CN205180659U - Hair drier - Google Patents

Abstract

The utility model provides a hair drier possesses box (1), fan (6), heater (7) and ion emergence portion (10). Box (1) is formed with sunction inlet (4) and blow -off outlet (5), has cong air flow path (90) of sunction inlet (4) to blow -off outlet (5). Fan (6) dispose in air flow path (90), produce the air current. Heater (7) dispose in air flow path (90), heat the air of air flow path (90) of flowing through. Orientation (L1) the criss -cross mode configuration of ion emergence portion (10) in order to grow limit orientation (L3) and air flow path. Ion emergence portion (10) has at the mask along long limit orientation (L3) and is used for producing ionic discharge electrode (11). Box (1) still have along the orientation with air flow path (L1) intersect, and along ion flow path (91) that the orientation (L3) of the face that is formed with discharge electrode (11) formed.

Description

Hair-dryer

Technical field

The utility model relates to hair-dryer, particularly possesses the hair-dryer of ion generating portion.

Background technology

Be confirmed by the moistening effect or electrostatic inhibition etc. that make contacted with ions hair can obtain hair.In order to obtain this effect, propose the hair-dryer possessing ion generating portion.

Such as in hair-dryer disclosed in Beneficial 6-21506 publication (patent document 1), be built-in with electric motor fan portion and heater portion.Between electric motor fan portion and heater portion, the primary side coil side of transformer is connected to series resonant circuit.Secondary side coil connecting terminals then ion electrode and the ozone electrode of transformer.To output HIGH voltage between ion electrode and between ozone electrode, thus anion and ozone are produced to series resonant circuit energising.

In addition, hair-dryer disclosed in JP 2002-191426 publication (patent document 2), is formed with air flow circuit in the inside of housing.Fan and heater is configured with in this air flow circuit.The air ejiction opening of ejection air is provided with in the end of downstream side of air flow circuit.Be provided with the ion stream different from air flow circuit in the housing, and be provided with the ion generating portion that can produce anion in this ion stream.The ion spraying outlet of ejection anion is provided with in the end of downstream side of ion stream.

Fan heater disclosed in JP 2008-29813 publication (patent document 3), is configured with the fan rotated by driving and heating unit in the air flow circuit from suction inlet to ejiction opening.In addition, in the stream of ion blow-off outlet, the ion generating unit possessing sparking electrode and comparative electrode is being configured with from air flow circuit branch.The cover possessed for the opening making ion pass through is configured with in ion blow-off outlet.Cover also covers the periphery be positioned at than ion blow-off outlet ejiction opening on the front.The teat being located at the back side of cover integratedly contacts with comparative electrode, and above-mentioned comparative electrode is positioned at the side of comparative electrode by covering than ion generating unit.Thus, cover via comparative electrode ground connection.

prior art document,

patent document,

Patent document 1: Beneficial 6-21506 publication,

Patent document 2: JP 2002-191426 publication,

Patent document 3: JP 2008-29813 publication.

Utility model content

the problem that utility model will solve

In order to easily blow operation or the carrying of machine, preferred hair-dryer is small-sized.But, owing to possessing ion generating portion, so there is the possibility of hair-dryer maximization.Like this, in the convenience of user, possess the hair-dryer existing problems of ion generating portion.

The purpose of this utility model is that the hair-dryer being provided for making to possess ion generating portion realizes miniaturized technology.

for the scheme of dealing with problems

The hair-dryer of an aspect of the present utility model, possesses casing, fan, heater and ion generating portion.Casing is formed with suction inlet and blow-off outlet, has the air flow circuit from suction inlet to blow-off outlet.Fan arrangement, in air flow circuit, produces air-flow.Heater configuration is in air flow circuit, and heating flows through the air of air flow circuit.Ion generating portion has long side direction and short side direction, configures in the mode that long side direction and the direction of air flow circuit intersect.Ion generating portion is having the sparking electrode for generation of ion along the mask of long side direction.Casing also has and to intersect along the direction with air flow circuit and the ion stream formed along the direction in the face being formed with sparking electrode.

Length between the wall of the air flow circuit on the above-mentioned direction preferably intersected in the direction of air flow circuit becomes large along with from blow-off outlet near suction inlet.The direction of ion generating portion along air flow circuit in casing is configured between fan and suction inlet.

Preferred casing also has jut.Jut giving prominence to from the wall of air flow circuit along the long side direction of ion generating portion relative to the downstream of ion generating portion at air flow circuit.

Preferred casing also has handle.The direction that handle intersects along the direction with air flow circuit and casing link, and are formed with ion stream.Ion generating portion is configured in handle with crisscross consistent mode with the long side direction of ion generating portion.Handle has the suction inlet of ion stream and the blow-off outlet of ion stream.The suction inlet of ion stream is formed further along the direction ratio electrode intersected from the linking part of casing and handle.The blow-off outlet of ion stream is formed at linking part.

Preferred handle is configured between fan and the blow-off outlet of air flow circuit along the direction of air flow circuit.The area of the suction inlet of ion stream is greater than the area of the blow-off outlet of ion stream.The area of the blow-off outlet of air flow circuit is greater than the area of the blow-off outlet of ion stream.

utility model effect

According to the utility model, the hair-dryer possessing ion generating portion can be made to realize miniaturized.

Accompanying drawing explanation

Fig. 1 is the sectional view of the hair-dryer of embodiment 1 of the present utility model.

Fig. 2 is the rearview of the hair-dryer shown in Fig. 1.

Fig. 3 is the stereoscopic figure of the ion generating portion shown in Fig. 1.

Fig. 4 is the front view of the ion generating portion shown in Fig. 1.

Fig. 5 is the sectional view of the ion generating portion of V-V line along Fig. 4.

