CN107173963A - Hair care devices - Google Patents

Abstract

The present invention provides a kind of hair care devices.The voltage supplier of the hair care devices includes having the exposure being externally exposed and is installed on the voltage supply member of housing and is electrically connected to the first conductive part of voltage supply member.In addition, voltage supply member includes the visible light-transmissive portion with visible light permeability, it is seen that light transmissive portion has the second conductive part for being electrically connected to the first conductive part.Also, the second conductive part has the contact surface for supply object (U) contact, at least a portion of exposure turns into contact surface.Also, the occlusion part with visible ray impermeability overlapping with whole exposure is provided with the position than exposure in the inner part.

Description

Hair care devices

Technical field

The present invention relates to a kind of hair care devices.

Background technology

In the past, as hair care devices, such as Japanese Unexamined Patent Publication 2003-275016 publications, Japanese Unexamined Patent Publication 2011- Disclosed in No. 005149 publication like that, known following a kind of hair care devices, it is supplied by being provided for user etc. The voltage supplier of object service voltage and make supply object turn into desired electriferous state so that seek improve hair nursing effect Really.

In Japanese Unexamined Patent Publication 2003-275016 publications, Japanese Unexamined Patent Publication 2011-005149 publications, voltage supply Portion includes the voltage supply plate being arranged on the housing for the profile for constituting hair care devices, by least one that supplies object Point be contacted with voltage supply plate and to supply object service voltage.

In addition, in the case of voltage supply plate is set on housing, such as Japanese Unexamined Patent Publication 2011-005149 publications, institute is public Open like that, for the reasons such as aesthetic appearance are improved, generally, application is implemented on the surface that plate is supplied to voltage, makes outermost layer by insulating properties Material is constituted.Therefore, supply object is contacted with voltage supply plate via Ins. ulative material.

When so there is Ins. ulative material between supply object and voltage supply plate, it can make to supply object supply electricity Electric conductivity reduction during pressure, therefore, it is difficult to further improve hair nursing effect.

The content of the invention

The problem of present invention is in order to solve conventional and make, its object is to there is provided it is a kind of suppress aesthetic appearance drop Hair care devices that are low and further improving hair nursing effect.

The problem of in order to solve above-mentioned conventional, hair care devices of the invention include：Housing, it constitutes profile；And Voltage supplier, it is used for supply object service voltage.

In addition, the voltage supplier includes with the exposure being externally exposed and is installed on the voltage confession of the housing To component and the first conductive part for being electrically connected to the voltage supply member.

In addition, the voltage supply member includes the visible light-transmissive portion with visible light permeability, the visible ray is saturating Crossing portion has the second conductive part for being electrically connected to first conductive part.

In addition, second conductive part has the contact surface for the supply object contact, the contact surface is described sudden and violent At least a portion shown up.

Also, hair care devices are provided with overlapping with the whole exposure in the position than the exposure in the inner part Occlusion part with visible ray impermeability.

Using the hair care devices of the present invention, a kind of reduction for suppressing aesthetic appearance can be obtained and hair is further improved The hair care devices of nursing efficacy.

Brief description of the drawings

Fig. 1 is the side view of the hair care devices of embodiments of the present invention.

Fig. 2 is the front view of the hair care devices of embodiments of the present invention.

Fig. 3 is the sectional view of the hair care devices of embodiments of the present invention.

Fig. 4 is in the main part for the hair care devices for representing embodiments of the present invention, provided with metal microparticle life Into the top view in portion and the part of mist generating unit.

Fig. 5 is Fig. 1 A-A sectional views.

Fig. 6 is the sectional view of the installment state for the voltage supply plate for representing embodiments of the present invention.

Fig. 7 is the figure that the handle part of embodiments of the present invention in terms of plate side is supplied from voltage.

Fig. 8 is the exploded perspective view of the handle part of embodiments of the present invention.

Fig. 9 is the circuit diagram of voltage supply circuit that has of voltage supplier of embodiments of the present invention.

Figure 10 is the sectional view of the variation for the handle part for representing embodiments of the present invention.

Figure 11 is the sectional view of another variation for the handle part for representing embodiments of the present invention.

Figure 12 is the side view of the hair care devices for the variation for representing embodiments of the present invention.

Figure 13 is the side view of the hair care devices for another variation for representing embodiments of the present invention.

Embodiment

The hair care devices of embodiments of the present invention include：Housing, it constitutes profile；And voltage supplier, its For to supply object service voltage.

In addition, the voltage supplier includes：Voltage supply member, it has the exposure being externally exposed and is installed on The housing；And first conductive part, it is electrically connected with the voltage supply member.

In addition, the voltage supply member includes the visible light-transmissive portion with visible light permeability, the visible ray is saturating Crossing portion has the second conductive part (visible light-transmissive portion side conductive part) electrically connected with first conductive part.

In addition, second conductive part has the contact surface for the supply object contact, the contact surface is described sudden and violent At least a portion shown up.

Also, hair care devices are provided with overlapping with the whole exposure in the position than the exposure in the inner part Occlusion part with visible ray impermeability.

So, by the rear side of the exposure in the voltage supply member including visible light-transmissive portion set covering with it is whole The occlusion part with visible ray impermeability in the overlapping region of the individual exposure, can suppress the reduction of aesthetic appearance.

Also, by making the contact surface that at least a portion of exposure is the second conductive part, supply object can be not via exhausted Contacted with voltage supply member to edge, therefore, it is possible to suppress the reduction to electric conductivity during supply object service voltage.

Thus, using the hair care devices of present embodiment, the reduction of aesthetic appearance can be suppressed and hair is further improved Nursing efficacy.

