TWI331907B - Ion hair dryer - Google Patents

Abstract

An ion hair dryer (1) includes an air outlet (6) ejecting cold air or hot air and an ion outlet (11) emiting ion mist. Axes of the hot and cold outlet and the ion outlet (11) diverge from each other. The air outlet (6) is formed of a nozzle, which is inclined and tapered towards a leading end thereof. A side of the nozzle close to the ion outlet (11) is inclined more than a side of the nozzle placed oppolite to the ion outlet.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ion hair dryer capable of ejecting cold air or heat 5 air while being capable of ejecting an ion mist. C Prior Art 1 Background

Recently, ion hair dryers capable of supplying cold air or hot air, as well as negative ions or nano-sized ion mists, have become increasingly popular due to their advantageous effects such as ease of hair setting and prevention of hair damage. A typical prior art of such an ion-drying device is Japanese Patent Application No. 2002-191426 filed by the applicant of the present application. Further, an ion hair dryer having more advantages by increasing the diameter of the ion mist particles according to Japanese Patent Laid-Open Publication No. 2005-304961 is also commercially available. 15 according to these prior art references for spraying cold air or hot air

The axis of the hot and cold air outlet of the gas is arranged in parallel with the axis of the ion outlet for ejecting the ion mist; the nozzle forming the outlet of the main body casing is molded of a resin and can be easily charged. Therefore, the ion mist generated in the electrostatic atomization unit and then ejected from the ion outlet is blocked by the peripheral portion of the nozzle. Thus, the ion mist or ions supplied after the 20th can be blocked at the peripheral portion of the nozzle, thereby preventing the ion mist from reaching the user. SUMMARY OF THE INVENTION The present invention provides an ion hair dryer that is capable of delivering ion fog to a user with a high efficiency of 5,313,907. According to an embodiment of the present invention, there is provided an ion hair dryer having an air outlet for spraying cold air or hot air, and an ion outlet for spraying an ion mist, wherein an axis of the air outlet and an axis of the ion outlet are deviated from each other 5 open.

The ion hair dryer may further include: a main body casing having an air flow passage therein and a branch passage bifurcated from the air flow passage; a blower unit disposed in the air flow passage, which sucks air from a rear side of the air flow passage, and Injecting air from an air outlet formed on a front side of the air flow passage; and 10 an electrostatic atomization unit disposed in the branch passage having a discharge electrode and an opposite electrode to atomize the fluid through the discharge electrode and electrostatically The atomizing fluid is charged, and the charged mist is ejected from the ion outlet formed on the front side of the branch passage. Moreover, the air outlet is formed by a nozzle that is inclined and contracted toward its front end, and the side of the nozzle close to the ion outlet is more inclined than the side of the nozzle opposite to the outlet of the 15th.

Therefore, the ion mist generated in the electrostatic atomizing unit can be prevented from being blocked by the peripheral portion of the nozzle which forms the air outlet of the main body casing molded of the resin. In this way, the ion mist can reach the user efficiently. Further, a porous plate made of an insulator may be disposed at the ion outlet, 20 to prevent foreign matter from entering the ion outlet, and at the same time, the charged mist may be passed through, and the perforated plate is attached to the main wall extending from the outer peripheral portion thereof to The inner peripheral surface of the branch passage of the main body casing, and a portion of the main wall is cut away so that the opposite electrode of the electrostatic atomization unit is not covered. Therefore, the amount of ionic substances blocked by the perforated plate made of an insulator can be lowered by 6 1331907. Preferably, the angle between the axis of the air outlet and the axis of the ion outlet is in the range of 12° - 30°. Therefore, since the axes are deviated from each other, the ion mist generated in the electrostatic mist 5 unit is prevented from being blocked in the outer peripheral portion of the nozzle of the main body casing, while the ion mist is directed to the user without causing a large deviation, and Ion fog can reach the user efficiently. Simple illustration

BRIEF DESCRIPTION OF THE DRAWINGS The objects and features of the present invention 10 will become apparent from the following description of the embodiments of the accompanying drawings in which: FIG. 1 is a side view showing a dry hair according to a first embodiment of the present invention. Figure 2 is a cross-sectional view of the ion hair dryer; Figure 3 is an exploded perspective view of the ion hair dryer; 15 Figure 4 is a perspective view showing the electrostatic atomization unit that produces nanoscale ion fog 5 is an enlarged cross-sectional view of the electrostatic atomization unit; FIG. 6 is a perspective view showing another exemplary notch formed on the perforated plate of the electrostatic discharge unit of the cover; and 20 7A and 7B The figure illustrates the difference in efficiency of the ion mist reaching the user in the prior art ion hair dryer in accordance with the first embodiment of the present invention. I: Depletion mode 3 BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of the invention of 7 1331907 will be described with reference to Figs. 1 to 7B which form a part of the embodiment. 1 is a side view of an ion hair dryer 1 according to a first embodiment of the present invention; FIG. 2 is a cross-sectional view of the ion hair dryer; and FIG. 3 is an exploded perspective view of the ion hair dryer. 5 ion hair dryer 1 comprises a main body casing 4 and a blower unit 7, air circulation

