CN202769868U - Ion sending-out device and air conditioning device and hairdressing and beauty equipment - Google Patents

Abstract

The utility model provides an ion sending-out device, an air conditioning device and hairdressing and beauty equipment. The ion sending-out device comprises an ion generating device (15), an electrostatic atomization device (10) and an air feeder (5), wherein the ion generating device (15) is used for generating positive ions and releasing the positive ions to the air, the electrostatic atomization device (10) generates electrified particles formed by vaporous water with negative charge and releases the electrified particles to the air, and the air feeder (5) sends out the positive ions and the electrified particles.

Description

Ion supplying device and conditioner, cosmetics and hair dressing device

Technical field

The utility model relates to the ion supplying device that possesses electrostatic atomization apparatus and the conditioner that uses this ion supplying device, cosmetics and hair dressing device.

Background technology

Patent documentation 1 discloses a kind of air cleaner in the past that possesses electrostatic atomization apparatus.This air cleaner offers suction inlet and blow-off outlet at casing, and is provided with the air supply duct that is communicated with suction inlet and blow-off outlet in casing.In air supply duct, dispose the pressure fan that Sirocco fan consists of.Dispose the filter that filters dust in the upstream of pressure fan one side, one side disposes electrostatic atomization apparatus in the downstream of pressure fan.

Electrostatic atomization apparatus comprises sparking electrode, opposite electrode and Peltier element.Sparking electrode has flat flat part and uprightly is arranged on cylindrical portion on the flat part.Opposite electrode forms relative with the cylindrical portion front end cylindric.Peltier element is configured to link to each other with the flat part of sparking electrode.

If to the Peltier element energising, then sparking electrode is cooled, so generate water on the surface of sparking electrode because of condensation.Then, with sparking electrode as negative pole and with opposite electrode as positive pole, and between sparking electrode and opposite electrode, apply high voltage.Thus, negative electrical charge concentrates on sparking electrode, and effect has the Coulomb force and surpasses surface tension between water and opposite electrode, thereby repeats the division of water and disperse.Its result generates the vaporific charged particulate water with negative electrical charge.

In the air cleaner of said structure, utilize the driving of pressure fan, from suction inlet to air supply duct in air in the suction chamber, and utilize the dust that contains in the filter filtered air.Remove and contain the sub-water of charged corpuscle that electrostatic atomization apparatus produces in the air behind the dust, and above-mentioned air is sent from blow-off outlet.Can utilize the air that contains the sub-water of charged corpuscle, carry out sterilization etc. to indoor.

In addition, patent documentation 2 discloses a kind of hair-dryer in the past that possesses electrostatic atomization apparatus.This hair-dryer offers suction inlet, the first blow-off outlet and the second blow-off outlet at casing.Be provided with the air supply duct that is communicated with suction inlet in casing, air supply duct at the front end to both direction first, second passage along separate routes, is provided with first, second blow-off outlet respectively.In air supply duct and before shunt, dispose the pressure fan that propeller type fan consists of.Dispose heater at first passage, and dispose electrostatic atomization apparatus at second channel.

In the hair-dryer of said structure, utilize the driving of pressure fan, from suction inlet to air supply duct in air in the suction chamber, and make air to first, second corridor diversion.The air that flows through first passage is heated by heater, and is sent from the first blow-off outlet.Thus, user's hair carried out drying.In addition, second channel contains the sub-water of charged corpuscle that electrostatic atomization apparatus produces, and is sent from the second blow-off outlet.Thus, can be to carrying out sterilization near the user and hair being carried out moisturizing.

Patent documentation 1: Japanese Patent Publication communique JP 2011-33293 number (the 4th page the-the 8th page, Fig. 6)

Patent documentation 2: Japanese Patent Publication communique JP 2008-126139 number (the 5th page the-the 8th page, Fig. 1)

Patent documentation 3: Japanese Patent Publication communique JP 2010-274126 number (the 5th page the-the 8th page, Fig. 2)

Yet, according to above-mentioned air cleaner in the past, because the sub-glassware for drinking water of charged corpuscle has the particle footpath of about tens of nm, so compare enough large with air molecule.Therefore, the arrival of the sub-water of charged corpuscle of sending from blow-off outlet to air distance shortens, and sometimes can not be diffused into whole indoor.In addition, because the sub-water of charged corpuscle is with negative electrical charge, so the sub-water of charged corpuscle produces repulsion with indoor position with negative electrical charge and can not arrive.Thus, can not fully obtain indoor bactericidal effect.

