CN106801961B - Humidifying and purifying device - Google Patents

Abstract

The invention provides a humidifying and purifying device, which comprises: a water tank for storing water; a lower body having a suction port formed therein, the lower body supplying air sucked through the suction port to the water tub; an upper body stacked on an upper side of the lower body, and guiding air sucked from the suction port to the water tank, wherein the water tank is detachably mounted on the upper body; the upper main body includes: a water tank insertion space into which the water tank is detachably inserted; and a connection flow path for guiding the air supplied from the suction inlet to the water tank insertion space. According to the humidification and purification device of the present invention, the water tank can be detachably placed in the upper body, and the air supplied from the lower body can be guided to the inside of the water tank through the connection flow path formed in the upper 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 can be by the water droplet formed in visual main body Intuitively to confirm the state of humidification progress.

The purpose of the present invention is to provide a kind of humidifying and purifying devices, and water can be placed in a detachable fashion by being provided with Slot, and the upper main body of air can be guided to the sink.

The purpose of the present invention is to provide a kind of humidifying and purifying device, having can sufficiently ensure to sink supply The structure of the flow of air.

The purpose of the present invention is to provide a kind of humidifying and purifying devices, have the company that can make the air supplied to sink It connects angle and reaches the smallest structure.

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；Lower main body, is formed with suction inlet, will The sink is supplied to by the air that the suction inlet sucks；Upper main body is layered in the upside of the lower main body, by the suction The air of entrance sucking is guided to the sink, and the sink is placed on the upper main body in a manner of separation；On described Main body includes: sink insertion space, and the sink is inserted into the sink insertion space in a manner of separation；Flow path is connected, The air that the suction inlet is supplied is guided to the sink insertion space.

The upper main body can include: upper outer main body is used to form shape, combines with the lower main body；Upper interior main body, matches It sets in the inside of the upper outer main body, is formed with the sink insertion space；The connection flow path is formed in the upper outer main body Between the upper interior main body.

The upper outer main body can be formed to be configured with the mode in the continuous face of lateral surface of the lower main body.

The present invention can further include: insertion groove is formed in the bottom surface of the upper interior main body, by the lower body supports；In conjunction with Component is arranged in the insertion groove, the upper interior main body and the lower main body is combined.

The present invention can further include: shock insulation component is inserted into the insertion groove to configure in the sink insertion space, for sealing The insertion groove is closed, supports the sink so that bottom surface of the sink away from the upper interior main body is mutually separated a predetermined distance.

The present invention can include: watering shell configures inside the sink, is rotated will store in the sink Water sucking is internal, and the water of sucking is pumped up water to upside；Transmission shaft configures inside the sink, with the watering Shell combines；Water motor is poured, configuration waters motor drive shaft in the lower part of the upper interior main body to run through the bottom of the upper interior main body The mode in face configures, and Xiang Suoshu transmission shaft provides rotary force so that the watering shell rotates；First hookup, with the watering Motor drive shaft combines；Second hookup is configured in a manner of separation with first hookup, is mutually tied with the transmission shaft It closes；First hookup configuration is in the sink insertion space, and the second hookup configuration is in the sink, described the When one hookup and second hookup combine, under the action of the shock insulation component, the sink and the upper interior master Body is mutually separated a predetermined distance.

The present invention can further include: air guide member configures between the upper interior main body and the upper outer main body, is used for shape At the connection flow path, the air provided by the suction inlet is guided to sink insertion space side.

The upper end of the air guide member can be mutually close to the upper interior main body, the lower end of the air guide member with it is described Upper outer main body is mutually close to.

The air guide member can collect inwardly the air flowed along the outside of the lower main body, and by it to institute State guidance inside sink.

The air guide member can include: the flow direction of guide part, the air provided along the suction inlet is formed；Turn Portion is changed, is connected with the guide part, the flow direction for the air being guided is converted.

The guide part can be mutually close to the upper outer main body, and the converter section is mutually close to the upper interior main body.

The upper interior main body can be formed with the upper inflow entrance that the connection flow path is connected with the sink insertion space, The converter section guides air to the upper inflow entrance.

The sink can be formed with for being connected to inside and outside sink inflow entrance, and the upper inflow entrance configuration is in the sink stream On the outside of entrance, configured with being connected with the sink inflow entrance.

The mode in the outside that the air guide member can coat the upper interior main body in 360 degree of omnidirections is formed, will The air of the lower main body supply is in 360 degree of omnidirections to guiding inside the sink.

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

The first, sink can be placed in a detachable fashion in upper main body, it can be by being formed in the connection flow of upper main body Road is by air that lower main body supplies to guiding inside sink.

The second, it by forming connection flow path between upper outer main body and upper interior main body, is formed in upper interior main body for being inserted into water The sink insertion space of slot can be such that connection flow path is configured in a manner of mutually separating with sink insertion space, hereby it is possible to The situation for making the water of sink flow into connection flow path reaches minimum.

Third is combined upper interior main body and lower main body by combination member, in the insertion for being provided with the combination member Slot configures shock insulation component, can cut off the vibration between sink and upper interior main body.

4th, by configuring air guide member between upper outer main body and upper interior main body, can make the joint angle of air with And the flow resistance of air reaches minimum.

5th, it is formed in a manner of coating upper interior main body due to air guide member, the air of sink supply is in 360 degree of Quan Fang It flows upwardly into, hereby it is possible to sufficiently ensure the flow of air.

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 sectional view splitted along the line B-B 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 air cleaning module shown in Fig. 2 as viewed from downside.

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

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

Figure 11 is the exploded perspective view that sink mounts are decomposed from Fig. 6.

Figure 12 is the perspective view as viewed from the upside of Figure 11.

Figure 13 is the bottom view of Figure 11.

Figure 14 is the sectional view splitted along the line B-B of Figure 13.

Figure 15 is the enlarged drawing of the A of Figure 14.

Figure 16 is the perspective view shown on the downside of the upper main body of Fig. 2.

Figure 17 is the main view of Figure 16.

Figure 18 is the sectional view splitted along the line A-A of Figure 17.

Figure 19 is the bottom view of Figure 16.

Figure 20 is the top view of Figure 16.

Figure 21 is the sectional view splitted along the line B-B of Figure 20.

Figure 22 is the sectional view splitted along the L-L line of Figure 10.

Figure 23 is the decomposing section of the humidifying and purifying device of the second embodiment of the present invention.

The explanation of appended drawing reference

10: filter assemblies；20: blowing unit；300: sink；400: pouring water unit；51: sink humidifies medium；55: spitting Medium is humidified out；100: air cleaning module；110: matrix；120: upper main body；130: lower main body；150: blowing fan shell； 160: display module；200: air cleaning module；210: visual main body；230: cap assembly；260: connector

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 sectional view splitted along the line B-B of Fig. 3, and Fig. 5 is to show of the invention first to implement The schematic diagram of the air flowing of the humidifying and purifying device of example.

The humidifying and purifying device of the present embodiment includes: air cleaner module 100 (air clean modul e)；And it puts Set the air cleaning module 200 (air wash module) in 100 upside of air cleaner module.