In addition, the occlusion part is located at the overlapping position of the same exposure of first conductive part and the visible ray Between through portion.

Set if so, then effectively can flexibly use the region overlapping with exposure and suppress the reduction of aesthetic appearance.

In addition, the occlusion part has insulation division, second conductive part and the first conductive part are not via the insulation division Ground is electrically connected.

Set if so, then can more reliably suppress electric conductivity when to supply object service voltage reduces.

In addition, the occlusion part is the inwall protruded from the housing.

Set if so, then occlusion part need not be set in addition, as simpler structure, so as to more easily carry out Assembling.

In addition, the conductive path for reaching the contact surface from the first conductive part has the circuitous path for bypassing the inwall.

Set if so, then can simplify structure and more reliably suppress reach the conduction of contact surface from the first conductive part There is insulation division in the midway in path.

In addition, the occlusion part has the 3rd conductive part (occlusion part side conductive part).

Set, then can more reliably suppress in the midway for the conductive path that contact surface is reached from the first conductive part if so There is insulation division.

In addition, second conductive part and the first conductive part are electrically connected via the 3rd conductive part.

Set if so, then need not bypass occlusion part, Neng Goujin when making the second conductive part and the first conductive part is electrically connected One step realizes the simplification of structure.

In addition, the housing includes handle part and constitutes the handle part side body of the profile of handle part, the voltage supply Component is formed at the handle part side body.

, can be under common use state to supply object service voltage by being arranged such, therefore improve hair The ease of use of care device.

In addition, by holding the handle part, so as to press the voltage supply member relative to first conductive part.

Set if so, then when using hair care devices, can more reliably ensure voltage supply member and first Electrical connection between conductive part, so as to more reliably to supply object service voltage.

In addition, hair care devices also include being used for supplying to the charged particle of the supply object supply charged particle Portion.

Set if so, then further increase hair nursing effect.

In addition, the charged particle supply unit can release the charged particle water containing the charged particle.

Set if so, then can make more attachment of moisture on hair, further increase hair nursing effect.

Also, said structure can be applied to hair-dryer, hair iron or hair comb as hair care devices.

Hereinafter, with reference to the accompanying drawings of embodiments of the present invention.In addition, the present invention is not limited by the embodiment.

Embodiment

Hair-dryer 1 as the hair care devices of present embodiment is included as user (supply object) U hands The handle part 1a of the part of the gripping and main part 1b being combined on the direction intersected with handle part 1a with handle part 1a.And And, hair-dryer 1 is configured to, when in use with by handle part 1a and main part the 1b substantially T-shaped constituted or substantially L-shaped The outward appearance of (being in the present embodiment substantially T-shaped), can be folded when not in use.

Power line 2 is drawn from handle part 1a nose portion.In addition, handle part 1a is divided into the root by main part 1b sides Portion 1c and top ends 1d, root 1c and top ends 1d are linked up in the way of it can be rotated via linking part 1e.Top ends 1d can fold into the position along main part 1b.

The housing 3 for constituting the profile of hair-dryer 1 is constituted by the way that multiple dividing bodies are joined together.In housing 3 Cavity has been internally formed, various electric parts are accommodated in the cavity.

In the side (right side) of the main part 1b length direction (Fig. 3 left and right directions) for being internally formed main body 1b Entrance opening (suction inlet) 4a reach exit opening (ejiction opening) 4b wind-tunnel (air-supply stream) 4.Also, by making to be contained in Fan 5 in wind-tunnel 4 rotates and forms air-flow W1.That is, air-flow W1 is flowed into wind-tunnel 4 from outside via entrance opening 4a, and By being discharged to the outside in wind-tunnel 4 from exit opening 4b.

Entrance opening 4a is covered by cancellous framework 10.The shape of the opening portion of framework 10 turns into such as honeycomb shape. Set if so, be then able to ensure that the connection strap portion (Japanese for marking off opening portion：Zhan portions) intensity it is impartial and make entrance opening 4a total opening area becomes big and increases air quantity.

In addition, as shown in figure 3, formed integrally in framework 10 have mesh 11, the aperture opening ratio of the mesh 11 for 55%~ 90% or so, mesh width is 300nm~650nm or so.The mesh 11 is made up of the flame retardant resin such as polyester, metal. Framework 10 is integrally formed in by the mesh 11 for so making mesh width tiny, can more reliably suppress tiny dust, hair In the air inlet streams such as hair.

In addition, in main part 1b, in the outer barrel 3a of housing 3 inner cylinder 6 of the inside provided with substantially cylindrical shape, air-flow W1 exists The inner side flowing of the inner cylinder 6.Fan 5 is configured with the most upstream side of the inner side of inner cylinder 6, use is configured with the downstream of fan 5 In the motor 7 of driving fan 5, the heater 8 as heating arrangements is configured with the downstream of motor 7.

When making heater 8 work, warm wind is blown out from exit opening 4b.In addition, in the present embodiment, heater 8 is The structure configured with winding by the inner circumferential by the resistive element of banding and corrugated plate shape along inner cylinder 6, but be not limited to The structure.

Also, in main part 1b, two (multiple) gold are accommodated in the cavity 9 between housing 3 and inner cylinder 6 is formed Belong to particulate generating unit (ion generating unit：Charged particle supply unit) 30,40, mist generating unit (ion generating unit：Charged particle is supplied To portion) 50, and apply circuit 12 etc. for applying alive first voltage to mist generating unit 50.In addition, in cavity 9, Different from accommodate first voltage apply circuit 12 position other positions accommodate for metal microparticle generating unit 30, 40, which apply alive second voltage, applies circuit (not shown).

