WO2020066499A1 - ドライヤー - Google Patents

ドライヤー Download PDF

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Publication number
WO2020066499A1
WO2020066499A1 PCT/JP2019/034667 JP2019034667W WO2020066499A1 WO 2020066499 A1 WO2020066499 A1 WO 2020066499A1 JP 2019034667 W JP2019034667 W JP 2019034667W WO 2020066499 A1 WO2020066499 A1 WO 2020066499A1
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WO
WIPO (PCT)
Prior art keywords
air
functional component
ring
air passage
passage
Prior art date
Application number
PCT/JP2019/034667
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
泰秀 友寄
浩志 小原
Original Assignee
マクセルホールディングス株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by マクセルホールディングス株式会社 filed Critical マクセルホールディングス株式会社
Publication of WO2020066499A1 publication Critical patent/WO2020066499A1/ja

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    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D20/00Hair drying devices; Accessories therefor
    • A45D20/04Hot-air producers
    • A45D20/08Hot-air producers heated electrically
    • A45D20/10Hand-held drying devices, e.g. air douches
    • A45D20/12Details thereof or accessories therefor, e.g. nozzles, stands
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B21/00Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B3/00Drying solid materials or objects by processes involving the application of heat
    • F26B3/28Drying solid materials or objects by processes involving the application of heat by radiation, e.g. from the sun
    • F26B3/30Drying solid materials or objects by processes involving the application of heat by radiation, e.g. from the sun from infrared-emitting elements

Definitions

  • the present invention relates to a dryer that feeds a functional component on a drying wind toward a drying target.
  • an air passage is formed between an inlet and an outlet provided in a main body case.
  • the air passage includes a first air passage formed between the inlet and the first outlet, and a second air passage formed between the inlet and the second outlet.
  • the first air passage and the second air passage are defined by a partition wall, and most of the dry air generated by the fan arranged on the upstream side of the air passage is more than the second air passage. Air is blown out from the first outlet through a first air passage having a large air passage cross-sectional area.
  • a mist generator In the second air passage, a mist generator, a cosmetic ingredient storage member, and the like are arranged. Dry air blown out from the second outlet through the second air passage includes a mist generated by the mist generator and a combination of a cosmetic component (functional component) stored in the cosmetic component storage member.
  • the conjugate is sent to the hair or scalp (to be dried) in a dry air.
  • the second air passage has a smaller flow passage cross section than the first air passage, and furthermore, the mist generator, the cosmetic component accommodating member, and the like are arranged, so that the ventilation resistance is lower than that of the first air passage. Therefore, even if the same flow velocity is supplied to both air passages, the flow velocity of the dry air blown out of the second outlet is the same as that of the dry air blown out of the first outlet. Is smaller than the flow velocity. Therefore, the drying wind containing the conjugate of the mist and the beauty component blown out from the second air passage is easily dispersed in the middle due to its weak momentum, and the conjugate is applied to the hair or scalp to be dried. It may not be possible to send it accurately.
  • An object of the present invention is to provide a dryer capable of accurately feeding a functional component having, for example, a beauty function to a drying target by placing the component on a drying wind blown from an outlet.
  • the dryer of the present invention includes a main body case 1 having a hollow cylindrical air guide path 9, a suction port 10 provided at one end of the air guide path 9, and an air outlet 11 provided at the other end of the air guide path 9, A blower fan 3 is provided in the air guide passage 9 and generates dry air from the inlet 10 to the outlet 11. Further, a functional component emitting body 80 made of a continuous-porous porous material impregnated and held with a functional liquid containing a functional component is provided in the air guide passage 9.
  • the wind guide path 9 is provided with a speed-increasing air path 85, which is a region configured to have a higher air flow velocity than the other air path areas in the wind guide path 9.
  • a functional component emitting body 80 is provided.
  • the air passage structure 4 is disposed in the air guide passage 9 in a state separated from the inner surface of the main body case 1, and the annular air passage 35 is formed by the air passage structure 4 and the main body case 1.
  • a functional component emitting body 80 is disposed in the annular air passage 35.
  • annular air path as used herein is a concept including an annular shape and a polygonal shape.
  • the air passage structure 4 is disposed in the air guide passage 9 downstream of the blower fan 3, and the air passage structure 4 is constituted by a heat application structure 4A that applies heat to a drying target.
  • a speed-increasing air passage 85 is formed by arranging the air passage structure 4 in the air guide passage 9, and the speed increasing structure 4 reduces the air passage cross-sectional area of the air passage 9. Structure 4B.
  • a speed-increasing structure 4B is provided in the air guide path 9 downstream of the blower fan 3, and the speed-increasing structure 4B becomes narrower in inner peripheral surface shape from the upstream side to the downstream side of the air guide path 9.
  • the speed increasing ring 115 is formed in a ring shape.
  • a speed-increasing structure 4B is provided in the air guide passage 9 upstream of the blower fan 3 in a state adjacent to the fan 3, and the speed-increasing structure 4B is provided from the upstream side to the downstream side of the air guide passage 9.
  • the speed increasing ring 115 is formed in a ring shape in which the shape of the inner peripheral surface narrows as it goes.
  • the speed increasing ring 115 is composed of the functional component emitting body 80.
  • An annular air passage 35 having an annular air tunnel shape is formed by the heat applying structure 4A and the main body case 1, and a ring-shaped functional component emitting body 80 is provided in the annular air passage 35.
  • the “ring shape” here is a concept including a continuous or intermittent ring shape.
  • the ⁇ ring-shaped functional component emitting body 80 is formed with a ventilation portion 84 that allows the passage of dry air from the upstream side to the downstream side of the annular air passage 35.
  • the functional component emitter 80 includes a ring portion 82 and a radiating wall 83 projecting outward and / or inward from the ring portion 82, and a region surrounded by the ring portion 82 and the radiating wall 83 is formed.
  • the ventilation section 84 is used.
  • the functional component emitting body 80 is formed in a circular ring shape having a constant thickness, and the ventilation portion 84 is formed so as to penetrate the functional component emitting body 80 and has an inner diameter dimension on the upstream side of the air guide passage 9. However, it has at least one constricted ventilation hole 125 that is larger than the inner diameter of the downstream side of the air guide passage 9.
  • the functional component emitting body 80 is formed in an intermittent ring shape composed of a plurality of split ring bodies 128, and the ventilation portion 84 is formed between the adjacent split ring bodies 128 and upstream of the air guide passage 9.
  • the area of the inlet opening on the side is formed by a tapered ventilation slit 129 which is larger than the area of the outlet opening on the downstream side of the air guide passage 9.
  • the functional component emitting body 80 is formed in a cylindrical shape in which the thickness on the upstream side of the air guide path 9 is smaller than the thickness on the downstream side of the air guide path 9, and the inner peripheral surface and / or the outer peripheral surface thereof is tapered.
  • the ventilation portion 84 is a constricted narrow air passage 132 formed in a circular shape between the functional component emitting body 80 and the air passage structure 4 and / or the main body case 1. Constitute.
  • the heat imparting structure 4A includes a light emitting body 28 that emits light including infrared rays, and a reflector 29 that reflects the light emitted by the light emitting body 28 toward the outlet 11 side.
  • a light emitting body 28 that emits light including infrared rays
  • a reflector 29 that reflects the light emitted by the light emitting body 28 toward the outlet 11 side.
  • an orifice-shaped expanding recess 37 c formed in an inner recess is provided to increase the surface area of the outer surface of the reflector 29.
  • the functional component emitting body 80 is disposed so as to face the expanding recess 37c.
  • the heat imparting structure 4A includes a heater 136 made of a heating wire, a plurality of heater support plates 137 that spirally support the heater 136, and a cylinder that is disposed inside the heater 136 and is fixed to the outer surface of the heater support plate 137.
  • the annular air passage 35 is formed by the support case 138 and the main body case 1.
  • the functional component emitting body 80 is disposed in the annular air passage 35 downstream of the heater 136.
  • the heat imparting structure 4A includes a light emitter 28 that emits light including infrared rays, and a reflector 29 that reflects the light emitted by the light emitter 28 toward the outlet 11 side.
  • the luminous body 28 and / or the reflector 29 are supported by a functional component emitting body 80 provided in the annular air passage 35.
  • the blower fan 3 is driven to rotate by the fan motor 2, and the fan motor 2 is supported by a functional component emitting body 80 provided in the annular air passage 35.
  • a pair of ends of a hollow cylindrical air guide path 9 included in the main body case 1 are configured as an inlet 10 and an outlet 11, respectively, and the air is blown into the air guide path 9 from the inlet 10. Since the blower fan 3 for generating the drying air toward the outlet 11 is provided, all of the air sucked from the suction port 10 is blown out from the outlet 11, so that the drying air is dried as one convergent flow that is difficult to disperse. Can be sent to the subject.
  • the functional component emitting body 80 made of a continuous pore type porous body in which the functional liquid containing the functional component (hereinafter, simply referred to as “functional liquid”) is impregnated and held in the air guide passage 9.
  • the functional liquid vaporized by exposing the emitter 80 to the drying air can be included in the drying air that is difficult to disperse. Therefore, the functional component (vaporized functional liquid) can be accurately fed to the object to be dried by being put on the drying air blown out from the outlet 11.
  • the wind guide path 9 is provided with a speed-increasing air path 85 which is an area configured to have a higher air path flow velocity than the other air path areas in the air guide path 9.
  • Discharge body 80 was provided. As described above, when the functional component emitting body 80 is disposed in the speed-increasing air passage 85, the functional component emitting body 80 is exposed to the drying wind having a high flow velocity, and the functional liquid impregnated in the discharging body 80 is efficiently vaporized. Thus, the functional component can be sufficiently released to the drying wind.
