CN101804242A - Mist generating device and cosmetic apparatus - Google Patents

Abstract

The invention provides a kind of mist generating device of the discharge that can stably carry out discharge part and the cosmetic apparatus that possesses this mist generating device.The 2nd electrode part (82) forms cylindric, and discharges between the 2nd electrode part (82) and the 1st electrode part (80,81), and the direction of principal axis (length direction) of the 2nd electrode part (82) is along axis (Ln) configuration of the 1st electrode part (80,81).In addition, the 2nd electrode part (82) is configured on the axis (Ln) identical with the 1st electrode part (80,81).And the pin plate (84) that the 2nd electrode part (82) is used as retaining member is keeping.

Description

Mist generating device and cosmetic apparatus

Technical field

The present invention relates to a kind ofly can mix and emit the mist generating device of mist and metallic, and the cosmetic apparatus that possesses this mist generating device.

Background technology

In the past, thereby mist generating device as emit to the human body of face etc. mist obtain the cosmetic result of skin moistening etc. or realize skin nursing purpose device and be used, described mist is to make steam (warm fog) after the liquid boiling gasification by heater, perhaps makes mist (cold mist) after the atomization of liquid by ultrasound.In addition, mist is meant the steam (warm fog) that makes like that as mentioned above after the liquid gasification, make cold mist after the atomization of liquid etc., and mist also is the identical meaning hereinafter.

Mist generating device in the patent documentation 1 constitutes and comprises: mist produces mechanism, constitutes from liquid and generates mist, and emit mist via the mist path from the mist bleed hole; And discharge part, have and be located at a pair of the 1st electrode part (electrode part) in the mist path and be configured in the 2nd electrode part (target) between the 1st electrode part.And, by between the 1st electrode part of discharge part and the 2nd electrode part, discharging, thereby generate metal microparticle, after being mixed, metal microparticle and mist emit.Thus, can obtain simultaneously based on the skin moistening effect of mist with based on the skin antibacterial effect of metal microparticle.

Patent documentation 1: TOHKEMY 2008-29427 communique

Yet, in above-mentioned mist generating device, under the situation that discharge part discharges, owing to form discharge path between the 1st electrode part and edge (edge) portion (end) apart from nearest the 2nd electrode part (target) of the 1st electrode part, so this edge part reduces and the 2nd electrode part is consumed gradually gradually.Therefore, as above-mentioned mist generating device, under the situation that the direction of principal axis quadrature of the direction of principal axis of the 1st electrode part and the 2nd electrode part constitutes, the caused consumption ways that discharges is with for example since the edge part of the upper end side of the 2nd electrode part position downward direction deflection near the 1st electrode part, the deviation amplitude of discharge path (the ぶ れ width of cloth) becomes big (discharge is difficult to stablize) thus, therefore need improve.

Summary of the invention

The present invention makes in order to solve above-mentioned problem, and its purpose is to provide a kind of mist generating device of the discharge that can stably carry out discharge part and the cosmetic apparatus that possesses this mist generating device.

In order to solve above-mentioned problem, technical scheme 1 described invention possesses: mist produces mechanism, constitutes from liquid to generate mist and emit mist via the mist path to the outside; And discharge part, has the 1st electrode part that in above-mentioned mist path, is provided with, and relative the 2nd electrode part that disposes and be used to produce metal microparticle with the 1st electrode part, this mist generating device can be emitted by above-mentioned mist and be produced the mist of mechanism's generation and the metal microparticle that is produced by the discharge of above-mentioned discharge part, above-mentioned the 2nd electrode part has the cylindrical portion of the column of discharging between above-mentioned the 2nd electrode part and above-mentioned the 1st electrode part, the direction of principal axis of above-mentioned cylindrical portion is along the axis configuration of above-mentioned the 1st electrode part.

In this invention, the 2nd electrode part have and the 1st electrode part between the cylindrical portion of the column of discharging, the direction of principal axis of cylindrical portion is along the axis configuration of the 1st electrode part.In such structure, because the end face edge portion of the cylindrical portion of the 2nd electrode part is the ring-type around the axis of the 1st electrode part, therefore, the consumption of the 2nd electrode part that discharge is produced is carried out fifty-fifty along cyclic edge part, big variation can not take place in discharge path intermittently, can stably carry out the discharge of discharge part.Thus, can stably generate metal microparticle.