First voltage applies circuit 12 and second voltage applies circuit and is preferably configured in handle part 1a or configures in main body In portion 1b in the region on handle part 1a extended line.Thus, when user U is handle part 1a is hold, due to the The turning moment that one voltage applying circuit 12 and second voltage apply the quality of both circuits and produced diminishes, and acts on and uses The load of person U hand diminishes.

Additionally, it is preferred that by first voltage apply circuit 12 and second voltage apply circuit be configured at across inner cylinder 6 each other in For the position of opposite side.Set if so, then can suppress because first voltage apply circuit 12 and second voltage apply circuit it Between interfere caused by reduction, the destabilization of voltage etc. it is bad.

Also, in the present embodiment, cavity 9 lateral parts (cavity 9 be different from accommodate first voltage apply Other positions at the position of circuit 12) accommodate switch for the switching, the switching of pattern that carry out warm wind and cold wind etc. Portion (not shown).

In addition, being accommodated in cavity in handle part 1a top ends 1d useful between the connecting and disconnecting of power supply are carried out Switching etc. other switch portions 16.These electric parts are coated by metallic conductor etc. each other by using insulative resin etc. The lead 17 for the cored wire being made is connected (reference picture 4).

In addition, the lead 17 being connected with metal microparticle generating unit 30, the lead being connected with metal microparticle generating unit 40 17 and distribution is carried out in the way of preferably not intersect separated with lead 17 that mist generating unit 50 is connected as far as possible.This be for Suppress because of the interfering for electric current flowed in each lead 17 to make metal microparticle generating unit 30,40 or mist generating unit 50 can not obtain desired voltage or voltage is become unstable.

Switch portion 16 is configured to by being operable to the operating parts 18 exposed to the surface of housing 3 to interior contacts Open and-shut mode is switched over.Also, switch portion 16 is configured to come multistage switch by being slidable in the vertical direction operating parts 18 The open and-shut mode of interior contacts.

Specifically, allow hand over as power supply disconnection, weak wind, medium wind, high wind this 4 patterns, be located at operating parts 18 The state of foot disconnects as power supply.Also, when making operating parts 18 slide one-level upward from foot, connect as power supply Logical state simultaneously sends out weak wind.When making operating parts 18 further slide one-level upward, medium wind is sent out, is slided when making operating parts 18 When moving topmost, high wind is sent out.

On the other hand, the switch portion of switching, switching of pattern for carrying out warm wind and cold wind etc. is configured to, and passes through The operating parts 19 on the surface to being formed at housing 3 is operated and (bends it) to switch the open and-shut mode of interior contacts.Also, The display part 14 for showing currently selected pattern is formed with the top of operating parts 19.

These switch portions, display part 14 etc. are electrically connected with the microcomputer in control base board (not shown).

It is many that inner cylinder 6 is radially oriented outside stretching with cylindrical portion 6a, from cylindrical portion 6a and dispersedly configured in the circumferential Individual supporting rib 6b (only figure is shown at one in figure 3) and via supporting rib 6b be connected to cylindrical portion 6a and to the tubular The flange part 6c that the direction that portion 6a axis direction is substantially orthogonal is protruded.

Gap g1 (reference picture 3) is formed between cylindrical portion 6a and flange part 6c, an air-flow W1 part is via this Flow into gap g1 branches in cavity 9 and form tributary W2.In addition, the gap as the tributary W2 introducing ports imported into cavity 9 G1 is located at the downstream positioned at fan 5 and is positioned at the position of the upstream side of heater 8.Thus, tributary W2 turns into by heater 8 Air-flow before heating, relatively colder.

Also, a tributary W2 part further branch and as tributary W3 (reference picture 3).Tributary W3 is obstructed to be stated later Metal microparticle blow-off outlet (ion discharge port) 20a, 20b, mist blow-off outlet (ion discharge port) 20c, but from inner cylinder 6 and shell Through the air-flow that the comparison blown out from exit opening 4b outer peripheral portion is cold between body 3.

The position by exit opening 4b sides as cavity 9 on housing 3 is formed with through hole (opening) 3b of ellipse, Through hole 3b is blocked using the cover 20 being made up of the synthetic resin material of insulating properties.

So, in the present embodiment, cover 20 is arranged on the housing 3 in the way of the through hole 3b of housing 3 is formed to cover On.In addition, in the present embodiment, cover 20 is installed on housing 3 by being moved to the right from Fig. 3 left side relative to housing 3. Thus, in the present embodiment, the direction gone to the upstream side from the downstream of wind-tunnel 4 turns into the installation that cover 20 is installed to housing 3 Direction.

In addition, metal microparticle blow-off outlet 20a, 20b and mist blow-off outlet 20c are separately formed at the (reference picture of cover 20 2)。

In addition, being formed with the ion for ion flow in the front of mist generating unit 50 and metal microparticle generating unit 30,40 Stream 4c (reference picture 4), metal microparticle blow-off outlet 20a, 20b and mist blow-off outlet 20c are located at ion stream 4c downstream.

In addition, in order to suppress, cover 20 is powered because of metal microparticle or mist, and preferably make cover 20 is less electrically conductive than housing 3 Electric conductivity.If the reason is that cover 20 is powered, causing to be difficult to from metal microparticle generating unit 30,40, mist due to its electric charge Generating unit 50 releases metal microparticle and anion, mist with electric charge.

In order to suppress the powered of cover 20, preferably use and be not susceptible to powered material, such as PC (makrolon) resin Form cover 20.In addition, in the present embodiment, cover 20 constitutes the profile of hair-dryer 1.

In addition it is possible to be to eliminate the electric charge on cover 20 by making cover 20 be connected to the electrode of mist generating unit 50.