The track 2 and the branch passage 3 branched from the air flow passage are formed in the main body casing 4, and the blower unit 7 is disposed in the air flow passage 2. The blower unit 7 draws in air from the air inlet 5 provided at the rear side of the air flow path 2, and blows the suction air from the hot and cold air outlet 6 provided on the front side of the air flow path 2 to the user. The ion hair dryer 1 further includes a heater unit 8 disposed in the air flow passage 2 to provide heated air by heating the intake air. The ion hair dryer 1 further includes an electrostatic atomizing unit 12, a grip portion 14 which is foldable around the hinge member 13 toward the main body casing 4, and a power supply line 15. The electrostatic atomizing unit 12 has a discharge electrode 9 and a counter electrode 10, and atomizes the water droplets supplied to the discharge electrode 9 and electrostatically charges them, thereby from the ion outlet 11 provided on the front side of the branch passage 3. Spray ion mist. With this configuration, cold air or hot air can be ejected from the hot and cold air outlet 6 to the user while ejecting the ion mist from the ion outlet 11. The blower unit 7 has a tubular body 7c in which a motor 7b and a fan 7a which can be rotated by the motor 7b are housed. The amount of air flow of the blower unit 7 can be controlled by a user operating a switch 16 provided at the grip portion 14. The heater unit 8 is provided on the downstream side of the blower unit 7. The heater unit 8 has an insulated tubular body 8b in which a body 8a having a ceramic heater and the like is housed. A flange 8c is provided at the end of the insulating tubular body 8b 8 . When the insulating tubular body 8b accommodates the body 8a, the flange 8c is brought into contact with the end portion 7d of the tubular body 7c accommodating the fan 7a and the motor 7b, and then the engaging members 7e and 8e are engaged with each other, thereby the blower unit 7 and the heater unit 8 assembled. The insulated tubular body 8b can be deformed in a normal state. Therefore, considering the reliability of the insulated tubular body 8b, it is made of metal and grounded to the high voltage plate 18 through the ground wire 2''. The power ΟΝ/OFF and the temperature of the body 8a can be controlled by the user operating the switch 16. The double tube type body 8b is provided with a notch 8f at its upper portion. When the blower unit 7 and the heater unit 8 are assembled, the notch 8f communicates with the notch 7f provided at the upper portion of the body 7c. Further, the control board 19 and the high voltage plate 18 for driving the electrostatic atomizing unit 12 are disposed on opposite sides of the notch 8f at the upper portion of the insulating tubular body 8b without obstructing the notch 8f. Therefore, when air is taken in from the air inlet 5 toward the air flow passage 2 through the fan 7a, the air is appropriately heated after passing through the heater unit 8, while the heated air is sprayed from the hot and cold air outlet 6, and the air is heated. A part of it also flows into the branch passage 3. The air flowing into the branch passage 3 passes through the electrostatic atomizing unit 12 and is ejected from the ion outlet 11, while carrying an anion or nano-scale ion mist. Fig. 4 is a perspective view of the electrostatic atomizing unit 12 showing the assembled state of the electrostatic atomizing unit 12. Fig. 5 is an enlarged cross-sectional view of the electrostatic atomizing unit 12. The electrostatic atomizing unit 12 includes a needle-shaped discharge electrode 9, an annular opposite electrode disposed in front of it, and a Peltier device 12g for cooling the discharge electrode 9. The high negative pressure generated in the high voltage plate 18 is applied to the discharge electrode 9 through the resistor 30 (Fig. 1) for controlling the high voltage. Preferably, the resistor 3 is disposed on the upstream side of the discharge electrode 9. In this way, the generation of negative ions or ion mist can be prevented from being adversely affected by the potential of the resistor 30. The discharge electrode 9 is cooled by the Peltier device 12g, whereby moisture in the air condenses at the tip end of the discharge electrode 9, and a rolling discharge generated between the amplification electrode 9 and the opposite electrode 1〇 acts on the condensed water, thereby being able to provide Large diameter nanoscale ion mist without the need to supply water. After the electrostatic atomizing unit 12 constructed as described above is mounted on the insulating tubular body 8b, a porous plate 17 having a plurality of holes is disposed in front of the electrostatic atomizing unit 12 to prevent foreign matter from passing through the ions when the ion mist passes. The outlet 11 enters the electrostatically atomizing unit 12 to which a high voltage is applied. The perforated plate π is covered by the cover 4a. The perforated plate π and the cover 4a constitute a part of the main body casing 4. The perforated plate 17 is made of an insulating material, and is attached to the inner peripheral surface of the upper cover such as the main wall 17a, that is, a rib extending from the outer peripheral portion of the perforated plate 17. A notch 17b is provided in the main wall 17a so that the opposite electrode 10 of the electrostatic atomizing unit 12 is not covered. Since the porous plate 17 made of an insulating material for allowing the ion mist to pass therethrough while preventing foreign matter from entering is separately provided from the electrostatic atomizing unit 12 and having the notch 17b, the ion mist blocked by the perforated plate 17 The amount can be reduced (it is difficult to charge the perforated plate 17). The notch 17b is formed to have a width (W1) of, for example, 2 〇 mm, which corresponds to the width of the opposite electrode 1 例, for example. The notch 171 is effective as long as a part of the main wall 17a is cut off and cannot cover at least a part of the counter electrode 1''. For example, the notch i7b as shown in Fig. 6 may be provided at a plurality of positions of the perforated plate 17' or on the side of the perforated plate 17 as shown in Fig. 6, and is not limited to the one shown in Fig. 41331907. At the top of the perforated plate 17. Moreover, it is more effective when the notch pb is formed in a large size. Therefore, preferably, the notch l7b is formed to have a large size while considering the strength to be attached to the cover 4a, and the acceptable range of deformation of the perforated plate 17 when the foreign matter is placed therein. 