Technical scheme 2 described inventions are according to technical scheme 1 described mist generating device, it is characterized in that the above-mentioned cylindrical portion of above-mentioned the 2nd electrode part forms cylindric, and above-mentioned the 2nd electrode part is configured on the axis identical with above-mentioned the 1st electrode part.

In this invention, the cylindrical portion of the 2nd electrode part forms cylindric, and above-mentioned the 2nd electrode part is configured on the axis identical with above-mentioned the 1st electrode part.Thus, under the situation of discharging between the edge part of the direction of principal axis end face of the 1st electrode part and the 2nd electrode part, the direction of principal axis end face of the 2nd electrode part can reduce equably, therefore can use the cylindrical portion of the 2nd electrode part efficiently.Therefore, can realize the long lifetime of the 2nd electrode part.

Technical scheme 3 described inventions are according to technical scheme 1 or 2 described mist generating devices, it is characterized in that the retaining member that the above-mentioned cylindrical portion of above-mentioned the 2nd electrode part is used as other members is keeping.

In this invention, the retaining member that the cylindrical portion of the 2nd electrode part is used as other members keeps.That is, keep, therefore when carrying out the safeguarding of the 2nd electrode part, can only change cylindrical portion (the 2nd electrode part), thereby can make maintenance easier because the cylindrical portion of the 2nd electrode part is held member.

Technical scheme 4 described inventions are according to technical scheme 3 described mist generating devices, it is characterized in that, above-mentioned retaining member is the member that is formed with the breakthrough part that connects above-mentioned axis direction, and the above-mentioned cylindrical portion of above-mentioned the 2nd electrode part is inserted logical being fixed in the above-mentioned breakthrough part.

In this invention, retaining member is the member that is formed with the breakthrough part that connects axis direction, and the cylindrical portion of the 2nd electrode part is inserted logical being fixed in the breakthrough part.Therefore, can fix the cylindrical portion of (maintenance) the 2nd electrode part by retaining member with simpler structure.

Technical scheme 5 described inventions are according to technical scheme 3 or 4 described mist generating devices, it is characterized in that, above-mentioned retaining member can be arranged on the pipeline component that constitutes above-mentioned mist path with loading and unloading.

In this invention, retaining member can be arranged on the pipeline component that constitutes the mist path with loading and unloading.Therefore that is, when the smaller cylindrical portion of the 2nd electrode part is safeguarded, can unload retaining member, can make maintenance easier from carrying out safeguard (replacing) of cylindrical portion after for example pipeline component unloads retaining member.

Technical scheme 6 described inventions are according to technical scheme 1 described mist generating device, it is characterized in that above-mentioned the 1st electrode part constitutes on same axis pair of electrodes is set, and above-mentioned the 2nd electrode part is arranged between the pair of electrodes of above-mentioned the 1st electrode part.

In this invention, the 1st electrode part constitutes on same axis pair of electrodes is set, and the 2nd electrode part is arranged between the pair of electrodes of the 1st electrode part.Therefore, the direction of principal axis both ends of the surface of the 2nd electrode part can be used efficiently, thereby the generation of metal microparticle can be increased by pair of electrodes portion.

Technical scheme 7 described inventions are cosmetic apparatus of the scheme of possessing skills 1 described mist generating device.

This invention in, by possessing each described mist generating device in the technical scheme 1～6, can provide a kind of cosmetic apparatus, this cosmetic apparatus can realize with technical scheme 1～6 in the identical effect of each described effect.

The invention effect

According to the present invention, can provide a kind of and can stably carry out the mist generating device of the discharge of discharge part and the cosmetic apparatus that possesses this mist generating device.

Description of drawings

Fig. 1 is the axonometric chart of the U.S. face device of expression present embodiment.

Fig. 2 is the cutaway view that above-mentioned U.S. face device is seen from the right side after front and back are upwards cut open again.

Fig. 3 is the cutaway view that above-mentioned U.S. face device is seen from rear side after cutting open on the left and right directions again.

