CN106969455A - 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 waterwheel housing which is disposed inside the water tank, sucks water of the water tank into the water tank, and pumps up the sucked water to an upper side when rotating; a waterwheel motor providing a rotational force to the waterwheel housing; a general jet port disposed in the waterwheel housing, for jetting the water pumped up to the water tub humidifying medium; and a high-speed jet port disposed in the waterwheel housing, for jetting the pumped water to the visible body.

Description

Humidifying and purifying device

Technical field

The present invention relates to humidifying and purifying device.

Background technology

Conditioner have for control the air conditioner of the temperature of air, for removing the impurity of air with keep purification The air purifier of degree, the humidifier for providing moisture into air, dehumidifier for removing the moisture in air etc..

Existing humidifier is divided into：The vibration-type humidifier for making water atomization in jolting plate and it spuing into air； And carry out the nature evaporation type humidifier of natural evaporation in humidifying filter.

The nature evaporation type humidifier is divided into：Using driving force rotating circular disk, the aerial disc surfaces of water are entered 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.

Existing humidifier is in humidification, and the part in the air of flowing is filtered in the filter.But, by In existing humidifier its major function be humidification function, there are purification air function it is weaker the problem of.

Also, existing humidifier is using the structure of the additional filtering function in humidification, therefore, it is impossible to only for sky Gas filters and is acted its.

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

The content of the invention

It is an object of the invention to provide a kind of humidifying and purifying device, humidification function and air-cleaning function can be made independent Ground is acted.

It is an object of the invention to provide a kind of humidifying and purifying device, user with the naked eye can intuitively be confirmed whether Humidified.

It is an object of the invention to provide a kind of humidifying and purifying device, tank humidification medium can be effectively soaked.

It is an object of the invention to provide a kind of humidifying and purifying device, it can prevent water from falling externally to tank humidification medium Water.

It is an object of the invention to provide a kind of humidifying and purifying device, it provides the anti-fall current that water is guided to the inside of tank 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 following Record the other purposes for being expressly understood that and not being mentioned to.

The humidifying and purifying device of the present invention, wherein, including：Tank, for storing water；Visual main body, forms the tank In at least a portion, by that can see that the material of inside is formed from outside perspective；Tank inflow entrance, is formed in the tank, The interior outside of the tank is connected；Tank humidifies medium, the tank inflow entrance is covered, by the material shape that can absorb water Into to providing humidification by the air of the tank inflow entrance；Waterwheel housing, is configured inside the tank, by the tank Water suction it is internal, the water of suction is pumped up water to upside when rotated；Waterwheel motor, is provided to the waterwheel housing Revolving force；General jet, configuration sprays the water pumped up water to tank humidification medium in the waterwheel housing； High speed jet, configuration sprays the water pumped up water to the visual main body in the waterwheel housing.

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

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

The general jet is located at higher position than the tank.

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

The water sprayed from the high speed jet can be humidified to wandering on the downside of the visual main body with soaking the tank Medium.

It can be wandered from the water of the general jet injection after the tank humidification medium is soaked to the tank.

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

The present invention can also include：Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification matchmaker Shell body；The tank humidification medium is placed on the tank in the way of it can separate.

The present invention can also include：Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification matchmaker Shell body；The tank humidification medium is placed on the visual main body in the way of it can separate.

The present invention can also include：Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification matchmaker Shell body；The upper ends of the tank humidification medium housing are under the visual main body, the tank humidification medium housing End and the upper end of the tank are superimposed.

The lower end of the tank humidification medium housing can be located inside the tank.

The downside for humidifying medium housing in the tank can be formed with the storage area for storing the water of storage temporarily, described General jet is to the storage area injection water.

The storage area can be superimposed with the tank, and the storage area is located at the inner side of the tank.

The lower end of the tank humidification medium can be located at the storage area.

One kind for having the effect that of humidifying and purifying device of the present invention or its more than.

Firstth, due to being configured with anti-overflow water cover on the top of tank, even if the water progress of tank is surge, water can also be cut off Overflowed to outside tank.

Secondth, can be by the water wandered from upside by forming the madial wall in the anti-fall current road direction tank of anti-overflow water cover Guiding.

3rd, due to being formed with receiving space in anti-overflow water cover bottom, it can accommodate along the madial wall rising of tank Water, can be by the water of receiving again to guiding inside tank.

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

5th, the direction of the water risen along the madial wall of tank can be turned by the Internal baffle formed in anti-overflow water cover It is changed to downside.

The effect of the present 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.

Brief description of the drawings

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

Fig. 2 is Fig. 1 exploded perspective view.

Fig. 3 is Fig. 1 decomposition front view.

Fig. 4 is Fig. 3 decomposing section.

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

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

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

Fig. 8 is the profile splitted along Fig. 7 line A-A.

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

Figure 10 is the profile splitted along Fig. 9 line B-B.

Figure 11 is the top view of the placement main body shown in Fig. 2.

Figure 12 is the profile splitted along Figure 11 line C-C.

Figure 13 is the stereogram of the first hookup shown in Figure 12.

Stereograms of the Figure 14 as viewed from the downside of Figure 13.

Figure 15 is Figure 13 sectional side view.

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

Stereograms of the Figure 17 as viewed from the downside of Figure 16.

Figure 18 is Figure 16 sectional side view.

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

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

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

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

Figure 23 is the profile that the K-K lines shown in Figure 10 are splitted.

Figure 24 is the profile that the L-L lines shown in Figure 10 are splitted.

Figure 25 is the stereogram for the setting state for showing the waterwheel housing shown in Fig. 4.

Figure 26 is Figure 25 front view.

Figure 27 is the profile splitted along Figure 26 M-M lines.

Figure 28 is Figure 25 top view.

Figure 29 is the exploded perspective view of the waterwheel housing shown in Figure 25.

Stereograms of the Figure 30 as viewed from the downside of Figure 29.

Figure 31 is Figure 29 front view.

Figure 32 is the profile splitted along Figure 31 N-N lines.

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

Figure 34 is Figure 33 front view.

Figure 35 is the profile splitted along Figure 34 O-O lines.

Figure 36 is the stereogram of the tank humidification medium housing shown in Fig. 4.

Stereograms of the Figure 37 as viewed from the downside of Figure 36.

Figure 38 is Figure 36 front view.

Figure 39 is the profile splitted along Figure 38 line B-B.

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

Figure 41 is the enlarged drawing on the anti-fall current road for showing Figure 39.

Figure 42 is Figure 36 partial exploded perspective view.

Stereograms of the Figure 43 as viewed from the downside of Figure 42.

Figure 44 is Figure 42 front view.

Figure 45 is the profile splitted along Figure 44 line D-D.

The explanation of reference

10：Filter assemblies；20：Blowing unit；30：Tank；40：Waterwheel unit；51：Tank humidifies medium；55：Spue Humidify medium；100：Cleaning module；110：Matrix；120：Place main body；130：Lower main body；150：Blowing fan housing；160：It is aobvious Show module；200：Humidification module；210：Visual main body；230：Cap assembly；260：Connector；300：Tank humidifies medium shell Body；302：Fixed lobe；304：Fixing groove；310：Interior media profile；311：Interior medium inflow entrance；312：Interior upper framework；313： Interior vertical frame；314：Interior underframe；320：Outer media profile；321：Outer medium inflow entrance；322：Outside upper framework；323：It is outer to hang down Straight framework；324：Outer underframe；325：Western medium's Jie's guide；326：Western medium's Jie's pilot hole；327：Inclined plane；328：Storage is empty Between；329：Screens groove；330：Anti-overflow water cover；331：Internal baffle；332：Cap；333：Outer baffle；334：Baffle plate；335：Lid insertion Groove；336：Cap bore；337：Inclined plane；338：Receiving space；339：Screens is raised

Embodiment

Advantages of the present invention, feature and for realizing that its method can be by referring to accompanying drawing and the embodiment being described in detail later more Plus clearly.But, the present invention is not limited to embodiments disclosed below, but can be realized by variform, this implementation Example is merely to more completely disclose the present invention, so that the those of ordinary skill of the technical field belonging to the present invention is more completely The scope of the present invention is pointed out, the present invention is only defined by the scope of claims.Throughout the specification, identical accompanying drawing Mark represents identical structural detail.

Hereinafter, embodiments of the invention are described in detail referring to the drawings.

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

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

Filtered after the suction of cleaning module 100 extraneous air, air filtering will be crossed and be 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 tank 30 of storage water.When isolating the humidification module 200, the tank 30 can be separated from the cleaning module 100.The humidification module 200 is placed on the top of cleaning module 100.

