CN104964418B - Humidifier and its lower shell component - Google Patents

Abstract

The invention discloses a kind of humidifier and its lower shell components.Wherein, lower shell component includes：Housing, housing is interior to be separated into upper chamber and lower chambers by partition board, and wherein partition board is equipped with atomizer and the wind-guiding column extended upward, and wind-guiding column is connected with lower chambers, and the bottom of lower chambers has air intake；Power supply module, power supply module are located at bottom chamber and are set far from air intake；Wind turbine, wind turbine are located at bottom chamber and guide the air that air intake enters to after power supply module and blown out from wind-guiding column.The lower shell component of humidifier according to embodiments of the present invention, it can be radiated using air to power supply module, reduce the temperature of bottom chamber, each component in humidifier is avoided to generate security risk due to temperature is excessively high, so as to can not only improve the safety of humidifier, the aging speed of each component of bottom chamber can also effectively be delayed, and then improve the performance of humidifier, extend the service life of humidifier.

Description

Humidifier and its lower shell component

Technical field

The present invention relates to household electrical appliance technical field more particularly to a kind of humidifiers and its lower shell component.

Background technology

During the broiling summer with extremely dry winter, the moisture in air is less, leads to the skin moisture excess flow of people It loses, accelerates the aging of life, in addition, as the improvement of people's living standards, being widely used for air-conditioning, further causes air It is dry, and cause the growth of the air conditioner diseases such as tight skin, dry mouth and parching tongue, cough flu.It is with the humid air in order to make, it is wet to reach air The equilibrium of degree, humidifier just come into being.During work, the liquid water inside humidifier forms droplet by atomising device, Enter external environment using air duct, to increase the humidity of external environment.

User need to remove cistern assembly in the water filling into water tank from housing unit, after water filling, then by water tank Component is assembled on housing unit.In the relevant technologies, for humidifier during use, the temperature of control assembly is easily excessively high, leads Control panel is caused to be damaged, there are larger security risks.It is deposited due to control plate temperature is excessively high in conclusion how to eliminate humidifier Security risk, be a problem to be solved by those skilled in the art.

Invention content

The present invention is directed at least solve one of technical problem in the prior art.For this purpose, the present invention proposes a kind of add The lower shell component of wet device, the lower shell component of the humidifier have the advantages that simple in structure, safety coefficient is high.

The present invention also provides a kind of humidifier, the humidifier has lower shell component as described above.

The lower shell component of humidifier according to embodiments of the present invention, including：Housing, the housing is interior to be separated by partition board Upper chamber and lower chambers, wherein the partition board is equipped with atomizer and the wind-guiding column that extends upward, the wind-guiding column with it is described Lower chambers connect, and the bottom of the lower chambers has air intake；Power supply module, the power supply module are located at the bottom chamber And it is set far from the air intake；Wind turbine, the wind turbine are located at the bottom chamber and the sky for entering the air intake Gas is guided to after the power supply module and is blown out from the wind-guiding column.

The lower shell component of humidifier according to embodiments of the present invention, by the sky for making to enter bottom chamber from air intake Gas is blown out after power supply module from wind-guiding column, it is possible thereby to radiate using air to power supply module, reduces bottom chamber Temperature, each component in humidifier is avoided to generate security risk due to temperature is excessively high, so as to can not only improve the peace of humidifier Quan Xing can also effectively delay the aging speed of each component of bottom chamber, and then improve the performance of humidifier, extend The service life of humidifier.

According to one embodiment of present invention, it is formed with air-inlet grille at the air intake.

According to one embodiment of present invention, the housing includes thimble and the pedestal for being located at the thimble lower part, described Pedestal has preset distance to limit bottom cavity room by the thimble below the pedestal apart from the lower end of the thimble, wherein The air intake is formed on the pedestal, and the bottom cavity room has the bottom opening for being adapted to enter into air.

Optionally, the bottom opening is formed on the side wall of the bottom cavity room.

Further, the bottom opening is set adjacent to the air intake.

According to some embodiments of the present invention, the bottom chamber has air duct, and the air duct is prolonged from the air intake Extend to the neighbouring power supply module and extend to the neighbouring wind-guiding column, wherein the wind turbine be located at it is in the air duct or described The end in air duct.

Optionally, the air duct is limited by housing and foam element.

According to one embodiment of present invention, the power supply module includes：Power pack, the power pack include box body and box Lid；Power panel, the power panel are located in the power pack and are connected with one end of power cord.

According to another embodiment of the invention, the power supply module further includes：Power panel pedestal, the power panel pedestal It is located in the power pack, wherein the power panel is supported on the power panel pedestal.

Humidifier according to embodiments of the present invention, the lower shell component including humidifier as described above.

Humidifier according to embodiments of the present invention by setting lower shell component as described above, can improve humidifier Performance and safety coefficient extend the service life of humidifier.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description It obtains significantly or is recognized by the practice of the present invention.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Significantly and it is readily appreciated that, wherein：

Fig. 1 is the front view of humidifier according to embodiments of the present invention；

Fig. 2 is along the sectional view in A-A directions in Fig. 1；

Fig. 3 is the enlarged drawing at G in Fig. 2；

Fig. 4 is the dimensional structure diagram of humidifier according to embodiments of the present invention；

Fig. 5 is the explosive view of humidifier according to embodiments of the present invention；

Fig. 6 is the explosive view of the lower shell component of humidifier according to embodiments of the present invention；

Fig. 7 is the enlarged drawing at B in Fig. 6；

Fig. 8 is the front view of the lower shell component of humidifier according to embodiments of the present invention；

Fig. 9 is the vertical view of the lower shell component of humidifier according to embodiments of the present invention；

Figure 10 is along the sectional view in C-C directions in Fig. 9；

Figure 11 is along the sectional view in D-D directions in Fig. 9；

Figure 12 is the partial structural diagram of the cistern assembly of humidifier according to embodiments of the present invention；

