CN113932343A

CN113932343A - Top water adding humidifier

Info

Publication number: CN113932343A
Application number: CN202111193793.XA
Authority: CN
Inventors: 危锋
Original assignee: Guangdong Miwa Technology Co ltd
Current assignee: Guangdong Miwa Technology Co ltd
Priority date: 2021-10-13
Filing date: 2021-10-13
Publication date: 2022-01-14

Abstract

The invention discloses a top-feeding water humidifier, which comprises a box body, a buoyancy lift valve and an atomization module, wherein a water storage cavity, a valve cavity and an atomization cavity are integrally formed in the box body, the valve cavity is communicated with the water storage cavity, a water injection valve port is formed at the separation part of the valve cavity and the atomization cavity, the buoyancy lift valve is arranged in the water injection valve port in a penetrating manner, and the atomization module is detachably assembled in the atomization cavity, wherein the atomization module is used for atomizing water in the atomization cavity and discharging fog; the buoyancy lifting valve is used for floating and lifting according to the water level in the atomization cavity, descending when the water level in the atomization cavity is lower than a preset water level to open the water injection valve port, floating in the water level lifting process in the atomization cavity, and plugging the water injection valve port when the water level in the atomization cavity rises to the preset water level. Through this application, the problem of air humidifier water tank easily leak among the correlation technique, watering and the water injection structure is easily lost efficacy is solved, realize that the circulation is intake the moisturizing, is improved atomization effect, humidifier safe in utilization and easy dismounting's beneficial effect.

Description

Top water adding humidifier

Technical Field

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

Background

In the air humidifier with the upper and lower two-piece structure in the related art, the design precision is not high, a break exists, and the water tank on 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, air humidifier among the correlation technique, the control structure of the atomizing structure of lower part is leaked into to the water in the control water tank is easy to lose efficacy, thereby very easily leads to the water level out of control to lead to water to spill out, and the water tank incrustation scale directly gets into atomizing device easily in to lead to atomizer life low or the effect is poor.

At present, no effective solution is provided aiming at the problems that the water tank of the air humidifier in the related art is easy to leak water, sprinkle water and the water injection structure is easy to lose efficacy.

Disclosure of Invention

In view of the above, there is a need to provide a water adding humidifier, which at least solves the problems of the related art that the water tank of the humidifier is prone to water leakage, water sprinkling and the water injection structure is prone to failure.

In order to realize the functions, the technical scheme adopted by the invention is as follows: the upper water adding humidifier comprises a box body, a buoyancy lifting valve and an atomization module, wherein a water storage cavity, a valve cavity and an atomization cavity are integrally formed in the box body, the valve cavity is communicated with the water storage cavity, a water injection valve port is formed at the position where the valve cavity is separated from the atomization cavity, the buoyancy lifting valve is arranged in the water injection valve port in a penetrating mode, and the atomization module is detachably assembled in the atomization cavity and is used for atomizing water in the atomization cavity and discharging fog; the floating valve is used for floating and lifting according to the water level in the atomization cavity, descending when the water level in the atomization cavity is lower than a preset water level so as to open the water injection valve port, floating in the water level rising process in the atomization cavity, and plugging the water injection valve port when the water level in the atomization cavity rises to the preset water level.

In the upper water adding humidifier, the buoyancy lift valve is movably arranged in the water injection valve port communicated with the valve cavity and the atomization cavity, and the buoyancy lift valve is driven to lift through the water level in the atomization cavity, so that the humidifier can continuously supplement water circularly, the water shortage of the humidifier caused by the failure of a water injection structure is avoided, and the humidifier can safely and stably operate; the water storage cavity is separated from the atomization cavity by integrally forming the box body of the water storage cavity, the valve cavity and the atomization cavity, water is injected into the water storage cavity in an upper water adding mode, after water is injected, the gravity center of the humidifier is maintained at the lower part of the humidifier and is not easy to touch, and the use is safe; the humidifier is formed by integrally forming the box body and assembling the modularized atomization module and the box body, so that the humidifier is convenient to disassemble and assemble, and the processing efficiency is high; meanwhile, the problems that in the related technology, a water tank of the air humidifier is prone to water leakage, water sprinkling and a water injection structure is prone to failure are solved, and the beneficial effects that water is circularly fed and supplemented, the atomization effect is improved, and the humidifier is safe to use and convenient to disassemble and assemble are achieved.

In some embodiments, to open and close the water filling valve port, the float-lift valve includes a first float, a first valve body, and a first valve plug, which are integrally formed and sequentially disposed from top to bottom, the first float is located in the atomization cavity, the first valve plug is located in the valve cavity, the first valve body is movably embedded in the water filling valve port, and the first valve body and the water filling valve port are in clearance fit, wherein when the water level in the atomization cavity is lower than the preset water level, the first valve body drives the first float and the first valve plug to fall toward the valve cavity, and a clearance between the water filling valve port and the outer side wall of the first valve body forms a flow channel through which the valve cavity supplies water to the atomization cavity; when the water level in the atomization cavity is at the preset water level, the first valve plug is in a position for plugging the water injection valve port.

