CN106969455B - Humidifying and purifying device - Google Patents

Abstract

The invention provides a humidifying and purifying device, which comprises: a water tank for storing water; a visible body formed at least in part of the water tank and made of a material allowing the inside of the visible body to be seen through from the outside; a water tank inlet formed in the water tank and communicating the inside and outside of the water tank; a water tank humidifying medium covering the water tank inlet, formed of a material capable of absorbing water, and humidifying air passing through the water tank inlet; a watering case disposed inside the water tank, sucking water of the water tank into the inside, and pumping up the sucked water to an upper side when rotating; a watering motor providing a rotational force to the watering housing; a general spray nozzle disposed in the watering housing and spraying the water pumped up to the water tank humidifying medium; and the high-speed jet orifice is arranged in the watering shell and is used for jetting the water pumped to the visual main body.

Description

Humidifying and purifying device

Technical field

The present invention relates to humidifying and purifying devices.

Background technique

Conditioner has the air conditioner of the temperature for controlling air, for removing the impurity of air to keep purifying The air purifier of degree, humidifier from moisture to air, the dehumidifier for removing the moisture in air for providing etc..

Existing humidifier is distinguished are as follows: in the vibration-type humidifier that jolting plate makes water atomization and it spues into air； And the nature evaporation type humidifier of natural evaporation is carried out in humidifying filter.

The nature evaporation type humidifier is distinguished are as follows: utilize driving force rotating circular disk, the aerial disc surfaces of water into The disc type humidifier of row natural evaporation；Adding for natural evaporation is carried out because of the air of flowing in the humidification medium being soaked in water Wet filter type humidifier.

In humidification, a part in the air of flowing is filtered existing humidifier in the filter.But by Its major function is humidification function in existing humidifier, and there are the weaker problems of the function of purification air.

Also, existing humidifier is using the structure for adding filtering function in humidification, therefore, it is impossible to only for sky Gas is filtered and is acted.

Therefore, even if there are in the state of humidity height in existing humidifier, when user needs to carry out air cleaning The problem of by humidification is implemented.

Summary of the invention

The purpose of the present invention is to provide a kind of humidifying and purifying devices, and humidification function and air-cleaning function can be made independent Ground is acted.

The purpose of the present invention is to provide a kind of humidifying and purifying device, user with the naked eye can intuitively be confirmed whether It is humidified.

The purpose of the present invention is to provide a kind of humidifying and purifying devices, can effectively soak sink humidification medium.

The purpose of the present invention is to provide a kind of humidifying and purifying devices, can prevent water from falling externally to sink humidification medium Water.

The purpose of the present invention is to provide a kind of humidifying and purifying device, the anti-fall water flow that water is guided to the inside of sink is provided Road.

The purpose of the present invention is not limited to the purpose mentioned above arrived, and those skilled in the art can be by below Record is expressly understood that the other purposes not being mentioned to.

Humidifying and purifying device of the invention, wherein include: sink, for storing water；Visual main body forms the sink In at least part, by that can see that internal material is formed from external perspective；Sink inflow entrance is formed in the sink, The interior outside of the sink is connected；Sink humidifies medium, the sink inflow entrance is covered, by the material shape that can absorb water At to the air offer humidification by the sink inflow entrance；Water shell, configures inside the sink, by the sink Water suck internal, the water of sucking is pumped up water to upside when rotated；Water motor is poured, is provided to the watering shell Rotary force；General jet port, configuration are sprayed in the watering shell, by the water to be pumped up water to sink humidification medium； High speed jet port, configuration are sprayed in the watering shell, by the water to be pumped up water to the visual main body.

The high speed jet port is located at higher position than the general jet port.

The high speed jet port is located at higher position than the sink inflow entrance.

The general jet port is located at higher position than the sink.

The visual main body is located at higher position than the sink inflow entrance.

The water sprayed from the high speed jet port can be to wandering on the downside of the visual main body, to soak the sink humidification Medium.

The water sprayed from the general jet port can be after soaking the sink humidification medium, and Xiang Suoshu sink is wandered.

The lower end of the sink humidification medium can be superimposed with the upper end of the sink, and the general jet port is folded to described The part injection water added.

The present invention can further include: sink humidifies medium shell, and the sink humidification medium setting humidifies matchmaker in the sink Shell body；The sink humidification medium is placed on the sink in a manner of separation.

The present invention can further include: sink humidifies medium shell, and the sink humidification medium setting humidifies matchmaker in the sink Shell body；The sink humidification medium is placed on the visual main body in a manner of separation.

The present invention can further include: sink humidifies medium shell, and the sink humidification medium setting humidifies matchmaker in the sink Shell body；The upper ends of the sink humidification medium shell are under the visual main body, the sink humidification medium shell It holds superimposed with the upper end of the sink.

The lower end of the sink humidification medium shell can be located inside the sink.

It can be formed with the storage space for temporarily storing the water of storage in the downside of sink humidification medium shell, it is described General jet port sprays water to the storage space.

The storage space can be superimposed with the sink, and the storage space is located at the inside of the sink.

The lower end of the sink humidification medium can be located at the storage space.

One kind that humidifying and purifying device of the invention has the following effects that or its more than.

The first, due to being configured with anti-overflow water cover on the top of sink, even if the water progress of sink is surge, water can also be cut off It is overflowed to outside sink.

It the second, can be by the water wandered from upside by being formed in the inner sidewall of the anti-fall water flow road direction sink of anti-overflow water cover Guidance.

Third, due to being formed with accommodation space in anti-overflow water cover lower part, the inner sidewall rising along sink can be accommodated Water, can be by the water of receiving again to guiding inside sink.

4th, it can be overflowed by the water for the anti-water stopping trough that is formed in the outer baffle of anti-overflow water cover to outside sink.

5th, the direction of the water risen along the inner sidewall of sink can be turned by being formed in the Internal baffle of anti-overflow water cover It is changed to downside.

Effect of the invention is not limited to the effect mentioned above arrived, and those skilled in the art can be from claim The record of book is expressly understood that other effects not being mentioned to.

Detailed description of the invention

Fig. 1 is the perspective view of the humidifying and purifying device of the first embodiment of the present invention.

Fig. 2 is the exploded perspective view of Fig. 1.

Fig. 3 is the decomposition main view of Fig. 1.

Fig. 4 is the decomposing section of Fig. 3.

Fig. 5 is the schematic diagram for showing the air flowing of the humidifying and purifying device of the first embodiment of the present invention.

Fig. 6 is the perspective view of the humidification module shown in Fig. 2 as viewed from downside.

Fig. 7 is the main view of humidification module shown in Fig. 2.

Fig. 8 is the sectional view splitted along the line A-A of Fig. 7.

Fig. 9 is the left side view of humidification module shown in Fig. 2.

Figure 10 is the sectional view splitted along the line B-B of Fig. 9.

Figure 11 is the top view shown in Fig. 2 for placing main body.

Figure 12 is the sectional view splitted along the line C-C of Figure 11.

Figure 13 is the perspective view of the first hookup shown in Figure 12.

Figure 14 is the perspective view as viewed from the downside of Figure 13.

Figure 15 is the sectional side view of Figure 13.

Figure 16 is the perspective view of the second hookup shown in Fig. 8.

Figure 17 is the perspective view as viewed from the downside of Figure 16.

Figure 18 is the sectional side view of Figure 16.

Figure 19 is the enlarged drawing of D shown in Fig. 8.

Figure 20 is the enlarged drawing of E shown in Fig. 8.

Figure 21 is the enlarged drawing of F shown in Fig. 8.

Figure 22 is the enlarged drawing of G shown in Fig. 8.

Figure 23 is the sectional view splitted along K-K line shown in Fig. 10.

Figure 24 is the sectional view splitted along L-L line shown in Fig. 10.

Figure 25 is the perspective view for showing the setting state of watering shell shown in Fig. 4.

Figure 26 is the main view of Figure 25.

Figure 27 is the sectional view splitted along the M-M line of Figure 26.

Figure 28 is the top view of Figure 25.

Figure 29 is the exploded perspective view of watering shell shown in Figure 25.

Figure 30 is the perspective view as viewed from the downside of Figure 29.

Figure 31 is the main view of Figure 29.

Figure 32 is the sectional view splitted along the N-N line of Figure 31.

Figure 33 is the exploded perspective view of transmission shaft and bushing shown in Figure 29.

Figure 34 is the main view of Figure 33.

Figure 35 is the sectional view splitted along the O-O line of Figure 34.

Figure 36 is the perspective view of sink humidification medium shell shown in Fig. 4.

Figure 37 is the perspective view as viewed from the downside of Figure 36.

Figure 38 is the main view of Figure 36.

Figure 39 is the sectional view splitted along the line B-B of Figure 38.

Figure 40 is the enlarged drawing of the humidification medium fixed cell of Figure 39.

Figure 41 is the enlarged drawing for showing the anti-fall water flow road of Figure 39.

Figure 42 is the partial exploded perspective view of Figure 36.

Figure 43 is the perspective view as viewed from the downside of Figure 42.

Figure 44 is the main view of Figure 42.

Figure 45 is the sectional view splitted along the line D-D of Figure 44.

The explanation of appended drawing reference

10: filter assemblies；20: blowing unit；30: sink；40: pouring water unit；51: sink humidifies medium；55: spuing Humidify medium；100: cleaning module；110: matrix；120: placing main body；130: lower main body；150: blowing fan shell；160: aobvious Show module；200: humidification module；210: visual main body；230: cap assembly；260: connector；300: sink humidifies medium shell Body；302: fixed lobe；304: fixing groove；310: interior media profile；311: interior medium inflow entrance；312: interior upper frame；313: Interior vertical frame；314: interior lower frame；320: outer media profile；321: outer medium inflow entrance；322: outside upper frame；323: outer to hang down Straight frame；324: outer lower frame；325: western medium's Jie's guide part；326: western medium's Jie's pilot hole；327: inclined surface；328: storage is empty Between；329: detent slot；330: anti-overflow water cover；331: Internal baffle；332: cover；333: outer baffle；334: baffle；335: lid insertion Slot；336: cap bore；337: inclined surface；338: accommodation space；339: detent protrusion

Specific embodiment

Advantages of the present invention, feature and for realizing its method can by referring to accompanying drawing and the embodiment that is described in detail later more Add clear.But the present invention is not limited to embodiments disclosed below, but can be realized by variform, this implementation Example merely to more completely disclose the present invention, thus to technical field belonging to the present invention those of ordinary skill more completely The scope of the present invention is prompted, the present invention is only defined by the range of claims.Throughout the specification, identical attached drawing Label indicates identical structural detail.

Hereinafter, the embodiment of the present invention is described in detail referring to attached drawing.

Fig. 1 is the perspective view of the humidifying and purifying device of the first embodiment of the present invention, and Fig. 2 is the exploded perspective view of Fig. 1, figure 3 be the decomposition main view of Fig. 1, and Fig. 4 is the decomposing section of Fig. 3, and Fig. 5 is the humidifying and purifying for showing the first embodiment of the present invention The schematic diagram of the air flowing of device.

