CN102325616A - Metal fine generating apparatus and possess the hair care device of this device - Google Patents

Abstract

A kind of metal fine generating apparatus (K) comprising: first electrode part (1) that is loaded voltage; Second electrode part (2), its ground connection is provided with in pairs with first electrode part (1), and this second electrode part (2) is used for emitting by the metal of fine particulate through making to discharge from first electrode part (1) between itself and first electrode part (1); Ionic adsorption portion (3), it is used for catching by near the part of the ion of generation to first electrode part (1) on-load voltage and first electrode part (1).

Description

Metal fine generating apparatus and possess the hair care device of this device

Technical field

The present invention relates to a kind of hair care device that makes metal fine be attached to the metal fine generating apparatus on the hair and possess this device.

Background technology

In the past, people knew the fine grain hair-dryer of emitting transition metal just like being used to shown in the patent documentation 1.The hair-dryer of patent documentation 1 comprises: discharge part, and it makes to produce discharge between electrode through to containing the pair of electrodes on-load voltage of transition metal, thereby with the transition metal fine particulate; The fine grained stream, its built-in discharge part, and be used to make the fine grained of the transition metal that discharge part generates to flow through; And be used to emit fine grain fine grained discharge port.

The hair-dryer of patent documentation 1 is supplied in hair with the fine grained of the transition metal that discharge part generated after the fine grained discharge port is emitted.Through this structure, can protect the not infringement of receptor 1 activity oxygen of hair.

Patent documentation 1: TOHKEMY 2008-23063 communique.

The hair-dryer of patent documentation 1 passes through the electrode on-load voltage, thereby produces the fine grained of transition metal and the ion of transition metal.This moment, the generation of ion depended on the voltage that loads on the electrode to a great extent.In the ion,, just can the amount of moisture of hair be maintained higher state as long as anion is an appropriate amount.Thus, the hair-dryer of patent documentation 1 seeks to make user's hair to keep dried wet moderate, improves user's hair quality.Yet, when negative ion amount more for a long time, the carried charge of hair is also more.Under this situation, can exist between user's the hair owing to repelling the problem of scattering each other.In addition, also be same under the situation of use cation, can exist user's hair charged, the problem that hair scatters.Make the fine grain voltage loading environment of transition metal that produces appropriate amount on the hair not necessarily consistent with the voltage loading environment that makes the ion that produces appropriate amount on the hair.Therefore, have in the hair-dryer of patent documentation 1 that the hair that may make the user scatters, this problem points of state variation of hair.

Summary of the invention

The present invention is in view of above-mentioned example and the invention made in the past.Its objective is metal fine generating apparatus that a kind of ion that can suitably be controlled at on-load voltage on the electrode and produce is provided and the hair care device that possesses this device.

In order to address the above problem, the metal fine generating apparatus of first technical scheme of the present invention comprises: first electrode part that is loaded voltage; Second electrode part, its ground connection is provided with first electrode part in pairs, and this second electrode part is used for emitting by the metal of fine particulate through making to discharge from first electrode part between itself and first electrode part; Ionic adsorption portion, it is used to catch the part by the ion that the first electrode part on-load voltage is produced near first electrode part.

According to this structure, can catch the part of the ion that produced by ionic adsorption portion, thus the amount of control ion.

The apolegamy of ionic adsorption quality award from the ministry places the front side of being emitted by the metal of fine particulate from first electrode part.

According to this structure, can utilize ionic adsorption portion to catch ion in the appropriate location of the front side of being emitted by the metal of fine particulate.

At this moment, ionic adsorption portion also can dispose with the mode around first electrode part the place ahead.

According to this structure, can utilize ionic adsorption portion that the ion that is produced is caught expeditiously.

Ionic adsorption portion also can ground connection.

Through this structure, can prevent to cause ionic adsorption portion that the capturing efficiency of ion is descended because of ionic adsorption portion is charged.

Ionic adsorption portion also can be made up of the third electrode portion that comprises pair of electrodes; In the case; Through making a side joint ground of third electrode portion; The opposite side of third electrode portion is connected with the power supply that is used for on-load voltage, makes the opposite side on-load voltage of power supply, thereby between third electrode portion, produce potential difference third electrode.

According to this structure, can between third electrode portion, produce electric field, the ion that produces is pulled, utilize third electrode portion with this ion trap.