Fig. 6 is the figure of the structure roughly representing the ion generating portion shown in fixing Fig. 5.

Fig. 7 roughly represents different from the structure shown in Fig. 6, for the figure of the structure of fixed ion generating unit.

Fig. 8 is the sectional view of the hair-dryer of the variation of embodiment 1 of the present utility model.

Fig. 9 is the sectional view of the hair-dryer of embodiment 2 of the present utility model.

Figure 10 is the sectional view of the hair-dryer of the variation of embodiment 2 of the present utility model.

Figure 11 is the sectional view of the hair-dryer of embodiment 3 of the present utility model.

Figure 12 is the sectional view of the hair-dryer shown in Figure 11.

Figure 13 is the figure of the existing configuration for illustration of ion generating portion.

Figure 14 is the figure of the structure for illustration of the air flow circuit shown in Figure 11 and ion stream.

Figure 15 is the sectional view of the hair-dryer of the variation of embodiment 3 of the present utility model.

Figure 16 is the stereoscopic figure of the nozzle shown in Figure 15.

Figure 17 is the figure of the structure explaining the nozzle shown in Figure 15.

Figure 18 is the figure of the structure for illustration of the ion generating portion with the structure different from the ion generating portion shown in Figure 12 (B).

Figure 19 is the sectional view of the hair-dryer of embodiment 4 of the present utility model.

Figure 20 is the figure of the structure for illustration of the air flow circuit shown in Figure 19 and ion stream.

Figure 21 is the sectional view of the hair-dryer of the variation of embodiment 4 of the present utility model.

Figure 22 is the sectional view of the hair-dryer of embodiment 5 of the present utility model.

Figure 23 is the sectional view of the hair-dryer of the variation of embodiment 5 of the present utility model.

Figure 24 is the stereoscopic figure of the nozzle with the shape different from Figure 15.

Figure 25 is the figure of the structure explaining the nozzle shown in Figure 24.

Detailed description of the invention

Below, reference accompanying drawing is while explain embodiment of the present utility model.In addition, same Reference numeral is enclosed to same in figure or considerable part, do not repeat its explanation.

[embodiment 1]

Fig. 1 is the sectional view of the hair-dryer 100 of embodiment 1 of the present utility model.Fig. 2 is the rearview of the hair-dryer 100 shown in Fig. 1.

See figures.1.and.2, hair-dryer 100 possesses casing 1, fan 6, heater 7 and ion generating portion 10.The shape of casing 1 is such as tubular.Suction inlet 4 is formed in a square end face of casing 1.Blow-off outlet 5 is formed in the opposing party's end face of casing 1.The air flow circuit 90 from suction inlet 4 to blow-off outlet 5 is formed in casing 1.Fan 6, heater 7 and ion generating portion 10 is accommodated with in air flow circuit 90.In addition, be provided with the filter of the suction for preventing foreign matter in suction inlet 4 side of hair-dryer 100, but do not illustrate in order to the simplification of accompanying drawing in fig. 2.

Fan 6 is driven by motor (not shown) and rotates.Fan 6 makes to produce air-flow in air flow circuit 90 thus.Arrow in Fig. 1 represents the direction of air-flow.Heater 7 is configured between fan 6 and blow-off outlet 5.The air-flow that heater 7 heated fan 6 produces.Ion generating portion 10 is configured between suction inlet 4 and fan 6.Ion generating portion 10 produces ion by corona discharge.

In casing 1, the direction L2 intersected along the direction L1 with air flow circuit 90 forms handle 2.Handle 2 is hollow.Power line 2a is installed, for the protection of the lining 2b of power line 2a and change-over switch 8 at handle 2 place.Operate change-over switch 81 by user and carry out the generation of the ON/OFF of Switching power, warm-wind/cold-wind or ion/do not produce.

Fig. 3 is the stereoscopic figure of the ion generating portion 10 shown in Fig. 1.Fig. 4 is the front view of the ion generating portion 10 shown in Fig. 1.Fig. 5 is the sectional view of the ion generating portion 10 of V-V line along Fig. 4.

With reference to Fig. 3 ~ Fig. 5, ion generating portion 10 possesses shell 13 and splicing ear 14.Sparking electrode 11, induction electrode 12, substrate 15 and circuit substrate (not shown) is accommodated with in shell 13.Voltage generation circuit (not shown) is installed in circuit substrate.

Shell 13 is such as roughly rectangular shape, has long side direction L3 and short side direction L4.Via power line 2a to hair-dryer 100 supply of electrical energy.Splicing ear 14 accepts the electric energy be supplied to.Voltage generation circuit generates the voltage for generation of corona discharge.

Sparking electrode 11 is the needle electrodes formed in the face along long side direction L3.Induction electrode 12 is the plate electrodes being provided with through hole.Sparking electrode 11 is configured at substrate 15 with induction electrode 12 in mutually relative mode.To the voltage applying between sparking electrode 11 and induction electrode 12 to be generated by voltage generation circuit.When electric-field intensity between sparking electrode 11 and induction electrode 12 is certain above, generation corona discharge.Ion is produced by this corona discharge.The ion produced is discharged by from release aperture 13a to the outside of ion generating portion 10.

Ion generating portion 10 also can produce the ion of either party polarity.But in the present embodiment, ion generating portion 10 has two pairs of sparking electrodes 11 and induction electrode 12.These two pairs of electrodes (sparking electrode 11 and induction electrode 12) produce cation and anion respectively.Thus, in the present embodiment, ion generating portion 10 produces dipolar ion by roughly isodose.In the present embodiment, two pairs of electrodes configure along long side direction L3.But the configuration of two pairs of electrodes is not limited thereto.Two pairs of electrodes such as also can configure along short side direction L4.In addition, the quantity of electrode is also not particularly limited.

