TWI343278B - Nebulizer device - Google Patents

Description

1343278 IX. Description of the Invention: [Technical Field] The present invention relates to an atomization module and an atomization device, and more particularly to an atomization applied to a working fluid and generating driving power through a power source assembly. Module and atomizing device. [Previous technique] According to the solid solution (Lead Ding 11:3 Xian 16; After the excellent piezoelectric characteristics (piezQeleetrie prQperties), erbium bismuth is widely used in various piezoelectric devices, and common applications of piezoelectric materials, such as ultrasonic atomizers, have different types of atomizing transducers. The application ^ has different sighs 50, and generally uses the resonant frequency, power consumption, atomization amount and atomized particles of the transducer as the main distinction. Currently, the ultrasonic atomization on the market is a patentable patent case. No. and patents such as US2008/0023570.

Heat, day-to-day installation in vehicles (such as cars, cars, yachts, etc.): Most of the electricity used to dissipate the atomizer uses electricity from its own battery or the parent-powered tool itself (such as the car-assisted The power illusion is carried out = 'two this' 纟 own battery is dead, the traffic I does not start (such as the car Γ Λ its own power exhaustion (such as battery power), etc., the atomizer generates water vapor to reduce traffic The temperature inside the tool: ': When the two suns are high, the temperature in the vehicle will be high. i: The moment when the vehicle needs to be cooled down, if there is a condition of using the atomizer, if anyone In the vehicle, ] 10958 5 1343278 ^ need to open the air conditioner to relieve the discomfort caused by the high temperature. This benefit: steam: not = get: fog: the device can not be used at this time, if used, 'wood oil In terms of the tools, it is more suitable to go. More s 1' into the fuel consumption of the vehicle, and even for the people in the car, because there is no airborne equipment, dizziness, nausea and other symptoms, and vice versa. "Production..., eight in the JL (such as parking ^ Ping The vehicle in the parking lot or the high-speed car in the air)' is the damage caused by the high temperature inside the tool, and the operation function: Therefore, I1 is early or the food is degraded. In addition, it is currently used by farmers for the pharmacy. Most of the atomizers require a high-powered drive source, thus making the atomizer have a volume of 2 and a heavier weight, and the atomizer needs to be manually sprayed by the medicament. Under high illumination, the farmer needs to carry a large atomizer on the big sun to carry out the spraying of the medicament. Therefore, it is easy to make the heat stroke in the process. In addition, because the farmer is in a certain day or days in a period of time. The spraying operation of the medicine is carried out, so that the amount of the residual drug is very large on the day when the medicine is just finished or within a few days, which undoubtedly causes not only the environmental protection, but also the excessive use of the medicine. It affects the consumer. Therefore, 'how to provide an atomizer that is effectively used at an appropriate time and that can spray the working fluid in a timely and quantitative manner is a problem that the industry is eager to solve. SUMMARY OF THE INVENTION The problems of the above-mentioned conventional techniques are mainly to provide an atomization module and an atomization device 'to be effectively used at an appropriate time' and to perform working fluids in a timely and quantitative manner. 110958 6 1343278 The atomization module disclosed in the present invention is applied to a working fluid, and the atomization module comprises: a power source assembly for generating driving power according to light intensity; an oscillating member, and the power source The component is electrically connected to receive the 'drive power to generate oscillating power; and the atomizing member is connected to the oscillating member and is in contact with the working fluid, and has a plurality of micro holes for receiving the oscillating power Resonating with the working fluid, and atomizing the working fluid by the micropores. The atomizing device disclosed in the present invention is applied to a working fluid, and the fogging device comprises: a receiving component having a chamber a body and a cover body, the chamber body is configured to receive the working fluid, and has a first opening and a second opening, the cover body is configured to cover the cavity body, and when the cover is closed Off the first opening and, at the opening for installing the working fluid to the chamber body; a fluid