  • the air passage internal structure 4 is disposed in the air guide passage 9 while being separated from the inner surface of the main body case 1, and the annular air passage 35 is formed by the air internal structure 4 and the main body case 1.
  • the functional component emitting body 80 was disposed in the annular air passage 35. According to this, since the cross-sectional area of the annular air passage 35 is smaller than that of the other air guide passage 9 by the amount of the structure 4 in the air passage, the air flow velocity of the annular air passage 35 It can be made larger than the other air path areas in the path 9, and the annular air path 35 can function as the speed-up air path 85.
  • the flow of the drying air in the annular air passage 35 is high, and the functional component emitting body 80 is exposed to the high-speed drying air, so that the functional liquid impregnated in the emitting body 80 can be efficiently vaporized.
  • the structure 4 in the air passage which is constituted by a heat applying structure 4A for applying heat to the object to be dried, is disposed in the air guide passage 9 downstream of the blower fan 3.
  • the functional component emitter 80 can be heated by the heat radiated from the heat imparting structure 4A, and the functional liquid impregnated in the emitter 80 can be more efficiently vaporized.
  • the heat applying structure 4A indispensable to the dryer also serves as a member constituting the annular air passage 35 functioning as the speed-up air passage 85, the structure of the dryer can be simplified.
  • the speed-increasing air passage 85 is formed by arranging the air passage structure 4 in the air guide passage 9, and the speed increasing structure 4 ⁇ / b> B that reduces the cross-sectional area of the air passage 9 in the air passage structure 4. It consisted of. According to this, since the speed-up air passage 85 is formed by the speed-increasing structure 4B made of a dedicated member for increasing the drying wind by reducing the air passage cross-sectional area of the air guide passage 9, the drying of the speed-up air passage 85 The wind can be appropriately set to, for example, a flow rate at which the functional liquid impregnated in the functional component emitting body 80 evaporates most efficiently. Further, since the speed-increasing air passage 85 can be formed only by disposing the speed-increasing structure 4B in the air guide passage 9, the structure of the dryer can be simplified.
  • a speed increasing structure 4B is provided in the air guide passage 9 downstream of the blower fan 3, and the speed increasing structure 4B is formed into a ring shape in which the inner peripheral surface shape becomes narrower from the upstream side to the downstream side of the air guide passage 9.
  • the speed increasing ring 115 was formed. According to the speed increasing structure 4B, the speed of the drying air passing through the inside of the speed increasing ring 115 can be increased with a simple configuration and with a reduced pressure loss.
  • a speed increasing structure 4B is provided in the air guide passage 9 upstream of the blower fan 3 in a state adjacent to the fan 3 and the speed increasing structure 4B moves from the upstream side to the downstream side of the air guide passage 9 toward the downstream side.
  • the speed increasing ring 115 was formed in a ring shape having a narrowed peripheral surface. According to the speed increasing structure 4B, after the air sucked into the air guide passage 9 from the suction port 10 is rectified and accelerated, the air can be sent under pressure by the blowing fan 3. Thereby, the flow velocity of the drying air generated by the blower fan 3 can be improved as compared with the case where the speed increasing ring 115 is not provided, and the straightness of the drying air blown out from the outlet 11 can be improved. Further, noise generated at the time of pressurized feeding by the blower fan 3 can be reduced.
  • the speed increasing ring 115 When the speed increasing ring 115 is constituted by the functional component emitting body 80, the functional component emitting body 80 can be easily provided in the speed increasing air passage 85. Further, since the speed increasing ring 115 also functions as the functional component emitting body 80, the internal structure of the air guide path 9 can be simplified, so that the overall cost of the dryer can be reduced.
  • An annular air passage 35 having an annular air tunnel shape is formed by the heat applying structure 4A and the main body case 1, and a ring-shaped functional component emitting body 80 is provided in the annular air passage 35.
  • the surface area of the ring-shaped functional component emitter 80 can be larger than that of a columnar functional component emitter having the same volume.
  • the chance of contact between the functional component emitting body 80 and the drying air flowing through the annular air passage 35 can be increased. In this way, the functional component can be accurately released.
  • the ventilation portion 84 that allows the passage of the drying air flowing from the upstream side to the downstream side of the annular air passage 35 is formed in the ring-shaped functional component emitting body 80, the functional component emitting body 80 and the drying air flowing through the annular air passage 35 are formed. Can be further increased, and a sufficient amount of functional components can be released with respect to dry air.
  • the functional component emitting body 80 includes a ring portion 82 and a radiation wall 83 projecting outward and / or inward from the ring portion 82, and the ventilation portion 84 is surrounded by the ring portion 82 and the radiation wall 83. It was formed in a state. According to the ventilation section 84, the surface area of the functional component emitter 80 can be increased with a simple configuration, and the chance of contact between the functional component emitter 80 and the dry air can be further increased.
  • the functional component emitting body 80 is formed in a circular ring shape having a constant thickness, and the ventilation portion 84 is formed so as to penetrate the functional component emitting body 80 and has an inner diameter dimension on the upstream side of the air guide path 9, At least one ventilation hole 125 larger than the inner diameter of the downstream side of the air guide path 9 was formed.
  • the ventilation section 84 including the constricted ventilation holes 125 the air flow velocity on the outlet side of the ventilation section 84 can be made larger than that on the entrance side, and the exit side portion of the ventilation section 84 in the functional component emitting body 80 can be increased.
  • the functional liquid can be more efficiently vaporized.
  • the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • the functional component emitting body 80 is formed in an intermittent ring shape constituted by a plurality of split ring bodies 128, and the ventilation section 84 is formed between the adjacent split ring bodies 128 on the upstream side of the air guide path 9.
  • the area of the inlet opening was larger than the area of the outlet opening on the downstream side of the air guide passage 9, and was constituted by a tapered ventilation slit 129.
  • the ventilation portion 84 including the tapered ventilation slit 129 the air flow velocity at the outlet side of the ventilation portion 84 can be larger than that at the entrance side, and the outlet of the ventilation portion 84 in the functional component emitting body 80 can be formed at the exit side.
  • the functional liquid can be more efficiently vaporized.
  • the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • the functional component emitting body 80 is formed such that the thickness of the upstream side of the air guide path 9 is smaller than the thickness of the downstream side of the air guide path 9, and the inner peripheral surface and / or the outer peripheral surface thereof are formed.
  • the ventilation portion 84 is formed as a tapered surface, and has a constricted narrow air passage 132 formed in a circular shape between the functional component emitting body 80 and the internal structure 4 and / or the main body case 1. .
  • the ventilation part 84 including the constricted narrow ventilation path 132 the air flow velocity on the outlet side of the ventilation part 84 can be larger than that on the inlet side, and the ventilation part 84 of the functional component emitting body 80 At the outlet side portion, the functional liquid can be more efficiently vaporized. Further, since the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • the heat imparting structure 4A includes a light emitting body 28 that emits light including infrared rays, and a reflector 29 that reflects the light emitted by the light emitting body 28 toward the outlet 11 side.
  • a light emitting body 28 that emits light including infrared rays
  • a reflector 29 that reflects the light emitted by the light emitting body 28 toward the outlet 11 side.
  • an annular air passage 35 having an annular wind tunnel shape narrowing from the upstream side to the downstream side of the air guide passage 9 was formed.
  • the functional component emitting body 80 can be heated by the heat radiated outward from the reflector 29 heated by the light emitting body 28 to promote the vaporization of the functional liquid. Can be released.
  • the speed of the dry air can be increased while simplifying the structure in the air guide passage 9. it can.
  • an inwardly extending orbit-shaped expanding recess 37 c which enlarges the surface area of the outer surface of the reflector 29, and expands the functional component emitting body 80. It was arranged facing the stacking recess 37c. According to this, it is possible to alleviate the unnecessarily small cross-sectional area of the air passage at the disposition position of the functional component emitting body 80 by the expansion recess 37c, and to avoid an increase in the ventilation resistance due to the functional component emitting body 80. Thus, it is possible to prevent the momentum of the drying air blown out from the outlet 11 from decreasing. Further, since more heat is radiated from the outer surface of the reflector 29 enlarged by the expanding recess 37c, the functional component emitting body 80 can be effectively warmed, and the vaporization of the functional liquid can be further promoted.
  • the air passage structure 4 includes a heat applying structure 4A.
  • the heat applying structure 4A includes a heater 136 composed of a heating wire, a plurality of heater support plates 137 that spirally support the heater 136, and an inner side of the heater 136. And a cylindrical support case 138 on which the heater support plate 137 is supported on the outer surface.
  • the annular air passage 35 is formed by the support case 138 and the main body case 1. According to this, the annular air passage 35 can be formed between the outer surface of the support case 138 and the inner surface of the main body case 1 by utilizing the structure of the support case 138 and the main body case 1. The structure can be simplified.
  • the functional component emitting body 80 When the functional component emitting body 80 is disposed in the annular air passage 35 downstream of the heater 136, the functional component emitting body 80 is warmed by the dry air heated by the heater 136, thereby effectively promoting the vaporization of the functional liquid. it can.
  • the air passage structure 4 includes a heat applying structure 4A.
  • the heat applying structure 4A reflects the light emitted from the light emitting body 28 toward the air outlet 11 side.
  • the light emitting body 28 and / or the reflector 29 are supported by the functional component emitting body 80 provided in the annular air passage 35. According to this, a special support structure for supporting the light emitting body 28 and the reflector 29 in the air guide path 9 can be omitted, and the structure in the air guide path 9 can be simplified.