User can isolate the humidification module 200 from cleaning module 100, and the humidification module 200 isolated is carried out Clean.User can clean to the inside of cleaning module 100 for isolating humidification module 200.Isolating the humidification module In the case of 200, the top user oriented of the cleaning module 100 is opened.The cleaning module 100 can be individually separated out Cleaned after filter assemblies 10 described later.

User can be supplied water to the humidification module 200.Water supply stream is formed with the humidification module 200, so that It can be supplied water externally to the tank 30.

The water supply stream is configured to be supplied water to the tank at any time.For example, in the humidification module 200 In the case of in action, it can also be supplied water by water supply stream.For example, being combined in the humidification module 200 in purification mould In the state of block 100, it can also be supplied water by water supply stream.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 stream.

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

The connection stream that will be formed in the cleaning module 100 is defined as purification connection stream 104, will be formed in described add The connection stream of wet module 200 is defined as humidification connection stream 105.Only the purification is positioned in the humidification module 200 During module 100, the connection stream can be just set to be connected, and constitute the stream of air exactly.

The flowing of air for passing through in the cleaning module 100 and humidification module 200 will carried out in detail 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 stream 104；Filter Component 10, is set in a detachable fashion relative to described matrix 110, and the air of flowing is implemented to filter；Blowing unit 20, matches somebody with somebody Put inside described matrix 110, flowed air.

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

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

Described matrix 110 includes：Lower main body 130, for forming profile, suction inlet 111 is formed with downside；Place master Body 120, for forming profile, is combined with the lower upside of main body 130.

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

The placement main body 120 and lower main body 130 are assembled in an integrated manner.With the present embodiment differently, it is 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 of the placement main body 120 in a detachable fashion, and supports described add The loading of wet module 200.

The placement main body 120, which is provided, can stably place the structure of the tank 30.The placement main body 120 is institute State the structure that the tank 30 of humidification module 200 can be separated.The structure that main body 120 is placed for depression, so as to hold Receive the tank 30.

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

The humidifying and purifying device of the present embodiment passes through the cleaning module 100 by the input power of cleaning module 100 Power supply is provided to the humidification module 200.Because 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 electric power-feeding structure.

Because the cleaning module 100 and humidification module 200 are realized by the placement main body 120, placed described Main body 120 configures the connector 260 that the oriented humidification module 200 provides 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 the upside of connector 260.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 assembled in described matrix 110 in removably mode.

The filter assemblies 10 provide filtering stream 102, and extraneous air is implemented to filter.

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 in the way of being intersected along the flow direction of the upstream air of vertical direction by with being configured.It is described Filter assemblies 10 are configured along the horizontal direction orthogonal with the mobile phase of the air of side flowing on the side under.

The filter assemblies 10 can enter line slip relative to described matrix 110 along horizontal direction.

The blowing unit 20 generates the flowing of air.The blowing unit 20 is configured inside described matrix 110, makes sky Gas under flow on the side by side.

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

The blowing fan housing 150 is configured inside described matrix 110.The blowing fan housing 150 provides the sky of flowing The stream of gas.The air supply motor 22 and blowing fan 24 are configured with the blowing fan housing 150.

The blowing fan housing 150 is configured in the upside of filter assemblies 10, and configuration is under the placement main body 120 Side.

The blowing fan 24 is centrifugal fan, and it is after downside suction air, towards radial outside discharge air.It is described to send Fan 24 is towards radial outside and upside discharge air.The outboard end of the blowing fan 24 is formed along radial direction upside.

In order to which the contact with the air of flowing reaches minimum, the air supply motor 22 is configured 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：Tank 30, stores the water for humidification, is placed in a detachable fashion described Cleaning module 100；Waterwheel unit 40, is configured inside the tank 30, sprays the water of the tank；Medium 50 is humidified, by institute The water-soaked of the injection of waterwheel unit 40 is stated, moisture is provided to the air of flowing；Visual main body 210, is combined with the tank 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 The discharge stream 107 for having discharge air and the water supply stream 109 supplied water.

The tank 30 is placed on the placement main body 120.The waterwheel unit 40 is configured inside the tank 30, The inside of tank 30 is rotated.

The water that the waterwheel unit 40 is sucked inside the tank, the water of suction is pumped up water to upside, and will be raised The water of water sprays towards radial outside.The waterwheel unit 40 include waterwheel housing 800, the waterwheel housing 800 to its inside inhale Enter water, after the water being inhaled into is pumped up water to upside, it is sprayed towards radial outside.

Medium 50 is humidified described in the water-soaked sprayed from the waterwheel housing 800.The water sprayed from the waterwheel housing 800 Can be towards at least one party's injection in the visual main body 210 or humidification medium 50.

In the present embodiment, the waterwheel housing 800 towards the visual main body 210 medial surface injection water, injection Wander downwards inner side of the water along the visual main body 210.Formed in the medial surface of the visual main body 210 with water droplet form The drop formed, user can see the drop by the visual main body 210.

The visual main body 210 is combined with the tank 30, and positioned at the upside of the tank 30.The visual main body 210 at least a portion is formed by the material for being capable of perspective inside.

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

Display module 160 is can configure 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 be combined.In the present embodiment, the display module 160 is configured in the placement main body 120。

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

The drop formed in the visual main body 210 will also project to the surface of the display module 160.Thus, user This movement of drop can be observed at two in the visual main body 210 and display module 160.

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

The humidification medium 50 includes：Tank humidifies medium 51, and configuration is in connection stream 103；And the humidification medium that spues 55, configure in discharge stream 107.

The tank humidification medium 51 is configured on connection stream 103, and in the present embodiment, the tank humidifies medium 51 Configure the tank inflow entrance 31 in tank 30.The tank humidification medium 51 is located at the inner side of tank inflow entrance 31, to passing through institute The air for stating tank inflow entrance 31 provides humidification.

Tank humidification medium 51 covers the tank inflow entrance 31, air through the tank humidify medium 51 and to The internal flow of tank 30.

The humidification medium 55 that spues is configured on discharge stream 107.The humidification medium 55 that spues 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.

The humidification medium 55 that spues covers the discharge stream 107, air through it is described spue humidification medium 55 and to Cap assembly 230 is outer to be flowed.

Hereinafter, the flowing referring to the drawings to air is illustrated.

When blowing unit 20 is acted, extraneous air is by forming the suction passage 101 of the downside in matrix 110 Flow into inside matrix 110.The upward side of air sucked by the suction passage 101 is moved, and passes through purification in the process Module 100 and humidification module 200, are spued by the discharge stream 107 for forming the upside in humidification module 200 to outside.

The air of the suction passage 101 is sucked by the filtering stream 102 of filter assemblies 10, is passing through the filtering During stream 102, the filter assemblies 10 are filtered to extraneous air.

Flowed by the air of the filtering stream 102 by blowing unit 20 to connection stream 103.Pass through the filtering After the air of stream 102 is pressed by blowing fan 24, flowed along blowing fan housing 150 to connection stream 103.

The blowing unit 20 is configured after filtering stream 102, therefore, it is possible to make the impurity such as dust be attached to described send The situation of fan 24 reaches at least.

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

Also, because blowing unit 20 is configured before humidification stream 106, moisture can be made to be attached to the surface of blowing fan 24 Situation reach at least.In the case of being pasted with the moisture of humidification on the surface of blowing fan 24, occur the feelings such as impurity is sticky or mouldy The possibility of condition is larger.

Because the blowing unit 20 is configured between filtering stream 102 and humidification stream 106, it can make what impurity was attached Situation reaches at least, and can suitably provide the flowing pressure of air.

The connection stream 103 is connected stream 104 by the purification formed in cleaning module 100 and formed in humidification module 200 humidification connection stream 105 is constituted.

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

The purification connection stream 104 may be formed at placement main body 120, and humidification connection stream 105 is formed in humidification module 200。

Purification connection stream 104 and humidification the connection stream 105 is formed as pipeline form, to form clear and definite stream Road.In the present embodiment, connection stream 103 is dispersed to the one of a part of works for placing main body 120 and the tank 30 Part-structure thing, when the humidification module 200 is positioned over placement main body 120, will form the connection stream 103.

In the present embodiment, it is described to place the outboard structure thing that main body 120 provides the connection stream 103, the tank 30 provide the inside structure thing of the connection stream 103.

That is, the connection stream 103 is formed between the outside of the tank 30 and the inner side of placement main body 120.Thus, The connection stream 103 is formed between tank 30 and placement main body 120.The tank 30 forms the connection stream 103 The wall of inner side, the placement main body 120 forms the wall in the outside of the connection stream 103.

By being distributed the structure of connection stream 103 in this wise, the works to form stream can be made to reach at least.Institute Connection stream 103 is stated to be formed along above-below direction.