In addition, according to above-mentioned hair-dryer in the past, if user's hair with negative electrical charge, then repels with the sub-water generates of charged corpuscle away from the user.Particularly since the sub-water of charged corpuscle with negative electrical charge, so because using hair-dryer that negative electrical charge is accumulated on user's the hair, thereby make the sub-water of charged corpuscle that newly provides away from user's hair.Thus, can not fully obtain bactericidal effect and moistening effect.

Summary of the invention

The purpose of this utility model is to provide bactericidal effect and the ion supplying device of moistening effect and conditioner, the cosmetics and hair dressing device of this ion supplying device of use that can improve the sub-water of charged corpuscle.

In order to reach above-mentioned purpose, the utility model provides a kind of ion supplying device, it is characterized in that comprising: ion generating apparatus produces cation, and described cation is discharged in the air; Electrostatic atomization apparatus produces the vaporific charged particulate water with negative electrical charge, and the sub-water of described charged corpuscle is discharged in the air; And pressure fan, send described cation and the sub-water of described charged corpuscle.

According to this configuration, send the cation that is produced by ion generating apparatus and the sub-water of charged corpuscle that is produced by electrostatic atomization apparatus to indoor or user etc. by pressure fan.The cation that is diffused with the sub-water of the charged corpuscle of negative electrical charge attracts and spreads.In addition, utilize cation electric to removing with the zone of negative electrical charge, and guide charged particulate water.Utilize the sub-water of charged corpuscle to carrying out sterilization near indoor and the user or carrying out moisturizing.

In addition, the ion supplying device of the utility model said structure is characterised in that, sends simultaneously described cation and the sub-water of described charged corpuscle.According to this configuration, for example make the less cation in particle footpath to indoor diffusion.At this moment, utilize cation that electricity is removed in indoor position with negative electrical charge.The larger sub-water of charged corpuscle in particle footpath is attracted by cation and spreads, and arrives the position that utilizes after cation removes electricity.

In addition, the ion supplying device of the utility model said structure is characterised in that, described ion supplying device be provided with first send during and second send during, described first sends described cation and the sub-water of described charged corpuscle during sending simultaneously, described second send during during sending through first after, described ion generating apparatus stopped and sending the sub-water of described charged corpuscle.

According to this configuration, it is indoor positive diffusions to be arrived first during sending, and to remove electricity with the position of negative electrical charge.First send during and second send during, the sub-water of charged corpuscle is attracted by cation, and arrives by except the position behind the electricity.In addition, first send during, for example send cation to the user, near the negative electrical charge the user is removed electricity, first send during and second send during, the sub-water of charged corpuscle is directed near the user.

In addition, the ion supplying device of the utility model said structure is characterised in that, described ion supplying device be provided with first send during and second send during, described first stops described electrostatic atomization apparatus during sending and sends described cation in specified time limit, described second send during during sending through first after, described ion generating apparatus stopped and sending the sub-water of described charged corpuscle.

According to this configuration, it is indoor positive diffusions to be arrived first during sending, and to remove electricity with the position of negative electrical charge.Second send during, the sub-water of charged corpuscle is attracted by cation and spreads, and arrive to remove the position behind the electric charge.In addition, for example send cation to the user first during sending, and near the negative electrical charge the user is removed electricity, sub-water is directed near the user with charged corpuscle during sending second.

In addition, the ion supplying device of the utility model said structure is characterised in that, described electrostatic atomization apparatus has sparking electrode, the Peltier element of the described sparking electrode of cooling and the fin that links to each other with described Peltier element, described sparking electrode is configured to towards air supply duct, described air supply duct utilizes the driving of described pressure fan to make airflow, and described fin arrangement becomes towards divided channel, and described divided channel is collaborated in the upstream of described sparking electrode along separate routes and in the downstream with respect to described air supply duct.