5 Referring again to FIG. 3, the main body casing 4 is formed by the upper cover 4a, the left cover cover, and the right cover 4c, and the blower unit 7, the heater unit 8, the electrostatic atomization unit 12, the high voltage plate 18, and The control panel 19 or the like is accommodated therein and then assembled by the hooks 4d at the top thereof and the screws at the bottom. 1〇 After the switch 16 or the like located between the pair of right and left covers 14a, 14b is housed in the grip portion 14, the grip portion 14 is assembled by the fastening screw 4e. At one end of the grip portion 14, the projection 14c of the receiving screw 4e is inserted into the shaft hole 4f provided at the bottom of the main body casing 4, whereby the grip portion 14 can be folded as described above. The opposite end of the grip portion 14 is configured such that the power cord 15 is detachably mounted thereto. The wire mesh 21 is attached to the rear side ' of the main body casing 4 by the attachment ring 22 and the suction port ring portion 23, thereby forming the air inlet 5. Similarly, the wire web 24 is attached to the front side of the main body casing 4 through the outlet ring portion 25, and the nozzle 26 is detachably attached to the outlet ring portion 25, thereby forming the hot and cold air outlet 6. The suction port ring portion 23 and the outlet port ring portion 25 are fixed to the main body casing 4 by screws 4g and 4h, respectively. Since the outlet ring portion 25 and the nozzle 26 are separately provided, the outlet ring portion 25 is more difficult to be charged. It can be noted that in the ion hair dryer 1 constructed as described above, the nozzle 26 is inclined and contracted toward the front end (i.e., the opening), and the side of the nozzle 26 close to the ion outlet η 11 1331907 is more inclined than the opposite side thereof, thereby The axis 6a of the rolling outlet 6 and the axis 11a of the ion outlet 11 are offset from each other. In other words, the nozzle 26 contracts toward its opening. Further, in the vertical section as shown in the % diagram, the nozzle 26 is inclined downward by θ2 degrees in the direction of the axis 11a along which the ion mist is ejected from the ion outlet 11 in the upper portion of the ion exit pupil 11. Conversely, the lower portion of the nozzle 26 opposite the ion outlet u is inclined upward by <9 degrees with respect to the direction of the axis 11a, where 0 2 is greater. Therefore, the direction of the axis 6a along which the hot or cold air is ejected from the nozzle 26 is offset from the axis iu = . Ίο As shown in Fig. 7A, the axes 6a, and Ua of the conventional ion hair dryer are arranged in parallel. Therefore, the ion mist generated in the electrostatic atomizing unit 丨2 is located downstream of the electrostatic atomizing unit 12', that is, the upper portion of the main body casing 4' molded by the resin, particularly the peripheral portion of the nozzle 26. Blocked. Therefore, the ion mist supplied subsequently is blocked by the peripheral portion of the nozzle 26, thereby preventing the mist of the ions 15 from reaching the user. In contrast, the axes 6a and 11a of the present embodiment are configured to be offset from each other to prevent the ion mist from being blocked as shown in Fig. 7A. Therefore, the ion mist generated in the electrostatic atomization unit 12 can efficiently reach the user. Furthermore, the angle of inclination of the axis 6a with respect to the axis iia is between 12° and 30°. Thus, the discharged ion mist can be sprayed toward the user without causing a large deviation and can reach the user efficiently. Although the axes 6a and 11a of the present embodiment are configured to be arranged in parallel with the main axis of the ion hair dryer 1 by the axis 11a of the ion outlet 11, and the axis 6a of the hot and cold air outlet 6 is inclined with respect to the main axis, It is offset, but the axis 6a of the hot and cold air outlet 6 can also be arranged in parallel with the main axis, so that the axis iia of the ion outlet 11 is inclined upwards 12 1331907. While the invention has been shown and described with reference to the embodiments of the present invention, it will be understood that various changes and modifications can be made without departing from the scope of the invention. 5 [Simplified illustration of the drawings] Fig. 1 is a side view showing the exterior of a hair dryer according to a first embodiment of the present invention; Fig. 2 is a cross-sectional view of the ion hair dryer; and Fig. 3 is an ion dry hair Exploded perspective view of the device; 10 Figure 4 is a perspective view showing the assembled state of the electrostatic atomizing unit that produces the nano-scale ion mist; Figure 5 is an enlarged cross-sectional view of the electrostatic atomizing unit; Figure 6 is a perspective view, Another exemplary notch formed on a perforated plate of a cap electrostatic atomization unit is shown; and 15 Figures 7A and 7B illustrate ion mist in a prior art ion hair dryer in accordance with a first embodiment of the present invention The difference in efficiency of reaching the user. [Description of main component symbols] 1···Ion hair dryer 2···Air flow channel 3...Branch channel 4, 4'... Main body casing 4a... Cover 4b... Left cover 4c... Right cover 4cl·· Hooks 4e, 4g, 4h...screws 4f···shaft holes 5···air inlets 6··air outlets 6a, 6a'...axis 7···hair dryer unit 13 1331907