In addition, in the present embodiment, metal microparticle blow-off outlet 20a, 20b aperture are less than mist blow-off outlet 20c hole Footpath.I.e. it is easy to safeguard mist generating unit 50 via mist blow-off outlet 20c, the shape of mist generating unit 50 is confirmed via mist blow-off outlet 20c State etc., on the other hand, can suppress being strayed into via metal microparticle blow-off outlet 20a, 20b such as finger, instrument.

In addition, in the present embodiment, metal microparticle blow-off outlet is formd in mist blow-off outlet 20c periphery 20d 20a, 20b (reference picture 2).

Specifically, spread configuration metal microparticle blow-off outlet 20a and metal microparticle are come centered on mist blow-off outlet 20c Blow-off outlet 20b.

That is, on cover 20, along the width (Fig. 2 left and right directions) of hair-dryer 1, with according to metal microparticle blow-off outlet 20a, mist blow-off outlet 20c, metal microparticle blow-off outlet 20b tactic mode be formed with metal microparticle blow-off outlet 20a, 20b and mist blow-off outlet 20c.

By such configuration, the mist with negative electrical charge can be suppressed because self-forming is in mist blow-off outlet 20c periphery 20d Metal microparticle blow-off outlet 20a, 20b blowout anion and spread laterally (discrete).

As a result, improving the straight trip of mist and making mist be easy to reach hair, hair nursing effect can be further improved.

Also, in mist blow-off outlet 20c downstream and it is the wall portion 20e (ginsengs that lower section extends provided with the blow-off direction along mist According to Fig. 3, Fig. 4).It can suppress to spread downwards (discrete) from the mist that mist blow-off outlet 20c is blown out using wall portion 20e.

In addition, metal microparticle generating unit 30,40 and mist generating unit 50 are according to metal microparticle generating unit 30, mist generating unit 50th, width (Fig. 2 left and right directions) of the order of metal microparticle generating unit 40 along hair-dryer 1 is configured at cavity 9 side by side It is interior.

Also, in the metal microparticle generating unit adjacent with the mist generating unit 50 of mist generating unit 50 (anion generating unit) 30th, shutter (lattice) 6d (reference picture 4) is provided between 40.

Also, as shown in figure 4, by by shutter 6d with along blow-off direction (Fig. 4 of the above-below direction of hair-dryer 1 and mist Left and right directions) mode of extension configures so that suppress metal microparticle, mist from metal microparticle blow-off outlet 20a, 20b and Mixed before mist blow-off outlet 20c blowouts.

As metal microparticle generating unit 30,40, can use respectively have formed by conductive metal material Sparking electrode (the 1st electrode) and discharge to device known to metal microparticle generating means of electrode (the 2nd electrode) etc..

In addition, as mist generating unit 50, can also use known device.For example, following electrostatic atomization can be used Device, in the electrostatic atomization apparatus, makes the surface of coldplate of the hydrogenesis in air after being cooled down by peltier-element And condensate is generated, then, make the condensate miniaturization using discharge process, thus generate nano-scale very tiny mist (the electronegative mist containing anion).

In the present embodiment, using the mist generating unit (ion generating unit) 50 as releasing mist (containing charged particle Charged particle water) charged particle supply unit.

Also, in the present embodiment, by being provided for the voltage supplier 70 to user's U service voltages, so that Inhibit the adhesion amount reduction that generated charged particle is attached on hair.

Specifically, voltage supplier 70 includes the voltage supply circuit 71 that is made up of multiple electrical equipments and for making User U is supplied from the voltage supply plate (voltage supply member) 77 of the voltage of the output of voltage supply circuit 71.

In addition, voltage supply circuit 71 is circuit for example as shown in Figure 9.That is, voltage supply circuit 71 is configured to bag Include as can make to supply switch 72 along the switch element of two-way flow of the electric current that comes from source power supply 76, be gone here and there with switch 72 Join the capacitor 73 and multiple resistance of connection.

The voltage supply circuit 71 includes multiple resistance, and the resistance, which has, to be configured between source power supply 76 and switch 72 1st resistance 74 and the 2nd resistance 75 being configured between capacitor 7 and voltage supply plate 77.

In addition, switch 72 is by such as light MOS (Metal Oxide Semiconductor：Metal-oxide semiconductor (MOS)) after Electrical equipment is constituted, the switching that can be turned on/off by control unit (not shown).

On the other hand, voltage supply plate 77 is installed on the handle part side body 60 (housing 3) for the profile for constituting handle part 1a (reference picture 7).Now, the surface of voltage supply plate 77 is exposed to handle part 1a outer surface.That is, pacify by voltage supply plate 77 The exposure 77a being externally exposed is formed with during loaded on handle part side body 60.

Also, in the present embodiment, voltage supply plate 77 includes the visible light-transmissive portion 80 with visible light permeability. Also, conductive (the ginseng of the second conductive part (visible light-transmissive portion side conductive part) 85 is formed with visible light-transmissive portion 80 According to Fig. 6).

Second conductive part 85 is electrically connected with the first conductive part 78 of the part as above-mentioned voltage supply circuit 71.At this Second conductive part 85 is formed with the contact surface 85a for directly contacting and (being contacted not via insulation division) for user U.The contact surface 85a is exposure 77a at least a portion.

By being arranged such, if user U holds handle part 1a, user U palm when usually using hair-dryer 1 Etc. being directly contacted with contact surface 85a.Also, the voltage in this condition, exported from voltage supply circuit 71 is from the second conductive part 85 supply to user U.