The air cleaner module 100 is filtered after sucking outside air, and crossing air filtering, to be supplied to the air clear Mold cleaning block 200.The air cleaning module 200 receives the humidification crossed air filtering and implement offer moisture, by humidifying air It spues to outside.

The air cleaning module 200 includes the sink 300 of storage water.When isolating the air cleaning module 200, The sink 300 can be separated from the air cleaner module 100.The air cleaning module 200 is placed on air cleaner 100 top of module.

User can isolate the air cleaning module 200 from air cleaner module 100, and to the air cleaning isolated Module 200 is cleaned.User can be to cleaning inside the air cleaner module 100 for isolating air cleaning module 200.In In the case where isolating the air cleaning module 200, the top user oriented of the air cleaner module 100 is open.It is described Air cleaner module 100 can be cleaned after being individually separated out aftermentioned filter assemblies 10.

In the present embodiment, the filter assemblies 10 use electric precipitation mode.The filter assemblies 10 can be by applying The power supply added generates potential difference, carries out dust to the impurity in air by the potential difference of generation.

It can be cleaned after isolating filter assemblies 10 by the impurity of dust.

User can supply water to the air cleaning module 200.It is formed in the air cleaning module 200 for water flow Road, so as to supply water externally to the sink 300.

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

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

The connection flow path for being formed in the air cleaner module 100 is defined as cleaning connection flow path 104, by being formed in The connection flow path for stating air cleaning module 200 is defined as humidification connection flow path 105.Only put in the air cleaning module 200 When being placed in the air cleaner module 100, the connection flow path can just be made to be connected, and accurately constitute the flow path of air.

For the flowing of the air passed through in the air cleaner module 100 and air cleaning module 200 will later into The detailed description of row.

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

The air cleaner module 100 includes: matrix 110, is formed with suction passage 101 and cleaning connection flow path 104；It crosses Filter module 10 is arranged in a detachable fashion relative to described matrix 110, implements filtering to the air of flowing；Blowing unit 20, it configures 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 cleaning 104 will be supplied to the air cleaning 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；Upper main body 120, it is used to form shape, is combined on the upside of the lower main body 130.

At least one party in the air cleaner module 100 or air cleaning module 200 may be configured with for user Show the display module 160 of action state.In the present embodiment, it is provided in described matrix 110 and is humidified for being shown to user The display module 160 of the action state of purification device.

The upper main body 120 and lower main body 130 are assembled in an integrated manner.Differently with the present embodiment, on described Main body 120 and lower main body 130 can be made as one.

The air cleaning module 200 is placed on the upside of the upper main body 120 in a detachable fashion, and described in support The loading of air cleaning module 200.

The upper main body 120 provides the structure that can steadily place the sink 300.The upper main body 120 is described The structure that the sink 300 of air cleaning module 200 can be separated.The upper main body 120 is the structure of recess, so as to hold Receive the sink 300.

The upper main body 120 is formed to 110 inner recess of described matrix, can be to 110 inner containment institute of described matrix Sink 300 is stated, 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 is clear by the air by 100 input power of air cleaner module Clean module 100 provides power supply to the air cleaning module 200.Since the air cleaning module 200 is relative to the sky The separable structure of gas cleaning module 100, the air cleaner module 100 and air cleaning module 200 are provided with separable Power supply structure.

Since the air cleaner module 100 and air cleaning module 200 are realized by the upper main body 120, in institute State the connector 260 that main body 120 configures the oriented offer of air cleaning module 200 power supply.Match in the cap assembly 230 It is equipped with the top connector 270 being connected in a detachable fashion with the connector 260.Placing the cap assembly 230 When, the top connector 270 is placed on 260 upside of connector.The cap assembly 230 passes through the top connector 270 Receive the power supply that the connector 260 supplies.

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 is in 10 upside of filter assemblies, and configuration is in upper 120 downside of main body.

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 air cleaning module 200 includes: sink 300, and water of the storage for humidification is placed in a detachable fashion The air cleaner module 100；Water unit 400 is poured, configures inside the sink 300, sprays the water of the sink；Humidify matchmaker Jie 50 provides moisture by the air of the water-soaked pouring water unit 400 and spraying, Xiang Liudong；Visual main body 210, with the water Slot 300 combines, by it can be seen that internal material is formed；Cap assembly 230 is placed on described visual in a detachable fashion Main body 210 is formed with the discharge flow path 107 of discharge air and the water supply flow path 109 to supply water.

The sink 300 is placed on the upper main body 120.It is described to pour the configuration of water unit 400 inside the sink 300, It is rotated inside the sink 300.

The water unit 400 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 400 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 300, and is located at the upside of the sink 300.The visual master At least part of body 210 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 upper main body 120 in a side combine.In the present embodiment, the configuration of display module 160 is in the upper main body 120.

When placing the air cleaning module 200, the lateral surface and the display module 160 of the visual main body 210 Mutually it is close to.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 300 is formed with the sink inflow entrance 31 of air dredging.The sky supplied from the air cleaner module 100 Gas is by the sink inflow entrance 31 to 200 internal flow of air cleaning 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 300.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 300 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 air in the process Cleaning module 100 and air cleaning module 200, it is outside by being formed in the discharge flow path 107 of upside of air cleaning module 200 Portion spues.

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 cleaning for being formed in air cleaner module 100 and to be formed in air clear The humidification connection flow path 105 of mold cleaning block 200 is constituted.

When the air cleaning module 200 is in the state for being placed on upper main body 120, the cleaning connects flow path 104 It will be connected with humidification connection flow path 105.When the air cleaning module 200 is in by isolated state, the cleaning connects It connects flow path 104 and humidification connection flow path 105 exposes to outside.

The cleaning connection flow path 104 may be formed at main body 120, and humidification connection flow path 105 is formed in air cleaning mould Block 200.

The cleaning 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 be dispersed to main body 120 a part of works and one of the sink 300 Separation structure object will form the connection flow path 103 when the air cleaning module 200 is placed in upper main body 120.

In the present embodiment, the upper main body 120 provides the outboard structure object of the connection flow path 103, the sink 300 The inside structure object of the connection flow path 103 is provided.

That is, forming the connection flow path 103 between the outside of the sink 300 and the inside of upper main body 120.As a result, The connection flow path 103 is formed between sink 300 and upper main body 120.The sink 300 forms the connection flow path 103 The wall of inside, the upper main body 120 form the wall in 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 300 from described and pours the water droplet and the moisture evaporated from sink 300 that water unit 400 disperses.

With medium 55 is humidified by the discharge inside the sink 300, moisture can be supplied again in the process.

In the humidification flow path 106, medium 51,300 inside of sink and the humidification matchmaker that spues are humidified by the sink Be situated between 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 air cleaning module shown in Fig. 2 as viewed from downside, and Fig. 7 is air cleaning mould shown in Fig. 2 The main view of block, Fig. 8 are the sectional views splitted along the line A-A of Fig. 7, and Fig. 9 is the left side view of air cleaning module shown in Fig. 2 Figure, Figure 10 are the sectional views splitted along the line B-B of Fig. 9, and Figure 11 is the exploded perspective view that sink mounts are decomposed from Fig. 6, figure 12 be the perspective view as viewed from the upside of Figure 11, and Figure 13 is the bottom view of Figure 11, and Figure 14 is cutd open along what the line B-B of Figure 13 was splitted Face figure, Figure 15 are the enlarged drawings of the A of Figure 14.