Figure 13 is the enlarged drawing at E in Figure 12；

Figure 14 is the bottom view of the cistern assembly of humidifier according to embodiments of the present invention；

Figure 15 is the front view of the weather strip of humidifier according to embodiments of the present invention；

Figure 16 is the explosive view of the knob assembly of humidifier according to embodiments of the present invention；

Figure 17 is the explosive view of the control assembly of humidifier according to embodiments of the present invention；

Figure 18 is the explosive view of the power supply module of humidifier according to embodiments of the present invention；

Figure 19 is the dimensional structure diagram of the pedestal of humidifier according to embodiments of the present invention；

Figure 20 is the dimensional structure diagram of the pedestal of humidifier according to embodiments of the present invention；

Figure 21 is the dimensional structure diagram of the upper cover of humidifier according to embodiments of the present invention；

Figure 22 is the bottom view of the upper cover of humidifier according to embodiments of the present invention；

Figure 23 is along the sectional view in F-F directions in Figure 22；

Figure 24 is the left view of the upper cover of humidifier according to embodiments of the present invention；

Figure 25 is the vertical view of the upper cover of humidifier according to embodiments of the present invention；

Figure 26 is the structure diagram of the outlet air regulating member of humidifier according to embodiments of the present invention.

Reference numeral：

Humidifier 1,

Cistern assembly 100,

Annular water tank 110, arc-shaped transition 117, step 118, the top surface 119 of annular water tank, snap fit tabs 116,

Central air duct 111, air inlet 1111, air outlet 1112, wind guide tank 112,

Into windshield plate 113, first into windshield plate 1131, and second into windshield plate 1132,

Arc wind waveguide plate 114,

Weather strip 115, top surface 1153, the first wall surface 1151, the second wall surface 1152,

Annular water space capacity 120, intake-outlet 121,

Float assembly 130, float stent 131,

Knob assembly 140,

Knob body 141, rub lines 1411, water passage 1412, water annulus 1413,

Notch 1414, interior notch 1415, outer notch 1416,

Valve rod 142, spring 143, self-joining type rubber parts 145, plain cushion 146,

Upper cover 150, damp exit 151, tapered pole 152, diversion pipe 153 engage groove 155,

Outlet air regulating member 154, necking part 1541 adjust pipeline 1542,

Upper cover ontology 156, rounding off portion 157,

Lower shell component 200,

Housing 210, thimble 212, pedestal 213, bottom cavity room 2131, bottom opening 2132, mounting post 2133,

Partition board 211, upper chamber 2111, lower chambers 2112, mandril 215,

Wind-guiding column 214, arcwall face 2141, lug boss 2144, outlet air surface 2143, gas outlet 2142,

Air intake 2113, air-inlet grille 2114,

Atomizer 220, atomizer containing tank 216,

Foam element 240, air duct 241,

Power supply module 270, power pack 271, box body 2711, box cover 2712,

Power panel 272, power cord 273, power panel pedestal 274,

Wind turbine 280, fan supporter 281,

Control assembly 250, touch panel 251, circuit board 252, light source 2522,

Barn door 253, buckle 2531,

Display cassette holder 254, block tongue 2541,

Diffusion barrier 255,

Shelter-clad 260, plate body 261,

Positioning protrusion 2311, positioning groove 2312,

Annular short slot 2321, annular flange 2322,

Boss 2331, recessing groove 2332.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " up time The orientation or position relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be based on orientation shown in the drawings or Position relationship is for only for ease of the description present invention and simplifies description rather than instruction or imply that signified device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, art Language " first ", " second " are only used for description purpose, and it is not intended that instruction or implying relative importance or implicit indicating institute The quantity of the technical characteristic of instruction." first " is defined as a result, one can be expressed or be implicitly included to the feature of " second " Or more this feature.In the description of the present invention, unless otherwise indicated, " multiple " are meant that two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or be integrally connected；It can To be mechanical connection or be electrically connected；It can be directly connected, can also be indirectly connected by intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

The lower shell component 200 of humidifier 1 according to embodiments of the present invention is described in detail below with reference to Fig. 1-Figure 26.

As shown in Fig. 1-Figure 26, the lower shell component 200 of humidifier 1 according to embodiments of the present invention, including：Housing 210, electricity Source component 270 and wind turbine 280.

Specifically, upper chamber 2111 and lower chambers 2112 are separated by partition board 211 in housing 210, wherein on partition board Equipped with atomizer and the wind-guiding column 214 extended upward, wind-guiding column 214 is connected with lower chambers 2112, the bottom of lower chambers 2112 With air intake 2113, power supply module 270 is located at bottom chamber and is set far from air intake 2113, and wind turbine 280 is located at down In chamber 2112 and the air that air intake 2113 enters is guided to after power supply module 270 and blown out from wind-guiding column 214.

It should be noted that power supply module 270 is the high heat producing component in humidifier 1, using from air intake 2113 into Enter to the air in lower chambers 2112 and radiate to power supply module 270, the temperature that can be effectively reduced in lower chambers 2112 avoids Each component generates security risk due to temperature is excessively high in humidifier 1, so as to can not only improve the safety of humidifier 1, may be used also Effectively to delay the aging speed of each component in lower chambers 2112, and then the service life of humidifier 1 can be extended.

The lower shell component 200 of humidifier 1 according to embodiments of the present invention is entered down by making from air intake 2113 Air in chamber 2112 is blown out after power supply module 270 from wind-guiding column 214, it is possible thereby to using air to power supply module 270 radiate, and reduce the temperature in lower chambers 2112, each component are avoided in humidifier 1 to generate safety due to temperature is excessively high hidden Suffer from, so as to can not only improve the safety of humidifier 1, can also effectively delay the aging speed of each component in lower chambers 2112 Degree, and then the performance of humidifier 1 is improved, extend the service life of humidifier 1.