«I conductive member, the two ends of which are respectively connected to the first opening and the second opening of the chamber body; and the atomization module is disposed on the fluid conducting member and has a plurality of and the fluid conducting member a spatially connected microhole for generating driving power according to the light intensity, and generating an oscillation® power according to the driving power; wherein the working system is opened when the cover is opened and the working fluid is placed in the chamber body Flowing into the fluid conducting member via the second opening to maintain a pressure balance state, when the cover body covers the chamber body, the first opening is blocked, thereby providing a space for the working fluid in the fluid conducting member An airtight state is formed, and when the atomization module generates vibration power, the atomization module resonates with the working fluid, and the working fluid is atomized by the micro holes. The atomizing device disclosed in the present invention is applied to a working fluid, and the mist 7 110958 1343278 » *1 device includes: a receiving assembly' having a chamber body and a cover body for receiving the working fluid And having an opening, the cover body is configured to cover and close the chamber body, and the working fluid is disposed in the chamber body, the body, and the atomization module when being opened, and is disposed at the opening of the receiving component And having a plurality of micropores communicating with the far opening for generating driving power according to the light intensity, and generating an oscillating power according to the driving power, so that when the working fluid is placed in the chamber body, The working fluid resonates and atomizes the working fluid by the micropores. As described above, the atomization module of the present invention generates driving power to the oscillating member according to the light intensity by the power source component, thereby generating an oscillating power to the mist and resonating the working fluid with the working fluid. The micro-holes atomize the working fluid, and the atomizing device of the present invention receives the cooperation of the accommodating component having the working fluid and the atomizing module, and selectively increases the fluid conducting member. The atomization module generates the effect of ft when generating the power. Compared with the prior art, the present invention uses the power source component=force, thereby enabling the use of the atomization module and the atomization device of the present invention, and Workflow can be carried out in a timely and quantitative manner: 2::2 is not the condition of the two devices that are used for traffic work in the conventional technology, resulting in increased fuel consumption, damage to the item, deterioration of the food in the medium=2 If the situation occurs, it will not be as good as the conventional technology, and the effect of the implementation of the system. The following is a description of the embodiments of the present invention by way of a specific embodiment, which is to be understood by those skilled in the art, and other advantages and effects of the present invention can be readily appreciated by those skilled in the art. The present invention may be carried out or applied by other specific embodiments, and various modifications and changes may be made without departing from the spirit and scope of the invention. As shown in Figures 1 to 8, it is a related diagram of the atomization module and the atomization device of the present invention. It should be noted that the drawings are simplified schematic diagrams, and only the basic architecture of the present invention is illustrated in a schematic manner. Therefore, only the elements related to the present invention are shown in the drawings, and the elements shown are not drawn in the actual number, shape, and size ratio, etc., and the actual number, shape, and size of the actual implementation. The ratio is a selective design and its component layout may be more complex, as described earlier. - Figure 1 is a block diagram showing an embodiment of the atomization module of the present invention. In the figure, the atomization module of the present invention is applied to a working fluid (not shown). The working fluid can be, for example, water, a medicament, and an essential oil. The atomization module i includes a power source assembly 10, an oscillating member 11, and an atomizing member 12. The following is a detailed description of the embodiments of the above-mentioned atomization module 本 included in the present invention: The power source unit 1 is used to generate driving power in accordance with the light intensity. In this embodiment, the power source assembly 10 further includes: a solar panel 100, a control IC1CU, a solar cell 102, an inverter i〇3, and an illuminance switch 104, wherein the solar panel 1 is used for Receiving solar radiation to generate DC driving power, the control Icl〇1 is electrically connected to the solar panel 100 for receiving and transmitting the DC driving power, 110958 9 1343278 • * · ' The solar battery 102 is connected with the control The IC1 01 is electrically connected to receive the DC drive power of the sub-storage 2, and the transducer 103 is electrically connected to the solar cell '102 for receiving the DC drive power to generate an AC