  • the fan motor 2 that rotationally drives the blower fan 3 was supported by a functional component emitting body 80 provided in the annular air passage 35. According to this, a dedicated support structure for supporting the fan motor 2 in the air guide path 9 is omitted, and the structure in the air guide path 9 can be further simplified.
  • FIG. 2 is a schematic view illustrating a main part of the dryer according to the first embodiment of the present invention.
  • FIG. 2 is a vertical sectional side view of the dryer according to the first embodiment.
  • FIG. 3 is a vertical sectional side view showing an air guide path structure of the dryer according to the first embodiment.
  • FIG. 2 is a cross-sectional plan view illustrating an air guide path structure of the dryer according to the first embodiment.
  • FIG. 2 is an exploded side view illustrating a case structure of the dryer according to the first embodiment.
  • FIG. 2 is an exploded perspective view illustrating a case structure of the dryer according to the first embodiment.
  • FIG. 2 is an exploded perspective view illustrating a reflector of the dryer according to the first embodiment.
  • FIG. 1 is a schematic view illustrating a main part of the dryer according to the first embodiment of the present invention.
  • FIG. 2 is a vertical sectional side view of the dryer according to the first embodiment.
  • FIG. 3 is a vertical sectional side view showing an air guide path
  • FIG. 2 is an exploded cross-sectional view illustrating a light emitting structure of the dryer according to the first embodiment.
  • FIG. 4 is a sectional view taken along line AA in FIG. 3.
  • FIG. 4 is a sectional view taken along line CC in FIG. 3.
  • FIG. 4 is a sectional view taken along line BB in FIG. 3.
  • FIG. 3 is a vertical sectional side view showing a speed increasing air path of the dryer according to the first embodiment. It is the schematic which shows the air duct structure of the dryer which concerns on Example 2 of this invention.
  • FIG. 14 is a sectional view taken along line DD in FIG. 13. It is the schematic which shows the air duct structure of the dryer which concerns on Example 3 of this invention.
  • FIG. 16 is a sectional view taken along line EE in FIG. 15.
  • FIG. 18 is a sectional view taken along line FF in FIG. 17. It is the schematic which shows the air duct structure of the dryer which concerns on Example 5 of this invention.
  • FIG. 20 is a sectional view taken along line GG in FIG. 19. It is the schematic which shows the air duct structure of the dryer which concerns on Example 6 of this invention. It is the schematic which shows the air duct structure of the dryer which concerns on Example 7 of this invention. It is the schematic which shows the air duct structure of the dryer which concerns on Example 8 of this invention. It is the schematic which shows the air duct structure of the dryer which concerns on Example 9 of this invention.
  • FIG. 26 is a sectional view taken along line HH in FIG. 25. It is a vertical front view which shows the air duct structure of the dryer which concerns on Example 11 of this invention.
  • FIG. 28 is a sectional view taken along line II in FIG. 27. It is the schematic which shows the air duct structure of the dryer which concerns on Example 12 of this invention. It is the schematic which shows the air duct structure of the dryer which concerns on Example 13 of this invention.
  • FIGS. 1 to 12 show Embodiment 1 in which the dryer according to the present invention is applied to a hair dryer.
  • the front, rear, left, right, and up and down in this embodiment follow the cross arrows shown in FIGS. 2 and 6 and the front, rear, left, right, and up and down displayed near each arrow. 2 and 3,
  • the hair dryer accommodates an axial-flow-type blower fan 3 that is driven to rotate by a fan motor 2 and a structure 4 in an air passage inside a hollow cylindrical main body case 1 that is long in the front and rear directions. It is composed.
  • the structure 4 in the air passage is composed of a heat source unit (heat applying structure) 4A for applying heat to hair and scalp (to be dried).
  • the main body case 1 includes a wind guide tube 7 formed by joining a pair of left and right split halves 7a and 7b, and an outer tube 8 into which the wind guide tube 7 is fitted.
  • the inner surface of the air guide tube 7 is tapered to form a wind guide path 9 for the dry air generated by the blower fan 3, and an air inlet 10 is provided at the rear end of the wind guide path 9.
  • the air outlet 11 is provided at the front end. The air outlet 11 is surrounded by the air outlet case 5 and the auxiliary air outlet case 6, and the integrated two cases 5, 6 are engaged with the front outer surface of the wind guide cylinder 7 in a bayonet manner.
  • the inside of the air guide tube 7 is the air guide passage 9, but when the air guide tube 7 is not provided, the inside of the exterior tube 8 is the air guide passage 9. .
  • a mica or metal cylinder for heat insulation may be provided on the inner surface of the wind guide cylinder 7 or the inner surface of the outer cylinder 8.
  • a grip 12 is integrally formed on the rear lower surface of the wind guide tube 7, and a main switch 13, a light-off switch 14, a transformer 15, and the like are arranged inside the grip 12.
  • Reference numeral 16 denotes a slide knob for switching the main switch 13, and reference numeral 17 denotes a push button for switching the light-off switch 14.
  • reference symbol P indicates a central axis of the hair dryer, and the central axis P coincides with the central axis of the air guide passage 9.
  • the blower fan 3 is disposed in the rear half of the main body case 1, and pressurizes and sends the air sucked from the suction port 10 toward the outlet 11 by the blower fan 3, and the air is dried from the suction port 10 toward the outlet 11. A wind is generated, and the dry wind is blown out from the outlet 11.
  • the fan motor 2 is fixed to the holder 21 of the fan case 20 fixed to the wind guide tube 7, and a plurality of rectifying blades 26 are formed between the fan case 20 and the holder 21.
  • a control board 22 on which a control unit for controlling a driving state of the fan motor 2, a halogen lamp (light emitting body) 28 described later, and an ion emission structure is fixed on a front surface of the holder unit 21.
  • the control unit When the main switch 13 is switched from the off position to the weak operation position, the control unit turns on the halogen lamp 28 in a low luminance state and drives the blower fan 3 at a low speed.
  • the control unit turns on the halogen lamp 28 in a high luminance state and drives the blower fan 3 at a high speed.
  • the ion emitting structure operates in both the weak operating position and the strong operating position to emit negative ions.
  • the control unit temporarily turns off the halogen lamp 28.
  • the outer surface of the suction port 10 is covered with a first grill 23 made of punched metal and a second grill 24 having a multi-ring shape.
  • the inner surface of the outlet 11 is covered with a third grill 25.
  • the second grille 24 and the third grille 25 are sandwiched and fixed by half bodies 7a and 7b, and the first grille 23 is detachably attached to the rear part of the air guide tube 7.
  • the air outlet 11 is surrounded by an air outlet case 5 fixed to the front end of the outer casing 8, and supplies the air outlet of the drying air and infrared light (infrared rays (heat rays)) radiated from the halogen lamp 28 to the hair and scalp of the user.
  • the blowout port 11 is formed by integrating a blowout case 5 made of polycarbonate and an auxiliary blowout case 6 made of PPS resin which is rich in heat resistance. 7 is integrated with the wind guide cylinder 7 by bayonet engagement with an engagement wall 7c on the front outer surface of the front part 7 and by fastening the lower end of the blow-out case 5 with a screw 19 screwed from the exterior cylinder 8.
  • the heat source unit 4A includes one unit component including a halogen lamp (light emitting body) 28, a reflector 29, and a filter 30.
  • the halogen lamp 28 includes a bulb 31 that is long before and after the filament (light emitting portion), an inert gas, a halogen gas, and the like is sealed, and a housing 32 to which the bulb 31 is fixed. By being inserted and mounted, it is fixed and supported by the socket 34.
  • the filament is a light source portion of the light emitted by the halogen lamp 28 and is a portion having the highest luminance.
  • the socket 34 is fastened and fixed to a light source table 45 described later.
  • the heat source unit 4A is disposed so as to be separated from the inner surface of the wind guide cylinder 7 (main body case 1).
  • the heat source unit 4 ⁇ / b> A and the air guide tube 7 form an annular air passage 35 having an annular air tunnel shape.
  • the filter 30 is configured to transmit infrared light but prevent transmission of visible light, so that the user does not feel the glare of the halogen lamp 28. Note that blocking the transmission of visible light does not mean completely blocking visible light, but is a concept that includes attenuating visible light. Of course, it also includes those that can completely block visible light and transmit only infrared light.
  • Reflector 29 is formed by joining front reflector 37 and rear reflector 38.
  • the front reflector 37 is configured by joining a pair of half bodies 37a and 37b divided into right and left parts (see FIG. 7).
  • the half bodies 37a and 37b are made of a molded product obtained by press-molding a metal such as aluminum, and the inner surfaces thereof are polished to a mirror surface to form reflection surfaces.
  • a first reflection surface 39 for guiding the light radiated from the halogen lamp 28 forward toward the filter 30 (the outlet 11 side) is provided, and the light radiated from the halogen lamp 28 is directed rearward.
  • a second reflecting surface 40 for guiding reflection is provided, and the second reflecting surface 40 is formed adjacent to the first reflecting surface 39.
  • the inner surfaces of the half bodies 37a and 37b, that is, the first reflecting surface 39 and the second reflecting surface 40 may be mirror-like reflecting surfaces by plating.
  • a circular expanding recess 37c formed in a V-shaped inner recess is provided, and the expanding recess 37c increases the surface area of the outer surface of the front reflector 37.
  • a filter seat 41 is formed on the inner surface of the front end of each of the half bodies 37a and 37b, and two second ventilation holes 42 are formed on the rear peripheral surface of the filter seat 41.
  • the second ventilation port 42 is formed as a slit-shaped opening formed substantially all around the wall near the front end of the front reflector 37 when the pair of half bodies 37a and 37b are assembled.