As shown in Fig. 1-Figure 26, according to one embodiment of present invention, humidifier 1 can include：Cistern assembly 100 is under Shell component 200.Wherein, cistern assembly 100 is located at the top of lower shell component 200.

Specifically, cistern assembly 100 can include limiting the annular water tank 110 of annular water space capacity 120, annular water Case 110 can be used for storing water.The center portion of annular water tank 110 limits central air duct 111, it is possible thereby to make cistern assembly Structure it is compacter.The bottom of annular water tank 110 is equipped with float assembly 130 and knob assembly 140.When by cistern assembly 100 When installation is on lower shell component 200, knob assembly 140 is in opening state, and the water in annular water tank 110 can be flowed into lower casing In component 200, when the water in shell component 200 reaches certain water level instantly, float assembly 130 can be with closed ring water tank 110, ring Water in shape water tank 110 can not be flowed out out of annular water tank 110.Optionally, knob assembly 140 can be installed by screw thread to ring The bottom of shape water tank 110.Optionally, float assembly 130 can be mounted on the bottom of annular water tank 110 by float stent 131.

As shown in Fig. 1, Fig. 5-Figure 11, lower shell component 200 is located at the lower section of cistern assembly 100, and lower shell component 200 can wrap It includes：Housing 210, atomizer 220, power supply module 270, wind turbine 280 and control assembly 250.Wherein, it is limited in housing 210 Installation space and upper chamber 2111 and lower chambers 2112 are separated by partition board 211.Upper chamber 2111 can be used for holding from ring The water flowed out in shape water tank 110, partition board 211 can be used for preventing the water in upper chamber 2111 to be flowed into lower chambers 2112.Such as Shown in Fig. 6, Figure 11, partition board 211 is equipped with the wind-guiding column 214 that upward (top as shown in Figure 6) extends, and wind-guiding column 214 divides It is not connected with lower chambers 2112 and central air duct 111, the bottom of lower chambers 2112 has air intake 2113.Air can as a result, To be entered in lower chambers 2112 by air intake 2113, the air in lower chambers 2112 can be entered by wind-guiding column 214 In central air duct 111.

Atomizer 220 is set across partition board 211 with by the water atomization in upper chamber 2111.Optionally, upper chamber 2111 220 containing tank 216 of atomizer for being suitable for holding atomizer 220 can be equipped on bottom wall, it is possible thereby to make atomizer 220 steadily On partition board 211.Power supply module 270 is located in lower chambers 2112 and is set far from air intake 2113, power supply module 270 Can be that atomizer 220 is powered.Wind turbine 280 is located at lower chambers 2112 and guides the air that air intake 2113 enters to process It is blown out after power supply module 270 from wind-guiding column 214, thus air can be first to power supply module 270 before wind-guiding column 214 is entered It radiates.Control assembly 250 is located in lower chambers 2112, and wind turbine 280, atomizer 220 and power supply module 270 can be with Control assembly 250 connects, in order to control humidifier 1.

It should be noted that power supply module 270 is the high heat producing component in humidifier 1, using from air intake 2113 into Enter to the air in lower chambers 2112 and radiate to power supply module 270, the temperature that can be effectively reduced in lower chambers 2112 avoids Each component generates security risk due to temperature is excessively high in humidifier 1, so as to can not only improve the safety of humidifier 1, may be used also Effectively to delay the aging speed of each component in lower chambers 2112, and then the service life of humidifier 1 can be extended.

As shown in figure 5, wind-guiding column 214 is extended upwardly to from partition board 211 in central air duct 111, generated by atomizer 220 Water mist is ejected into upwards at the position of wind-guiding column 214.Under the driving of wind turbine 280, the air outside lower shell component 200 leads to It crosses air intake 2113 and enters lower chambers 2112, the air in lower chambers 2112 is by power supply module 270 and and power supply module It is entered in wind-guiding column 214 after 270 generation heat exchanges.The air blown out by wind-guiding column 214 drives what is generated by atomizer 220 Water mist is entered together in central air duct 111, and the air outlet 1112 in the air with water mist from central air duct 111 flows out, injection Into indoor environment, thus indoor environment can be humidified.

During the work time, the water in upper chamber 2111 is constantly atomized device 220 and is converted into water mist and is blown out humidifier 1 Into indoor environment, the water in upper chamber 2111 can be constantly consumed.After the water in upper chamber 2111 is consumed certain volume, Float assembly 130 can open annular water tank 110, and the water in annular water tank 110 can flow out to epicoele by knob assembly 140 It, thus can be to 2111 moisturizing of upper chamber in room 2111.When needing to remove cistern assembly 100 from lower shell component 200, at this time Float assembly 130, knob assembly 140 are by the bottom of closed ring water tank 110, so that annular water space capacity 120 is formed as closing Space.When needing to add water into annular water tank 110, knob assembly 140 can be removed from annular water tank 110, so as to Water can be added into annular water tank 110.

It should be noted that by making to pass through power supply module from the air that air intake 2113 is entered in lower chambers 2112 It blows out from wind-guiding column 214 after 270, it is possible thereby to be radiated using air to power supply module 270, reduces in lower chambers 2112 Temperature avoids each component in humidifier 1 from generating security risk due to temperature is excessively high, so as to can not only improve the peace of humidifier 1 Quan Xing can also effectively delay the aging speed of each component in lower chambers 2112, and then improve the usability of humidifier 1 Energy extends the service life of humidifier 1.

According to one embodiment of present invention, lower shell component 200 is located in by multigroup positioning component under annular water tank 110 Side, it is possible thereby to which being effectively prevented lower shell component 200 undesirably falls off annular water tank 110, so as to be effectively improved humidifier 1 Performance.Further, positioning component includes at least the first positioning component, the second positioning component and third positioning component.By This, can further improve the reliability of positioning of lower shell component 200 and annular water tank 110.