Now, it is preferred that with user U with opposite polarity with the electric charge of the ion produced by mist generating unit 50 The mode of electricity supplies plate 77 to user's U service voltages from voltage.So, when user U carry with from charged particle supply unit The electric charge of the charged particle of supply it is opposite polarity electric when, the charged particle generated can be attracted to user U head Hair, therefore, it is possible to suppress the adhesion amount reduction that charged particle is attached to hair.

Here, in the present embodiment, plate 77 is supplied using translucent voltage is formd with semipermeable material. Also, voltage supply plate 77 is conductive.Such voltage supply plate 77 can use for example by ABS resin, PC resin with And the additive such as the hydrophilic polymer material that mixes is formed.In addition it is possible to be, using to ABS resin, PC resin Material Deng mixed carbon fibre, the additive of metal microparticle in resin to form conductive voltage supplies plate 77。

In addition, when the resistance value of the voltage supply plate 77 using above-mentioned material formation is relatively low, there is internal circuit (voltage The grade of supply circuit 71 circuit) situation of breakage because of the electrostatic from outside.

It is preferred, therefore, that for example, the use of specific insulation being 1.0 × 10⁶More than Ω m material forms voltage Plate 77 is supplied, so as to suppress internal circuit because damaged from outside electrostatic.

So, in the present embodiment, whole voltage supply plate 77 turns into visible light-transmissive portion 80 and conductive as second Portion 85.Also, whole exposure 77a turns into contact surface 85a.

In addition, handle part side body 60 is by formed by multiple dividing bodies are joined together, as shown in Fig. 6, Fig. 8, It includes the 1st segmentation segmentation housing 62 of housing 61 and the 2nd.

Also, by the way that voltage supply plate 77 is clipped in into the 1st when the 1st segmentation segmentation housing 62 of housing 61 and the 2nd is engaged Between the segmentation segmentation housing 62 of housing 61 and the 2nd, so that voltage supply plate 77 is installed on into handle part side body 60.

Specifically, voltage supply plate 77 includes main part 81 and main body with exposure 77a (contact surface 85a) The end (inner side of the thickness direction of main part 81) of 81 side opposite with exposure 77a is towards flange part protruding outside 82 (reference picture 6, Fig. 8).

Also, the inner side that the thickness direction of main body 81 is formed with the flange part 82 is protruding outside towards width The 1st jut 83 and the 2nd jut 84.

Then, by being sticked in the 1st jut 83 when the 1st segmentation segmentation housing 62 of housing 61 and the 2nd is engaged 1st splits the holding section 61a formed on housing 61 and the 2nd jut 84 is sticked in the card formed on the 2nd segmentation housing 62 Conjunction portion 62a, so that voltage supply plate 77 is installed on into handle part side body 60 (reference picture 6).

1st jut 83 includes being extended on the inside of from the outer tip end of flange part 82 towards the thickness direction of main part 81 The 1st extended portion 83a and from the 1st extended portion 83a inner side top towards the outside of the width of main part 81 The 2nd extended extended portion 83b.

Also, when the 1st jut 83 to be sticked in the holding section 61a of the 1st segmentation housing 61, the 2nd extended portion 83b Back side 83c be contacted with the first conductive part mounting rib 61b formed on the 1st segmentation housing 61 surface (mounting surface) 61c (ginsengs According to Fig. 6).

2nd jut 84 is the inner side of the thickness direction of main body 81 towards prolonging on the outside of the width of main part 81 The projection of setting is stretched, it is provided with 3 (multiple) (reference picture 8) in the way of being arranged on the length direction in main part 81.

Also, in the present embodiment, the back side 82a of flange part 82 and the back side 81a of main part 81 are formed as in same On one face, the back side 84a of the 2nd jut 84 and the back side 82a of flange part 82 and main part 81 back side 81a are formed as being in On same face (reference picture 6).

Also, as described above, oriented 2nd segmentation housing 62 side is protruded first is formed in the inner side of the 1st segmentation housing 61 Conductive part loads rib 61b, and the surface 61c for loading rib 61b in first conductive part is placed with the first conductive part 78 (reference picture 6, figure 8)。

In the present embodiment, the first conductive part 78 includes lead 78a and aluminium foil 78b.Moreover, by utilizing aluminium foil Aluminium foil 78b is pasted on first by 78b in the state of covering the core that the covering portion on lead 78a top is removed and exposed Conductive part mounting rib 61b surface 61c, so that the first conductive part 78 to be configured to the surface 61c that rib 61b is loaded in the first conductive part Upper (reference picture 6, Fig. 8).

Also, when the 1st jut 83 to be sticked in the holding section 61a of the 1st segmentation housing 61, the 2nd extended portion 83b Surface 61cs of the back side 83c with being configured at the first conductive part mounting rib 61b aluminium foil 78b be in contact (reference picture 6).

Thus, in the present embodiment, the 2nd extended portion 83b back side 83c turn into the second conductive part 85 with the The contact site 85b of one conductive part 78 contact.Also, connect the 2nd extended portion 83b back side 83c same first conductive part 78 The thickness direction of tactile contact direction (the relative relative direction of contact site 85b same first conductive part 78) and main part 81 is substantially Unanimously.By being arranged such, when user U is handle part 1a is hold, voltage supplies plate 77 by the thickness side of main part 81 Pressed to inner side, therefore, in the presence of the pressing force, handle part side voltage supply member 77 is pressed towards the first conductive part 78 Pressure.

In addition, as shown in figure 8, multiple rib 61d are formed with the surface 61c that the first conductive part loads rib 61b, by that will draw Line 78a is clipped between the plurality of rib 61d, so as to limit lead 78a movement.In addition, loading shape on rib 61b in the first conductive part Into breach 61e, by the way that lead 78a is inserted into breach 61e, so that a lead 78a side is loaded around the first conductive part Rib 61b inner side.A lead 78a side is electrically connected to the multiple electrical equipments for constituting voltage supply circuit 71.

