TW201540373A - Ultrasonic atomizer, ultrasonic humidifier, and ultrasonic aroma vaporization device - Google Patents

Ultrasonic atomizer, ultrasonic humidifier, and ultrasonic aroma vaporization device Download PDF

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TW201540373A
TW201540373A TW104103252A TW104103252A TW201540373A TW 201540373 A TW201540373 A TW 201540373A TW 104103252 A TW104103252 A TW 104103252A TW 104103252 A TW104103252 A TW 104103252A TW 201540373 A TW201540373 A TW 201540373A
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ultrasonic
liquid
container
perforated plate
opening
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TW104103252A
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TWI556873B (en
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Nobuyuki Kishine
Hatsume Fujita
Asako Furuta
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Ryohin Keikaku Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B17/00Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups
    • B05B17/04Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods
    • B05B17/06Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations
    • B05B17/0607Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations generated by electrical means, e.g. piezoelectric transducers
    • B05B17/0615Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations generated by electrical means, e.g. piezoelectric transducers spray being produced at the free surface of the liquid or other fluent material in a container and subjected to the vibrations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B17/00Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups
    • B05B17/04Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods
    • B05B17/06Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations
    • B05B17/0607Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations generated by electrical means, e.g. piezoelectric transducers
    • B05B17/0638Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations generated by electrical means, e.g. piezoelectric transducers spray being produced by discharging the liquid or other fluent material through a plate comprising a plurality of orifices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • F24F6/12Air-humidification, e.g. cooling by humidification by forming water dispersions in the air

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Dispersion Chemistry (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Special Spraying Apparatus (AREA)
  • Air Humidification (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)

Abstract

The objective of the present invention is to provide an ultrasonic atomizer which has better liquid atomization performance than a conventional ultrasonic atomizer, and which is more compact and is capable of efficiently atomizing a liquid with less power consumption. The present invention is an ultrasonic atomizer that applies ultrasonic vibration to a liquid in a container, thereby forming a liquid ridge part and/or a spray part and atomizing the liquid. This ultrasonic atomizer is characterized in that a recessed part is provided in the bottom part of the container, an ultrasonic vibrator is arranged in the base of this recessed part, a metal washer-shaped member having an aperture at the center of the recessed part or a container base plate having an aperture at the center of the recessed part is arranged covering the recessed part, and a porous plate in which numerous minute through-holes are formed and an arrangement means for arranging this porous plate in a prescribed position are provided, with the porous plate being attached to the arrangement means via an elastic retaining member, and, by means of this arrangement means the porous plate is arranged in a position such that the lower surface of the porous plate makes contact with the liquid ridge part and/or the spray part formed when the ultrasonic vibration is occurring.

Description

超音波霧化裝置 Ultrasonic atomization device

本發明關於一種利用超音波振動來霧化容器內的液體之超音波霧化裝置,特別是關於一種小型且藉由少量的消耗電力便能夠有效率地進行霧化之超音波霧化裝置。 BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to an ultrasonic atomizing device for atomizing a liquid in a container by ultrasonic vibration, and more particularly to a supersonic atomizing device which is small and can be atomized efficiently with a small amount of power consumption.

以往,已知一種超音波霧化裝置,其利用超音波振動器的超音波振動來將水等液體霧化而用於加濕器或吸入器(inhaler)等之中。此超音波霧化裝置,將超音波振動器設置在容器內的液體中,並將高頻電壓施加到此超音波振動器而產生超音波振動,此超音波振動的能量傳送到液面,使液面的一部分隆起而形成液體隆起部,自此處產生細微的霧化粒子。 Conventionally, an ultrasonic atomization device has been known which uses ultrasonic vibration of an ultrasonic vibrator to atomize a liquid such as water for use in a humidifier, an inhaler or the like. The ultrasonic atomizing device sets an ultrasonic vibrator in a liquid in a container, and applies a high-frequency voltage to the ultrasonic vibrator to generate ultrasonic vibration, and the ultrasonic vibration energy is transmitted to the liquid surface, so that A portion of the liquid surface is raised to form a liquid ridge, from which fine atomized particles are generated.

利用此超音波振動來產生霧的原理,被認為是對液體賦予超音波振動,以在液面和液體內部產生固有頻率的毛細波(表面張力波,capillary wave)和空洞現象(cavitation),藉此在液面製造無數個毛細波,以產生霧狀的微細的水滴。 The principle of using this ultrasonic vibration to generate fog is considered to impart ultrasonic vibration to the liquid to generate capillary waves and cavitation of the natural frequency inside the liquid surface and the liquid. This produces an infinite number of capillary waves on the liquid surface to produce misty fine water droplets.

在上述這種以往的超音波霧化裝置中的霧化,因為放任對液體中所放出的超音波振動的指向性,所以並未有效地使用全部的超音波振動的能量來進行霧化,又,因為液體的毛細波也是自然產生,所以自形成於液面上的液體隆起部 所產生的霧化粒子算是偶然得到的產物,而造成霧化效率惡化。進一步,放出到液體中的超音波振動在水面反射,由於此種反射波的超音波振動到達超音波振動器,而干擾到藉由超音波振動器所產生的振動波,其結果,有時會妨礙到藉由超音波振動器所產生的超音波振動,而造成霧化效率惡化。 In the above-described conventional ultrasonic atomization device, the atomization of the ultrasonic wave emitted by the liquid is not directional, so that the energy of all the ultrasonic vibrations is not effectively used for atomization. Because the capillary waves of the liquid are naturally generated, the liquid ridges formed on the liquid surface The atomized particles produced are counted as accidental products, resulting in deterioration of atomization efficiency. Further, the ultrasonic vibration emitted to the liquid is reflected on the water surface, and the ultrasonic vibration of the reflected wave reaches the ultrasonic vibrator and interferes with the vibration wave generated by the ultrasonic vibrator, and as a result, sometimes The atomization efficiency is deteriorated by obstructing the ultrasonic vibration generated by the ultrasonic vibrator.

反過來說,此種情況在以往的超音波霧化裝置中,會造成為了得到預定的霧化量,而使超音波振動器的動作,必須是以包含對於霧化沒有貢獻的無用的超音波振動成分的形式來產生超音波振動,因此意味著必須要有大的驅動電力,而有電力無用地消耗的問題。 Conversely, in the case of the conventional ultrasonic atomizing device, in order to obtain a predetermined amount of atomization, the operation of the ultrasonic vibrator must be such that it contains useless ultrasonic waves that do not contribute to the atomization. The form of the vibration component produces ultrasonic vibration, which means that it is necessary to have a large driving power, and there is a problem that power is consumed uselessly.

又,利用以往的超音波霧化裝置所產生的霧化粒子,是自藉由超音波振動在液面所形成的液體隆起部而放任自然地形成,因為僅是如蒸氣般緩緩升起,所以必須設置風扇等以送風的方式搬送來使所產生的霧飛散到想要的方向。又,因為液體隆起部是形成在液面,所以容易在界面產生液體飛沫,而有液滴容易飛散的問題。 Moreover, the atomized particles generated by the conventional ultrasonic atomizing device are naturally formed by the liquid bulging portion formed on the liquid surface by ultrasonic vibration, and are only slowly raised like steam. Therefore, it is necessary to provide a fan or the like to convey the air to cause the generated mist to fly in a desired direction. Further, since the liquid swelled portion is formed on the liquid surface, it is easy to generate liquid droplets at the interface, and there is a problem that the liquid droplets are easily scattered.

進一步,如上述,以往的超音波霧化裝置,因為用以使超音波振動器進行動作的驅動電力大,所以超音波振盪電路容易發熱,而需要冷卻風扇來冷卻此超音波振盪電路。又,在水用完等這樣的沒有要霧化的液體而變成無負荷狀態的場合,恐怕會因為發熱等而造成超音波振盪電路破損,所以也必須設置破損防止電路。因此,以往的超音波霧化裝置,會有電路和裝置大型化這樣的問題。 Further, as described above, in the conventional ultrasonic atomization device, since the drive power for operating the ultrasonic vibrator is large, the ultrasonic oscillation circuit is likely to generate heat, and a cooling fan is required to cool the ultrasonic oscillation circuit. In the case where the liquid to be atomized is used in a no-load state, such as when the water is used up, the ultrasonic oscillation circuit may be damaged by heat or the like. Therefore, it is necessary to provide a damage prevention circuit. Therefore, the conventional ultrasonic atomizing device has a problem that the circuit and the device are increased in size.

針對這些以往的超音波霧化裝置的問題點,提案有 一種超音波霧化裝置(參照專利文獻1),其在超音波振動器的對向側的液體中配設筒體,該筒體使自超音波振動器朝向遠離的方向傳播的超音波振動集中,藉此有效地利用超音波振動的能量來實現穩定的霧化量,且有助於低消耗電力化和小型化。然而,此發明雖然使用筒體來使超音波振動集中而提高超音波振動的能量來提升霧化效率,但是在液面形成液體隆起部而使霧化粒子自然產生這一點上,與以往的超音波霧化裝置並沒有分別;又,尚未解決下述問題:為了使所產生的霧飛散到想要的方向而必須設置風扇等的問題、在界面產生液體飛沫而液滴容易飛散這樣的問題、及關於來自水面的反射波會妨礙超音波振動順暢地產生這樣的問題。 In response to the problems of these conventional ultrasonic atomizing devices, proposals have been made. An ultrasonic atomizing device (see Patent Document 1) in which a cylindrical body is disposed in a liquid on the opposite side of the ultrasonic vibrator, and the cylindrical body concentrates ultrasonic vibration transmitted from the ultrasonic vibrator in a direction away from the ultrasonic vibrator Thereby, the energy of the ultrasonic vibration is effectively utilized to achieve a stable atomization amount, and contributes to low power consumption and miniaturization. However, this invention uses a cylindrical body to concentrate the ultrasonic vibration to increase the energy of the ultrasonic vibration to improve the atomization efficiency, but forms a liquid bulging portion on the liquid surface to naturally generate the atomized particles, and the conventional super There is no difference in the sonic atomization device; the problem that the fan or the like is required to be scattered in the desired direction, and the liquid droplets are generated at the interface and the droplets are easily scattered, has not been solved. And the reflected wave from the water surface hinders the problem that the ultrasonic vibration smoothly occurs.

在此種現況中,本發明人想到將具有多數個微小的貫通孔之多孔板配設在藉由超音波振動而隆起的液面的液體隆起部的部分,來大幅地增加霧化量,而提案一種超音波霧化裝置,其能夠利用少量的消耗電力來有效率地使液體進行霧化(參照專利文獻2)。 In this state of the art, the inventors of the present invention have conceived that a porous plate having a plurality of minute through holes is disposed in a portion of a liquid swelled portion of a liquid surface which is raised by ultrasonic vibration, thereby greatly increasing the amount of atomization. An ultrasonic atomization device is proposed which can efficiently atomize a liquid with a small amount of power consumption (see Patent Document 2).

[先前技術文獻] [Previous Technical Literature]

(專利文獻) (Patent Literature)

專利文獻1:日本特開2009-28582號公報 Patent Document 1: Japanese Patent Laid-Open Publication No. 2009-28582

專利文獻2:日本特開2013-221633號公報 Patent Document 2: Japanese Laid-Open Patent Publication No. 2013-221633

非專利文獻1:電子資訊通信學會論文誌A Vol.J80-A, No.10, pp.1614-1620, 1997年10月 Non-Patent Document 1: Electronic Information and Communication Society Papers A Vol.J80-A, No.10, pp.1614-1620, October 1997

非專利文獻2:日本機械學會演講論文集, No.114-1(11.3關西支部第86期定時總會演講會) Non-Patent Document 2: Proceedings of the Japanese Society of Mechanical Engineering, No. 114-1 (11.3 Kansai Branch 86th Regular General Meeting)

本發明的目的在於提供一種超音波霧化裝置,其能夠進一步提升本發明人先前已提出的配設有多孔板之超音波霧化裝置的液體霧化性能,更加小型且利用較低的消耗電力便能有效率地進行霧化。 It is an object of the present invention to provide an ultrasonic atomization device which can further enhance the liquid atomization performance of the ultrasonic atomization device equipped with a perforated plate which has been proposed by the present inventors, and is smaller and utilizes lower power consumption. The atomization can be performed efficiently.