Fig. 4 is the amplification view of the anion generating unit part of above-mentioned U.S. face device.

Fig. 5 is the pipeline of above-mentioned U.S. face device and the amplification view of rectification part part.

Fig. 6 is the block diagram that the summary of the function of the above-mentioned U.S. face device of expression constitutes.

Fig. 7 is the cutaway view of the discharge part of above-mentioned U.S. face device.

Fig. 8 is the cutaway view of the discharge part of above-mentioned U.S. face device.

Fig. 9 is the axonometric chart of installation constitution that is used to illustrate the 2nd electrode part of above-mentioned U.S. face device.

Figure 10 (a) and (b) are the key diagrams that are used for illustrating the 2nd electrode part of other examples.

Description of reference numerals

10 ... U.S. face device as cosmetic apparatus, 31 ... constitute the steam generating unit that mist produces mechanism and mist generating device, 41 ... mist path and as the steam of pipeline component guiding pipeline, 43 ... the steam discharge part, 80,81 ... the 1st electrode part, 82 ... constitute the 2nd electrode part of cylindrical portion, 91 ... through slot as breakthrough part, 100 ... the 2nd electrode part, 101 ... cylindrical portion, Ln ... axis.

The specific embodiment

Below, with reference to accompanying drawing, a specific embodiment of the present invention is described.

U.S. face device 10 as the cosmetic apparatus of the mist generating device that has possessed present embodiment has been shown among Fig. 1.In end body shell 11 roughly cylindraceous is arranged, accommodate and be fixed with U.S. face device main body 12, on the peristome with this body shell 11 becomes above the U.S. face device main body 12 of a face, be provided with spray nozzle part 13 and switch portion 14.Utilization can open and close ((Pour Move can fascinate) with respect to body shell 11) main cover 15, can expose or cover (Hyperlink and cover) have spray nozzle part 13 and switch portion 14 U.S. face device main body 12 above.

Spray nozzle part 13 is arranged on the upper central of U.S. face device main body 12, has: a pair of steam nozzle (warm fog nozzle) 21a, the 21b of let off steam (warm fog); Emit the atomizing nozzle (cold atomizing nozzle) 22 of cold mist; And the iron nozzle 23 of emitting anion, wherein, atomizing nozzle 22 is configured in the middle position of left and right directions, and steam nozzle 21a is configured in its right side, and steam nozzle 21b is configured in its left side, and iron nozzle 23 is configured in the upside of atomizing nozzle 22.In addition, the space between steam nozzle 21a and the 21b is set at for example 70mm.

In addition, the direction setting of respectively emitting of steam nozzle 21a, 21b, atomizing nozzle 22 and iron nozzle 23 is the same direction towards the front side oblique upper, and be set at, when the front side of U.S. face device 10 and user relatively use U.S. face device 10, emit the facial surface of direction towards this user.In addition, the nozzle cover 16 that can open and close has been installed also on this spray nozzle part 13,, has been made each nozzle 21a, 21b, 22,23 expose and cover and become possibility by the switching of this nozzle cover 16.

In addition, in the right forward side of spray nozzle part 13, be respectively arranged with on and off switch 25, running gauge tap 26 and process (course) selector switch 27 that constitutes by the pressing type press button as switch portion 14.On and off switch 25 is switches of U.S. face device 10 being opened shutoff operation, running gauge tap 26 and process selector switch 27 are by operating this switch, decision (action beginning) is selected and carried out to various processes, and described various processes comprise process that combination steam and cold mist emit to subject, only let off steam or process that process, combination mist and the ion of cold mist emitted.

In addition, be provided with above U.S. face device main body 12 in the left side of spray nozzle part 13 and be arranged with the case resettlement section 17 that forms, in this case resettlement section 17, accommodating removably supply tank 18 in the mode that becomes a face with peristome.User can unload supply tank 18 from U.S. face device 10 and supply water, and utilizes the water that stores to generate steam, cold mist respectively.

As shown in Figure 2, U.S. face device main body 12 possesses: the steam generating unit 31 that constitutes mist generating device; Generate the mist generating unit 32 of cold mist; And the anion generating unit 33 that constitutes ion generation mechanism.