Referring to attached drawing, the sink 300 includes: sink main body 320, for storing water；Sink mounts 340, with the water The lower part of groove body 320 combines；Sink inflow entrance 31 is formed in the side of the sink main body 320；Cylinder 35, configuration exist The inside of the sink main body 320, and be convexly formed to upside；Sink main body extension 380, in the sink main body 320 It extends to form to upside, is combined with the visual main body 210；Buoy shell 330 configures in the sink main body 320 Portion, buoy 332 (floater) are moved in the buoy shell 330 along up and down direction.

In the present embodiment, the sink main body 320 is formed as the cylindrical shape of its opening-like state in upside.With the present embodiment Differently, the sink main body 320 is formed as various shapes.

It is formed with cylinder 35 in the sink main body 320, aftermentioned transmission module 600 is configured inside the cylinder 35. The cylinder 35 is for cutting off or the water stored in sink main body 320 being inhibited to be in contact with transmission module 600.

The sink mounts 340 are combined with the outside bottom surface of sink main body 320.In the sink mounts 340 and sink Defined space is formed between main body 320.The space being formed between the sink main body 320 and sink mounts 340 is determined Justice is sink mounts space.The sink mounts space and external holding closed state, to avoid water penetration.

The sink main body extension 380 is extended to form in the sink 300 to upside.The sink main body extension 380 are used to form the sink inflow entrance 31.The sink inflow entrance 31 is formed between the sink main body extension 380.

The sink inflow entrance 31 is formed in the side of sink main body 320.The sink inflow entrance 31 is relative to sink master Body 320 is formed in such a way that 360 degree omnidirectional.The sink inflow entrance 31 is connected with flow path 103 is connect.

The sink main body extension 380 will be from the water that the medial surface of the visual main body 210 is wandered to the sink 300 Inside guides.By guiding the water wandered from the visual main body 210, waterfall noise can be made to reach minimum.

The sink main body extension 380 is combined with the lower end of visual main body 210.Extend in multiple sink main bodies At least one of portion 380 is configured with the sink engaging portion 381 combined with the visual main body 210.The sink engaging portion 381 configurations are in the outside of sink main body extension 380.(do not schemed by the combination member combined with the sink engaging portion 381 Show), visual main body 210 and sink 300 are combined.

Cylinder 35 is configured in the sink main body 320.In the present embodiment, the cylinder 35 is formed as conical form. The watering shell 800 is provided in a manner of coating the cylinder 35.In the present embodiment, the cylinder 35 and the sink Main body 320 is made in an integrated manner.The cylinder 35 is in the bottom surface of the sink main body 320 to upside projectedly shape At.

The sink main body 320 has been formed in the interior thereof buoy shell 330.It is configured with inside the buoy shell 330 Buoy 332.The buoy 332 is formed by the substance of the light specific gravity than water, according to the water level stored in sink 300, described It is moved inside buoy shell 330 along up and down direction.

The inner sidewall of the sink main body 320 is arranged in the buoy shell 330.The buoy shell 330 is along upper and lower Direction extends longlyer.The buoy shell 330 has the structure that the water of the sink 300 can be made to flow into.

The lower end 331 of the buoy shell 330 is convexly formed in the bottom surface of the sink main body 320 to downside.It will be to It is buoy accommodation space 333 that the definition space to be formed is protruded in the downside of the sink main body 320.

When buoy 332 is located at the buoy accommodation space 333, there is no the state of water in the sink 300.

The buoy 332 is a part of water level sensor.Permanent magnet 335 is configured in the buoy 332.The water Level sensor includes the Magnetic Sensor 334 for detecting the magnetic force of the permanent magnet 335.The configuration of Magnetic Sensor 334 exists Upper main body 120.

The water level sensor can detect the water level of the sink 300 in a non contact fashion as a result,.Especially since The sink 300 has separable structure, preferably sensed water level in a non contact fashion.It is detected using the water level sensor Whether signal out can also judge the placement of the sink 300.For example, being detected in the Magnetic Sensor 334 described permanent When magnet, control unit (not shown) can determine whether out to be placed with sink 300.

The sink mounts 340 include the substrate 342 (base boarder) protruded in bottom surface to upside, in the substrate 342 are formed with the slot 343 being inserted into for the lower end 331 of the buoy shell 330.The lower end 331 described in 343 sandwiched of slot.It is logical It crosses the slot 343 and exposes the lower end 331.The lower end 331 of the buoy shell 330 exposed by the slot 343 can make described The detection of Magnetic Sensor 334 becomes easy.

In the case where the lower end 331 is coated by substrate 342, the magnetic field signal of permanent magnet will be reduced, so as to It can cause error detection.

Expose lower end 331 by the slot 343, can easily detect to be located at the buoy 332 inside the lower end 331 Permanent magnet.

In the sink main body 320 and sink mounts 340 configured with the structure for improving the intensity of sink.The sink 300 serve not only as other than the space use of storage water, it is also necessary to be firmly supported and pour water unit 400, inhibit to pour water unit accordingly The vibration generated in 400.

In the case where pouring water unit 400 described in being unable to fully supporting, the bottom surface 301 of sink main body 320 will become Shape is rocked, to generate vibration.The vibration generated in the sink 300 will diffuse into total object, to add to entire Wet purification device causes bad influence.

To reach such situation at least, it is configured in sink main body 320 and sink mounts 340 for improving intensity Structure.

The bottom surface for being formed in the cylinder 35 of the sink main body 320 is formed in open shape.It will be in described in open shape The bottom surface of cylinder 35 is known as sink main body insert port 329.Aftermentioned bear box is inserted by the sink main body insert port 329 650.The bear box 650 is the structure of transmission module 600.

Pedestal insert port 349 is formed in the inside of the sink mounts 340.The configuration of pedestal insert port 349 is in institute State 329 downside of sink main body insert port.The pedestal insert port 349 is located at 650 downside of bear box.

Expose the lower part of the bear box 650 by the pedestal insert port 349.Pass through the pedestal insert port 349 It is inserted into aftermentioned first hookup 610.

The bear box 650 includes: bear box main body 652, is inserted into inside the cylinder 35；Casing ledge 654, shape At in the lower end of the bear box main body 652, mutually it is close to the bottom surface of the sink main body 320.

The opening-like state of lower aspect of the bear box 650 is formed.By the opening-like state of the bear box 650 Bottom surface is known as bear box insert port 659.Aftermentioned second hookup 620 is configured in the bear box insert port 659.

The bear box insert port 659 and pedestal insert port 349 are interconnected.

The pedestal insert port 349 is located at 659 downside of bear box insert port.Pass through the pedestal insert port 349 Expose second hookup 620.Can be inserted into aftermentioned first hookup 610 by the pedestal insert port 349, and with it is described Second hookup 620 combines in a detachable fashion.