The humidifying and purifying device of the present embodiment includes: cleaning module 100；And it is placed on 100 upside of cleaning module Humidification module 200.

The cleaning module 100 is filtered after sucking outside air, will be crossed air filtering and is supplied to the humidification module 200.The humidification module 200 receives the humidification crossed air filtering and implement offer moisture, and humidifying air is spued to outside.

The humidification module 200 includes the sink 30 of storage water.When isolating the humidification module 200, the sink 30 can be separated from the cleaning module 100.The humidification module 200 is placed on 100 top of cleaning module.

User can isolate the humidification module 200 from cleaning module 100, and carry out to the humidification module 200 isolated It cleans.User can be to cleaning inside the cleaning module 100 for isolating humidification module 200.Isolating the humidification module In the case where 200, the top user oriented of the cleaning module 100 is open.The cleaning module 100 can be individually separated out It is cleaned after aftermentioned filter assemblies 10.

User can supply water to the humidification module 200.It is formed with water supply flow path in the humidification module 200, thus It can supply water externally to the sink 30.

The water supply flow path is configured to supply water to the sink at any time.For example, in the humidification module 200 In the case where in movement, it can also be supplied water by water supply flow path.For example, being incorporated in purification mould in the humidification module 200 In the state of block 100, it can also be supplied water by water supply flow path.For example, in the humidification module 200 from cleaning module 100 In the state of separation, it can also be supplied water by water supply flow path.

The cleaning module 100 is connected with humidification module 200 by connecting flow path 103.Due to the humidification module 200 It is arranged in a detachable fashion, the connection flow path 103 is distributed in cleaning module 100 and humidification module 200.

The connection flow path for being formed in the cleaning module 100 is defined as purification connection flow path 104, described add will be formed in The connection flow path of wet module 200 is defined as humidification connection flow path 105.Only the purification is placed in the humidification module 200 When module 100, the connection flow path can just be made to be connected, and accurately constitute the flow path of air.

The flowing of air for passing through in the cleaning module 100 and humidification module 200 will carry out detailed below Description.

The structure of the cleaning module 100 is described in more details as follows.

The cleaning module 100 includes: matrix 110, is formed with suction passage 101 and purification connection flow path 104；Filter Component 10 is arranged in a detachable fashion relative to described matrix 110, implements filtering to the air of flowing；Blowing unit 20, matches It sets inside described matrix 110, flows air.

Outside air is sucked inside described matrix 110 by the suction passage 101.Flow path is connected by the purification 104 will be supplied to the humidification module 200 by filtered air in the filter assemblies 10.

In the present embodiment, described matrix 110 is made of two parts.

Described matrix 110 includes: lower main body 130, is used to form shape, is formed with suction inlet 111 in downside；Place master Body 120, is used to form shape, combines on the upside of the lower main body 130.

At least one party in the cleaning module 100 or humidification module 200 may be configured with for acting to user's display The display module 160 of state.In the present embodiment, it is provided in described matrix 110 for showing humidifying and purifying device to user Action state display module 160.

The placement main body 120 and lower main body 130 are assembled in an integrated manner.Differently with the present embodiment, described Can be made as by placing main body 120 and lower main body 130 by one.

The humidification module 200 is placed on the upside for placing main body 120 in a detachable fashion, and supports described add The loading of wet module 200.

The main body 120 of placing provides the structure that can steadily place the sink 30.The placement main body 120 is institute State the structure that the sink 30 of humidification module 200 can be separated.It is described to place the structure that main body 120 is recess, so as to hold Receive the sink 30.

The placement main body 120 is formed to 110 inner recess of described matrix, can be to 110 inner containment of described matrix The sink 30, hereby it is possible to more move downward the center of gravity of humidifying and purifying device.

The humidifying and purifying device of the present embodiment passes through the cleaning module 100 by 100 input power of cleaning module Power supply is provided to the humidification module 200.Since the humidification module 200 is separable relative to the cleaning module 100 Structure, the cleaning module 100 and humidification module 200 are provided with separable power supply structure.

Since the cleaning module 100 and humidification module 200 are realized by the placement main body 120, in the placement Main body 120 configures the oriented humidification module 200 and provides the connector 260 of power supply.It is configured with and institute in the cap assembly 230 State the top connector 270 that connector 260 is connected in a detachable fashion.When placing the cap assembly 230, the top Portion's connector 270 is placed on 260 upside of connector.The cap assembly 230 receives the company by the top connector 270 Connect the power supply of the supply of device 260.

The filter assemblies 10 are detachably assembled in described matrix 110.

The filter assemblies 10 provide filtering flow path 102, and implement to filter to outside air.

The filter assemblies 10 have the structure that can be loaded and unloaded in the horizontal direction relative to described matrix 110.It is described Filter assemblies 10 are configured in a manner of intersecting with the flow direction along the upstream air of vertical direction.It is described Filter assemblies 10 are configured along the horizontal direction orthogonal with the mobile phase of air flowed from the upward side in downside.

The filter assemblies 10 can be slided relative to described matrix 110 along horizontal direction.

The blowing unit 20 generates the flowing of air.The configuration of blowing unit 20 makes sky inside described matrix 110 Gas is flowed from the upward side in downside.

The blowing unit 20 is made of blowing fan shell 150, air supply motor 22 and blowing fan 24.In the present embodiment In, in upside, blowing fan 24 is configured in downside for the configuration of air supply motor 22.

The configuration of blowing fan shell 150 is inside described matrix 110.The blowing fan shell 150 provides the sky of flowing The flow path of gas.The air supply motor 22 and blowing fan 24 are configured in the blowing fan shell 150.

The configuration of blowing fan shell 150 configures under the placement main body 120 in 10 upside of filter assemblies Side.

The blowing fan 24 be centrifugal fan, downside suck air after, radially outside discharge air.It is described to send Fan 24 radially outside and upside discharge air.The outboard end of the blowing fan 24 is formed along radial upside.

In order to reach minimum with the contact of the air of flowing, the configuration of air supply motor 22 is in the upper of the blowing fan 24 Side.The air supply motor 22 is not based on the air flow circuit of the blowing fan 24.

The humidification module 200 includes: sink 30, and water of the storage for humidification is placed on described in a detachable fashion Cleaning module 100；Water unit 40 is poured, configures inside the sink 30, sprays the water of the sink；Medium 50 is humidified, by institute The water-soaked for pouring the injection of water unit 40 is stated, the air of Xiang Liudong provides moisture；Visual main body 210, combines with the sink 30, By it can be seen that internal material is formed；Cap assembly 230 is placed on the visual main body 210 in a detachable fashion, is formed There are the discharge flow path 107 of discharge air and the water supply flow path 109 to supply water.

The sink 30 is placed on the placement main body 120.It is described to pour the configuration of water unit 40 inside the sink 30, In It is rotated inside the sink 30.

The water unit 40 that pours sucks water inside the sink, and the water of sucking is pumped up water to upside, and will be raised The radially outside injection of the water of water.It is described pour water unit 40 include watering shell 800, the watering shell 800 to its inside inhale Enter water, after the water being inhaled into is pumped up water to upside, radially outside is sprayed by it.

Humidification medium 50 described in the water-soaked sprayed from the watering shell 800.The water sprayed from the watering shell 800 It can be towards at least one party's injection in the visual main body 210 or humidification medium 50.

In the present embodiment, the medial surface of the watering shell 800 towards the visual main body 210 sprays water, injection Water is wandered downwards along the inside of the visual main body 210.It is formed in the form of water droplet in the medial surface of the visual main body 210 The drop formed, user can see the drop by the visual main body 210.

The visual main body 210 is combined with the sink 30, and is located at the upside of the sink 30.The visual main body 210 at least part is formed by the material for capableing of perspective inside.

The drop formed on 210 medial surface of visual main body can show the form for forming raindrop.From the visual master The drop that body 210 is wandered soaks the humidification medium 50.

It can configure display module 160 in the outside of the visual main body 210.The display module 160 can be with visual main body 210 or place main body 120 in a side combine.In the present embodiment, the configuration of display module 160 is in the placement main body 120。

When placing the humidification module 200, the lateral surface and the display module 160 of the visual main body 210 are mutually tight Patch.At least part in the surface of the display module 160 is formed by the material of reflected light.

The surface of the display module 160 will be also projected in the drop that the visual main body 210 is formed.User as a result, This movement of drop can be observed at two in the visual main body 210 and display module 160.

The sink 30 is formed with the sink inflow entrance 31 of air dredging.The air supplied from the cleaning module 100 is logical The sink inflow entrance 31 is crossed to 200 internal flow of humidification module.

The humidification medium 50 includes: sink humidification medium 51, and configuration is in connection flow path 103；And the humidification medium that spues 55, it configures in discharge flow path 107.

Sink humidification medium 51 configuration is on connection flow path 103, and in the present embodiment, the sink humidifies medium 51 Configure the sink inflow entrance 31 in sink 30.The sink humidification medium 51 is located at the inside of sink inflow entrance 31, to passing through The air for stating sink inflow entrance 31 provides humidification.

Sink humidification medium 51 covers the sink inflow entrance 31, air through sink humidification medium 51 and to 30 internal flow of sink.

The discharge humidification configuration of medium 55 is on discharge flow path 107.The discharge humidification medium 55 is configurable on visually At least one party in main body 210 or cap assembly 230.In the present embodiment, described spue is configured in the cap assembly 230 to add Wet medium 55.

Discharge humidification medium 55 covers the discharge flow path 107, air through discharges humidify medium 55 and to It is flowed outside cap assembly 230.

Hereinafter, being illustrated referring to attached drawing to the flowing of air.

When blowing unit 20 is acted, outside air is by being formed in the suction passage 101 of the downside of matrix 110 It flows into inside matrix 110.The upward side of air sucked by the suction passage 101 is mobile, and passes through purification in the process Module 100 and humidification module 200 are spued by being formed in the discharge flow path 107 of upside of humidification module 200 to outside.

The air for sucking the suction passage 101 passes through the filtering flow path 102 of filter assemblies 10, is passing through the filtering During flow path 102, the filter assemblies 10 are filtered outside air.

It is flowed by blowing unit 20 to connection flow path 103 by the air of the filtering flow path 102.Pass through the filtering After the air of flow path 102 is pressed by blowing fan 24, flowed along blowing fan shell 150 to connection flow path 103.

The configuration of blowing unit 20 can make the impurity such as dust be attached to described send after filtering flow path 102 The case where fan 24, reaches minimum.

In the case where before the blowing unit 20 is configured at filtering flow path 102, impurity is attached on blowing fan 24, and by This causes cleaning period to shorten.

Also, since the configuration of blowing unit 20 is before humidifying flow path 106, moisture can be made to be attached to 24 surface of blowing fan The case where reach minimum.In the case where 24 surface of blowing fan is pasted with the moisture of humidification, the feelings such as generation impurity is sticky or mouldy A possibility that condition, is larger.

Since the blowing unit 20 configuration is between filtering flow path 102 and humidification flow path 106, impurity can be made to attach Situation reaches at least, and can suitably provide the flowing pressure of air.

The connection flow path 103 connects flow path 104 by the purification for being formed in cleaning module 100 and is formed in humidification module 200 humidification connection flow path 105 is constituted.