The steam generating unit 31 that constitutes mist generating device is arranged on the front side of U.S. face device main body 12, is used to generate steam (warm fog).Steam generating unit 31 has possessed PTC respectively at front side and rear side, and (PositiveTemperature Coefficient: positive temperature coefficient) heater 35,36, this ptc heater 35,36 generates heat according to the supply of drive current, and have self control function of this heating, thereby make the water boiling that is supplied to via supply channel 19 in the boiler room 37 of ptc heater 35,36 inboards from supply tank 18 generate steam.In addition, the lateral surface of the ptc heater 35 of front side contacts configuration with the part of the supply channel 19 that begins to extend from supply tank 18, heated before flowing into boiler room 37, thereby can generate steam efficiently in this boiler room 37.In addition, supply channel 19 is connected with the discharge outlet 38a of U.S. face device 10 via discharge pipe line 38 (with reference to Fig. 6), controls sealing valve 39 on the discharge pipe line 38 by operations platoon's taps, can carry out the draining in the U.S. face device 10 thus.

As shown in Figures 2 and 3, the top of boiler room 37 is connected with steam guiding pipeline 41, and the steam that this steam guiding pipeline 41 is used for generating guides to a pair of steam nozzle 21a, 21b.In the way of steam guiding pipeline 41, has branching portion 42.As shown in Figure 5, steam guiding pipeline 41 begins to be divided into two pipelines from branching portion 42, have the 1st between connection branching portion 42 and the steam nozzle 21a and guide the 2nd between pipeline 41a and connection branching portion 42 and the steam nozzle 21b to guide pipeline 41b, length (distance) L1 and the 2nd of the 1st guiding pipeline 41a guides length (distance) L2 of pipeline 41b equal.Therefore, the steam that generates at boiler room 37 is directed to each steam nozzle 21a, 21b from branching portion 42 branches respectively via the 1st guiding pipeline 41a and the 2nd guiding pipeline 41b.And, be high pressure owing to boiler room 37, steam guide in the pipeline 41, so steam is emitted with impulse force (Potential い) to a certain degree from the bleed hole of each steam nozzle 21a, 21b.In addition, the internal diameter of the bleed hole of steam nozzle 21a, 21b is set at for example 3.6mm.

In addition, guide the forward position slightly of the branching portion 42 of pipeline 41 to possess steam discharge part 43 at steam.Steam by self discharge, makes the steam microminiaturization more by this discharge part 43 with discharge part 43, and utilizes discharge to produce this metal microparticle (for example Pt etc.).In addition, will be explained below about the detailed content of steam with discharge part 43.

In the position of steam, has rectification part 44 as rectification mechanism with tight the place ahead of the downstream of discharge part 43 and branching portion 42.As shown in Figure 5, this rectification part 44 constitutes the cylindrical portion 44a as hollow bulb that is provided with hollow shape in steam guiding pipeline 41, also is provided with from this cylindrical portion 44a to extend to form and at 3 ribs (lib) 44b of the radial center support cylinder 44a of portion of pipeline 41.And the steam in discharge part 43 behind the microminiaturization by rectification, begins steam each steam nozzle 21a, 21b branch forwards with equivalent from branching portion 42 between the inside by this cylindrical portion 44a and 3 rib 44b the time.In addition, the internal diameter of cylindrical portion 44a is set to bigger than the internal diameter of the bleed hole of steam nozzle 21a, 21b, and is the size below 1.5 times of the internal diameter of this bleed hole, for example is set at 4.5mm.

Mist generating unit 32 is arranged on the rear side of above-mentioned steam generating unit 31, uses Venturi effect to generate cold mist.Water in the supply channel 19 that extends from supply tank 18 except the generation that is used for above-mentioned steam, also is used for the generation of cold mist, also possesses to deliver to the flow pipe road 51 as pipeline component of atomizing nozzle 22 from the part of the water of this supply channel 19.Flow pipe road 51 has the contact pipeline 51a as pipeline component, and this contact pipeline 51a crawls for three times (bending) significantly on plane (radiating surface) direction of radiating surface (vertical) 36a of the ptc heater 36 of rear side and contacts configuration with this radiating surface 36a.In addition, crawl, thereby can suppress to contact the laminar flow of the liquid in the pipeline 51a by making contact pipeline 51a.