The casing ledge 654 is formed along radial outside.The downside bottom of the casing ledge 654 and sink main body 320 Mutually it is close in face.When as viewed from vertical view, the casing ledge 654 is formed more widerly than the plane of the cylinder 35.

The cylinder 35 and casing ledge 654 (housing flange) configuration are in concentric shafts.

The casing ledge 654 is combined by combination member 651 with the sink 300.Combination member 651 can run through institute It states casing ledge 654 and is combined with the sink main body 320.

Additionally with the first combination member 651 for fixing the bear box 650, configured with for fixing sink master The combination member 655 of body 320 and sink mounts 340.

The combination member 651 for being used to fix the bear box 650 is defined as the first combination member 651, will be used for solid The combination member 655 of the fixed sink main body 320 and sink mounts 340 is defined as the second combination member 655.

In the present embodiment, first combination member 651 disposably combine sink mounts 340, casing ledge 654 with And sink main body 320.Since first combination member 651 is in combination with three structures, can fix strongerly described in Bear box 650.Also, since first combination member 651 disposably combines three structures, it can be improved the sink 300 lower part intensity.

In order to which first combination member 651 is arranged, it is respectively formed in the sink main body 320 and sink mounts 340 Engaging portion 321,341.

The main body engaging portion 321 for being formed in the sink main body 320 is formed as pillar (boss) form, is formed in the water The pedestal engaging portion 341 of slot bottom seat 340 is formed as pore morphology.

The casing ledge 654 is formed with for the perforative flange engaging portion 653 of first combination member 651.It is described convex Edge engaging portion 653 is pore morphology.

First combination member 651 is screw, and first combination member 651 runs through 341 He of pedestal engaging portion Casing ledge 654 is simultaneously fixed with 321 phase of main body engaging portion.First combination member 651 is combined in downside to upside.

First combination member 651 and engaging portion 341,653,321 are respectively formed with multiple.Described first combines structure Part 651 is configured at least two, in the present embodiment, is configured there are four radial centered on transmission shaft 640.

When as viewed from vertical view, first combination member 651 is matched centered on transmission shaft 640 by 90 degree at equal intervals It sets.

Additionally with the first combination member 651 for fixing the bear box 650, configured with for fixing sink master The combination member 655 of body 320 and sink mounts 340.

The first combination member 651 for being used to fix the bear box 650 is defined as the first combination member 651, will be used The second combination member 655 is defined as in the combination member 655 of the fixation sink main body 320 and sink mounts 340.

The combination member 655 combines sink main body 320 and sink mounts 340, to more improve the sink 300 intensity.

Second combination member 655 is for combining sink main body 320 and sink mounts 340.Not with the present embodiment It, can be instead of combination member and by the way that sink main body and sink mounts be combined based on the mutual detent of grab etc. with ground.In In the case where combining by mutual detent, small interval will be formed, thus may be more fragile to vibration.In the present embodiment In, it is such in order to prevent to happen, by the second combination member 655 by 340 phase knot of sink main body 320 and sink mounts It closes.

Second combination member 655 is combined in the lower part of sink mounts 340, simultaneously through the sink mounts 340 It is combined with sink main body 320.It is formed in the bottom surface of the sink main body 320 for second combination member 655 combination Engaging portion 325.

The engaging portion 321 combined with first combination member 651 is defined as the first engaging portion 321, will with it is described The engaging portion 325 that second combination member 655 combines is defined as the second engaging portion 325, will be formed in the sink mounts 340 Engaging portion 341 is defined as pedestal engaging portion 341.

Second engaging portion 325 is convexly formed in the bottom surface of the sink main body 320 to downside.Described second combines Portion 325 is formed as pillar shape.

Second engaging portion 325 is radial centered on transmission shaft 640 to be configured.Second engaging portion 325 Have in 640 circumferential arrangement of transmission shaft it is multiple, it is each by being configured at equal intervals.In the present embodiment, second engaging portion 325 are pressed centered on transmission shaft 640 there are six 60 degree of intervals configurations.

Except through second combination member 655 by sink mounts 340 abutting be fixed on 320 bottom surface of sink main body with Outside, it is close to the sink mounts 340 with 654 phase of casing ledge.

The flange support 348 for being used to support the casing ledge 654 is formed in the sink mounts 340.It is described convex Edge supporting element 348 is convexly formed to upside.

The flange support 348 is formed in 349 periphery of pedestal insert port.In the present embodiment, the flange support 348 are formed as round along the pedestal insert port 349.

The pedestal engaging portion 341 is configured on the outside of the flange support 348.That is, in the flange support 348 In the state of supporting the bear box 650, the first combination member 651 is by sink mounts 340, casing ledge 654 and sink Main body 320 is combined.

In addition, being each configured with the muscle for improving intensity in the sink main body 320 and sink mounts 340.

The muscle for being formed in the sink main body 320 in order to reinforce intensity is known as main body reinforcing rib 350, water will be formed in The muscle of slot bottom seat 340 is known as base reinforcing ribs 355.

The main body reinforcing rib 350 is formed in the bottom surface 301 of sink main body 320.The main body reinforcing rib 350 is in sink master The bottom surface of body 320 is convexly formed to downside.

The main body reinforcing rib 350 includes: the first reinforcing rib 352, is formed as radial on the basis of transmission shaft 640；The Two reinforcing ribs 354 are circumferentially formed on the basis of the transmission shaft 640.

First reinforcing rib 352 extends to form until edge from the sink main body insert port 329.Described first adds Strengthening tendons 352 are radial be formed with it is multiple.

In the sink main body insert port 329, radially outside forms concentric circles to second reinforcing rib 354.Described second Reinforcing rib 354 in a manner of constituting concentric circles radially outside configured with multiple.

First reinforcing rib 352 and the second reinforcing rib 354 are formed in a manner of intersecting.

The thickness of sink main body 320 can be made to reach minimum by first reinforcing rib 352 and the second reinforcing rib 354, And intensity is also able to maintain in the state of making thickness reach minimum.

The vibration of bear box 650 can be made to sink 300 by first reinforcing rib 352 and the second reinforcing rib 354 Radial outside transmitting situation reach minimum.

The bias poured when water unit 400 acts can be made to reach by first reinforcing rib 352 and the second reinforcing rib 354 It is minimum.It pours water unit 400 due to described and is extended to form longlyer along up and down direction, in the intensity for reinforcing 300 bottom surface 301 of sink In the case where, the bias for the upper end for pouring water unit 400 can be made to reach minimum.

The base reinforcing ribs 355 are formed along the edge of sink mounts 340.

It is formed with the slot 356 being recessed along up and down direction in the sink mounts 340, is formed in the slot 356 described Base reinforcing ribs 355.

The slot 356 is formed along the edge of the sink mounts 340.When as viewed from the bottom surface of the sink mounts 340, The slot 356 forms closed curve.

The base reinforcing ribs 355 are along the slot 356 configured with multiple.

In addition, configured with the closing knot for inhibiting water penetration between the sink main body 320 and sink mounts 340 Structure.