As shown in Fig. 5, Fig. 6, Figure 12 and Figure 14, the first positioning component can include：Positioning protrusion 2311 and positioning are recessed Slot 2312.Wherein, positioning protrusion 2311 is located in one of them of 210 top surface 1153 of bottom surface and housing of annular water tank, positioning Groove 2312 be formed in 210 top surface 1153 of bottom surface and housing of annular water tank another on, and positioning groove 2312 with positioning The shape adaptation of protrusion 2311.Thus, it is possible to realize the coarse localization between lower shell component 200 and annular water tank 110, in order to User's installs cistern assembly 100 to lower shell component 200.

Optionally, positioning protrusion 2311 can be formed as special-shaped protrusion, and positioning protrusion 2311 is located at 210 top surface of housing On 1153, it is possible thereby to further improve the stability that lower shell component 200 coordinates with cistern assembly 100.Further, convex It plays 2311 and is formed as T-shape.To improve the process of lower shell component 200, shorten the production cycle, save production cost, determine Position protrusion 2311 can be with integrated injection molding with housing 210.

In one embodiment of the invention, the second positioning component can include：Annular short slot 2321 and annular flange 2322.Wherein, as shown in Fig. 6-Fig. 7 and Figure 12-Figure 13, annular short slot 2321 is formed at 210 top edge of housing, annular Flange 2322 is formed at annular water tank bottom margin, and annular flange 2322 is around cooperation in the periphery of annular short slot 2321.By This not only can further be accurately positioned cistern assembly 100, but also can further improve lower shell component 200 and water The stability that box assembly 100 coordinates.Further, as shown in figure 13, annular flange 2322 is from the outer edge of annular water tank bottom (lower section as shown in fig. 13 that) extends downwards.Thus, it is possible to simplify the structure of cistern assembly 100, make cistern assembly 100 can be with Steadily coordinate on lower shell component 200.

In one embodiment of the invention, as shown in Fig. 6-Fig. 7 and Figure 12-Figure 13, third positioning component can wrap It includes：Boss 2331 and recessing groove 2332.Wherein, boss 2331 is located on annular 2321 outer wall of short slot and protrudes outward, recessing groove 2332 are formed on 2322 inner wall of annular flange, and recessing groove 2332 accommodates boss 2331.It is possible thereby to further improve lower casing group The stability that part 200 coordinates with cistern assembly 100.Further, boss 2331 can be multiple, and along annular short slot 2321 Circumferentially it is uniformly distributed.

As shown in Fig. 5-Figure 11, according to one embodiment of present invention, housing 210 can include thimble 212 and be located at shell Cylinder 212 lower parts pedestal 213, pedestal 213 apart from the lower end of thimble 212 have preset distance with below pedestal 213 by thimble 212 limit bottom cavity room 2131.When humidifier 1 is placed on desktop or table top as a result, can be effectively prevented because of desktop or Water on table top is immersed in lower chambers 2112 and shadow is paid no attention in the power supply module 270 to humidifier 1 or the generation of control assembly 250 It rings, so as to effectively improve the security performance of humidifier 1.For example, as shown in Fig. 9, Figure 19, bottom cavity room 2131 is located at cavity of resorption The lower section of room 2112.

Air intake 2113 can be formed on pedestal 213, and bottom cavity room 2131 has the bottom opening for being adapted to enter into air 2132, it is thus entered in bottom cavity room 2131 convenient for air, and then entered in lower chambers 2112 convenient for air.Further, Bottom opening 2132 is formed on the side wall of bottom cavity room 2131, is thus entered in bottom cavity room 2131 convenient for air.Further, Bottom opening 2132 is set adjacent to air intake 2113, is thus entered in lower chambers 2112 convenient for air, so as to effectively Improve the smoothness of the air-flow flowing in lower chambers 2112.Optionally, as shown in Fig. 5, Figure 19-Figure 20, at air intake 2113 Air-inlet grille 2114 is formed with, is entered in lower chambers 2112 from air intake 2113 it is possible thereby to be effectively prevented sundries.Into One step, pedestal 213 is equipped with multiple mounting posts 2133 spaced apart, and thimble 212 is mounted in mounting post 2133.Further Ground, thimble 212 can be coordinated on pedestal 213 by the placement of grafting, can also be matched by threaded fastener and thimble 212 It closes.

As shown in figure 5, can be by the restriction of foam element 240 exhaust passages 241 in lower chambers 2112, air duct 241 is from air Entrance 2113 extends to neighbouring power supply module 270 and extends to neighbouring wind-guiding column 214, and wherein wind turbine 280 is located in air duct 241 Or the end in air duct 241.It is understood that air duct 241 can radiate to power supply module 270 by power supply module 270, and with Wind-guiding column 214 connects.Power supply module 270 is the high heat producing component in humidifier 1, and cavity of resorption is entered using from air intake 2113 Air in room 2112 radiates to power supply module 270, and the temperature that can be effectively reduced in lower chambers 2112 avoids humidifier 1 Interior each component generates security risk due to temperature is excessively high, can also be effectively so as to can not only improve the safety of humidifier 1 Delay the aging speed of each component in lower chambers 2112, and then the service life of humidifier 1 can be extended.

It should be noted that foam element 240 has the advantages that light weight, at low cost, by using 240 limits of foam element Air duct 241 is made, can effectively simplify the structure of humidifier 1, reduce the weight of humidifier 1, be easy to implement the light of humidifier 1 Quantitative design.Optionally, as shown in figure 5, foam element 240 is positioned at the bottoms of lower chambers 2112, and control assembly 250 is supported on On foam element 240.It is possible thereby to make the structure of humidifier 1 compacter, reasonable.