Cation is at hydrogen ion (H ⁺) the cluster ion of the subsidiary multiple hydrone of surrounding.Cation is expressed as H ⁺(H ₂o) _m(m is natural number).Anion is at oxonium ion (O ₂ ^-) the cluster ion of the subsidiary multiple hydrone of surrounding.Anion is expressed as O ₂ ^-(H ₂o) _n(n is natural number).The cation produced by ion generating portion 10 and anion are carried by air flow circuit 90 along with gas flow of ions.The gas flow of ions comprising cation and anion and the air-flow flowing through air flow circuit 90 converge.Thus, the air comprising cation and anion is blown out by from blow-off outlet 5.In addition, " sparking electrode " of the present utility model is not limited to the sparking electrode 11 of above-mentioned needle-like, also can be such as the sparking electrode along face formed on the surface of ion generating portion 10." sparking electrode " of the present utility model also can produce other ion.

Get back to Fig. 1 and Fig. 2, the mode that ion generating portion 10 intersects with long side direction L3 and the direction L1 of air flow circuit near suction inlet 4 is configured in casing 1.Suction inlet 4 is also formed in the downside (being provided with the side of handle 2) of the long side direction L3 of ion generating portion 10.Thus, relative to ion generating portion 10, form ion stream 91 from the one end in the face forming electrode to the other end along long side direction L3.In other words, ion stream 91 is formed along direction L3, and above-mentioned direction L3 and the direction L1 of air flow circuit 90 intersect and along the face forming electrode.

In addition, in FIG, form electrode in the downstream relative to ion generating portion 10 of air flow circuit 90, but the face forming electrode is not limited thereto.Such as electrode also can be formed in the upstream side relative to ion generating portion 10 of air flow circuit 90.Or also can be that electrode is formed in the direction L1 comprising air flow circuit 90 and the face parallel with the face of the direction L2 that the direction L1 of air flow circuit 90 intersects (face parallel with paper).In this case, the position forming ion stream is changed according to the face forming electrode.

Usually hair-dryer makes the area of suction inlet be greater than the area of blow-off outlet in order to the speed (wind speed) improved from the air of blow-off outlet blowout.Length between the wall of the air flow circuit 90 on the direction L2 intersected with the direction L1 of air flow circuit 90 becomes large along with from blow-off outlet 5 near suction inlet 4.Therefore, near suction inlet 4, there is larger space.Thus, be suitable near suction inlet 4 configuring ion generating portion 10 in the mode that long side direction L3 and the direction L1 of air flow circuit 90 intersect.In addition, in fig. 1 and 2, the direction L2 intersected with the direction L1 of air flow circuit 90 is included in paper.But the direction L2 intersected with the direction L1 of air flow circuit 90 is not limited in paper, such as, also can be the direction vertical with paper.

Such configuration ion generating portion 10, can shorten the length of the casing 1 of the direction L1 along air flow circuit 90 thus.That is, hair-dryer can be made on the direction of air flow circuit to realize miniaturized.

Fig. 6 is the figure roughly represented for the ion generating portion 10 shown in Fig. 5 being fixed on the structure of casing 1.Represent that (when being formed with the thickness between the face of release aperture 13a and the face of the side contrary with it and being larger) is for the structure of fixed ion generating unit 10 when ion generating portion 10 is thicker with reference to Fig. 6, Fig. 6 (A).Fig. 6 (B) represents that (when being formed with the thickness between the face of release aperture 13a and the face of the side contrary with it and being less) is for the structure of fixed ion generating unit 10 when ion generating portion 10 is thinner.

With reference to Fig. 2 and Fig. 6 (A), when shell 13 is thicker, ion generating portion 10 is fixed on casing 1 by the fixture 20 of such as L font.The side (being formed with the face of the both sides in the face of release aperture 13a) of shell 13 is fixed in one end of fixture 20 by screw 22.The other end of fixture 20 is fixed on casing 1.

On the other hand, with reference to Fig. 6 (B), when shell 13 is thinner, ion generating portion 10 is such as fixed on casing 1 by flat fixture 21.Fixture 21 is fixed on the back side (face of the side contrary with the face being formed with release aperture 13a) of shell 13 by screw 22.Casing 1 is fixed at the two ends (not shown) of fixture 21.

Or also can by fixture screw fastening in ion generating portion.Fig. 7 roughly represents different from the structure shown in Fig. 6, for the figure of the structure of fixed ion generating unit 10.With reference to the rearview that Fig. 7, Fig. 7 (A) are hair-dryers 100.Fig. 7 (B) represents the structure of the fixture 23 being used for fixed ion generating unit 10.

Fixture 23 has incorporating section 24 and plate-like portion 25.Incorporating section 24 has roughly rectangular shape.The opening surface for embedded ion generating unit 10 is formed in a face of incorporating section 24.Ion generating portion 10 is clipped from both sides by a pair incorporating section 24.Between a pair incorporating section 24, be provided with gap along long side direction L3, flow along release aperture 13a to make air.The face of the side contrary with the opening surface of incorporating section 24 is fixed in one end of plate-like portion 25.Plate-like portion 25 extends to the side contrary with opening surface from this face.The other end of plate-like portion 25 is fixed on casing 1.

Like this, Fig. 6 can be used in or ion generating portion 10 is fixed on casing 1 by structure illustrated in fig. 7.But structure ion generating portion 10 being fixed on casing 1 is not particularly limited in the structure shown in Fig. 6 or Fig. 7.

[variation of embodiment 1]

Fig. 8 is the sectional view of the hair-dryer 101 of the variation of embodiment 1 of the present utility model.With reference to Fig. 8, in hair-dryer 101, be provided with rib (jut) 1a at air flow circuit 90 relative to the downstream of ion generating portion 10.Rib 1a is outstanding along the long side direction L3 of ion generating portion 10 from the wall of air flow circuit 90.