As shown in Figure 2, the contact pipeline 51a on flow pipe road 51 is prevented leaving parts R B pushing and is fixed on radiating surface 36a side, so that its integral body can not left from above-mentioned radiating surface 36a.And then, as shown in Figure 2, the contact pipeline 51a on flow pipe road 51 makes elliptical shape with its radial section, is configured to, and makes plane (radiating surface) direction of the length direction (being the paper above-below direction in Fig. 2) in the cross section on flow pipe road 51 along the radiating surface 36a of ptc heater 36.In the inside of the contact pipeline 51a that constitutes like this, maintain the water yield (for example water yield of Duoing) of regulation than the mist amount of in specified process, emitting, the heat (waste heat) of the ptc heater 36 of the rear side when generating by above-mentioned steam, for example the water of cold mist being used with 80 degree, condition more than 30 seconds carries out sterilization processing.Therefore, the cold mist of emitting from above-mentioned atomizing nozzle 22 is keeping the hygienic state that is suitable for improving looks.

In addition, on the position in the atomizing nozzle 22 tight the place aheads on flow pipe road 51 (before straight), the filter 52 as filter mechanism is installed in its pipe.This filter 52 is to be suppressed at as the incrustation scale and rubbish, the slag that produce among the flow pipe road 51 of pipeline component and the contact pipeline 51a etc. and rubbish that is included in the liquid (water) self that is used for generating mist and slag etc. to flow into mechanism in the atomizing nozzle 22, thus, can suppress the obstruction of atomizing nozzle 22, thereby make and stably to emit mist from atomizing nozzle 22.Therefore,, mist cosily can be sprayed onto on the skin (face) of user, improve cosmetic result (skin effect) using this to install at 10 o'clock.

In addition,, in U.S. face device main body 12, be provided with air force feed road 53,, in this air force feed road 53, carry out the force feed of air by with the electro-motor being the action of the pump 54 of drive source as mist generating unit 32.This force feed air is supplied to the bleed hole of atomizing nozzle 22, thereby makes the water in compressed air and the flow pipe road 51 converge the generation Venturi effect before bleed hole, and the water in the flow pipe road 51 are sucked out with the force feed air, generate and emit cold mist.

As Fig. 2 and shown in Figure 4, anion generating unit 33 is arranged in the spray nozzle part 13, and corona discharge is taken place and the generation anion.Ion generating unit 33 constitutes, and formed accommodating accommodated the anion discharge part 61 that keeps blocking among the recess 23a in the iron nozzle 23 of spray nozzle part 13.Ionic discharge portion 61 to be supported on needle electrode 63 in order accommodating and to remain to this and accommodate among the recess 23a and be on the electrode holder 62 of regulation shape, and supports circular opposite electrode 64 in the front of needle electrode 63 in the mode on the circular axis that is centered close to this needle electrode 63.Needle electrode 63 is connected by lead 65 respectively with opposite electrode 64 and derives from electrode holder 62, and is connected with near the top control circuit substrate 71 of U.S. face device main body 12.

And in this ion generating unit 33 (ionic discharge portion 61), the space X 2 around the needle electrode 63 is only opened to the outside, and space X 2 around this needle electrode 63 and the space X 1 in the U.S. face device main body 12 are separated out.This be because, if be arranged on use in the space X 1 in the U.S. face device main body 12 member of silicon materials (for example the part on flow pipe road 51 etc.) by the such thermals source heating of ptc heater 35,36, then silicon can be at this space X 1 inner suspension, if this suspension silicon is attached on the needle electrode 63, then can hinder corona discharge and reduce the generation of anion, so said structure can prevent to suspend silicon adhering to needle electrode 63.