According to one embodiment of present invention, control assembly 250 includes：Touch panel 251, circuit board 252 and barn door 253.Wherein, as shown in Fig. 5 and Figure 17, touch panel 251, which is located on 210 side wall of housing, to be suitable for being touched, and circuit board 252 is set It is connected in lower chambers 2112 and between touch panel 251 by multiple touch-control springs, light source is set on circuit board 252 2522, barn door 253 is located in installation space and corresponding with 2522 position of light source.It is convenient for user's control humidifier 1 as a result,.It can Selection of land, light source 2522 can be LED light, thus can not only improve the display effect of touch panel 251, can also reduce humidification The production cost of device 1.

Further, as shown in figure 17, control assembly 250 can also include：Show cassette holder 254.Wherein, cassette holder is shown 254 are located in installation space, and wherein circuit board 252 is located in display cassette holder 254, and barn door 253 is connected on display cassette holder 254 It is and corresponding with 2522 position of light source.It is convenient for control assembly 250 being installed to the installation space in housing 210 as a result,.For into one Step improves the display effect of touch panel 251, and control assembly 250 can also include being attached to the diffusion barrier of 253 front side of barn door 255, as shown in figure 17.

To improve barn door 253 and showing the efficiency of assembling of cassette holder 254, barn door 253 and display cassette holder 254 pass through buckle Connection.Further, as shown in figure 17, the edge of barn door 253 extends buckle 2531, display box towards display cassette holder 254 The edge of seat 254 has block tongue 2541, and block tongue 2541 coordinates barn door 253 being connected to display cassette holder 254 with buckle 2531. Thus, it is possible to improve the connection reliability between display cassette holder 254 and barn door 253.Certainly, barn door 253 and display cassette holder 254 connection mode is not limited to this, for example, barn door 253 and display cassette holder 254 can also be connected by screw.

It should be noted that inevitably there is arc spark during the work time in control assembly 250, to prevent arc spark from drawing Shelter-clad 260 can also be included by playing security risk humidifier 1.Wherein, as shown in figure 5, shelter-clad 260 is located at cavity of resorption It is set in room 2112 and around control assembly 250, and shelter-clad 260 is by 240 supports of foam element.Thus, it is possible to effectively Ground improves the safety coefficient of humidifier 1, improves the performance of humidifier 1.

Optionally, as shown in figure 5, shelter-clad 260 is bent to form annular shape by a plate body 261, it is possible thereby to Simplify the process of shelter-clad 260, save production cost.It is understood that the generation type of shelter-clad 260 It is not limited to this, shelter-clad 260 can also be in turn connected to form by multiple plate bodys 261.It is convenient for as a result, to shelter-clad 260 are repaired or are replaced.

According to one embodiment of present invention, power supply module 270 can include：Power pack 271, power panel 272 and electricity Source plate pedestal 274.Wherein, power pack 271 can include box body 2711 and box cover 2712.As shown in Fig. 5, Figure 18, box body 2711 Accommodation space can be limited jointly with box cover 2712, and power panel 272 and power panel pedestal 274 may be mounted at accommodation space It is interior.Power panel 272 is located in power pack 271 and is connected with one end of power cord 273, and power panel pedestal 274 is located at power pack 271 Interior, wherein power panel 272 is supported on power panel pedestal 274.Thus, it is possible to be further simplified the structure of humidifier 1, make humidification The structure of device 1 is compacter, reasonable.

Preferably, wind turbine 280 is located at by fan supporter 281 in lower chambers 2112, is thus convenient for wind turbine 280 being mounted on In lower chambers 2112.Further, thus fan supporter 281 can be convenient for wind turbine 280 being mounted on fan supporter 281 into U-shaped On.

According to one embodiment of present invention, as shown in Fig. 9-Figure 16, partition board 211 is equipped with mandril 215, annular water tank 110 bottom have intake-outlet 121, knob assembly 140 be connected at intake-outlet 121 and including：Knob body 141, valve Bar 142 and valve seat.Specifically, knob body 141 is screwed at intake-outlet 121 and lower end periphery is formed with friction lines 1411, in order to user's turn knob ontology 141.The middle section of knob body 141 has water passage 1412,142 edge of valve rod Knob body 141 is axially movably located in water passage 1412, and the lower end that valve seat is located at valve rod 142 is suitable for closing or beat Boiling water access 1412, wherein mandril 215 only support with valve rod 142 and push valve rod 142 so that valve seat often opens water passage 1412.

When installing cistern assembly 100 to lower shell component 200, mandril 215 is only supported with 142 phase of valve rod, and valve seat is opened Water passage 1412, the water in annular water tank 110 can be flowed by water passage 1412 in upper chamber 2111；When by cistern assembly 100 from lower shell component 200 when removing, and valve seat closes water passage 1412, and the water in annular water tank 110 can not pass through water passage 1412 are flowed into upper chamber 2111.Optionally, self-joining type rubber parts 145 and plain cushion 146 can be equipped on valve seat, thus works as valve It is that can seal water passage 1412 that seat, which closes water passage 1412,.

For convenience of valve rod 142 is arranged in water passage 1412, water passage 1412 is interior (not shown with hollow out supporting rack Go out), valve rod 142 is only against on hollow out supporting rack by spring 143.When cistern assembly 100 is removed from lower shell component 200, Valve rod 142 is detached from mandril 215, and spring 143 pushes valve rod 142 to be only against on hollow out supporting rack, and valve seat closes water passage 1412, ring Water in shape water tank 110 can not be flowed by water passage 1412 in upper chamber 2111.Thus, it is possible to it is effectively prevented from working as water tank When component 100 is detached from lower shell component 200, the water outflow in annular water tank 110, so as to improve the performance of humidifier 1.