Flowed by the air of the connection stream 103 to humidification stream 106.The humidification stream 106 is for supplying The interval of moisture.In the present embodiment, the humidification stream 106 humidifies medium 51 untill the humidification medium 55 that spues from tank.

With medium 51 is humidified by tank in connection stream 103, moisture can be supplied to air in the process.This Outside, the water droplet dispersed from the waterwheel unit 40 and the moisture evaporated from tank 30 are provided with inside the tank 30.

With medium 55 is humidified by described spue inside the tank 30, moisture can be supplied again in the process.

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

Exposed by the air for spuing humidification medium 55 by discharge stream 107 to outside.

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

Referring to the drawings, the waterwheel unit 40 is rotated waterwheel housing 800 of the configuration inside tank 30, passes through institute The rotation of waterwheel housing 800 is stated, the water of the internal reservoir of tank 30 is sprayed to the medial surface of visual main body 210.

The waterwheel unit 40 provides the structure for rotating the waterwheel housing 800.The waterwheel unit 40 is described Tank 30 with placing also is provided with that the biography of power can be transmitted to the waterwheel housing 800 in the structure that main body 120 can be separated Dynamic model block 600.

The structure of the waterwheel unit 40 is described in more details as follows.

The waterwheel unit 40 includes：Waterwheel housing 800, waterwheel motor 42, transmission module 600.

The waterwheel unit 40 includes：Waterwheel housing 800, is configured inside tank 30, is rotated with by tank 30 Water suction is internal, and the water of suction is pumped up water to upside, and the water pumped up water is spued to outside；Waterwheel motor 42, to the water Car housing 800 provides revolving force；Transmission module 600, the waterwheel housing is passed to by the revolving force of the waterwheel motor 42 800。

The waterwheel housing 800 is that after the water stored in tank 30 is pumped up water to upside, it is entered towards radial outside The structure of row injection.

The waterwheel motor 42 is used for the structure for the revolving force for rotating the waterwheel housing 800 for offer.

The transmission module 600 is for the revolving force of the waterwheel motor 42 to be passed into the waterwheel housing 800 Structure.

The waterwheel housing 800, waterwheel motor 42 and transmission module 600 can be arranged at tank 30.In the case, User is when separating humidification module 200, it is necessary to which waterwheel motor 42 is also lifted in the lump.Also, also it is assembled in waterwheel motor 42 In the case of humidification module 200, when humidification module 200 is separated from cleaning module 100, it is necessary to make the power supply knot of waterwheel motor 42 Structure has the structure that can be separated.

Therefore, prompt to configure in the waterwheel motor 42 of weight weight in the present embodiment and placing main body 120, and only make waterwheel The structure that housing 800 and transmission module 600 are separated.Structure as described in the embodiment, can make what can be separated to add The weight of wet module 200 reaches minimum.

In the present embodiment, the waterwheel housing 800 and waterwheel motor 42 are the structure that can be separated.The waterwheel shell Body 800 is configured inside humidification module 200, and waterwheel motor 42 is configured inside cleaning module 100.Separating the humidification module When 200, the waterwheel housing 800 is together separated with tank 30 from cleaning module 100.

The biography is designed as in order to realize in the isolating construction of the waterwheel housing 800 and waterwheel motor 42, the present embodiment Dynamic model block 600 has the structure that can be separated.

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

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

The revolving force of waterwheel motor 42 is transmitted tank truck housing 800 by the transmission module 600, and it includes being separated Hookup 610,620.

Configuration in the cleaning module 100 and is defined as the first connection with the hookup that the waterwheel motor 42 is combined Device 610.

It will configure 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 the hookup 620 of first hookup 610 or second is public shape, and 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 with the form for inserting the second hookup 620.With this implementation Example differently, can also second hookup 620 insert the form of first hookup 610 and be combined.

The waterwheel motor 42 is arranged on placement main body 120.The waterwheel motor 42 is located at the upside of air supply motor 22, Mutually dividually it is configured with the air supply motor 22.The tank 30 is placed inside the placement main body 120.In the water When groove 30 is positioned over placement main body 120, first, second hookup 610,620 is connected in the way of it can be driven.

The motor drive shaft 43 that waters of the waterwheel motor 42 is configured towards upside.In the upper end of the motor drive shaft 43 that waters First hookup 610 is set.

The placement main body 120 includes：Main body 122 in placing, the tank 30 is placed on main body 122 in the placement； Outer main body 128 is placed, is combined with main body 122 in the placement, the outside of main body 122 in the placement, under described Main body 130 is combined to form the profile of matrix 110；Place guide 124, configuration main body 122 and placement in the placement Between outer main body 128, by air, into the placement, the upside of main body 122 is guided；Outer visual main body 214, is placed with described Outer main body 128 is combined, and is formed by the material that can be had an X-rayed and configured in the outside of visual main body 210.

First hookup 610 configures the main body 122 in placing.First hookup 610 configures main in placing Inside the tank insertion space of body 122.First hookup 610 configures the main body 122 in placing, and exposes 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 face be formed with tooth form.The tooth form of first hookup 610 is radial centered on waterwheel motor drive shaft 43 to be matched somebody with somebody Put.Circumferencial direction formation broached-tooth design of the tooth form of first hookup 610 relative to waterwheel motor drive shaft 43 (serration)。

First hookup 610 includes：First hookup main body 612；First broached-tooth design 614, is formed described the The lateral surface of one hookup main body 612；Motor drive shaft joint portion 615, is formed in the inner side of the first hookup main body 612, its The opening-like state in downside is formed, and waterwheel motor drive shaft 43 inserts the motor drive shaft joint portion 615；Motor drive shaft groove 616, is formed in institute Stating motor drive shaft joint portion 615, there is provided the adhesion with the waterwheel motor drive shaft 43；Anti- entrance block 618, limits the waterwheel horse Up to the insertion depth of axle 43.

The upper side of first hookup 610 is formed in the way of being plugged.Thus, the first hookup main body 612 upper side is formed as plane.With the present embodiment differently, 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 joint portion 615.

First broached-tooth design 614 is relative to waterwheel motor drive shaft 43 along radially protruding.First broached-tooth design 614 Along above-below direction it is longer extend and to be formed.First broached-tooth design 614 is circumferentially square centered on waterwheel motor drive shaft 43 It is multiple to being configured with.First broached-tooth design 614 is formed in an inclined manner along above-below direction.First broached-tooth design 614 form inclination closer to its court of upside with the close direction of the central shaft of waterwheel motor drive shaft 43.

The upside of waterwheel motor drive shaft 43 is inserted in the motor drive shaft joint portion 615.The motor drive shaft groove 616 and waterwheel Motor drive shaft 43 is assembled with being interference fitted form.It is formed with and 616 pairs of the motor drive shaft groove in the waterwheel motor drive shaft 43 The projection (not shown) answered.

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

First hookup 610 is inserted in second hookup 620, revolving force can be transmitted when being combined.

Second hookup 620 includes：Second hookup main body 622；Hookup joint portion 625, is formed described the The inner side of two hookup main bodys 622, its opening-like state in downside is formed, and the first hookup 610 inserts the hookup joint portion 625；Second broached-tooth design 624, forms the medial surface in the second hookup main body 622, with first broached-tooth design 614 It is meshed；Power transmission shaft joint portion 627, forms in the second hookup main body 622, transmits and rotate to the waterwheel housing 800 The power transmission shaft 640 of power is combined with the power transmission shaft joint portion 627；Power transmission shaft groove 626, is formed in the power transmission shaft joint portion 627 there is provided the adhesion with the power transmission shaft 640.

The shape of the hookup joint portion 625 and the profile of the first hookup main body 612 are mutually corresponding.Described One hookup main body 612 inserts the hookup joint portion 625.The first hookup main body 612 and the second hookup main body 622 can be separated along above-below direction, and mutual screens is then formed along direction of rotation.

Power transmission shaft 640 is located at the upside of the second hookup 620, and inserts the power transmission shaft joint portion 627.The transmission Axle 640 is combined with the power transmission shaft groove 626 with being interference fitted form.

The power transmission shaft groove 626 on the basis of waterwheel motor drive shaft 43 along radial direction configured, and canyon topography into.

In the present embodiment, the power transmission shaft joint portion 627 and hookup joint portion 625 are formed as the space being connected. With the present embodiment differently, the mode that the power transmission shaft joint portion 627 and hookup joint portion 625 can be separated is formed.

The sectional area of the power transmission shaft joint portion 627 is smaller formed than the sectional area of hookup joint portion 625.Thus, Step is formed between the power transmission shaft joint portion 627 and hookup joint portion 625, so as to limit first hookup 610 movement.

Second broached-tooth design 624 have with the corresponding shape of first broached-tooth design 614, and mutually nibbled Close.