Control circuit substrate 71 receives from the power supply of outside by mains cord 70 (with reference to Fig. 1) and supplies with, according to the control of the control circuit 72 that constitutes by the various circuit blocks that carry on the substrate 71, supply with action power to steam generating unit 31, mist generating unit 32 and ion generating unit 33 respectively.As shown in Figure 6, control circuit 72 is according to the shutoff operation of opening of on and off switch 25, between possible state of the action of U.S. face device 10 and halted state, switch, under the state that can move, setting according to the various uses of being undertaken by the combination operation of running gauge tap 26 and process selector switch 27, control steam generating unit 31 ( ptc heaters 35,36, steam is with discharge part 43 etc.) and the action of mist generating unit 32 (pump 54 etc.), make ion generating unit 33 (ionic discharge portion 61) and each generating unit 31 before in addition, 32 action is moved with matching.Therefore, can obtain cosmetic result that causes by anion and steam (warm fog) or the cosmetic result that causes by anion and mist (cold mist).

And, when generating anion, if needle electrode 63 is applied in high voltage, because and the potential difference between the opposite electrode 64 and around the front end of needle electrode 63, produce corona discharge, thereby produce anion.The anion that takes place is attracted by the opposite electrode 64 lower than needle electrode 63 current potentials, emits to the outside from iron nozzle 23.

Then, be elaborated with discharge part 43 with reference to the steam in the U.S. face device 10 of Fig. 7～9 pair above-mentioned formation as discharge part.

As shown in Figure 7, steam discharges in as the steam of mist path guiding pipeline 41 with discharge part 43, possesses a pair of the 1st electrode part 80,81 and is configured in the 2nd electrode part as cylindrical portion (target portion) 82 between the 1st electrode part 80,81.

The 1st electrode part 80,81 constitutes cylindric (with reference to Fig. 7), is centered close to the mode that promptly is positioned on the axis Ln on the same axis with separately axle, is being supported by fixed electrode holder 83 on steam guiding pipeline 41.In addition, implemented waterproof at the base end side (with the opposite side of direction that supports the 1st electrode part 81,82) of electrode holder 83 by not shown waterproof seal, thereby prevented to flow out steam (warm fog) from steam guiding pipeline 41.

In addition, the 2nd electrode part 82 is made of the columned hardware that contains Pt, utilizes as the pin plate (ピ Application プ レ one ト) 84 of retaining member to be fixed, and described pin plate is made of other members that are fixed on the steam guiding pipeline 41.

As shown in Figure 8, guide on the pipeline 41, with near the assigned position the discharge part 43, be provided with the extension 85 that guides the inboard beginning of tubular of pipeline 41 to guide the radially inner side of pipeline 41 to extend to form from the steam of tubular to steam at steam at steam.On a side 85a of this extension 85, be formed with jut 85b, and on the side 85c of a side opposite, on above-mentioned bearing of trend, separate the predetermined distance compartment of terrain and be formed with jut 85d, the 85e that section is the L font with side 85a.

In addition, as shown in Figure 9, it is parallel with the 2nd board 84b that pin plate 84 constitutes the 1st board 84a, comprises that also a side at each board 84a, 84b connects the connecting portion 84c between each board 84a, 84b.The 1st board 84a constitutes shorter than the 2nd board 84b, is formed with the connecting hole 90 that engages with the jut 85b of above-mentioned extension 85 at the width middle position of the 1st board 84a.In addition, the end at (upside among Fig. 9) of the opposite side with connecting portion 84c of the 2nd board 84b is formed with the through slot 91 as breakthrough part, and this through slot 91 connects thickness directions and forms incision-like in above-mentioned end side (upside).In addition, the installation of pin plate 84 is that downside from extension 85 carries out towards the end side (upside) opposite with above-mentioned connecting portion 84c of the 1st board 84a and the 2nd board 84b.At this moment, as mentioned above, the jut 85b of extension 85 engages with the connecting hole 90 of pin plate 84, and jut 85d, 85e that section is the L font releasably be installed on the 2nd board 84b, and can guide the 2nd board 84b.And, insert logical the 2nd electrode part 82 that is fixed with in the bottom of the through slot 91 of the 2nd board 84b.In addition, owing to when being installed to pin plate 84 on the extension 85, make the bottom of through slot 91 be set at axis Ln with the 1st electrode part 80,81 on same axis,, the 2nd electrode part 82 goes up (each center as one man disposes) thereby being configured in the axis Ln identical with the 1st electrode part 80,81.