According to the arrangement, the first valve body and the water injection valve port are in clearance fit, when the water level in the atomization cavity is lower than the preset water level, the buoyancy lift valve falls off, the first valve plug leaves relative to the water injection valve port, the valve cavity is communicated with the atomization cavity through the water supply flow channel corresponding to the clearance between the water injection valve port and the outer side wall of the first valve body, and water is injected along the corresponding flow channel; when the water level in the atomizing chamber is at the preset water level, the buoyancy lift valve rises to the position where the water injection valve port is blocked by the first valve plug, so that the atomizing chamber is continuously replenished with water according to the opening and closing of the water injection valve port controlled by the water level in the atomizing chamber, the atomizing chamber is ensured not to be lack of water, the atomizing effect is ensured, and the safe use of the humidifier is ensured.

In some embodiments, in order to open and close the water filling valve port and replenish water to the atomizing cavity, the float-lift valve includes a second float, a second valve body and a second valve plug, which are integrally formed and sequentially disposed from top to bottom, the second valve body is further provided with a water flow channel extending axially and penetrating radially, the second float is located in the atomizing cavity, the second valve plug is located in the valve cavity, the second valve body and the water filling valve port are in gapless sliding fit, when the water level in the atomizing cavity is lower than the preset water level, the second valve body drives the second float and the second valve plug to fall towards the valve cavity, the water flow channel is respectively communicated with the valve cavity and the atomizing cavity, and the water flow channel constitutes a flow channel for supplying water to the atomizing cavity; when the water level in the atomization cavity is at the preset water level, the buoyancy lift valve floats to the water flow channel and is disconnected with the valve cavity, and the second valve body and/or the second valve plug the water injection valve port.

According to the arrangement, the second valve body and the water injection valve port are in gapless sliding fit, the water flow channel is arranged on the second valve body, when the water level in the atomization cavity is lower than a preset water level, the buoyancy lift valve falls off, the second valve plug leaves relative to the water injection valve port, the valve cavity is communicated with the atomization cavity through the water flow channel, and water is injected along the water flow channel; when the water level in the atomizing chamber is at the preset water level, the buoyancy lift valve rises to a position where the water flow channel is disconnected with the valve chamber, so that the water is continuously supplied to the atomizing chamber by controlling the opening and closing of the water injection valve port according to the water level in the atomizing chamber, the atomizing chamber is ensured not to lack water, the atomizing effect is ensured, and the safe use of the humidifier is ensured.

In some of these embodiments, in order to achieve improved sealing when closing the water filling valve port, the water filling valve port comprises an inverted cone shaped valve port and the second valve plug comprises a cone shaped valve plug cooperating with the water filling valve port.

In order to input water in the water storage cavity into the valve cavity, ensure the purity of the water injected into the valve cavity and reduce the risk of blockage of the water injection valve port and the valve cavity, a water inlet is further formed in the position where the valve cavity is separated from the water storage cavity, the valve cavity is communicated with the water storage cavity through the water inlet, a filter and a sealing plug are sequentially arranged in the valve cavity from top to bottom, the sealing plug is in threaded connection with the valve cavity and used for sealing the valve cavity, and the filter is used for filtering the water flowing into the valve cavity.

By the arrangement, water injected into the valve cavity from the water storage cavity is filtered through the filter, so that the purity of the water in the valve cavity is ensured, and the risk that the valve cavity and the water injection valve port are blocked is reduced; meanwhile, the valve cavity can be movably opened or sealed through the screw connection of the sealing plug and the valve cavity, so that the filter can be conveniently replaced and cleaned, the smoothness of the valve cavity is ensured, the blocking risk is reduced, and the service life of the humidifier is prolonged.

In some embodiments, in order to realize mist generation and water mist blowing, the atomizing module comprises an atomizer, an atomizing support, an air blowing system and a control box, the atomizing support is provided with an installation part and an air duct, the atomizer is arranged on the installation part, the air blowing system is fixedly arranged at one end of the atomizing support, which is far away from the installation part, an air outlet of the air blowing system is in butt joint with the air duct, the air duct is communicated with the atomizing cavity, the control box is arranged at one end of the air blowing system, which is far away from the end connected with the atomizing support, the control box is closed and sealed with the atomizing cavity, and the control box is further provided with a mist outlet channel which is communicated with the atomizing cavity and the mist outlet, wherein the atomizer is used for atomizing the water injected into the atomizing cavity into the water mist; the blowing system is used for generating wind, blowing the wind into the atomizing cavity along the wind channel and blowing out the water mist generated by the atomizer along the mist outlet channel.

So set up, the installation department setting through laying the atomizer is in the bottom of atomizing support to integrated wind channel on atomizing support, set firmly blast system and set firmly the control box on blast system, the realization is with the atomizing component's of humidifier modularization, makes whole atomizing module can quick detachable carry out the dismouting with the box, improves machining efficiency.

In some embodiments, in order to facilitate replacement of the atomizer, the mounting portion is provided with a through accommodating cavity, the atomizer is arranged in the accommodating cavity, the bottom of the accommodating cavity is further provided with a sealing plate hermetically connected with the accommodating cavity, and the accommodating cavity is an accommodating cavity with an inner diameter gradually increasing from top to bottom.

According to the arrangement, the atomizer is movably and hermetically mounted to the accommodating cavity through the sealing plate, the atomizer can be quickly replaced, and the atomizer and the atomizing support form a whole body, so that the modularized treatment of humidifier parts is facilitated; the containing cavity is arranged to be small at the top and big at the bottom, so that the atomizer can be conveniently taken, put and fixed.