Optionally, as shown in Figure 14, Figure 16, water annulus 1413 is limited in the lower face of knob body 141, annular Water channel 1413 has at least two notches 1414 so that water passage 1412 to be connected with 141 outside of knob body.Thus, it is possible to effectively Ground slows down the speed of the water flowed out out of annular water tank 110, and the water in annular water tank 110 is allow to slowly flow into upper chamber In 2111.Further, as shown in figures 12 and 14, notch 1414 includes two interior notches 1415 and two outer notches 1416, Interior notch 1415 connects water passage 1412 and water annulus 1413, and outer notch 1416 connects water passage 1412 and knob body 141 It is external.Thus, it is possible to which the water in annular water tank 110 is made to be flowed into water annulus 1413, the water in water annulus 1413 also may be used To be successfully flowed into outside knob body 141.Further, the center line of two interior notches 1415 and two outer notches 1416 Overlapped with the same diameter line of knob body 141.Thus, it is possible to water is made successfully to be flowed into upper chamber from water passage 1412 In 2111.

For example, as shown in Fig. 5, Figure 12 and Figure 14, set on the internal ring wall of water annulus 1413 there are two interior notch 1415, Two interior notches 1415 are arranged on one of the internal ring wall of water annulus 1413 diametrically, are set on the external annulus of water annulus 1413 There are two outer notch 1416, two outer notches 1416 and two interior notches 1415 are respectively positioned on same straight line, interior notch 1415 and Water annulus 1413 connects, and outer notch 1416 is connected with upper chamber 2111, and the water in annular water tank can pass through water passage as a result, 1412nd, interior notch 1415 is entered in water annulus 1413, and the water in water annulus 1413 is entered by outer notch 1416 In chamber 2111.

In example as shown in Figure 2, the air inlet 1111 in central air duct 111 can be located at the bottom wall of annular water tank 110 On, the air outlet 1112 in central air duct 111 can be located on the roof of annular water tank 110.Further, the top surface of annular water tank 117 transition of arc-shaped transition section is used between 119 and the air outlet 1112 at 111 top of central air duct.It is convenient for as a result, by central air duct Air in 111 is guided out to the outside of humidifier 1, while can reduce wind noise.

It is understood that the structure of the top surface 119 of annular water tank is not limited to this, for example, along from annular water tank periphery To central air duct 111 air outlet 1112 in the radial direction, the top surface 119 of annular water tank tilts gradually downward.Thus, it is possible to Improve the structure diversity of humidifier 1.Further, along the air outlet 1112 in center air duct 111 thoughtful outside annular water tank In the radial direction, the top surface 119 of annular water tank is in inverted conical shape.Further, along center thoughtful outside annular water tank 110 In the radial direction, the top surface 119 of annular water tank is in the cambered surface tilted down to the air outlet 1112 in air duct 111.

As shown in Fig. 2, Fig. 5 and Figure 21-Figure 25, according to some embodiments of the present invention, cistern assembly 100 can also wrap The upper cover 150 for being located at 110 top of annular water tank is included, there is damp exit corresponding with central 111 position of air duct in upper cover 150 151, thus it is convenient for guiding the air with water mist to the outside of humidifier 1.Upper cover 150 is snapped into annular water tank for convenience On 110, as shown in Fig. 5 and Figure 21, engaging groove 155 can be equipped in upper cover 150, annular water tank 110 is equipped with engaging 155 corresponding snap fit tabs 116 of groove.

Optionally, as shown in fig. 4-5,150 center of upper cover has the tapered pole 152 to raise up, wherein damp exit 151 are formed in the top of tapered pole 152.It is possible thereby to increase the outlet air distance of damp exit 151, make the air with water mist can To spray to larger distance, so as to improve the performance of humidifier 1.Further, along the tapered pole 152 To 150 periphery of upper cover in the radial direction, upper cover 150 tilts bottom margin gradually downward.

In order to guide the water droplet condensed in upper cover 150 to central air duct 111, such as Fig. 5 and Figure 21-Figure 25 institutes Show, diversion pipe 153 is equipped between upper cover 150 and annular water tank 110, at position of the diversion pipe 153 relative to damp exit 151. Diversion pipe 153 is installed to central air duct 111 for convenience, as shown in figure 3, the close air outlet 1112 in central air duct 111 Inner wall is equipped with step 118, and one end of the separate upper cover 150 of diversion pipe 153 is only against on step 118.As shown in figure 24, upper cover 150 can include upper cover ontology 156, and rounding off portion 157 is equipped between diversion pipe 153 and upper cover ontology 156.

The air-out direction at damp exit 151 is adjusted for the convenience of the user and goes out wind velocity, upper cover 150 and the annular water tank It is big to adjust air outlet angle or air quantity equipped with outlet air regulating member 154 at the position relative to damp exit 151 between 110 It is small.Further, outlet air regulating member 154 is movably is located at the catch at damp exit 151 to adjust air outlet angle.By This, can simplify the structure of outlet air regulating member 154.Certainly, the structure of outlet air regulating member 154 is not limited to this, for example, going out Wind regulating member 154 can also be the rotation weatherseal being located at damp exit 151, such as rotatable in the horizontal direction or can The wind shield of translation；For another example, as shown in figure 26, outlet air regulating member 154 is the adjusting pipeline for being formed with multiple necking parts 1541 1542, it adjusts pipeline 1542 and connects the air outlet 1112 in central air duct 111 and damp exit 151.

According to some embodiments of the present invention, as shown in Figure 12-Figure 14, the bottom in central air duct 111 is air inlet 1111 And top is air outlet 1112, is equipped at the position of air inlet 1111 in 110 bottom of annular water tank and connects with air inlet 1111 Logical wind guide tank 112, wherein wind-guiding column 214 are inserted into wind guide tank 112.It is convenient for drawing the air flowed out from wind-guiding column 214 as a result, It is directed in central air duct 111.Optionally, wind guide tank 112 can be formed as rounded square slot, it is possible thereby to be effectively reduced air-flow Noise.Wind-guiding column 214 is connected with wind guide tank 112, is entered in central air duct 111 convenient for air as a result,.