Waterwheel motor drive shaft 43 is located at the downside of first hookup 610, and power transmission shaft 640 is located at the second hookup 620 Upside.The waterwheel motor drive shaft 43 and power transmission shaft 640 can be configured into a row.

The hookup 620 of first hookup 610 and second provides clutch function.Only in first hookup 610 and second hookup 620 when being combined, the revolving force of waterwheel motor drive shaft 43 could be passed to power transmission shaft 640.

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

Even if the hookup 620 of the first hookup 610 and second is not at the state along above-below 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 revolving force of waterwheel motor 42 to be transmitted into tank truck housing 800.In the present embodiment In, a part of structure of most of structure setting of the transmission module 600 in the tank 30, such as the first hookup 610 It is arranged on placement main body 120.

The transmission module 600 includes：Drive housing 630, inside the cylinder 35 of tank 30；Power transmission shaft 640, is located at Inside the drive housing 630, protrude through the drive housing 630 and to upside, rotation is provided to the waterwheel housing 800 Power；Bearing 670, between the power transmission shaft 640 and drive housing 630；Under second hookup 620, with the power transmission shaft 640 End is combined, and revolving force is transmitted to the power transmission shaft 640；First hookup 610, is combined with waterwheel motor drive shaft 43, that can divide From mode be combined with second hookup 620, when second hookup 620 is combined, by the waterwheel motor The revolving force of axle 43 passes to second hookup 620.

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

In the present embodiment, the drive housing 630, power transmission shaft 640, bearing 670, the second hookup 620 are configured in institute State inside cylinder 35.

The power transmission shaft 640 is set in the way of running through drive housing 630 along above-below direction.The power transmission shaft 640 can Rotated in the state of drive housing 630.

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

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

The power transmission shaft 640 runs through the drive housing 630 along above-below direction.The upper end of the power transmission shaft 640 and institute State waterwheel housing 800 to be combined, 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 tank 30, and configures in drive housing Inside 630.With the present embodiment differently, second hookup 620 is configurable on the downside of the bottom surface of tank 30.

The bearing 670 is configured between drive housing 630 and power transmission shaft 640.In the present embodiment, the power transmission shaft 640 are configured in the way of through the bearing 670.

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

The power transmission shaft 640 is formed with the bearings end 641 for supporting the bearing 670.The bearing 670 is by the axle Support end 641 is held to support.The downside diameter at the bearings end 641 is larger formed than upside.The shaft filler washer 680 from After the upside insertion of the power transmission shaft 640, supported by the bearings end 641.

The housing cap 660 is combined with the upper end of bear box 650.The housing cap 660 is fixedly clamped in cartridge housing Body 650.The housing cap 660 is formed as ring-shaped.The housing cap 660 is formed with hollow bulb 661, the power transmission shaft in inner side 640 run through the hollow bulb 661 along above-below direction.

The housing cap 660 includes：Housing cap main body 662, is supported by bear box 650, is formed with and is passed through for power transmission shaft 640 The hollow bulb 661 worn；Cap supporting part 664, is formed in the housing cap main body 662, for supporting shaft filler washer 680.

The cap supporting part 664 is convexly formed to the side of power transmission shaft 640.The shaft filler washer 680 is supported by the cap Portion 664 is supported.

The housing cap 660 is located at the lower section above cylinder 35.It is formed with the cylinder 35 for the power transmission shaft 640 The cylinder opening portion 39 run through.

The housing 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 tank 30 can be cut off by the shaft filler washer 680 is flowed 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 mutually close to cap supporting part 664；(the gasket of packing ring barrier film 684 Diaphragm), it is convexly formed from the washer body 682 to power transmission shaft 640.

The washer body 682 is formed as " ┗ " section, and its lateral surface and downside are supported by housing cap 660.The pad Circle barrier film 684 is integrally formed with washer body 682.

The packing ring barrier film 684 is mutually close to the lateral surface of power transmission shaft 640.The packing ring barrier film 684 is in the vertical direction Two are formed with, is flowed into dual mode cut-out water.

The housing elastic component 690 is configured between housing cap 660 and bearing 670.The upper end of housing elastic component 690 Housing cap 660 is flexibly supported, lower end is flexibly supported by bearing 670.

The housing elastic component 690 by elastic force to downside press bearing 670.In the housing elastic component 690 In the presence of, bearing 670 can be supported by bearings end 641.

The housing elastic component 690 makes the vibrations of bearing 670 reach minimum when power transmission shaft 640 rotates.

In the present embodiment, drive housing 630 is arranged on inside the cylinder 35, with the present embodiment differently, described to pass Dynamic housing 630 can expose to inside tank.

In the present embodiment, the power transmission shaft 640 along above-below direction it is longer be extended.Due to the power transmission shaft 640 along above-below direction it is longer be extended, can easily increase the capacity of tank 30 as desired.

In the capacity hour of tank 30, second hookup 620 can be directly set in waterwheel housing 800.In the case, may be used The structure such as power transmission shaft 640 and bearing 670 is removed, so as to more simplify structure.

When the capacity of tank 30 is big, it is desirable to have the waterwheel housing 800 of lower-upper length length.The length of waterwheel housing 800 becomes When long, vibrations will be produced when being rotated.That is, in the case of the downside that waterwheel housing 800 is only delivered in revolving force, waterwheel Housing 800 such as will be distorted at the deformation, and speed difference occurs for the upper side and lower side of waterwheel housing 800.

In the presence of such deformation or speed difference, substantial amounts of vibrations will be produced in waterwheel housing 800.Particularly, inhale Entering the water to inside the waterwheel housing 800 and pumped up water will to produce bigger vibrations.It is being drawn into the waterwheel shell In the case that water inside body 800 is configured with eccentric state, bigger vibrations will be produced.

In the present embodiment, the power transmission shaft 640 in the state of longer along above-below direction extend with waterwheel housing 800 center of gravity and upper end are combined respectively, therefore, it is possible to solve problem described above.

That is, in the structure of such as the present embodiment, even if increasing and increasing the height of waterwheel housing 800 with the height of tank 30 Degree, can also make vibrations reach minimum.

Hereinafter, the waterwheel housing of the first embodiment of the present invention is described in more details.

Figure 25 is the stereogram for the setting state for showing the waterwheel housing shown in Fig. 4, and Figure 26 is Figure 25 front view, Figure 27 It is the profile splitted along Figure 26 M-M lines, Figure 28 is Figure 25 top view, and Figure 29 is point of the waterwheel housing shown in Figure 25 Stereogram is solved, stereograms of the Figure 30 as viewed from the downside of Figure 29, Figure 31 is Figure 29 front view, and Figure 32 is the N- along Figure 31 The profile that N lines are splitted, Figure 33 is the exploded perspective view of power transmission shaft shown in Figure 29 and bushing, and Figure 34 is Figure 33 front view, Figure 35 is the profile splitted along Figure 34 O-O lines.

The waterwheel housing 800 is the structure for spraying the water stored in tank 30.The waterwheel housing 800 is configured with For the structure effectively pumped up water to the water stored in tank 30.

The revolving force that the waterwheel housing 800 receives waterwheel motor 42 is rotated, and when being rotated, can internally be inhaled Enter after the water stored in tank 30, it is pumped up water to upside.The water pumped up water inside to the waterwheel housing 800 passes through injection Mouth 410 is spued.

The groove 810 that pumps up water is formed with the medial surface of the waterwheel housing 800.The groove 810 that pumps up water is raised for raising Water efficiency.The groove 810 that pumps up water is convexly formed in the medial surface of waterwheel housing 800.The groove 810 that pumps up water is along upper Lower direction extends to be formed longlyer.The groove 810 that pumps up water is radial on the basis of waterwheel motor drive shaft 43 to be configured.

The lower end of the waterwheel housing 800 is with the bottom surface of tank 30 by separated a predetermined distance with formation suction interval 801.Water The water of groove 30 is spaced 801 by the suction and sucked inside waterwheel housing 800.

The waterwheel housing 800 is formed with the open state in its downside.The waterwheel housing 800 is cup-shape.It is described Waterwheel housing 800 is by the inverted shape of cup.Shell space 805 has been internally formed in the waterwheel housing 800.

The cylinder 35 (column) of tank 30 is located inside the waterwheel housing 800, is configured with inside the cylinder 35 Transmission module 600.The waterwheel housing 800 is configured in the way of coating cylinder 35.

The waterwheel housing 800 is formed, and becomes more to extend closer to its plane section of upside.The cylinder 35 is formed To become more to reduce closer to its plane section of upside.The waterwheel housing 800 and cylinder 35 be shaped as be used for effectively carry out The shape pumped up water.The shell space 805 becomes more to increase closer to its volume of upside.

