TWI252132B - Electrostatic atomizer - Google Patents

Abstract

Disclosed is an electrostatic atomizer which is capable of generating nano-ion mist for a long time without an operation for supplying water. This device comprises a water-carrying member for conveying water by capillary phenomenon, a water-supplying means for supplying water to the water-carrying member, a pair of electrodes one of which is electrically connected to the water-carrying member while the other is arranged opposite to the water-carrying member, and a voltage-applying means which applies a high voltage between the electrodes for electrostatically atomizing water in the water-carrying member. The water-supplying means comprises a heat exchange unit having a heat-absorbing surface on which dew water is formed by cooling the air.

Description

1252132 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an electrostatically atomized device capable of generating a nano-ion mist. [Prior Art] The nanometer size and charge generated by the charge of moisture The nano-ion fog (nan〇i〇nmist) of the fog (V-electricity particle water) forms a particle size smaller than the 70 nm keratinocyte of the human body, and can replenish moisture to the keratin Moisturizing effect. In addition, the two Kg $ and the like have an effect decomposition, and form a odorless property, and can also be used for the effect of the fineness of the yttrium, and can be used for the production of the 5 ion mist, for example, Japanese Patent Laid-Open Publication No. ^巧6 #u towel area of the electrostatic spray county. For example, the tenth-figure water tank is used for continuous operation, and it is increased. In addition, it is like the problem of the enlargement of the garments. In the case of the water tube 20R, the U is not combined, etc., the water of the impurity is added to the 11 type to form an acid-suppressing process and the oxidation = this "^ carbon dioxide in the air reacts, (10) _, _ static _ ^ ^ ^ The object _ in the capillary structure and the attachment of the oxygen, etc. must be determined for the carbonic acid 1252132 [invention], in the light of the date of the issue (4), the purpose of the invention is not It needs to be troublesome like the inner water of the hidden water cylinder. The water-transporting member of the work and the capillary structure = the quasi-g industry is too long. The electrostatic atomizing device that can operate continuously for a long time is in the water supply, the water supply is controlled by the pipe, the supply means, and the water is supplied. The opposite surface is slightly separated and arranged === hot surface' ^The heat exchange surface is cooled by air to produce dew condensation water, and the water is immersed in the water, and iiiS?τ Water, due to the fact that the present invention can provide a stable nanoparticle ion mist.环保 - 礼 ΐ ϊ 之 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电 静电The presentation is ideal. The electrospray device is ideal for storage containing white blood cells produced by the heat exchange unit. In this case, even in the case of a relatively dry = less amount, the nanoparticle ion mist can be provided by using the water stored in the water storage member. Six i can effectively provide dew condensation water to the water transporting members. In the heat: the water + the hot surface of the water and the hot surface can cool the air, and the water can be transported to the water transport structure. Inside the material. Or, 1252132, which contains a bay surface, water-transporting material, and is ideal for connecting the hot surface of the tree on the surface of the bay. (10) Adding material into the 仃 ♦ location of the collection and then 'the above-mentioned heat exchange unit, in order to be able to be on the heat absorption surface, the air containing the plural 3 connection = spear heat exchange part can be the most tangible 'system due to ίί; The air blower of the ι airflow is preferred. In this case, it is possible to achieve cooling efficiency by sucking ρ ί , and it is ideal for the generation of slaves. ^ i露微:提=:移=^^ The effect of the following is as follows: [Embodiment] The best embodiment of the electrostatic atomization device of the present invention shown in the detail of Figure 3 is: a rectangular cylindrical base 10, and a water-transporting member 2 which is connected to the base 10 and joined to the base 10 as a detachable rectangular cylinder, and a thin tube phenomenon to transport water; and 5 in the water-transporting member on the other side of the water-transporting member The voltage of the electrostatic atomization of the water is applied to the hand slave 5 and the fan 6 disposed in the lower portion of the substrate. As the material of the substrate 10 and the casing 15, the material of the water-transporting member 2 and the casing is η $ +, and the material of the soil is sufficient to use the HZ H vegetable to achieve electrical insulation, and it is also possible to use 1252132 = Gi, to absorb heat. The heat exchange surface of the surface is provided with cooling air to generate dew condensation water. The heat exchange plate 36 includes a heat sinking plate t for connecting one end of the water carrying member, a heat radiating plate 36 of the fan, and a heat dissipating plate 36 disposed on the surface. FI: 0 between the posts ^ 35. In this embodiment, as shown in the third figure, the heat dissipation plate 36 is disposed in the substrate 10, and the surface 32 of the heat absorption plate 31 is in-plane. Further, the upper surface of the heat absorbing plate exposed to the outside air is the lower surface of the heat absorbing plate 31 of the heat absorbing heat absorbing plate 31, which corresponds to the heat radiating surface 37. Cheng: Again, for; the second ' is the heat transfer of Shao and other _ higher material shape ^ and ==: dip the most: post, r is in the heat absorption material. The heat absorption plate 31 of the present embodiment is sealed to have a degree of increase in the amount of depression, and the direction of the central portion (10) of the shape forming portion 33 is concave. At the center, there is a water transport member 2, 円°纟'°. In this case, on the surface of the recess, since the center of the bottom of the recess flows into the recessed water-transporting member 2, it can be effectively supplied =k = the center of the bottom of the recess is transported to the surface member, so the surface 32 is also == effective Dew condensation seeks to achieve miniaturization of the overall device: hydrophobic treatment. Use the Peltier element, but use the 敎 '5 also 3 cross section to make it more sturdy, and the other side 埶 门 尤 尤 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水 吸水The water-transporting member 2 is formed in a columnar shape at the front end. Refers to = (4) in the formation of the emitter-end with the formation of a high density to improve the formation of the Lang, the power line to borrow (four) his new material (# two id), also, the enemy 2 (10) made of the core 2 building components 2 It is also possible to use a porous material which can produce a capillary phenomenon of 1,252,132, such as a pottery, and the like, which is produced by the heat absorption of the heat-absorbing layer 32. In the case of a heat absorbing plate, the dew condensation water is passed through the capillary tube. Now, in the heat absorbing plate 31, the water-forming age of the same body is 2 ^. The rate is determined to be given to the thin hot plate - the electrode 42 has an annular shape, & In this embodiment, the gas =: the mouth 16 The role of the electrode 40, the suction wheel qi = even f in the water carrying member 2 negative