In some embodiments, to construct the blowing system, the blowing system includes a wind bin, a fan impeller disposed in the wind bin, and a fan in transmission connection with the fan impeller, the wind bin is fixedly connected to the atomizing support, and the air outlet is disposed at the bottom of the inner cavity of the wind bin, wherein the fan is configured to drive the fan impeller to rotate in the wind bin, generate air, and blow the air into the atomizing cavity along the air outlet and the air channel.

The air bin is arranged to be integrally connected with the atomizing support, so that the air blowing system and the atomizing part can be assembled together by adopting an integrally formed integral framework; meanwhile, the fan impeller is driven to rotate by the fan, so that wind is generated and blown into the atomization cavity, and generated water mist is blown out.

In some of these embodiments, for the realization to the control of humidifier and can blow off water smoke, still fixed mounting has the control panel in the control box, the control panel with the fan with the atomizer electricity is connected, the top of control box is still the movable cover and has been closed the control lid, the box top the side of control lid still be equipped with box sliding connection's tank lid, the tank lid can horizontal sliding open or be closed, corresponds the opening and closing the water storage chamber, it certainly to go out the fog passageway the atomizing chamber orientation the water storage chamber extends, it is located to go out the fog mouth on the position setting the water tank is covered, it still is equipped with the aerial fog nozzle to go out the fog mouth play.

So set up, through the sealed atomizing chamber of control box, so can make the humidifier accomplish the assembly according to modular assembly, through set up out the fog passageway on the control box, when the control box that can integrated into one piece correspond, also shaping goes out the fog passageway, when forming the atomizing chamber, also satisfies out the fog requirement.

In some embodiments, in order to supply power to the humidifier and the control board and isolate the power supply, the humidifier further comprises a power interface, the power interface penetrates through the side walls of the atomizing chamber and the control box and extends into the control box, and the power 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 employing a float valve without a water flow path according to an embodiment of the present application;

FIG. 4 is a structural view of a humidifier employing a float valve without a water flow path in a state where a water filling valve port is opened according to an embodiment of the present application;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

FIG. 6 is a partial cross-sectional view of a humidifier employing a float valve having a water flow passage according to an embodiment of the present application;

FIG. 7 is a structural view of a humidifier employing a float valve with a water flow path in a water fill valve port open state according to an embodiment of the present application;

fig. 8 is an enlarged schematic view of a portion B in fig. 7;

fig. 9 is a half sectional view of a humidifier according to an embodiment of the present application.

Reference numerals

1. The device comprises a box body, 101, a water storage cavity, 102, a valve cavity, 103, an atomization cavity, 104, a water injection valve port, 105, a water inlet, 106 and a mist outlet;

2. the water flow control valve comprises a buoyancy valve 21, a first floater 22, a first valve body 23, a first valve plug 24, a second floater 25, a second valve body 26, a second valve plug 251 and a water flow channel;

3. the atomizing device comprises an atomizing module 31, an atomizer 32, an atomizing support 33, a blowing system 34, a control box 35, a sealing plate 321, a mounting part 322, an air duct 323, a containing cavity 331, an air bin 332, a fan impeller 333, a fan 341, a mist outlet channel 342 and a control box cover;

4. a sealing plug;

5. a control panel;

6. a water tank cover;

7. an aerosol nozzle;

8. 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 using a float valve having no water flow passage, fig. 4 is a structural view of the humidifier according to the embodiment of the present application using a float valve having no water flow passage in a state where a water filling valve port is opened, fig. 5 is an enlarged schematic view of a portion a of fig. 4, fig. 6 is a partial sectional view of the humidifier according to the embodiment of the present application using a float valve having a water flow passage, fig. 7 is a structural view of the humidifier according to the embodiment of the present application in a state where the water filling valve port is opened, fig. 8 is an enlarged schematic view of a portion B of fig. 7, and fig. 9 is a half sectional view of the humidifier according to the embodiment of the present application, the upper water adding humidifier shown in the figure is applied to air purification and humidification of an indoor environment, solves the problems that a water tank of a humidifier in the related art is easy to leak water, a water spraying structure is easy to lose efficacy, an atomization effect is poor, and the use is unsafe, realizes circulating water inlet and water supplement, improves the atomization effect, avoids water shortage of the humidifier caused by failure of the water injection structure, and has the beneficial effect that the humidifier can safely and stably operate.

Referring to fig. 1 to 9, an upper water adding humidifier according to an embodiment of the present application includes: the atomizing device comprises a box body 1, a buoyancy lift valve 2 and an atomizing module 3, wherein the box body 1 is integrally formed with a water storage cavity 101, a valve cavity 102 and an atomizing cavity 103, the valve cavity 102 is communicated with the water storage cavity 101, a water injection valve port 104 is arranged at the separation part of the valve cavity 102 and the atomizing cavity 103, the buoyancy lift valve 2 is arranged in the water injection valve port 104 in a penetrating way, the atomizing module 3 is detachably assembled in the atomizing cavity 103,

and the atomization module 3 is used for atomizing water in the atomization cavity 103 and discharging fog.

In the embodiment, the atomization part adopts a modular design, so that the atomization part is conveniently and quickly assembled with the box body 1 to complete the complete humidifier.

The floating valve 2 is used for floating and lifting according to the water level in the atomization cavity 103, descending when the water level in the atomization cavity 103 is lower than a preset water level to open the water injection valve port 104, floating in the water level rising process in the atomization cavity 103, and blocking the water injection valve port 104 when the water level in the atomization cavity 103 rises to the preset water level.