According to this configuration, the air-flow that circulates in air supply duct is to direction and the divided channel shunting of sparking electrode.If the driving Peltier element then conducts heat to fin from sparking electrode, and to the airflow radiating that in divided channel, circulates.Thus, by the discharge of the sparking electrode after being cooled, charged corpuscle is discharged in the air supply duct, and with the air-flow that in divided channel, circulates interflow after send to indoor etc.

In addition, the utility model provides a kind of conditioner, it is characterized in that comprising the ion discharge dress of above-mentioned each structure.According to this configuration, utilize pressure fan to send by the cation of ion generating apparatus generation and the sub-water of charged corpuscle that is produced by electrostatic atomization apparatus to indoor.The less positive diffusions in particle footpath is to indoor, and attracted by cation and spread with the sub-water of the charged corpuscle of negative electrical charge.

In addition, the utility model provides a kind of cosmetics and hair dressing device, it is characterized in that comprising the ion supplying device of above-mentioned each structure.According to this configuration, if send cation to the user, then near the user, remove electricity during with negative electrical charge.In addition, if because sending charged corpuscle, make the user neighbouring with negative electrical charge, then utilize cation to remove electricity.After this, send the sub-water of charged corpuscle, and the sub-water of charged corpuscle is directed to the user.

According to the utility model, owing to utilize pressure fan to send the sub-water of charged corpuscle that is discharged into airborne cation and is produced by electrostatic atomization apparatus by ion generating apparatus, so the sub-water of charged corpuscle is diffused into cation in the space and the cation on irradiated body surface attracts.In addition, utilize cation electric to removing with the zone of negative electrical charge, thereby make the sub-water of charged corpuscle can arrive described zone.Thus, can in the space, provide charged corpuscle water with the irradiated body surface fully, thereby can improve bactericidal effect and moistening effect.

Description of drawings

Fig. 1 is the cross-sectional side view of the air cleaner of expression the utility model the first embodiment.

Fig. 2 is the front sectional drawing of ion supplying device of the air cleaner of expression the utility model the first embodiment.

Fig. 3 is the front sectional drawing of ion supplying device of the air cleaner of expression the utility model the second embodiment.

Fig. 4 is the front sectional drawing of ion supplying device of the air cleaner of expression the utility model the 3rd embodiment.

Fig. 5 is the B-B sectional drawing of Fig. 4.

Fig. 6 is the stereogram of the hair-dryer of expression the utility model the 4th embodiment.

Fig. 7 is the front view of the hair-dryer of expression the utility model the 4th embodiment.

Fig. 8 is the block diagram that the hair-dryer of expression the utility model the 4th embodiment consists of.

Description of reference numerals

1 ion supplying device

2 suction inlets

3 blow-off outlets

4 air supply ducts

The 4a air intake passage

The 4b exhaust passage

The 4c first passage

The 4d second channel

5 pressure fans

6 dividing plates

7 communicating passage

8 divided channel

10 electrostatic atomization apparatus

11 sparking electrodes

12 opposite electrodes

13 Peltier elements

14 fin

15 ion generating apparatus

16 sparking electrodes

20 air cleaners

21,31 casings

22 filters

32 handle portions

33 operating portions

34 control parts

35 heaters

The specific embodiment

With reference to the accompanying drawings embodiment of the present utility model is described.Fig. 1 represents the cross-sectional side view of the air cleaner of the first embodiment.Air cleaner 20 disposes ion supplying device 1 in casing 21.Fig. 2 represents the front sectional drawing of ion supplying device 1, and Fig. 1 is the A-A sectional drawing of Fig. 2.

Casing 21 offers suction inlet 2 overleaf, offers blow-off outlet 3 at upper surface.The ion supplying device 1 that is configured in the casing 21 comprises air supply duct 4, pressure fan 5, electrostatic atomization apparatus 10 and ion generating apparatus 15.Air supply duct 4 is formed by resin forming product, and is communicated with suction inlet 2 and blow-off outlet 3.