When the waterwheel housing 800 is rotated, the water for being inhaled into inside under the influence of centrifugal force, will be close to water The inner peripheral surface of car housing 800.The groove 810 that pumps up water formed in the inner peripheral surface of waterwheel housing 800 is provided to the water for being inhaled into inside Revolving force.

The jet 410 for the water of suction to be spued to outside is formed with the waterwheel housing 800.In the present embodiment In, the jet 410 is configured as along horizontal direction discharge water.The water pumped up water is by the jet 410 to outside Spue.

In the present embodiment, the water spued from the jet 410 can spray to visual main body 210.

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

Only when the waterwheel housing 800 rotates at a high speed, could spue water from the high speed jet.It can be configured For under the speed that the waterwheel housing 800 generally rotates, it is impossible to pass through the high speed jet discharge water.The general spray Loophole spues water in all stages that waterwheel housing is usually acted.

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

When waterwheel housing 800 is rotated with usual rotary speed, the water pumped up water is at least higher than general jet Ground rises.When the waterwheel housing 800 is carried out at high speed rotation, that is pumped up water waterborne rises to more than the height of high speed jet.

The high speed jet can be configured with multiple along the circumferencial direction of waterwheel housing 800.The general jet It can be configured with multiple along the circumferencial direction of waterwheel housing 800.

When the waterwheel housing 800 is without rotation, it is impossible to pass through the discharge water of jet 410.In user only with purification When pattern (cleaning module is acted, and the pattern that humidification module stops) being acted its, waterwheel unit 40 is 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 waterwheel housing 800 is just rotated, and passes through the discharge water of jet 410.

The water spued from the jet 410 can be sprayed to the medial surface of visual main body 210.Due to waterwheel housing 800 are rotated, and the water attack spued from the jet 410 is beaten the medial surface of the visual main body 210 and rotated.

User can confirm the situation of injection water by visual main body 210 with visual manner.The injection table of such water Show in being acted with humidifying mode.User can be intuitively confirmed in being acted 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 waterwheel housing 800 is made up of three parts.With the present embodiment differently, the waterwheel Housing 800 can be made by one or two part.

The lower end of the waterwheel housing 800 is configured from the bottom surface of tank 30 is separated a predetermined distance.

The waterwheel housing 800 includes：First waterwheel housing 820, the second waterwheel housing 840, waterwheel case lid 860 and Waterwheel driving section 880.

The waterwheel housing 800 is mutually assembled with power transmission shaft 640, is configured with for being delivered to rotation from the power transmission shaft 640 The structure of power.In the present embodiment, in the waterwheel housing 800, waterwheel driving section 880 and waterwheel case lid 860 and transmission Axle 640 is mutually assembled, and is delivered to revolving force.

Structure to the power transmission shaft 640 is described as follows.

The power transmission shaft 640 is respectively formed with screw thread 643,644 in its top and bottom, and bearing branch is formed with outer peripheral face Support end 641,645 and axle support end 642.

Threaded upper ends 643 are mutually assembled with waterwheel case lid 860.Lower end screw thread 644 is mutually assembled with the second hookup 620.

The bearings end 641,645 and axle support end 642 are formed by changing the diameter of power transmission shaft 640.Institute Stating bearings end 641,645 is used for spring bearing.The axle support end 642 is used to support waterwheel driving section 880.

The lower end screw thread 644 directly can be combined with the second hookup 620.In the present embodiment, in the second hookup 620 transmission joint portion 627 configures extra hookup combination member 646, will be driven by the hookup combination member 646 The hookup 620 of axle 640 and second is combined.

Along above-below direction power transmission shaft groove 626 is formed with the outer peripheral face of the hookup combination member 646, in inner circumferential Face is formed with the screw thread (not shown) mutually assembled with the lower end screw thread 644.

Then, each structure to the waterwheel housing 800 is illustrated.

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

Opening-like state is formed respectively for the upper side and lower side of second waterwheel housing 840, and is assembled in the first waterwheel shell The upper end of body 820.

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

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

With the present embodiment differently, the first waterwheel housing 820 and the second waterwheel housing 840 can enter in an integrated manner Row makes.Also, with the present embodiment differently, the first waterwheel housing 820 and waterwheel case lid 860 can be in an integrated manner Made.

The upper lateral section of the first waterwheel housing 820 is formed more widerly than lower lateral section.The first waterwheel housing 820 Tilted along above-below direction formation.The first waterwheel housing 820 can be the narrow conical form in lower lateral section.

The groove 810 that pumps up water has been internally formed in the first waterwheel housing 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 waterwheel motor drive shaft 43 to be configured.It is described pump up water groove 810 can It is configured with multiple, towards the axle center of waterwheel housing 800 protrusion.

The lower end of the first waterwheel housing 820 and the inner bottom surface of tank 30 mutually separate and form suction interval 801.The The upper end of one waterwheel housing 820 is combined with the lower end of the second waterwheel housing 840.

The first waterwheel housing 820 can be assembled mutually or phase decomposition with the second waterwheel housing 840.In the present embodiment, institute The first waterwheel housing 820 and the second waterwheel housing 840 is stated to combine to be assembled by screw.In the first waterwheel housing 820 Upside outer peripheral face is formed with screw thread 822, and screw thread 842 is formed with the lower inner circumferential surface of the second waterwheel housing 840.

The screw thread 822 that will be formed in the first waterwheel housing 820 is defined as the first screw thread 822, is formed described second The screw thread 842 of waterwheel housing 840 is defined as the second screw thread 842.

First of the movement for limiting the second waterwheel housing 840 is formed with the downside of first screw thread 822 Baffle plate 823 (barrier).Circumferencial direction of the first baffle 823 along the first waterwheel housing 820 is formed.Described One baffle plate 823 is formed as band form, is convexly formed to the outside of the first waterwheel housing 820.

Assembling the first waterwheel housing 820 and during the second waterwheel housing 840, the first baffle 823 is close to described the The lower end of two waterwheel housings 840.The first baffle 823 is more convexly formed laterally than first screw thread 822.

The first pad 825 (pac king) is configured between first screw thread 822 and first baffle 823.Described One pad 825 is used to cut off water to leakage between the first waterwheel housing 820 and the second waterwheel housing 840.First pad 825 Formed by elastic material.First pad 825 is formed as annular state.

It is configured with pad in order to fix the position of first pad 825 and muscle 824 is set.The pad sets muscle 824 On the extended line for being configurable on the first screw thread 822.The pad sets the part that muscle 824 can be the first screw thread 822.

Thus, first screw thread 822 can be formed with multiple, be distributed in a discontinuous manner.

General jet 411 is configured with the first waterwheel housing 820.In the present embodiment, the general jet 411 are configured with two.Two general jets 411 are formed towards mutual opposite direction.

The interior outside of first waterwheel housing 820 is connected by the general jet 411.In the present embodiment, described one As the inner side open area ratio outer openings area of jet 411 formed widerly.

The waterwheel wing 850 is formed with the outer peripheral face of the second waterwheel housing 840.The waterwheel wing 850 can make humidification empty Gas is flowed.Also, the waterwheel wing 850 can be formed along by waterwheel housing 800 to the direction of pressure on the downside of downside.Institute When stating waterwheel housing 800 and being rotated, in the presence of the water pumped up water, the waterwheel housing 800 is under pressure to upside.It is described The waterwheel wing 850 is preferably formed as to downside pressure waterwheel housing 800.

When the waterwheel housing 800 is rotated, the waterwheel wing 850 draws in the air on periphery and makes its downward effluent It is dynamic.The air of humidification stream 106 of the waterwheel housing 800 is configured with the presence of the flowing of blowing fan 24, its major part Flowed to the side of discharge stream 107, the air on the periphery of the waterwheel wing 850 is then towards direction flowing in contrast.

The waterwheel wing 850 can be formed locally the air flow opposite with the air flow based on blowing fan 24.It is based on The air flow of the waterwheel wing 850, which has, makes the effect that the water particle on the periphery of waterwheel housing 800 flows to tank 30.Institute Stating the waterwheel wing 850 has along downside direction formation wind direction, and draws in the effect of the water particle of humidification stream 106.

Also, the air flow based on the waterwheel wing 850 is in water from water supply stream 109 to the top of waterwheel housing 800 When dropping, the effect that the water that will fall off collects to the side of waterwheel housing 800 is performed.

In the case of being supplied water when the waterwheel housing 800 rotates by water supply stream 109, water and the waterwheel shell The surface of body 800 collides and dispersed in an irregular pattern.Air flow based on the waterwheel wing 850 is being supplied water When, the phenomenon that the water particle that will be dispersed collects to the face side of waterwheel housing 800 can be presented.

The second waterwheel housing 840 is formed with high speed jet 412,413.The high speed jet 412,413 directions The visual injection water of main body 210.In the present embodiment, the high speed jet 412,413 is configured with two.The high speed is sprayed Mouth is defined as the first high speed jet 412 and the second high speed jet 413.