Here, in the present embodiment, as shown in fig. 6, the 2nd extended portion 83b is located at the back side 81a than main part 81 By the position on the inside of thickness direction.Therefore, in the state for the holding section 61a that the 1st jut 83 is sticked in the 1st segmentation housing 61 Under, it is formed with space S 1 between the back side 81a of main part 81 and the first conductive part mounting rib 61b surface 61c.

In addition, in the present embodiment, due to having used semipermeable voltage supply plate 77, therefore, it is possible to from outer side view Feel and confirm space S 1.

Also, due to there is a part for the first conductive part 78 in the space S 1, therefore, in this condition, first leads The part (part overlapping with exposure 77a in a thickness direction of the first conductive part 78) in electric portion 78 can from outside by Arrive, there is the worry for making aesthetic appearance be deteriorated.

Therefore, in the present embodiment, by being arranged on the thickness of main part 81 in the position than exposure 77a in the inner part The occlusion part 90 with visible ray impermeability overlapping with whole exposure 77a on direction, so as to inhibit aesthetic appearance to be deteriorated (reference picture 6).

Specifically, by forming the rib (inwall) prominent to the 1st segmentation housing 61 side in the inner side of the 2nd segmentation housing 62 62b simultaneously makes rib 62b as the function of occlusion part 90, so that a part for the first conductive part 78 can not be from outside by vision Confirm.

In the present embodiment, so that rib 62b surface 62c and whole back side 84a, the main part 81 of the 2nd jut 84 Whole back side 81a and the relative modes of whole back side 82a of flange part 82 form rib 62b.

Also, rib 62b is more conductive than first to be located at when the 1st segmentation segmentation housing 62 of housing 61 and the 2nd is joined together Portion upper (the exposure 77a sides of mounting rib 61b：Outside) the mode of position formed.Also, rib 62b is located at the first conductive part Between 78 position overlapping with exposure 77a and main part 81 (visible light-transmissive portion 80).

In addition, in the present embodiment, rib 62b uses Ins. ulative material formation, whole rib 62b (whole occlusion parts 90) insulation division 91 is turned into.

Also, the second conductive part 85 and the first conductive part 78 are not electrically connected via the ground of insulation division 91.

In the present embodiment, make the contact site 85b of the second conductive part 85 in the first conductive part 78 in main part 81 The position overlapping with exposure 77a is not directly contacted with the first conductive part 78 on thickness direction.Thus, from the first conductive part Insulation division 91 is not present in the midway of 78 to contact surface 85a conductive path 86.

In addition, conductive path 86 has the circuitous path 86a for bypassing rib 62b.

As described above, in the present embodiment, making the contact site 85b and the first conductive part 78 of the second conductive part 85 autonomous It is in contact in the region for deviateing rib 62b when the thickness direction in body portion 81 is seen.Thus, even in the first conductive part 78 and main part 81 Between there is insulation division 91, also can be formed in midway be not present insulation division 91 conductive path 86.

Now, when the creepage distance untill the first conductive part 78 is played from exposure 77a is shorter, exist internal circuit because Situation from outside electrostatic and breakage.

It is preferred, therefore, that so that the most short creepage distance untill playing the first conductive part 78 from exposure 77a turns into example Mode such as more than 5mm configures the voltage supply conductive part 78 of plate 77 and first.Thus, internal circuit is suppressed because from the quiet of outside Electricity and it is damaged.

Assembled using the handle part 1a of such structure for example, by following methods.

First, by covering the core that the covering portion on lead 78a top is removed and exposed using aluminium foil 78b Aluminium foil 78b is pasted on to the first conductive part mounting rib 61b surface 61c, so that the first conductive part 78 be configured under state On first conductive part mounting rib 61b surface 61c.Now, lead 78a is clipped in the first conductive part mounting rib 61b surface 61c On rib 61d between and by lead 78a insert breach 61e so that a lead 78a side around the first conductive part load rib 61b inner side.

Then, by the way that the 1st jut 83 to be sticked in the holding section 61a of the 1st segmentation housing 61, so that the second conductive part 85 contact site 85b (the 2nd extended portion 83b back side 83c) is contacted with aluminium foil 78b and voltage supply plate 77 is installed on into the 1 segmentation housing 61.

Afterwards, the rib 62b of the 2nd segmentation housing 62 the first conductive parts of ratio 78 being inserted into space S 1 are depended on into exposure 77a 2nd jut 84 is simultaneously sticked in the holding section 62a formed on the 2nd segmentation housing 62 by the position of side, so as to split shell by the 1st The segmentation housing 62 of body 61 and the 2nd is joined together.In addition, in the present embodiment, positioning rib is formed with the 2nd segmentation housing 62 62d, when the 1st segmentation segmentation housing 62 of housing 61 and the 2nd is joined together, the first conductive part mounting rib 61b top engaging In positioning rib 62d top.

So, the handle part 1a that the exposure 77a (contact surface 85a) that being formed makes voltage supply plate 77 is externally exposed.

In addition, the connection between the voltage supply conductive part 78 of plate 77 and first is not limited to said structure, and can be each Plant structure.

Also can be, for example, as shown in Figure 10, the rib 62b of the 2nd segmentation housing 62 not being extended to the 1st extension and set Put portion 83a sides.