7a...rotating fan 7b...motor 7c...tubing body 7d...end 7e,8e...jointing member 7f,8f...notch 8··heater unit 8a...body 8b...insulating tubular body 8c...flange 9· ·Discharge electrode 10...opposing electrode 11...ion outlet 11a,11a'...axis 12,12'...electrostatic atomization unit 12g.·Peltier device 13...drum key member 14...grip portion 14a, 14b·· Left and right cover 14c...protrusion 15...power supply line 16...switch 17,17'··perforated plate 17a···main wall 17b, 17b, notch 18...high voltage plate 19...control board 20...ground line 21,24 ...wire net 22...adding ring 23...suction ring portion 25...outlet ring portion 26,26'...nozzle 26a...lower portion 26b···upper part 30...resistor 14

Claims (1)

1331907 X. Patent application scope: 1. An ion hair dryer comprising: an air outlet for spraying cold air or hot air, and an ion outlet for spraying an ion mist, wherein an axis of the air outlet and the ion outlet The axes are offset from each other. 2. The ion hair dryer according to claim 1, further comprising: a main body casing having an air flow passage and a branch passage bifurcated from the air flow passage; a blower unit in the air flow passage that draws in air from a rear side of the air flow passage, and injects intake air from the air outlet formed on a front side of the air flow passage; and is disposed in the branch passage An electrostatic atomization unit having a discharge electrode and an opposite electrode, thereby atomizing a fluid through the discharge electrode and electrostatically charging the atomized fluid, thereby further forming the ion from a front side of the branch passage The outlet sprays a charged mist. 3. The ion hair dryer according to claim 2, wherein the air outlet is formed by a nozzle that is inclined and contracted toward a front end thereof, and the nozzle is close to the ion outlet. One side is more inclined than the side of the nozzle opposite the ion outlet. 4. The ion hair dryer according to claim 2, wherein a porous plate made of an insulator is disposed at the ion outlet, thereby preventing foreign matter from entering the ion outlet. And at the same time, the charged mist is passed, and the perforated plate of 15 1331907 is attached to the inner peripheral surface of the branch passage of the main body casing by a main wall extending from an outer peripheral portion thereof, and the main wall A portion is cut away such that the opposing electrode of the electrostatically atomizing unit is not capped. 5. The ion hair dryer according to any one of claims 1 to 3, wherein an angle between an axis of the air outlet and an axis of the ion outlet is between 12° and 30°. Within the scope. 16