Pressure fan 5 is formed by the Sirocco fan that is driven by motor 5a, and suction side is configured to towards suction inlet 2.Air supply duct 4 is formed with air intake passage 4a in the upstream of pressure fan 5 side, and one side is formed with exhaust passage 4b in the downstream.

Electrostatic atomization apparatus 10 comprises sparking electrode 11, opposite electrode 12, Peltier element 13 and fin 14.Sparking electrode 11 forms needle-like, and its front end face is to exhaust passage 4b, and the bottom forms tabular.Opposite electrode 12 forms ring-type, and be configured in sparking electrode 11 front ends around.If apply high voltage between sparking electrode 11 and opposite electrode 12, then sparking electrode 11 produces corona discharge.Peltier element 13 is configured to one surface and links to each other with the bottom of sparking electrode 11, comes cooling discharge electrode 11.Fin 14 links to each other with another surface of Peltier element 13, and is configured to towards air intake passage 4a.

Ion generating apparatus 15 has the pin shaped electric discharging electrodes 16 towards exhaust passage 4b.If apply high voltage to sparking electrode 16, then utilize corona discharge to produce ion and in air, send.

In addition, in air supply duct 4, towards suction inlet 2, dispose the filter 22 that filters dust.

In the air cleaner 20 of said structure, if air cleaner 20 entrys into service then drive pressure fan 5, and drive simultaneously ion generating apparatus 15 and electrostatic atomization apparatus 10.Utilize the driving of pressure fan 5, indoor air flows into air supply duct 4 from suction inlet 2 shown in arrow D1.The air of inflow air supply duct 4 circulates in the 4b of exhaust passage after being filtered dust by filter 22.

Sparking electrode 16 to ion generating apparatus 15 applies the positive high voltage that is made of AC wave shape or impulse waveform, thereby produces corona discharge.Thus, airborne moisture produces ionization and generates hydrogen ion (H ⁺), utilize this hydrogen ion and airborne moisture to be combined into bunch, mainly produce by H ⁺(H ₂O) cation of m formation.Wherein, m is 0 or natural number.Cation is sent to exhaust passage 4b.

Corresponding to the quantity of hydrone, the particle of above-mentioned cation is directly for about number dust～number nm.In addition, the voltage that sparking electrode 16 is applied is set as and makes the ozone that utilizes the corona discharge generation below permissible range (for example 0.1ppm).

If drive electrostatic atomization apparatus 10, then to Peltier element 13 energisings, by 14 conducting heat and carry out heat exchange with the air-flow that flows through air intake passage 4a from sparking electrode 11 to fin, dispel the heat.Thus, sparking electrode 11 is cooled, and generates water on the surface of sparking electrode 11 because of condensation.

Then, with sparking electrode 11 as negative pole and with opposite electrode 12 as anodal, and between sparking electrode 11 and opposite electrode 12, apply high voltage.Thus, negative electrical charge concentrates on sparking electrode 11, and effect has the Coulomb force and surpasses surface tension between water and opposite electrode 12, thereby repeats the division of water and disperse.Its result generates the vaporific charged particulate water with negative electrical charge, and they are discharged among the 4b of exhaust passage.If the particle of the sub-water of charged corpuscle directly forms about several nm, evanescence then is so form particle footpath about tens of nm.

Thus, contain the sub-water of cation and charged corpuscle in the air that in the 4b of exhaust passage, circulates, and above-mentioned air is sent to indoor shown in arrow D2 from blow-off outlet 3.

Because cation is compared the particle footpath with equal extent with air molecule, so spread easily and arrive each indoor corner.Thus,, the sub-water of the charged corpuscle of negative electrical charge is diffused into each indoor corner with being attracted by cation.In addition, utilize cation that electricity is removed in indoor position with negative electrical charge, thereby make the sub-water of charged corpuscle can arrive these positions.And, utilize the sub-water of charged corpuscle to carry out sterilization to indoor.

According to present embodiment, because the cation of being sent in the air by ion generating apparatus 15 that utilizes pressure fan 5 to send and the sub-water of charged corpuscle that is produced by electrostatic atomization apparatus 10 attract so the sub-water of charged corpuscle is diffused into indoor cation.In addition, utilize cation electric to removing with the zone of negative electrical charge, thereby make the sub-water of charged corpuscle can arrive these zones.Thus, can provide charged corpuscle water to indoor fully, thereby can improve bactericidal effect.