drive power. The switch 104 is electrically connected to the transducer 103 for providing the AC driving power to the oscillating member π according to the intensity of the solar sun. When the oscillating member π is implemented continuously, the control may be as shown in the figure. The solar cell 102, the transducer 103, and the photometric switch 1〇4 are disposed on a circuit board 105. > In addition, in other embodiments (not shown), the power source assembly may include a battery and a switch, wherein the battery is electrically connected to the switch and stored. There is DC drive power. In actual implementation, the battery can be, for example, a disposable battery, a rechargeable battery, a fuel battery, etc., and the switching relationship is related to the solar battery! 〇2 and the battery are electrically connected for the user to perform the selection of the solar cell cartridge 2 and the pool by switching, and the battery in this embodiment is configured to act as a source of spare force. Of course, in another embodiment (not shown), the power source component 10 can be supplemented with a power switch 'for powering on or off (On/Ofi) 'so 'in some cases, for example when using After the power is turned off, because the sun is illuminating the solar panel, the solar battery continues to store power in the battery 102, or the power stored in the solar cell battery 102 is not exhausted when used previously. The power is turned off, so when the user turns on the power again, the atomization module of the case can be directly driven by the power stored in the solar cell 1〇2, without being used when the sun is high, therefore, the foregoing The added battery is not necessary. 110958 10 1343278 The vibration salt member 1 is electrically connected to the power source assembly j to receive the driving power to generate a vibration force. In this embodiment, the vibrating member is a vibrating element (four) 'the material is a piezoelectric material. In actual implementation, the oscillating member 11 can be located in the atomizing as shown in the second (A) and 2 (B) drawings. The center of the piece 12. Of course, in other embodiments, the shape, the number, and the position of the oscillating member u can also be designed according to requirements, and are not limited by the embodiment, as shown in Figures 3(A) and 3(B). The oscillating member u can be an oscillating block or an oscillating plate, and the position of the oscillating member π can be located on a lug side of the atomizing member 12, and when the oscillating member is two oscillating blocks or oscillating plates, the position thereof It can be located on both sides of the atomizing member 12. The atomizing member 12 is connected to the oscillating member U, and is disposed on the oscillating member 11 and is in contact with the working fluid, and has a plurality of micro holes 12 接收 for receiving the oscillating power to resonate with the working fluid. And the working fluid is atomized by the micropores 120. In the present embodiment, the atomizing member 2 is a porous membrane. As shown in Figures 4(A) and 4(B), it is a schematic diagram of two embodiments of the structure of the micro-hole 120 on the atomizing member 12 of the mist scented module 1 of the present invention, wherein, if The micro-hole 12〇 structure of Fig. 4(A) can make the working fluid produce a concentrated and straight-line spray effect when atomizing. If the micro-hole structure of Figure 4 (B) is applied, Since the micropores 110 are disposed on the atomizing member i 2 in an eccentric manner, the working fluid can be made to have a more dispersed spray effect upon atomization. Of course, the two micro-hole 12 〇 structures exemplified herein are for illustrative purposes only, and are not intended to limit the micro-hole 12 〇 structure that can be implemented by the present invention. In practice, the micro-hole 丨 2 〇 structure can also be performed according to requirements. The design, for example, is a combination of the above two types of micro 110958 11 丄 278 ^ hole 12G structure. In addition, in order to atomize the micro-pits to produce better micro-droplets, the micro-atom of the atomizing member a is preferably δ (3 micrometers or less). The micropores 12〇: the shape may be symmetrical or asymmetrical, and the micropores are filled with a material having a low surface energy. The knowledge is that the atomization amount of the atomization module of the present invention is According to the forced change of sunshine, for example, the stronger the intensity of the sunshine, the power source component provides 赦: the higher the driving power, the oscillating power of the oscillating member u is also, and therefore, the atomizing member 12 is fogged with the working fluid. The higher the amount, the better the heat dissipation effect is better for the vehicle. Conversely, if the == intensity is weak or even no sunshine, the atomization amount is lower or even stopped, and the atomization is atomized. It can reduce the water and gas of the transportation equipment (4), so as not to make the air in the vehicle too humid.