  • the front reflector 37 is constituted by a pair of half bodies 37a and 37b, the front reflector 37 may be constituted by one deformed cylindrical body.
  • the front reflector 37 is formed by a die-cast molded product made of a metal such as aluminum.
  • the rear reflector 38 is formed of a die-cast molded product made of aluminum.
  • the front reflector 38 receives the light radiated from the halogen lamp 28 and the light reflected and guided by the second reflection surface 40 on the front surface thereof, and transmits the light to the filter 30 (the outlet 11 side).
  • the third reflecting surface 43 may be a mirror-like reflecting surface by plating.
  • a light source support structure for supporting the halogen lamp 28 is provided behind the third reflection surface 43.
  • the light source support structure includes a light source base 45 composed of four bosses for supporting the halogen lamp 28, and a hexagonal tubular air guide wall 46 surrounding the light source base 45. Are fixed to each light source base 45 with four screws 47 together with the wiring board 49.
  • a first ventilation port 48 for introducing dry air into the interior of the reflector 29 is formed.
  • a light source cooling passage is provided between the air guide wall 46 and the halogen lamp 28 and communicates with the first ventilation port 48.
  • the wiring board 49 collects leads for supplying power to the halogen lamp 28 from the inside of the grip 12 to the inside of the air guide tube 7 and leads for supplying power to the fan motor 2, and distributes the leads from there. It is arranged in. Further, the wiring board 49 functions as a light shielding plate for preventing light leaked from the first ventilation port 48 from being emitted to the suction port 10 side.
  • the front reflector 37 and the rear reflector 38 are joined and fastened and fixed in a state where the second reflection surface 40 and the third reflection surface 43 are adjacent to each other.
  • a front engaging portion (projection) 51 is formed in the rear edge 57 of the half body 37a and 37b so as to protrude radially in a bent state.
  • a joining groove 52 for fitting and supporting the rear edge 57 of the front reflector 37 and a joining wall 53 for supporting the peripheral surface of the rear edge 57 of the front reflector 37 are formed.
  • a recessed rear engagement portion 54 and a screw boss 55 formed by notching the joining wall 53 are formed at two opposing portions of the wall 53.
  • the front reflector 37 and the rear reflector 38 can be joined by joining the pair of half bodies 37a and 37b and engaging the front engagement portion 51 and the rear engagement portion 54 with each other.
  • the front reflector 37 and the rear reflector 38 can be integrated by screwing the screw 56 inserted into the through hole 51a of the front engagement portion 51 into the screw boss 55.
  • the front reflector 37 and the rear reflector 38 are prevented from shifting in the radial direction by the engagement of the rear edge 57 of the front reflector 37 and the joining groove 52, and furthermore, the front reflector 37 and the rear By the engagement of the engagement portion 54, the rotation about the central axis P is prevented.
  • the front engagement part 51 can also be comprised by the protrusion formed in the radial direction from the rear edge of the half bodies 37a and 37b.
  • the front reflector 37 may be constituted by one reflecting cylinder. In that case, it can be constituted by a die-cast molded product made of a metal such as aluminum.
  • the front engagement portion 51, the rear engagement portion 54, and the screw 56 need not be provided at two opposing positions, and can be formed at only one position.
  • the front reflector 37 may be configured by joining three or more divided bodies.
  • the filter 30 is made of low expansion glass, and is fixed to the front end of the front reflector 37 by a filter support structure.
  • the filter support structure includes a filter seat 41 formed on the front reflector 37, and a press ring 60 for holding and fixing the filter 30 back and forth in cooperation with the filter seat 41.
  • the press ring 60 includes an end wall 61 that presses and holds the front peripheral edge of the filter 30 and a ring-shaped circling wall 62 that fits over the outer peripheral surface of the filter seat 41. It functions as the glare 75.
  • the holding ring 60 is fixed to the front reflector 37 with screws 63.
  • the filter seat 41 is in close contact with the peripheral surface and the rear peripheral edge of the filter 30. Thereby, the heat of the filter 30 can be effectively conducted to the front reflector 37 side, and the cooling of the filter 30 can be promoted.
  • the halogen lamp 28 is vulnerable to impact, and the filament is broken or deformed when a large external force is applied.
  • the heat source unit 4 ⁇ / b> A is floatingly supported on the main body case 1 in order to prevent an impact from acting on the halogen lamp 28. More specifically, as shown in FIG. 9, a hexagonal frame-shaped spring receiving frame 64 that supports the heat source unit 4A is fixed to the inner surface of the wind guide tube 7 that surrounds the periphery of the light source support structure, and the rear reflector 38 and the spring receiving frame 64 are fixed. At three locations on the facing surface, shock absorbing springs 65 that support the heat source unit 4A are arranged.
  • a hexagonal frame-shaped unit support frame 66 supporting the heat source unit 4A is fixed to the inner surface of the air guide tube 7 surrounding the periphery of the filter 30, and an antiglare body 75 described later and an opposing surface 3 of the unit support frame 66 are fixed.
  • a viscoelastic gel-like elastic body 67 that supports the heat source unit 4A is disposed at each location.
  • the spring receiving frame 64 is formed by connecting three spring arms 70 formed of leaf springs in a hexagonal frame shape.
  • a spring seat 71 for receiving one end of the shock absorbing spring 65 is provided at the center of each spring arm 70. Are formed.
  • a spring seat 72 for receiving the other end of the shock absorbing spring 65 is also formed on the wind guide wall 46 of the rear reflector 38 facing the spring seat 71.
  • the unit support frame 66 is formed in a hexagonal frame shape by a leaf spring, and a gel holding portion 73 holding a gel-like elastic body 67 is formed at three places.
  • the spring receiving frame 64 and the shock absorbing spring 65 are elastically deformed, the unit supporting frame 66 is elastically deformed, and the gel elastic body 67 absorbs the shock.
  • the gel elastic body 67 absorbs the shock.
  • the halogen lamp 28 is turned on, the blower fan 3 is driven to irradiate the hair with the infrared light that has passed through the filter 30, and the dry air generated by the blower fan 3 is sent to the hair. Dry the hair. Part of the drying air is introduced from the rear opening 58 into the air guide wall 46, and flows into the first ventilation port 48 from the light source cooling passage to cool the halogen lamp 28, the reflector 29, and the filter 30 and then to the second The air flows out of the reflector 29 through the air vent 42, merges with the dry air flowing through the air guide path 9, and is sent out from the outlet 11.
  • the drying air supplied from the blowing fan 3 is introduced into the air guide wall 46 from the rear opening 58 as positive pressure drying air to cool the halogen lamp 28, the reflector 29, and the filter 30. 2 It may be made to flow out of the reflector 29 from the vent 42.
  • the outer surface of the second vent 42 is An anti-glare structure is provided that guides light leaking from the vent 42 in a direction away from the outlet 11.
  • the anti-glare structure includes a cylindrical anti-glare body 75 that covers the outer surface of the opening of the second ventilation port 42, and the above-described surrounding wall 62 also serves as the anti-glare body 75.
  • the ventilation path 76 that allows the passage of the dry air is provided between the anti-glare body 75 and the second ventilation port 42. It is formed in a recumbent L-shape in a state continuous with 42. Since the front end of the ventilation passage 76 is closed by the passage end wall 77 which is in contact with the front reflector 37 and contacts the inner surface of the anti-glare body 75, the dry air flowing into the ventilation passage 76 reverses backward. Moving. Further, the drying air flowing out of the ventilation passage 76 reversely moves along the rear end of the passage end wall 77 and joins with the drying air flowing through the air guide passage 9.
  • a rear reversing guide surface 78 for guiding the drying wind backward is formed in an inner corner portion sandwiched between the anti-glare body 75 and the passage end wall 77, and the anti-glare body is formed.
  • a front reversing guide surface 79 for guiding reversal of the drying air forward is formed at the rear end of the rear surface 75 (see FIG. 12).
  • the rear inversion guide surface 78 is formed of a quadrant arc surface that is continuous with the passage end wall 77, and the front inversion guide surface 79 is formed of a semicircular arc surface.
  • the hair dryer provided with the above-described anti-glare body 75, while the halogen lamp 28, the reflector 29, and the filter 30 are cooled by the drying air introduced into the interior of the reflector 29, they leak out of the second ventilation port 42 together with the drying air.
  • the light that is generated can be shielded by the anti-glare body 75 to prevent the light from being emitted toward the air outlet 11 along the air guide path 9.
  • light leaked from the second vent 42 is reflected by the anti-glare body 75 toward the second vent 42 or scattered by the anti-glare body 75, and further absorbed and attenuated by the anti-glare body 75. Can be done. Therefore, it is possible to reliably prevent the light leaking out of the reflector 29 from being emitted from the outlet 11, and to provide a dryer that does not make the user feel dazzling when the hair is dried.
  • the air guide path 9 is provided with a sustained release ring (functional component release body) 80 formed in a ring shape.
  • the sustained release ring 80 is made of a continuous-porous ceramic porous body formed by sintering ceramic fine powder, and as shown in FIG. 11, an inner ring 81 and an outer ring (ring portion). 82 and a group of radiating walls 83 provided between the rings 81 and 82 are integrally provided.
  • a portion surrounded by the inner and outer rings 81 and 82 and the radiation wall 83 is a group of ventilation openings (venting portions) 84 that allow the passage of dry air from the upstream side to the downstream side.
  • the continuous pore portion of the sustained release ring 80 is impregnated with a cosmetic liquid (functional liquid) containing at least one cosmetic component among cosmetic components (functional components) having cosmetic functions such as vitamins, hyaluronic acid, and collagen. ing.