Fig. 3 represents the front sectional drawing of ion supplying device 1 of the air cleaner 20 of the second embodiment.For convenience of explanation, the part identical with the first embodiment of above-mentioned Fig. 1～shown in Figure 2 adopts identical Reference numeral.Present embodiment and the first embodiment different are to dispose electrostatic atomization apparatus 10.Other parts are identical with the first embodiment.

Exhaust passage 4b at the air supply duct 4 of ion supplying device 1 derives communicating passage 7.One end of electrostatic atomization apparatus 10 sealing communicating passage 7, sparking electrode 11 is configured to towards communicating passage 7.In addition, fin 14 connects the wall of exhaust passage 4b and is configured to towards exhaust passage 4b.

Thus, fin 14 carries out heat exchange with the air-flow that flows through exhaust passage 4b and comes cooling discharge electrode 11.In addition, the sub-water of charged corpuscle that produces from sparking electrode 11 is discharged in the 4b of exhaust passage by communicating passage 7.Therefore, can be same with the first embodiment, improve indoor bactericidal effect.

Then, Fig. 4 is the front sectional drawing of ion supplying device 1 of the air cleaner 20 of expression the 3rd embodiment.For convenience of explanation, the part identical with the first embodiment of above-mentioned Fig. 1～shown in Figure 2 adopts identical Reference numeral.The different structures that are to dispose electrostatic atomization apparatus 10 and exhaust passage 4b of present embodiment and the first embodiment.Other parts are identical with the first embodiment.

The exhaust passage 4b of the air supply duct 4 of ion supplying device 1 is separated into first passage 4c and second channel 4d by dividing plate 6.The sparking electrode 16 of ion generating apparatus 15 is configured to towards first passage 4c.The sparking electrode 11 of electrostatic atomization apparatus 10 is configured to towards second channel 4d.Thus, blow-off outlet 3 is separated into first and blows out the 3a of section and second and blow out the 3b of section, and described first blows out the 3a of section sends the air that contains cation, and described second blows out the 3b of section sends the air that contains the sub-water of charged corpuscle.

The B-B sectional drawing of Fig. 5 presentation graphs 4.The behind of second channel 4d disposes divided channel 8.Divided channel 8 by peristome 8a along separate routes, and is passed through peristome 8b in the downstream and is collaborated with respect to the upstream of second channel 4d at sparking electrode 11.The fin 14 of electrostatic atomization apparatus 10 is configured to towards divided channel 8.Therefore, shown in arrow D3, shown in arrow D4, flow into divided channel 8 from peristome 8a in the part of the air-flow that circulates in the second channel 4d.

Thus, fin 14 carries out heat exchange with air-flow in divided channel 8 interior circulations and comes cooling discharge electrode 11.The sub-water of charged corpuscle that produces from sparking electrode 11 is released in the second channel 4d, and collaborates with the air-flow that flows into second channel 4d from peristome 8b after flowing through divided channel 8.And the air that contains the sub-water of charged corpuscle blows out the 3b of section from second and sends to indoor.

In addition, because the part of the air-flow that circulates in second channel 4d flows through divided channel 8, so flow through the wind speed decreased of the air on the sparking electrode 11.If it is very fast to flow through the wind speed of the air on the sparking electrode 11, then be difficult to adhere to the water that produces because of condensation at sparking electrode 11, cause reducing from the sub-water of charged corpuscle that sparking electrode 11 produces.Therefore, by making the wind speed decreased that flows through the air on the sparking electrode 11, can increase the sub-water of charged corpuscle.

According to present embodiment, same with the first embodiment, can improve indoor bactericidal effect.In addition, because fin 14 is configured to towards divided channel 8, this divided channel 8 is collaborated in the upstream of sparking electrode 11 along separate routes and in the downstream with respect to second channel 4d, thus can make the wind speed decreased that flows through the air on the sparking electrode 11, and can increase the sub-water of charged corpuscle.Therefore, can further improve indoor bactericidal effect.