The first liner 361 configured with the inside edge for closing the sink main body 320 and sink mounts 340 (packing) the second liner 362 of the outer ledge and for closing the sink main body 320 and sink mounts 340.

First liner, the 361 cutting water or moisture are flowed by pedestal insert port 349.Second liner, 362 cutting Water or moisture are flowed by the outer ledge of the sink main body 320 and sink mounts 340.

Slot 363 is set configured with the first liner in order to which first liner 361 is arranged.The first liner setting slot 363 may be formed at at least one party in flange support 348 or casing ledge 654.In the present embodiment, in casing ledge 654 Bottom surface be formed with the first liner setting slot 363.The first liner setting slot 363 is formed along 349 periphery of pedestal insert port Closed curve.

It is described first liner setting slot 363 to upside canyon topography at.It is convex in the flange support 348 and the shell When 654 phase of edge is close to, as first liner 361 is realized closing by abutting.

In addition, being also equipped with liner 365 between the casing ledge 654 and sink main body 320.The liner 365 In 654 upside of casing ledge.The liner 365 is used for sealing flume main body insert port 329.It is described to pad 365 along sink master Body insert port 329 forms closed curve.

In the present embodiment, 365 configuration of liner is combining structure in conjunction with described first in the downside of sink main body 320 When part 651, it is close between bear box 650 and sink main body 320.The liner 365 preferably combines structure than first Part 651 or main body engaging portion 321 are located inside.

In addition, slot 364 is arranged configured with the second liner in order to which second liner 362 is arranged.

The second liner setting slot 364 is configurable on at least one party in sink main body 320 or sink mounts 340.In In the present embodiment, it is formed in above the sink mounts 340.It is described second liner setting slot 364 to downside canyon topography at.

The second liner setting slot 364 forms closed curve along the edge of sink mounts 340.The second liner setting Slot 364 is formed by the muscle 367 protruded in the upper surface of sink mounts 340 to upside.

In the present embodiment, the second liner setting slot 364 is located at 355 upside of base reinforcing ribs.Configured with described The second liner setting slot 364 is configured on the upside of the slot 356 of base reinforcing ribs 355.

That is, configured for the slot 356 of the base reinforcing ribs 355 and the second liner setting 364 or more under type of slot, It can also reinforce the intensity of the second liner setting slot 364 accordingly.

The second liner setting slot 364 is formed in a manner of hiding the lower end 331 of the buoy shell 330.It is described floating The lower end 331 for marking shell 330 is located at the outside of the liner setting slot 364.

In addition, being provided with the viewer module 390 of light-permeable in the bottom surface of the sink 300.The viewer module 390 makes purple Outside line penetrates.

Body openings portion 326 is formed in the sink main body 320.Base openings are formed in the sink mounts 340 Portion 346.The base openings portion 346 is located at 326 downside of body openings portion.The body openings portion 326 and base openings Portion 346 is configured along up and down direction.

The viewer module 390 is configured between the sink main body 320 and sink mounts 340.The viewer module 390 are close between the sink main body 320 and sink mounts 340.

In the present embodiment, the viewer module 390 is combined with 320 bottom surface of sink main body, described for closing Body openings portion 326.

UV module 190 for providing from ultraviolet light to the viewer module 390 is configured in upper main body 120.From described The ultraviolet light that UV module 190 generates penetrates the viewer module 390 to 300 internal transmission of sink.Pass through the ultraviolet light The water stored in sink 300 can be sterilized.

Then, the movement-oriented part 310 for the bottom surface for being formed in sink 300 is illustrated.

It is configured in the bottom surface of the sink 300 for leading the water of storage to the flowing that the watering shell 800 guides To part 310.The movement-oriented part 310 can be made in an integrated manner with the sink 300.In the present embodiment, institute Movement-oriented part 310 is stated to be integrally formed with sink main body 320.The movement-oriented part 310 is in the sink main body 320 bottom surface is convexly formed to upside.

The less situation of the water stored in the sink 300 is defined as few water.Few water ratio passes through watering shell 800 The minimum of sprayable water wants more.

Few water can be the height of the inner bottom surface from sink 300.

When the watering shell 800 is in the state stopped, the water height of storage is the amount sprayable by jet port, But after watering shell 800 rotates, water height may be lower than sucking interval.

This is because central water is mobile to the inner sidewall of sink 300 under the action of the shell 800 that waters rotates.It is described Movement-oriented part 310 is used to inhibit the weighting of such water.

When the water stored in the sink is few water, the sucking of the watering shell 800 is can be improved in the movement-oriented part 310 Efficiency.The movement-oriented part 310 provides flowing to the direction of the water of sink internal rotating upward.Also, the flowing is led Guide the water of sink internal rotating towards watering shell 800 to part 310.

The movement-oriented part 310 by along the inner side edge flowing water of sink 300 to watering shell 800 locating for center It guides.The movement-oriented part 310 forms the minimum separation distances (5mm) with watering shell.The movement-oriented part 310 Have the effect of improving few water efficiency, reduces noise, reduces vibration.

The inner sidewall of the movement-oriented part 310 and the sink main body 320 is also mutually separated a predetermined distance.

When rotating the water of sink 300 by the watering shell 800, mutually close with watering shell 800 The flow velocity of the water of distance rotation is different with the flow velocity of the water of the inner sidewall rotation along sink main body 320.

The movement-oriented part 310 can make the flow velocity in sink reach uniform.For this purpose, when as viewed from vertical view, flowing The angle that the length direction of guide part 310 and the lateral surface of watering shell 800 are constituted is formed within 90 degree.

The movement-oriented part 310 includes the first inclined surface 312 and the second inclined surface 314.

First inclined surface 312 is formed along the flow direction of dampening.Rotation is met by first inclined surface 312 Water.The water of rotation rises along first inclined surface 312 to upside.It first inclined surface 312 will be along in sink 300 The water of portion edge rotation is guided to watering 800 side of shell.

Second inclined surface 314 is formed towards the direction opposite with the first inclined surface 312.In first inclined surface 312 And second can be formed with the boundary 315 that water is crossed between inclined surface 314.When as viewed from vertical view, in the present embodiment, the side Boundary 315 can be configured along the direction that the surface with watering shell 800 constitutes tangent line.

The movement-oriented part 310, which is used only one, can also play its effect.In the present embodiment, the movement-oriented part There are two 310 configurations.

Then, pour water unit 400 of the configuration inside sink 300 is illustrated.

The watering shell 800 for pouring water unit 400 and making to configure inside sink 300 is rotated, and the watering is passed through The rotation of shell 800 sprays the water of 300 internal reservoir of sink to the medial surface of visual main body 210.

It is described to pour the offer of water unit 400 for rotating the structure of the watering shell 800.The water unit 400 that pours is in institute State the biography for also being provided in the structure that sink 300 can be separated with upper main body 120 and can transmitting power to the watering shell 800 Dynamic model block 600.

The structure for pouring water unit 400 is described in more details as follows.

The water unit 400 that pours includes: watering shell 800, pours water motor 42, transmission module 600.