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

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

By the first high speed jet 412 and the second high speed jet 413 formation difference of height, it can make and visual main body The position of 210 water collided is differently set.Thus, when the waterwheel housing 800 is rotated, from first at a high speed The water that jet 412 sprays and the water from the injection of the second high speed jet 413 will pass through mutually different path.

The path definition for the water that medial surface with visual main body 210 is collided is spray line.

The spray line that the first high speed jet 412 is formed is defined as the first spray line, and described second sprays at a high speed The spray lines that mouth 413 is formed are defined as the second spray line.

In the present embodiment, on the basis of certain of the visual main body 210, sprayed from the first high speed jet 412 Water pass through after, after the stipulated time in another height pass through from the second high speed jet 413 spray water.That is, institute State visual main body 210 medial surface formation two spray lines, by the performance of such visual manner, can make user more added with The cognition of effect ground is just in injection water.

In the case of from two high speed jet discharge water of the configuration in constant height, an injection will be only formed Line.When waterwheel housing 800 is carried out at high speed rotation, even if first, second high speed jet 412,413 is in opposite direction, its Phase difference is formed extremely short.In the case, cause parablepsia and be considered as to wander water from a spray line.

In addition, in the case where forming two spray lines, because the position that water is collided is different, the sound occurred by collision Sound will also be form differently.That is, the sound that occurs from the first spray line and the sound that occurs from the second spray line are by different terrain Into.By such sound equipment difference, user can confirm that waterwheel housing 800 is rotated with audible means.

By the sound equipment difference of the spray line, with the effect that running-active status is effectively passed on to visually impaired person or the person that listens to barrier Really.Also, under the situation without light, it can also easily verify that the state that humidifying and purifying device is in action.

In addition, the moisture film being internally formed for suppressing moisture film rotational flow in the second waterwheel housing 840 suppresses Muscle 870.The moisture film rotational flow refers to the flowing along the medial surface rotation of waterwheel housing 800.

The groove 810 that pumps up water of the first waterwheel housing 820 is for forming the moisture film rotational flow, the moisture film suppression Muscle 870 processed is for suppressing the moisture film rotational flow.

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

In the case where the second waterwheel housing 840 is internally formed the moisture film rotational flow of high speed, water will be along inside Flowing, rather than spued by high speed jet.

Also, being detained the vibrations formed in the water for getting over volume, waterwheel housing 800 in the second waterwheel housing 840 becomes It is bigger.The water pumped up water to the second waterwheel housing 840 needs promptly to be sprayed by high speed jet 412,413, The bias of waterwheel housing 800 can be made to reach minimum, and corresponding vibrations is also reached minimum.

The moisture film suppresses muscle 870 makes moisture film rotational flow reach minimum for execution, and the inclined of waterwheel housing 800 is made accordingly The heart and vibrations reach the function of minimum.

The moisture film suppresses muscle 870 and is convexly formed in the inner side of the second waterwheel housing 840 towards the side of power transmission shaft 640.Institute Moisture film suppression muscle 870 is stated to be formed along the direction intersected with moisture film rotational flow.

Medial surface of the moisture film rotational flow along the second waterwheel housing 840 is twist or circle is flowed, institute Moisture film suppression muscle 870 is stated to be formed preferably along above-below direction.

In the present embodiment, the moisture film suppression muscle 870 is formed along vertical direction.The moisture film suppresses muscle 870 can shape It is multiple into having.In the present embodiment, the moisture film suppression muscle 870 is configured with three.Multiple moisture films suppress muscle 870 to be driven By being configured at equal intervals on the basis of axle 640.

In the present embodiment, the protrusion length that the moisture film suppresses muscle 870 is 5mm.The moisture film suppresses 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 suppression muscle 870 is formed in the way of being connected with waterwheel driving section 880.Pass through Made in the way of moisture film suppression muscle 870 is connected with waterwheel driving section 880, mould can be simplified.

The waterwheel driving section 880 is the structure for the revolving force of power transmission shaft 640 to be transmitted to tank truck housing 800.

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

In the present embodiment, the waterwheel driving section 880 is made in an integrated manner with the second waterwheel housing 840. With the present embodiment differently, the waterwheel driving section 880 can mutually be assembled with the second waterwheel housing 840.

The waterwheel driving section 880 includes：Bushing setting unit 882, positioned at the axle center of waterwheel housing 800；Waterwheel is connected Portion 884, the bushing setting unit 882 is connected with waterwheel housing 800.In the present embodiment, the bushing setting unit 882, The waterwheel housing 840 of waterwheel connecting portion 884 and second is injection molded and made in an integrated manner.

The waterwheel connecting portion 884 is made as muscle form.The waterwheel connecting portion 884 is on the basis of axle center in radiation Shape is configured, and is formed with multiple.

In the present embodiment, the waterwheel connecting portion 884 is made in an integrated manner with moisture film suppression muscle 870.Institute Waterwheel connecting portion 884 is stated to be formed in the way of being connected with moisture film suppression muscle 870.

The power 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.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 above-below direction.The bushing setting unit 882 and lining Set 90 forms mutual screens in a rotational direction.

Therefore, the side in the bushing setting unit 882 or bushing 90 is formed with bushing screens portion 93, another square Into there is bushing screens groove 883.In the present embodiment, bushing screens portion 93 is formed with bushing 90, is formed in bushing setting unit 882 There is bushing screens groove 883.

The bushing screens groove 883 forms the medial surface in bushing setting unit 882, and its is in a concave manner.The bushing Screens portion 93 forms the lateral surface in bushing 90, and it is in the shape protruded.

The insertion bushing screens of bushing screens portion 93 groove 883 is simultaneously clamped.

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

The bushing 90 is combined with the power transmission shaft 640 and is delivered to revolving 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 and tear, this turns into the reason for causing vibrations.

The bushing 90 is formed with the bushing axle mesopore 91 run through along above-below direction.Inserted in the bushing axle mesopore 91 The power transmission shaft 640.

The bushing 90 reduces vibrations when the waterwheel housing 800 rotates.The bushing 90 is located on power transmission shaft 640. In the present embodiment, the bushing 90 is located at the center of gravity of the waterwheel housing 800.Because the bushing 90 is located at waterwheel housing 800 center of gravity, can significantly reduce the vibrations of waterwheel housing 800 when being rotated.

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

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

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

Minimum is reached for the abrasion that makes generation, the axle support end 642 is formed as taper, cavity or with cambered shape Shape.In the case where the axle support end 642 is formed as into right angle, it may be ground in assembling process or action process Damage.

In the case where the axle support end 642 is worn, the reason for it moves as bushing 90 and causes vibrations.And And, in the case where axle support end 642 is worn, bushing 90 will likely be tilted or mobile, thus cause pair with power transmission shaft 640 It is neat bad.Also, in the case where the alignment for occurring bushing 90 and power transmission shaft 640 is bad, bias occurs when being rotated, and Thus vibrations are caused.

The bushing support end 92 supported by the axle support end 642 is formed with the bushing axle mesopore 91.The bushing Axle mesopore 91 is formed, on the basis of the bushing support end 92, and the diameter on the upside of it is small, downside diameter is big.

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

In the present embodiment, the axle support end 642 and bushing support end 92 are configured in center section, but the axle branch The position for supportting end 642 and bushing support end 92 is unrelated with function.For example, the axle support end 642 and bushing support end 92 can match somebody with somebody Put the upside or downside on bushing axle mesopore 91.

The power transmission shaft 640 is formed with the axle card plane 645 for forming mutual screens with the bushing 90 when being rotated. The axle card plane 645 forms the outer peripheral face in power transmission shaft 640, and is formed along above-below direction.The axle card plane 645 and institute Axle support end 642 is stated to be connected.In the present embodiment, the axle support end 642 is configured in the upside of axle card plane 645.

The bushing 90 is formed with bushing card plane 95 corresponding with the axle card plane 645.The bushing card plane 95 To form the face of bushing axle mesopore 91.In the present embodiment, the axle card plane 645 and bushing card plane 95 are configured with multiple. With the present embodiment differently, the axle card plane 645 and bushing card plane 95 also can be configured only at one.

The mutual screens of the axle card plane 645 and bushing card plane 95 and the support of the axle support end 642 and bushing The mutual screens at end 92 is the alignment unit (align) for the bushing 90 that aligns.

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

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

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

The waterwheel case lid 860 is combined with the upside of the second waterwheel housing 840, for closing the second waterwheel shell The upside of body 840.The waterwheel case lid 860 is combined with screw fashion with the second waterwheel housing 840.