本發明人,為了要提升先前已提出的配設有多孔板之超音波霧化裝置的性能,進行深入的檢討,結果發現,藉由在超音波霧化裝置的超音波振動器的上部,配置具有開口部之墊片狀構件或容器底板,便可更進一步提升液體的霧化性能而完成本發明。 The present inventors conducted an in-depth review in order to improve the performance of the previously proposed ultrasonic atomizing device equipped with a perforated plate, and as a result, found that the upper portion of the ultrasonic vibrator in the ultrasonic atomizing device is disposed. The gasket-like member or the container bottom plate having the opening portion can further improve the atomization performance of the liquid to complete the present invention.

亦即,本發明是將以下內容作為主旨之發明。 That is, the present invention is an invention based on the following.

(1)一種超音波霧化裝置,將超音波振動給予到容器內的液體而在液面形成液體隆起部及/或飛沫部,來霧化前述液體,該超音波霧化裝置的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機構,前述多孔板的底面,被配設在當超音波振動器動作時會 接觸到所形成的液體隆起部及/或飛沫部之位置。 (1) An ultrasonic atomizing device that atomizes the liquid by applying ultrasonic vibration to a liquid in a container to form a liquid bulging portion and/or a droplet portion on a liquid surface, the ultrasonic atomizing device being characterized by: Further, a recessed portion is further provided at a bottom portion of the container, and an ultrasonic vibrator is disposed at a bottom portion of the recessed portion, and a shim-shaped member having an opening at a center thereof is disposed in a state of covering the recessed portion, or an opening portion is used. The container bottom plate covers the recessed portion, the opening of the container bottom plate becomes an opening position at the center of the recessed portion, and includes a perforated plate in which a plurality of minute through holes are formed, and an arrangement mechanism The perforated plate is disposed at a predetermined position; wherein the perforated plate is attached to the arrangement mechanism via the elastic holding member, and by the arrangement mechanism, the bottom surface of the perforated plate is disposed in the ultrasonic vibrator Will act Contact with the location of the formed liquid ridges and/or droplets.

(2)如前述(1)所述的超音波霧化裝置,其中,前述墊片狀構件的開口部的直徑(d)、或容器底板的開口部的直徑(d),相對於超音波振動器的直徑(D)之比率(d/D)是在0.4~0.55的範圍內。 (2) The ultrasonic atomization device according to the above (1), wherein the diameter (d) of the opening of the spacer-shaped member or the diameter (d) of the opening of the container bottom plate is vibrated with respect to ultrasonic waves. The ratio (d/D) of the diameter (D) of the device is in the range of 0.4 to 0.55.

(3)如前述(1)或(2)所述的超音波霧化裝置,其中,前述凹陷部的深度(h),是在藉由前述超音波振動器所產生的超音波的波長(λ)的2~12倍的範圍內。 (3) The ultrasonic atomization device according to the above (1) or (2), wherein the depth (h) of the depressed portion is a wavelength (λ) of the ultrasonic wave generated by the ultrasonic vibrator. ) 2 to 12 times the range.

(4)如前述(1)至(3)中任一項所述的超音波霧化裝置,其中,前述多孔板的厚度是0.02mm~0.05mm,該多孔板的貫通孔的孔徑是0.002mm~0.100mm。 The ultrasonic atomizing device according to any one of the above aspects, wherein the porous plate has a thickness of 0.02 mm to 0.05 mm, and the through hole of the porous plate has a diameter of 0.002 mm. ~0.100mm.

(5)如前述(1)至(4)中任一項所述的超音波霧化裝置,其中,前述多孔板,被配置在比液面更上方且位於自液面算起至與液面的距離是水深的90%的範圍內的位置。 The ultrasonic atomizing device according to any one of the above aspects, wherein the porous plate is disposed above the liquid surface and is located from the liquid surface to the liquid surface. The distance is within 90% of the water depth.

(6)一種超音波加濕器,將超音波振動給予到容器內的水而在水面形成液體隆起部及/或飛沫部,來霧化前述水,該超音波加濕器的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機 構,前述多孔板的底面,被配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部之位置。 (6) An ultrasonic humidifier that atomizes the water by applying ultrasonic vibration to water in a container to form a liquid ridge and/or a droplet on the surface of the water, and the ultrasonic humidifier is characterized by: Further, a recessed portion is further provided at a bottom portion of the container, and an ultrasonic vibrator is disposed at a bottom portion of the recessed portion, and a shim-like member having an opening at a center thereof or a container having an opening portion is disposed in a state of covering the recessed portion The bottom plate covers the recessed portion, the opening of the container bottom plate becomes an opening position at the center of the recessed portion, and includes a perforated plate in which a plurality of minute through holes are formed, and an arrangement mechanism The perforated plate is disposed at a predetermined position; wherein the perforated plate is attached to the arrangement mechanism via the elastic retaining member, thereby disposing the machine The bottom surface of the porous plate is disposed at a position where the liquid swell and/or the droplet portion are formed when the ultrasonic vibrator operates.

(7)一種超音波芳香揮發器,將超音波振動給予到容器內的包含芳香成分的水而在水面形成液體隆起部及/或飛沫部,來霧化前述水,該超音波芳香揮發器的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機構,前述多孔板的底面,被配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部之位置。 (7) An ultrasonic aroma volatilizer for imparting ultrasonic waves to a water containing aroma components in a container to form a liquid bulge and/or a droplet portion on the surface of the water to atomize the water, the ultrasonic aromatherapy device A feature is characterized in that a recessed portion is further provided at a bottom portion of the container, and an ultrasonic vibrator is disposed at a bottom portion of the recessed portion, and a shim member having an opening portion at a center thereof is disposed in a state of covering the recessed portion, or The container bottom plate of the opening covers the recessed portion, the opening of the container bottom plate becomes an opening position at the center of the recessed portion, and includes a perforated plate in which a plurality of minute through holes are formed, and an arrangement mechanism. a mechanism for disposing the perforated plate at a predetermined position; wherein the perforated plate is attached to the arrangement mechanism via the elastic holding member, and by the arrangement mechanism, the bottom surface of the perforated plate is disposed in the super When the sonic vibrator operates, it contacts the position of the formed liquid ridge and/or the droplet.

依照本發明的超音波霧化裝置,藉由設置在容器的底部的凹陷部的超音波振動器所產生的超音波振動,會在由覆蓋凹陷部的上部之墊片狀構件或具有開口部之容器底板與凹陷部的壁面所形成的空間內反覆地反射,其結果使增強後的超音波振動的能量,自凹陷部的上部的墊片狀構件或容器底板的開口部放出。此增強後的超音波振動的能量集中在液面附近,而在液面形成大的液體隆起部且更形成飛沫部。在此液體隆起部的中心部,會產生自容器的底部朝向液面之液體的 流動(稱為聲音流(sound flow)),藉由此液體的流動所形成的液體隆起部及/或飛沫部,接觸到配設在液面的上方之多孔板,並通過已形成在多孔板上的多數個微小的貫通孔,藉此變成微細的霧狀而有力道地被放出到大氣中。進一步,藉由以覆蓋凹陷部的上部的方式設置墊片狀構件,而能夠防止來自水面的反射波到達且干擾超音波振動器。 According to the ultrasonic atomizing device of the present invention, the ultrasonic vibration generated by the ultrasonic vibrator provided in the depressed portion at the bottom of the container may be in a spacer-like member covering the upper portion of the depressed portion or having an opening portion. The container bottom plate and the wall surface of the recessed portion are repeatedly reflected in the space formed, and as a result, the energy of the enhanced ultrasonic vibration is released from the upper portion of the recessed portion or the opening of the container bottom plate. The energy of the enhanced ultrasonic vibration is concentrated near the liquid surface, and a large liquid bulge is formed on the liquid surface and a droplet portion is formed. In the center of the liquid ridge, liquid from the bottom of the container toward the liquid surface is generated. The flow (referred to as a sound flow), the liquid bulge and/or the droplet formed by the flow of the liquid, contact the porous plate disposed above the liquid surface, and pass through the porous plate A large number of minute through holes are formed into a fine mist shape and are effectively released into the atmosphere. Further, by providing the spacer-like member so as to cover the upper portion of the depressed portion, it is possible to prevent the reflected wave from the water surface from reaching and interfering with the ultrasonic vibrator.

另外,藉由設置在容器的底部的凹陷部的超音波振動器所產生的超音波振動,在覆蓋凹陷部的上部之墊片狀構件或容器底板與凹陷部的壁面所形成的空間內反射而產生的反射波、及藉由同樣的超音波振動器所產生的超音波振動在水面反射而產生的反射波,其相異處如下所述。亦即,前者因為是碰撞到墊片狀構件或容器底板、凹陷部的壁面等堅硬面而反射,所以波的性質會變成固定端反射,且反射波的相位會增幅彼此的振幅,而招致能量結合強化的作用。另一方面,後者因為是碰撞到水面這樣的柔軟面而反射,所以波的性質會變成自由端反射,且自超音波振動器所產生的波的相位與來自墊片上的構件和壁面之反射波的相位,使振幅衰減,而招致能量結合弱化的作用。 Further, the ultrasonic vibration generated by the ultrasonic vibrator provided in the depressed portion at the bottom of the container is reflected in a space formed by the gasket-like member covering the upper portion of the depressed portion or the bottom surface of the container and the wall portion of the depressed portion. The reflected wave generated and the reflected wave generated by the ultrasonic vibration generated by the same ultrasonic vibrator reflected on the water surface are different as described below. That is, since the former is reflected by a hard surface that collides with the spacer-like member or the bottom plate of the container or the wall of the depressed portion, the nature of the wave becomes a fixed-end reflection, and the phase of the reflected wave increases the amplitude of each other, resulting in energy. Combine the role of reinforcement. On the other hand, the latter is reflected by a soft surface that collides with the water surface, so the nature of the wave becomes a free-end reflection, and the phase of the wave generated from the ultrasonic vibrator and the reflection from the member and the wall surface on the spacer The phase of the wave attenuates the amplitude and incurs the effect of weakening the energy.

在本發明這樣的超音波霧化裝置中,在由凹陷部與墊片狀構件或具有開口部之容器底板所包圍的空間內,使超音波振動增強,並藉由形成有多數個微小的貫通孔之多孔板的細分化(subdivision)作用來將這樣大幅增強的超音波振動液體變成微細的霧狀的液滴,而相較於以往的超音波霧化裝置,能夠利用較少的消耗電力便能效率地將超音波振動給予 到液體來得到更大的霧化量。進一步,墊片狀構件或具有開口部之容器底板會防止來自水面的反射波到達超音波振動器,所以超音波振動的能量沒有衰減而能夠有效率地進行霧化。因為這些理由,雖然以往的超音波霧化裝置需要使用100V的交流電源,但是在本發明的超音波霧化裝置中,例如能夠以乾電池等來作為電源,而能夠作為小型且緊湊(compact)的霧化裝置。 In the ultrasonic atomizing device of the present invention, the ultrasonic vibration is enhanced in the space surrounded by the depressed portion and the spacer-shaped member or the bottom plate of the container having the opening, and a plurality of minute penetrations are formed. The subdivision function of the perforated plate of the hole is to make the ultrasonic vibration liquid which is greatly enhanced into a fine mist-like liquid droplet, and it is possible to use less power consumption than the conventional ultrasonic atomization device. Efficiently give ultrasonic vibration Go to the liquid to get a larger amount of atomization. Further, the shim member or the container bottom plate having the opening prevents the reflected wave from the water surface from reaching the ultrasonic vibrator, so that the energy of the ultrasonic vibration is not attenuated and the atomization can be efficiently performed. For these reasons, the ultrasonic atomization device of the present invention needs to use an AC power supply of 100 V. However, in the ultrasonic atomization device of the present invention, for example, a dry battery or the like can be used as a power source, and it can be compact and compact. Atomizing device.