When the humidification module 200 is in and is placed on the state for placing main body 120, the purification connects 104 He of flow path Humidification connection flow path 105 will be connected.When the humidification module 200 is in by isolated state, the purification connects flow path 104 expose with humidification connection flow path 105 to outside.

The purification connection flow path 104, which may be formed at, places main body 120, and humidification connection flow path 105 is formed in humidification module 200。

The purification connection flow path 104 and humidification connection flow path 105 are formed as pipeline form, to form specific stream Road.In the present embodiment, connection flow path 103 is dispersed to the one of a part of works and the sink 30 of placing main body 120 Part-structure object will form the connection flow path 103 when the humidification module 200 is placed in and places main body 120.

In the present embodiment, the main body 120 of placing provides the outboard structure object of the connection flow path 103, the sink 30 provide the inside structure object of the connection flow path 103.

That is, forming the connection flow path 103 between the outside of the sink 30 and the inside of placement main body 120.As a result, The connection flow path 103 is formed in sink 30 and places between main body 120.The sink 30 forms the connection flow path 103 The wall of inside, the wall placed main body 120 and form the outside of the connection flow path 103.

It is distributed the structure of connection flow path 103 in this way, the works to form flow path can be made to reach minimum.Institute Connection flow path 103 is stated to be formed along up and down direction.

It is flowed by the air of the connection flow path 103 to humidification flow path 106.The humidification flow path 106 is for supplying The section of moisture.In the present embodiment, the humidification flow path 106 is from sink humidification medium 51 until spuing and humidifying medium 55.

With medium 51 is humidified by sink in connection flow path 103, moisture can be supplied to air in the process.This Outside, it is provided with inside the sink 30 from described and pours the water droplet and the moisture evaporated from sink 30 that water unit 40 disperses.

With medium 55 is humidified by the discharge inside the sink 30, moisture can be supplied again in the process.

In the humidification flow path 106, medium 51,30 inside of sink and the humidification medium that spues are humidified by the sink 55 supply moisture.

Exposed by discharge flow path 107 to outside by the air of the humidification medium 55 that spues.

Fig. 6 is the perspective view of the humidification module shown in Fig. 2 as viewed from downside, and Fig. 7 is the main view of humidification module shown in Fig. 2 Figure, Fig. 8 is the sectional view splitted along the line A-A of Fig. 7, and Fig. 9 is the left side view of humidification module shown in Fig. 2, and Figure 10 is edge The sectional view splitted of line B-B of Fig. 9, Figure 11 be the top view shown in Fig. 2 for placing main body, Figure 12 is the C-C along Figure 11 The sectional view that line is splitted.

Referring to attached drawing, the watering shell 800 for pouring water unit 40 and making to configure inside sink 30 is rotated, and passes through institute The rotation for stating watering shell 800 sprays the water of 30 internal reservoir of sink to the medial surface of visual main body 210.

It is described to pour the offer of water unit 40 for rotating the structure of the watering shell 800.The water unit 40 that pours is described The biography that power can be transmitted to the watering shell 800 also is provided in the structure that sink 30 can be separated with placement main body 120 Dynamic model block 600.

The structure for pouring water unit 40 is described in more details as follows.

The water unit 40 that pours includes: watering shell 800, pours water motor 42, transmission module 600.

The water unit 40 that pours includes: watering shell 800, configures inside sink 30, is rotated with by sink 30 Water sucking is internal, and the water of sucking is pumped up water to upside, and the water to pump up water is spued to outside；Water motor 42 is poured, Xiang Suoshu is poured Water hull body 800 provides rotary force；The rotary force for pouring water motor 42 is passed to the watering shell by transmission module 600 800。

The watering shell 800 be the water stored in sink 30 is pumped up water to upside after, by its radially outside into The structure of row injection.

The water motor 42 that pours is to provide the structure of the rotary force for rotating the watering shell 800.

The transmission module 600 is for the rotary force for pouring water motor 42 to be passed to the watering shell 800 Structure.

The watering shell 800 pours water motor 42 and transmission module 600 and can be arranged at sink 30.In the case, User needs to pour water motor 42 and also lifts together when separating humidification module 200.Also, it is also assembled in pouring water motor 42 In the case where humidification module 200, when humidification module 200 is separated from cleaning module 100, need to make to pour the power supply knot of water motor 42 Structure has the structure that can be separated.

Therefore, it is prompted in the present embodiment and main body 120 is being placed into the configuration of water motor 42 of pouring of weight weight, and only make to water Shell 800 and the isolated structure of transmission module 600.Structure as described in the embodiment, can make be separated adds The weight of wet module 200 reaches minimum.

In the present embodiment, the watering shell 800 and to pour water motor 42 be the structure that can be separated.It is described to pour water hull Body 800 configures inside humidification module 200, pours the configuration of water motor 42 inside cleaning module 100.Separating the humidification module When 200, the watering shell 800 is separated from cleaning module 100 together with sink 30.

In order to realize the watering shell 800 and pour the separated structure of water motor 42, the biography is designed as in the present embodiment Dynamic model block 600 has the structure that can be separated.

Hereinafter, the transmission module to the present embodiment is described in more details.

Figure 13 is the perspective view of the first hookup shown in Figure 12, and Figure 14 is the perspective view as viewed from the downside of Figure 13, figure 15 be the sectional side view of Figure 13, and Figure 16 is the perspective view of the second hookup shown in Fig. 8, and Figure 17 is as viewed from the downside of Figure 16 Perspective view, Figure 18 are the sectional side views of Figure 16, and Figure 19 is the enlarged drawing of D shown in Fig. 8, and Figure 20 is the amplification of E shown in Fig. 8 Figure, Figure 21 is the enlarged drawing of F shown in Fig. 8, and Figure 22 is the enlarged drawing of G shown in Fig. 8, and Figure 23 is along K-K shown in Fig. 10 The sectional view that line is splitted, Figure 24 are the sectional views splitted along L-L line shown in Fig. 10.

The rotary force for pouring water motor 42 is passed to watering shell 800 by the transmission module 600 comprising can be separated Hookup 610,620.

Configuration is poured the hookup that water motor 42 combines and be defined as the first connection in the cleaning module 100 and with described Device 610.

By configuration in the humidification module 200 and the connection that is combined in a detachable fashion with first hookup 610 Knot device is defined as the second hookup 620.

One in first hookup 610 or the second hookup 620 is public shape, another is female shape.At this In embodiment, the first hookup 610 is made as public shape, and the second hookup 620 is made as female shape.In the present embodiment In, first hookup 610 is combined in a detachable fashion in the form of being inserted into the second hookup 620.With this implementation Example differently, can also second hookup 620 be inserted into the form of first hookup 610 and be combined.

It is described to pour the setting of water motor 42 in placement main body 120.The water motor 42 that pours is located at 22 upside of air supply motor, It is dividually configured with 22 phase of air supply motor.The sink 30 is placed inside the placement main body 120.In the water When slot 30 is placed in placement main body 120, first, second hookup 610,620 is connected in a manner of it can be driven.

The watering motor drive shaft 43 for pouring water motor 42 is configured towards upside.In the upper end of the watering motor drive shaft 43 First hookup 610 is set.

The placement main body 120 includes: to place interior main body 122, and the sink 30 is placed on the placement interior main body 122； Outer main body 128 is placed, is combined with the placement interior main body 122, positioned at the outside for placing interior main body 122, under described Main body 130 is combined to form the shape of matrix 110；Guide part 124 is placed, configuration is in the placement interior main body 122 and places Between outer main body 128, by air to guiding on the upside of the placement interior main body 122；Outer visual main body 214, with the placement Outer main body 128 combines, the outside for being formed by see-through material and being configured in visual main body 210.

Interior main body 122 is being placed in the configuration of first hookup 610.The configuration of first hookup 610 is main in placing Inside the sink insertion space of body 122.Interior main body 122 is being placed in the configuration of first hookup 610, and is exposed to upside.

First hookup 610 is preferably made as thereon the shape that lateral section is narrow, lower lateral section is wide.Described first Hookup 610 can be the form of circular cone, pyramid etc..

First hookup 610, which is formed its section closer to upside, becomes narrower.In first hookup 610 Outer peripheral surface be formed with tooth form.The tooth form of first hookup 610 is radial centered on the motor drive shaft 43 that waters to be matched It sets.The tooth form of first hookup 610 forms broached-tooth design relative to the circumferencial direction of watering motor drive shaft 43 (serration)。

First hookup 610 includes: the first hookup main body 612；First broached-tooth design 614 is formed in described The lateral surface of one hookup main body 612；Motor drive shaft engaging portion 615 is formed in the inside of the first hookup main body 612, The opening-like state in downside is formed, and watering motor drive shaft 43 is inserted into the motor drive shaft engaging portion 615；Motor drive shaft groove 616 is formed in institute Motor drive shaft engaging portion 615 is stated, the binding force with the watering motor drive shaft 43 is provided；It is anti-to enter block 618, limit the watering horse Up to the insertion depth of axis 43.

The upper side of first hookup 610 is formed in a manner of being plugged.The first hookup main body as a result, 612 upper side is formed as plane.Differently with the present embodiment, the upper side of the first hookup main body 612 can be in opening State is formed, and can be connected with the motor drive shaft engaging portion 615.

First broached-tooth design 614 is relative to watering motor drive shaft 43 along radially protruding.First broached-tooth design 614 It is extended to form longlyer along up and down direction.First broached-tooth design 614 is circumferentially square centered on the motor drive shaft 43 that waters To configured with multiple.First broached-tooth design 614 is formed in an inclined manner along up and down direction.First broached-tooth design 614 form inclination closer to its court of upside direction close with the central axis of watering motor drive shaft 43.

The upside of watering motor drive shaft 43 is inserted into the motor drive shaft engaging portion 615.The motor drive shaft groove 616 and watering Motor drive shaft 43 is assembled in the form of being interference fitted.It is right with the motor drive shaft groove 616 to be formed in the watering motor drive shaft 43 The protrusion (not shown) answered.

The anti-block 618 that enters is supported by the watering motor drive shaft 43, when assembling first hookup 610, limit Make its excessive movement.

It is inserted into first hookup 610 in second hookup 620, rotary force can be transmitted when being combined.

Second hookup 620 includes: the second hookup main body 622；Hookup engaging portion 625 is formed in described The inside of two hookup main bodys 622, the opening-like state in downside are formed, and the first hookup 610 is inserted into the hookup engaging portion 625；Second broached-tooth design 624 is formed in the medial surface of the second hookup main body 622, with first broached-tooth design 614 It is meshed；Transmission shaft engaging portion 627 is formed in the second hookup main body 622, transmits and rotates to the watering shell 800 The transmission shaft 640 of power is combined with the transmission shaft engaging portion 627；Transmission shaft groove 626 is formed in the transmission shaft engaging portion 627, the binding force with the transmission shaft 640 is provided.

The shape of the hookup engaging portion 625 is corresponded to each other with the shape of the first hookup main body 612.Described One hookup main body 612 is inserted into the hookup engaging portion 625.The first hookup main body 612 and the second hookup main body 622 can be separated along up and down direction, and mutual detent is then formed along direction of rotation.