Under the situation of in the U.S. face device 10 of above-mentioned formation, discharging with discharge part 43 by steam, because the edge part (periphery of end face 82a) of the end face 82 of columned the 2nd electrode part 82 forms the ring-type around the axis Ln of the 1st electrode part 80,81, the consumption meeting of the 2nd electrode part 82 that causes because of discharge is carried out fifty-fifty along cyclic edge part (periphery of end face 82a), big variation can not take place in discharge path intermittently, thus the discharge of carrying out steam usefulness discharge part 43 that can be stable.Thus, can stably generate metal microparticle.In addition, owing to can discharge, therefore can increase the generation of metal microparticle by the 1st electrode part 80,81 both ends of the surface 82a to the 2nd electrode part 82.

Then, the distinctive action effect to present embodiment describes.

(1) the 2nd electrode part 82 is cylindric, and and the 1st electrode part 80,81 between discharge, the direction of principal axis of the 2nd electrode part 82 (length direction) is configured to along the axis Ln of the 1st electrode part 80,81.In such structure, because the edge part (periphery) of the end face 82a of columned the 2nd electrode part 82 forms ring-type around the axis Ln of the 1st electrode part 80,81, the consumption of the 2nd electrode part 82 that is caused by discharge is carried out fifty-fifty along cyclic edge part (periphery of end face 82a), therefore big variation can not take place in discharge path intermittently, thereby can stably carry out the discharge of discharge part 43.Thus, can stably generate metal microparticle.

(2) the 2nd electrode part 82 form cylindric, are configured on the axis Ln identical with the 1st electrode part 80,81.Thus, under the situation of discharging between the edge part of the direction of principal axis end face 82a of the 1st electrode part 80,81 and the 2nd electrode part 82, the direction of principal axis end face 82a of the 2nd electrode part 82 can reduce equably, thereby can use the 2nd electrode part 82 efficiently.Therefore, can realize the long lifetime of the 2nd electrode part 82.

The pin plate 84 that (3) the 2nd electrode part 82 are used as retaining member is keeping.That is,, therefore, when carrying out the safeguarding of the 2nd electrode part 82, can only change the 2nd electrode part 82, safeguard and become easy thereby make because the 2nd electrode part 82 kept by pin plate 84.

(4) be formed with through slot 91, the 2 electrode part 82 that on axis Ln direction, connect on the pin plate 84 and inserted logical being fixed on the through slot 91 as breakthrough part.Therefore, can utilize pin plate 84 to fix (maintenance) columned the 2nd electrode part 82 with simpler structure.

(5) pin plate 84 releasably is arranged on the steam guiding pipeline 41 (extension 85) as pipeline component that constitutes the mist path.Promptly, owing to when comparing the safeguarding of the 2nd little electrode part 82, can guide pipeline 41 to unload pin plate 84 from steam, therefore can be for example from safeguard (replacing) of the 2nd electrode part 82 that carry out column after steam guiding pipeline 41 unloads pin plate 84, thus can make maintenance easier.

(6) the 1st electrode part 80,81 constitute on same axis Ln pair of electrodes are set, and the 2nd electrode part 82 is arranged between the pair of electrodes of the 1st electrode part 80,81.Therefore, the direction of principal axis both ends of the surface 82a of the 2nd electrode part 82 can be used efficiently, thereby the generation of metal microparticle can be increased by pair of electrodes portion 80,81.

In addition, embodiments of the present invention also can be carried out following change.

In the above-described embodiment, the 2nd electrode part 82 constitutes cylindric, but is not limited thereto, and for example also can constitute prism-shaped.

In addition, as Figure 10 (a) (b) shown in, also the 2nd electrode part 100 can be constituted cylindrical portion 101 that comprises the quadrangular shape and the support portion 102 of supporting this cylindrical portion 101.By such structure, owing to can utilize tabular component is carried out for example drawing the 2nd electrode part 100 that is shaped, thereby can constitute the 2nd electrode part 100 by being easy to manufacturing process.In addition, in this case,, therefore between the cylindrical portion 101 of the 2nd electrode part 100 and the 1st electrode part, discharge because that cylindrical portion 101 forms this direction of principal axis length D1 is longer than the width D 2 of unidirectional support portion 102.And if discharge, the end face 101a that then forms cyclic the 2nd electrode part 100 around the axis Ln of the 1st electrode part is consumed fifty-fifty along edge part (periphery), and discharge path can not change intermittently, therefore can stably carry out the discharge of discharge part.Thus, can stably generate metal microparticle.