The metal fine generating apparatus can also comprise: galvanometer, and it is used to detect the electric current that produces by to third electrode portion on-load voltage; Control part, it is used for according to the detected electric current of galvanometer the voltage that is loaded in the third electrode portion by power supply being controlled.

According to this structure, can utilize power supply that the potential difference between the third electrode portion is controlled according to the detected electric current of current detecting part, utilize third electrode portion that the ion that produces is caught.

The metal fine generating apparatus can also comprise: be used for the ion detection portion that the amount near the ion the third electrode portion detects; And control part, it is used for the amount according to the detected ion of ion detection portion, and the voltage that is loaded in the third electrode portion by power supply is controlled.

According to this structure, can utilize power supply that the potential difference between the third electrode portion is controlled according to the detected ionic weight of ion detection portion, utilize third electrode portion that the ion that produces is caught.

The metal fine generating apparatus can also comprise and is used for metal fine test section that near the amount by the metal of fine particulate the third electrode portion is detected; And control part, it is used for according to the metal fine test section detected by the amount of the metal of fine particulate, and the voltage that is loaded in the third electrode portion by power supply is controlled.

According to this structure, can be detected by the amount of the metal of fine particulate according to the metal fine test section, utilize power supply that the potential difference that is loaded between the third electrode portion is controlled, with the ion-catching that produces to third electrode portion.

The hair care device of second technical scheme of the present invention comprises the metal fine generating apparatus of first technical scheme of the present invention.

According to this structure, a kind of ion adhesion amount that can suitably keep on the hair can be provided, and do not make hair charged, can to keep hair be the hair care device of dispersity not.

Description of drawings

Fig. 1 is the side view of the metal fine generating apparatus of expression embodiment 1;

Fig. 2 is the front view of the metal fine generating apparatus of expression embodiment 1;

Fig. 3 is the side view of metal fine generating apparatus of other form of expression embodiment 1;

Fig. 4 is the front view of metal fine generating apparatus of other form of expression embodiment 1;

Fig. 5 is the side view of the metal fine generating apparatus of expression embodiment 2;

Fig. 6 is the side view of the metal fine generating apparatus of expression embodiment 3;

Fig. 7 is the side view of the metal fine generating apparatus of expression embodiment 4;

Fig. 8 is the cut-away view of control part of the metal fine generating apparatus of expression embodiment 4;

Fig. 9 is the side view of the metal fine generating apparatus of expression embodiment 5;

Figure 10 is the cut-away view of control part of the metal fine generating apparatus of expression embodiment 5;

Figure 11 is the side view of the metal fine generating apparatus of expression embodiment 6;

Figure 12 is the cut-away view of control part of the metal fine generating apparatus of expression embodiment 6;

Figure 13 is the structure chart of the hair-dryer of embodiment 7.

The specific embodiment

(embodiment 1)

Metal fine generating apparatus K by Fig. 1,2 expression embodiments of the invention 1.Metal fine generating apparatus K comprises: be loaded first electrode part 1 of voltage, and ground connection, second electrode part 2 that is provided with in pairs with first electrode part 1.And, thereby discharge between first electrode part 1 and second electrode part 2 and will be emitted from first electrode part 1 through making by the metal of fine particulate.In addition, metal fine generating apparatus K also comprises ionic adsorption portion 3, and this ionic adsorption portion 3 is used to catch by to first electrode part, 1 on-load voltage and near the part of the ion that first electrode part 1, produces.

First electrode part 1 has the shape of elongated substantial cylindrical, and the one of which end is fixing by electrode holder 4, and this first electrode part 1 is connected with first power supply 6 through lead 5.First electrode part 1 is made up of metal.Said metal adopts transition metal or zinc such as gold, nickel, platinum, rhodium, palladium, silver, copper.Especially, gold or platinum have antioxidation.If therefore first electrode part 1 adopts gold or platinum, will emit by the gold or the platinum of fine particulate from first electrode part 1, thereby can expect to produce antioxidation by this fine grained.Likewise, if first electrode part 1 adopts silver or copper, just can expect to produce antibacterial effect.In addition, because zinc is the indispensable element of organism,, will be prevented the effect of bifurcated to the epidermis generation effect of hair so, make by the zinc of fine particulate and act on hair if adopt zinc as first electrode part 1.Likewise, act on scalp, just can access to educate and send out effect if make by the zinc of fine particulate.In addition, also can can't help single metal and constitute first electrode part 1, but, obtain above-mentioned each metal effect separately simultaneously by through electroplating or the two or more metal of gained such as alloy constitutes first electrode part 1.