As shown in Fig. 5, 'the embodiment of the atomizing device of the present invention is shown in the figure'. The atomizing device of the present invention is applied to the working fluid (not being used). For example, water, a medicament, and a moon oil, etc., the atomization device includes: a housing assembly 2, a fluid conducting member 3, and an atomizing module, which are implemented for the above-mentioned various objects included in the atomizing device of the present invention. DETAILED DESCRIPTION OF THE EXAMPLE: The accommodating unit 2 has a chamber body 2〇 and a cover body 21, and the chamber body (4) is used to accommodate a fluid, and has a first opening _ with a σ 201, 6 hood 21 以 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 盖 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , In the present embodiment, the first opening 2 (10) 110958 12 1343278 is located at the upper end of the chamber body 20 and the cover body 21 covers the chamber body 20, and the second opening 2〇1 is located in the chamber body. At the lower end. - The two ends of the fluid conducting member 3 are respectively connected to the first opening 2 and the second opening 201 of the chamber body 2''. In this embodiment, the fluid conducting member 3 is a plastic material conduit, such as (4) a hose: the atomizing module 1 is disposed on the fluid conducting member 3, and has a plurality of fluid conducting members. The micro-holes connected in the space of 3 are used to generate driving power according to the light intensity, and generate an oscillating dynamic force according to the driving power. In this embodiment, the atomization module 1 further includes: a power source component, a vibration component, and an atomization component, wherein the power source component is configured to generate driving power according to the intensity of the light, and the oscillating component is coupled to the power The source component is electrically connected to receive the driving power to generate the oscillating power, and the atomizing member is connected to the oscillating member, such as disposed on the oscillating member, and has a plurality of spaces with the fluid conducting member 3 (4) Connected micro-holes for receiving the vibrating power to resonate with the working fluid, and atomizing the working fluid body by the micro-holes, wherein the power source assembly further comprises: a solar panel, a control ic a solar cell, a transducer, and a photometric switch, wherein the solar panel is configured to receive solar radiation to generate direct current driving power, and the control lc is electrically connected to the solar panel for receiving the DC driving power and transmitting The solar cell is electrically connected to the control IC for receiving and storing the DC driving power, and the transducer is electrically connected to the solar cell for receiving the DC driving power AC drive power generated, the opening degree of the relation to the optical transducer is electrically connected to provide the parent Rong sun sunlight intensity by a flow drive power to the oscillating member. In addition, in other embodiments 110958 13 1343278, the power source component may include: the battery system is switched, the pm switch is 'in', and the DC drive power is generated, and the battery is used. For example, it may be a secondary battery, a rechargeable fuel cell, or the like, and the switch-on relationship is connected to the ground; and the battery is connected to the battery and is connected to the battery for the user to switch through the ^^^; The selection of the solar cell and the χ 池 , , , 该 该 该 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 振荡 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能Or - side or both sides and the atomizing member is a porous membrane, the shape of the hole may be dragon or asymmetry, and the material of the micropores is a material partially filled with low surface energy. It should be noted that, in this embodiment of the service device of the present invention, the atomization module of the present invention is combined with the aforementioned atomization module! The effect is similar, therefore, the atomization module! The detailed components included are not shown in the figure. However, in actual implementation, refer to the above-mentioned atomization module (Fig. 2(A), 2(B), 3(A), 3(B). , 4(A) and 4(B) diagrams) and related instructions. [4] In the above, when the user opens the cover 21 and inserts the working fluid and the cavity into the body 20, the workflow system flows into the fluid conducting member 3 via the second opening 2 to maintain In the state of repeated force balance, when the cover body 21 covers the chamber body 20, since the first opening 2 is blocked, the space of the working fluid of the fluid conducting member 3 (four) working fluid is formed into a state of paralysis. When the atomizing module generates the oscillating power, the atomizing module 1 resonates with the working fluid, and atomizes the working fluid by the micro holes, which is additionally illustrated as shown in FIG. It is shown that during the atomization process, since the space of the working fluid 4 in the fluid conducting member 3 is in a state of airtightness 14 