In this embodiment, when the water injected into the atomizing chamber 103 is at the preset water level, the buoyancy generated when the buoyant lift valve 2 floats in the water in the atomizing chamber 103 is greater than its own gravity, and the generated buoyancy at least enables the buoyant lift valve 2 to vertically rise to block the water filling valve port (104), and when the water level in the atomizing chamber 103 is lower than the preset water level, at this time, the gravity of the buoyant lift valve 2 itself is greater than the buoyancy provided by the water in the atomizing chamber 103, and the buoyant lift valve 2 falls to the corresponding gravity and corresponds to the buoyancy, and meanwhile, those skilled in the art need understand that it can be necessarily understood that, for the buoyant lift valve 2, in this embodiment, the distance that the buoyant lift valve 2 can be driven to move by increasing the buoyancy generated by the water of unit volume also meets the design requirement of the set buoyant lift stroke change.

According to the upper water adding humidifier provided by the embodiment of the application, the floating valve 2 is movably arranged in the water injection valve port 104 communicated with the valve cavity 102 and the atomization cavity 103, and the floating valve 2 is driven to lift up and down through the water level in the atomization cavity 103, so that the humidifier can be continuously supplemented with water circularly, the water shortage of the humidifier caused by the failure of a water injection structure is avoided, and the humidifier can be safely and stably operated; the water storage cavity 101 is separated from the atomization cavity 103 through the box body 1 of the water storage cavity 101, the valve cavity 102 and the atomization cavity 103 which are integrally formed, water is injected into the water storage cavity 101 in an upper water adding mode, after water is injected, the gravity center of the humidifier is kept at the lower part of the humidifier, and the humidifier is not easy to touch and is safe to use; the humidifier is formed by integrally forming the box body 1 and assembling the modularized atomizing module 3 and the box body 1, so that the humidifier is convenient to disassemble and assemble, and the processing efficiency is high; meanwhile, the humidifier provided by the embodiment of the application also solves the problems that a water tank of the humidifier in the related technology is easy to leak water, and a water spraying and water injection structure is easy to lose efficacy, and has the beneficial effects of circulating water inflow and water supplement, improvement of an atomization effect, safety in use of the humidifier and convenience in disassembly and assembly.

It should be noted that, in the embodiment of the present application, the water injection valve port is opened or closed by the water level-based buoyancy adjustment of the buoyancy valve 2, so that the water in the water storage cavity 101 is delivered into the atomization cavity 103, and after the water in the atomization cavity 103 reaches a certain height, the buoyancy valve 2 plugs the water injection valve port 104 under the action of buoyancy to prevent the water flow from continuously entering the atomization cavity 103; meanwhile, by utilizing the principle of buoyancy, when no water exists in the atomization cavity 103, the buoyancy lift valve 2 falls downward under the action of gravity, the water injection valve port 101 is in an open state (refer to fig. 4 and 6), water is injected into the water storage cavity 101, the water flows into the atomization cavity 103 along the valve cavity 102 and the water injection valve port 104, the buoyancy lift valve 2 floats upward under the action of the buoyancy of the water along with the gradual rise of the water level in the atomization cavity 103, when the buoyancy lift valve 2 floats to a height corresponding to a preset water level, the buoyancy lift valve 2 closes the water injection valve port 104, at the moment, when the water level in the atomization cavity 103 rises to a position of 5cm with the best atomization effect, the buoyancy lift valve 2 is in a state of not floating upward, the buoyancy lift valve 2 blocks the valve cavity 104 (refer to fig. 3 or 5), the water does not flow into the atomization cavity 103 any more, and meanwhile, the atomization module 3 atomizes the water in the atomization cavity 103; when the water level in the atomizing cavity 103 continuously drops, the buoyancy valve 2 drops along with the reduction of buoyancy, the water injection valve port 104 is opened, and the atomizing cavity 103 is communicated with the water storage cavity 101, so that the circulating water inlet, water supplement and atomization are realized.

It needs to be further explained that the upper water adding humidifier of the embodiment of the application is simple to operate, compact in structure, reasonable in design, capable of realizing the maximum utilization of space, 6L of super-large capacity, capable of realizing the ultra-long time atomization, integrated in structural design, capable of being distinguished by the functional modules of the sub-cavities, and capable of avoiding the risk of water overflow or overflow, integrally provided with the box body, and filled with water in an upper water adding mode, and the gravity center of the humidifier is maintained at the lower part and is not easy to be knocked over; 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 open and close the water filling valve port 104 and control the water filling of the atomization chamber 103, in some embodiments, referring to fig. 3 to 5, the float valve 2 includes a first float 21, a first valve body 22 and a first valve plug 23, which are integrally formed and sequentially arranged from top to bottom, the first float 21 is located in the atomization chamber 103, the first valve plug 23 is located in the valve chamber 102, the first valve body 22 is movably embedded in the water filling valve port 104, and the first valve body 22 is in clearance fit with the water filling valve port 104, wherein,

when the water level in the atomizing chamber 103 is lower than the preset water level, the first valve body 22 drives the first float 21 and the first valve plug 23 to fall toward the valve chamber 102, and a gap between the water filling valve port 104 and the outer side wall of the first valve body 22 forms a flow passage for the valve chamber 102 to supply water to the atomizing chamber 103.