f 40 〇 A HI, 2 42 ^ Sub-mist M. The line is formed to produce high efficiency and high density. The nanometer is connected to the high voltage (=, 42). For example, if the ring electrode 42 is provided with the t-shaped electrode 42, the front end of the water carrying member reaches the water without the lion. (10) Conductors of the following resistance values. In the figure, the element 8 is connected to the power supply control unit of the power supply. The fan 6' in the 1⁄4 f f body 1 is used to cool the heat sink 36; the air conveyed in the heat fan 38 is as shown in the third figure A, near the two ends of the plate 36, by The pair of rows disposed on the substrate i〇 are discharged to the outside. In addition, as shown in FIG. 3B, a portion of the fan gas flow is supplied to the casing 15 via the top surface and the gap 13 provided in the base, and then through the upper opening 16 in the figure, the component number 20 It means that in the concave portion 33 of the heat absorbing surface 32, a water storage member surrounded by 1252132 is provided, and the water can be longer than the example of the yoke, and the porous shell of the filter or the like can be used. For example, if the front end of the water-transporting member 2 is used to take away the "depreciation compared with the amount of dew condensation generated on the bribe 32, the amount is less than the sub-ampere &=^ or the temperature is high," (10) excess condensation The material is transferred to the water storage structure = the amount of nano-particles produced by the front end of the water-transporting member 2 is less than the amount of dew condensation water w produced on the heat-absorbing surface 32 is less ^ day ^ ΪΪ ί ί) If there is a 2G treasury, it should give 2 °. Therefore, even if the temperature or temperature condition is large, it can also produce a nano-ion smog that is stable and stable. Long, second, the above-mentioned electrostatic atomization device The action of 丨 Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ Μ DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC DC The heat absorbing surface 32 of the 31 moves, and then the condensation water W produced by the second 匕 向 is absorbed to the heat 2. For the second pass two:::== liter; = the position has reached the water carrying member 2 =: ί The near water will bear a large amount of energy and will repeat the Rayleigh face forward, and then / ^ pole (grounding f pole or positive) side U two: upper opening 16 and released to the outside Hi 8 drives the fan 6 when it is installed, it can provide the air airflow remaining and will flow into the _ 15 inside the 'Ten ten with two plates 36 cooling, from the plate 36, the space; the second 幵 is difficult to get condensation The water W, however, as in the present embodiment, in the case where the air used to cool the heat sink 36 is discharged to the external exhaust gas guide 1252132 12 on the sole 10, the fatigue condition as described above can be avoided. According to the above-mentioned electrostatic atomization device, the air 6 is guided by the fan 6, and a small amount of nano-ion mist M is spit out to the outside for a short time, and is spit out, and at 20 minutes, due to air. The nature of floating in the middle, so the nano-ion mist can obtain a diversified effect of high moisturizing effect and deodorizing effect. Here, an example of the deodorizing effect of the nano-ion mist containing radicals will be introduced. The deodorizing effect is achieved by a chemical reaction of a odorous gas and a nanoparticle ion mist. Hereinafter, a chemical reaction formula of various odors including radicals and ethylene is used. 0Η” means a hydroxyl radical. ^ · 2ΝΗ3+6 · ΟΗ~>Ν2+6Η2〇Acetaldehyde: CH3CHO+6 · OH+〇2->2C〇2+5H2〇Acetic acid: CH£00H+4 · OH+〇2—2CO2+4H2O Gas: CH4+4 · OH+O2—CO2+H2O Carbon monoxide: CO+2 · Nitric oxide: 2N0+4 · OH—N2+2〇2+2M Furfural: HCHO+4 · OH—ω2+3ΙΜ) Ϊ́ί In the electro-atomizing device, the water secret 1 to produce nano-ion fog is G.5g/h, in a small amount, at the same time, since the pick-up is not generated by condensation from the air, the front end of the member 2 will not be generated (10) 3 or _ _ Things, there is no need to carry out the cumbersome maintenance work to remove the attachments.