Second electrode part 2 is made up of conductor, through lead 5 ground connection.Here, so-called conductor is exactly the lower kind of surperficial intrinsic resistance in metal, the electroconductive resin for example.Second electrode part 2 has flat shape, in the substantial middle portion of flat board, is formed with the opening of circular.The diameter of opening forms greatlyyer than two diameter of a circles that face appeared at the length direction two ends of this columniform first electrode part 1.Second electrode part 2 is fixed on the electrode holder 4 as follows; Promptly; The length direction quadrature of the flat platen surface of second electrode part 2 and first electrode part 1, in addition, this platen surface is to dispose with the front end of first electrode part 1 mode separated by a distance and the front end of this first electrode part 1 relatively; Wherein, the front end of this first electrode part 1 be in first electrode part 1 with by the front end of the fixing opposite side of a side of electrode holder 4.At this moment, the opening of second electrode part 2 is positioned at the place ahead of the length direction of first electrode part 1.And, the fine particulate of being emitted from first electrode part 1 metal through formed opening on second electrode part 2.

Ionic adsorption portion 3 is made up of the conductor of pair of plates shape.Here, so-called conductor is exactly the lower kind of surperficial intrinsic resistance in metal, the electroconductive resin for example.Ionic adsorption portion 3 is fixed on the electrode holder 4 as follows; Promptly; The length direction of the direction of the platen surface of the flat conductor of ionic adsorption portion 3 and first electrode part 1 is roughly consistent, and this ionic adsorption portion 3 disposes to such an extent that be positioned at the outside of first electrode part 1 and from the front side of being emitted by the metal of fine particulate of first electrode part 1 (side opposite with first electrode part 1 of second electrode part 2).That is, thus the pair of conductors of ionic adsorption portion 3 with separately relatively across the mode of formed opening on second electrode part 2 be configured in second electrode part 2 near.

Next, the action that is loaded under the high-tension situation by 6 pairs first electrode part of first power supply 1 is described.When first electrode part 1 is loaded high voltage, will between first electrode part 1 and second electrode part 2, produce discharge.Then, emitted from first electrode part 1 by the metal of fine particulate, at this moment, emitted by the metal of fine particulate through formed opening on second electrode part 2, move towards the direction of ionic adsorption portion 3.In addition, when first electrode part 1 is loaded high voltage, will be near first electrode part 1 the generation ion.At this moment, with by the metal of fine particulate likewise, ion is through formed opening on second electrode part 2, moves towards the direction of ionic adsorption portion 3.Having passed through the ionic adsorption portion 3 that the ion of the opening of second electrode part 2 is made up of conductor catches.Therefore, owing to be provided with ionic adsorption portion 3 among the metal fine generating apparatus K of embodiment 1, thus can catch the part of the ion that produced, thus the amount of control ion.In addition; Because ionic adsorption portion 3 is disposed at the front side of being emitted by the metal of fine particulate from first electrode part 1; The i.e. side opposite of second electrode part 2 with first electrode part 1, so, can utilize ionic adsorption portion 3 to catch ions at the front side of being emitted by the metal of fine particulate.

In addition, in the foregoing description 1, be with the conductor of pair of plates shape as 3 configurations of ionic adsorption portion, but also can be to dispose ionic adsorption portion 3 around the front side of being emitted by the metal of fine particulate from first electrode part 1.Promptly also can pass through a plurality of flat conductors of configuration, thereby center on the place ahead of first electrode part 1.In addition, also can ionic adsorption portion 3 be formed the frame shape, thereby center on the place ahead of first electrode part 1 like Fig. 3, shown in 4.Thus; Through ionic adsorption portion 3 being disposed around the place ahead of first electrode part 1; Thereby can obtain the bigger ionic adsorption portion 3 of area, can utilize ionic adsorption portion 3 to catch more expeditiously and be the ion that produces radially towards the place ahead from first electrode part 1.

(embodiment 2)

Next, based on Fig. 5 embodiment 2 is described.Wherein, the identical Reference numeral of structure mark for identical with the metal fine generating apparatus K of embodiment 1 omits the explanation to it.In the metal fine generating apparatus K of embodiment 2, ionic adsorption portion 3 is through lead 5 ground connection.