In addition, owing to utilize dividing plate 6 to be separated into first, second passage 4c, 4d, so can suppress to cause the sub-water of charged corpuscle to reduce because of cation and the sub-water collision of charged corpuscle.

In the first～the 3rd embodiment, be to drive simultaneously continuously ion generating apparatus 15 and electrostatic atomization apparatus 10, but also can one side stopped in the period of regulation.For example, can arrange first send during and second send during, described first stops electrostatic atomization apparatus 10 during sending and sends cation in specified time limit, and described second stops ion generating apparatus 15 after during sending through first during sending and send the sub-water of charged corpuscle in specified time limit.In addition, can repeat first send during and second send during.

Thus, the sub-water of charged corpuscle of sending after indoor in positive diffusions is attracted by cation and spreads.Therefore, can obtain effect same as described above.In addition, can be suppressed near the blow-off outlet 3 because of cation and the sub-water collision of charged corpuscle and cause the sub-water of charged corpuscle to reduce.

At this moment, if elongated during making first to send, then sometimes the second sub-water of charged corpuscle of sending during sending be diffused into indoor cation first during sending and separate, and can not be attracted by cation.Therefore, first send during, also can by driving ion generating apparatus 15 and electrostatic atomization apparatus 10, send simultaneously the sub-water of cation and charged corpuscle.Thus, first send during, the sub-water of charged corpuscle can be away from cation, so can make the sub-water of charged corpuscle be diffused into indoor.In addition, second send during, can be suppressed near the blow-off outlet 3 because of cation and the sub-water collision of charged corpuscle and cause the sub-water of charged corpuscle to reduce.

In addition, in the first～the 3rd embodiment, the air cleaner 20 that ion supplying device 1 is installed is illustrated, but is not limited thereto.So long as being installed, the conditioner of ion supplying device 1 gets final product, such as also can being air-conditioner, humidifier, dehumidifier etc.

Fig. 6, Fig. 7 represent stereogram and the front view of the hair-dryer 30 of the 4th embodiment.Present embodiment has in casing 31 and above-mentioned Fig. 4, ion supplying device 1 that the 3rd embodiment shown in Figure 5 is identical.

In casing 31, be formed with air supply duct 4(with reference to Fig. 4), offer blow-off outlet 3 in the front upper of casing 31, this blow-off outlet 3 has first and blows out the 3a of section and second and blow out the 3b of section.Be provided with the handle portion 32 that the user holds below casing 31, be provided with operating portion 33 at handle portion 32,33 pairs of hair-dryers 30 of this operating portion operate.

Fig. 8 is the block diagram that expression hair-dryer 30 consists of.Hair-dryer 30 comprises the control part 34 of controlling each several part, and control part 34 and pressure fan 5, electrostatic atomization apparatus 10, ion generating apparatus 15, heater 35 are connected with operating portion and are connected.By pressure fan 5, electrostatic atomization apparatus 10, ion generating apparatus 15 and air supply duct 4(with reference to Fig. 4) consist of ion supplying device 1.In addition, pressure fan 5 can be formed by propeller type fan.

Heater 35 is configured in second channel 4d(with reference to Fig. 4) in, be used for making the atmosphere temperature rising that in second channel 4d, circulates.

In the hair-dryer 30 of said structure, if hair-dryer 30 entrys into service then drive pressure fan 5 and heater 35.Thus, blow out the 3b of section from second of blow-off outlet 3 and blow out hot blast to user's hair.In addition, by the operation of regulation, heater 35 is stopped and to user's hair blowing cold air.

In addition, repeat first send during and second send during, described first stops electrostatic atomization apparatus 10 during sending and drives ion generating apparatus 15, described second stops ion generating apparatus 15 during sending and drives electrostatic atomization apparatus 10.First send during by driving ion generating apparatus 15, blow out the 3a of section in specified time limit from first and send cation.Thus, during with negative electrical charge, utilize cation to remove electricity at user's hair.

Second send during by driving electrostatic atomization apparatus 10, blow out the 3b of section in specified time limit from second and send the sub-water of charged corpuscle.Thus, the sub-water of charged corpuscle arrives the hair that is removed the user behind the electric charge, thereby can be to carrying out sterilization near the user and user's hair being carried out moisturizing.