In the above-described embodiment, axle center configuration Cheng Yudi 1 electrode part 80,81 of the 2nd electrode part 82 but is not limited thereto on same axis Ln.In fact, so long as the direction of principal axis of the direction of principal axis of the 1st electrode part 80,81 and the 2nd electrode part 82 get final product near the formation of (comprise some depart from or tilt).

In the above-described embodiment, constituting on the extension 85 that can releasably be installed in steam guiding pipeline 41 as the pin plate 84 of retaining member, but be not limited to this, also can be the structure that can not load and unload, promptly integrally formed structure.

In the above-described embodiment, the 2nd electrode part 82 is inserted the logical bottoms that are fixed on the through slot 91 of pin plate 84, but is not limited thereto, and also can adopt for example to insert in the hole and logically fix the 2nd electrode part 82 and wait other fixing means.In addition, also can form the 2nd electrode part 82 and pin plate 84.

In the above-described embodiment, being provided with two the 1st electrode part 80,81 is pair of electrodes, also electrode part 80,81 can be arranged to an electrode part.

In the above-described embodiment, be provided with 1 discharge part 43,2 above discharge parts also can be set.

In the above-described embodiment, on steam guiding pipeline 41, be provided with steam with discharge part 43, but not only be defined in this as the path of steam (warm fog).

In the above-described embodiment, utilize U.S. face device 10 to constitute cosmetic apparatus, the present invention also is applicable to the cosmetic apparatus beyond the U.S. face device 10.

Illustrated numerical value in the above-mentioned embodiment, for example, the sterilization temperature of the water that the size of the internal diameter of the bleed hole of the interval of steam nozzle, steam nozzle, cold mist are used and time etc. only only are examples, can carry out suitable change as required.

Claims (7)

1. mist generating device is characterized in that possessing:

Mist produces mechanism, constitutes from liquid to generate mist and emit mist via the mist path to the outside; And

Discharge part has the 1st electrode part that is provided with in above-mentioned mist path, and relative the 2nd electrode part that disposes and be used to produce metal microparticle with the 1st electrode part,

This mist generating device can be emitted by above-mentioned mist and be produced the mist of mechanism's generation and the metal microparticle that is produced by the discharge of above-mentioned discharge part,

Above-mentioned the 2nd electrode part has the cylindrical portion of column, discharges between this cylindrical portion and above-mentioned the 1st electrode part, and the direction of principal axis of above-mentioned cylindrical portion is along the axis configuration of above-mentioned the 1st electrode part.

2. mist generating device as claimed in claim 1 is characterized in that,

The above-mentioned cylindrical portion of above-mentioned the 2nd electrode part forms cylindric, and above-mentioned the 2nd electrode part is configured on the axis identical with above-mentioned the 1st electrode part.

3. mist generating device as claimed in claim 1 or 2 is characterized in that,

The above-mentioned cylindrical portion that keeps above-mentioned the 2nd electrode part as the retaining member of other members.

4. mist generating device as claimed in claim 3 is characterized in that,

Above-mentioned retaining member is the member that is formed with the breakthrough part that connects above-mentioned axis direction,

The above-mentioned cylindrical portion of above-mentioned the 2nd electrode part is inserted logical being fixed in the above-mentioned breakthrough part.

5. as claim 3 or 4 described mist generating devices, it is characterized in that,

Above-mentioned retaining member can be arranged on the pipeline component that constitutes above-mentioned mist path with loading and unloading.

6. mist generating device as claimed in claim 1 is characterized in that,

Above-mentioned the 1st electrode part constitutes on same axis pair of electrodes is set,

Above-mentioned the 2nd electrode part is arranged between the pair of electrodes of above-mentioned the 1st electrode part.

7. a cosmetic apparatus is characterized in that,

Possesses the described mist generating device of claim 1.

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