Transmission shaft 640 is located at 620 upside of the second hookup, and is inserted into the transmission shaft engaging portion 627.The transmission Axis 640 is combined in the form of being interference fitted with the transmission shaft groove 626.

The transmission shaft groove 626 is configured on the basis of the motor drive shaft 43 that waters along radial, and canyon topography at.

In the present embodiment, the transmission shaft engaging portion 627 is formed as the space being connected with hookup engaging portion 625. Differently with the present embodiment, the transmission shaft engaging portion 627 can be formed with hookup engaging portion 625 in a manner of mutually separating.

The sectional area of the transmission shaft engaging portion 627 is smaller formed than the sectional area of hookup engaging portion 625.As a result, Step is formed between the transmission shaft engaging portion 627 and hookup engaging portion 625, so as to limit first hookup 610 movement.

Second broached-tooth design 624 has shape corresponding with first broached-tooth design 614, and is mutually nibbled It closes.

Watering motor drive shaft 43 is located at the downside of first hookup 610, and transmission shaft 640 is located at the second hookup 620 Upside.The watering motor drive shaft 43 and transmission shaft 640 can be configured at a column.

First hookup 610 and the second hookup 620 provide clutch function.Only in first hookup 610 and second hookup 620 when combining, the rotary force for the motor drive shaft 43 that waters could be passed to transmission shaft 640.

Since the hookup engaging portion 625 is configured to its downside form that sectional area is wide, upside sectional area is narrow, placing When humidification module 100, the combination of first hookup 610 and the second hookup 620 can be easily implemented.

Even if first hookup 610 and the second hookup 620 are not at the state along up and down direction accurate alignment, First, second broached-tooth design 614,624 can also be used to realize aligned in position.

The transmission module 600 is for the rotary force for pouring water motor 42 to be passed to watering shell 800.In the present embodiment In, most of structure setting of the transmission module 600 is in the sink 30, such as a part of structure of the first hookup 610 Main body 120 is being placed in setting.

The transmission module 600 includes: transmission housing 630, inside the cylinder 35 of sink 30；Transmission shaft 640, is located at It inside the transmission housing 630, is protruded through the transmission housing 630 and to upside, provides rotation to the watering shell 800 Power；Bearing 670, between the transmission shaft 640 and transmission housing 630；Under second hookup 620, with the transmission shaft 640 End combines, and Xiang Suoshu transmission shaft 640 transmits rotary force；First hookup 610 is combined with watering motor drive shaft 43, can divide From mode combined with second hookup 620, when second hookup 620 combines, pour water motor for described The rotary force of axis 43 passes to second hookup 620.

In the present embodiment, the transmission module 600 is arranged inside cylinder 35, is contacted with cutting with water phase.

In the present embodiment, the transmission housing 630, transmission shaft 640, bearing 670, the configuration of the second hookup 620 are in institute It states inside cylinder 35.

The transmission shaft 640 is arranged in a manner of running through transmission housing 630 along up and down direction.The transmission shaft 640 can It is rotated in the state of running through transmission housing 630.

The transmission housing 630 can be formed by metal material.The transmission housing 630 can be high by corrosion resistance aluminium or Huang Copper material is formed.

The transmission housing 630 is arranged inside sink 30.The sink 30, which is formed with, is exposed the first hookup 610 Insert port 39.The transmission housing 630 closes the upside of the insert port 39.

The transmission shaft 640 runs through the transmission housing 630 along up and down direction.The upper end of the transmission shaft 640 and institute It states watering shell 800 to combine, lower end is combined with the second hookup 620.

In the present embodiment, second hookup 620 is located on the upside of the bottom surface of sink 30, and configures in transmission housing Inside 630.Differently with the present embodiment, second hookup 620 is configurable on the downside of the bottom surface of sink 30.

The configuration of bearing 670 is between transmission housing 630 and transmission shaft 640.In the present embodiment, the transmission shaft 640 are configured in a manner of through the bearing 670.

The transmission housing 630 includes: bear box 650, and the opening-like state in the upper side and lower side is formed；Shell cap 660 (housing cap) is combined with the upside of the bear box 650, and transmission shaft 640 runs through the shell along up and down direction Cap 660；Shaft filler washer 680 (gasket) configures between the shell cap 660 and transmission shaft 640, is clamped in the shell cap 660 and be fixed；Shell elastic component 690 is arranged between bearing 670 and shell cap 660, for providing elastic force.

The transmission shaft 640 is formed with the bearing support end 641 for supporting the bearing 670.The bearing 670 is by the axis Hold the support of support end 641.The downside diameter ratio upside at the bearing support end 641 is larger formed.The shaft filler washer 680 from After the upside insertion of the transmission shaft 640, supported by the bearing support end 641.

The shell cap 660 is combined with the upper end of bear box 650.The shell cap 660 is fixedly clamped in cartridge housing Body 650.The shell cap 660 is formed as ring-shaped.The shell cap 660 is formed with hollow portion 661, the transmission shaft in inside 640 run through the hollow portion 661 along up and down direction.

The shell cap 660 includes: shell cap main body 662, is supported by bear box 650, is formed with and passes through for transmission shaft 640 The hollow portion 661 worn；Cap support portion 664 is formed in the shell cap main body 662, is used to support shaft filler washer 680.

The cap support portion 664 is convexly formed to 640 side of transmission shaft.The shaft filler washer 680 is supported by the cap Portion 664 supports.

The shell cap 660 is located at the lower section of the upper surface of cylinder 35.It is formed in the cylinder 35 for the transmission shaft 640 Perforative cylinder opening portion 39.

The shell cap 660 supports shaft filler washer 680, and the shaft filler washer 680 is mutually close to the upper inside face of cylinder 35.

The shaft filler washer 680 can be formed by elastic material.

The water that sink 30 can be cut off by the shaft filler washer 680 flows into inside cylinder 35.Also, the shaft filler washer 680 can Water is cut off to flow into inside bear box 650.

The shaft filler washer 680 includes: washer body 682, is close to 664 phase of cap support portion；684 (gasket of washer diaphragm Diaphragm), it is convexly formed from the washer body 682 to transmission shaft 640.

The washer body 682 is formed as the section " ┗ ", and lateral surface and downside are supported by shell cap 660.The pad Circle diaphragm 684 is integrally formed with washer body 682.

The washer diaphragm 684 is mutually close to the lateral surface of transmission shaft 640.The washer diaphragm 684 is in the up-down direction There are two formation, is flowed into dual mode cutting water.

The configuration of shell elastic component 690 is between shell cap 660 and bearing 670.The upper end of shell elastic component 690 Shell cap 660 is flexibly supported, lower end is flexibly supported by bearing 670.

The shell elastic component 690 passes through elastic force to downside pressure bearing 670.In the shell elastic component 690 Under the action of, bearing 670 can be supported by bearing support end 641.

The shell elastic component 690 makes the vibration of bearing 670 reach minimum when transmission shaft 640 rotates.

In the present embodiment, transmission housing 630 is arranged inside the cylinder 35, differently with the present embodiment, the biography Dynamic shell 630 can be to exposing inside sink.

In the present embodiment, the transmission shaft 640 is extended longlyer along up and down direction.Due to the transmission shaft 640 are extended longlyer along up and down direction, can easily increase the capacity of sink 30 as desired.

In the capacity hour of sink 30, second hookup 620 directly can be set in watering shell 800.In the case, may be used The structures such as transmission shaft 640 and bearing 670 are removed, so as to more simplify structure.

When the capacity of sink 30 is big, the long watering shell 800 of lower-upper length is needed.The length of watering shell 800 becomes When long, vibration will be generated when being rotated.That is, in the case where rotary force is only delivered to the downside of watering shell 800, watering Shell 800 such as will be distorted at the deformation, and speed difference occurs for the upper side and lower side of watering shell 800.

Under the action of such deformation or speed difference, a large amount of vibration will be generated in watering shell 800.In particular, inhaling Enter to the watering shell 800 inside and the water that pumps up water will to generate bigger vibration.Described water hull is poured being drawn into In the case that water inside body 800 is configured with eccentric state, bigger vibration will be generated.

In the present embodiment, the transmission shaft 640 in the state of extend along up and down direction longlyer with watering shell 800 center of gravity and upper end combine respectively, therefore are able to solve problem described above.

That is, in the structure of such as the present embodiment, even if the height with sink 30 increases and increases the height of watering shell 800 Degree can also make vibration reach minimum.

Hereinafter, the watering shell to the first embodiment of the present invention is described in more details.

Figure 25 is the perspective view for showing the setting state of watering shell shown in Fig. 4, and Figure 26 is the main view of Figure 25, Figure 27 It is the sectional view splitted along the M-M line of Figure 26, Figure 28 is the top view of Figure 25, and Figure 29 is point of watering shell shown in Figure 25 Perspective view is solved, Figure 30 is the perspective view as viewed from the downside of Figure 29, and Figure 31 is the main view of Figure 29, and Figure 32 is the N- along Figure 31 The sectional view that N line is splitted, Figure 33 are the exploded perspective views of transmission shaft and bushing shown in Figure 29, and Figure 34 is the main view of Figure 33, Figure 35 is the sectional view splitted along the O-O line of Figure 34.

The watering shell 800 is the structure for spraying the water stored in sink 30.The watering shell 800 is configured with For the structure pumped up water to be effectively performed to the water stored in sink 30.

The rotary force that water motor 42 is poured in watering shell 800 reception is rotated, and when being rotated, can internally be inhaled After entering the water stored in sink 30, it is pumped up water to upside.The water to pump up water inside to the watering shell 800 passes through injection Mouth 410 is spued.

The groove 810 that pumps up water is formed in the medial surface of the watering shell 800.It is described pump up water groove 810 for improve raise Water efficiency.The groove 810 that pumps up water is convexly formed in 800 medial surface of watering shell.The groove 810 that pumps up water is along upper Lower direction extends to form longlyer.The groove 810 that pumps up water is radial on the basis of the motor drive shaft 43 that waters to be configured.

The lower end of the watering shell 800 and the bottom surface of sink 30 suck interval 801 by separated a predetermined distance to be formed.Water The water of slot 30 is watered by 801 sucking of sucking interval inside shell 800.

The watering shell 800 is formed with the open state in its downside.The watering shell 800 is cup-shape.It is described The shell 800 that waters is by the inverted shape of cup.Shell space 805 is formed with inside the watering shell 800.

The cylinder 35 (column) of sink 30 is located inside the watering shell 800, is configured with inside the cylinder 35 Transmission module 600.The watering shell 800 is configured in a manner of coating cylinder 35.

The watering shell 800 is formed, and closer to upside, its plane section becomes more to extend.The cylinder 35 is formed For closer to upside, its plane section becomes more to reduce.The shape of the watering shell 800 and cylinder 35 is for being effectively performed The shape pumped up water.The shell space 805 becomes more to increase closer to its volume of upside.

When the watering shell 800 is rotated, it is inhaled into internal water under the influence of centrifugal force, is poured being tightly attached to 800 inner peripheral surface of water hull body.The groove 810 that pumps up water for being formed in watering 800 inner peripheral surface of shell is provided to internal water is inhaled into Rotary force.