Π 0958 1343278, a function similar to a pump is generated, that is, the work is performed. When the fluid 4 is atomized into micro-droplets and diffused, the second: • the fluid 4 in the fluid-conducting member 3 is reduced, so that the fluid-conducting member 3 exhibits a negative pressure state, and Having a pressure capable of accommodating the inside of the chamber body 2G of the accommodating unit 2 The fluid 4 is sucked into the fluid conducting member 3 by the 6-inch opening 201. During the atomization process, the working fluid 4 accommodated in the chamber body of the receiving assembly 2 is continuously supplied. Into the fluid conducting member 3, until the working fluid 4 in the chamber body 20 of the receiving assembly 2 is used up: / straw, that is, it is not necessary to replenish the working fluid 4 in the chamber body of the housing 2 in a short time 2 〇. In addition, since the atomization module I is disposed on the fluid conducting member, and the fluid conducting member 3 is not fixed to the receiving assembly 2 (only the first opening of the receiving assembly 2 is opened.. 2 () () is in communication with the second opening 2 () 1), that is, 'the atomizing mold 1 can be freely adjusted in position, so it is extremely convenient. The use of 1 is as shown in Fig. 7 'is another embodiment of the atomization device of the present invention. The atomization device of the present invention is applied to a working fluid (not implemented continuously). The working fluid may be, for example, water, a medicament, an essential oil, etc. 'The atomizing device includes: a receiving component 2 and an atomizing module.] = The following is performed on the exposed objects included in the atomizing device of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT: The gluten component 2 has a chamber body 2〇 and a cover body 21 for receiving the working fluid and having an opening 202, ;0958 】5 1343278 body 21 The chamber body 20 is configured to be closed, and the working fluid is placed in the chamber body 20 when it is opened. In the embodiment, the opening 2〇2 is located at the lower end of the chamber body 20. The modulating module 1 is disposed at the opening 2 〇2 of the accommodating component 2, and has a plurality of micropores communicating with the δH opening 20 2 for generating driving power according to the optical intensity, and according to the driving power Oscillation power is generated to allow the working fluid to be placed in the chamber body 20 Resonating with the working fluid, and atomizing the working fluid by the micro-holes (as shown in Fig. 8). In the embodiment, the atomizing module i includes: a power source component, An oscillating member and an atomizing member, wherein the power source assembly is configured to generate driving power according to the light intensity, and the oscillating member is electrically connected to the power source assembly for receiving the driving power to generate oscillating power, The atomizing member is connected to the oscillating member, such as disposed on the oscillating member and having a plurality of micropores communicating with the opening 202 for receiving the oscillating power to resonate with the working fluid and by the micro The hole atomizes the working fluid, wherein the dynamic force component further comprises: a solar panel, a control panel, a solar cell, a transducer, and a photometric switch, wherein the solar panel is used to receive a sun exposure. a DC drive power, the control IC is electrically connected to the solar panel to receive and transmit the DC drive power, and the solar battery is electrically connected to the control device 接收 for receiving and storing the DC drive Power, the transducer is electrically connected to the solar cell for receiving the DC driving power to generate AC driving power, and the photometric relationship is electrically connected to the transducing body for providing the intensity according to the intensity of the sun The AC drive power is supplied to the oscillating member. Further, in other embodiments, the power source assembly is responsive to the electrical connection of the battery unit and the battery unit. Dynamic power, in actual implementation, the electric =:::==== is the material, the vibration piece is left in the towel or the side of the materialized part == the atomizing part is a porous membrane, the micropores The shape of the hole can be nicknamed, the material of the micro-cavity is partially filled with a low surface: ... "It is obvious that this embodiment of the atomizing device of the present invention is the same as the atomizing module described above. The role of 丨 is similar, so the detailed components included in the chemistry module 1 are not shown, but when it is interesting, please refer to the aforementioned atomization module! The figure (the ^(4) meaning ^, 3 (A), 3 (B), 4 (a) and 4 (B) diagram) and related description. In addition, since the opening 202 is located at the lower end of the chamber body 2, the atomization module is spring! It is disposed at the opening 2〇2 of the accommodating assembly 2, so that during the atomization process, the working fluid contained in the chamber body 20 of the accommodating assembly 2 can be completely squirted without