In the present embodiment, the outer diameter of the first valve body 22 is smaller than the aperture of the water filling valve port 104, that is, a gap through which water flows exists between the first valve body 22 and the water filling valve port 104; in this embodiment, when the water level in the atomizing chamber 103 is lower than the preset water level, the buoyancy generated by the water in the atomizing chamber 103 to the first float 21 and the float-lift valve 2 is smaller than the gravity of the float-lift valve 2, the float-lift valve 2 falls or is located at a position where the first valve plug 23 is far away from the water filling valve port 104, at this time, a corresponding channel (shown by an arrow in fig. 4 and 5) is formed in a gap between the first valve body 22 and the water filling valve port 104, the valve chamber 102 is communicated with the atomizing chamber 103, and the water in the valve chamber 102 is filled into the atomizing chamber 103 along the corresponding channel.

When the water level in the atomization chamber 103 is at the preset water level, the first valve plug 23 is in a position for blocking the water filling valve port 104.

In this embodiment, when the water filling valve port 104 is opened and water starts to be filled into the atomizing chamber 103, at this time, the buoyancy generated by the water in the atomizing chamber 103 to the first float 21 and the buoyancy valve 2 is gradually increased, when the generated buoyancy is greater than the gravity of the buoyancy valve 2, the buoyancy valve 2 starts to float upward and floats to a buoyancy equal to the gravity, if at this time, the first valve plug 23 does not seal the side of the water filling valve port 104 close to the valve chamber 102, that is, the water level in the atomizing chamber 103 does not reach the preset water level, a corresponding channel is still maintained between the first valve body 22 and the water filling valve port 104, the water in the valve chamber 102 is further filled into the atomizing chamber 103 along the corresponding channel, the buoyancy valve 2 gradually floats upward until the water level in the atomizing chamber 103 is at the preset water level, until the first valve plug 23 seals the side of the water filling valve port 104 close to the valve chamber 102, the buoyancy generated by the water injected into the atomizing chamber 103 to the buoyant valve 2 is not less than the gravity of the buoyant valve 2, and the buoyant valve 2 keeps floating at this position or in an upward floating state, but at this time, the first valve plug 23 plugs the side of the water injection valve port 104 close to the valve chamber 102, and by the limit of the first valve plug 23, the buoyant valve 2 cannot float upward, but the first valve plug 23 tightly plugs the water injection valve port 104 by the buoyancy, and at this time, the channel for injecting water into the atomizing chamber 103 is closed (refer to fig. 3).

It should be noted that, in this embodiment, in order to improve the sealing performance when the first valve plug 23 blocks the water filling valve port 104, in some optional embodiments, a sealing ring (not shown) is further sleeved on a portion of the first valve plug 23 embedded in the water filling valve port 104, for example: silica gel sealing washer, flexible glue sealing washer.

It can be understood that, with this arrangement, by setting the first valve body 22 and the water filling valve port 104 to be in clearance fit, when the water level in the atomizing chamber 103 is lower than the preset water level, the float valve 2 falls, the first valve plug 23 leaves relative to the water filling valve port 104, and the valve chamber 102 and the atomizing chamber 103 are communicated through the flow channel for water supply corresponding to the clearance between the water filling valve port 104 and the outer side wall of the first valve body 22, and water is filled along the corresponding flow channel (the water flow direction refers to the direction of the arrow shown in fig. 4); when the water level in the atomization chamber 103 is at the preset water level, the float valve 2 rises to the position where the first valve plug 23 blocks the water injection valve port 104, so that the atomization chamber 103 is continuously replenished with water by controlling the opening and closing of the water injection valve port 104 according to the water level in the atomization chamber 103, the atomization chamber 103 is ensured not to lack water and the atomization effect is ensured, and the safe use of the humidifier is ensured.

In order to further realize the opening and closing of the water filling valve port 104 and thus control the water filling of the atomizing chamber 103, in some embodiments, referring to fig. 6 to 8, the float-lift valve 2 includes a second float 24, a second valve body 25 and a second valve plug 26 which are integrally formed and sequentially arranged from top to bottom, the second valve body 25 is further provided with a water flow passage 251 which extends axially and penetrates radially, the second float 24 is located in the atomizing chamber 103, the second valve plug 26 is located in the valve chamber 102, the second valve body 25 is in sliding fit with the water filling valve port 104 without a gap, wherein,

when the water level in the atomizing chamber 103 is lower than the preset water level, the second valve body 25 drives the second float 24 and the second valve plug 26 to fall toward the valve chamber 102, the water flow passage 251 is respectively communicated with the valve chamber 102 and the atomizing chamber 103, and the water flow passage 251 forms a flow passage for supplying water to the atomizing chamber 103 from the valve chamber 102.

In this embodiment, the second valve body 25 is provided with the water flow passage 251, so the aperture of the outer diameter water injection valve port 104 of the second valve body 25 can be adapted; in this embodiment, when the water level in the atomizing chamber 103 is lower than the preset water level, the buoyancy generated by the water in the atomizing chamber 103 to the second float 24 and the float-lift valve 2 is smaller than the gravity of the float-lift valve 2, the float-lift valve 2 falls or is located at a position where the second valve plug 26 is far away from the water filling valve port 104, at this time, the water flow channel 251 communicates the valve chamber 102 with the atomizing chamber 103, and the water in the valve chamber 102 is filled into the atomizing chamber 103 along the water flow channel 251 (the water flow direction refers to the arrow direction shown in fig. 7 and 8).

When the water level in the atomization chamber 103 is at the preset water level, the float-up valve 2 floats up to the water flow passage 251 to be disconnected from the valve chamber 102, and the second valve body 25 and/or the second valve plug 26 block the water injection valve port 104.