The water unit 400 that pours includes: watering shell 800, configures inside sink 300, is rotated with by sink 300 Water suck internal, the water of sucking is pumped up water to upside, the water to pump up water is spued to outside；Pour water motor 42, Xiang Suoshu The shell 800 that waters 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 300 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 300.In this situation Under, user needs to pour water motor 42 and also lifts together when separating air cleaning module 200.Also, pouring water motor 42 In the case where being assembled in air cleaning module 200, when air cleaning module 200 is separated from air cleaner module 100, need to make The power supply structure for pouring water motor 42 has the structure that can be separated.

Therefore, it is prompted in the present embodiment and configures the water motor 42 that pours of weight weight in upper main body 120, and only make to pour water hull Body 800 and the isolated structure of transmission module 600.Structure as described in the embodiment can make the air that can be separated The weight of cleaning 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 air cleaning module 200, pours the configuration of water motor 42 inside air cleaner module 100.Described in separation When air cleaning module 200, the watering shell 800 is separated from air cleaner module 100 together with sink 300.

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.

Figure 16 is the perspective view shown on the downside of the upper main body of Fig. 2, and Figure 17 is the main view of Figure 16, and Figure 18 is along Figure 17 The sectional view that line A-A is splitted, Figure 19 are the bottom views of Figure 16, and Figure 20 is the top view of Figure 16, and Figure 21 is cutd open along the B-B of Figure 20 The sectional view opened, Figure 22 are the sectional views splitted along the L-L line of Figure 10.

The upper main body 120 constitutes the top of matrix 110, and for placing the sink 300.The sink 300 is inserted into Inside the upper main body 120.

The upper main body 120 supports the loading of the air cleaning module 100.In particular, the sink 300 is placed on institute Main body 120 is stated, the sink 300 and upper main body 120 contact with each other.

Shock insulation component 370 is configured between the sink 300 and upper main body 120.The shock insulation component 370 is by the water Slot 300 and upper main body 120 are mutually separated a predetermined distance, and the sink 300 and upper main body 120 are carried out shock insulation (vibration isolation)。

That is, the shock insulation component 370 cuts off the vibration between sink 300 and upper main body 120.The shock insulation component 370 will Sink 300 and upper main body 120 are mutually separated a predetermined distance.

The shock insulation component 370 is preferably formed by elastic material.The shock insulation component 370 configuration sink 300 or on At least one party in main body 120.

In the present embodiment, the configuration of shock insulation component 370 in upper main body 120 and supports the sink 300.

The configuration of shock insulation component 370 protrudes rule in the inside of the upper main body 120, in the bottom surface of the upper main body 120 Fixed height.The loading of air cleaning module 200 of the support of shock insulation component 370 including sink 300.

The vibration that the shock insulation component 370 cuts off the air cleaner module 100 is transmitted to air cleaning module 200.It cuts The blowing fan 24 that configures in the air cleaner module 100 of breaking, air supply motor 22, pouring the vibration of water motor 42, to be transmitted to air clear Mold cleaning block 200.

Also, the vibration for pouring water unit 400 that the shock insulation component 370 cuts off the air cleaning module 200 is transmitted to Upper main body 120.

By the shock insulation of the shock insulation component 370, vibration can be reduced and pass to user or the situation of vibrating noise occurs.

Also, the shock insulation for passing through the shock insulation component 370 can significantly reduce a possibility that resonance occurs.

Hereinafter, the structure of the upper main body 120 is described in more details.

The upper main body 120 includes: upper outer main body 128 (upper outer body), is used to form the outer of matrix 110 Shape is combined with lower main body 130；Upper interior main body 140 (upper inner body) configures in the upper outer main body 128 Side, the sink 300 are inserted into the upper interior main body 140, and the upper interior main body 140 provides connection flow path 103；Air guide member 170 (air guide) combine the upper interior main body 140 and upper outer main body 128, for drawing air to the sink 300 It leads.

It is configured in a manner of mutually separating since the upper main body 120 will connect flow path with sink insertion space, it can The case where making the water of sink 300 flow into connection flow path, reaches minimum.Especially since being divided by upper interior main body, connection flow Road configuration is able to suppress water and flows into connection flow path in the outside in the space of storage water.

The opening-like state in upside of the upper interior main body 140 is formed, and the sink 300 is inserted into the upper interior main body 140.Institute State a part that interior main body 140 is formed in the cleaning connection flow path 104 that filtering air flows into.

The upper interior main body 140 is formed with upper inflow entrance 121 corresponding with sink inflow entrance 31.The upper inflow entrance 121 It is not necessary structural detail.As long as the shape that upper main body 120 exposes the sink inflow entrance 31 to connection flow path 103 is i.e. It is abundant.

The air guide member 170 draws the air supplied by cleaning connection flow path 104 to the upper inflow entrance 121 It leads.The air guide member 170 collects the air risen along the outside of matrix 110 inwardly.The air guiding Part 170 is used to convert the flow direction of the air flowed from the upward side in downside.Only, the air guide member 170 is empty in conversion When the flow direction of gas, its angle is made to reach minimum so that the flow resistance of air reaches minimum.

The air guide member 170 is formed in a manner of coating the outside of upper interior main body 140 on 360 degree.The air Guide part 170 guides air to the sink 300 in 360 degree of omnidirections.The air guide member 170 will be under The air that the outside of main body 130 is guided is collected inwardly, and is provided feed trough 300.By tying as described above Structure, the flow for the air that can sufficiently ensure to supply to the sink 300.

Therefore, the air guide member 170 includes: guide part 172, is formed along the flow direction of air；Converter section 174, it is connected with the guide part 172, converts the flow direction for the air being guided.

The air guide member 170 forms connection flow path 103.

The guide part 172 is formed along with filtering 102 substantially common direction of flow path, in the present embodiment, described to lead It is formed to portion 172 along up and down direction.The converter section 174 is formed along the direction to intersect with the filtering flow path 102, In In the present embodiment, the converter section 174 is formed in substantially horizontal direction.

The converter section 174 is formed in the upside of air guide member 170.The converter section 174 preferably passes through curved surface knot Structure is connected with guide part 172.

It, also will be along big by the air of the connection flow path 103 even if the converter section 174 is formed along horizontal direction Cause inclined upper side direction flowing.By by it is described connection flow path 103 and filtering flow path 102 joint angle with close with straight front direction As formed, the flow resistance of air can be reduced.

The lower end of the guide part 172 is fixed on the upper outer main body 128.The upside of the converter section 174 is fixed on The upper interior main body 140.

The a part being formed on the outside of the upper interior main body 140 in the cleaning connection flow path 104.The air guiding Part 170 forms a part in cleaning connection flow path 104.Pass through upper inflow entrance by the air of the cleaning connection flow path 104 121 and sink inflow entrance 31 to 300 internal flow of sink.

The upper interior main body 140 constitutes basketry (basket) shape on the whole.The plane section of the upper interior main body 140 is formed For circle, the cleaning connection flow path 104 is formed in 360 degree of omnidirections.

The upper interior main body 140 is in the shape of inside recess, and coats the outside of the sink 300.In the upper interior master The bottom surface 141 of body 140 is configured with shock insulation component 370.