In the present embodiment, the waterwheel case lid 860 is mutually assembled with transmission module 600.With the present embodiment differently, institute The state being separated with transmission module 600 can also be formed by stating waterwheel case lid 860.In the waterwheel case lid 860 and power transmission shaft In the case that 640 are combined, it can more efficiently reduce bias and the vibrations of waterwheel housing 800.

The waterwheel case lid 860 includes：Lid main body 862, covers the upside opening portion of the second waterwheel housing 840； Lid main board 863, extends to be formed in the lid main body 862 to downside, coats the upper end of the second waterwheel housing 840；Pad Muscle 864 is set, formed in the downside of the lid main body 862, with the lid main board 863 formation mutually separated a predetermined distance；Axle is consolidated Determine portion 866, be fixed on the power transmission shaft 640；Reinforcement 868, sets muscle 864 to be connected the axle fixed part 866 with pad.

Be formed as circular when the lid main body 862 is as viewed from vertical view.The diameter of the lid main body 862 is than the second waterwheel housing 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, institute in lateral surface Projection 861 is stated circumferentially to be formed in 360 degree of scope.Described raised 861 separate waterwheel case lid 860 when to Family provides gripping sense.

The pad sets muscle 864 to be located at the inner side of the lid main board 863, is mutually separately advised with the lid main board 863 Set a distance.The second pad 865 is provided between the lid main board 863 and pad set muscle 864.

It can be closed by the described second pad 865 between waterwheel case lid 860 and the second waterwheel housing 840.

The waterwheel housing 840 of lid main board 863 and second can be combined with screw fashion.In the present embodiment, institute The waterwheel housing 840 of waterwheel case lid 860 and second is stated to be assembled with interference fit.

The axle fixed part 866 is mutually assembled with power transmission shaft 640, and revolving force is delivered to from the power transmission shaft 640.

The axle fixed part 866 and power transmission shaft 640 can be combined with screw fashion.Therefore, in the power transmission shaft 640 Upper end outer peripheral face is formed with the screw thread 643 combined for the screw with the waterwheel case lid 860.

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

With the waterwheel case lid 860 differently, the axle fixing component 867 uses metal material.Due to power transmission shaft 640 Formed by metal material, the part combined with the power transmission shaft 640 with screw fashion is also required to be formed by metal material, Cai Neng Prevent to wear and tear or be damaged when being combined.Formed in the entirety of waterwheel case lid 860 by metal material, or the axle Fixed part 866 is by the case that metal material is formed, preferably in the axle fixed part 866 itself formation screw thread.

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

Thus, at least a portion in the water supplied to the water supply stream 109 can be fallen to the waterwheel case lid 860 Fall.In the case where the waterwheel housing 800 is rotated, the water dropped to the waterwheel case lid 860 is in the waterwheel shell Sprayed towards radial outside on the surface of body lid 860.

The waterwheel case lid 860 of rotation is sprayed the water of supply along direction of rotation, can be presented just as water is from rain The effect that umbrella drops.Particularly, water droplet can be multiple raised 861 of the circumferencial direction configuration along the waterwheel case lid 860 It is stripped.

The water and the medial surface of visual main body 210 sprayed from the waterwheel case lid 860 towards direction of rotation collides, 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 just as raindrop The situation of shape.

Figure 36 is the stereogram of the tank humidification medium housing shown in Fig. 4, solids of the Figure 37 as viewed from the downside of Figure 36 Figure, Figure 38 is Figure 36 front view, and Figure 39 is the profile splitted along Figure 38 line B-B, and Figure 40 is Figure 39 humidification medium The enlarged drawing of fixed cell, Figure 41 is the enlarged drawing on the anti-fall current road for showing Figure 39, and the decomposed that Figure 42 is Figure 36 is three-dimensional Figure, stereograms of the Figure 43 as viewed from the downside of Figure 42, Figure 44 is Figure 42 front view, and Figure 45 is cutd open along Figure 44 line D-D The profile opened.

Tank humidification medium housing is described in more details referring to the drawings.

In the present embodiment, the housing that tank humidification medium 51 is provided with humidification medium 50 is defined as tank humidification matchmaker Shell body 300.

In the present embodiment, the tank humidification medium housing 300 is configured in tank 30.Particularly, the tank humidification Medium housing 300 is configured in the inner side of tank inflow entrance 31.In the present embodiment, the tank humidification medium housing 300 is placed on Visual main body 210, and positioned at the inner side of the tank 30.With the present embodiment differently, the tank humidification medium housing 300 can It is arranged on tank 30.

The tank humidification medium housing 300 passes through the air of suction screw clamp inflow entrance 31.The tank humidifies matchmaker The air passed through described in 51 pairs that is situated between implements humidification.

Tank humidification medium 51 is provided with to provide moisture to the air of flowing in the tank humidification medium housing 300, In addition, the upside of the tank 30 is also covered to prevent the water in the tank 30 to be spilled off.

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

In order to prevent such situation, tank humidification medium housing 300 is close to the upper edge of tank 30, hereby it is possible to The water for suppressing the tank 30 overflows to outside tank 30.

When tank humidification medium housing 300 is placed on into the visual main body 210, its lower end and the upper side edge of tank 30 Edge is mutually close to.With the present embodiment differently, the upper end of the tank humidification medium housing 300 and tank 30 can be made to be fastened or phase Overflowed with reference to thoroughly cut-out water has been carried out.

In the present embodiment, prevented by the way that a part for tank humidification medium housing 300 is mutually close to tank 30 Only spilling water.

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

The tank humidification medium 51 is configured between interior media profile 310 and outer media profile 320.The tank humidification The covering tank of medium 51 inflow entrance 31.The tank humidification medium 51 is formed as annular state.In the present embodiment, the tank Humidification medium 51 is formed as its downside funnel shape that sectional area is small, upside sectional area is big.The tank humidification medium 51 is relative Configured in an inclined manner in above-below direction.The inclination of tank humidification medium 51 allow for air-flow direction and Formed.

By connecting air that stream 103 flows to tank inflow entrance 31 compared with moving horizontally, side upward will be formed To inclined flowing.Formed in an inclined manner tank humidification medium 51 can the mode mutually orthogonal with air-flow direction enter Row configuration.

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

In order to fix the tank 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 that medium 51 is humidified for fixing the tank.

In the present embodiment, the humidification medium fixed cell is made up of raised and groove.

The humidification medium fixed cell includes：Fixed lobe 302, is formed in the interior media profile 310 or outer medium A side in framework 320；Fixing groove 304, forms the opposing party in the interior media profile 310 or outer media profile 320, institute State fixed lobe 302 and be 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 Framework 310.With the present embodiment differently, its position can be configured on the contrary.In the fixed lobe 302 and fixing groove 304 Between be configured with tank humidification 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 humidify medium 51 in interior media profile 310 and outer medium frame Moved between frame 320.

In the present embodiment, in order to form the fixing groove 304, a part for the interior media profile 310 is convex to upside Go 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 with reference in the interior He of media profile 310 The effect of outer media profile 320.

The interior medium inflow entrance 311 bypassed air through is formed with 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 omniranges.It is interior Medium inflow entrance 311 and outer medium inflow entrance 321 can be configured in opposed facing mode.

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 tank humidifies the shape on the whole of medium housing 300 As funnel shape.

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

A part in the upper side of the covering of anti-overflow water cover 330 tank 30, overflows to prevent the water of water stopping trough 30.And And, anti-overflow water cover 330 provides the function of preventing that the water surface of the water wandered from upside to tank 30 from directly dropping.

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 with 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.Wandered along the visual main body 210 Water can be wandered along the media profile component.

The anti-overflow water cover 330 is configured in the lower end of media profile component, for holding the media profile component.It is described Anti-overflow water cover 330 is used to store the water wandered temporarily, and the water stored temporarily is guided to the medial surface of tank 30.In this implementation In example, the anti-overflow water cover 330 provides the part in anti-fall current road.

The anti-overflow water cover 330 is used to guide the water wandered, and waterfall noise is reached minimum.The anti-overflow water cover 330 At least a portion in the lower end of media profile component can be formed to hold.In the present embodiment, the anti-overflow water cover 330 is wrapped The whole lower end of media profile component is covered, and prevents water from directly being dropped to the water surface of tank 30.

Be formed as toroidal 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 is guided to the medial surface of tank 30.The downside of the anti-overflow water cover 330 is blocked up The inside edge of tank 30 is stated in residence, to cut off the water overflowed to outside the tank 30.

The interior media profile 310 includes：Interior upper framework 312, is placed on the visual main body 210；Interior vertical frame 313, it is described it is interior on framework 312 extend to downside, for forming the interior medium inflow entrance 311；Interior underframe 314, with institute State interior vertical frame 313 to be connected, be placed in the upper side of anti-overflow water cover 330.