In addition, if, then transferring to first with negative electrical charge, the hair that causes the user because of the irradiation of the sub-water of charged corpuscle utilize cation that user's hair is removed electricity during sending.

According to present embodiment, owing to send the sub-water of charged corpuscle that is discharged into airborne cation and is produced by electrostatic atomization apparatus 10 by ion generating apparatus 15 by pressure fan 5, so can utilize cation, with the surface of the user's hair (irradiated body) behind the sub-water guiding of the charged corpuscle removal electric charge.Thus, can be fully near the user and user's hair provide charged corpuscle water, thereby can improve bactericidal effect and moistening effect.

In addition, because after during first sends, electrostatic atomization apparatus 10 being stopped and sending cation, ion generating apparatus 15 is stopped during sending and send the sub-water of charged corpuscle second, so can after reliably the hair with the user of negative electrical charge being removed electricity, provide again charged corpuscle water.Therefore, can further improve reliably bactericidal effect and moistening effect.In addition, can suppress to cause the sub-water of charged corpuscle to reduce because of the sub-water collision of cation and charged corpuscle.

In addition, if elongated during making first to send, then the user's is neighbouring with positive charge, and the user is felt under the weather.Therefore, can first send during by driving ion generating apparatus 15 and electrostatic atomization apparatus 10, send simultaneously the sub-water of cation and charged corpuscle.Thus, when during first sends, negative electrical charge being removed when electricity, can suppress near the user with positive charge.In addition, can suppress during sending near the blow-off outlet 3 to cause the sub-water minimizing of charged corpuscle because of cation and the sub-water collision of charged corpuscle second.

In the present embodiment, to ion supplying device 1 being installed and being illustrated to the hair-dryer 30 that the user sends air, but be not limited thereto.As long as the cosmetics and hair dressing device of ion supplying device 1 is installed, it for example can be beauty care device.

Industrial applicibility

The utility model can be applied to be equipped with air cleaner, air-conditioner, the humidifier of ion supplying device, conditioner and the cosmetics and hair dressing devices such as hair-dryer, beauty care device such as dehumidifier, described ion supplying device has ion generating apparatus and electrostatic atomization apparatus.

Claims (8)

1. ion supplying device is characterized in that comprising:

Ion generating apparatus produces cation, and described cation is discharged in the air;

Electrostatic atomization apparatus produces the vaporific charged particulate water with negative electrical charge, and the sub-water of described charged corpuscle is discharged in the air; And

Pressure fan is sent described cation and the sub-water of described charged corpuscle.

2. ion supplying device according to claim 1 is characterized in that, sends simultaneously described cation and the sub-water of described charged corpuscle.

3. ion supplying device according to claim 2, it is characterized in that, described ion supplying device be provided with first send during and second send during, described first sends described cation and the sub-water of described charged corpuscle during sending simultaneously, described second send during during sending through first after, described ion generating apparatus stopped and sending the sub-water of described charged corpuscle.

4. ion supplying device according to claim 1, it is characterized in that, described ion supplying device be provided with first send during and second send during, described first stops described electrostatic atomization apparatus during sending and sends described cation in specified time limit, described second send during during sending through first after, described ion generating apparatus stopped and sending the sub-water of described charged corpuscle.

5. according to claim 3 or 4 described ion supplying devices, it is characterized in that, repeat first send during and second send during.

6. the described ion supplying device of any one is characterized in that according to claim 1～4,

Described electrostatic atomization apparatus has sparking electrode, the Peltier element of the described sparking electrode of cooling and the fin that links to each other with described Peltier element,

Described sparking electrode is configured to towards air supply duct, described air supply duct utilizes the driving of described pressure fan to make airflow, and described fin arrangement becomes towards divided channel, and described divided channel is collaborated in the upstream of described sparking electrode along separate routes and in the downstream with respect to described air supply duct.

7. a conditioner is characterized in that comprising the described ion supplying device of any one in the claim 1～4.

8. a cosmetics and hair dressing device is characterized in that comprising claim 3 or 4 described ion supplying devices.

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