Therefore, the flow of charge the earth that ion produced of being caught by ionic adsorption portion 3 is so can prevent to cause ionic adsorption portion 3 charged and cause the capturing efficiency of ion is descended by the ion of catching.

(embodiment 3)

Next, based on Fig. 6 embodiment 3 is described.Wherein, the identical Reference numeral of structure mark for identical with the metal fine generating apparatus K of embodiment 1 omits the explanation to it.The ionic adsorption portion 3 of embodiment 3 is made up of a pair of third electrode 3a of portion, 3b.One side 3a of third electrode portion is through lead 5 ground connection.The opposite side 3b of third electrode portion is connected with second source 7 through lead 5.In the case, through making the opposite side 3b on-load voltage of 7 pairs of third electrode portions of second source, thereby between a pair of third electrode 3a of portion, 3b, produce potential difference.So, owing between the 3a of third electrode portion, 3b, produced electric field, the ion that produces is pulled between the 3a of this third electrode portion, the 3b.Consequently, utilize the 3a of third electrode portion, 3b, can catch ion more expeditiously as ionic adsorption portion 3.

(embodiment 4)

Next, describe based on Fig. 7,8 couples of embodiment 4.Wherein, embodiment 4 describes based on the metal fine generating apparatus K of the foregoing description 3, and for the structure mark identical Reference numeral identical with the metal fine generating apparatus K of embodiment 3, the Therefore, omited is to its explanation.

The metal fine generating apparatus K of embodiment 4 also comprises: galvanometer 20, and it is used to detect by to the 3a of third electrode portion, 3b on-load voltage and the electric current that produces; Control part 21, it is used for according to galvanometer 20 detected electric currents, to be loaded into the 3a of third electrode portion by second source 7, the last voltage of 3b is controlled.The 3a of third electrode portion, 3b are made up of pair of electrodes portion.One side 3a of third electrode portion is through lead 5 ground connection.The opposite side 3b of third electrode portion is connected with second source 7 with galvanometer 20 through lead 5.

Galvanometer 20 is made up of existing galvanometer, and it inserts between the opposite side 3b and second source 7 of third electrode portion, and is connected with second source 7 with the opposite side 3b of third electrode portion respectively through lead 5.In addition, galvanometer 20 also is connected with control part 21 through lead 5.Second source 7 is connected with galvanometer 20 through lead 5, and also is connected with control part 21 through lead 5.Control part 21 comprises current value reading part 22 and voltage control division 23.Current value reading part 22 links to each other with first power supply 6 with galvanometer 20 through lead 5, and this current value reading part 22 obtains the measured value of the electric current of being measured by galvanometer 20, the measurement current value that output is obtained automatically.Voltage control division 23 obtains the measurement current value by 22 outputs of current value reading part; Compare with the setting current value that voltage control division 23 inside preestablish storage measuring current value, thereby the voltage that changes second source 7 makes that measuring current value becomes the setting current value.

Among the embodiment 4, near the ion that first electrode part 1, is produced is caught by the 3a of third electrode portion, 3b.So, the 3a of third electrode portion, the 3b ion that passes through to be caught and charged.As the 3a of third electrode portion, when 3b is charged, then can with lead 5 that the 3a of third electrode portion, 3b link to each other in flow through electric current.Then, utilize galvanometer 20 to detect this electric current as measuring current value.At this moment, when the amount of the ion of being caught by third electrode portion 3a, 3b more after a little while, will reduce by galvanometer 20 measured measurement current values.So, control part 21 is controlled as follows: improve and to be loaded into the voltage on the second source 7, make the measurement current value that has reduced become the setting current value, thereby catch more ion, make that to measure current value consistent with setting current value; On the contrary, when the amount of the ion of being caught by third electrode portion 3a, 3b more for a long time, will increase by galvanometer 20 measured measurement current values.So, control part 21 is controlled as follows: reduce to be loaded into the voltage on the second source 7, make the measurement current value that has increased become the setting current value, thereby make that to measure current value consistent with the setting current value.Thus,, make that measuring current value becomes predefined setting current value through control part 21 control second sources 7, thus the 3a of third electrode portion, 3b can according to the amount of the ion that is produced how much come ion is caught.