In the example of the present invention, as shown in Figure 11 and Fig. 5, the height of wind-guiding column 214 is d1, wind guide tank 112 Depth is h1, wherein 0.4≤d1/h1≤0.7.Thus, it is possible to effectively air is guided to central air duct 111.In this hair In a bright example, as shown in Fig. 2, the length in central air duct 111 is L1, annular water tank length is L2,0.5≤L1/L2≤ 0.9.Thus, it is possible to effectively simplify the structure of humidifier 1, make the structure of humidifier 1 compacter, reasonable.Further, 0.7≤L1/L2≤0.9.Thus, it is possible to further improve the performance of humidifier 1, meet the use demand of user.Further Ground, L1/L2=0.8.In the example of the present invention, as shown in Fig. 2, a diameter of D1 in central air duct 111, outside annular water tank Diameter is D2,1/5≤D1/D2≤1/3.Thus, it is possible to effectively simplify the structure of humidifier 1, the structure of humidifier 1 is made more to step up It gathers, rationally.

Further, annular water tank bottom part ring is provided with around air inlet 1111 and wind guide tank 112 into windshield plate 113.Air inlet The water mist circle that atomizer 220 generates can be effectively located at the position of air inlet 1111 by baffle 113, so as to by wind-guiding The air that column 214 is blown out can be sufficiently mixed with water mist, and air can drive water mist to enter in central air duct 111.It is optional Ground, the cross sectional dimensions of central air duct 111 from top to bottom gradually increase, it is possible thereby to effectively increase from central air duct 111 The flow velocity for the air that air outlet 1112 flows out.

Optionally, first can be included into windshield plate 113 to enter the wind into windshield plate 1131 and second into windshield plate 1132, first Baffle 1131 is located at the air inlet 1111 in central air duct 111, and second is located at into windshield plate 1132 on wind guide tank 112.As a result, may be used Guiding the air blown out from wind-guiding column 214 to central air duct 111.Further, as shown in figure 12, first into windshield plate 1131 are set, and first extends to epicoele into the lower end of windshield plate 1131 along 1111 circumferential direction of air inlet in central air duct 111 In room 2111, second is located at the lower end of wind guide tank 112 and second extends into the lower end of windshield plate 1132 into windshield plate 1132 In chamber 2111, first into windshield plate 1131 and second into windshield plate 1132 be looped around wind-guiding column 214, central air duct 111 into 1111 periphery of air port.Thus, it is possible to effectively guide the air blown out from wind-guiding column 214 to central air duct 111, sky is avoided Gas is entered in upper chamber 2111.Further, first into windshield plate 1131 and first into mistake round and smooth between windshield plate 1131 It crosses.It is possible thereby to it is effectively reduced the wind noise of humidifier 1.Preferably, first into windshield plate 1131 and second into windshield plate 1132 lower end is concordant.

As shown in Figure 12, Figure 14, it is connected between wind guide tank 112 and air inlet 1111 by arc wind waveguide plate 114.As a result, Convenient for being mixed from the air that wind-guiding column 214 is blown out with the water mist that atomizer 220 generates, make the air blown out by central air duct 111 Humidity is uniform.Meanwhile set arc wind waveguide plate 114 that can also make air successfully between wind guide tank 112 and air inlet 1111 The top in central air duct 111 is flowed to from the bottom in central air duct 111.Preferably, as shown in figure 12, under arc wind waveguide plate 114 End is concordant into windshield plate 1132 with second into windshield plate 1131 with first.

In the example as shown in Fig. 2, Figure 12 and Figure 14, the lower end cross section in central air duct 111 is formed as round, arc Shape wind deflector 114 is coaxial with central air duct 111 and radius is equal.For example, as shown in figure 12, one end of arc wind waveguide plate 114 with First is connected into windshield plate 1131 or the second into windshield plate 1132, the circumferential direction extension in the direction center air duct 111 of the other end, Be formed as annulus in the cross section of arc wind waveguide plate 114 described on the cross section of the central axis in central air duct 111 A part, and the radius of inner ring is identical with the radius in central air duct 111.

According to one embodiment of present invention, as shown in Figure 12 and Figure 15, in central air duct 111 with arc wind waveguide plate 114 Opposite side wall is equipped with weather strip 115.For example, as shown in figure 15, weather strip 115 can include the first wall surface 1151 and top surface 1153, wherein the first wall surface 1151 connect with the inner wall in central air duct 111, top surface 1153 be on weather strip 115 with arc wind-guiding The opposite wall surface of plate 114.As a result, by setting weather strip 115 that can guide the water droplet of central 111 inner wall of air duct to upper chamber In 2111, so as to be effectively reduced the sound that drips in humidifier 1, while by setting weather strip 115 can also be by wind In guiding to central air duct 111, and then the flowing smoothness of the air in central air duct 111 can be improved.

Optionally, weather strip 115 vertically extends, and thus convenient for guiding water droplet to upper chamber 2111, avoids out Now drip sound.Further, the top surface 1153 of weather strip 115 along the central air duct 111 direction radially from outside to inside by Gradually tilt down.In other words, the distance between the first wall surface 1151 and top surface 1153 are gradually reduced from top to bottom.Further, On the cross section of annular water tank 110, tangent line and the weather strip 115 of 114 end of arc wind waveguide plate are located along the same line.

Preferably, the top surface 1153 of weather strip 115 is formed as outwardly projecting arcwall face 2141.Certainly, weather strip 115 The structure of top surface 1153 is not limited to this, for example, the top surface 1153 of weather strip 115 is formed as clinoplain, in other words, weather strip 115 tilt towards the direction that air flows.To further improve the smoothness that air flows in central air duct 111, weather strip 115 It is tilted by a predetermined angle relative to vertical direction, predetermined angular is less than 90 degree.Optionally, along central 111 radial direction of air duct from outside to inside Direction on, the width of weather strip 115 is less than central air duct 111 radial dimension of 1/4.

