least used for controlling the wind wheel driver 73 to operate.

In some embodiments, in order to realize mist generation, a control box cover 10 and a water tank cover 11 are respectively arranged at the top of the box body 1 and at positions corresponding to the control box 511 and the water tank 2, a mist generation channel 517 is arranged on the side wall of the control box 511 close to the water tank cover 11, the mist generation channel 517 is communicated with the atomizing chamber 3, a nozzle 101 is arranged at a position of the control box cover 10 corresponding to the mist generation channel 517, and an air inlet channel 111 extending to the top end of the water tank cover 11 is arranged at a position of the water tank cover 11 corresponding to the mist generation channel 517.

With the arrangement, the mist channel 517 is recessed on the outer side wall of the control box 511, so that the control box can be integrally formed, and the air channel 515 is isolated from the mist outlet channel 517, so that normal mist outlet is ensured; meanwhile, the air inlet channel 111 is arranged on the water tank cover 11, so that the water tank 2 is prevented from being closed to cause abnormal water inlet.

In some of the embodiments, in order to supply power to the control board 9, a power interface 12 is further included, the power interface 12 penetrates through the side walls of the box body 1 and the control box 511 and extends into the control box 511, and the power interface 12 is further electrically connected with the control board 9.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that suitable changes and modifications of the above embodiments are within the scope of the claimed invention as long as they are within the spirit and scope of the present invention.

Claims (10)

1. An integrated humidifier, comprising: the water atomization device comprises a box body (1), a water tank (2) and an atomization chamber (3) are integrally formed in a cavity of the box body (1), the water tank (2) and the atomization chamber (3) are communicated through a communicating vessel (4), the communicating vessel (4) is provided with a water supply for injecting water in the communicating vessel (4) into a water outlet hole (41) of the atomization chamber (3), an atomization unit (5) and a water level adjusting device (6) are further arranged in the atomization chamber (3), the atomization unit (5) is used for atomizing the water in the atomization chamber (3), the water level adjusting device (6) comprises a floating ball (61), a floating lever (62) and a water level control plug (63), the floating lever (62) is movably hinged with the atomization unit (5), the water level control plug (63) is arranged at one end of the floating lever (62) and is used for sealing or opening the water outlet hole (41), the floating ball (61) is arranged at the other end of the floating lever (62), and the floating ball (61) can lift based on the water level in the atomizing chamber (3) to drive the water level control plug (63) to correspondingly seal or open the water outlet hole (41).

2. The integrated humidifier according to claim 1, wherein the communicating vessel (4) is further provided with a through hole (42), wherein the through hole (42) is used for communicating the water tank (2) and the communicating vessel (4) so that water in the water tank (2) can be injected into the communicating vessel (4).

3. The integrated humidifier according to claim 2, wherein the communicating vessel (4) is provided with a hollow cavity (43), the water outlet hole (41) communicates the hollow cavity (43) and the atomizing chamber (3), the through hole (42) communicates the hollow cavity (43) and the water tank (2), a filter and a sealing plug (8) are sequentially arranged in the hollow cavity (43) from top to bottom, wherein the sealing plug (8) is screwed with the hollow cavity (43) and is used for sealing the hollow cavity (43), and the filter is used for filtering water injected into the hollow cavity (43).

4. The integrated humidifier according to claim 1, wherein the atomizing unit (5) comprises a support (51), an atomizing sheet (52) and a sealing plate (53), the support (51) is embedded in the atomizing chamber (3), the support (51) comprises an integrally formed control box (511), two vertically extending upright posts (512) and an atomizing part (513) arranged at one end of the two upright posts (512) far away from the control box (511), the floating lever (62) is arranged between the two upright posts (512) and connected with the two upright posts (512) through a rotating shaft (64), a through accommodating cavity (514) is arranged on the atomizing part (513), the atomizing sheet (52) is arranged in the accommodating cavity (514), the sealing plate (53) is fixedly arranged at the bottom of the accommodating cavity (514) and seals the accommodating cavity (514), the atomizing sheet (52) is used for atomizing water flowing into the accommodating cavity (514), and the inner diameter of the accommodating cavity (514) is gradually increased from top to bottom.

5. The integrated humidifier according to claim 4, further comprising an air supply system (7), wherein the air supply system (7) is disposed in the control box (511), at least one of the pillars (512) of the support (51) is provided with an air duct (515), an air outlet (701) of the air supply system (7) is abutted to the air duct (515), a plurality of air blowing ports (516) which are vertically arranged and communicated with the air duct (515) are uniformly formed in a side wall of the air duct (515), and the air duct (515) is configured to blow air generated by the air supply system (7) into the atomization chamber (3) along the air blowing ports (516) and blow out water mist atomized by the atomization unit (5) out of the atomization chamber (3).

6. The integrated humidifier according to claim 5, wherein the air duct (515) is a spiral air duct, and/or the air blowing port (516) is provided on two side walls of the upright post (512) in the axial direction of the floating lever (62), and the air blowing port (516) is an air blowing port inclined from the top end of the air duct (515) toward the bottom end of the air duct (515), and the inclination angle of the air blowing port (516) is 45-60 °.

7. Integrated humidifier according to claim 5, wherein the air supply system (7) further comprises a wind wheel bin (71), a wind wheel (72) and a wind wheel drive (73), wherein the wind wheel bin (71) extends inwards from the bottom of the control box (511) to the atomizing chamber (3) and is connected with the corresponding upright post (512), the air outlet (701) is arranged at the position where the wind wheel bin (71) is connected with the corresponding upright post (512), the wind wheel drive (73) is arranged on one side of the wind wheel bin (71) far away from the atomizing chamber (3), and is in transmission connection with the wind wheel (72) arranged on the wind wheel bin (71), the wind wheel (72) is used for being driven to rotate by the wind wheel drive (73) to generate wind blown into the wind channel (515) along the wind outlet (701).

8. The integrated humidifier according to claim 7, wherein a control board (9) is further fixedly installed in the control box (511), the control board (9) is electrically connected with the wind wheel driver (73), and the control board (9) is at least used for controlling the wind wheel driver (73) to work.

9. The integrated humidifier according to claim 8, wherein a control box cover (10) and a water tank cover (11) are respectively arranged at the positions, corresponding to the control box (511) and the water tank (2), of the top of the box body (1), the control box (511) is close to the side wall of the water tank cover (11) and is provided with a mist outlet channel (517), the mist outlet channel (517) is communicated with the atomizing chamber (3), the position, corresponding to the mist outlet channel (517), of the control box cover (10) is provided with a spout (101), and the position, corresponding to the mist outlet channel (517), of the water tank cover (11) is provided with an air inlet channel (111) extending to the top end of the water tank cover (11).

10. The integrated humidifier according to claim 8, further comprising a power interface (12), wherein the power interface (12) penetrates through the side walls of the case (1) and the control box (511) and extends into the control box (511), and the power interface (12) is further electrically connected with the control board (9).

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