  • a cosmetic liquid functional liquid
  • cosmetic components functional components having cosmetic functions such as vitamins, hyaluronic acid, and collagen.
  • the wind guide path 9 is provided with a speed-increasing wind path 85 that is a region configured so that the flow speed of the air passage is larger on the downstream side of the blower fan 3 than in the other air passage regions in the wind guide passage 9. ing.
  • the air flow velocity in the speed-increasing air path 85 is configured to be larger than the air flow velocity in the outlet 11, and in the present embodiment, the annular air path 35 in the shape of an annular wind tunnel is increased. It functions as a fast wind path 85.
  • the annular wind tunnel-shaped speed-increasing air path 85 (annular air path 35) is formed upstream of the air guide path 9 by the outer surface shape of the reflector 29 (heat source unit 4A) and the inner surface shape of the wind guide tube 7 (main body case 1). It is formed so as to be narrowed from the side to the downstream side.
  • the slow release ring 80 is disposed in the speed increasing air passage 85 (annular air passage 35) so as to face the expanding concave portion 37c provided in the front reflector 37 in a circular shape.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the cross-sectional area of the speed increasing air passage 85 is further reduced by the sustained release ring 80, the air flow velocity at the position where the sustained release ring 80 is disposed is further increased, and the beauty impregnated in the ring 80 is increased.
  • the liquid for use can be more efficiently vaporized.
  • the speed increasing air passage 85 which is formed by the outer surface shape of the reflector 29 and the inner surface shape of the air guide tube 7 and narrows from the upstream side to the downstream side of the air guide passage 9, the structure in the air guide passage 9 is reduced. While simplifying, it is possible to gradually increase the speed of the drying air in the entire speed increasing air passage 85 while suppressing the pressure loss.
  • the sustained release ring 80 is disposed around the reflector 29 (heat source unit 4A) (annular air passage 35), the sustained release ring 80 is heated by the heat of the reflector 29, and the cosmetic liquid impregnated in the ring 80 is removed. It can be more efficiently vaporized. Further, according to the sustained release ring 80 provided in the annular air passage 35, the ring 80 is not directly exposed to the light of the halogen lamp 28 irradiated from the front of the heat source unit 4A. Since the sustained release ring 80 is not heated, it is possible to prevent the cosmetic liquid from being vaporized more than necessary. Since the heat source unit 4A also serves as a member constituting the speed-up air passage 85, the structure of the dryer can be simplified.
  • the annular air passage 35 functioning as the speed-increasing air passage 85 is originally formed with a small cross-sectional area of the air passage, and when the sustained-release ring 80 is provided in the speed-increasing air passage 85, the portion where the ring 80 is provided Therefore, it is inevitable that the air passage cross-sectional area becomes smaller and the airflow resistance increases. Therefore, in the present embodiment, by arranging the sustained release ring 80 in a state directly facing the expanding concave portion 37c of the front reflector 37, the cross-sectional area of the air passage at the position where the sustained release ring 80 is disposed becomes unnecessarily small.
  • the sustained release ring 80 can be effectively warmed to further promote the vaporization of the functional liquid.
  • the surface area can be increased as compared with a columnar functional component release body having the same volume.
  • the sustained release ring 80 in the speed-increasing air passage 85 formed in the shape of an annular wind tunnel, the chance of contact between the sustained release ring 80 and the drying air flowing through the speed-increasing air passage 85 can be increased, and The beauty ingredient can be accurately released to the wind.
  • the ventilation opening 84 is formed in the ring-shaped sustained release ring 80 along the direction of the dry air generated by the blower fan 3, the opportunity for contact between the sustained release ring 80 and the dry air flowing through the speed increasing air passage 85 is increased. The amount can be further increased, and a sufficient amount of cosmetic ingredients can be released with respect to the dry wind.
  • the unit support frame 66, the sustained release ring 80, and the spring receiving frame 64 are respectively provided with three front clamping portions 86 provided before and after the opposing surfaces of the half bodies 7a and 7b of the air guide cylinder 7, and a middle clamping portion. 87 and the rear holding portion 88 for firmly holding and fixing.
  • the sustained release ring 80 is fixed with a slight gap provided between the sustained release ring 80 and the inner surface of the air guide tube 7, and substantially the entire surface of the sustained release ring 80 is exposed to dry wind flowing through the speed-increasing air passage 85. Is done.
  • the sustained-release ring 80 is configured to include one of the inner ring 81 and the outer ring (ring portion) 82 and a plurality of radiating walls 83, or the ring portion is formed by omitting the radiating wall 83. It is possible to take the form of only 82. In the case of the former form, for example, the sustained release ring 80 includes a ring portion 82 having an increased thickness by omitting the inner ring 81 and a plurality of radial walls 83 projecting inward from the ring portion 82. Can be provided.
  • the sustained release ring 80 includes a ring portion 82 and a plurality of radial walls 83 projecting outward from the ring portion 82, or the ring portion 82, the outward direction and the inward direction from the ring portion 82. And a plurality of radiating walls 83 protruding therefrom.
  • the sustained release ring 80 does not need to be formed in one continuous ring shape, but may be formed by connecting a plurality of arc-shaped members in a ring shape.
  • the sustained release ring 80 of each of the above forms can be divided into two semicircular arc-shaped divided bodies. According to such a sustained release ring 80, the wind guide tube 7 can be joined after each divided body is mounted on the middle holding portion 87 between the half bodies 7a and 7b, so that the assemblability of the hair dryer can be improved.
  • the intermediate holding portion 87 of the half bodies 7a and 7b is omitted, and the sustained release ring 80 is supported and fixed by an adhesive such as a double-sided tape adhered to the inner surfaces of the half bodies 7a and 7b of the wind tunnel tube 7.
  • the sustained release ring 80 may be formed of three or more arc-shaped divided bodies. As described above, when the sustained release ring 80 is constituted by a plurality of divided bodies, the ends of the adjacent divided bodies may be arranged so as to be in close contact with each other, or may be arranged with a gap.
  • the ion emission structure is provided inside the air guide tube 7 facing the air outlet 11 in order to send negative ions in addition to the cosmetic ingredients to the hair and the scalp with the dry air.
  • the ion emission structure includes an electrode holder 91, three central electrodes 92 supported by the electrode holder 91, and a peripheral electrode 94 fixed to a cylindrical wall 93 surrounding the central electrode 92.
  • the electrode holder 91 is clamped and fixed by a pair of clamping walls 95 provided on the wind guide cylinder 7.
  • the auxiliary outlet case 6 has a through-hole 96 for sending out the infrared light and the drying air, and further has an ion through-hole 97 at the center of the lower part of the case facing the center electrode 92.
  • a temperature fuse 98 is arranged on the upper wall portion of the wind guide cylinder 7 on the front side of the heat source unit 4A.
  • FIGS. 13 and 14 show Embodiment 2 in which the dryer according to the present invention is applied to a hair dryer.
  • This embodiment is different from the first embodiment in the configuration of the internal structure arranged in the air duct 9.
  • the reflector 29 is configured in a bowl shape whose diameter increases as it goes forward, the inner surface of which is a first reflection surface 39, and is inserted and fixed to the boss 101 of the socket 34 formed in a disk shape.
  • the reflector 29, the socket 34, the fan motor 2, and the like are supported and fixed by a support frame 102 that is arranged and fixed in the air guide passage 9 in a cross shape.
  • the bulb 31 of the halogen lamp 28 is formed in an elliptical sphere.
  • the filter 30 is supported by a holding ring 103 formed of a pair of half bodies, and the holding ring 103 is supported and fixed by a support frame 102 and a sustained release ring 80 so as to be in close contact with the front end of the reflector 29. ing.
  • the holding ring 103 constitutes a part of the reflector 29, and the halogen lamp 28, the reflector 29, the socket 34 and the holding ring 103 constitute the heat source unit 4A of the present embodiment.
  • the main body case 1 is constituted only by the wind guide tube 7 without the outer tube 8.
  • the annular air passage 35 functioning as the speed-increasing air passage 85 is formed by the reflector 29, the holding ring 103 (the heat source unit 4 ⁇ / b> A), and the wind guide tube 7 into a constricted annular wind tunnel.
  • the sustained release ring 80 is disposed so as to face the front end outer surface of the holding ring 103, and includes a ring portion 82 and twelve radial walls 83 protruding inward from the ring portion 82. .
  • the ventilation opening 84 is formed so as to be surrounded by the ring portion 82 and the adjacent radiation walls 83.
  • the other components are the same as those in the first embodiment, and thus the same members are denoted by the same reference numerals and description thereof will be omitted. The same applies to the following embodiments.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the cross-sectional area of the speed increasing air passage 85 is further reduced by the sustained release ring 80, the air flow velocity at the position where the sustained release ring 80 is disposed is further increased, and the beauty impregnated in the ring 80 is increased.
  • the liquid for use can be more efficiently vaporized.
  • the sustained release ring 80 is disposed at a portion facing the front end of the heat source unit 4A where the air flow speed becomes larger, so that the vaporization of the cosmetic liquid can be further promoted.
  • the reflector 29 is formed in a bowl shape which is easy to form by simplifying and the heat source unit 4A is supported by the support frame 102, the structure in the air guide passage 9 can be simplified.
  • FIGS. 15 and 16 show Embodiment 3 in which the dryer according to the present invention is applied to a hair dryer.
  • the luminous body 28 formed of the halogen lamp of the second embodiment is changed to an infrared lamp that emits red light, and the filter 30 is omitted accordingly.
  • the front end of the reflector 29 is extended in a round tube shape toward the outlet 11.