being The working fluid is replenished in the chamber body 2 of the receiving assembly 2 in a short time. Furthermore, since the atomization module in the embodiment is disposed at the opening 202 of the accommodating assembly 2, it is stolen from the wall surface of the lower end of the chamber body 20, and therefore, if placed outdoors or under the pan, Reduce the impact of the day a rain shower on the fog (four) ^. Of course, in the above-mentioned atomization module and the use of the atomization device, Π0958 17 1343278 can also be used with a fan or other device to increase the spray range of the micro-liquid droplets generated by atomization. Moreover, the atomization module of the present invention and the atomization device in the atomization device can simultaneously use a plurality of oscillating members with different driving frequencies, and are driven by multi-frequency power, so that a plurality of oscillating members can simultaneously perform different frequencies. The micro-droplet spray operation 'produces more morphological effects. In summary, the atomization module of the present invention generates a driving power to the atomizing member by the power source component according to the light ',, and the intensity generates the driving power to the oscillating member, so that the atomizing member and the working portion The fluid resonates, and the working fluid is treated by the micropores, and the atomizing device of the present invention is matched with the atomizing module by having a receiving component for accommodating 5 working fluid The fluid conducting member is increased to generate an atomizing effect when the atomizing module generates the oscillating power. Compared with the prior art, the present invention generates a driving force by using a power source component, whereby the atomizing module and the atomizing device of the present invention can be effectively used, for example, a vehicle. Parked under the sun, Erlu = when the vehicle is operating under the sun, it is the right time to heat up the traffic/eighth, and since the power source component of the present invention generates driving power according to the light intensity, Therefore, you don't need to be extra to operate on your own. 〃# 缺 Furthermore, when the atomization module and the atomization device of the present invention are applied to the drug work day, the atomization module and the atomization device of the present invention can be placed in one or some of Chentian. Position, so that when the sun is shining every day, the medicine is read automatically, so that the working fluid can be sprayed in a timely and quantitative manner. 110958 18 1343278 In other words, the application of the invention is the application of the nuclear group and the fog. The chemical device can not only avoid the use of the traffic technology in the conventional technology, but also the situation of the inability to use the chemical, causing fuel consumption, damage to the goods, or deterioration of the food. Occurs, early A, and the rule J avoids the use of the T-work for the pharmacy in the prior art,

And affecting the situation of the consumer, pull + Β ^ ^ θ U A ancient ~ A ' can be effectively used at the appropriate time ' and can be timely quantified. The purpose of spraying the untwisting working fluid is to exemplify the principles of the invention and its functional soil and not to limit the invention. Any person skilled in the art can modify and modify the above embodiments without departing from the spirit and scope of the present invention. Therefore, the rights of the present invention are beneficial to the m ^ ^ heart (four). If you only work around, you should apply for a patent as described below. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing an embodiment of an atomizing module of the present invention; w • Figs. 2(A) and 2(8) are vibration parts of the atomizing module of the present invention. Schematic diagram of two embodiments of the atomizing member; FIGS. 3(A) and 3(B) are schematic views showing two other embodiments of the vibrating member and the atomizing member of the atomizing module of the present invention; (A) and 4(B) are schematic diagrams of two embodiments of the structure of the orifice of the atomizing module of the atomizing module of the present invention; FIG. 5 is an atomizing device of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 6 is a schematic diagram of an embodiment of an atomizing device of the present invention. 110958 19 Ϊ 343278 <· * FIG. 7 is a schematic view of another embodiment of the atomizing device of the present invention. And Figure 8 is a schematic diagram of another embodiment of the atomization device of the present invention. [Main component symbol description] 1 atomization module 10 power source assembly 100 solar panel 101 control 1C 102 solar cell 103 transducer 104 photometric switch 105 circuit board 11 oscillating member 12 atomizing member 120 micro hole 2 housing assembly 20 cavity Chamber body 200 first opening 201 second opening 202 opening 21 cover body 3 fluid conducting member 4 working fluid 20 110958

Claims (1)