The jet port 410 that the water for that will suck spues to outside is formed in the watering shell 800.In the present embodiment In, the jet port 410 is configured as along horizontal direction discharge water.The water to be pumped up water passes through the jet port 410 to outside It spues.

In the present embodiment, it can be sprayed from the water that the jet port 410 spues to visual main body 210.

The jet port 410 can adjust its number according to design condition.In the present embodiment, the jet port 410 with Mode with difference in height configures multiple in watering shell 800.Jet port by configuration in the upside of the watering shell 800 is determined Justice is high speed jet port, and the jet port for the centre configured in watering shell is defined as general jet port.

Only in watering 800 high speed rotation of shell, could spue water from the high speed jet port.It can be configured For the high speed jet port discharge water can not be passed through under the speed that the watering shell 800 usually rotates.The general spray Loophole spues water in watering all stages for usually being acted of shell.

The high speed jet port may be configured with multiple.The general jet port may be configured with multiple.

When the shell 800 that waters is rotated with usual rotation speed, the water to be pumped up water is at least higher than general jet port Ground rises.When the watering shell 800 is carried out at high speed rotation, more than the height waterborne for rising to high speed jet port pumped up water.

The high speed jet port can be along the circumferencial direction of watering shell 800 configured with multiple.The general jet port It can be along the circumferencial direction of watering shell 800 configured with multiple.

When the watering shell 800 is without rotation, 410 discharge water of jet port can not be passed through.In user only with purification When mode (cleaning module is acted, and the mode that humidification module stops) acting it, water unit 40 is poured without dynamic Make, and only blowing unit 20 is acted.Only only acted in user with humidifying mode, or with purification pattern and When humidifying mode is acted, the watering shell 800 is just rotated, and passes through the 410 discharge water of jet port.

The water to spue from the jet port 410 can be sprayed to the medial surface of visual main body 210.Due to the shell that waters 800 are rotated, and the water attack to spue from the jet port 410 is beaten the medial surface of the visual main body 210 and rotated.

User can confirm to spray the situation of water with visual manner by visual main body 210.The injection table of such water Show in being acted with humidifying mode.During user can intuitively confirm to act with humidifying mode by the injection of water.

In the visual main body 210 because the water sprayed forms drop, the drop will be wandered downwards.

In the present embodiment, the watering shell 800 is made of three parts.Differently with the present embodiment, the watering Shell 800 can be made by one or two component.

The bottom surface of lower end from the sink 30 of the watering shell 800 is separated a predetermined distance to be configured.

The watering shell 800 include: the first watering shell 820, second watering shell 840, watering case lid 860 and Watering driving section 880.

The watering shell 800 is assembled with 640 phase of transmission shaft, configured with for being transmitted to rotation from the transmission shaft 640 The structure of power.In the present embodiment, in the watering shell 800, water driving section 880 and watering case lid 860 and transmission The assembling of 640 phase of axis, and it is transmitted to rotary force.

The structure of the transmission shaft 640 is described as follows.

The transmission shaft 640 is held on it and lower end is respectively formed with screw thread 643,644, is formed with bearing branch in outer peripheral surface Support end 641,645 and axis support end 642.

Threaded upper ends 643 and watering 860 phase of case lid assembling.Lower thread 644 is assembled with 620 phase of the second hookup.

The bearing support end 641,645 and axis support end 642 are formed by changing the diameter of transmission shaft 640.Institute It states bearing support end 641,645 and is used to support bearing.The axis support end 642 is used to support watering driving section 880.

The lower thread 644 can be combined directly with the second hookup 620.In the present embodiment, in the second hookup 620 transmission engaging portion 627 configures additional hookup combination member 646, will transmission by the hookup combination member 646 Axis 640 and the second hookup 620 combine.

It is formed with transmission shaft groove 626 along up and down direction in the outer peripheral surface of the hookup combination member 646, in inner circumferential Face is formed with the screw thread (not shown) with 644 phase of lower thread assembling.

Then, each structure of the watering shell 800 is illustrated.

Opening-like state is formed respectively for the upper side and lower side of the first watering shell 820, is formed with and is pumped up water in medial surface Groove 810.The lower end of the first watering shell 820 and the bottom surface of sink 30 are separated a predetermined distance, to form sucking interval 801。

Opening-like state is formed respectively for the upper side and lower side of second watering shell 840, and is assembled in described first and is poured water hull The upper end of body 820.

The watering case lid 860 is combined with the upper end of the second watering shell 840, and covers second watering The upper aspect of shell 840.

The watering driving section 880 and at least one party's phase in the first watering shell 820 or the second watering shell 840 Connection, for delivery to the rotary force of transmission module 600.In the present embodiment, the watering driving section 880 and first watering Shell 820 is connected.

Differently with the present embodiment, it is described first watering shell 820 and second watering shell 840 can in an integrated manner into Row production.Also, differently with the present embodiment, the first watering shell 820 and watering case lid 860 can be in an integrated manner It is made.

The upper lateral section of the first watering shell 820 is formed more widerly than lower lateral section.The first watering shell 820 It is formed and is tilted along up and down direction.The first watering shell 820 can be the narrow conical form in lower lateral section.

The groove 810 that pumps up water is formed with inside the first watering shell 820.The groove 810 that pumps up water is along upper and lower To formation.The groove 810 that pumps up water is radial centered on the motor drive shaft 43 that waters to be configured.It is described pump up water groove 810 can Configured with multiple, protruded towards 800 axis center of watering shell.

The lower end of the first watering shell 820 and the inner bottom surface of sink 30 mutually separate and form sucking interval 801.The The upper end of one watering shell 820 is combined with the lower end of the second watering shell 840.

The first watering shell 820 can mutually be assembled with the second watering shell 840 or phase decomposition.In the present embodiment, institute The first watering shell 820 and the second watering shell 840 are stated by screw in conjunction with being assembled.In the first watering shell 820 Upside outer peripheral surface is formed with screw thread 822, is formed with screw thread 842 in the lower inner circumferential surface of the second watering shell 840.

The screw thread 822 for being formed in the first watering shell 820 is defined as the first screw thread 822, is formed in described second The screw thread 842 of watering shell 840 is defined as the second screw thread 842.

First of the movement for limiting the second watering shell 840 is formed in the downside of first screw thread 822 Baffle 823 (barrier).The first baffle 823 is formed along the circumferencial direction of the first watering shell 820.Described One baffle 823 is formed as band form, and the outside of the watering shell 820 of Xiang Suoshu first is convexly formed.

When shell 820 and the second watering shell 840 are watered in assembling first, the first baffle 823 is tightly attached to described the The lower end of two watering shells 840.The first baffle 823 is more convexly formed outward than first screw thread 822.

Configured with the first 825 (pac king) of liner between first screw thread 822 and first baffle 823.Described One liner 825 is leaked for cutting off water between the first watering shell 820 and the second watering shell 840.First liner 825 It is formed by elastic material.First liner 825 is formed as annular state.

Muscle 824 is set configured with liner in order to fix the position of first liner 825.Muscle 824 is arranged in the liner It is configurable on the extended line of the first screw thread 822.The liner setting muscle 824 can be a part of the first screw thread 822.

First screw thread 822 can be formed with multiple as a result, be distributed in a discontinuous manner.

General jet port 411 is configured in the first watering shell 820.In the present embodiment, the general jet port There are two 411 configurations.Two general jet ports 411 are formed towards mutual opposite direction.

The interior outside of first watering shell 820 is connected by the general jet port 411.In the present embodiment, described one As the inside opening area ratio outer openings area of jet port 411 formed widerly.

It is formed in the outer peripheral surface of the second watering shell 840 and pours hydrofoil 850.The hydrofoil 850 that pours can make humidification empty Gas is flowed.Also, the hydrofoil 850 that pours can be formed along will water shell 800 to the direction of pressure on the downside of downside.Institute Watering shell 800 is stated when being rotated, under the action of the water to pump up water, the watering shell 800 is under pressure to upside.It is described It pours hydrofoil 850 and is preferably formed as the watering shell 800 that presses to downside.

When the watering shell 800 is rotated, the hydrofoil 850 that pours draws in the air on periphery and makes its downward effluent It is dynamic.The air of humidification flow path 106 configured with the watering shell 800 is under the action of the flowing of blowing fan 24, major part It is flowed to 107 side of discharge flow path, the air for pouring 850 periphery of hydrofoil is then towards direction flowing in contrast.

It is described pour hydrofoil 850 and can be formed locally flow opposite air with the air based on blowing fan 24 and flow.It is based on The air flowing for pouring hydrofoil 850 has the effect of that the water particle for making watering 800 periphery of shell is flowed to sink 30.Institute State pour hydrofoil 850 have along downside direction formed wind direction, and draw in humidification flow path 106 water particle effect.

Also, based on the air flowing for pouring hydrofoil 850 in water from water supply flow path 109 to the top of watering shell 800 When falling, the effect that the water that will fall off collects to watering 800 side of shell is executed.

In the case where water supply in the watering shell 800 rotation by water supply flow path 109, water pours water hull with described 800 surface of body collides and disperses in an irregular pattern.It is being supplied water based on the air flowing for pouring hydrofoil 850 When, the phenomenon that water particle that will be dispersed collects to watering 800 surface side of shell can be presented.

The second watering shell 840 is formed with high speed jet port 412,413.The high speed jet port 412,413 directions Visual main body 210 sprays water.In the present embodiment, there are two the configurations of high speed jet port 412,413.The high speed is sprayed Mouth is defined as the first high speed jet port 412 and the second high speed jet port 413.

The first high speed jet port 412 and the second high speed jet port 413 shape in the opposite direction on the basis of transmission shaft 640 At.

In the present embodiment, the first high speed jet port 412 and the second high speed jet port 413 form defined height Difference.The first high speed jet port 412 and the second high speed jet port 413 are configured without in identical height.

Difference of height is formed by the first high speed jet port 412 and the second high speed jet port 413, can be made and visual main body The position of 210 water to collide is differently set.As a result, when the watering shell 800 is rotated, from the first high speed The water that jet port 412 sprays and the water from the injection of the second high speed jet port 413 will pass through mutually different path.

It is spray line by the path definition of the water to collide with the medial surface of visual main body 210.

The spray line that the first high speed jet port 412 is formed is defined as the first spray line, second high speed is sprayed The spray lines that mouth 413 is formed are defined as the second spray line.

In the present embodiment, it on the basis of certain of the visual main body 210, is sprayed from the first high speed jet port 412 Water pass through after, by the water that is sprayed from the second high speed jet port 413 in another height after the stipulated time.That is, institute State visual main body 210 medial surface formed two spray lines, the performance of visual manner in this way, be able to use family more added with Water is being sprayed in the cognition of effect ground.

In the case where the two high speed jet port discharge water from configuration in constant height, an injection will be only formed Line.When the shell 800 that waters is carried out at high speed rotation, even if the first, second high speed jet port 412,413 is in opposite direction, Phase difference will be formed extremely shortly.In the case, cause parablepsia and be considered as wandering water from a spray line.