In the Figure 10, pass through back side 82a, the back side 81a of main part 81 to flange part 82 and the 2nd jut 84 Back side 84a implements application etc., so as to form the opaque overlay film 100 with insulating properties, make the overlay film 100 substitute rib 62b and It is used as the function of occlusion part 90.That is, in the Figure 10, whole overlay film 100 turns into insulation division 91.

In the Figure 10, similarly, whole voltage supply plate 77 turns into translucent visible light-transmissive portion 80 and as the Two conductive parts 85.Also, the contact surface 85a for being formed at the second conductive part 85 constitutes whole exposure 77a (at least a portion).

In addition, in Fig. 10, similarly, reached from the first conductive part 78 contact surface 85a conductive path 86 have around The circuitous path 86a of overlay film 100 (insulation division 91) is crossed, insulation division 91 is not present in the midway of conductive path 86.

As long as in addition, overlay film 100 voltage supply plate 77 the back side on be located on the thickness direction of main part 81 with it is whole In region overlapping individual exposure 77a.Thus, can not also be in the back side 82a of flange part 82, the back of the body of the 2nd jut 84 Overlay film 100 is set on the 84a of face.

In addition, in above-mentioned embodiment and Figure 10, it is not necessary to which it is that translucent visible ray is saturating to make whole voltage supply plate 77 Cross portion 80.

For example, as shown in figure 11, visible light-transmissive portion 80 and occlusion part 90 can be formed on voltage supply plate 77.

In the Figure 11, the outside (exposure 77a sides) of voltage supply plate 77 turns into conductive visible light-transmissive Portion 80, the inner side (side of the first conductive part 78) of voltage supply plate 77 turns into conductive occlusion part 90.

That is, whole visible light-transmissive portion 80 turns into the second conductive part 85, and whole occlusion part 90 (is blocked as the 3rd conductive part Portion side conductive part) 92.

Such voltage supply plate 77 can carry out dual-color forming by using the material of unlike material to be come integratedly Formed.

Also, the first conductive part 78 is electrically connected to the back side (the 3rd conduction of voltage supply plate 77 via metal plate springs 110 The back side 92a in portion 92).

So, in fig. 11, occlusion part 90 has the 3rd conductive part 92, the second conductive part 85 and the first conductive part 78 via 3rd conductive part 92 is electrically connected.

Set if so, then do not make the roundabout feelings of the conductive path 86 that contact surface 85a is reached from the first conductive part 78 Allow for that insulation division 91 is not present in the midway of conductive path 86 under condition.

In addition, in fig. 11, similarly, as long as occlusion part 90 is located in main part 81 at the back side that voltage supplies plate 77 On thickness direction in the region overlapping with whole exposure 77a.

As described above, the hair-dryer (hair care devices) 1 of present embodiment includes constituting the He of housing 3 of profile For the voltage supplier 70 to user's U service voltages.

In addition, voltage supplier 70 includes：Voltage supplies plate 77, and it has the exposure 77a being externally exposed and installation In housing 3；And first conductive part 78, it is electrically connected with voltage supply plate 77.

In addition, voltage supply plate 77 includes the visible light-transmissive portion 80 with visible light permeability, it is seen that light transmissive portion 80 With the second conductive part 85 electrically connected with the first conductive part 78.

In addition, the second conductive part 85 has a contact surface 85a for user U contact, exposure 77a at least a portion into For contact surface 85a.

Also, hair-dryer (hair care devices) 1 has and whole exposure in the position than exposure 77a in the inner part The occlusion part 90 with visible ray impermeability overlapping 77a.

So, set by the rear side of the exposure 77a in the voltage supply member 77 including visible light-transmissive portion 80 The occlusion part 90 with visible ray impermeability in the region overlapping with whole exposure 77a is covered, aesthetic appearance can be suppressed Reduction.

Also, by making the contact surface 85a that exposure 77a at least a portion is the second conductive part 85, it can use Person U is contacted with voltage supply member 77 not via the ground of insulation division 91, can suppress to electric conductivity drop during user's U service voltages It is low.

Thus, using the hair-dryer (hair care devices) 1 of present embodiment, the reduction that can suppress aesthetic appearance goes forward side by side one Step improves hair nursing effect.

Alternatively, it is also possible to make occlusion part 90 be located at the position overlapping with exposure 77a and the visible ray of the first conductive part 78 Between through portion 80.

Set if so, then effectively can flexibly use the region overlapping with exposure 77a (to be used as being used to configure The position of first conductive part 78) and can suppress the reduction of aesthetic appearance.

Alternatively, it is also possible to be, occlusion part 90 has insulation division 91, and the second conductive part 85 and the first conductive part 78 are not via exhausted The ground of edge 91 is electrically connected.

Set if so, then can more reliably suppress electric conductivity when to user's U service voltages reduces.

In addition it is possible to form occlusion part 90 using the rib 62b protruded from housing 3.

Set if so, then occlusion part 90 need not be in addition set, simpler structure can be set as.Further, since passing through Assemble housing 3 to set occlusion part 90, therefore, it is possible to more easily be assembled.

Alternatively, it is also possible to be, the conductive path 86 for reaching contact surface 85a from the first conductive part 78, which has, bypasses rib 62b's Circuitous path 86a.

Set if so, then can seek the simplification of structure and can more reliably suppress to reach from the first conductive part 78 There is insulation division 91 in the midway of contact surface 85a conductive path 86.

In addition, occlusion part 90 can also have the 3rd conductive part 92.

Set if so, then can more reliably suppress reach contact surface 85a conductive path from the first conductive part 78 There is insulation division 91 in 86 midway.

In addition it is possible to be to be electrically connected the second conductive part 85 and the first conductive part 78 via the 3rd conductive part 92.