The direction L2 that the air being inhaled into, walking around ion generating portion 10 from suction inlet 4 intersects in the direction with air flow circuit 90 guides to electrode by rib 1a.Thus, more ion enters the air-flow flowing through air flow circuit 90.Thus, according to this variation, compared with embodiment 1, the amount (amount of ions of per unit volume) of the ion blown out from blow-off outlet 5 can be increased.Other structure of hair-dryer 101 is identical with the structure of hair-dryer 100 (with reference to Fig. 1), does not therefore repeat detailed description.

[embodiment 2]

Fig. 9 is the sectional view of the hair-dryer 200 of embodiment 2 of the present utility model.With reference to Fig. 9, handle 2 is configured between fan 6 and suction inlet 4 along the direction L1 of air flow circuit 90 in the present embodiment.

In hair-dryer 200, ion generating portion 10 is configured in handle 2.As mentioned above, the direction L2 that handle 2 intersects along the direction L1 with air flow circuit 90 is formed at casing 1.That is, ion generating portion 10 is configured in handle 2 in the mode that the long side direction L3 of ion generating portion 10 is consistent with the direction L2 intersected.

Be formed in handle 2 suction inlet 914, blow-off outlet 915, from suction inlet 914 to the ion stream 91 of blow-off outlet 915.The direction L2 that suction inlet 914 intersects along the direction L1 with air flow circuit 90 is formed further than the linking part 2c of electrode from casing 1 and handle 2.Blow-off outlet 915 is formed at linking part 2c.Other structure of hair-dryer 200 is identical with the structure of hair-dryer 100 (with reference to Fig. 1), does not therefore repeat detailed description.

According to the present embodiment, compared with embodiment 1, can on the direction of air flow circuit, make casing miniaturized further.In addition, ion generating portion can not stop the air-flow flowing through air flow circuit, therefore can increase the amount (air quantity) of the air be blown from blow-off outlet 5.

[variation of embodiment 2]

Figure 10 is the sectional view of the hair-dryer 201 of the variation of embodiment 2 of the present utility model.With reference to Figure 10, in this variation, handle 2 is configured between fan 6 and blow-off outlet 5 along the direction L1 of air flow circuit 90.Other structure of hair-dryer 201 is identical with the structure of hair-dryer 200 (Fig. 9 reference), does not therefore repeat detailed description.

As shown in Figure 9 when handle 2 configures than fan 6 upstream side, the gas flow of ions in handle 2 is sucked air flow circuit 90 by fan 6.But in Fig. 10, the air-flow be blown from the blow-off outlet 915 of ion stream 91 is converging than fan 6 downstream and air flow circuit 90.In this case, the gas flow of ions in handle 2 is not easily sucked by fan 6.

Therefore in casing 1, rib 1b is provided with.Rib 1b partly blocks the blow-off outlet 915 of ion stream 91.Thus, the area B of the blow-off outlet 915 of ion stream 91 is less than the area A (B < A) of the suction inlet 914 of ion stream 91.The area B of the blow-off outlet 915 of ion stream 91 is less than the area C (B < C) of the blow-off outlet 5 of air flow circuit 90.That is, in ion stream 91 to the stream of the blow-off outlet 5 of air flow circuit 90, " cutoff hole structure " is being realized from suction inlet 914.The part being formed with blow-off outlet 915 of ion stream 91 is " cutoff hole ".

Handle is set to cutoff hole structure, thus than cutoff hole downstream pressure lower than than cutoff hole by the pressure (becoming negative pressure) of upstream side.In the present embodiment, from suction inlet 914 through ion stream 91 on the direction of the stream of blow-off outlet 5, than the pressure of suction inlet 914 downstream lower than the pressure of the upstream side of the suction inlet 914 of ion stream 91.Therefore, the gas flow of ions of pressing the flowing of suction inlet 914-ion stream 91-blow-off outlet 915-blow-off outlet 5 can be produced.Thus, can guide to air flow circuit 90 ion produced by the ion generating portion 10 be arranged in handle 2.

Can each variation of summary as follows embodiment 1,2 of the present utility model and embodiment 1,2.

(1) hair-dryer 100,101,200,201 possesses: casing 1, and it is formed with suction inlet 4 and blow-off outlet 5, has the air flow circuit 90 from suction inlet 4 to blow-off outlet 5; Fan 6, it is configured at air flow circuit 90, produces air-flow; Heater 7, it is configured at air flow circuit 90, and heating flows through the air of air flow circuit 90; And ion generating portion 10, it has long side direction L3 and short side direction L4, configure in the mode that long side direction L3 and the direction L1 of air flow circuit 90 intersect, ion generating portion 10 has the sparking electrode 11 for generation of ion in the face along long side direction L3, casing 1 also has the ion stream 91 formed along direction L3, and above-mentioned direction L3 and the direction L1 of air flow circuit 90 intersect and along the face being formed with electrode.

According to the formation of above-mentioned (1), the hair-dryer possessing ion generating portion can be made to realize miniaturized.

(2) in hair-dryer 100,101, length between the wall of the air flow circuit 90 on the direction L2 that the direction L1 of air flow circuit 90 intersects becomes large along with from blow-off outlet 5 near suction inlet 4, and ion generating portion 10 is configured between fan 6 and suction inlet 4 in casing 1 along the direction L1 of air flow circuit 90.

According to the formation of above-mentioned (2), near suction inlet, there is larger space.Thus, the configuration of ion generating portion becomes easy.

(3) in hair-dryer 101, casing 1 also has rib 1a, and above-mentioned rib 1a is outstanding along the long side direction L3 of ion generating portion 10 from the wall of air flow circuit 90 relative to the downstream of ion generating portion 10 air flow circuit 90.