In addition, in the case where forming two spray lines, since the position that water is collided is different, the sound occurred by collision Sound will also be form differently.That is, the sound occurred from the first spray line and the sound occurred from the second spray line are by different terrain At.Sound equipment difference in this way, user can confirm that watering shell 800 is being rotated with audible means.

By the sound equipment difference of the spray line, there is the effect that running-active status is effectively conveyed to person visually impaired or the person that listens to barrier Fruit.Also, under the situation of not light, the state that humidifying and purifying device is in movement can be also easily verified that.

In addition, being formed in the inside of the second watering shell 840 for inhibiting the moisture film of moisture film rotational flow to inhibit Muscle 870.The moisture film rotational flow refers to the flowing of the medial surface rotation along watering shell 800.

The groove 810 that pumps up water of the first watering shell 820 is to be used to form the moisture film rotational flow, the moisture film suppression Muscle 870 processed is for inhibiting the moisture film rotational flow.

In the first watering shell 820, since it is desired that pump up water to rise to the second watering shell 840 for waterborne, Moisture film rotational flow will be energetically generated, and the water for rising to the second watering shell 840 does not form moisture film rotation then Flowing is more easily sprayed by high speed jet port 412,413.

In the case where forming the moisture film rotational flow of high speed inside the second watering shell 840, water will be along inside Flowing, rather than spued by high speed jet port.

Also, it is detained the water for getting over volume in the second watering shell 840, the vibration formed in the shell 800 that waters becomes It is bigger.The water to pump up water to the second watering shell 840 needs promptly to be sprayed by high speed jet port 412,413, The bias of watering shell 800 can be made to reach minimum, and corresponding vibration is made also to reach minimum.

The moisture film inhibits muscle 870 so that moisture film rotational flow is reached minimum for executing, and makes the inclined of shell 800 of watering accordingly The heart and vibration reach the smallest function.

The moisture film inhibits muscle 870 to be convexly formed in the inside of the second watering shell 840 towards 640 side of transmission shaft.Institute Stating moisture film inhibits muscle 870 to be formed along the direction to intersect with moisture film rotational flow.

The moisture film rotational flow along the second watering shell 840 medial surface twist or circle is flowed, institute Stating moisture film inhibits muscle 870 to be formed preferably along up and down direction.

In the present embodiment, the moisture film inhibits muscle 870 to be formed along vertical direction.The moisture film inhibits muscle 870 can shape It is multiple at having.In the present embodiment, the moisture film inhibits there are three the configurations of muscle 870.Multiple moisture films inhibit muscle 870 to be driven By being configured at equal intervals on the basis of axis 640.

In the present embodiment, it is 5mm that the moisture film, which inhibits the protrusion length of muscle 870,.The moisture film inhibits the protrusion of muscle 870 Length is associated with the thickness of moisture film rotational flow, can diversely be changed according to embodiment.

In the present embodiment, the moisture film inhibits muscle 870 to be formed in a manner of being connected with watering driving section 880.Pass through It is made in a manner of inhibiting muscle 870 to be connected with watering driving section 880 moisture film, mold can be simplified.

The watering driving section 880 is the structure for the rotary force of transmission shaft 640 to be passed to watering shell 800.

In the present embodiment, the watering driving section 880 is connected with the second watering shell 840.It is different from the present embodiment Ground, the watering driving section 880 can be connected with the first watering shell 820.

In the present embodiment, the watering driving section 880 is made in an integrated manner with the second watering shell 840. Differently with the present embodiment, the watering driving section 880 can be with the second watering 840 phase of shell assembling.

The watering driving section 880 includes: bushing setting unit 882, positioned at the axis center of watering shell 800；Watering connection The bushing setting unit 882 is connected by portion 884 with watering shell 800.In the present embodiment, the bushing setting unit 882, Watering interconnecting piece 884 and the second watering shell 840 are injection molded and are made in an integrated manner.

The watering interconnecting piece 884 is made as muscle form.The watering interconnecting piece 884 is on the basis of axis center in radiation Shape is configured, and is formed with multiple.

In the present embodiment, the watering interconnecting piece 884 inhibits muscle 870 to be made in an integrated manner with moisture film.Institute It states watering interconnecting piece 884 and inhibits muscle 870 to be formed in a manner of being connected with moisture film.

The transmission shaft 640 is configured through the bushing setting unit 882.

The opening-like state in downside of the bushing setting unit 882 is formed.It is inserted by the downside of the bushing setting unit 882 Bushing 90 (bushing).

The bushing setting unit 882 and bushing 90 can be separated along up and down direction.The bushing setting unit 882 and lining Set 90 forms mutual detent in a rotational direction.

For this purpose, the side in the bushing setting unit 882 or bushing 90 is formed with bushing detent portion 93, another rectangular At there is bushing detent slot 883.In the present embodiment, it is formed with bushing detent portion 93 in bushing 90, in the formation of bushing setting unit 882 There is bushing detent slot 883.

The bushing detent slot 883 is formed in the medial surface of bushing setting unit 882, in a concave manner.The bushing Detent portion 93 is formed in the lateral surface of bushing 90, in the shape of protrusion.

Bushing detent portion 93 is inserted into bushing detent slot 883 and is clamped.

The bushing 90 is combined with the transmission shaft 640 of transmission module 600.

The bushing 90 combines with the transmission shaft 640 and is transmitted to rotary force.The bushing 90 is preferably by metal Material is formed.In the case where not being hard metal material, it would be possible to can wear, this becomes the reason of causing vibration.

The bushing 90 is formed with along the perforative bushing axis mesoporous 91 of up and down direction.It is inserted into the bushing axis mesoporous 91 The transmission shaft 640.

The bushing 90 reduces vibration when the watering shell 800 rotates.The bushing 90 is located on transmission shaft 640. In the present embodiment, the bushing 90 is located at the center of gravity of the watering shell 800.Since the bushing 90 is located at watering shell 800 center of gravity can significantly reduce the vibration of watering shell 800 when being rotated.

The bushing 90 and transmission shaft 640 are assembled with clamping combination.The bushing 90 is by the transmission shaft 640 Support.

In order to support the bushing 90, transmission shaft 640 is formed with axis support end 642.It is base with the axis support end 642 The diameter of standard, upside is small, and the diameter of downside is big.

The bushing 90 is inserted by the upside of the transmission shaft 640.

To make the abrasion generated reach minimum, the axis support end 642 is formed as taper, cavity or with cambered shape Shape.In the case where the axis support end 642 is formed as right angle, may be ground in assembling process or action process Damage.

In the case where the axis support end 642 is worn, the reason of becoming the movement of bushing 90 and cause vibration.And And in the case where axis support end 642 is worn, bushing 90 will likely be tilted or be moved, and thus cause pair with transmission shaft 640 It is neat bad.Also, in the case where the undesirable situation of alignment of bushing 90 and transmission shaft 640 occurs, bias occurs when being rotated, and Thus cause to shake.

The bushing support end 92 supported by the axis support end 642 is formed in the bushing axis mesoporous 91.The bushing Axis mesoporous 91 is formed, on the basis of the bushing support end 92, on the upside of diameter is small, downside diameter is big.

In the present embodiment, the axis support end 642 and bushing support end 92 are accordingly constituted at one.With the present embodiment Differently, the axis support end 642 and bushing support end 92 may be formed at more than at two.It in the case, can be along the biography The length direction of moving axis 640 is configured with multiple axis support ends 642, is configured with inside bushing axis mesoporous 91 also along length direction Multiple bushing support ends 92.

In the present embodiment, the axis support end 642 and bushing support end 92 are configured in middle section, but the axis branch The position for supportting end 642 and bushing support end 92 is unrelated with function.For example, the axis support end 642 and bushing support end 92 can match Set the upside or downside on bushing axis mesoporous 91.

The transmission shaft 640 is formed with the axis card plane 645 for forming mutual detent with the bushing 90 when being rotated. The axis card plane 645 is formed in the outer peripheral surface of transmission shaft 640, and is formed along up and down direction.The axis card plane 645 and institute Axis support end 642 is stated to be connected.In the present embodiment, the axis support end 642 is configured in the upside of axis card plane 645.

The bushing 90 is formed with bushing card plane 95 corresponding with the axis card plane 645.The bushing card plane 95 For the face for forming bushing axis mesoporous 91.In the present embodiment, the axis card plane 645 and bushing card plane 95 are configured with multiple. Differently with the present embodiment, the axis card plane 645 and bushing card plane 95 can also be configured only at one.

The mutual detent and the axis support end 642 and bushing of the axis card plane 645 and bushing card plane 95 support The mutual detent at end 92 is the alignment unit (ali gn) for being aligned the bushing 90.

The mutual detent of the axis card plane 645 and bushing card plane 95 provides the alignment function to vertical direction.It is described The mutual detent of axis support end 642 and bushing support end 92 provides the alignment to horizontal direction.

The mutual detent and the axis card plane 645 and bushing detent of the axis support end 642 and bushing support end 92 The mutual detent in face 95 provides the alignment to mutually different direction.

Since alignment unit provides the alignment to multiple directions, the bushing 90 can be more accurately set, and can Assembly failure is set to reach minimum.

The watering case lid 860 is combined with the upside of the second watering shell 840, pours water hull for closing described second The upside of body 840.The watering case lid 860 is combined with screw fashion with the second watering shell 840.

In the present embodiment, the watering case lid 860 is assembled with 600 phase of transmission module.Differently with the present embodiment, institute The state separated with 600 phase of transmission module can also be formed by stating watering case lid 860.In the watering case lid 860 and transmission shaft In the case that 640 combine, it can more efficiently reduce the bias and vibration of watering shell 800.

The watering case lid 860 includes: lid main body 862, covers the upside opening portion of the second watering shell 840； Lid main board 863 is extended to form in the lid main body 862 to downside, coats the upper end of the second watering shell 840；Liner Muscle 864 is set, the downside of the lid main body 862 is formed in, with the lid main board 863 formation mutually separated a predetermined distance；Axis is solid Determine portion 866, is fixed on the transmission shaft 640；The axis fixed part 866 is connected by reinforcing rib 868 with liner setting muscle 864.

Be formed as round when the lid main body 862 is as viewed from vertical view.The diameter of the lid main body 862 is than the second watering shell 840 diameter is larger formed.

The lid main board 863 forms the periphery of the lid main body 862.The lid main board 863 is formed as ring-shaped, with The lid main body 862 is made in an integrated manner.The lid main board 863 is formed with multiple raised 861 in outer side, institute Protrusion 861 is stated circumferentially to be formed in 360 degree of range.Described raised 861 in separation watering 860 Shi Xiangyong of case lid Family provides gripping sense.

The liner setting muscle 864 is located at the inside of the lid main board 863, separately advises with 863 phase of lid main board Set a distance.The second liner 865 is provided between the lid main board 863 and liner setting muscle 864.

It can be by between the 865 closing watering case lid 860 of the second liner and the second watering shell 840.

The lid main board 863 and the second watering shell 840 can be combined with screw fashion.In the present embodiment, institute It states watering case lid 860 and the second watering shell 840 is assembled with interference fit type.

The axis fixed part 866 is assembled with 640 phase of transmission shaft, is transmitted to rotary force from the transmission shaft 640.