又,在本發明的超音波霧化裝置中,因為自多孔板的微小的貫通孔噴出的霧,是藉由超音波振動所產生的聲音流而向貫通孔的開口方向而形成有力道的流動,所以藉由將多孔板的頂面朝向想要的方向並使多孔板的底面接觸到液體,便能夠使霧狀的液滴朝向想要的方向放出且飛散。因此不需要使用風扇等進行送風來將所產生的霧搬運到想要的方向。另外,在本發明中,「液體隆起部」是指超音波振動的能量集中到液面附近而形成的水面的隆起,「飛沫部」是指自「液體隆起部」的頂部,以噴射流狀噴出的液滴,任一種都表示液體的霧化前的狀態。 Further, in the ultrasonic atomization device of the present invention, the mist ejected from the minute through holes of the perforated plate is a flow of force formed in the opening direction of the through hole by the sound flow generated by the ultrasonic vibration. Therefore, by bringing the top surface of the perforated plate in a desired direction and bringing the bottom surface of the perforated plate into contact with the liquid, the mist-like liquid droplets can be discharged and scattered in a desired direction. Therefore, it is not necessary to use a fan or the like to supply air to carry the generated mist to a desired direction. In the present invention, the "liquid swelled portion" refers to a swell of a water surface formed by the energy of the ultrasonic vibration concentrated in the vicinity of the liquid surface, and the "droplet portion" is a jet flow from the top of the "liquid bulging portion". Any of the ejected droplets indicates the state before the atomization of the liquid.

1‧‧‧容器 1‧‧‧ container

2‧‧‧凹陷部 2‧‧‧Depression

3‧‧‧超音波振動器 3‧‧‧ Ultrasonic vibrator

4‧‧‧墊片狀構件 4‧‧‧shims

5‧‧‧配設機構 5‧‧‧Architecture

6‧‧‧多孔板 6‧‧‧Perforated plate

7‧‧‧彈性保持構件 7‧‧‧Elastic retention member

8‧‧‧貫通孔 8‧‧‧through holes

9‧‧‧多孔板保持構件 9‧‧‧Perforated plate holding member

10‧‧‧液體隆起部或飛沫部 10‧‧‧Liquid bulge or droplet

11‧‧‧橡膠襯墊 11‧‧‧Rubber pad

12‧‧‧振盪電路 12‧‧‧Oscillation circuit

13‧‧‧容器底板 13‧‧‧ Container bottom plate

14‧‧‧容器底板的開口部 14‧‧‧ Opening of the bottom plate of the container

41‧‧‧墊片狀構件的開口部 41‧‧‧ Openings of gasket-like members

第1圖是表示本發明的超音波霧化裝置的一例的說明圖。 Fig. 1 is an explanatory view showing an example of a ultrasonic atomizing device of the present invention.

第2圖是表示本發明的超音波霧化裝置的其他例的說明圖。 Fig. 2 is an explanatory view showing another example of the ultrasonic atomizing device of the present invention.

第3圖是表示本發明的超音波霧化裝置的其他例的說明圖。 Fig. 3 is an explanatory view showing another example of the ultrasonic atomizing device of the present invention.

第4圖是本發明的墊片狀構件的剖面圖的一例。 Fig. 4 is a view showing an example of a cross-sectional view of the spacer member of the present invention.

第5圖是表示超音波振動器的動作時的液體隆起部和飛沫部的狀態的一例的照片。 Fig. 5 is a photograph showing an example of the state of the liquid bulging portion and the droplet portion during the operation of the ultrasonic vibrator.

第6圖是表示在沒有墊片狀構件的場合的液體隆起部的狀態的照片。 Fig. 6 is a photograph showing a state of the liquid swelled portion when there is no spacer-like member.

第7圖是表示在墊片狀構件的開口徑是5.1mm的場合的液體隆起部和飛沫部的狀態的照片。 Fig. 7 is a photograph showing a state of the liquid bulging portion and the droplet portion when the opening diameter of the spacer-shaped member is 5.1 mm.

第8圖是表示在墊片狀構件的開口徑是6.0mm的場合的液體隆起部和飛沫部的狀態的照片。 Fig. 8 is a photograph showing a state of the liquid bulging portion and the droplet portion when the opening diameter of the spacer-shaped member is 6.0 mm.

第9圖是表示在墊片狀構件的開口徑是6.6mm的場合的液體隆起部和飛沫部的狀態的照片。 Fig. 9 is a photograph showing a state of the liquid bulging portion and the droplet portion when the opening diameter of the spacer-shaped member is 6.6 mm.

以下,使用圖式來更詳細地說明本發明。 Hereinafter, the present invention will be described in more detail using the drawings.

第1圖是表示本發明的超音波霧化裝置的一例的說明圖。在收容有水等液體之容器1的底部,設置比其他底部更加凹陷之凹陷部2,且在此凹陷部2的底部設置超音波振動器3。在此超音波振動器3的上部,配置有墊片狀構件4或具有開口部14之容器底板13,該墊片狀構件4或該具有開口部14之容器底板13,以從上面覆蓋凹陷部2的狀態來覆蓋凹陷部2。此墊片狀構件4,是其中心具有開口部41之板狀的構件,雖然只要形狀是覆蓋凹陷部2整體的形狀即可,並沒有特別限定,但是例如在凹陷部2的形狀是圓柱狀的場合,也可形成甜甜圈狀,該甜甜圈狀以比凹陷部2的直徑稍微大的外徑來形成。又,如第2圖所示,具有開口部14之容器底板 13,是以從上面覆蓋凹陷部2的狀態來安裝容器1的底板,且在凹陷部2的大約中心的位置設置有開口部14。進一步,具備形成有多數個微小的貫通孔8之多孔板6、及配設機構5,該配設機構5將此多孔板6配設在預定位置,其中,此多孔板6經由(隔著)彈性保持構件7而被安裝在前述配設機構5上。此多孔板6,藉由配設機構5,多孔板6的底面,被配設在當超音波振動器3動作時會接觸到液體隆起部或飛沫部10之位置。多孔板6的厚度是0.1mm以下這樣的非常薄且纖細的構造,所以為了多孔板6的補強及使用方便性而以包圍多孔板6的周圍的方式安裝有多孔板保持構件9。 Fig. 1 is an explanatory view showing an example of a ultrasonic atomizing device of the present invention. The bottom portion of the container 1 containing liquid such as water is provided with a recess 2 which is more recessed than the other bottom portions, and the ultrasonic vibrator 3 is provided at the bottom of the recess portion 2. In the upper portion of the ultrasonic vibrator 3, a spacer-like member 4 or a container bottom plate 13 having an opening portion 14 or a container bottom plate 13 having the opening portion 14 is disposed to cover the depressed portion from above. The state of 2 covers the recess 2 . The shim member 4 is a plate-like member having an opening 41 at its center. The shape is not particularly limited as long as the shape covers the entire recess 2, but for example, the shape of the recess 2 is cylindrical. In this case, a donut shape may be formed, and the donut shape is formed with an outer diameter slightly larger than the diameter of the recessed portion 2. Further, as shown in Fig. 2, the bottom plate of the container having the opening portion 14 13, the bottom plate of the container 1 is attached in a state in which the recessed portion 2 is covered from above, and the opening portion 14 is provided at a position approximately at the center of the recessed portion 2. Further, the porous plate 6 having a plurality of minute through holes 8 and an arrangement mechanism 5 for arranging the perforated plate 6 at a predetermined position, wherein the perforated plate 6 is interposed (separated) The elastic holding member 7 is attached to the above-described arrangement mechanism 5. The perforated plate 6 is disposed at a position where the bottom surface of the perforated plate 6 is in contact with the liquid swelled portion or the squirt portion 10 when the ultrasonic vibrator 3 is operated by the disposing mechanism 5. Since the thickness of the perforated plate 6 is a very thin and fine structure of 0.1 mm or less, the perforated plate holding member 9 is attached so as to surround the perforated plate 6 in order to reinforce the porous plate 6 and ease of use.

在本發明的超音波霧化裝置中,在收容水等液體之容器1的底部,例如第1圖所示,經由防止漏水用的環狀橡膠襯墊(rubber packing)11來安裝超音波振動器3。藉由此橡膠襯墊11等而在容器1的底部與超音波振動器3的頂面之間形成凹陷部2。凹陷部2的尺寸,是能夠收容且固定超音波振動器3的尺寸,也可以稍微比超音波振動器3更小。一般來說,超音波振動器3是圓盤狀的形狀,所以凹陷部也可以配合此種超音波振動器的形狀,而只要以比容器1的底部更加朝向下方凹陷成圓柱狀的方式來形成即可,該凹陷部的直徑,也可以稍微比超音波振動器3的直徑更小。 In the ultrasonic atomizing device of the present invention, an ultrasonic vibrator is attached to the bottom of the container 1 for storing liquid such as water, for example, as shown in Fig. 1, via a rubber packing 11 for preventing water leakage. 3. The depressed portion 2 is formed between the bottom of the container 1 and the top surface of the ultrasonic vibrator 3 by the rubber pad 11 or the like. The size of the recessed portion 2 is a size that can accommodate and fix the ultrasonic vibrator 3, and may be slightly smaller than the ultrasonic vibrator 3. In general, since the ultrasonic vibrator 3 has a disk shape, the recessed portion may be formed in a shape similar to the shape of the ultrasonic vibrator, and may be formed to be recessed into a cylindrical shape more downward than the bottom of the container 1. That is, the diameter of the depressed portion may be slightly smaller than the diameter of the ultrasonic vibrator 3.

進一步,容器的構成方式,是在此凹陷部2的上部,從上面覆蓋凹陷部2的狀態來配置其中心具有開口部41之墊片狀構件4、或利用容器底板13來覆蓋該凹陷部,且在凹陷部2的位置具有開口部14,以形成空間,該空間是由凹陷部 2與墊片狀構件4或具有開口部之容器底板所包圍。藉由超音波振動器3所產生的超音波振動,在此包圍的空間中,被凹陷部2的壁面與墊片狀構件4或具有開口部14之容器底板13反覆地反射而增強超音波能量。此增強後的超音波能量,通過墊片狀構件4的開口部41、或容器底板13的開口部14,而放出到容器1本體的液體中。 Further, the container is configured such that the gasket-like member 4 having the opening 41 at the center thereof is disposed on the upper portion of the recessed portion 2 from the upper surface, and the recessed portion is covered by the container bottom plate 13 And having an opening portion 14 at a position of the recess portion 2 to form a space which is a recessed portion 2 is surrounded by the shim member 4 or the bottom plate of the container having the opening. The ultrasonic vibration generated by the ultrasonic vibrator 3 is reflected in the space surrounded by the recessed portion 2 and the spacer-like member 4 or the container bottom plate 13 having the opening portion 14 to enhance the ultrasonic energy. . This enhanced ultrasonic energy is discharged into the liquid of the body of the container 1 through the opening 41 of the spacer-like member 4 or the opening 14 of the container bottom plate 13.

雖然墊片狀構件4,是以覆蓋凹陷部2的狀態來配置,但是不一定要直接固定在容器1上,也可以是經由用以支持墊片狀構件4之構件來間接固定在容器1上,以變成空出間隙的狀態和從容器1的底部稍微浮起的狀態。雖然墊片狀構件4的材質,較佳是金屬製,特別是不鏽鋼製,但是也能夠使用陶瓷製和樹脂製等。 Although the shim member 4 is disposed in a state of covering the recess 2, it does not have to be directly fixed to the container 1, or may be indirectly fixed to the container 1 via a member for supporting the shim member 4. In a state in which the gap is vacant and a state in which it is slightly floated from the bottom of the container 1. Although the material of the spacer-shaped member 4 is preferably made of metal, particularly stainless steel, ceramics, resins, or the like can be used.