  • the annular air passage 35 functioning as the speed-increasing air passage 85 is formed by the reflector 29 (the heat source unit 4A) and the wind guide tube 7 into a tapered annular wind tunnel shape.
  • the sustained release ring 80 is disposed so as to face the outer surface of the front end of the reflector 29, and similarly to the first embodiment, the inner and outer rings 81 and 82 and a group of radiation walls provided between the two rings 81 and 82. 83 are provided integrally.
  • the front end of the reflector 29 is supported and fixed by a sustained release ring 80.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the cross-sectional area of the speed increasing air passage 85 is further reduced by the sustained release ring 80, the air flow velocity at the position where the sustained release ring 80 is disposed is further increased, and the beauty impregnated in the ring 80 is increased.
  • the liquid for use can be more efficiently vaporized.
  • the sustained release ring 80 is provided at the portion facing the front end of the heat source unit 4A where the air flow velocity becomes larger in the constricted speed-up air passage 85, the vaporization of the cosmetic liquid can be further promoted.
  • the luminous body 28 is not limited to the halogen lamp, but may be an infrared lamp. The use of the luminous body 28 having a low light emission luminance, such as an infrared lamp, allows the filter 30 to be omitted. Can be simplified.
  • FIGS. 17 and 18 show Embodiment 4 in which the dryer according to the present invention is applied to a hair dryer.
  • the luminous body 28 composed of the infrared lamp of the third embodiment is changed to a ring-shaped ceramic heater that emits infrared rays, and the reflector 29 is formed in a flat bowl shape and fixed to the front surface of the socket 34.
  • the functional component emitting body 80 is composed of a plurality of sustained release blocks 106 formed in a block shape. By arranging the sustained releasing blocks 106 at equal intervals around the reflector 29, the functional component emitting body 80 It is formed in an intermittent ring shape.
  • a region between adjacent sustained release blocks 106 is configured as the ventilation section 84.
  • Each sustained release block 106 is supported and fixed by fixing ribs 107 formed on the outer surface of the reflector 29 and the inner surface of the air guide tube 7.
  • the functional component releasing body 80 can be formed of a plurality of sustained release blocks 106 and formed in an intermittent ring shape. It can be easily formed.
  • a group of the sustained release blocks 106 (functional component emitting bodies 80) is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, so that the sustained release block 106 is exposed to dry air having a high flow velocity.
  • the cosmetic liquid impregnated in the block 80 can be efficiently vaporized.
  • the air passage cross-sectional area of the speed increasing air passage 85 is further reduced by the sustained release block 106, so that the air flow velocity at the position where the sustained release block 106 is disposed is further increased, and the beauty impregnated in the block 106 is further increased.
  • the liquid for use can be more efficiently vaporized.
  • a group of sustained-release blocks 106 is provided at a portion facing the front and rear midway of the reflector 29 where the air flow velocity becomes larger than the upstream end of the air passage. Can be further promoted. Since the luminance of the visible light emitted from the ceramic heater 28 is low, the internal structure of the air guide path 9 can be simplified in that the filter 30 can be omitted, and the user feels dazzling when drying the hair. There can be no dryer.
  • FIGS. 19 and 20 show a fifth embodiment in which the dryer according to the present invention is applied to a hair dryer.
  • the support frame 102 of the second embodiment is formed of a continuous-porous ceramic porous body, and the support frame 102 is configured as the functional component emitting body 80.
  • the support frame 102 is provided from the outlet of the blower fan 3 to the third grill 25 in the air guide passage 9.
  • Each support frame 102 is supported and fixed by fixing ribs 107 formed on the outer surface of the holding ring 103 and the inner surface of the air guide tube 7.
  • the heat source unit 4A such as the reflector 29, the halogen lamp 28 and the socket 34 is supported by the support frame 102 also serving as the functional component emitting body 80
  • the halogen lamp (light emitting body) 28 and the reflector 29 are guided by the wind.
  • the structure inside the air guide passage 9 can be simplified.
  • the fan motor 2 for rotating and driving the blower fan 3 is also supported by the functional component emitting body 80 also serving as the support frame 102, a dedicated support structure for supporting the fan motor 2 in the air guide path 9 is omitted.
  • the structure inside the air guide path 9 can be further simplified.
  • the flow space of the dry air in the region where the support frame 102 is provided in the front-rear direction of the air guide tube 9 is the ventilation portion 84.
  • the functional component emitting body 80 is disposed from the outlet of the blower fan 3 to the annular air passage 35 functioning as the speed-increasing air passage 85, the functional component is converted into a dry wind having a high flow velocity.
  • the release body 80 By exposing the release body 80, the cosmetic liquid impregnated in the release body 80 can be efficiently vaporized.
  • the cross-sectional area of the speed-up air passage 85 is further reduced by the functional component emitting body 80, the air flow velocity at the position where the functional component emitting body 80 is disposed is further increased to impregnate the discharging body 80.
  • the obtained cosmetic liquid can be more efficiently vaporized. Since the functional component emitting body 80 is arranged over substantially the entirety of the air guide path 9 downstream of the blower fan 3, the vaporization of the cosmetic liquid can be further promoted.
  • FIG. 21 shows Embodiment 6 in which the dryer according to the present invention is applied to a hair dryer.
  • the luminous body 28 composed of a halogen lamp is changed to a ring-shaped ceramic heater that emits infrared rays.
  • the ceramic heater 28 is connected to a socket 34 supported by a support frame 102 above the air guide path 9.
  • a bowl-shaped outer reflector 110 arranged inside and outside and a funnel-shaped inner reflector 111 are integrally formed, and the ceramic heater 28 is arranged so as to face the first reflection surface on the inner surface. ing.
  • the portion near the outlet 11 of the air guide path 9 is closed except for the inside of the inner peripheral wall 112 of the inner reflector 111, and a speed-increasing air path 85 is formed inside the inner peripheral wall 112.
  • the functional component emitting body 80 including the ring portion 82 is disposed so as to fit inside the inner peripheral wall 112. As described above, when the speed increasing air passage 85 is formed by the inner peripheral wall 112 of the inner reflector 111, the diameter of the air guiding passage 9 is narrowed to converge the dry air blown out from the air outlet 11, and the directivity of the dry air is obtained. Can be improved.
  • FIG. 22 shows Embodiment 7 in which the dryer according to the present invention is applied to a hair dryer.
  • the configuration of the functional component emitting body 80 is different from that of the second embodiment.
  • the functional component emitting body 80 includes a speed increasing ring 115 formed in a ring shape.
  • the speed increasing ring 115 is formed in a tapered cylindrical shape in which the thickness dimension of the ring wall is constant, and is formed as a conductive material.
  • the inner peripheral surface is narrowed from the upstream side to the downstream side of the air passage 9. Further, the inner peripheral surface is formed in an inwardly convex curved shape.
  • the speed increasing ring 115 is provided concentrically in the air guide path 9 downstream of the blower fan 3 so as to overlap with the rear side of the reflector 29. It is in close contact with the inner surface of the conductive tube 7.
  • the speed increasing ring 115 is supported by a support frame 102, and a portion of the support frame 102 that supports the speed increasing ring 115 is cut away.
  • the speed increasing ring 115 and the reflector 29 form a speed increasing air passage 85, and the functional component emitting body 80 faces the speed increasing air passage 85.
  • the functional component emitting body 80 in the present embodiment is a speed-increasing structure 4 ⁇ / b> B (in-wind-path structure 4) disposed in the air guide passage 9 to form the speed-increasing air passage 85.
  • the cross-sectional area of the air passage is reduced to increase the flow velocity of the drying air.
  • the speed-increasing structure 4B (the structure 4 in the air path) that positively increases the speed of the dry air that reduces the cross-sectional area of the air path of the air guide path 9, the speed-up air path 85 is increased.
  • the speed-up air passage 85 is formed by the speed-increasing structure 4B composed of a dedicated member for speeding up the drying air.
  • the flow rate at which the functional liquid containing the cosmetic component impregnated into the liquid evaporates most efficiently can be appropriately set.
  • the speed-increasing air passage 85 can be formed only by disposing the speed-increasing structure 4B in the air guide passage 9, the structure of the dryer can be simplified.
  • the speed increasing structure 4B is provided in the wind guide path 9 on the downstream side of the blower fan 3, and when the speed increasing structure 4B is configured by the speed increasing ring 115, the drying wind passing through the inside of the speed increasing ring 115 is reduced.
  • the speed can be increased with a simple configuration and while suppressing the pressure loss.
  • the heat source unit 4 ⁇ / b> A and the air guide tube 7 form an annular wind tunnel-shaped annular air passage 35 functioning as a speed-increasing air passage 85. It can also be seen as a configuration in which the rings 115) are arranged. In this case, the space surrounded by the inner peripheral surface of the speed increasing ring 115 is the ventilation section 84. According to such a configuration, since the speed increasing ring 115 constituting the functional component emitting body 80 is disposed in the speed increasing air passage 85, the speed increasing ring 115 is exposed to the dry wind having a high flow velocity, and The impregnated cosmetic liquid can be efficiently vaporized.
  • the cross-sectional area of the speed-up air passage 85 is further reduced by the speed-up ring 115, the flow speed at the position where the speed-up ring 115 is provided is further increased, and the beauty impregnated in the ring 115 is increased.
  • the liquid for use can be more efficiently vaporized. Since the speed increasing ring 115 is provided in a portion of the tapered speed increasing air passage 85 facing the upstream half of the air passage of the reflector 29, the air flow speed on the upstream side of the speed increasing air passage 85 is increased. Thus, the vaporization of the cosmetic liquid can be further promoted.