(embodiment 5)

Next, based on Fig. 9,10, embodiment 5 is described.Wherein, embodiment 5 describes based on the metal fine generating apparatus K of the foregoing description 3, and the identical Reference numeral of structure mark for identical with the metal fine generating apparatus K of embodiment 3 omits the explanation to it.

The metal fine generating apparatus K of embodiment 5 also comprises: be used for ion detection portion 30 that near the ionic weight the 3a of third electrode portion, the 3b is detected, and be used for control part 31 that the voltage on the opposite side 3b that is loaded into third electrode portion is controlled.Control part 31 is controlled the voltage on the opposite side 3b that is loaded into third electrode portion by second source 7 according to the amount of ion detection portion 30 detected ions.The 3a of third electrode portion, 3b are made up of pair of electrodes portion.One side 3a of third electrode portion is through lead 5 ground connection.The opposite side 3b of third electrode portion is connected with second source 7 through lead 5.Ion detection portion 30 can utilize the principle identical with electrostatic induction to induce electrostatic pressure and output, measures the amount of ion non-contactly.Ion detection portion 30 be disposed at first electrode part 1 the place ahead and the 3a of third electrode portion, 3b near.

Control part 31 is connected with second source 7 with ion detection portion 30 through lead 5.Control part 31 comprises ionic weight reading part 32 and voltage control division 33.Ionic weight reading part 32 automatically obtains the measured measurement ionic weight by ion detection portion 30, and the measurement ionic weight that is obtained is exported.Voltage control division 33 obtains from the measurement ionic weight of ionic weight reading part 32 outputs; And will measure the setting ionic weight that ionic weight and voltage control division 33 inside preestablish storage and compare, make that measuring ionic weights becomes the setting ionic weight thereby change second source 7.

In the metal fine generating apparatus K of embodiment 5; Under the situation that the measurement ionic weight of being measured by ion detection portion 30 is Duoed than the setting ionic weight; Control part 31 is controlled as follows: raising is loaded into the voltage on the second source 7; Catch more ion, thereby make the measurement ionic weight consistent with the setting ionic weight.On the contrary; Under the situation that the measurement ionic weight of being measured by ion detection portion 30 lacks than the setting ionic weight; Control part 31 is controlled as follows: reduce being loaded into the voltage on the second source 7, the quantity of the catch of ion is reduced, thereby make the measurement ionic weight consistent with the setting ionic weight.Therefore, in the control part 31, the amount of the ion that is detected according to ion detection portion 30 is controlled through the potential difference between 7 couples of a pair of third electrode 3a of portion of second source, the 3b, thereby the 3a of third electrode portion, 3b can catch the ion that is produced.

(embodiment 6)

Next, describe based on Figure 11,12 couples of embodiment 6.Wherein, embodiment 6 describes based on the metal fine generating apparatus K of the foregoing description 3, and the identical Reference numeral of structure mark for identical with the metal fine generating apparatus K of embodiment 3 omits the explanation to it.

The metal fine generating apparatus K of embodiment 6 also comprises and is used for metal fine test section 40 that near the amount by the metal of fine particulate the 3a of third electrode portion, the 3b is detected; And be used for control part 41 that the voltage on the opposite side 3b that is loaded into third electrode portion is controlled.Control part 41 is detected by the amount of the metal of fine particulate according to metal fine test section 40, and the voltage on the opposite side 3b that is loaded into third electrode portion by second source 7 is controlled.The 3a of third electrode portion, 3b are made up of pair of electrodes portion.One side 3a of third electrode portion is through lead 5 ground connection.The opposite side 3b of third electrode portion is connected with second source 7 through lead 5.Metal fine test section 40 with fine particulate metal collect in the crystal oscillator through electrostatic means, by the variation of crystal oscillator to being detected by the amount of the metal of fine particulate.Metal fine test section 40 be disposed at first electrode part 1 the place ahead and the 3a of third electrode portion, 3b near.In addition; In the metal fine test section 40; As metal is carried out quantitative methods, except above-mentioned method, for example can also adopt: through to by light, laser, the radioactive ray of the metal of fine particulate irradiation specific wavelength; And the fluorescence, the scattering strength that are produced by the metal of fine particulate carried out quantitatively, thereby to being carried out quantitative methods by the metal of fine particulate; To be imported in the specific solvent by the metal of fine particulate,, and measure its absorbance its irradiates light, thereby to being carried out quantitative methods by the metal of fine particulate.