Set if so, then need not bypass occlusion part 90 when making the second conductive part 85 and the first conductive part 78 is electrically connected, The simplification of structure can further be realized.

In addition it is possible to be that voltage supply member 77 is formed to profile as housing 3, constituting handle part 1a Handle part side body 60.

Set if so, then can be under common use state to user's U service voltages, therefore improve hair-dryer The ease of use of (hair care devices) 1.

In addition it is possible to be, when holding handle part 1a, voltage supply member 77 is pressed against the first conductive part 78.

Set if so, then can more reliably ensure that voltage when using hair-dryer (hair care devices) 1 is supplied Electrical connection between the conductive part 78 of component 77 and first, so as to more reliably to user's U service voltages.

In addition it is possible to be, hair-dryer (hair care devices) 1 also includes being used to supply charged particle to user U Charged particle supply unit (metal microparticle generating unit 30,40, mist generating unit 50).

Set if so, then further increase hair nursing effect.

In addition it is possible to be, charged particle supply unit, which has, to be used to release the charged particle water containing charged particle The mist generating unit 50 of (mist).

Set if so, then can make more attachment of moisture on hair, further increase hair nursing effect.

The preferred embodiment of the present invention is this concludes the description of, but the present invention is not limited to above-mentioned embodiment, and can Carry out various modifications.

For example, as shown in figure 12, additionally it is possible to apply the present invention to the hair iron 1A as hair care devices.The hair-waving Device 1A at least include charged particle supply unit (metal microparticle generating unit 30,40, mist generating unit 50), voltage supplier 70 and Control unit (not shown), voltage supply plate 77 is formed with handle part 1aA.

In addition, as shown in figure 13, additionally it is possible to apply the present invention to the hair comb 1B as hair care devices.Hair comb 1B At least include charged particle supply unit (metal microparticle generating unit 30,40, mist generating unit 50), voltage supplier 70 and control Portion (not shown), voltage supply plate 77 is formed with handle part 1aB.

In addition, in the above-described embodiment, as ion generating unit exemplified with metal microparticle and anion can be generated Metal microparticle generating unit, but it is also possible to only generate the ion generating unit of anion using metal microparticle is not generated.

In addition, in the ion generating means for generating cation, also can be using the present invention.Generate if so just from Son, then be effective in the case of the hair being used in after wearing the artificial hairs such as wig.Because the artificial hairs such as wig hold It is easily negatively charged, therefore, by supplying cation, it can suppress to produce electrostatic.

In addition, in the above-described embodiment, turning into exposure 77a exemplified with whole contact surface 85a, but it is also possible to make contact Face 85a is formed at an exposure 77a part.For example, it is also possible to be, by printed in a contact surface 85a part decorative pattern, Word etc., so as to form insulation division in an exposure 77a part.

Insulation division 91 is formed in a part for plate 77 in addition it is possible to be supplied in voltage.

In addition it is possible to which conductive occlusion part 90 to be configured to the inner side that plate 77 is supplied in voltage.

In addition, in the respective embodiments described above, exemplified with being formed with two metal microparticle blow-off outlets (ion discharge port) Hair care devices, but the metal microparticle blow-off outlet (ion discharge port) of more than 3 can also be formed.

In addition, in the above-described embodiment, exemplified with blowing out the example of metal microparticle and mist using tributary, but do not having In the case of having tributary, metal microparticle and mist can also blown out from corresponding blow-off outlet.

In addition, the specification (shape, size, layout etc.) of cover, housing and other discreet portions also can be changed suitably.

Using the present invention, the hair shield for suppressing the reduction of aesthetic appearance and further increasing hair nursing effect is resulted in Manage device.

Claims (12)

1. a kind of hair care devices, wherein,

The hair care devices include：

Housing, it constitutes profile；And

Voltage supplier, it is used for supply object service voltage,

The voltage supplier include with the exposure that is externally exposed and be installed on the housing voltage supply member and The first conductive part of the voltage supply member is electrically connected to,

The voltage supply member includes the visible light-transmissive portion with visible light permeability,

The visible light-transmissive portion has the second conductive part for being electrically connected to first conductive part,

Second conductive part has the contact surface for the supply object contact,

The contact surface is at least a portion of the exposure,

Overlapping with the whole exposure there is visible ray impermeability being provided with than exposure position in the inner part Occlusion part.

2. hair care devices according to claim 1, wherein,

The occlusion part is located between first conductive part and the visible light-transmissive portion.

3. hair care devices according to claim 1, wherein,

The occlusion part has insulation division, and second conductive part and first conductive part are electrically connected not via the insulation division Connect.

4. hair care devices according to claim 3, wherein,

The occlusion part is the inwall protruded from the housing.

5. hair care devices according to claim 4, wherein,

The conductive path for reaching the contact surface from first conductive part has the circuitous path for bypassing the inwall.

6. hair care devices according to claim 1, wherein,

The occlusion part has the 3rd conductive part.

7. hair care devices according to claim 6, wherein,

Second conductive part and first conductive part are electrically connected via the 3rd conductive part.

8. hair care devices according to claim 1, wherein,

The housing includes handle part and constitutes the handle part side body of the profile of the handle part, the voltage supply member shape Handle part side body described in Cheng Yu.

9. hair care devices according to claim 8, wherein,

By holding the handle part, so as to press the voltage supply member relative to first conductive part.

10. hair care devices according to claim 1, wherein,

The hair care devices also include being used for the charged particle supply unit that charged particle is supplied to the supply object.

11. hair care devices according to claim 10, wherein,

The charged particle supply unit can release the charged particle water containing the charged particle.

12. hair care devices according to claim 1, wherein,

The hair care devices are hair-dryer, hair iron or hair comb.