, take; ^ structure 'so long without water supply _ continue to produce nano-ion fog. Furthermore, the dew condensation W is like a tap water without containing c. This kind of contact with the air makes it possible, as the protrusion 34, if the position of the surface of the heat absorbing surface 32 that is in contact with the air is 11 and is fixed. Preferably, at each of the front ends, it is preferable that the fine concavities and convexities of the corners are provided on the heat absorbing surface. In this case, in addition to increasing the surface appearance of the heat absorbing surface, it is also possible to promote the formation of a nucleus of condensation to form a liver which is easy to produce, and also a hot surface. For example, the yoke generating means 7 may be provided on the outer peripheral surface of the exhaust duct 12 from which the base 10 of the fifth and sixth figures protrudes. This vibrating means 7 is from the motor 7 : 71 12 , m 2 2 匕 axis, and since it does not shift properly, the vibration is generated by the vibration generating means 7 by the rotation of the hammer 72 The heat absorbing plate 31 of the heat exchange unit 3G will vibrate, and the water transfer member 2 will flow into the body Ϊ Γ Γ Γ Γ , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Off; foot ^. The collection of the dew W, the side to the side of the surface, the best example, it is also best to remove the first air flow of the haze from the nano-ion mist mouth 16 between the endothermic surface, ^n^V, the upper part of the work The air is sent to the lower portion 36, and the heat is discharged to the outside. The first main fan 6 is sent to the side wall C2 of the heat absorbing plate 3i, and the third air flow path C3 is preferably used. The U heat-dissipating plate 36 is discharged to the outside. The ci's 1^ emotion"i,/Temple is driven by the fan 6, so that the flow can be effectively released to the outside by using the wth second empty stream. Further, the second f passes through the third field; Then there is a more effective implementation of the 'heat exchange plate 12 1252132 32 of the heat absorption plate 31 slightly centered on the ^ ^ no 'can have a flat heat absorption surface to effectively dew condensation in this case' from the best on the heat absorption surface 32 Therefore, the water transport member 2, t guide; _ can be financial (four) age shouting position shooting the heart is a radioactive atomization device wrong wrong "the structure of the next, the real = brother 1 heart is the same. Therefore, regarding the ninth figure, the serial number is used by the way, and the overlapping description is omitted. The projections t are subjected to an electrospray device. The sheet 31 has a shape of a ring-shaped water storage member 22 which is formed in a porous shape and is arranged on the plate 31. In addition, the plurality of water-transporting members 2 are arranged to be separated from each other at a specific angle to form an annular water-storing member 22, such as the tenth figure and the tenth figure, Ϊίίί water, The surface of the 39 is effectively supplied to the water disposed in the annular water storage member at 22 °, and the first transport member 2' is transferred to the water transport member 2 by capillary action. Thus, even in the present embodiment, & 曰 曰 1 produces rice ion mist Μ. In the present embodiment, the heat absorbing plate 31 having only the flat heat absorbing surface 32 can be used as in the eighth drawing. - As described above, when the electrostatic atomizing device of the present invention is used, it is not necessary to perform the replenishing work or the troublesome maintenance work of the water-moving member cleaning operation. At the same time, the whole device is easy to be smashed: so it is installed in the warmer, skin care steam oven (Esthe eai^ar) 'air, month, arguing machine' hair dryer, hair quality improvement equipment, indoor illuminator ς ' Lighting fixtures and other equipment can also increase the added value of these machines and look forward to the use of a wide range of uses. 13 ^ 52132 [Simplified description of the drawings] Decomposition of the corpuscle The electrostatic atomization device of the present invention is a plan view of the electrostatic atomization device of the present invention. The wire member shows a front view of the electrostatically atomizing device of the present invention. A side view of the electrostatically atomizing device of the present invention is shown. ί? shows a bottom view of the electrostatically atomizing device of the present invention. The second: R R is the cross-sectional view of the A_A line of the second figure β. A cross-sectional view taken along line B_B of the second figure c.