The shock insulation component 370 is configured as protruding specified altitude in the bottom surface 141 of the upper interior main body 140.It is described every Shake component 370 is formed by the material different from the upper interior main body 140.

The upper interior main body 140 is formed with the insertion groove 142 for being inserted into the shock insulation component 370.

The configuration of insertion groove 142 is in the outside of the first hookup 610.The insertion groove 142 is configured with multiple.It is described to insert Enter slot 142 circumferentially to be configured centered on the watering motor drive shaft 43.The insertion groove 142 is with the watering horse It is symmetrically disposed about up to axis 43.The insertion groove 142 is convexly formed in bottom surface 141 to downside.The insertion groove 142 exists Upside downward side direction canyon topography at.

In addition, configured with for the combination member 147 in conjunction with the fixation upper main body 120 and lower main body 130, the combination Component 147 may be provided at the insertion groove 142.

The lower end of the insertion groove 142 is supported by lower 130 works of main body.The combination member runs through the insertion The lower end of slot 142 is simultaneously combined with the lower main body 130.

It is formed in the lower end of the insertion groove 142 for the perforative hole 143 of the combination member.The combination member is upper After the insertion groove 142 is inserted into side, it can be combined with lower main body 130.

After in conjunction with the combination member 147, the shock insulation component 370 is clamped in insertion groove 142 and is set.It is described every Shake component 370 is for closing the insertion groove 142.The combination member can be cut off by the closing insertion groove 142 to be revealed Out, it and cuts off the combination member and is exposed to water.

When the water of the sink 300 overflows, the bottom surface of the upper interior main body 140 is remained in, is revealed in combination member 147 In the case where for the water retained, it would be possible to can corrode.

Also, in the case where sink insertion space 125 has retained water, there are water by the hole 143 of insertion groove 142 to The problem of lower 130 water leakage inside of main body.Due to being configured with multiple electric components inside the lower main body 130, need to prevent water flow Enter.

Based on reason described above, the setting structure of the combination member 147 is sealed then particularly important.At this In embodiment, air cleaning module 200 and air cleaner module 100 are carried out other than shock insulation by the shock insulation component 370, also The integrated structure of upper main body 120 and lower main body 130 can be sealed.

The water for retaining inside is formed with to externally drained Drainage Division in the bottom surface 141 of the upper interior main body 140 149.The Drainage Division 149 is convexly formed in the bottom surface 141 to downside, can be formed with the stream for water flowing inside it Road.

The bottom surface 141 of the upper interior main body 140 be formed with formed in the bottom surface of sink main body 320 301 it is identical Reinforcing rib.The reinforcing rib for being formed in the upper interior main body 140 is with structure as described above, therefore is omitted from being described in detail.

The bottom surface of the upper interior main body 140 is arranged in UV module 190 for generating ultraviolet light.In the upper interior master The bottom surface 141 of body 140 is formed with upper opening portion 146.

The upper opening portion 146 is formed along the opening-like state of up and down direction.Being configured in the upper opening portion 146 can make The form 145 for the material that ultraviolet light penetrates.

The upper opening portion 146 is configured on the downside of the body openings portion 326, base openings portion 346 of the sink 300. The UV module 190 is configured on the downside of the form 145.The ultraviolet light generated in the UV module 190 passes through The form 145 and viewer module 390 and to sink internal transmission.

Described to pour the setting of water motor 42 in upper 140 downside of interior main body, watering motor drive shaft 43 is through upper interior main body 140 It is simultaneously protruded to upside bottom surface 141.First hookup 610 is configured in the upper end of the watering motor drive shaft 43.Described first Hookup 610 is configured in the inside of the upper interior main body 140, is convexly formed in the bottom surface 141 to upside.

In the side of the upper interior main body 140, configuration is provided with the sensor housing 336 of Magnetic Sensor 334.The sensing Device shell 336 is configured in a manner of being mutually close to the lateral surface of upper interior main body 140.In order to detect the water level of sink 300, institute It states sensor housing 336 and is extended to form longlyer along up and down direction.It is passed in the inside of the sensor housing 336 configured with magnetic Sensor 334.The sensor housing 336 is located at 170 inside of air guide member, and configures and connect flow path 104 in cleaning.

The air guide member 170 is the structure guided for that will cross air filtering to the cleaning connection flow path 104, root It can be removed according to embodiment.The air guide member 170 is used to combine upper interior main body 140 or upper outer main body 128.

The air guide member 170 is formed in a manner of coating the upper interior main body 140.In particular, the air guiding Part 170 is formed in a manner of coating upper inflow entrance 121, for being led through air filtering to the upper inflow entrance 121.As viewed from vertical view When, the air guide member 170 is annulus (donut) shape.

In the present embodiment, the upper end of the air guide member 170 is tightly attached to the upper end of the upper interior main body 140.

When as viewed from vertical view, the upper side of the upper side of the air guide member 170 and the upper interior main body 140 keeps one It causes.In the present embodiment, it is formed with and is combined with the air guide member 170 or mutually tight in the upper end of the upper interior main body 140 The upper interior main body ring 126 (upper inner body ring) of patch.

It is formed with the interior main body extension 148 that the upper interior main body 140 is connected with upper interior main body ring 126.In described Body extending portion 148 is configured with multiple.Upper inflow is formed between the interior main body extension 148 and upper interior main body ring 126 Mouth 121.

The interior main body extension 148 is accordingly formed with sink main body extension 380.When placing the sink 300, Sink main body extension 380 is located at the inside of the interior main body extension 148.The interior main body extension 148 and sink main body Extension 380 is outer inside each other to overlap.

It is close to or combines with upper 126 phase of interior main body ring in the upper end of the air guide member 170.The air guiding It is close to or combines with upper outer 128 phase of main body in the lower end of part 170.

The air flowed as a result, by the cleaning connection flow path 104 between the upper interior main body 140 and upper outer main body 128 It is directed into inflow entrance 121.

The diameter of 170 upper end of diameter and the air guide member of the upper interior main body ring 126 is consistent or approximation.Institute Air guide member 170 is stated mutually to be close to upper interior main body ring 126 to prevent filtering air leakage.The upper interior main body ring 126 configures In the inside of air guide member 170.

Handle 129 can be formed in the upper outer main body 128.Air cleaning module 200 is placed in the upper main body 120, Entire humidifying and purifying device can be lifted by the handle 129.

The upper interior main body 140 is formed with sink insertion space 125 in inside, to be inserted into supply flume 300.

It is connected inside the cleaning connection flow path 104 and sink 300.In the present embodiment, in the cleaning connection flow The inside on road 104 configures the humidification medium 50.

The upper main body 120 be provided with it is aftermentioned pour water unit 400 pour water motor 42.The water motor 42 that pours is in object It is separated in reason with 22 phase of air supply motor.

The water motor 42 that pours is fixed on outside interior main body 140 by watering bracket (watering bracket).In In the present embodiment, the bottom surface poured water motor 42 and be fixed on interior main body 140.In the present embodiment, described to pour water motor 42 Driving force through the upper interior main body 140 and being transmitted to inside the sink 300.