In this embodiment, when the water filling valve port 104 is opened and water starts to be filled into the atomizing chamber 103, at this time, the buoyancy generated by the water in the atomizing chamber 103 to the second float 24 and the buoyancy lift valve 2 is gradually increased, when the generated buoyancy is greater than the gravity of the buoyancy lift valve 2, the buoyancy lift valve 2 starts to float upward and float up until the buoyancy is equal to the gravity, if at this time, the end of the water flow channel 251 close to the valve chamber 102 is not completely communicated with the valve chamber 102, that is, the water level in the atomizing chamber 103 does not reach the preset water level, the water in the valve chamber 102 can also be filled into the atomizing chamber 103 along the water flow channel 251, before the water is continuously filled into the atomizing chamber 103 until the water level is at the preset water level, the buoyancy lift valve 2 gradually floats upward until the end of the water flow channel 251 close to the valve chamber 102 is not completely communicated with the valve chamber 102 and/or the side of the water filling valve port 104 close to the valve chamber 102 is blocked by the second valve plug 26, the buoyancy generated by the water injected into the atomization chamber 103 to the buoyancy valve 2 is not less than the gravity of the buoyancy valve 2, and the buoyancy valve 2 keeps floating at this position or in an upward floating state, but at this time, the water flow channel 251 is already blocked and/or the second valve plug 26 blocks the side of the water injection valve port 104 close to the valve chamber 102, the channel for injecting water into the atomization chamber 103 is closed (refer to fig. 6), and at the same time, the buoyancy valve 2 cannot float upward due to the limitation of the second valve plug 26, but the second valve plug 26 tightly blocks the water injection valve port 104 due to the buoyancy.

It should be noted that, in the present embodiment, in order to improve the sealing performance of the second valve plug 26 when blocking the water filling valve port 104, in some optional embodiments, a sealing ring (not shown) is further sleeved on a portion of the second valve plug 26 embedded in the water filling valve port 104, for example: silica gel sealing washer, flexible glue sealing washer.

It can be understood that, by arranging the second valve body 25 and the water filling valve opening 104 to be in a gapless sliding fit and arranging the water flow channel 251 on the second valve body 25, when the water level in the atomization chamber 103 is lower than the preset water level, the buoyancy lift valve 2 falls off, the second valve plug 26 moves away from the water filling valve opening 104, and the valve chamber 102 is communicated with the atomization chamber 103 through the water flow channel 251 and water is filled along the water flow channel 251; when the water level in the atomization chamber 103 is at the preset water level, the float-lift valve 2 rises to a position where the water flow channel 251 is disconnected from the valve chamber 102, so that the water injection valve port 104 is controlled to be opened and closed according to the water level in the atomization chamber 103, the atomization chamber 103 is continuously replenished with water, the atomization chamber 103 is ensured not to lack water, the atomization effect is ensured, and the safe use of the humidifier is ensured.

In some embodiments, to achieve improved sealing when closing the fill valve port 104, and referring to FIGS. 7 and 8, the fill valve port 104 comprises a reverse tapered valve port and the second valve plug 26 comprises a tapered valve plug that mates with the fill valve port 104.

In order to input the water in the water storage cavity 101 into the valve cavity 102, ensure the purity of the water injected into the valve cavity 102, and reduce the risk of blocking the water injection valve port 104 and the valve cavity 102, in some embodiments, referring to fig. 3 to 9, a water inlet 105 is further disposed at a separation position of the valve cavity 102 and the water storage cavity 101, the valve cavity 102 is communicated with the water storage cavity 101 through the water inlet 105, and a filter (not assembled in the drawings) and a sealing plug 4 are sequentially disposed in the valve cavity 102 from top to bottom, wherein the sealing plug 4 is screwed with the valve cavity 102 and is used for sealing the valve cavity 102, and the filter is used for filtering the water flowing into the valve cavity 102.

It will be appreciated that such an arrangement ensures purity of the water in the valve chamber 102 and reduces the risk of the valve chamber 102 and the water filling valve port 104 becoming blocked by filtering the water injected into the valve chamber 102 from the water storage chamber 101 through the filter; meanwhile, the valve cavity 102 can be movably opened or sealed by screwing the sealing plug 4 with the valve cavity 102, so that the filter can be conveniently replaced and the valve cavity 102 can be conveniently cleaned, the smoothness of the valve cavity 102 is ensured, the blocking risk is reduced, and the service life of the humidifier is prolonged

In this embodiment, the water inlet 105 is set to be a normally open hole, so as to ensure that the water storage chamber 101 continuously supplies water to the valve chamber 102, and when the water filling valve port 104 is opened, water is quickly injected into the atomization chamber 103, thereby ensuring atomization effect.

In some embodiments, in order to realize mist generation and water mist blowing, in some embodiments, the atomizing module 3 includes an atomizer 31, an atomizing support 32, an air blowing system 33 and a control box 34, the atomizing support 32 is provided with a mounting portion 321 and an air duct 322, the atomizer 31 is disposed on the mounting portion 321, the air blowing system 33 is fixedly disposed at one end of the atomizing support 32 away from the mounting portion 321, an air outlet of the air blowing system 33 is in butt joint with the air duct 322, the air duct 322 is communicated with the atomizing chamber 103, the control box 34 is disposed at one end of the air blowing system 33 away from the end connected with the atomizing support 32, the control box 34 covers and seals the atomizing chamber 103, the control box 34 is further provided with a mist outlet passage 341 communicating the atomizing chamber 103 and the mist outlet 106, wherein the atomizer 31 is configured to atomize water injected into the water mist; and the air blowing system 33 is used for generating air, blowing the air into the atomizing chamber 103 along the air channel 322 and blowing the water mist generated by the atomizer 31 out along the mist outlet passage 341.