According to the formation of above-mentioned (3), more ion enters the air-flow in air flow circuit.Thus, the amount of the ion be blown from blow-off outlet can be increased.

(4) in hair-dryer 200,201, casing 1 also has handle 2, the direction L2 that above-mentioned handle 2 intersects along the direction L1 with air flow circuit 90 and casing 1 link, be formed with ion stream 91, ion generating portion 10 is configured in handle 2 in the mode that the long side direction L3 of ion generating portion 10 is consistent with the direction L2 intersected, handle 2 has: the suction inlet 914 of ion stream 91, and it is formed from the linking part 2c of casing 1 with handle 2 along the direction L2 intersected further than sparking electrode 11 and induction electrode 12; And the blow-off outlet 915 of ion stream 91, it is formed at linking part 2c.

According to the formation of above-mentioned (4), casing can be made to realize miniaturized.In addition, ion generating portion can not air-flow in blocks air stream, and therefore air quantity increases.And the position of the center of gravity of hair-dryer becomes near handle, sense of stability during handle is therefore kept to improve.

(5) in hair-dryer 201, handle 2 is configured between the blow-off outlet 5 of fan 6 and air flow circuit 90 along the direction L1 of air flow circuit 90, the area A of the suction inlet 914 of ion stream 91 is greater than the area B of the blow-off outlet 915 of ion stream 91, and the area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B of the blow-off outlet 915 of ion stream 91.

According to the formation of above-mentioned (5), the gas flow of ions of the blow-off outlet flowing of the blow-off outlet-air flow circuit of the suction inlet-ion stream-ion stream pressing ion stream can be produced.

[embodiment 3]

Figure 11 is the sectional view of the hair-dryer 300 of embodiment 3 of the present utility model.With reference to Figure 11, hair-dryer 300 possesses casing 1, fan 6, heater 7 and ion generating portion 30.

The shape of casing 1 is such as tubular.Suction inlet 4 is formed in a square end face of casing 1.Blow-off outlet 5 is formed at the opposing party's end face of casing 1.The air flow circuit 90 from suction inlet 4 to blow-off outlet 5 is formed in casing 1.In addition, in casing 1, form the ion stream 91 from suction inlet 914 to blow-off outlet 915 (with reference to Figure 14).Ion stream 91 and air flow circuit 90 are separated by next door 1c.

Fan 6 and heater 7 is accommodated with in air flow circuit 90.Fan 6 is driven by motor (not shown) and rotates.Thus, fan 6 makes to produce air-flow in air flow circuit 90.Arrow in Figure 11 represents the direction of air-flow.Heater 7 is configured between fan 6 and blow-off outlet 5.The air of the flowing in air flow circuit 90 that heater 7 heated fan 6 produces.

The handle 2 being used for user and keeping hair-dryer 100 is formed in suction inlet 4 side of casing 1.At handle 2 place, change-over switch 81 and power switch 82 are installed.Operate change-over switch 81 by user and switch the generation of warm-wind/cold-wind and ion/do not produce.In addition, the ON/OFF of Switching power is carried out by user's operating power switch 82.

Ion generating portion 30 is accommodated with in ion stream 91.Ion generating portion 30 comprises the sparking electrode 31 of needle-like, the comparative electrode 32 of ring-type, Peltier element 33 and radiator 34.In the present embodiment, ion generating portion 30 produces anion.

Figure 12 is the sectional view of the hair-dryer 300 shown in Figure 11.Figure 12 (A) is the sectional view of the hair-dryer 300 of XIIA-XIIA line along Figure 11.Figure 12 (B) is the sectional view of the hair-dryer 300 of XIIB-XIIB line along Figure 11.

With reference to Figure 12 (A) and Figure 12 (B), sparking electrode 31 configures in mutually relative mode with comparative electrode 32.Peltier element 33 cools sparking electrode 31.Thus, the water in air condenses on sparking electrode 31.When applying the negative voltage generated by voltage generation circuit (not shown) to sparking electrode 11, between sparking electrode 31 and comparative electrode 32, produce electric discharge.When producing this electric discharge, on sparking electrode 31, the water generation Rayleigh of condensation becomes anion (electronegative minuteness particle water) after dividing.

Radiator 34 is arranged in order to the heat of distributing from Peltier element 33.Radiator 34 has heat sink 35 and multiple fin 36.Peltier element 33 is configured with in heat sink 35.Multiple fin 36 is formed in parallel to each other on the direction substantially vertical with heat sink 35.

Radiator 34 is almost parallel and multiple fin 36 according to heat sink 35 relative to the direction L5 (direction vertical with paper in Figure 12 (A)) of ion stream 91 becomes almost parallel direction configuration respectively relative to the direction L5 of ion stream 91.

Figure 13 is the figure of the existing configuration for illustration of ion generating portion 30.With reference to Figure 13, radiator 34 became substantially vertical direction configuration (with reference to patent document 2) according to heat sink 35 relative to the direction L5 of ion stream 91 in the past.Therefore, the air-flow flowing through ion stream 91 generally perpendicularly touches heat sink 35.Thus, the air trapping heated up by the heat that should shed is near heat sink 35.

Get back to Figure 12 (B), according to the present embodiment, the air-flow flowing through ion stream 91 can be suppressed to be hindered by heat sink 35 or fin 36.Therefore, compared with existing configuration (with reference to Figure 13), the heat exchanger effectiveness of radiator 34 improves.That is, even if radiator 34 is realized miniaturization, the heat exchanger effectiveness with existing configuration same degree can also be obtained.Usually, the volume ratio that radiator is shared in ion generating portion is large.Thus, being realized by radiator 34 miniaturized is effective reducing in the area of section (area of section in the direction vertical with the direction L5 of ion stream 91) of ion stream 91.When the area of section of ion stream 91 diminishes, result casing 1 can be realized miniaturization.