It is described it is interior on multiple interior vertical frames 313 are configured between framework 312 and interior underframe 314.It is described it is interior on Interior medium inflow entrance 311 is formed between framework 312 and interior underframe 314 and interior vertical frame 313.

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

Handle 315 is formed with the interior vertical frame 313.The handle 315 can be formed with multiple.The handle 315 Protruded in interior vertical frame 313 towards inner side.User can lift whole tank humidification medium housing 300 by the handle 315.

The interior upper framework 312 is formed as annular state, its opening-like state in inner side.The interior underframe 314 is formed as ring Form, its opening-like state in inner side.

In order to be placed on the bottom guide groove 217 of visual main body 210, the interior upper framework 312 is than the outer medium Framework 320 is more convexly formed towards radial outside.

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, and the outer media profile 320 includes：Outer medium inflow entrance 321, outside upper framework 322, outer vertical frame 323 and Outer underframe 324.

Storage area 328 is formed with the outer underframe 324.Store the water wandered temporarily in the storage area 328. The storage area 328 is formed as ring-shaped.Be formed with vertical wall in the inner side of the outer underframe 324, for prevent water to Overflow inner side.The water of the storage area 328 flows to western medium Jie guide 325 described later.

With the interior media profile 310 differently, the outer media profile 320 also includes being used for the outside upper He of framework 322 Western medium's Jie's guide 325 that outer underframe 324 is connected.

Western medium Jie guide 325 supports the outside upper framework 322 and outer underframe 324.Western medium Jie guide 325 are internally formed with clearance spaces.Western medium Jie guide 325 is connected with the storage area 328.

Western medium Jie guide 325 discharges the water that tank humidifies medium 51 to anti-overflow guide 330.

Be formed with the lower side of western medium Jie guide 325 for by internal water to the anti-overflow guide Western medium's Jie's pilot hole 326 of 330 discharges.Western medium Jie pilot hole 326 is towards being formed radially jump.Thus, western medium's mediation Introduce to be formed to inner side to hole 326.The anti-overflow guide 330 is closed with the mutual type of western medium Jie guide 325.

The bottom surface of western medium Jie guide 325 is formed as inclined plane 327.The inclined plane 327 is formed its inner side High, outside is low.Thus, the water of western medium Jie guide 325 is drawn along the outside medium pilot hole 326 of the inclined plane 327 Lead.Western medium Jie pilot hole 326 is configured with the end of the inclined plane 327.

In the present embodiment, western medium Jie guide 325 is configured with three.Western medium Jie guide 325 is pressed respectively Configured, and configured with radial form at equal intervals.

The water of the storage area 328 outside medium guide 325 under Gravitative Loads is moved.The water of storage area 328 Along also circumferencial direction flow after, moved to western medium Jie guide 325, and by western medium Jie pilot hole 326 to Anti-overflow water cover 330 is discharged.

By the storage area 328, western medium's Jie's guide 325, western medium's Jie's pilot hole 326, anti-overflow water cover 330 knot Structure, can prevent water from directly being dropped to the water surface of tank 30 from tank humidification medium housing 300.

The anti-overflow water cover 330 includes：Cap 332, covers the top of tank 30；Baffle plate 334, with the cap 332 The mode being connected is formed, and bends to form receiving space 338 from the cap 332；Lid insertion groove 335, is formed in the lid Portion 332, western medium Jie guide 325 inserts the lid insertion groove 335；Cap bore 336, is formed in the lid insertion groove 335, with It is connected inside the tank 30 and carries out draining.

The cap 332 is configured on the downside of media profile component.The cap 332 is configurable on the interior of the tank 30 Portion.The cap 332 can cover a top part for the tank 30.In the present embodiment, the cap 332 is along the water The medial surface of groove 30 is formed.

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

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

Cap bore 336 is formed with the lid insertion groove 335.The cap bore 336 is formed in the way of court extends radially through.It is described Cap bore 336 inside the tank 30 with being connected.The cap bore 336 is formed towards the medial surface of tank 30.From the cap bore The water of 336 discharges is moved along the medial surface of tank 30.

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

At least one in the lid insertion groove 335 is formed with clamping slot 335a, can in western medium Jie guide 325 It is formed with clamping section 325a corresponding with the clamping slot 335a.

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

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

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

The cap 332 is formed in an inclined manner.It is low that the cap 332 is formed high, inner side on the outside of it.The lid Water on the upside of the incline structure suppression in portion 332 flows to outside cap 332.The water of the upper side of cap 332 is along incline structure Inside side flowing.

The water flowed along the upside of the cap 332 is guided to the storage area 328.Thus, along described The water that the upper side of cap 332 is wandered is via the storage area 328, western medium's Jie's pilot hole 326, cap bore 336 into tank 30 Side is guided.By structure as described above, it can prevent the water surface of the water wandered to the tank 30 from directly dropping.

The baffle plate 334 together forms receiving space 338 with the cap 332.The receiving space 338 is formed described The downside of cap 332.The receiving space 338 is when the water of the tank 30 shakes, by along the madial wall of the tank 30 The surge water capacity is received, and it is guided to the downside of the tank 30.

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

The Internal baffle 331 and outer baffle 333 are rolled over and formed in the downward lateral bending of the cap 332.The edge of Internal baffle 331 The inside edge for the cap 332 is formed, and lateral bending is rolled over and formed downwards.The outer baffle 333 is along the cap 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 tank 30.

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

The Internal baffle 331 and outer underframe 324 are mutually combined.In the Internal baffle 331 or outer underframe 324 A side be formed with screens projection 339, be formed with screens groove 329 in the opposing party.In the present embodiment, formed in Internal baffle 331 There is screens projection 339, screens groove 329 is formed with outer underframe 324.

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

Thus, in the case that the water that is stored in the tank 30 shakes, its madial wall along the tank 30 rises Afterwards, flowed along the outer baffle 333, cap 332 and Internal baffle 331.That is, the water risen along the madial wall of tank 30 Its direction is converted into behind downside in the receiving space 338, then is directed to the center of tank 30.

As described above, the anti-overflow water cover 330 can prevent the water of the tank 30 from being overflowed to outside tank 30.

Also, tank humidification medium housing 300 by interior upper framework 312, storage area 328, western medium's Jie's pilot hole 326, Cap 332, cap bore 336 structure there is provided the water surface for water to the tank 30 for preventing from wandering from visual main body 210 directly drop it is anti- Overboard stream.

Above by reference to accompanying drawing, preferred embodiments of the present invention have been disclosed for illustrative, but the present invention is not limited to above institute In the range of the specific embodiment stated, the technological thought of the invention advocated in without departing substantially from claims, this area Those skilled in the art can carry out various deformation implementation to it, such deformation implementation should not depart from the present invention technological thought or Prospect and individually understood.

Claims (15)

1. a kind of humidifying and purifying device, wherein,

Including：

Tank, for storing water；

Visual main body, at least a portion formed in the tank, by that can see that the material of inside is formed from outside perspective；

Tank inflow entrance, forms in the tank, the interior outside of the tank is connected；

Tank humidifies medium, covers the tank inflow entrance, is formed by the material that can absorb water, to being flowed into by the tank The air of mouth provides humidification；

Waterwheel housing, is configured inside the tank, the water of the tank is sucked into inside, when rotated by the water of suction Pumped up water to upside；

Waterwheel motor, revolving force is provided to the waterwheel housing；

General jet, configuration sprays the water pumped up water to tank humidification medium in the waterwheel housing；

High speed jet, configuration sprays the water pumped up water to the visual main body in the waterwheel housing.

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

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

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

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

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

The general jet is located at higher position than the tank.

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

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

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

Wandered on the downside of from the water of high speed jet injection to the visual main body, to soak the tank humidification medium.

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

Water from the general jet injection is wandered after the tank humidification medium is soaked to the tank.

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

The lower end and the upper end of the tank of tank humidification medium are superimposed, and the general jet is to the portion of the superposition Divide injection water.

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

Also include：

Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification medium housing；

The tank humidification medium is placed on the tank in the way of it can separate.

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

Also include：

Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification medium housing；

The tank humidification medium is placed on the visual main body in the way of it can separate.

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

Also include：

Tank humidifies medium housing, and the tank humidification medium is arranged on the tank humidification medium housing；

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

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

The lower end of the tank humidification medium housing is located inside the tank.

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

The storage area for being formed with the downside of medium housing and storing the water of storage temporarily is humidified in the tank,

The general jet is to the storage area injection water.

14. humidifying and purifying device according to claim 13, wherein,

The storage area and the tank are superimposed, and the storage area is located at the inner side of the tank.

15. humidifying and purifying device according to claim 13, wherein,

The lower end of the tank humidification medium is located at the storage area.