  • FIG. 23 shows Embodiment 7 in which the dryer according to the present invention is applied to a hair dryer.
  • the arrangement position of the speed increasing ring 115 is different from that of the seventh embodiment.
  • the speed increasing ring 115 is provided in the air guide path 9 upstream of the blower fan 3 in a state adjacent to the fan 3, and the outer peripheral surface of the rear edge of the ring 115 is the inner surface of the wind guide cylinder 7. Closely adhered to.
  • the overall shape of the speed increasing ring 115 is formed in a bell mouth shape.
  • the speed increasing structure 4B constituted by such a speed increasing ring 115, after the air sucked into the air guide path 9 from the suction port 10 is rectified and accelerated, the air is supplied under pressure by the blower fan 3. be able to. Thereby, the flow velocity of the drying air generated by the blower fan 3 can be improved as compared with the case where the speed increasing ring 115 is not provided, and the straightness of the drying air blown out from the outlet 11 can be improved. Further, noise generated at the time of pressurized feeding by the blower fan 3 can be reduced.
  • the functional component emitting body 80 when the speed increasing ring 115 is configured by the functional component emitting body 80, the functional component emitting body 80 can be easily provided in the speed increasing air passage 85. Further, since the speed increasing ring 115 also functions as the functional component emitting body 80, the internal structure of the air guide path 9 can be simplified, so that the overall cost of the dryer can be reduced.
  • FIG. 24 shows a ninth embodiment in which the dryer according to the present invention is applied to a hair dryer.
  • the present embodiment is different from the third embodiment in that a sustained release ring 80 formed in a ring shape (continuous ring shape) is disposed in front of the reflector 29.
  • the diameter of the opening 118 of the sustained release ring 80 is formed to be the same as the inner diameter of the front end of the reflector 29, and the reflector 29 and the sustained release ring 80 face each other with a gap therebetween.
  • the outer peripheral surface of the sustained release ring 80 is in close contact with the inner surface of the air guide tube 7, and the drying air that has passed through the reflector 29 is deflected and guided by the rear end surface of the sustained release ring 80, and the reflector 29 and the sustained release ring 80 And passes through the opening 118.
  • the opening 118 forms the speed-increasing air passage 85 of the present embodiment, and the slow-release ring (functional component emitting body) 80 faces the speed-increasing air passage 85.
  • the drying air collides with the sustained release ring 80 to guide the deflection, the chance of contact between the drying air and the sustained release ring 80 is increased, and the functional liquid containing the cosmetic ingredient is efficiently vaporized. Can be.
  • the diameter of the air guide path 9 is reduced to converge the drying air blown out from the air outlet 11, thereby improving the directivity of the drying air.
  • FIGS. 25 and 26 show a tenth embodiment in which the dryer according to the present invention is applied to a hair dryer.
  • the heat source unit 4A is composed of a halogen lamp 28, a reflector 29, a filter 30, a socket 34, and a pair of halves accommodating the respective members.
  • an inner case 121 configured.
  • the inner case 121 is formed in a cylindrical shape having an opening on the front surface and a constant outer shape.
  • the fan motor 2 is also housed inside the inner case 121, and each member other than the filter 30 housed in the inner case 121 is supported by a support wall 122 provided in a cross shape on the inner surface of the inner case 121.
  • the filter 30 is supported on the inner surface of the inner case 121.
  • the inner diameter of the wind guide tube 7 is formed to be constant, and the wind guide tube 7 and the inner case 121 form an annular ring functioning as a speed-up wind passage 85 in the wind guide passage 9 downstream of the blower fan 3.
  • An annular air passage 35 having a wind tunnel shape is formed.
  • a functional component emission body 80 is provided in the annular air passage 35, and the inner case 121 is supported and fixed in the air guide passage 9 by the functional component emission body 80.
  • the functional component emitting body 80 is provided with a ventilation section 84 that allows the passage of dry air from the upstream side to the downstream side.
  • the functional component emitting body 80 is formed in a circular ring shape having a constant thickness, and a plurality of ventilation portions 84 along the direction of the dry air generated by the blower fan 3 are formed in the thick portion. Are formed.
  • Each ventilation part 84 is formed so as to penetrate the thick part of the functional component emitting body 80, and the inner diameter dimension on the upstream side of the air guide path 9 is larger than the inner diameter dimension on the downstream side of the air guide path 9. It is composed of a tapered ventilation hole 125.
  • the ventilation holes 125 are formed at equal intervals in the circumferential direction, and a total of 12 ventilation holes 125 are formed.
  • the cross-sectional area of the air passage in the ventilation part 84 gradually decreases from the upstream side to the downstream side of the air guide passage 9.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the ventilation holes 125 formed in the functional component emitting body 80 can increase the surface area of the functional component emitting body 80 to further increase the chance of contact between the functional component emitting body 80 and the high-speed dry air.
  • the air flow velocity on the outlet side can be larger than that on the inlet side of the ventilation part 84, and at the exit side part of the ventilation part 84 in the functional component emitting body 80, The functional liquid can be more efficiently vaporized. Further, since the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • FIGS. 27 and 28 show Embodiment 11 in which the dryer according to the present invention is applied to a hair dryer.
  • the configuration of the functional component emitting body 80 is different from that of the tenth embodiment.
  • the functional component emitting body 80 is formed in an intermittent ring shape constituted by a plurality of split ring bodies 128, and the functional component emitting body 80 has a ventilation portion 84 along the direction of the dry air generated by the blower fan 3. Are formed.
  • the ventilation section 84 is formed between the adjacent split ring bodies 128 and 128, and the area of the inlet opening on the upstream side of the air guide path 9 is larger than the area of the outlet opening on the downstream side of the air guide path 9.
  • Each of the split ring bodies 128 is formed in a trapezoidal cross section in which the dimension in the rear circumferential direction is smaller than the dimension in the front circumferential direction.
  • a total of eight divided ring bodies 128 are arranged at equal intervals in the circumferential direction.
  • the cross-sectional area of the air passage in the ventilation part 84 gradually decreases from the upstream side to the downstream side of the air guide passage 9.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the ventilation slit 129 formed in the functional component emitting body 80 can increase the surface area of the functional component emitting body 80 and further increase the chance of contact between the functional component emitting body 80 and the fast flowing dry air.
  • the air flow velocity on the outlet side can be larger than that on the entrance side of the ventilation portion 84, and the exit side portion of the ventilation portion 84 in the functional component emitting body 80
  • the functional liquid can be more efficiently vaporized.
  • the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • FIG. 29 shows Embodiment 12 in which the dryer according to the present invention is applied to a hair dryer.
  • the configuration of the functional component emitting body 80 is different from that of the tenth embodiment.
  • the functional component emitting body 80 is formed in a round tube shape in which the thickness on the upstream side of the air guide path 9 is smaller than the thickness on the downstream side of the air guide path 9, and the inner peripheral surface thereof is a tapered surface.
  • the outer peripheral surface is in close contact with the inner surface of the air guide tube 7.
  • a ventilation portion 84 is formed between the functional component emitting body 80 and the inner peripheral surface of the annular air passage 35 along the direction of the dry air generated by the blower fan 3.
  • the ventilation part 84 is formed by a constricted narrow air passage 132 formed in the annular air passage 35 in a circular shape.
  • the inner case 121 is supported by support ribs 133 provided radially at four locations on the inner surface of the functional component emitting body 80.
  • the cross-sectional area of the air passage in the ventilation part 84 gradually decreases from the upstream side to the downstream side of the air guide passage 9.
  • the sustained release ring 80 is disposed in the annular air passage 35 functioning as the speed-increasing air passage 85, the sustained release ring 80 is exposed to the dry wind having a high flow rate, and the beauty impregnated in the ring 80 is exposed.
  • the liquid for use can be vaporized efficiently.
  • the ventilation slit 129 formed in the functional component emitting body 80 can increase the surface area of the functional component emitting body 80 and further increase the chance of contact between the functional component emitting body 80 and the fast flowing dry air.
  • the air flow velocity on the outlet side of the ventilation part 84 can be made larger than that on the inlet side, and the outlet of the functional component emission body 80 on the exit side of the ventilation part 84.
  • the functional liquid can be more efficiently vaporized.
  • the drying air passing through the ventilation section 84 can be gradually increased while suppressing the pressure loss, the flow velocity of the drying air blown out from the outlet 11 becomes small due to the pressure loss in the ventilation section 84. Can be suppressed.
  • the walls of the wind tunnel tube 7 and the inner case 121 are configured to be parallel, and the annular air passage 35 functioning as the speed-increasing air passage 85 is formed in a straight shape. .
  • the annular air passage 35 does not need to be formed in a tapered shape, and the cross-sectional area of the air passage 9 is reduced by the heating unit 4A so as to increase the air flow velocity to be larger than that of the outlet 11 portion.
  • the annular air passage 35 functioning as the fast air passage 85 may be formed. Thereby, the chance of contact between the functional component emitting body 80 and the drying air having a high flow rate can be increased, and the cosmetic component can be accurately released to the drying air.
  • the first vent 48 and the second vent 42 are provided, and the halogen lamp 28, the reflector 29, and the filter 30 are dried. Can be used for cooling.
  • the outer surface of the opening of the second vent 42 is covered with the anti-glare body 75 and the wiring board 49 is provided behind the heat source unit 4A.
  • the heat source unit 4A can be floatingly supported by the main body case 1 via the shock absorbing spring 65 and the gel holding portion 73. preferable.
  • the ion guide structure may be provided in the air guide path 9.
  • a high-intensity lamp such as an incandescent lamp, a xenon lamp, or a metal halide lamp can be employed.