In order to make weather strip 115 and the firm connection of internal face in central air duct 111, the internal partial wall face in central air duct 111 Towards the inside protrusion in central air duct 111, so that the internal partial wall face is connect with the second wall surface 1152 of weather strip 115.For example, As shown in figure 3, the second wall surface 1152 is connected between the first wall surface 1151 and top surface 1153.

As shown in Fig. 6, Fig. 8 and Figure 11, according to one embodiment of present invention, wind-guiding column 214 respectively with lower chambers 2112 connect with the central air duct 111, and the side surface towards atomizer 220 of wind-guiding column 214 is formed as arcwall face 2141, And there is gas outlet 2142 on the side surface far from atomizer 220.Thus, it is possible to which make can from the air that wind-guiding column 214 flows out It is sufficiently mixed with the water mist generated with atomizer 220, water mist is uniformly mixed in air and smoothly enters central air duct In 111.At the same time it can also be effectively reduced flow noise of the air in wind-guiding column 214, so as to reduce humidifier 1 Wind noise is conducive to improve the mute quality of humidifier 1.

Further, as shown in Fig. 6, Fig. 8 and Figure 11, a side surface of the separate atomizer 220 of wind-guiding column 214 is perpendicular The outlet air surface 2143 directly extended, and the horizontal distance between outlet air surface 2143 and arcwall face 2141 is gradually reduced from top to bottom.By This, can improve the speed of air outflow gas outlet 2142, so as to improve the speed that air enters central air duct 111, And then can improve humidifier 1 goes out wind velocity and outlet air distance.

In example as shown in figure 11, the top of arcwall face 2141 raises up to be formed adjacent to the part of outlet air surface 2143 Extend lug boss 2144, extension lug boss 2144 is connect with outlet air surface 2143.Further, outlet air surface is located on wind-guiding column 214 Two sides between 2143 and arcwall face 2141 are the plane vertically extended.Thus, it is possible to effectively improve gas The speed of gas outlet 2142 is flowed out, the speed in central air duct 111 is entered, and then humidification can be improved so as to improve air Device 1 goes out wind velocity and outlet air distance.Further, gas outlet 2142 is formed in the top of outlet air surface 2143, it is possible thereby to Air is made successfully to be flowed into central air duct 111.

Humidifier 1 according to embodiments of the present invention is described referring to Fig. 1-Figure 26.

As shown in Fig. 1-Figure 26, humidifier 1 according to embodiments of the present invention, including descending shell component 200 as described above.

Humidifier 1 according to embodiments of the present invention enters the sky in lower chambers 2112 from air intake 2113 by making Gas is blown out after power supply module 270 from wind-guiding column 214, it is possible thereby to be radiated using air to power supply module 270, is reduced Temperature in lower chambers 2112 avoids each component in humidifier 1 from generating security risk due to temperature is excessively high, so as to can not only carry The safety of high humidifier 1 can also effectively delay the aging speed of each component in lower chambers 2112, and then improve humidification The performance of device 1 extends the service life of humidifier 1.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe Structure, material or feature are contained at least one embodiment of the present invention or example.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can in an appropriate manner combine in any one or more embodiments or example.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of being detached from the principle of the present invention and objective a variety of change, modification, replacement and modification can be carried out to these embodiments, this The range of invention is limited by claim and its equivalent.

Claims (8)

1. a kind of lower shell component of humidifier, which is characterized in that including：

Housing is separated into upper chamber and lower chambers in the housing by partition board, wherein the partition board be equipped with atomizer and to On the wind-guiding column that extends, the wind-guiding column connects with the lower chambers, and the bottom of the lower chambers has air intake, described Housing bottom limits bottom cavity room, and the bottom cavity room has the bottom opening for being adapted to enter into air, and the bottom opening is formed in described On the side wall of bottom cavity room, the bottom opening is set adjacent to the air intake, and the bottom wall of the upper chamber, which is equipped with, to be suitable for holding institute State the atomizer containing tank of atomizer；

Power supply module, the power supply module are located at the bottom chamber and are set far from the air intake；

Wind turbine, the wind turbine are located at the bottom chamber and guide the air that the air intake enters to by the power supply It is blown out after component from the wind-guiding column.

2. the lower shell component of humidifier according to claim 1, which is characterized in that be formed with air inlet at the air intake Grid.

3. the lower shell component of humidifier according to claim 1, which is characterized in that the housing includes thimble and is located at institute State the pedestal of thimble lower part, the pedestal apart from the lower end of the thimble have preset distance with below the pedestal by described Thimble limits the bottom cavity room, wherein the air intake is formed on the pedestal, and the bottom cavity room have be suitable for into Enter the bottom opening of air.

4. the lower shell component of humidifier according to any one of claim 1-3, which is characterized in that the bottom chamber tool There is air duct, the air duct extends to the neighbouring power supply module from the air intake and extends to the neighbouring wind-guiding column, Described in wind turbine be located in the air duct or the end in the air duct.

5. the lower shell component of humidifier according to claim 4, which is characterized in that the air duct passes through housing and foam element It limits.

6. the lower shell component of humidifier according to claim 1, which is characterized in that the power supply module includes：

Power pack, the power pack include box body and box cover；

Power panel, the power panel are located in the power pack and are connected with one end of power cord.

7. the lower shell component of humidifier according to claim 6, which is characterized in that the power supply module further includes：

Power panel pedestal, the power panel pedestal is located in the power pack, wherein the power panel is supported on the power panel On pedestal.

A kind of 8. humidifier, which is characterized in that the lower casing group including the humidifier according to any one of claim 1-7 Part.