In addition, due to the raising of the heat exchanger effectiveness of radiator 34, the cooling effect of Peltier element 33 increases.Thus, on sparking electrode 31, the amount of the water of condensation increases, and therefore can increase the generation of anion.

Figure 14 is the figure of the structure for illustration of the air flow circuit 90 shown in Figure 11 and ion stream 91.With reference to Figure 14, the area A of the suction inlet 914 of ion stream 91 is greater than the area B of the blow-off outlet 915 of ion stream 91 (B < A).In addition, the area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B (B < C) of the blow-off outlet 915 of ion stream 91.That is, in ion stream 91 to the stream of the blow-off outlet 5 of air flow circuit 90, " cutoff hole structure " is being realized from suction inlet 914.The part being formed with blow-off outlet 915 of ion stream 91 is " cutoff hole ".

Casing is set to cutoff hole structure, thus than cutoff hole downstream pressure lower than than cutoff hole by the pressure (becoming negative pressure) of upstream side.In the present embodiment, from suction inlet 914 through ion stream 91 on the direction of the stream of blow-off outlet 5, than the pressure of suction inlet 914 downstream lower than the pressure of the upstream side of the suction inlet 914 of ion stream 91.Therefore, the gas flow of ions of pressing the flowing of suction inlet 914-ion stream 91-blow-off outlet 915-blow-off outlet 5 can be produced.

Usually, user touches the direction feeling to regulate the blow-off outlet of hair-dryer of hair according to the warm braw flowing through air flow circuit.Therefore, consider when the direction of the air-flow flowing through air flow circuit is different with the direction of gas flow of ions, directly the amount of the anion of the hair of touching user diminishes.

According to the present embodiment, the gas flow of ions be blown from the blow-off outlet 915 of ion stream 91 is converged with the air-flow flowing through air flow circuit 90.Therefore, anion is blown out by from blow-off outlet 5 together with flowing through the air-flow of air flow circuit 90.Thus, the amount of the anion directly touching hair can be increased.Consequently, moistening effect or the electrostatic inhibition of hair can be improved.In addition, the speed flowing through the air-flow of air flow circuit 90, significantly higher than the speed of gas flow of ions, therefore can also extend the range of anion.

Filter 51 is provided with in order to prevent user from contacting with heater 7.Filter 51 comprises material that can be charged due to the anion of ion generating portion 30 generation.Filter 51 is such as the grid be made of metal.

When the gas flow of ions comprising anion with flow through the air-flow of air flow circuit 90 when converging by upstream side than filter 51, more anion is attached to filter 51.When anion is attached to filter 51, filter 51 is electronegative.Between the anion that electronegative filter 51 and gas flow of ions comprise, produce electricity repel.Therefore, the anion that comprises of gas flow of ions is not easily through filter 51.Thus, the amount of the anion be blown from blow-off outlet 5 reduces.

According to the present embodiment, the gas flow of ions comprising anion is being converged than filter 51 downstream with the air-flow flowing through air flow circuit 90.Thus, anion is not easily attached to filter 51, therefore suppresses filter 51 charged.Thus, the minimizing of the amount of the anion be blown from blow-off outlet 5 can be suppressed.

[variation of embodiment 3]

Figure 15 is the sectional view of the hair-dryer 301 of the variation of embodiment 3 of the present utility model.Figure 16 is the stereoscopic figure of the nozzle 83 shown in Figure 15.Figure 17 is the figure of the structure explaining the nozzle 83 shown in Figure 16.Figure 17 (A) is the front view of the nozzle 83 shown in Figure 16.Figure 17 (B) is the sectional view of the nozzle 83 of XVIIB-XVIIB line along Figure 17 (A).

With reference to Figure 15 ~ Figure 17, hair-dryer 301 possesses in ion generating portion 30a different from hair-dryer 300 (with reference to Figure 11) possessing in nozzle 83 and replace ion generating portion 30 (with reference to Figure 12).

Nozzle 83 can be installed and removed in casing 1.In fig .15, the state being equipped with nozzle 83 in casing 1 is represented.The cross sectional shape accepting the nozzle 83 between the side of air-flow and the side of blowout air-flow when being assemblied in casing 1 is curve-like.The air-flow and the gas flow of ions that flow through air flow circuit 90 are converged by nozzle 83.In nozzle 83, the area accepting the side of air-flow when being assemblied in casing 1 is comparatively large, and the area of the side of blowout air-flow is less.Therefore, the speed of the air-flow be blown from hair-dryer can be increased by assembling nozzle 83.On the other hand, hair-dryer can be made to realize miniaturization by pulling down nozzle 83.

Figure 18 is the figure of the structure for illustration of the ion generating portion 30a with the structure different from the ion generating portion 30 shown in Figure 12.Comprise in sparking electrode 31a with reference to Figure 18, ion generating portion 30a at replacement sparking electrode 31 and replace comparative electrode 32 and comprise in comparative electrode 32a different from ion generating portion 30 (with reference to Figure 12).

The shape of sparking electrode 31a is L font.The needle point of sparking electrode 31a towards direction consistent with the direction L5 of ion stream 91.The comparative electrode 32a of ring-type configures in the mode of the needle point surrounding sparking electrode 31a.By this configuration, gas flow of ions flows through comparative electrode 32a.Other structure of hair-dryer 301 is identical with the structure of hair-dryer 300 (Figure 11 reference), does not therefore repeat detailed description.

[embodiment 4]

Figure 19 is the sectional view of the hair-dryer 400 of embodiment 4 of the present utility model.Figure 20 is the figure of the structure for illustration of the air flow circuit 90 shown in Figure 19 and ion stream 91.