墊片狀構件4的開口部41、或容器底板13的開口部14,從在由凹陷部2與墊片狀構件4或容器底板13所包圍的空間內使超音波能量增強而放出這點、及防止來自水面的反射波到達超音波振動器3這點來考量,其尺寸有較佳範圍,也就是墊片狀構件或容器底板的開口部的直徑(d),相對於超音波振動器的直徑(D)之比率(d/D),較佳是在0.4~0.55的範圍內。若比0.4更小,則所產生的超音波能量不能夠有效率地放出到外部;若比0.55更大,則從太早的階段就進行超音波能量的放出,而不能夠得到充分增強的超音波能量,進一步,來自水面的反射波會通過開口部41或開口部14而侵入凹陷部2內,恐怕會減弱超音波振動。 The opening portion 41 of the shim member 4 or the opening portion 14 of the container bottom plate 13 is enhanced by the ultrasonic energy in the space surrounded by the recess portion 2, the shim member 4 or the container bottom plate 13, And to prevent the reflected wave from the water surface from reaching the ultrasonic vibrator 3, the size thereof has a better range, that is, the diameter (d) of the opening of the gasket-like member or the bottom plate of the container, relative to the ultrasonic vibrator The ratio of the diameter (D) (d/D) is preferably in the range of 0.4 to 0.55. If it is smaller than 0.4, the generated ultrasonic energy cannot be efficiently released to the outside; if it is larger than 0.55, the ultrasonic energy is released from the too early stage, and the fully enhanced super is not obtained. Further, the sound wave energy and further, the reflected wave from the water surface enters the recessed portion 2 through the opening portion 41 or the opening portion 14, and the ultrasonic vibration may be weakened.

又,前述凹陷部2的深度也具有較佳範圍。從防止 漏水這點來考量,較佳是在1mm以上;但是從使超音波能量增強且放出這點來考量,凹陷部2的深度(h),較佳是在藉由超音波振動器所產生的超音波的波長(λ)的2~12倍的範圍,更佳是在4~7倍的範圍。例如,在能夠給予1.7MHz的振動之超音波振動器的場合,因為在水溫20℃的水中的超音波的波長是0.87mm,所以,此場合的凹陷部的深度(h)較佳是設為1.7~10.4mm,更佳是設為3.5~6.1mm。 Further, the depth of the depressed portion 2 also has a preferable range. Prevent from The leakage is considered to be more than 1 mm. However, considering the enhancement of the ultrasonic energy and the release of the ultrasonic energy, the depth (h) of the depressed portion 2 is preferably generated by the ultrasonic vibrator. The range of 2 to 12 times the wavelength (λ) of the sound wave is more preferably in the range of 4 to 7 times. For example, in the case of an ultrasonic vibrator capable of giving a vibration of 1.7 MHz, since the wavelength of the ultrasonic wave in water at a water temperature of 20 ° C is 0.87 mm, the depth (h) of the depressed portion in this case is preferably set. It is 1.7 to 10.4 mm, and more preferably set to 3.5 to 6.1 mm.

其次,前述形成有多數個微小的貫通孔8之多孔板6,只要是厚度0.02mm~0.05mm程度且形成有多數個貫通孔的金屬製薄板即可,該貫通孔在上下方向(厚度方向)貫通該金屬製薄板;該金屬製薄板也可以是平板狀,也可以是曲板狀、碗狀。在此多孔板上形成的微小的貫通孔,可以採用的孔徑是0.002mm Φ~0.100mm Φ的程度。使用的多孔板在每1cm2設置有480~4500個這種貫通孔。 Next, the porous plate 6 in which the plurality of minute through holes 8 are formed may be a metal thin plate having a thickness of 0.02 mm to 0.05 mm and a plurality of through holes formed therein, and the through holes are in the vertical direction (thickness direction). The metal thin plate may be inserted through the metal sheet; the metal thin plate may have a flat plate shape or a curved plate shape or a bowl shape. The minute through holes formed in the perforated plate can have a pore diameter of 0.002 mm Φ to 0.100 mm Φ. The perforated plate used was provided with 480 to 4,500 such through holes per 1 cm 2 .

而且,藉由前述配設機構,將此多孔板6的底面,配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部10之位置。亦即,此多孔板6的底面不需要一直接觸到液體,而是當超音波振動器沒有進行動作時就不會接觸到液體,當超音波振動器進行動作而形成液體隆起部或飛沫部10時就會接觸到液體隆起部或飛沫部10。此時,不希望多孔板6的頂面會變成接觸到液體的狀態,較佳是徹底使多孔板6的頂面接觸到大氣,而將多孔板6配設在僅使霧化的液滴由貫通孔8放出的位置。進一步,此多孔板,相對於在液體中傳播的超音波振動的行進方向不需要配設在垂直方 向,也可以相對於行進方向傾斜地配設。 Further, the bottom surface of the perforated plate 6 is disposed at a position where the liquid ridge portion and/or the droplet portion 10 are formed when the ultrasonic vibrator operates when the ultrasonic vibrator is operated. That is, the bottom surface of the perforated plate 6 does not need to be in contact with the liquid all the time, but does not come into contact with the liquid when the ultrasonic vibrator is not operated, and the liquid ridge or the droplet portion 10 is formed when the ultrasonic vibrator operates. When it comes into contact with the liquid bulge or the droplet portion 10. At this time, it is not desirable that the top surface of the porous plate 6 becomes in contact with the liquid, and it is preferable to completely bring the top surface of the porous plate 6 into contact with the atmosphere, and the porous plate 6 is disposed only in the atomized droplets. The position at which the through hole 8 is discharged. Further, the porous plate does not need to be disposed in the vertical direction with respect to the traveling direction of the ultrasonic vibration propagating in the liquid. The direction may be arranged obliquely with respect to the traveling direction.

本發明的超音波霧化裝置,如後述,自容器的凹陷部所設置的超音波振動器放出且增強後的超音波振動,在液體中變成聲音流而朝向液面傳播,如第5圖所示,在液面形成液體的圓錐狀液體隆起部和自此液體隆起部的頂端以噴射流狀放出的液體的飛沫部。此液體隆起部和飛沫部的尺寸,是藉由所使用的超音波振動器的輸出和尺寸等來改變,進一步,如第6圖~第9圖所示,藉由墊片狀構件的有無而改變、及藉由適當地選擇墊片狀構件的開口徑(opening diameter)來形成大的液體隆起部和飛沫部。 As described later, the ultrasonic atomizing device of the present invention emits ultrasonic vibrations that are emitted from the ultrasonic vibrator provided in the recessed portion of the container, and becomes a sound flow in the liquid and propagate toward the liquid surface, as shown in Fig. 5. The conical liquid bulging portion that forms a liquid on the liquid surface and the droplet portion of the liquid that is ejected in a flowing manner from the tip end of the liquid bulging portion are shown. The size of the liquid bulging portion and the droplet portion is changed by the output and size of the ultrasonic vibrator used, and further, as shown in FIGS. 6 to 9, by the presence or absence of the spacer member. The large liquid ridges and the droplets are formed by changing and opening the opening diameter of the spacer-like member as appropriate.

針對多孔板,若孔徑變小,則因為表面張力而有水無法通過的臨界的孔徑。在將孔徑設定成比0.15mm更小的場合,就必須想出克服的辦法。在本發明中,因為藉由超音波振動所產生的毛細波和空洞(cavitation)現象,會造成表面張力的剪斷和形成液柱的噴射流的力道,所以即使是孔徑小到0.002mm Φ~0.100mm Φ也能夠通過。亦即,在多孔板的頂面(孔出口附近)只有空氣的場合,因為接觸到多孔板的底面的液體,會藉由超音波振動而變成表面張力被剪斷的狀態,所以能夠容易地通過貫通孔,而藉由噴射流的力道所造成的力量(壓力)會急劇地釋放在多孔板的表面,其結果能夠促進霧化。 For a perforated plate, if the pore diameter becomes small, there is a critical pore diameter that water cannot pass due to surface tension. When the aperture is set to be smaller than 0.15 mm, it is necessary to come up with a solution. In the present invention, since the capillary wave and the cavitation phenomenon generated by the ultrasonic vibration cause the shearing of the surface tension and the force of the jet forming the liquid column, even if the aperture is as small as 0.002 mm Φ~ 0.100mm Φ can also pass. In other words, when there is only air in the top surface of the perforated plate (near the hole outlet), since the liquid that contacts the bottom surface of the perforated plate is in a state in which the surface tension is sheared by ultrasonic vibration, it can be easily passed. Through-holes, the force (pressure) caused by the force of the jet flow is rapidly released on the surface of the perforated plate, and as a result, atomization can be promoted.

形成有此多數個微小的貫通孔8之多孔板6,根據與液體隆起部或飛沫部10接觸位置和接觸狀態等,將液體霧化的程度會有大幅的變化。在多孔板6的底面接觸到液體隆起部或飛沫部10之前,幾乎不會發生液體的霧化,但是從多 孔板6的底面接觸到液體隆起部或飛沫部10的時點開始,便開始霧化,於是霧狀的液滴會自多孔板6的頂面的細孔開始放出。 The perforated plate 6 in which the plurality of minute through holes 8 are formed is greatly changed in degree of atomization of the liquid depending on the position of contact with the liquid bulging portion or the droplet portion 10, the contact state, and the like. Before the bottom surface of the perforated plate 6 contacts the liquid bulge or the droplet portion 10, atomization of the liquid hardly occurs, but from many When the bottom surface of the orifice plate 6 comes into contact with the liquid bulging portion or the droplet portion 10, atomization starts, and the mist droplets are discharged from the pores of the top surface of the porous plate 6.

隨著多孔板6的底面自接觸到飛沫部的頂部的位置朝向下方而逐漸下降,自多孔板6的細孔放出的霧化後的液滴的量會逐漸增加,而霧狀的液滴會在與貫通孔8相同的方向上有力道地噴出。多孔板6,當位於自飛沫部至液體隆起部的高度的大約1/2左右之間時,能夠表現出良好的霧化能力。亦即,即使長時間連續地進行霧化而使容器內的液面下降,只要多孔板6被保持在此範圍內就能夠穩定地達成霧化。但是,若將此多孔板6的位置更加下降到下方而靠近液面,則由於液體的流動而導致在多孔板的微細孔周圍的液體的反射力道變強,而使液體變成不容易通過微細孔,或者,因為已暫時霧化的水滴互相接觸結合而落下並聚集在多孔板6的頂面,所以會減少多孔板6與大氣的接觸面,其結果,會損害多孔板6所產生的霧化作用,而逐漸地減少已霧化的液滴的產生量。 As the bottom surface of the perforated plate 6 gradually descends from the position contacting the top of the droplet portion, the amount of atomized droplets discharged from the pores of the perforated plate 6 gradually increases, and the misty droplets will gradually increase. The force is ejected in the same direction as the through hole 8. The perforated plate 6 can exhibit good atomization ability when it is located between about 1/2 of the height from the droplet portion to the liquid ridge portion. That is, even if atomization is continuously performed for a long period of time to lower the liquid level in the container, atomization can be stably achieved as long as the porous plate 6 is maintained in this range. However, if the position of the perforated plate 6 is further lowered to the lower side and close to the liquid surface, the reflection force of the liquid around the micropores of the perforated plate becomes strong due to the flow of the liquid, and the liquid becomes difficult to pass through the micropores. Or, since the water droplets which have been temporarily atomized are brought into contact with each other to fall and gather on the top surface of the perforated plate 6, the contact surface of the perforated plate 6 with the atmosphere is reduced, and as a result, the atomization generated by the perforated plate 6 is impaired. Acting, and gradually reducing the amount of atomized droplets produced.

因為此液體隆起部或飛沫部10的高度取決於容器內水深,所以為了在這些設定上達成良好的霧化量,而必須將多孔板6配置在液面的上方且位於自液面算起至與液面的距離是容器內水深的90%的範圍內的位置;進一步,較佳是配置在液面的上方且位於自液面算起至與液面的距離是水深的30%~70%的範圍內的位置。 Since the height of the liquid ridge or the droplet portion 10 depends on the water depth in the container, in order to achieve a good atomization amount in these settings, the porous plate 6 must be disposed above the liquid surface and from the liquid surface to The distance from the liquid surface is a position within a range of 90% of the water depth in the container; further preferably, it is disposed above the liquid surface and is located from the liquid surface to the liquid surface at a distance of 30% to 70% of the water depth. The location within the range.