The axis fixed part 866 and transmission shaft 640 can be combined with screw fashion.For this purpose, in the transmission shaft 640 Upper end outer peripheral surface is formed with for the screw thread 643 in conjunction with the screw of the watering case lid 860.

The screw thread for assembling with 640 phase of transmission shaft can be formed in the axis fixed part 866.In the present embodiment In, it is configured with axis fixing component 867 in the axis fixed part 866, the axis fixing component 867 passes through dual injection molding mode With 866 being integrally formed of axis fixed part.In the present embodiment, nut is used as the axis fixing component 867.

Differently with the watering case lid 860, the axis fixing component 867 uses metal material.Due to transmission shaft 640 Formed by metal material, with the transmission shaft 640 with screw fashion in conjunction with part be also required to be formed by metal material, Cai Neng Prevent to wear when being combined or be damaged.It is formed by metal material or the axis the watering case lid 860 is whole In the case that fixed part 866 is formed by metal material, screw thread preferably is formed in the axis fixed part 866 itself.

The diameter of watering case lid 860 to the second watering shell 840 is larger formed.When as viewed from upside, only reveal The watering case lid 860 out, the second watering shell 840 and the first watering shell 820 are then not exposed.

At least part in water supplied as a result, to the water supply flow path 109 can be fallen to the watering case lid 860 It falls.In the case where the watering shell 800 is rotated, the water fallen to the watering case lid 860 pours water hull described Radially outside is sprayed on body lid 860 surface.

The watering case lid 860 of rotation sprays the water of supply along direction of rotation, can present like water is from rain The effect that umbrella is fallen.In particular, water droplet can be multiple raised 861 of the circumferencial direction configuration along the watering case lid 860 It is stripped.

It collides from the medial surface of the watering water sprayed towards direction of rotation of case lid 860 and visual main body 210, and energy Enough perform rain scape.

The rain scape refers to that the drop formed on the medial surface of the visual main body 210 is rendered as the feelings wandered like raindrop The situation of shape.

Figure 36 is the perspective view of sink humidification medium shell shown in Fig. 4, and Figure 37 is the solid as viewed from the downside of Figure 36 Figure, Figure 38 is the main view of Figure 36, and Figure 39 is the sectional view splitted along the line B-B of Figure 38, and Figure 40 is the humidification medium of Figure 39 The enlarged drawing of fixed cell, Figure 41 are the enlarged drawings for showing the anti-fall water flow road of Figure 39, and Figure 42 is that the decomposed of Figure 36 is three-dimensional Figure, Figure 43 is the perspective view as viewed from the downside of Figure 42, and Figure 44 is the main view of Figure 42, and Figure 45 is cutd open along the line D-D of Figure 44 The sectional view opened.

Sink humidification medium shell is described in more details referring to attached drawing.

In the present embodiment, the shell for being provided with sink humidification medium 51 in medium 50 will be humidified and is defined as sink humidification matchmaker Shell body 300.

In the present embodiment, the sink humidification configuration of medium shell 300 is in sink 30.In particular, the sink humidification The configuration of medium shell 300 is in 31 inside of sink inflow entrance.In the present embodiment, the sink humidification medium shell 300 is placed on Visual main body 210, and it is located at the inside of the sink 30.Differently with the present embodiment, the sink humidification medium shell 300 can It is arranged in sink 30.

The sink humidification medium shell 300 passes through the air for sucking screw clamp inflow entrance 31.The sink humidifies matchmaker The air passed through described in 51 pairs that is situated between implements humidification.

Sink humidification medium 51 is provided in sink humidification medium shell 300 to provide moisture to the air of flowing, In addition to this, the upside of the sink 30 is covered also to prevent the water in the sink 30 to be spilled off.

For example, the water stored in sink 30 can be overflowed to outside sink 30 in the case where being applied with external impact.Example Such as, when by 200 separate mobile of humidification module, the water of sink 30 can be spilled off.For example, in 110 run-off the straight of matrix, sink 30 water can be overflowed to outside.

Such situation in order to prevent, sink humidification medium shell 300 are tightly attached to the upper edge of sink 30, hereby it is possible to The water of the sink 30 is inhibited to overflow to outside sink 30.

When sink humidification medium shell 300 is placed on the visual main body 210, the upper side edge of lower end and sink 30 Edge is mutually close to.Differently with the present embodiment, the upper end of sink humidification medium shell 300 and sink 30 can be made to be fastened or phase It is overflowed in conjunction with thoroughly cutting water has been carried out.

In the present embodiment, prevented by the way that a part of sink humidification medium shell 300 to be close to 30 phase of sink Only spilling water.

The sink humidification medium shell 300 includes: interior media profile 310, is located at 51 inside of sink humidification medium, support The sink humidifies medium 51, is formed with the interior medium inflow entrance 311 bypassed air through；Outer media profile 320 is located at the water Slot humidifies 51 outside of medium, supports the sink humidification medium 51, is formed with the outer medium inflow entrance 321 bypassed air through；It is anti- Overflow cover 330 is combined at least one party in the interior media profile 310 or outer media profile 320, with 30 phase of sink It is close to prevent the water of the sink 30 from overflowing.

The sink humidification configuration of medium 51 is between interior media profile 310 and outer media profile 320.The sink humidification Medium 51 covers sink inflow entrance 31.The sink humidification medium 51 is formed as annular state.In the present embodiment, the sink Humidification medium 51 is formed as its downside funnel shape that sectional area is small, upside sectional area is big.The sink humidification medium 51 is opposite It is configured in an inclined manner in up and down direction.The inclination of sink humidification medium 51 allow for air-flow direction and It is formed.

The air flowed by connection flow path 103 to sink inflow entrance 31 will form side upward compared with moving horizontally To inclined flowing.Formed in an inclined manner sink humidification medium 51 can be mutually orthogonal with air-flow direction mode into Row configuration.

In the case where air flowing is mutually orthogonal with sink humidification medium 51, it can prevent air from tending to sink humidification medium 51 specific part flowing, can make air on entire area uniformly across.

In order to fix the sink humidification medium 51, in the outer media profile 320 or interior media profile 310 at least One side can be formed with the humidification medium fixed cell for fixing the sink humidification medium 51.

In the present embodiment, the humidification medium fixed cell is made of protrusion and slot.

The humidification medium fixed cell includes: fixed lobe 302, is formed in the interior media profile 310 or outer medium A side in frame 320；Fixing groove 304, the another party being formed in the interior media profile 310 or outer media profile 320, institute It states fixed lobe 302 and is folded in the fixing groove 304.

In the present embodiment, the fixed lobe 302 is formed in outer media profile 320, and fixing groove 304 is formed in interior medium Frame 310.Differently with the present embodiment, position can be configured on the contrary.In the fixed lobe 302 and fixing groove 304 Between configured with sink humidify medium 51, be fixed when fixed lobe 302 is folded in fixing groove 304.

The fixed lobe 302 and the anti-water stopping trough of fixing groove 304 humidification medium 51 are in interior media profile 310 and outer medium frame It is moved between frame 320.

In the present embodiment, in order to form the fixing groove 304, a part of the interior media profile 310 is convex to upside Out.

The fixing groove 304 is formed to downside in open state, and fixed lobe 302 is convexly formed to upside.

By the combination of the fixed lobe 302 and fixing groove 304, also has and be incorporated in 310 He of interior media profile The effect of outer media profile 320.

The interior medium inflow entrance 311 bypassed air through is formed in the interior media profile 310.In the outer media profile 320 are formed with the outer medium inflow entrance 321 bypassed air through.

Interior medium inflow entrance 311 and outer medium inflow entrance 321 are formed that air can be sucked in 360 degree of omnidirections.It is interior Medium inflow entrance 311 and outer medium inflow entrance 321 can be configured in a manner of opposed facing.

The interior media profile 310 is formed that its upside diameter is big, downside diameter is small.The outer media profile 320 It is formed that its upside diameter is big, downside diameter is small.In the present embodiment, the sink humidifies the shape on the whole of medium shell 300 As funnel shape.

The outer media profile 320 and interior media profile 310 are combined relative to each other with interference fit type.Institute It states outer media profile 320 and when interior media profile 310 is interference fitted, the sink humidification medium 51 will be fixed.

The anti-overflow water cover 330 covers a part in the upper side of sink 30, overflows to prevent the water of water stopping trough 30.And And anti-overflow water cover 330 provides the function of preventing the water wandered from upside from directly falling to the water surface of sink 30.

The anti-overflow water cover 330 is assembled in the downside of outer media profile 320 and interior media profile 310.The anti-overflow water cover 330 are interference fitted at least one party in outer media profile 320 or interior media profile 310.

Assembled outer media profile 320 and interior media profile 310 are defined as media profile component.

The upper ends of the media profile component are in the visual main body 210.It is wandered along the visual main body 210 Water can be wandered along the media profile component.

The configuration of anti-overflow water cover 330 is in the lower end of media profile component, for holding the media profile component.It is described Anti-overflow water cover 330 guides the water temporarily stored to 30 medial surface of sink for temporarily storing the water wandered.In this implementation In example, the anti-overflow water cover 330 provides a part in anti-fall water flow road.

The anti-overflow water cover 330 makes waterfall noise reach minimum for guiding the water wandered.The anti-overflow water cover 330 At least part in the lower end of media profile component can be formed to hold.In the present embodiment, the anti-overflow water cover 330 wraps The entire lower end of media profile component is covered, and prevents water from directly falling to 30 water surface of sink.

Be formed as annulus shape when the anti-overflow water cover 330 is as viewed from vertical view.The upper side of the anti-overflow water cover 330 will be from The water that media profile component is wandered collects, and guides to the medial surface of sink 30.The downside of the anti-overflow water cover 330 is stifled The inside edge of sink 30 is stated in residence, to cut off the water overflowed to outside the sink 30.

The interior media profile 310 includes: interior upper frame 312, is placed on the visual main body 210；Interior vertical frame 313, extend in the interior upper frame 312 to downside, is used to form the interior medium inflow entrance 311；Interior lower frame 314, with institute It states interior vertical frame 313 to be connected, is placed in the upper side of anti-overflow water cover 330.

Multiple interior vertical frames 313 are configured between the interior upper frame 312 and interior lower frame 314.It is described it is interior on Interior medium inflow entrance 311 is formed between frame 312 and interior lower frame 314 and interior vertical frame 313.

The upper side of the interior upper frame 312 is formed towards inside.In the present embodiment, the interior upper frame 312 is upper Side is formed as curved surface, and the water wandered along the visual main body 210 is guided to sink humidification medium 51.

Handle 315 is formed in the interior vertical frame 313.The handle 315 can be formed with multiple.The handle 315 It is protruded in interior vertical frame 313 towards inside.User can lift entire sink humidification medium shell 300 by the handle 315.

The interior upper frame 312 is formed as annular state, the opening-like state in inside.The interior lower frame 314 is formed as ring Form, the opening-like state in inside.

In order to be placed on the lower part guide groove 217 of visual main body 210, the interior upper frame 312 is than the outer medium Radially outside is more convexly formed frame 320.