With reference to Figure 19 and Figure 20, the structure of hair-dryer 400 at the suction inlet 914 of ion stream 91 independent of different with the structure of hair-dryer 300 (reference Figure 11) in suction inlet 4 formation of air flow circuit 90.

In the present embodiment, the area A of the suction inlet 914 of ion stream 91 is greater than the area B (B < A) of the blow-off outlet 915 of ion stream 91.The area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B (B < C) of the blow-off outlet 915 of ion stream 91.That is, in ion stream 91 to the path of the blow-off outlet 5 of air flow circuit 90, " cutoff hole structure " is being realized from suction inlet 914.Thus, the gas flow of ions of pressing the flowing of suction inlet 914-ion stream 91-blow-off outlet 915-blow-off outlet 5 can be produced.Other structure of hair-dryer 400 is identical with the structure of hair-dryer 300, does not therefore repeat detailed description.

[variation of embodiment 4]

Figure 21 is the sectional view of the hair-dryer 401 of the variation of embodiment 4 of the present utility model.With reference to Figure 21, the blow-off outlet 5 of the air flow circuit 90 of hair-dryer 401 is formed by the nozzle 83 can installed and removed in casing 1.By assembling nozzle 83, the speed of the air-flow be blown from hair-dryer can be increased thus.Other structure of hair-dryer 401 is identical with the structure of hair-dryer 400 (with reference to Figure 19), does not therefore repeat detailed description.

[embodiment 5]

Figure 22 is the sectional view of the hair-dryer 500 of embodiment 5 of the present utility model.With reference to Figure 22, the structure of hair-dryer 500 is different with the structure of hair-dryer 300 (reference Figure 11) in formation from suction inlet 4 branch of air flow circuit 90 at the suction inlet 914 of ion stream 91.

In the present embodiment, be also the area B (B < A) that the area A of suction inlet 914 of ion stream 91 is greater than the blow-off outlet 915 of ion stream 91.The area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B (B < C) of the blow-off outlet 915 of ion stream 91.That is, in ion stream 91 to the path of the blow-off outlet 5 of air flow circuit 90, " cutoff hole structure " is being realized from suction inlet 914.Thus, the gas flow of ions of pressing the flowing of suction inlet 914-ion stream 91-blow-off outlet 915-blow-off outlet 5 can be produced.Other structure of hair-dryer 500 is identical with the structure of hair-dryer 300 (with reference to Figure 11), does not therefore repeat detailed description.

[variation of embodiment 5]

Figure 23 is the sectional view of the hair-dryer of the variation of embodiment 5 of the present utility model.With reference to Figure 23, the blow-off outlet 5 of the air flow circuit 90 of hair-dryer 501 is formed by the nozzle 83 can installed and removed in casing 1.Assembling nozzle 83, can increase the speed of the air-flow be blown from hair-dryer thus.Other structure of hair-dryer 501 is identical with the structure of hair-dryer 500 (with reference to Figure 22), does not therefore repeat detailed description.

Figure 24 is the stereoscopic figure of the nozzle with the shape different from Figure 15.Figure 25 is the figure of the structure explaining the nozzle 84 shown in Figure 24.Figure 25 (A) is the front view of the nozzle 84 shown in Figure 24.Figure 25 (B) is the sectional view of the nozzle 84 of XXVB-XXVB line along Figure 25 (A).

With reference to Figure 24 and Figure 25, the structure cross sectional shape accepted when being assemblied in casing 1 between the side of air-flow and the side of blowout air-flow of nozzle 84 is different from the structure (with reference to Figure 16 and Figure 17) of nozzle 83 in linearity.Other structure of nozzle 84 is identical with the structure of nozzle 83, does not therefore repeat detailed description.Hair-dryer 301,401,501 (with reference to Figure 15, Figure 21 and Figure 23) also can replace nozzle 83 and possess nozzle 84.

Can each variation of summary as follows embodiment 3 ~ 5 of the present utility model and embodiment 3 ~ 5.

(1) hair-dryer 300,301,400,401,500,501 possesses: casing 1, and it is formed with suction inlet 4 and blow-off outlet 5, has the air flow circuit 90 from suction inlet 4 to blow-off outlet 5 and the ion stream 91 different from air flow circuit 90; Fan 6, it is configured at air flow circuit 90, produces air-flow; Heater 7, it is configured at air flow circuit 90, and heating flows through the air of air flow circuit 90; And ion generating portion 30,30a, it is configured at ion stream 91, and produce anion, ion generating portion 30,30a comprise: produce the sparking electrode 31 of anion, 31a and comparative electrode 32,32a; Peltier element 33, it cools sparking electrode 31,31a; And radiator 34, it distributes the heat from Peltier element 33, radiator 34 has the heat sink 35 being configured with Peltier element 33 and the multiple fin 36 formed in parallel to each other on the direction substantially vertical with heat sink 35, and radiator 34 is almost parallel and multiple fin 36 according to heat sink 35 relative to the direction L5 of ion stream 91 becomes almost parallel direction configuration respectively relative to the direction L5 of ion stream 91.

According to the formation of above-mentioned (1), can the hair-dryer possessing ion generating portion be realized miniaturized.

(2) in hair-dryer 300,301,400,401,500,501, between heater 7 and blow-off outlet 5, also possess the filter 51 comprising electrifiable material, ion stream 91 is formed in the mode that direction is being converged by blow-off outlet 5 side and air flow circuit 90 than filter 51 of the air be blown from ion stream 91 along air flow circuit 90.