Control part 41 is connected with second source 7 with metal fine test section 40 through lead 5.Control part 41 comprises metal fine amount reading part 42, and the voltage control division 43 that is used to change the voltage of second source 7.Metal fine amount reading part 42 automatically obtains by metal fine test section 40 detected by the amount of the metal of fine particulate, exports accessed measurement metal fine amount.Voltage control division 43 obtains the measurement metal fine amount of being exported from metal fine amount reading part 42, compares with the norm metal amounts of fine particles that voltage control division 43 inside preestablish storage measuring the metal fine amount.Then, under the situation that measurement metal fine amount is Duoed than the norm metal amounts of fine particles, voltage control division 43 increases the voltage that is loaded by second source 7.In addition, under the situation that measurement metal fine amount is lacked than the norm metal amounts of fine particles, voltage control division 43 reduces the voltage by second source 7 loadings.

Here, many when the voltage that is loaded when first electrode part 1 increases by the quantitative change that first electrode part 1 is emitted by the metal of fine particulate, and near the ionic weight that first electrode part 1, is produced also becomes many.

Therefore, people consider in the metal fine generating apparatus K of embodiment 6, under the situation of being Duoed than the norm metal amounts of fine particles by metal fine test section 40 measured measurement metal fine amounts, can produce more ion.In the case, control part 41 raisings are loaded into the voltage on the second source 7, thereby can capture more ion.On the contrary, under situation about being lacked than the norm metal amounts of fine particles by metal fine test section 40 measured measurement metal fine amounts, control part 41 reductions are loaded into the voltage on the second source 7, thereby make the quantity of the catch of ion reduce.

Therefore, detected by the amount of the metal of fine particulate according to metal fine test section 40 among the embodiment 6, control part 41 is through second source 7, and control is loaded into the potential difference between the 3a of third electrode portion, the 3b.Thus, the 3a of third electrode portion, 3b can catch the ion that produces.

(embodiment 7)

Next, based on Figure 13 the hair care device of embodiment 7 is described.The hair care device of embodiment 7 is the hair-dryer that has been equipped with the metal fine generating apparatus K described in the foregoing description 1～6.Yet the use of metal fine generating apparatus K is not limited only to hair-dryer, can also be the hair care device as hair iron, hair brush for example.

Shown in figure 13, the hair-dryer of embodiment 7 comprises the body shell 53 of configuration air suction inlet 51 and outlet 52.Be provided with in the inside of body shell 53 and make the air supplying part 54 of discharging by outlet 52, be provided with in the downstream of air supplying part 54 and be used for heating part 55 that air is heated from suction inlet 51 inhaled airs.At the assigned position of body shell 53, the fine grained passage 57 that the metal flow by fine particulate that also be provided with metal fine generating apparatus K, is used for supplying metal fine generating apparatus K to be generated is crossed, be used to emit the lead-in path 59 that imports fine grained passages 57 by the fine grained discharge port 58 of the metal of fine particulate and with air from air supplying part 54.Structure is emitted from fine grained discharge port 58 through the air that is imported into by the metal of fine particulate thus.

In addition, air supplying part 54 built-in motors 60 and the fan 61 that is connected with motor 60.55 downstream and the position that is positioned at body shell 53 upsides are provided with cover 67 in the heating part.In cover 67, taken in metal fine generating apparatus K.In the downstream of metal fine generating apparatus K, be formed with the fine grained passage 57 that the metal flow by fine particulate that supplies metal fine generating apparatus K to be generated is crossed.Be provided with at the front end of fine grained passage 57 and be used to emit fine grained discharge port 58 by the metal of fine particulate.Metal fine generating apparatus K disposes as follows: first electrode part 1 is positioned at lead-in path 59 sides, second electrode part 2 is positioned at fine grained discharge port 58 sides.

Be provided with at the downside of body shell 53 and be used to the handle portion 63 that supplies the user to control.Dispose control part 64 in the handle portion 63.Be connected with power line 65 on the control part 64, this power line 65 is used for supplying with and is used for loading high-tension power supply to metal fine generating apparatus K.Be provided with at the sidepiece of control part 64 and be used to the switch 66 that supplies the user hair-dryer to be driven or stop to operate.