The outer media profile 320 is the structure similar with the interior media profile 310.With the interior media profile 310 in the same manner, the outer media profile 320 include: outer medium inflow entrance 321, outside upper frame 322, outer vertical frame 323 and Outer lower frame 324.

Storage space 328 is formed in the outer lower frame 324.The water wandered temporarily is stored in the storage space 328. The storage space 328 is formed as ring-shaped.Be formed with vertical wall in the inside of the outer lower frame 324, for prevent water to It overflows inside.The water of the storage space 328 is flowed to aftermentioned western medium Jie guide part 325.

Differently with the interior media profile 310, the outer media profile 320 further includes for by outside upper 322 He of frame Western medium's Jie's guide part 325 that outer lower frame 324 is connected.

Western medium Jie guide part 325 supports the outside upper frame 322 and outer lower frame 324.Western medium Jie guide part 325 are formed with spare space in inside.Western medium Jie guide part 325 is connected with the storage space 328.

The water of sink humidification medium 51 is discharged western medium Jie guide part 325 to anti-overflow guide part 330.

The lower side of western medium Jie guide part 325 be formed with for by internal water to the anti-overflow guide part Western medium's Jie's pilot hole 326 of 330 discharges.Western medium Jie pilot hole 326 radially forms scale.The western medium mediates as a result, Introduce formation inwardly to hole 326.The anti-overflow guide part 330 is closed with the mutual type of western medium Jie guide part 325.

The bottom surface of western medium Jie guide part 325 is formed as inclined surface 327.The inclined surface 327 is formed its inside Height, outside are low.The water of western medium Jie guide part 325 is drawn along the outside medium pilot hole 326 in the inclined surface 327 as a result, It leads.Western medium Jie pilot hole 326 is configured in the end of the inclined surface 327.

In the present embodiment, there are three the configurations of western medium Jie guide part 325.Western medium Jie guide part 325 is pressed respectively It is configured, and is configured in the form of radial at equal intervals.

The water of the storage space 328 outside medium guide part 325 under Gravitative Loads is mobile.The water of storage space 328 After along the flowing of also circumferencial direction, Xiang Suoshu western medium Jie's guide part 325 is mobile, and by western medium Jie pilot hole 326 to Anti-overflow water cover 330 is discharged.

By the storage space 328, western medium's Jie's guide part 325, western medium's Jie's pilot hole 326, anti-overflow water cover 330 knot Structure can prevent water from directly falling from sink humidification medium shell 300 to the water surface of sink 30.

The anti-overflow water cover 330 includes: cover 332, covers the top of sink 30；Baffle 334, with the cover 332 The mode being connected is formed, and is bent from the cover 332 to form accommodation space 338；Lid insertion groove 335 is formed in the lid Portion 332, western medium Jie guide part 325 are inserted into the lid insertion groove 335；Cap bore 336 is formed in the lid insertion groove 335, with It is connected and is drained inside the sink 30.

The configuration of cover 332 is on the downside of media profile component.The cover 332 is configurable on the interior of the sink 30 Portion.The cover 332 can cover top a part of the sink 30.In the present embodiment, the cover 332 is along the water The medial surface of slot 30 is formed.

The lid insertion groove 335 the cover 332 to downside canyon topography at.Institute is inserted into the lid insertion groove 335 State western medium's Jie's guide part 325.The lid insertion groove 335 is along vertical direction canyon topography at 325 edge of western medium Jie guide part Vertical direction insertion.

The movement for being inserted into 325 its transverse direction of western medium's Jie's guide part of the lid insertion groove 335 is restricted.The lid insertion Slot 335 and western medium's Jie's pilot hole 326 are separated a predetermined distance.

Cap bore 336 is formed in the lid insertion groove 335.The cap bore 336 is formed in a manner of radially perforative.It is described It is connected inside cap bore 336 and the sink 30.The cap bore 336 is formed towards 30 medial surface of sink.From the cap bore The water of 336 discharges is moved along 30 medial surface of sink.

The bottom surface of the lid insertion groove 335 is formed as inclined surface 337.The inclined surface 337 and western medium Jie guide part 325 Inclined surface 327 is corresponding.

Be formed with clamping slot 335a at least one of described lid insertion groove 335, western medium Jie guide part 325 can It is formed with clamping section 325a corresponding with the clamping slot 335a.

The clamping section 325a is convexly formed to downside, is inserted into the clamping slot 335a along up and down direction.The folder Tight portion 325a and clamping slot 335a can be used as the position for being able to confirm that the binding site of outer media profile 320 and anti-overflow water cover 330 Determination unit come using.In the case where the clamping section 325a and clamping slot 335a not consistent, outer media profile 320 and anti- Overflow cover 330 can not be assembled.

The cover 332 can be mutually close to the medial surface of sink 30.The cover 332 can be with the upper end edge of the sink 30 Edge is mutually close to.The cover 332 can be superimposed with the upper end of the sink 30.In the present embodiment, the cover 332 and sink 30 medial surface is mutually close to, and is mutually close to the upper end-face edge of the sink 30.

It is low that the inclined surface 337 is formed height, outside on the inside of it.It is configured in the end of the inclined surface 337 described Cap bore 336.The water to spue from the cap bore 336 is in contact with the medial surface of sink 30.It can by the inclined surface 327,337 Water is guided to 30 medial surface of sink.

The cover 332 is formed in an inclined manner.It is low that the cover 332 is formed height, inside on the outside of it.The lid The incline structure in portion 332 inhibits the water of upside to flow to outside cover 332.The water of 332 upper side of cover is along incline structure It flows inwardly.

It is guided along the upside flowing water of the cover 332 to the storage space 328.As a result, along described The water that the upper side of cover 332 is wandered is via the storage space 328, western medium's Jie's pilot hole 326, cap bore 336 into sink 30 Side guides.By structure as described above, it can prevent the water wandered from directly falling to the water surface of the sink 30.

The baffle 334 is formed together accommodation space 338 with the cover 332.The accommodation space 338 is formed in described The downside of cover 332.The accommodation space 338, will be along the inner sidewall of the sink 30 when the water of the sink 30 shakes The surge water capacity is received, and it is guided to the downside of the sink 30.

The baffle 334 includes Internal baffle 331 and outer baffle 333.

The Internal baffle 331 and outer baffle 333 are rolled in the downward lateral bending of the cover 332 and are formed.331 edge of Internal baffle The inside edge of the cover 332 formed, and downwards lateral bending folding and formed.The outer baffle 333 is along the cover 332 Outer ledge is formed, and lateral bending is rolled over and formed downwards.

The outer baffle 333 is mutually close to the medial surface of the sink 30.

The Internal baffle 331 is close to outer 320 phase of media profile.More specifically, the Internal baffle 331 with it is described it is outer under 324 phase of frame is close to.

The Internal baffle 331 and outer lower frame 324 are mutually combined.In the Internal baffle 331 or outer lower frame 324 A side be formed with detent protrusion 339, be formed with detent slot 329 in another party.In the present embodiment, in the formation of Internal baffle 331 There is detent protrusion 339, is formed with detent slot 329 in outer lower frame 324.

In the present embodiment, the anti-overflow water cover 330 is located at the inside of sink 30, the outer baffle 333 and sink 30 Medial surface is mutually close to.

In the case that the water stored in the sink 30 as a result, shakes, rise along the inner sidewall of the sink 30 Afterwards, it is flowed along the outer baffle 333, cover 332 and Internal baffle 331.That is, the water risen along 30 inner sidewall of sink After its direction is converted into downside in the accommodation space 338, then it is guided to the center of sink 30.

As described above, the anti-overflow water cover 330 can prevent the water of the sink 30 from overflowing to outside sink 30.

Also, sink humidify medium shell 300 by interior upper frame 312, storage space 328, western medium's Jie's pilot hole 326, The structure of cover 332, cap bore 336, provide prevent from directly falling from the water that visual main body 210 is wandered to the water surface of sink 30 it is anti- Overboard flow path.

Above by reference to attached drawing, preferred embodiments of the present invention have been disclosed for illustrative, but the present invention is not limited to the above institutes The specific embodiment stated, in the range of the technical idea of the invention advocated in without departing substantially from claims, this field Those skilled in the art can carry out various deformation implementation to it, such deformation implementation should not be detached from technical idea of the invention or Prospect and individually understood.

Claims (12)

1. a kind of humidifying and purifying device, wherein

Include:

Sink extends including the sink main body for storing water and the sink main body extended to form from the sink main body to upside Portion；

Sink inflow entrance is formed between the sink main body extension, and the interior outside of the sink is connected；

Visual main body configures in the upside of the sink inflow entrance, forms at least part in the sink, by can be from outer Portion's perspective sees that internal material is formed；

Sink humidify medium, configure in the sink inflow entrance, the material by that can absorb water is formed, to pass through the sink stream The air of entrance provides humidification；

Water shell, configures inside the sink, the water of the sink is sucked inside using rotation, by the water of sucking It pumps up water to upside；

Water motor is poured, provides rotary force to the watering shell；

General jet port, the interior outside of the watering shell is connected, and the water to be pumped up water is humidified matchmaker to the sink Be situated between injection；And

The interior outside of the watering shell is connected, positioned at the upside of the general jet port, will be pumped up water by high speed jet port The water sprayed to the visual main body.

2. humidifying and purifying device according to claim 1, wherein

The high speed jet port is located at higher position than the sink inflow entrance.

3. humidifying and purifying device according to claim 1, wherein

It is wandered on the downside of from the water that the high speed jet port sprays to the visual main body, to soak the sink humidification medium.

4. humidifying and purifying device according to claim 1, wherein

The water sprayed from the general jet port after soaking the sink humidification medium, wander by Xiang Suoshu sink.

5. humidifying and purifying device according to claim 1, wherein

The lower end of sink humidification medium and the upper end of the sink main body are superimposed, and the general jet port is to the superposition Part spray water.

6. humidifying and purifying device according to claim 1, wherein

Further include:

Sink humidifies medium shell, and the sink humidification medium setting humidifies medium shell in the sink；

The sink humidification medium is placed on the sink in a manner of separation.

7. humidifying and purifying device according to claim 1, wherein

Further include:

Sink humidifies medium shell, and the sink humidification medium setting humidifies medium shell in the sink；

The sink humidification medium is placed on the visual main body in a manner of separation.

8. humidifying and purifying device according to claim 1, wherein

Further include:

Sink humidifies medium shell, and the sink humidification medium setting humidifies medium shell in the sink；

The upper ends of sink humidification medium shell in the visual main body, the lower end of the sink humidification medium shell with The upper end of the sink main body is superimposed.

9. humidifying and purifying device according to claim 8, wherein

The lower end of the sink humidification medium shell is located at the inside of the sink main body.

10. humidifying and purifying device according to claim 8, wherein

It is formed with the storage space for temporarily storing the water of storage on the downside of sink humidification medium shell,

The general jet port sprays water to the storage space.

11. humidifying and purifying device according to claim 10, wherein

The storage space and the sink are superimposed, and the storage space is located at the inside of the sink.

12. humidifying and purifying device according to claim 10, wherein

The lower end of the sink humidification medium is located at the storage space.