In the present embodiment, in order to satisfy the electrical control of the atomizer 31, for example: the atomizer 31 is controlled to vibrate to atomize water, and the atomizing support 32 is further provided with a through pipeline.

It can be understood that so set up, through the installation department 321 that will lay atomizer 31 setting in atomizing support 32's bottom to integrated wind channel 322 on atomizing support 32, set firmly blast system 33 and set firmly control box 34 on blast system 33, the realization is with the atomizing component's of humidifier modularization, makes whole atomizing module 3 can quick detachable carry out the dismouting with the box, improves machining efficiency.

In order to facilitate the replacement of the atomizer 31, in some embodiments, the mounting portion 321 is provided with a through receiving cavity 323, the atomizer 31 is disposed in the receiving cavity 323, and a sealing plate 35 hermetically connected to the receiving cavity 323 is further disposed at the bottom of the receiving cavity 323, wherein the receiving cavity 322 is a receiving cavity with an inner diameter gradually increasing from top to bottom.

Due to the arrangement, the atomizer 31 is movably and hermetically mounted to the accommodating cavity 323 through the sealing plate 35, the atomizer 31 can be quickly replaced, and the atomizer 31 and the atomizing support 32 form a whole, so that the modularized treatment of humidifier parts is facilitated; the accommodating cavity 322 is set to be small in top and large in bottom, so that the atomizer 31 can be conveniently taken, put and fixed.

To construct the blowing system 33, in some embodiments, the blowing system 33 includes a wind bin 331, a fan impeller 332 disposed in the wind bin 331, and a fan 333 drivingly connected to the fan impeller 332, the wind bin 331 is fixedly connected to the atomizing support 32, and the wind outlet is disposed at the bottom of the inner cavity of the wind bin 331, wherein the fan 333 is configured to drive the fan impeller 332 to rotate in the wind bin 331, generate wind, and blow the wind into the atomizing cavity 103 along the wind outlet and the wind channel 322.

It is understood that, in this arrangement, the wind chamber 331 is configured to be integrally connected with the atomizing support 32, so that the wind blowing system 33 and the atomizing part can be assembled together by adopting an integrally formed integral framework; meanwhile, the fan wheel 332 is driven to rotate by the fan 333, so that wind is generated to blow into the atomizing chamber 103, and the generated water mist is blown out.

In order to realize the control of the humidifier and blow out the water mist, in some embodiments, a control panel 5 is further fixedly mounted in the control box 34, the control panel 5 is electrically connected with the fan 333 and the atomizer 31, the top end of the control box 34 is further movably covered with a control box cover 342, a water box cover 6 which is in sliding connection with the box body 1 is further arranged at the top end of the box body 1 and beside the control box cover 342, the water box cover 6 can be opened or closed in a horizontal sliding mode and corresponds to the opened or closed water storage cavity 101, a mist outlet channel 341 extends from the atomizing cavity 103 towards the water storage cavity 101, a mist outlet 106 is located on the water box cover 6 at a set position, and a mist outlet 106 is further provided with a mist spray nozzle 7.

It can be understood that so set up, through control box 34 sealed atomizing chamber 103, so can make the humidifier accomplish the assembly according to modular component, through set up out fog passageway 341 on control box 34, when the control box 34 that can integrated into one piece correspond, also shaping goes out fog passageway 341, when forming atomizing chamber 103, also satisfies out the fog requirement.

In order to supply power to the humidifier and the control board, in some embodiments, the humidifier is further provided with a power interface 8, the power interface 8 penetrates through the side walls of the nebulizing chamber 103 and the control box 34 and extends into the control box 34, and the power interface 8 is further electrically connected with the control board 5.

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

1. An add-water humidifier, comprising: the device comprises a box body (1), a buoyancy lift valve (2) and an atomization module (3), wherein a water storage cavity (101), a valve cavity (102) and an atomization cavity (103) are integrally formed in the box body (1), the valve cavity (102) is communicated with the water storage cavity (101), a water injection valve port (104) is arranged at the separation part of the valve cavity (102) and the atomization cavity (103), the buoyancy lift valve (2) penetrates through the water injection valve port (104), the atomization module (3) is detachably assembled in the atomization cavity (103), and the atomization module (3) is detachably assembled in the atomization cavity (103),

the atomization module (3) is used for atomizing water in the atomization cavity (103) and discharging fog;

the floating valve (2) is used for floating and lifting according to the water level in the atomization cavity (103), falling when the water level in the atomization cavity (103) is lower than a preset water level to open the water injection valve port (104), floating and lifting in the water level lifting process in the atomization cavity (103), and blocking the water injection valve port (104) when the water level in the atomization cavity (103) is raised to the preset water level.