According to the formation of above-mentioned (2), anion is blown out by from blow-off outlet 5 together with flowing through the air-flow of air flow circuit 90.Thus, make anion touch hair even if user does not give special heed to, the amount directly touching the anion of hair is also larger.As its result, moistening effect or the electrostatic inhibition of hair can be improved.In addition, the range of anion can be extended.And anion is not easily attached to filter 51, therefore suppress filter 51 charged.Thus, the minimizing of the amount of the anion be blown from blow-off outlet 5 can be suppressed.

(3) in hair-dryer 301,401,501, the blow-off outlet 5 of air flow circuit 90 is formed by the nozzle 83,84 can installed and removed in casing 1.

According to the formation of above-mentioned (3), increase the speed of the air-flow be blown from hair-dryer by assembling nozzle.On the other hand, miniaturized to make hair-dryer realize by pulling down nozzle.

(4) at hair-dryer 400, in 401, the suction inlet 914 of ion stream 91 is arranged independent of air flow circuit 90, the area A of the suction inlet 914 of ion stream 91 is greater than the area B of the blow-off outlet 915 of ion stream 91, and the area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B of the blow-off outlet 915 of ion stream 91.

According to the formation of above-mentioned (4), the gas flow of ions of the blow-off outlet flowing of the blow-off outlet-air flow circuit of the suction inlet-ion stream-ion stream pressing ion stream can be produced.

(5) in hair-dryer 300,301,500,501, ion stream 91 is formed from air flow circuit 90 branch, the area A of the suction inlet 914 of ion stream 91 is greater than the area B of the blow-off outlet 915 of ion stream 91, and the area C of the blow-off outlet 5 of air flow circuit 90 is greater than the area B of the blow-off outlet 915 of ion stream 91.

According to the formation of above-mentioned (5), the gas flow of ions of the blow-off outlet flowing of the blow-off outlet-air flow circuit of the suction inlet-ion stream-ion stream pressing ion stream can be produced.

Should consider that this time disclosed embodiment is illustrate but not restricted contents in whole.Scope of the present utility model is not by above-mentioned explanation but is illustrated by wanted resist technology scheme, is intended to comprise all changes in the implication and scope that are equal to wanted resist technology scheme.

description of reference numerals

100,101,200,201,300,301,400,401,500,501 hair-dryers; 1 casing; 1a, 1b rib; 1c next door; 2 handles; 2a power line; 2b lining; 2c linking part; 4,914 suction inlets; 5,915 blow-off outlets; 51 filters; 6 fans; 7 heaters; 81 power switches; 8,82 change-over switches; 83,84 nozzles; 90 air flow circuits; 91 ion streams; 10,30,30a ion generating portion; 11,31,31a sparking electrode; 12 induction electrodes; 32,32a comparative electrode; 33 Peltier elements; 34 radiators; 35 heat sinks; 36 fin; 13 shells; 13a release aperture; 14 splicing ears; 15,71 substrates; 20,21,23 fixtures; 22 screws; 24 incorporating sections; 25 plate-like portions.

Claims (5)

1. a hair-dryer, is characterized in that, possesses:

Casing, it is formed with suction inlet and blow-off outlet, has the air flow circuit from above-mentioned suction inlet to above-mentioned blow-off outlet;

Fan, it is configured at above-mentioned air flow circuit, produces air-flow;

Heater, it is configured at above-mentioned air flow circuit, and heating flows through the air of above-mentioned air flow circuit; And

Ion generating portion, it has long side direction and short side direction, configures in the mode that above-mentioned long side direction and the direction of above-mentioned air flow circuit intersect,

Above-mentioned ion generating portion is having the sparking electrode for generation of ion along the mask of above-mentioned long side direction,

Above-mentioned casing also has and to intersect along the direction with above-mentioned air flow circuit and the ion stream formed along the direction in the face being formed with above-mentioned sparking electrode.

2. hair-dryer according to claim 1, is characterized in that,

Length between the wall of the above-mentioned air flow circuit in the above-mentioned direction of the direction of above-mentioned air flow circuit intersection becomes large along with from above-mentioned blow-off outlet near above-mentioned suction inlet,

Above-mentioned ion generating portion is configured between said fans and above-mentioned suction inlet along the direction of above-mentioned air flow circuit in above-mentioned casing.

3. hair-dryer according to claim 2, is characterized in that,

Above-mentioned casing also has jut, above-mentioned jut giving prominence to from the above-mentioned wall of above-mentioned air flow circuit along the above-mentioned long side direction of above-mentioned ion generating portion relative to the downstream of above-mentioned ion generating portion at above-mentioned air flow circuit.

4. hair-dryer according to claim 1, is characterized in that,

Above-mentioned casing,

Also have handle, the direction that above-mentioned handle intersects along the direction with above-mentioned air flow circuit and above-mentioned casing link, and form above-mentioned ion stream,

Above-mentioned ion generating portion is configured in above-mentioned handle in the mode that the above-mentioned long side direction of above-mentioned ion generating portion is consistent with the above-mentioned direction intersected,

Above-mentioned handle,

Have: the suction inlet of above-mentioned ion stream, the above-mentioned sparking electrode of its direction ratio along above-mentioned intersection is formed further from the linking part of above-mentioned casing and above-mentioned handle; And

The blow-off outlet of above-mentioned ion stream, it is formed at above-mentioned linking part.

5. hair-dryer according to claim 4, is characterized in that,

Above-mentioned handle is configured between said fans and the above-mentioned blow-off outlet of above-mentioned air flow circuit along the direction of above-mentioned air flow circuit,

The area of the above-mentioned suction inlet of above-mentioned ion stream is greater than the area of the above-mentioned blow-off outlet of above-mentioned ion stream,

The area of the blow-off outlet of above-mentioned air flow circuit is greater than the area of the above-mentioned blow-off outlet of above-mentioned ion stream.