W3278 t 'Application for patents · · 'Two kinds of atomization modules are applied to the working fluid. The atomization module includes at least: a power source component for generating driving force according to the light intensity; % vibrating parts, Electrically connected to the power source component for receiving and driving electric power to generate oscillating power; and the miscellaneous item is connected to the slit (four), and is fluidly connected to the king, and has a plurality of micro-holes for The vibration power is received to resonate with the μ working fluid, and the working fluid is atomized by the micro holes. 2· Please ask for the scope of patents! The atomization module of the item, wherein the moving component comprises: a solar panel for receiving direct current driving to generate direct current driving power; and an control 1C electrically connected to the solar panel for receiving the direct current driving power And transmitting, the solar cell system is electrically connected to the (four) ic for receiving and storing the DC driving power; the transducer is electrically connected to the solar cell for receiving the DC driving power to generate an alternating current The driving power; and the photometric switch is electrically connected to the transducer for providing the AC driving power to the vibrating cover according to the intensity of the solar illumination. 3. The atomization module of claim 2, wherein the power source 110958 21 1343278 comprises: a battery electrically connected to the transducer and storing DC drive power; and a switch, The solar cell and the battery are electrically connected to the user for switching the solar cell and the selection of the battery. 4. The atomization module of claim 3, wherein the battery is one of a secondary battery, a rechargeable battery, and a fuel battery. The atomization module of claim </ RTI> wherein the oscillating member is selected from the group consisting of an oscillating ring, an oscillating block, and an oscillating plate. The atomization module of claim 5, wherein the material of the oscillating member is a piezoelectric material. 7. The atomizing module of claim 5, wherein the atomizing module is located in the center or one side or both sides of the atomizing member. The atomization module of claim 7, wherein the atomization module is a porous membrane. = The atomization module of item 8 of the δ month patent range, in which the shape is symmetrical or asymmetrical. • = The atomization module of claim 8 of the patent scope, wherein the material of 5 is a material that is partially filled with low surface energy. • = Please request the atomization module of item 1 of the patent range where u h is one of water, chemicals and essential oils. 'Mist fog: π # f , y ^ έ , set, applied to the working fluid, the atomizing device comprises: d assembly, having a chamber body and a cover body, the chamber is »5. 6. the vibrating cover The atomizing member, the micropores, the micropores, the working flow] 10958 22 12. 1343278, the body is configured to receive the working fluid, and has a first opening and a second opening to cover the cavity When the chamber body m is closed, the first opening is blocked, and when the opening is opened, the working fluid is placed in the chamber; the fluid conducting member' is connected at its two ends to the first opening of the chamber body, respectively. a second opening; and a chemistry group, disposed on the fluid conducting member, and having a plurality of micropores communicating with the space in the fluid conducting member for generating driving power according to the light intensity, and The driving power generates an oscillating power; wherein, when the cover is opened and the working fluid is placed in the chamber body, the working fluid flows into the fluid conduction through the second opening to maintain a pressure balance state, When the cover covers the chamber body, The first opening is blocked', so that the fluid conducting member has a spatially dense state of the working fluid, and the atomizing module and the working fluid are when the atomizing group produces the oscillating power Resonance, subgrain atomizes the working fluid by the micropores. The atomizing device of claim 12, wherein the first: is located at an upper end of the chamber body and the cover covers the chamber, and the first opening is located at a lower end of the chamber body . The atomizing device of the twelfth item, wherein the fluid 'd' is a plastic material. 15. If the patent application Fan Feidi module includes: 2 service devices, wherein 'the atomization 110958 23 1343278 power source component' is used to generate driving power according to the light intensity; the oscillating member 'and the power source The component is electrically connected to receive the driving power to generate vibration power; and the atomizing member is connected to the oscillating member and has a plurality of micropores communicating with a space in the fluid conducting member for receiving The vibrating cover is responsive to the working fluid and atomizes the working fluid by the microvoids. / # 16. The atomization device of claim i, wherein the power source component comprises: a solar panel for receiving solar radiation to generate direct current driving power; The board is electrically connected to receive and transmit the DC driving power; the solar battery is electrically connected to the control 1C for receiving and storing the DC driving power; the transducer is electrically connected to the solar battery And a photometric switch electrically connected to the transducer for providing the AC drive power to the vibrating element according to the intensity of the solar illumination. The atomizing device of claim 16, wherein the power source component comprises: a pool ' electrically connected to the transducer and storing a direct current driving power; and a 110958 24 1343278 switch, And the solar cell and the battery are connected to the user for switching the solar cell to select the battery.