彈性保持構件7,位於此多孔板6與配設機構5之 間,以使多孔板6在彈性狀態下保持在前述配設機構5上。彈性保持構件7,只要是有彈性的構件,而能夠彈性地保持多孔板,以將多孔板安裝在配設機構5上即可,例如是甜甜圈狀的低硬度的矽橡膠、或是甜甜圈狀的板彈簧等,該低硬度的矽橡膠形成厚度1mm程度的甜甜圈狀,該板彈簧是設置有多數個切入溝之0.1mm程度的薄的圓形不鏽鋼板。可以採用分別在這些彈性保持構件7的內周緣上,安裝用以保持前述多孔板6之多孔板保持構件9,又,在彈性保持構件7的外周緣上,安裝前述配設機構5等,但是不限於此。 The elastic holding member 7 is located at the perforated plate 6 and the disposing mechanism 5 In order to keep the perforated plate 6 in the elastic state on the aforementioned arrangement mechanism 5. The elastic holding member 7 can elastically hold the perforated plate as long as it is an elastic member, and the porous plate can be attached to the disposing mechanism 5, for example, a donut-shaped low-hardness rubber or sweet. In the case of a donut-shaped leaf spring or the like, the low-hardness enamel rubber is formed into a doughnut shape having a thickness of about 1 mm, and the leaf spring is a thin circular stainless steel plate provided with a plurality of cut-in grooves of about 0.1 mm. The perforated plate holding member 9 for holding the perforated plate 6 may be attached to the inner periphery of each of the elastic holding members 7, and the above-described arrangement mechanism 5 or the like may be attached to the outer periphery of the elastic holding member 7, but Not limited to this.

前述配設機構5,只要能夠經由彈性保持構件7而將多孔板6配設到上述位置即可,而能夠採用各種的配設機構。如第1圖所示的一例,是正確地規定多孔板6與自容器底部算起的距離之構件,且能夠使液體在配設機構5的內側和外側自由流通的構造,例如,是桌腳狀的構件或具有液體流通用的缺口之筒狀構件等。又,也能夠是如第3圖所示,配設機構5,被裝卸自如地安裝在容器1的開口部,且能夠藉由此配設機構5來將多孔板6安裝配置在預定的位置。 The arrangement mechanism 5 is only required to be able to arrange the perforated plate 6 to the above position via the elastic holding member 7, and various arrangement means can be employed. An example shown in FIG. 1 is a structure that accurately defines a distance between the perforated plate 6 and the bottom of the container, and allows the liquid to flow freely inside and outside the disposition mechanism 5, for example, a table leg. A member having a shape or a cylindrical member having a notch having a common liquid flow. Further, as shown in Fig. 3, the arrangement mechanism 5 can be detachably attached to the opening of the container 1, and the perforated plate 6 can be attached and disposed at a predetermined position by the arrangement mechanism 5.

能夠使用以往的超音波振動器來作為超音波振動器3,例如能夠使用將電極夾在壓電陶瓷的上下表面而構成平板狀的壓電型超音波振動器。超音波振動器3被連接到振盪電路12,將高頻率電壓自此振盪電路12施加到超音波振動器3,藉此使超音波振動在與超音波振動器3的振動面垂直的方向上對容器1內的液體振盪。 As the ultrasonic vibrator 3, a conventional ultrasonic vibrator can be used. For example, a piezoelectric ultrasonic vibrator in which a plate is sandwiched between the upper and lower surfaces of the piezoelectric ceramic can be used. The ultrasonic vibrator 3 is connected to the oscillation circuit 12, and a high frequency voltage is applied from the oscillation circuit 12 to the ultrasonic vibrator 3, whereby the ultrasonic vibration is vibrated in a direction perpendicular to the vibration surface of the ultrasonic vibrator 3. The liquid in the container 1 oscillates.

又,此超音波振動器3,較佳是以與墊片狀構件4 或具有開口部14之容器底板13的底面平行的方式而設置在已述的容器1的底部所設置的凹陷部2的底部,藉此利用凹陷部2來增強超音波能量,且使超音波振動器3的振動面朝向液面,該墊片狀構件4、或具有開口部14之該容器底板13,被配置成覆蓋凹陷部2的上部。若將超音波振動器3的振動面被平行地設置在墊片狀構件4或容器底板13的底面,則能夠有效率地增強超音波能量。 Moreover, the ultrasonic vibrator 3 is preferably a spacer-like member 4 Or the bottom surface of the container bottom plate 13 having the opening portion 14 is provided in parallel with the bottom portion of the recess portion 2 provided at the bottom of the container 1, whereby the concave portion 2 is used to enhance the ultrasonic energy and the ultrasonic vibration is caused. The vibrating surface of the device 3 faces the liquid surface, and the shim member 4 or the container bottom plate 13 having the opening portion 14 is disposed to cover the upper portion of the recess portion 2. When the vibrating surface of the ultrasonic vibrator 3 is disposed in parallel on the bottom surface of the shim member 4 or the container bottom plate 13, the ultrasonic energy can be efficiently enhanced.

裝在容器中的水等液體,為了達成有效率的霧化,在容器中有較佳的水深。若水深太大,則自超音波振動器放射的超音波振動在朝向液面的途中就會衰減,相反地,若水深太小,則液體的流動受限制而無法產生充分大的液體隆起部。自此點來考量,將容器1內的水深設定在較佳的範圍中,容器內的水深,相對於超音波振動器3的直徑(D)之比率,較佳是在30%~90%的範圍內,更佳是在40%~70%的範圍內。為了使水深經常保持固定,在所具備的機構中,也可設置有在加濕器中所採用的補給用的水槽。 The liquid such as water contained in the container has a preferred water depth in the container in order to achieve efficient atomization. If the water depth is too large, the ultrasonic vibration radiated from the ultrasonic vibrator is attenuated on the way toward the liquid surface. Conversely, if the water depth is too small, the flow of the liquid is restricted, and a sufficiently large liquid bulging portion cannot be generated. From this point of view, the water depth in the container 1 is set to a preferred range, and the ratio of the water depth in the container to the diameter (D) of the ultrasonic vibrator 3 is preferably 30% to 90%. In the range, it is better in the range of 40% to 70%. In order to keep the water depth constant, a water tank for replenishing the humidifier may be provided in the mechanism provided.

其次,說明本發明的超音波霧化裝置的動作。 Next, the operation of the ultrasonic atomizing device of the present invention will be described.

若將高頻率電壓施加到超音波振動器3,該超音波振動器3設置在容器1的底部所形成的凹陷部2的底部,則來自超音波振動器3的超音波振動,會振盪且在凹陷部2的液體中朝向上方放射且傳播。此超音波振動,被覆蓋凹陷部2的上部之墊片狀構件4或具有開口部14之容器底板13與凹陷部2的壁面反覆地反射。進一步,在此反射中加入來自振盪中的超音波振動器3所產生的超音波振動,以增強在凹陷部2中 傳播的超音波能量。此增強後的超音波能量,自墊片狀構件4的開口部41、或容器底板13的開口部14,放出到容器1本體的液體中。此時,在水面反射的超音波振動會被墊片狀構件4、或具有開口部14之容器底板遮蔽,而不會侵入到凹陷部2內,藉此,不會產生由於水面的反射波所造成的超音波能量的衰減。藉此,在中心部產生朝向液面流動的聲音流,並變成使液面隆起的流動,而如第5圖所示地在液面形成圓錐狀的液體隆起部10及自此液體隆起部的頂部放出成為噴射流狀的液體的飛沫部。在此液體隆起部及/或飛沫部10的中心部,有朝向液面的流動,但是液體隆起部的外緣部不是靜止的,而是經常有回到容器底部的下降流動且劇烈地振動。 If a high frequency voltage is applied to the ultrasonic vibrator 3, which is disposed at the bottom of the depressed portion 2 formed at the bottom of the container 1, the ultrasonic vibration from the ultrasonic vibrator 3 oscillates and oscillates The liquid in the depressed portion 2 is radiated upward and propagates. This ultrasonic vibration is reflected by the gasket-like member 4 covering the upper portion of the recessed portion 2 or the container bottom plate 13 having the opening portion 14 and the wall surface of the recessed portion 2. Further, ultrasonic vibration generated from the ultrasonic vibrator 3 in the oscillation is added to the reflection to enhance the depression 2 The transmitted ultrasonic energy. This enhanced ultrasonic energy is discharged from the opening 41 of the shim member 4 or the opening 14 of the container bottom plate 13 into the liquid of the body of the container 1. At this time, the ultrasonic vibration reflected on the water surface is shielded by the spacer-like member 4 or the bottom plate of the container having the opening portion 14 without entering the recessed portion 2, whereby the reflected wave due to the water surface is not generated. The resulting attenuation of ultrasonic energy. As a result, a sound flow flowing toward the liquid surface is generated in the center portion, and the liquid surface is swollen, and as shown in FIG. 5, the liquid ridge portion 10 having a conical shape on the liquid surface and the liquid bulging portion from the liquid ridge portion are formed. A droplet portion that is a liquid that ejects in a stream is discharged from the top. At the center of the liquid bulging portion and/or the droplet portion 10, there is a flow toward the liquid surface, but the outer edge portion of the liquid swell portion is not stationary, but often has a downward flow back to the bottom of the container and vibrates violently.

在本發明的超音波霧化裝置中,相較於僅是設置在容器底部之超音波振動器,能夠產生更大的超音波的聲音流,藉此所形成的液體隆起部會產生力道強大的液體流動,以形成更大的液體隆起部及/飛沫部。 In the ultrasonic atomizing device of the present invention, a supersonic wave sound can be generated as compared with an ultrasonic vibrator provided only at the bottom of the container, whereby the liquid ridge formed thereby generates a strong force. The liquid flows to form a larger liquid ridge and/or droplet.

此處的「聲音流」是如下所述。在流體中傳播的超音波,能夠以聲音輻射壓(acoustic radiation pressure)的方式成為作用在物體上的力量,「聲音流」是藉由此聲音輻射壓的差異所變成的驅動力而產生,且將液體朝向超音波的傳播方向推壓而流動。亦即,「聲音流」,是藉由在聲音流的傳播過程中的波動能量的一部分被轉換成使液體移動的能量的結果而產生,且流動的驅動力會沿著超音波的傳播路徑分布、存在而變成到達遠方的柱狀(參照非專利文獻1、2)。在本發明的超音波霧化裝置的場合,被認為是在凹陷部2的內 部增強後的超音波能量,會自墊片狀構件4的開口部41或容器底板13的開口部14放出,且在開口部41或開口部14產生朝向液面的強力的聲音流,而在液面形成大的液體隆起部及/或飛沫部。 The "sound stream" here is as follows. The ultrasonic wave propagating in the fluid can be a force acting on the object in an acoustic radiation pressure, and the "sound flow" is generated by the driving force which is caused by the difference in the sound radiation pressure, and The liquid is pushed and moved toward the direction of propagation of the ultrasonic waves. That is, the "sound stream" is generated as a result of the conversion of a part of the wave energy during the propagation of the sound stream into the energy that moves the liquid, and the driving force of the flow is distributed along the propagation path of the ultrasonic wave. In addition, it becomes a column shape which reaches a distant place (refer nonpatent documents 1 and 2). In the case of the ultrasonic atomizing device of the present invention, it is considered to be inside the depressed portion 2. The ultrasonic energy after the enhancement is released from the opening portion 41 of the shim member 4 or the opening portion 14 of the container bottom plate 13, and a strong sound flow toward the liquid surface is generated in the opening portion 41 or the opening portion 14, and The liquid surface forms a large liquid ridge and/or a droplet.