Next, the action to the hair-dryer of embodiment 7 describes.When the user controls the handle portion 63 of being located at body shell 53 downsides, when switch 66 was operated, then in the air supplying part, motor 60 was driven, and the fan 61 that is connected with motor 60 rotates.When fan 61 rotations, suck air from suction inlet 51, the heating part 55 that the downstream side of inhaled air process air supplying part 54 is provided with.Here, when switch 66 was further operated, the heater 62 in the heating part 55 was driven.Thus, after being heated through the air of heating part 55, flow into air flue 68, and be discharged to the outside from exhaust outlet 52.

The part of air that flows into air flue 68 is directed to the lead-in path 59 of being located at body shell 53 tops, through the metal fine generating apparatus K of configuration in the cover 67.When switch 66 is further operated, then load high voltage here, by first electrode part 1 that is disposed among 6 pairs of metal fine generating apparatus of first power supply K.Therefore, between first electrode part 1 and second electrode part 2, form discharge.When forming discharge, through discharge energy, the part of first electrode part 1 that is made up of metal is by fine particulate.Consequently, emit by the metal of fine particulate from first electrode part 1, and near first electrode part 1 the generation ion.Ion is emitted and is supplied with hair from fine grained discharge port 58 after being passed through fine grained passage 57 by the metal of fine particulate with the air that is imported into by lead-in path 59.Wherein, the part of the ion that is produced is hunted down at ionic adsorption portion 3 places of metal fine generating apparatus K, thereby with unnecessary ion remaval, afterwards, is supplied to hair.Therefore,, can make by the metal function of fine particulate to hair, and can remove unnecessary ion, the ion of appropriate amount is supplied to hair according to the hair-dryer of embodiment 7.Consequently,, can suppress to scatter, obtain doing wet moderate hair condition by the hair that ion causes as far as the user.

Claims (9)

1. metal fine generating apparatus comprises:

Be loaded first electrode part of voltage;

Second electrode part, its ground connection is provided with first electrode part in pairs, and this second electrode part is used for emitting by the metal of fine particulate through making to discharge from above-mentioned first electrode part between itself and above-mentioned first electrode part; And

Ionic adsorption portion, it is used to catch the part by the ion that the above-mentioned first electrode part on-load voltage is produced near above-mentioned first electrode part.

2. metal fine generating apparatus according to claim 1,

Above-mentioned ionic adsorption portion is disposed at the front side of being emitted by the metal of fine particulate from above-mentioned first electrode part.

3. metal fine generating apparatus according to claim 2,

Above-mentioned ionic adsorption portion disposes with the mode around above-mentioned first electrode part the place ahead.

4. metal fine generating apparatus according to claim 1,

Above-mentioned ionic adsorption portion ground connection.

5. metal fine generating apparatus according to claim 1,

Above-mentioned ionic adsorption portion is made up of the third electrode portion that comprises pair of electrodes; Through making a side joint ground of above-mentioned third electrode portion; The opposite side of above-mentioned third electrode portion is connected with the power supply that is used for on-load voltage; Make the opposite side on-load voltage of above-mentioned power supply, thereby between above-mentioned third electrode portion, produce potential difference above-mentioned third electrode portion.

6. metal fine generating apparatus according to claim 5 also comprises:

Galvanometer, it is used to detect the electric current that produces by to above-mentioned third electrode portion's on-load voltage; And

Control part, it is used for according to the detected electric current of above-mentioned galvanometer, and the voltage that is loaded into by above-mentioned power supply in the above-mentioned third electrode portion is controlled.

7. metal fine generating apparatus according to claim 5 also comprises:

Be used for the ion detection portion that the amount near the ion the above-mentioned third electrode portion detects; And

Control part, it is used for the amount according to the detected ion of above-mentioned ion detection portion, and the voltage that is loaded into by above-mentioned power supply in the above-mentioned third electrode portion is controlled.

8. metal fine generating apparatus according to claim 5 also comprises:

Be used for metal fine test section that near the amount by the metal of fine particulate the above-mentioned third electrode portion is detected; And

Control part, it is used for according to above-mentioned metal fine test section detected by the amount of the metal of fine particulate, and the voltage that is loaded into by above-mentioned power supply in the above-mentioned third electrode portion is controlled.

9. hair care device,

This device comprises the described metal fine generating apparatus of claim 1.

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