A cross-sectional view of the electrostatic atomization apparatus of the fifth embodiment of the second modification of the above embodiment is shown.壮 ¥ ☆ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The writing f is a display of the fourth modification of the above-described embodiment. Fig. B is a cross-sectional view showing a fourth modified example. • Back decomposition system shows that the electrostatic atomization device of Embodiment 2 of the present invention

Figure. The tenth figure shows a three-dimensional view of the key parts of the electrostatic navigation device of the first domain. Figure 10B shows a cross-sectional view of the key parts of the static crane device of the ninth figure. Electrostatic atomization device Water transport member 2 Water supply unit ^ 14 1252132

Voltage application means 5 Fan 6 Vibration generating means 7 Power supply control unit 8 Base 10 Exhaust duct 1 2 Clearance 13 Housing 1 5 Upper opening 1 6 Water storage member 2 0 Annular water storage member 2 2 Heat exchange unit 3 0 Heat absorbing plate 3 1 Endotherm 3 2 Recess 3 3 Protrusion 3 4 Peltier element 3 5 Heat sink 3 6 Heat sink 3 7 Fan 3 8 Protrusion 3 9 Electrode 40 Ring electrode 4 2 Motor 70 Motor shaft 7 1 Hammer 7 2 Static Spray device 1R capillary structure 1 0R water tube 2 OR 15 1252132

High-voltage means 3 OR 1st air flow path Cl 2nd air flow path C2 3rd air flow path C3 Nano ion fog Μ Dew condensation W

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Claims (1)

1252132 X. Patent application scope: 1. An electrostatic atomizing device, 1 special electrostatic atomizing device: /, 〜, s has the following structure to transport water by capillary means; and supply water to water carrying member The water is supplied with high voltage between the electric hand and the electric device. The water-transporting member (4) water is electrostatically atomized to contain the hot surface, and the heat exchange unit of the heat-absorbing surface includes: And the heat-dissipating member, and the electrostatic atomizing device described in the first aspect of the patent range between the heat-absorbing member and the heat-dissipating member, and the storage of the dew condensation water generated by the heat exchange unit Water storage component. ^ Bu, the electrostatic atomization device described in the first paragraph of the patent range, and in the hot side of the heart, there are a plurality of grooves, which are cooled on the heat absorption surface and the above-mentioned survey of the wealthy person The water atomizing device according to the first aspect of the invention, wherein the heat absorbing surface of the heat exchange portion includes a dew condensation water obtained by cooling the air on the curved surface 'too r The water is transported to the heat absorbing surface. 1 Chengmulian 6, such as the scope of patent application! According to the electrostatic atomization device described in the section, J Jeng-Jing-Jing has a blower, and the Kyosaki system includes a blower that supplies air flow from the side of the miscellaneous side. , '^ 7, the electrostatic atomization device as described in the scope of application of the patent scope, t the heat exchange portion includes a plurality of heat-absorbing portions 17 1252132 for increasing the contact area with air. Protrusion. 8. The electrostatic atomizing device according to claim 1, wherein the heat absorbing surface has a vibration generating means for imparting vibration. 18