將具備多數個微小的貫通孔8之多孔板6,配設在液體隆起部或飛沫部10被形成的位置。此多孔板6,例如是藉由薄板狀的矽橡膠製等的彈性保持構件7來彈性地保持而容許比較自由的移動,所以能夠一定程度地對應於液體隆起部或飛沫部10的運動而移動,而能夠以不會大幅地妨礙液體的激烈移動的方式來與液體接觸。此時,在容器內的液體隆起部或飛沫部10中,加入由聲音流所導致的流動,且藉由超音波振動來在液面和液體內部產生毛細波和空洞現象而產生表面張力的剪斷,以使液體變成非常容易微細化的狀態,此狀態的液體,通過貫通孔8且從多孔板6的頂面側開始變成有力道的霧狀的液滴,而被放出到大氣中。 The perforated plate 6 having a plurality of minute through holes 8 is disposed at a position where the liquid bulging portion or the droplet portion 10 is formed. The porous plate 6 is elastically held by the elastic holding member 7 made of, for example, a thin plate-shaped rubber, and allows relatively free movement. Therefore, the porous plate 6 can be moved to a certain extent in accordance with the movement of the liquid bulging portion or the droplet portion 10. In addition, it is possible to contact the liquid in a manner that does not greatly impede the intense movement of the liquid. At this time, in the liquid bulging portion or the droplet portion 10 in the container, the flow caused by the sound flow is added, and the surface tension is generated by the ultrasonic wave vibrating to generate capillary waves and voids inside the liquid surface and the liquid. In the state in which the liquid is extremely easily refined, the liquid in this state passes through the through hole 8 and becomes a misty droplet of a strong force from the top surface side of the porous plate 6, and is discharged to the atmosphere.

藉由彈性保持構件7來間接保持這種形成有多數個微小的貫通孔8之多孔板6,則能夠使多孔板6彈性地接觸到藉由超音波振動而在液面形成的液體隆起部及/或飛沫部10,以在激烈運動的液體隆起部及/或飛沫部10內的液體不會失去力道的方式下,使多孔板6的底面與液體接觸。此時,液體隆起部及/或飛沫部10內的液體,藉由超音波振動的集中而變成表面張力容易被剪斷的狀態,此狀態的液體接觸到多孔板6會促進液體的表面張力的剪斷,而使表面張力已被剪斷的液體通過貫通孔8且有力道地被放出到大氣中。又,液 體通過貫通孔8的速度,即使在液體變成霧化粒子後也能夠繼續維持,所以能夠在多孔板6的貫通孔8的方向上形成具有規定的速度的液滴。 By indirectly holding the porous plate 6 in which a plurality of minute through holes 8 are formed by the elastic holding member 7, the porous plate 6 can be elastically brought into contact with the liquid bulging portion formed on the liquid surface by ultrasonic vibration and The droplet portion 10 brings the bottom surface of the perforated plate 6 into contact with the liquid so that the liquid in the vigorously moving liquid bulging portion and/or the droplet portion 10 does not lose strength. At this time, the liquid in the liquid bulging portion and/or the droplet portion 10 is in a state where the surface tension is easily sheared by the concentration of the ultrasonic vibration, and the contact of the liquid in this state with the porous plate 6 promotes the surface tension of the liquid. The liquid is cut off, and the liquid whose surface tension has been sheared passes through the through hole 8 and is vigorously released into the atmosphere. Again, liquid Since the velocity of the body passing through the through hole 8 can be maintained even after the liquid becomes atomized particles, it is possible to form droplets having a predetermined speed in the direction of the through hole 8 of the perforated plate 6.

如以上所述,本發明的超音波霧化裝置,在凹陷部2的底部設置超音波振動器3,藉由此凹陷部2與墊片狀構件4、或具有開口部14之容器底板13來大幅地增強超音波能量,將此增強後的超音波能量自墊片狀構件4的開口部41、或容器底板13的開口部14放出。因此,相較於以往的超音波霧化裝置,能夠將更強的超音波振動給予到容器1內的液體,並且產生朝向液面的大的聲音流,而能夠在液面形成大的液體隆起部及/或飛沫部10。又,以覆蓋凹陷部2的上部的方式來設置墊片狀構件4、或具有開口部14之容器底板13,藉此防止來自水面的反射波到達且干涉超音波振動器3,而能夠防止超音波能量衰減。進一步,藉由利用彈性保持構件所保持的多孔板6的使用來促進以往是放任自然地進行的液面的剪斷作用,所以相較於以往的超音波霧化裝置,在相同條件下能夠大幅地增加霧化量。因此,在想要得到相同的霧化量的場合,相較於以往的超音波霧化裝置,能夠以更小的超音波能量來達成,而能夠省電力化。 As described above, in the ultrasonic atomizing device of the present invention, the ultrasonic vibrator 3 is provided at the bottom of the depressed portion 2, whereby the depressed portion 2 and the spacer-like member 4 or the container bottom plate 13 having the opening portion 14 are provided. The ultrasonic energy is greatly enhanced, and the enhanced ultrasonic energy is discharged from the opening 41 of the shim member 4 or the opening 14 of the container bottom plate 13. Therefore, compared with the conventional ultrasonic atomizing device, it is possible to impart stronger ultrasonic vibration to the liquid in the container 1 and generate a large sound flow toward the liquid surface, and a large liquid bulge can be formed on the liquid surface. Department and / or droplet part 10. Moreover, the shim member 4 or the container bottom plate 13 having the opening 14 is provided so as to cover the upper portion of the recessed portion 2, thereby preventing the reflected wave from the water surface from reaching and interfering with the ultrasonic vibrator 3, thereby preventing the super The sound energy is attenuated. Further, the use of the perforated plate 6 held by the elastic holding member promotes the shearing action of the liquid surface which is conventionally carried out naturally, so that it can be significantly larger under the same conditions than the conventional ultrasonic atomizing device. Increase the amount of atomization. Therefore, when it is desired to obtain the same atomization amount, it is possible to achieve a smaller ultrasonic energy than the conventional ultrasonic atomization device, and it is possible to save power.

又,因為相較於以往的超音波霧化裝置,為了得到相同的霧化量所需要的超音波振動器的驅動電力能夠減少,所以也能夠抑制超音波振盪電路的發熱。因此,在裝置內不需要設置冷卻風扇,以冷卻超音波振動器,進一步也不需要設置破損防止電路,以防止在水用完時等無負荷狀態下的超 音波振盪電路的破損。藉此,能夠進一步地減少消耗電力,並且能夠實現電路和裝置的小型化。具體來說,例如,以往的超音波霧化裝置是使用100V的電源,且需要11W程度的電力,相對於此,本發明的超音波霧化裝置,利用5~6V的電源和2~3W的電力就能夠達成充分的霧化。因此,能夠省略100V的電源線,而能夠僅使用4個1.5V的乾電池來作為驅動電源就可達成充分的霧化。 Moreover, since the drive power of the ultrasonic vibrator required to obtain the same amount of atomization can be reduced as compared with the conventional ultrasonic atomization device, the heat generation of the ultrasonic oscillation circuit can be suppressed. Therefore, there is no need to provide a cooling fan in the device to cool the ultrasonic vibrator, and further, it is not necessary to provide a damage prevention circuit to prevent the overload in a state of no load when the water is used up. Damage to the acoustic wave oscillating circuit. Thereby, power consumption can be further reduced, and downsizing of the circuit and the device can be achieved. Specifically, for example, the conventional ultrasonic atomization device uses a power supply of 100 V and requires about 11 W of electric power. In contrast, the ultrasonic atomization device of the present invention uses a power supply of 5 to 6 V and 2 to 3 W. Power can achieve sufficient atomization. Therefore, it is possible to omit the power line of 100 V, and it is possible to achieve sufficient atomization by using only four 1.5 V dry batteries as the driving power source.

又,超音波霧化裝置的尺寸也能夠大幅地小型化。例如,以往的超音波霧化裝置,雖然是直徑80mm×高140mm且重量是335g的程度,但是本發明的超音波霧化裝置,能夠設定成直徑65mm、高110mm且重量是170g的程度。因此,雖然以往的超音波霧化裝置難以移動和手持搬運,但是本發明的超音波霧化裝置卻能夠極為容易且輕便地移動和手持搬運。 Moreover, the size of the ultrasonic atomizing device can also be greatly reduced in size. For example, the conventional ultrasonic atomizing device has a diameter of 80 mm × a height of 140 mm and a weight of 335 g. However, the ultrasonic atomizing device of the present invention can be set to have a diameter of 65 mm, a height of 110 mm, and a weight of 170 g. Therefore, although the conventional ultrasonic atomizing device is difficult to move and handle by hand, the ultrasonic atomizing device of the present invention can be easily and easily moved and hand-held.

本發明的超音波霧化裝置,藉由加入水來使用,就能夠直接作為室內用的加濕器來使用。又,因為不需要電源線等,所以能夠輕鬆地手持搬運到室內需要的場所來使用。 The ultrasonic atomizing device of the present invention can be directly used as a humidifier for indoor use by adding water. Moreover, since a power cord or the like is not required, it can be easily carried by hand to a place required for indoor use.

又,本發明的超音波霧化裝置,藉由將添加有各種香料和精油(essential oil)、芳香成分之水加入容器中來使用,就能夠直接作為室內用的芳香揮發器(aroma diffuser)來使用。此場合,能夠對應於使用者的喜好來加入各個種類的香料成分而輕鬆地享受香氣。此場合也能夠在室內的任意場所來使用,可考慮例如在起居室中休息時使用,也可以在睡覺時放在枕頭旁使用。 Further, the ultrasonic atomizing device of the present invention can be directly used as an aroma diffuser for indoor use by adding water containing various flavors, essential oils, and aromatic components to a container. use. In this case, it is possible to easily enjoy the aroma by adding various types of flavor components in accordance with the user's preference. In this case, it can be used in any place in the room. For example, it can be used when resting in the living room, or it can be used by the pillow while sleeping.

作為在芳香揮發器(aroma diffuser)中使用的精油(essential oil),例如能夠使用自薰衣草、檜木、甜橙、佛手柑、檸檬草、檸檬、尤加利、迷迭香、伊蘭、天竺葵、茶樹、葡萄柚等採取的精油。只要能夠配合使用者的喜好和現場的氣氛而在這些精油當中,適當地選擇精油且在芳香揮發器中的水裡面加入數滴即可。因為藉由超音波振動而使香味隨著霧氣揮發,所以能夠享受精油本來的香氣。 As an essential oil used in an aroma diffuser, for example, it can be used from lavender, eucalyptus, orange, bergamot, lemon grass, lemon, eucalyptus, rosemary, ylang, geranium, Essential oils taken from tea trees, grapefruits, etc. As long as it can match the user's preference and the atmosphere of the scene, among these essential oils, the essential oil is appropriately selected and a few drops are added to the water in the aromatic volatile device. Since the fragrance is volatilized by the mist by the ultrasonic vibration, the original fragrance of the essential oil can be enjoyed.

另外,因為矽橡膠吸收精油成分而造成劣化,所以在將精油添加到水裡面之芳香揮發器中,不能夠使用矽橡膠來作為彈性保持構件。此場合,較佳是使用不鏽鋼製或塑膠製的平板狀的板彈簧。 Further, since the enamel rubber absorbs the essential oil component and deteriorates, the squeezing rubber cannot be used as the elastic holding member in the aromatic volatizer in which the essential oil is added to the water. In this case, it is preferable to use a flat plate spring made of stainless steel or plastic.

[實施例] [Examples]

其次,藉由實施例來說明本發明。 Next, the invention will be described by way of examples.

(一)實驗裝置: (1) Experimental device:

在以下的實驗中所使用的超音波霧化裝置,是由下述各構件的式樣所構成的第1圖所示的構造。 The ultrasonic atomizing device used in the following experiment is a structure shown in Fig. 1 which is composed of the following members.

˙容器:透明壓克力樹脂製的方形容器 ̇ Container: square container made of transparent acrylic resin

容器的內側尺寸:高度100mm×寬度100mm×縱深(長度)100mm Inside size of the container: height 100mm × width 100mm × depth (length) 100mm

凹陷部的內徑:13mm Inner diameter of the recess: 13mm

凹陷部的深度:3.7~5.1mm Depth of the recess: 3.7~5.1mm

˙超音波振動器:壓電型超音波振動器,共振頻率1.7MHz ̇Supersonic vibrator: Piezoelectric ultrasonic vibrator with a resonant frequency of 1.7MHz

直徑13mm×厚度0.2mm的圓盤狀 Disk shape of 13 mm in diameter × 0.2 mm in thickness

˙多孔板:鎳合金製,直徑5.5mm×板厚0.05mm的圓板狀 ̇Perforated plate: made of nickel alloy, 5.5 mm in diameter × 0.05 mm in thickness

貫通孔的孔徑是0.005mm Φ,約7000個貫通孔以0.06mm的節距(pitch)來形成交錯狀 The hole diameter of the through hole is 0.005 mm Φ, and about 7,000 through holes are formed in a staggered manner with a pitch of 0.06 mm.