  • FIG. 30 shows a thirteenth embodiment in which the dryer according to the present invention is applied to a hair dryer.
  • the heat source unit 4A includes a heater 136 made of a heating wire, a plurality of heater support plates 137 that support the heater 136, and a cylindrical support case 138 to which the heater support plate 137 is fixed on an outer surface.
  • the heater 136 is helically supported by a heater support plate 137 that is arranged and fixed in a cross shape in the air guide passage 9, and a support case 138 is disposed inside the helical heater 136.
  • the heater support plate 137 is made of an insulating mica plate.
  • the support case 138 is formed in a stepped cylindrical shape having an opening on the front surface, and the fan motor 2 is housed and fixed in a small-diameter cylindrical portion 139 on the rear side.
  • the large-diameter cylindrical portion 140 on the front side is provided with two sets of ion emission structures and the transformer 15.
  • the annular air passage 35 is formed by the tapered cylindrical air guide tube 7 and the large-diameter cylindrical portion 140 of the straight cylindrical support case 138, and the annular air passage 35 functions as the speed-increasing air passage 85.
  • the air passage 35 is formed in a tapered annular wind tunnel shape.
  • the annular air passage 35 is provided with a sustained release ring 80 composed of an outer ring (ring portion) 82 and a radiating wall 83, and the sustained release ring 80 is provided in an annular air passage downstream of the heater 136. 35.
  • Liquid supply ports 141 are provided on the upper and lower sides of the air guide cylinder 7 facing the sustained release ring 80, respectively, so that the cosmetic liquid can be replenished to the sustained release ring 80 from outside the main body case 1.
  • the cosmetic solution can be replenished by inserting the nozzle 142 into the liquid supply port 141 and compressing the replenishing container 143, with the nozzle 142 being accommodated in a straw-shaped replenishing container 143.
  • the liquid supply port 141 is provided with a duckbill valve 144 to prevent the cosmetic liquid from leaking during replenishment.
  • the annular air passage 35 is provided between the outer surface of the support case 138 and the inner surface of the wind guide tube 7 by utilizing the structure of the support case 138 and the wind guide tube 7 (main body case 1). Can be formed, so that the structure in the air guide path 9 can be simplified. Further, when a sustained release ring (functional component releasing body) 80 is disposed in the annular air passage 35 downstream of the heater 136, the sustained release ring 80 is warmed by the dry air heated by the heater 136, and the cosmetic liquid Can be effectively promoted.
  • a sustained release ring (functional component releasing body) 80 is disposed in the annular air passage 35 downstream of the heater 136, the sustained release ring 80 is warmed by the dry air heated by the heater 136, and the cosmetic liquid Can be effectively promoted.
  • the annular air passage 35 may be configured such that the wind guide tube 7 has a straight cylindrical shape, the large-diameter tube portion 140 has a forwardly expanding cylindrical shape, and a tapered annular air passage may be provided.
  • the constricted cylindrical shape may be used, and the large-diameter cylindrical portion 140 may be formed to have a converging cylindrical shape to form a constricted annular air passage.
  • the main body case 1 of the hair dryer according to the second to thirteenth embodiments can be composed of the air guide tube 7 and the outer case 8 in the same manner as the first embodiment, and includes the first grill 23, the blow case 5, and the blow assist.
  • the case 6 may be provided on the main body case 1.
  • the front and rear ends of the hollow cylindrical air guide path 9 are configured as the inlet 10 and the outlet 11, respectively. Since the blower fan 3 for generating the drying air flowing from the air outlet 10 to the air outlet 11 is provided, all of the air sucked from the air inlet 10 is blown out from the air outlet 11, so that one convergent hard to disperse the dry air. It can be sent to the drying object as a stream.
  • the functional component release body (slow release ring) 80 continuous release ring made of a continuous-porous ceramic porous body impregnated and held with a cosmetic liquid containing a cosmetic component is introduced into the air guide passage 9.
  • the cosmetic liquid evaporated by exposing the emitter 80 to the drying air can be included in the drying air which is difficult to disperse. Therefore, the cosmetic ingredient can be accurately sent to the drying target by being put on the drying air blown out from the outlet.
  • the functional component emitting body 80 is disposed in the annular air passage 35 functioning as the speed increasing air path 85, the functional component emitting body 80 (the speed increasing ring 115) is exposed to the dry wind having a high flow velocity, and the emitting body 80 is exposed.
  • the cosmetic liquid impregnated in 80 can be efficiently vaporized, and the cosmetic ingredients can be sufficiently released against the drying air.
  • the continuous-porous porous body constituting the functional component emitting body 80 was formed using ceramic as a material.
  • the continuous-porous porous body was formed using metal or synthetic resin as a material.
  • a metal is used as a material, a fine metal powder is sintered, and when a synthetic resin is used as a material, a molten resin is foamed and solidified to form a continuous pore type porous body.
  • Other porous materials of continuous pore type include silica gel, activated carbon, pumice, zeolite, diatomaceous earth, porous rubber, resin sponge, compressed non-woven fabric, and the like.
  • the functional component contained in the functional liquid impregnated and held in the functional component release body 80 can be a functional component having a disinfecting function, a deodorant function, or an aroma function in addition to the cosmetic function.
  • a combined functional liquid can be employed.
  • the air suction port 10 is formed on the rear end rear surface of the main body case 1 as in each of the above embodiments. It may be a formed form.
  • the suction port 10 provided at one end (rear end) of the air guide path 9 according to the present invention is meant to include these forms.
  • the blower fan 3 is constituted by a propeller type or impeller type axial fan, a centripetal fan, or the like.
  • the shape of the reflector 29 can be changed as appropriate according to the manner in which infrared light is emitted to the object to be dried.
  • the dryer according to the present invention is not limited to hair dryers for drying hair, but can be applied not only to body parts such as limbs and nails, but also to animal dryers such as dogs and cats, not only for humans, but also for clothing. It can also be applied to clothing dryers.
  • the dryer of the present invention is a hair iron having a dryer function, as long as it is a device that irradiates light to the object to be dried, for example, a hair can be shaped into a curled shape or a straight shape while drying hair. Also applicable to
  • a main body case 1 having a hollow cylindrical air guide 9, a suction port 10 provided at one end of the air guide 9, an outlet 11 provided at the other end of the air guide 9, and A blower fan 3 that is provided to generate dry wind from the suction port 10 toward the blowout port 11 and a heat application structure that is provided in the air guide path 9 downstream of the blower fan 3 and applies heat to a drying target.
  • the heat imparting structure 4A includes a light emitting body 28 that emits light including infrared rays, and a reflector 29 that reflects the light emitted by the light emitting body 28 toward the air outlet 11 side.
  • the air guide path 9 at the portion where the application structure 4A is disposed is formed in an annular wind tunnel shape, and the continuous pores in which the functional liquid containing the functional component is impregnated and held in the annular wind channel 9 are provided.
  • a functional component release body 80 made of a porous material of a mold type is provided. 80, drier in the radial direction are arranged so as against the outer surface and the positive reflector 29.
  • the object to be dried is heated by infrared rays included in the light emitted from the luminous body 28 and drying is promoted, for example, a heat source including a conventionally known nichrome wire heater is provided, and drying is performed using a heated dry air. Power consumption per unit time can be reduced as compared with a hair dryer that heats an object to promote drying.
  • the functional component emitting body 80 is heated by the heat radiated from the outer surface of the reflector 29 heated by the light emitting body 28, and the functional liquid is exposed by the emitting body 80 being exposed to the dry wind of the air guide passage 9. Can be promoted, and the functional component can be sufficiently released against the drying air.
  • the functional component emitting body 80 in a state where the functional component emitting body 80 does not contact the outer surface of the reflector 29. This is because, when the functional component emitting body 80 is in contact with the outer surface of the reflector 29, the emitting body 80 is heated more than necessary and the functional liquid is wasted.
  • an inner recessed circular expansion recess 37 c that enlarges the surface area of the outer surface of the reflector 29.
  • a dryer in which the functional component emitting body 80 is disposed in a state of being directly opposed According to the dryer provided with such a reflector 29, more heat is radiated from the outer surface of the reflector 29 enlarged by the expanding recess 37c, so that the functional component emitting body 80 is effectively warmed to evaporate the functional liquid. Can be promoted more.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Microbiology (AREA)
  • Drying Of Solid Materials (AREA)
  • Cleaning And Drying Hair (AREA)
PCT/JP2019/034667 2018-09-28 2019-09-03 ドライヤー WO2020066499A1 (ja)

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CN111387673A (zh) * 2020-04-23 2020-07-10 郑浩楠 一种具有指示灯的吹风机及其控制方法
CN113615952A (zh) * 2020-05-09 2021-11-09 深圳汝原科技有限公司 用于干燥物体的设备
CN116322427A (zh) * 2020-10-19 2023-06-23 夏普株式会社 吹风机
CN118490001A (zh) * 2024-05-09 2024-08-16 深圳市戴芬智能科技有限公司 一种远红外线吹风机

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CN113811223B (zh) 2020-05-09 2025-03-07 深圳汝原科技有限公司 干燥装置以及供电模组
GB2610538B (en) * 2020-05-09 2024-11-06 Sz Zuvi Tech Co Ltd Apparatus and methods for drying an object
JP7128973B2 (ja) * 2020-05-09 2022-08-31 深▲せん▼汝原科技有限公司 物体を乾燥させる装置及び方法

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CN111387673A (zh) * 2020-04-23 2020-07-10 郑浩楠 一种具有指示灯的吹风机及其控制方法
CN113615952A (zh) * 2020-05-09 2021-11-09 深圳汝原科技有限公司 用于干燥物体的设备
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