2. The upper water adding humidifier according to claim 1, wherein the float valve (2) comprises a first float (21), a first valve body (22) and a first valve plug (23) which are integrally formed and sequentially arranged from top to bottom, the first float (21) is located in the atomization chamber (103), the first valve plug (23) is located in the valve chamber (102), the first valve body (22) is movably embedded in the water filling valve port (104), and the first valve body (22) is in clearance fit with the water filling valve port (104), wherein,

when the water level in the atomization cavity (103) is lower than the preset water level, the first valve body (22) drives the first floater (21) and the first valve plug (23) to fall towards the valve cavity (102), and a gap between the water injection valve port (104) and the outer side wall of the first valve body (22) forms a flow channel for supplying water to the atomization cavity (103) by the valve cavity (102);

when the water level in the atomization cavity (103) is at the preset water level, the first valve plug (23) is at a position for plugging the water injection valve port (104).

3. The upper water adding humidifier according to claim 1, wherein the float-lift valve (2) comprises a second float (24), a second valve body (25) and a second valve plug (26) which are integrally formed and sequentially arranged from top to bottom, the second valve body (25) is further provided with a water flow passage (251) which extends axially and is radially through, the second float (24) is located in the atomizing chamber (103), the second valve plug (26) is located in the valve chamber (102), and the second valve body (25) is in sliding fit with the water filling valve port (104) without a gap, wherein,

when the water level in the atomization cavity (103) is lower than the preset water level, the second valve body (25) drives the second floater (24) and the second valve plug (26) to fall towards the valve cavity (102), the water flow channel (251) is respectively communicated with the valve cavity (102) and the atomization cavity (103), and the water flow channel (251) forms a flow channel for supplying water to the atomization cavity (103) by the valve cavity (102);

when the water level in the atomization cavity (103) is at the preset water level, the buoyancy valve (2) floats to the water flow channel (251) and is disconnected with the valve cavity (102), and the second valve body (25) and/or the second valve plug (26) seals the water injection valve port (104).

4. The top water humidifier according to claim 3, wherein the water filling valve port (104) comprises an inverted cone valve port and the second valve plug (26) comprises a cone valve plug cooperating with the water filling valve port (104).

5. The top water adding humidifier according to claim 1, wherein a water inlet (105) is further formed at a position where the valve cavity (102) is separated from the water storage cavity (101), the valve cavity (102) is communicated with the water storage cavity (101) through the water inlet (105), a filter and a sealing plug (4) are sequentially arranged in the valve cavity (102) from top to bottom, wherein the sealing plug (4) is in threaded connection with the valve cavity (102) and is used for sealing the valve cavity (102), and the filter is used for filtering water flowing into the valve cavity (102).

6. The water adding humidifier according to any one of claims 1 to 5, wherein the atomizing module (3) comprises an atomizer (31), an atomizing support (32), a blowing system (33), and a control box (34), the atomizing support (32) is provided with a mounting portion (321) and an air duct (322), the atomizer (31) is disposed on the mounting portion (321), the blowing system (33) is fixedly disposed at one end of the atomizing support (32) away from the mounting portion (321), an air outlet of the blowing system (33) is in butt joint with the air duct (322), the air duct (322) is communicated with the atomizing chamber (103), the control box (34) is disposed at one end of the blowing system (33) away from the end connected with the atomizing support (32), the control box (34) covers and seals the atomizing chamber (103), and the control box (34) is further provided with an mist outlet passage (341) communicating the atomizing chamber (103) and the mist outlet (106), wherein the content of the first and second substances,

the atomizer (31) is used for atomizing the water injected into the atomizing cavity (103) into water mist;

the air blowing system (33) is used for generating wind, blowing the wind into the atomizing cavity (103) along the air duct (322), and blowing the water mist generated by the atomizer (31) along the mist outlet channel (341).

7. The upper water adding humidifier according to claim 6, wherein the mounting portion (321) is provided with a through accommodating chamber (323), the atomizer (31) is arranged in the accommodating chamber (323), a sealing plate (35) hermetically connected with the accommodating chamber (323) is further arranged at the bottom of the accommodating chamber (323), and the accommodating chamber (322) is an accommodating chamber with an inner diameter gradually increasing from top to bottom.

8. The water adding humidifier according to claim 6, wherein the blowing system (33) comprises a wind bin (331), a fan impeller (332) disposed in the wind bin (331), and a fan (333) in transmission connection with the fan impeller (332), the wind bin (331) is fixedly connected to the atomizing support (32), and the wind outlet is disposed at the bottom of the inner cavity of the wind bin (331), wherein the fan (333) is configured to drive the fan impeller (332) to rotate in the wind bin (331), so as to generate wind and blow the wind into the atomizing chamber (103) along the wind outlet and the wind channel (322).

9. The upper water adding humidifier according to claim 8, characterized in that a control panel (5) is fixedly arranged in the control box (34), the control board (5) is electrically connected with the fan (333) and the atomizer (31), the top end of the control box (34) is movably covered with a control box cover (342), the top end of the box body (1) and the side of the control box cover (342) are also provided with a water tank cover (6) which is in sliding connection with the box body (1), the water tank cover (6) can be opened or closed in a horizontal sliding way, the water storage cavity (101) is correspondingly opened and closed, the fog outlet channel (341) extends from the atomization cavity (103) to the water storage cavity (101), the mist outlet (106) is arranged on the water tank cover (6) at the arrangement position, and an aerosol nozzle (7) is further arranged at the mist outlet (106).

10. The upper water adding humidifier according to claim 9, further comprising a power interface (8), wherein the power interface (8) penetrates through the side walls of the atomizing chamber (103) and the control box (34) and extends into the control box (34), and the power interface (8) is further electrically connected with the control board (5).