˙彈性保持構件:不鏽鋼製板彈簧,外徑26mm×內徑7.4mm×厚度0.1mm的甜甜圈板狀 ̇Elastic retaining member: stainless steel plate spring, doughnut shape of outer diameter 26mm × inner diameter 7.4mm × thickness 0.1mm

˙墊片狀構件:外徑21mm×內徑13mm×厚度1.5mm ̇ Gasket-like member: outer diameter 21mm × inner diameter 13mm × thickness 1.5mm

開口部的直徑:5.1~6.6mm Diameter of the opening: 5.1~6.6mm

材質:不鏽鋼(參照第3圖) Material: stainless steel (refer to Figure 3)

˙霧化的液體:自來水 ̇Atomized liquid: tap water

˙驅動電源:直流6.0V,0.42A,2.4W(穩定化電源) ̇Drive power: DC 6.0V, 0.42A, 2.4W (stabilized power supply)

(二)霧化量的測定方法 (2) Method for measuring atomization amount

在上述實驗裝置中加入規定量的自來水,分別將墊片狀構件、及安裝在配設機構上之多孔板,設置在預定的位置,且整體放在電子天秤上。打開電源開關而開始霧化,藉由電子天秤來每隔5秒測定整體的重量變化。結果是,自開始霧化經過1分鐘的時點的重量的減少量,來算出1分鐘的霧化量,且進行換算以求得每1小時的霧化量(ml/hr)。 A predetermined amount of tap water was added to the above experimental apparatus, and the gasket-like member and the perforated plate attached to the disposition mechanism were respectively placed at predetermined positions, and placed on the electronic scale as a whole. The power switch was turned on to start atomization, and the overall weight change was measured every 5 seconds by an electronic balance. As a result, the amount of atomization of one minute was calculated from the amount of decrease in weight at the time of starting the atomization for one minute, and the amount of atomization per hour (ml/hr) was obtained by conversion.

<實施例1:液體隆起部和飛沫部的觀察> <Example 1: Observation of liquid bulging portion and droplet portion>

為了確認墊片狀構件的效果,使用上述超音波霧化裝置的容器和超音波振動器,該超音波霧化裝置是在凹陷部內設置有超音波振動器且在凹陷部上配置有墊片狀構件,自容器的底部注入自來水直到水深變成10mm,藉由電流0.42A、電壓6.0V的直流驅動電壓來使超音波振動器動作,且觀察液體 隆起部和飛沫部的狀態。如表1所示,針對使用各種開孔徑的墊片狀構件的場合和沒有使用墊片狀構件的場合,測定在容器內產生的液體隆起部和飛沫部的尺寸,且觀察其外觀。其結果如表1所示,拍照而得的外觀如第6圖~第9圖所示。 In order to confirm the effect of the shim member, the container of the ultrasonic atomizing device and the ultrasonic vibrator are provided, and the ultrasonic atomizing device is provided with an ultrasonic vibrator in the depressed portion and a shim in the depressed portion. The member is filled with tap water from the bottom of the container until the water depth becomes 10 mm, and the ultrasonic vibrator is operated by a DC driving voltage of 0.42 A and a voltage of 6.0 V, and the liquid is observed. The state of the bulge and the droplets. As shown in Table 1, in the case of using the gasket-like members having various opening diameters and the case where the gasket-like members were not used, the dimensions of the liquid bulging portion and the droplet portion generated in the container were measured, and the appearance was observed. The results are shown in Table 1, and the appearance obtained by photographing is as shown in Fig. 6 to Fig. 9.

如表1及第6圖~第9圖所示,即使是相同的水量(水深10mm)且相同的條件下的超音波振動,在沒有使用墊片狀構件的場合僅能夠形成小的液體隆起部,但是在使用墊片狀構件的場合就能夠形成高的圓錐狀隆起,進一步可知在開口徑是6.0mm的墊片狀構件的場合,水會自液體隆起部的頂部以噴射流狀地朝向上方飛出,而產生所謂的液體的飛沫部。 As shown in Table 1 and Fig. 6 to Fig. 9, even if the same amount of water (water depth: 10 mm) and ultrasonic vibration under the same conditions, only a small liquid ridge can be formed when the spacer-shaped member is not used. However, when a gasket-like member is used, a high conical ridge can be formed. Further, in the case of a gasket-like member having an opening diameter of 6.0 mm, water will flow upward from the top of the liquid bulging portion. Fly out and produce a so-called droplet part of the liquid.

<實施例2:霧化量的測定、及墊片狀構件的效果> <Example 2: Measurement of atomization amount and effect of gasket-like member>

使用上述(一)中所述的超音波霧化裝置,且測定在使用各種的開口徑的墊片狀構件的場合的霧化量。另外,此場合也是自容器的底部注入自來水直到水深變成10mm。將凹陷部的深度設為4.65mm,多孔板。經由彈性保持構件也就是板彈簧,並藉由配設機構而配置在與容器底部的距離是水深的126%(距離水面2.6mm)的位置。 The ultrasonic atomization device described in the above (1) was used, and the amount of atomization in the case where the gasket-like members having various opening diameters were used were measured. In addition, in this case, tap water is also injected from the bottom of the container until the water depth becomes 10 mm. The depth of the depressed portion was set to 4.65 mm, and a perforated plate was used. The elastic retaining member, that is, the leaf spring, is disposed at a position that is at a distance of 126% (2.6 mm from the water surface) to the bottom of the container by the disposing mechanism.

亦即,如表2所示,針對在使用各種的開口徑(d)的墊片狀構件的場合及沒有使用墊片狀構件的場合,在配置多孔板之前,驅動超音波振動器來預先測定液體隆起部的高度(H1)和飛沫部的高度(H2),其次在配置有多孔板的狀態下,驅動超音波振動器而開始霧化,針對各個場合,利用上述(二)的方法來測定開始霧化經過1分鐘後的霧化量。將其結果表示在表2中。 In other words, as shown in Table 2, when a spacer-shaped member having various opening diameters (d) is used and when a spacer-shaped member is not used, the ultrasonic vibrator is driven to measure before the porous plate is placed. The height (H1) of the liquid swelled portion and the height (H2) of the droplet portion are second, and the ultrasonic vibrator is driven to start atomization in a state where the porous plate is disposed, and the method is determined by the method of the above (2) for each case. The amount of atomization after 1 minute of atomization was started. The results are shown in Table 2.

由表2的結果可知,在沒有使用墊片狀構件的場合會形成小的液體隆起部,且是霧化量極少的狀態,但是在使用墊片狀構件的場合不僅會形成大的液體隆起部,自液體隆起部的頂部飛出的噴射流狀的水也會形成飛沫部。再者,此液體隆起部和飛沫部接觸到多孔板,藉此能夠達成在沒有使用墊片狀構件的場合的霧化量的50~100這樣的極大的霧化量。特別是在墊片狀構件的開口部的直徑(d)是5.4~6.6mm,相對於超音波振動器(D)之比率是0.40~0.60的條件時,能夠得到更大的霧化量。 As is clear from the results of Table 2, when the gasket-like member is not used, a small liquid bulging portion is formed and the amount of atomization is extremely small. However, when a gasket-like member is used, not only a large liquid bulging portion is formed. The jet-like water that flies from the top of the liquid bulge also forms a droplet. Further, the liquid swelled portion and the droplet portion are in contact with the perforated plate, whereby a large amount of atomization such as 50 to 100 of the amount of atomization in the case where the spacer-like member is not used can be achieved. In particular, when the diameter (d) of the opening of the spacer-shaped member is 5.4 to 6.6 mm and the ratio with respect to the ultrasonic vibrator (D) is 0.40 to 0.60, a larger amount of atomization can be obtained.

這樣的結果,可以被認為是藉由在容器底部的凹陷部設置超音波振動器,並在凹陷部的上部配置墊片狀構件,且適當地設定此墊片狀構件的開口部的尺寸,藉此大幅地增強由在容器內的液體中傳播的超音波振動所導致的能量,其結果會在液體的表面形成大的液體隆起部和飛沫部,且藉由液體隆起部和飛沫部接觸到多孔板,會達成大的霧化量。 As a result, it can be considered that the ultrasonic vibrator is provided in the depressed portion at the bottom of the container, and the spacer-like member is disposed on the upper portion of the depressed portion, and the size of the opening portion of the spacer-shaped member is appropriately set. This greatly enhances the energy caused by the ultrasonic vibration propagating in the liquid in the container, as a result of which a large liquid bulge and a droplet portion are formed on the surface of the liquid, and the liquid bulge and the droplet portion are in contact with the porous portion. The plate will achieve a large amount of atomization.

<實施例3:凹陷部的深度的影響> <Embodiment 3: Effect of Depth of Depression>

超音波能量在利用墊片狀構件覆蓋的凹陷部的空間內會被增強,但是考慮到此時的凹陷部的深度(h)也會造成影響,所以藉由與實施例1同樣的方法,在各種的凹陷部2的深度下使超音波振動器進行動作的場合,測定液體隆起部的高度(H1)和飛沫部的高度(H2)。另外,此場合也將水深設為10mm,使用的墊片狀構件的開口部的直徑是6.2mm。將其結果表示在表3中。 The ultrasonic energy is enhanced in the space of the depressed portion covered by the spacer-like member, but in consideration of the depth (h) of the depressed portion at this time, the influence is also caused by the same method as in the first embodiment. When the ultrasonic vibrator is operated at the depth of each of the depressed portions 2, the height (H1) of the liquid raised portion and the height (H2) of the flying portion are measured. Further, in this case, the water depth was also set to 10 mm, and the diameter of the opening of the spacer-shaped member to be used was 6.2 mm. The results are shown in Table 3.

如表3所示,可以認為具有此處所示的凹陷部,亦即凹陷部的深度(h)和超音波的波長(λ)之比率滿足4.0~6.0的條件時,任一種都能夠形成良好的液體隆起部和飛沫部,而達成大的霧化量。 As shown in Table 3, it can be considered that the recessed portion shown here, that is, the ratio of the depth (h) of the depressed portion to the wavelength (λ) of the ultrasonic wave satisfies the condition of 4.0 to 6.0, can be formed well. The liquid bulge and the droplets reach a large amount of atomization.

<實施例4:多孔板的設置位置的檢討> <Example 4: Review of the setting position of the perforated plate>

藉由與實施例2相同的霧化裝置和條件,但是將相對於液體隆起部或飛沫部之多孔板的設置位置,進行各種改變來進行自來水的霧化,藉由測定此時的霧化量的改變,以檢討相對於液體隆起部或飛沫部之多孔板的較佳的設置位置。此時的容器內的水深保持在10mm,使用的墊片狀構件的開口部的直徑是6.4mm。經由彈性保持構件也就是板彈簧,來將多孔板安裝在配設機構上,並藉由調整配設機構的高度,依照如表4所示的與液面的距離(從液面往上算起的距離),來將多孔板配置在預定的位置。採用開始霧化經過1分鐘後的測定值來作為霧化量。將其結果表示在表4中。此處的「多孔板的位置」,是在以容器內的水深(與容器底部的距離是10mm)作為100%的場合的與液面的相對距離(%),例如42%是水深的42%且位於液面上的4.2mm的位置。 By the same atomization apparatus and conditions as in the second embodiment, the atomization amount of the tap water is measured by performing various changes with respect to the installation position of the perforated plate of the liquid bulging portion or the droplet portion, and the amount of atomization at this time is measured. The change is to review the preferred placement of the perforated plate relative to the liquid ridge or droplet. The water depth in the container at this time was kept at 10 mm, and the diameter of the opening of the gasket-like member used was 6.4 mm. The perforated plate is mounted on the disposing mechanism via the elastic retaining member, that is, the leaf spring, and by adjusting the height of the disposing mechanism, according to the distance from the liquid surface as shown in Table 4 (from the liquid surface upward) The distance) is to arrange the perforated plate at a predetermined position. The measured value after one minute of the start of atomization was used as the atomization amount. The results are shown in Table 4. Here, the "position of the perforated plate" is a relative distance (%) to the liquid surface when the water depth in the container (the distance from the bottom of the container is 10 mm) is 100%, for example, 42% is 42% of the water depth. And located at the position of 4.2mm on the liquid surface.