In the present embodiment, water motor 42 is poured and air supply motor 22 is separately positioned in mutually different works for described, It is influenced caused by cutting vibration accordingly.In the present embodiment, the water motor 42 that pours is arranged in upper main body 120, air supply motor 22 It is arranged in blowing fan shell 150.As a result, when two motors 22,42 are acted simultaneously, it can make caused by resonating or shaking Problem reaches minimum.It the air supply motor 22 and pours water motor 42 and can individually be controlled.

In addition, combining outer visual main body 214 in the upside of upper main body 120.

The outer visual main body 214 is the structure of visual main body 210, but is fixed on main body 120 in the present embodiment.With Differently, the outer visual main body 214 could be secured to air cleaning module 200 to the present embodiment.Differently with the present embodiment, institute Stating outer visual main body 214 is the structure that can be removed.

The outer visual main body 214 is fixed on main body 120.In the present embodiment, the outer visual main body 214 with it is upper outer Main body 128 combines.The lateral surface of the outer visual main body 214 and upper outer main body 128 forms continuous face.

Outer visual main body 214 is formed by the material of see-through inside.The outer visual main body 214 can be by transparent or semitransparent Material formed.

Display module 160 is configured on the inside of the outer visual main body 214.The display module 160 is outer visual to be tightly attached to The mode of the medial surface of main body 214 is configured.It is in annulus shape when the display module 160 is as viewed from vertical view.Described aobvious Show that the sink 300 is inserted into the inside of module 160.

The display module 160 is supported by outer visual main body 214.The inside edge of the display module 160 is by upper interior master Body ring 126 supports.The display module 160 is located at 170 upside of air guide member.The display module 160 can be with connector 260 (connector) it is made in an integrated manner.

The display module 160 is located at 170 upside of air guide member.The display module 160 is configurable on outer main body Between 128 and upper interior main body 140.The display module 160 is used to cover between outer main body 128 and upper interior main body 140, so that User can not see between upper outer main body 128 and upper interior main body 140.In particular, in order to cut off water penetration to the upper outer main body Between 128 and upper interior main body 140, the inner side and outer side of the display module 160 preferably implements sealing.

The inside of the display module 160 is supported by upper interior main body 140, and outside is supported by outer visual main body 214.

In the present embodiment, the display 160 is formed as annular state.Differently with the present embodiment, the display 160 It may be alternatively formed to arc shape.The display 160 includes printed circuit boards of monitor PCB 162 and display housing 164.Institute State display housing 164 by can the material of reflected light formed, or coated with can reflected light material.

As a result, in the case where the visual main body 210 is born water, the water tied in visual main body 210 can be projected or reflect To 164 surface of display housing.In the case where the water flow tied in the visual main body 210 is fallen, in the display housing 164 Also identical effect can be showed.

Such effect is supplied to the visual stimulation of user, and user can intuitively recognize and humidify.Institute The water droplet image of the projection of display housing 164 is stated other than having and providing the user with the perceptual effect clearly felt, also there is energy Enough notify the functional result of humidification state.

The upper side of the display housing 164 is formed in an inclined manner.The display housing 164 is with towards user side Inclined mode is formed.The mode that it is high with inside as a result, outside is low is formed.

Figure 23 is the decomposing section of the humidifying and purifying device of the second embodiment of the present invention.

It is different from the first embodiment ground, the filter assemblies 1010 of the present embodiment use filter filter type.The mistake Filter module 1010 has multiple filters to be laminated along up and down direction.Filtering flow path be identical with the first embodiment along upper and lower To formation.The air being inhaled into is flowed from the upward side in downside.

When sucking air is flowed from the upward side in downside, impurity is filtered by multiple filters.

Air filtering is crossed to flow to blowing unit 20 with being identical with the first embodiment.

Remaining structure is identical as the first embodiment below, therefore is omitted from being described in detail.

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, for storing water；

Lower main body, is formed with suction inlet, and the air sucked by the suction inlet is supplied to the sink；

Upper outer main body, is used to form shape, combines with the lower main body；

Upper interior main body is configured in the inside of the upper outer main body；

Sink insertion space, is formed in the inside of the upper interior main body, and the sink is inserted into a manner of it can separate to upside The sink insertion space；

Flow path is connected, is formed between the upper outer main body and the upper interior main body, the air that the suction inlet is supplied is to institute State the guidance of sink insertion space；

Sink inflow entrance is formed in the side of the sink, will be connected inside the connection flow path and the sink, the water Slot inflow entrance will be guided along the air of the connection flow path supply to the inside of the sink；And

Upper inflow entrance is formed in the upper interior main body, and the connection flow path is connected with the sink insertion space,

The sink inflow entrance is configured in the inside of the upper inflow entrance,

When the sink is placed on the sink insertion space, the sink moves together with the sink inflow entrance and by institute Sink inflow entrance is stated to be connected with the upper inflow entrance,

When the sink is separated from the sink insertion space, the sink separates together with the sink inflow entrance and by institute Sink inflow entrance is stated mutually to separate with the upper inflow entrance.

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

The upper outer main body is configured in a manner of forming the continuous face of lateral surface with the lower main body.

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

Further include:

Insertion groove is formed in the bottom surface of the upper interior main body, by the lower body supports；

Combination member is arranged in the insertion groove, the upper interior main body and the lower main body is combined.

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

Further include:

Shock insulation component is inserted into the insertion groove to configure in the sink insertion space, for closing the insertion groove, supports institute Sink is stated so that bottom surface of the sink away from the upper interior main body is mutually separated a predetermined distance.

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

Include:

Water shell, configures inside the sink, is rotated the water sucking inside will store in the sink, will sucked The water pump up water to upside,

Transmission shaft is configured inside the sink, is combined with the watering shell,

Water motor is poured, configuration is in the lower part of the upper interior main body, and the motor drive shaft that waters is through the side of the bottom surface of the upper interior main body Formula configuration, Xiang Suoshu transmission shaft provide rotary force so that the watering shell rotation,

First hookup is combined with the watering motor drive shaft,

Second hookup is configured in a manner of separation with first hookup, is combined with the transmission shaft；

In the sink insertion space, second hookup is configured in the sink for the first hookup configuration,

When first hookup and second hookup combine, under the action of the shock insulation component, the sink It is mutually separated a predetermined distance with the upper interior main body.

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

Further include:

Air guide member guides the air provided by the suction inlet to sink insertion space side, and the air is led To part configuration between the upper interior main body and the upper outer main body.

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

The upper end of the air guide member is mutually close to the upper interior main body, the lower end of the air guide member and the upper outer master Body is mutually close to.

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

The air guide member collects the air flowed along the outside of the lower main body inwardly, and by it to the upstream Entrance guidance.

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

The air guide member includes:

The flow direction of guide part, the air provided along the suction inlet is formed；

Converter section is connected with the guide part, converts the flow direction for the air being guided.

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

The guide part is mutually close to the upper outer main body, and the converter section is mutually close to the upper interior main body.

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

The converter section guides air to the upper inflow entrance.

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

The air guide member is formed in a manner of coating the outside of the upper interior main body in 360 degree of omnidirections, under described The air of main body supply is in 360 degree of omnidirections to guiding inside the sink.