匕i池 and 18. If the patent application scope is 〖7 Π — w + Bei's chemist clothing, where the battery is one-personal% pool, rechargeable battery and one of the fuel cells. The range 15 . . . , the device, wherein the oscillation is one of the self-oscillating ring, the oscillating block, and the oscillating piece. #20. As claimed in the patent application, the material of the oscillating member is a piezoelectric material. 21. The atomizing device of claim 19, wherein the oscillating member is located at a center or one or both sides of the atomizing member. 22. The atomizing device of claim 21, wherein the atomizing member is a porous membrane. 23. The atomizing device of claim 22, wherein the micro φ holes are symmetrical or asymmetrical in shape. 24. The atomizing device of claim 22, wherein the material of the micropores is a material that is partially filled with low surface energy. 25. The atomizing device of claim 12, wherein the workflow system is one of water, a medicament, and an essential oil. 26. An atomizing device for use in a working fluid, the atomizing device comprising: a housing assembly having a chamber body and a cover, the chamber being configured to receive the working fluid and having an opening, The cover body is used for covering the surface 5 to the body, and when the opening is opened, the working fluid is placed in the cavity 25 110958 1343278; and the breaking module is disposed at the opening of the receiving component, and has a plurality of a micro hole communicating with the opening for generating driving power according to the illumination intensity J, and generating an oscillating power according to the driving power, so as to resonate with the working fluid when the working fluid is placed in the cavity to the body content The working fluid is atomized by the micropores. 27. The atomizing device of claim 26, wherein the opening is located at a lower end of the chamber body. 28. The atomizing device of claim 100, wherein the atomizing module comprises: a power source component for generating a driving force according to a light intensity; a % ^ oscillating member, and the power source The component is electrically connected to receive the oscillating power to generate the oscillating power; and the atomizing component is connected to the oscillating member, and has a plurality of micro-holes communicating with the read-out port to receive the The vibrating force resonates with the working fluid and atomizes the working fluid by the micropores. 29. The atomizing device of claim 28, wherein the source component comprises: a knife power solar panel is configured to receive a solar radiation control to generate a DC drive control 1C' system electrically connected to the solar panel , for receiving the straight ~ drive power and transmitting; ^ solar battery, is electrically connected with the control ic, used to connect] 〇 958 26 1343278 to collect and store the DC drive power; transducer, and The solar cell is old, * π* and the package connection 'is used to receive the μ straight drive power to generate AC drive power; and the photometric switch is connected with the strong output of the crying Lei Bu Yang Zhaozhao' According to the "Taiwan" power supply to the oscillating member. • According to the scope of claim 29, the fog source component includes: #化装置, where 'the power, the pool' is electrically connected to the transducer, and The direct-drive power is stored; and the switch is electrically connected to the solar cell and the battery for the user to switch to perform the solar energy. The battery is selected. The atomizing device of the item 3, wherein the battery is one of a disposable battery, a rechargeable battery, and a fuel cell. The atomizing device of claim 28, wherein the vibration device The atomizing device is the one of the oscillating ring, the oscillating block, and the oscillating plate. The material of the oscillating member is a piezoelectric material. The atomizing device of item 32, wherein the vibrating member is located at a center or one side or both sides of the atomizing member. 35. The atomizing device according to claim 34, the towel, the atomizing member It is a porous membrane. 36. For example, the atomization device of the patent scope 帛35, t, the shape of the pores of the 0958 27 1343278 is symmetrical or asymmetrical. 37. The atomizing device, wherein the material of the micro-hole is a material for partially filling a low surface energy. 38. The atomizing device of claim 26, wherein the working system is water, a medicament, and One of the essential oils. _ 28 ]10958