如實施例2所示,在墊片狀構件的開口部的直徑是6.4mm且水深是10mm的場合,液體隆起部的高度是3.6mm且飛沫部的高度是4.1mm,所以當多孔板的位置是20%的場合,多孔板被配置在液體隆起部的稍微上部,當多孔板的位置是42%和50%的場合,多孔板被配置在飛沫部的位置,當多孔板的位置是75%的場合,多孔板被配置在快要超過飛沫 部的最上部的位置。由表4的結果可知,多孔板雖然自液體隆起部的頂部朝向飛沫部配置的場合所得到的霧化量最多,但是越朝向飛沫部的上部所得到的霧化量會減少。因此,為了得到多的霧化量,可以將多孔板配置在自液體隆起部的上部到飛沫部的下部之間。 As shown in the second embodiment, when the diameter of the opening portion of the spacer-shaped member is 6.4 mm and the water depth is 10 mm, the height of the liquid ridge portion is 3.6 mm and the height of the droplet portion is 4.1 mm, so when the position of the perforated plate is In the case of 20%, the perforated plate is disposed slightly above the liquid ridge, and when the position of the perforated plate is 42% and 50%, the perforated plate is disposed at the position of the droplet portion, and when the position of the perforated plate is 75% On occasion, the perforated plate is configured to be faster than the droplets The uppermost position of the department. As is clear from the results of Table 4, the amount of atomization obtained in the porous plate obtained from the top of the liquid bulging portion toward the droplet portion was the largest, but the amount of atomization obtained toward the upper portion of the droplet portion was reduced. Therefore, in order to obtain a large amount of atomization, the porous plate can be disposed between the upper portion of the liquid ridge portion and the lower portion of the droplet portion.

<實施例5;容器內的水深和多孔板的設置位置的檢討> <Example 5; Review of the water depth in the container and the position of the perforated plate>

藉由與實施例2相同的霧化裝置和條件,但是將容器內的水深作各種改變來進行自來水的霧化,以測定此時的霧化量的改變,來檢討在這種霧化裝置中的容器內的水深的影響。使用的墊片狀構件的開口部的直徑是6.4mm,經由彈性保持構件也就是板彈簧,來將多孔板安裝在配設機構上,且相對於各種水深來調整且配置多孔板的位置,來使多孔板與液面的距離一直是水深的26%(自液面向上算起的距離是水深的26%)。採用開始霧化經過1分鐘後的測定值來作為霧化量。將其結果表示在表5中。 The atomization device was used in the same manner as in Example 2, but the water depth in the container was variously changed to carry out atomization of the tap water, and the change in the amount of atomization at this time was measured to examine the atomization device. The effect of the water depth inside the container. The diameter of the opening of the gasket-like member to be used is 6.4 mm, and the perforated plate is attached to the disposing mechanism via the elastic holding member, that is, the plate spring, and the position of the perforated plate is adjusted with respect to various water depths. The distance between the perforated plate and the liquid surface is always 26% of the water depth (the distance from the liquid surface is 26% of the water depth). The measured value after one minute of the start of atomization was used as the atomization amount. The results are shown in Table 5.

進一步,在8mm的水深的場合,將多孔板的位置設 為26%的位置,亦即,在8mm的水深的場合,將多孔板的位置固定在與液面的距離是2.08mm的位置,以相同的霧化裝置和條件來進行規定時間的連續霧化,且調查液面降低1mm時的霧化量。將其結果表示在表6中。 Further, in the case of a water depth of 8 mm, the position of the perforated plate is set. At a position of 26%, that is, at a water depth of 8 mm, the position of the perforated plate is fixed at a position of 2.08 mm from the liquid surface, and continuous atomization for a predetermined time is performed under the same atomization device and conditions. And investigate the amount of atomization when the liquid level is reduced by 1 mm. The results are shown in Table 6.

由表5的結果可知,只要將多孔板的位置保持在與液面的距離是水深的26%前後的位置,雖然當初的水深是10mm,但是即使水深變小直到6mm程度也能夠得到相同程度的霧化量。又,由表6的結果可知,即使是在將多孔板固定在規定的位置且液面降低的場合,水深自8mm降低到7mm而多孔板與液面的距離變大1mm,但是即使有此程度的液面的降低仍舊能夠進行良好的霧化。 As is clear from the results of Table 5, as long as the position of the perforated plate is maintained at a position before and after the water depth of 26%, the original water depth is 10 mm, but the same degree can be obtained even if the water depth is reduced to 6 mm. Atomization amount. Moreover, as is clear from the results of Table 6, even when the porous plate is fixed at a predetermined position and the liquid level is lowered, the water depth is reduced from 8 mm to 7 mm, and the distance between the porous plate and the liquid surface is increased by 1 mm. The lowering of the liquid level is still able to perform good atomization.

由這些結果可知,在本發明的超音波霧化裝置中,即使是隨著霧化進行造成容器內的液體量減少而使得水深變小,也能夠在某種程度的範圍中得到相同程度的霧化量。這是因為只要將多孔板配置在自液體隆起部的上部到飛沫部的下部之間,即使隨著霧化進行而使得水深變小也能夠藉由飛沫部來進行霧化。 As a result of the above, it is understood that in the ultrasonic atomizing device of the present invention, even if the amount of liquid in the container is reduced as the atomization progresses, the water depth is reduced, and the same degree of fog can be obtained in a certain range. Amount. This is because if the porous plate is disposed between the upper portion of the liquid bulging portion and the lower portion of the droplet portion, even if the water depth becomes smaller as the atomization progresses, the atomization can be performed by the droplet portion.

<實施例6:多孔板的貫通孔的孔徑的檢討> <Example 6: Review of the pore diameter of the through hole of the perforated plate>

藉由與實施例2相同的霧化裝置和條件,但是將多孔板的貫通孔的孔徑作各種改變來進行自來水的霧化,以測定此時的霧化量的改變,來檢討關於多孔板的貫通孔的較佳孔徑。另外,此時的容器內的水深保持在10mm,且使用的墊片狀構件的開口部的直徑是5.8mm,並且,多孔板的貫通孔以0.016mm的節距來形成交錯狀,但是,其中,只有孔徑為0.005mm φ的貫通孔另外以0.006mm的節距來形成交錯狀。採用開始霧化經過1分鐘後的測定值來作為霧化量。將其結果表示在表7中。 The same atomization apparatus and conditions as in Example 2 were used, but the pore diameter of the through-hole of the perforated plate was variously changed to carry out atomization of tap water, and the change in the amount of atomization at this time was measured to examine the perforated plate. The preferred aperture of the through hole. Further, the water depth in the container at this time was kept at 10 mm, and the diameter of the opening of the spacer-shaped member to be used was 5.8 mm, and the through-holes of the perforated plate were formed in a staggered manner at a pitch of 0.016 mm, but Only the through holes having a hole diameter of 0.005 mm φ were formed in a staggered manner at a pitch of 0.006 mm. The measured value after one minute of the start of atomization was used as the atomization amount. The results are shown in Table 7.

由表7的結果可知,在多孔板的貫通孔的孔徑是0.005mm Φ的場合,霧化量最多,隨著孔徑越大,霧化量也減少,且在多孔板的貫通孔的孔徑是0.120mm Φ的場合,霧化就不再產生。亦即,可被認為是因為在孔徑是0.120mm Φ的場合,霧化前的液體便會通過貫通孔,且使多孔板的頂面變成一直會接觸到液體的狀態,所以會妨礙多孔板的頂面與空氣接觸,其結果,霧化就不會產生。 As is clear from the results of Table 7, when the pore diameter of the through-hole of the perforated plate is 0.005 mm Φ, the amount of atomization is the largest, and as the pore size is larger, the amount of atomization is also reduced, and the pore diameter of the through-hole in the perforated plate is 0.120. In the case of mm Φ, atomization is no longer produced. That is, it can be considered that, in the case where the aperture is 0.120 mm Φ, the liquid before the atomization passes through the through hole, and the top surface of the perforated plate becomes in a state of always coming into contact with the liquid, so that the perforated plate is hindered. The top surface is in contact with air, and as a result, atomization does not occur.

[產業利用性] [Industry Utilization]

依照本發明,能夠高效率、簡單且容易地使水等的液體 霧化,同時不需要使用100V的電源,而能夠作為小型、移動和攜帶方便的超音波霧化裝置來使用,有益於作為家庭用和室內用的加濕器和芳香揮發器來使用。 According to the present invention, it is possible to efficiently and simply and easily make a liquid such as water Atomization, while eliminating the need to use a 100V power supply, can be used as a small, mobile and portable ultrasonic atomizing device, which is beneficial for use as a humidifier and aroma volatilizer for home and indoor use.

1‧‧‧容器 1‧‧‧ container

2‧‧‧凹陷部 2‧‧‧Depression

3‧‧‧超音波振動器 3‧‧‧ Ultrasonic vibrator

4‧‧‧墊片狀構件 4‧‧‧shims

5‧‧‧配設機構 5‧‧‧Architecture

6‧‧‧多孔板 6‧‧‧Perforated plate

7‧‧‧彈性保持構件 7‧‧‧Elastic retention member

8‧‧‧貫通孔 8‧‧‧through holes

9‧‧‧多孔板保持構件 9‧‧‧Perforated plate holding member

10‧‧‧液體隆起部或飛沫部 10‧‧‧Liquid bulge or droplet

11‧‧‧橡膠襯墊 11‧‧‧Rubber pad

12‧‧‧振盪電路 12‧‧‧Oscillation circuit

41‧‧‧墊片狀構件的開口部 41‧‧‧ Openings of gasket-like members

Claims (9)

一種超音波霧化裝置,將超音波振動給予到容器內的液體而在液面形成液體隆起部及/或飛沫部,來霧化前述液體,該超音波霧化裝置的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機構,前述多孔板的底面,被配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部之位置。 An ultrasonic atomizing device that atomizes the liquid in the container by ultrasonic vibration to form a liquid bulging portion and/or a droplet portion on the liquid surface, and the ultrasonic atomizing device is characterized in that the container is Further, a recessed portion is further provided at the bottom of the recessed portion, and an ultrasonic vibrator is disposed at a bottom portion of the recessed portion, and a shim-shaped member having an opening at the center thereof is disposed in a state of covering the recessed portion, or a bottom plate of the container having the opening portion is used. Covering the recessed portion, the opening of the container bottom plate becomes an opening position at the center of the recessed portion, and includes a perforated plate in which a plurality of minute through holes are formed, and an arrangement mechanism for the perforated plate Arranging at a predetermined position; wherein the perforated plate is attached to the disposition mechanism via an elastic retaining member, and by the disposing mechanism, the bottom surface of the perforated plate is disposed when the ultrasonic vibrator is operated Contact with the location of the formed liquid ridges and/or droplets. 如請求項1所述的超音波霧化裝置,其中,前述墊片狀構件的開口部的直徑(d)、或容器底板的開口部的直徑(d),相對於超音波振動器的直徑(D)之比率(d/D)是在0.4~0.55的範圍內。 The ultrasonic atomizing device according to claim 1, wherein the diameter (d) of the opening of the spacer-like member or the diameter (d) of the opening of the container bottom plate is relative to the diameter of the ultrasonic vibrator ( The ratio of D) (d/D) is in the range of 0.4 to 0.55. 如請求項1所述的超音波霧化裝置,其中,前述凹陷部的深度(h),是在藉由前述超音波振動器所產生的超音波的波長(λ)的2~12倍的範圍內。 The ultrasonic atomizing device according to claim 1, wherein the depth (h) of the depressed portion is in the range of 2 to 12 times the wavelength (λ) of the ultrasonic wave generated by the ultrasonic vibrator. Inside. 如請求項2所述的超音波霧化裝置,其中,前述凹陷部的深度(h),是在藉由前述超音波振動器所產生的超音波的波長(λ)的2~12倍的範圍內。 The ultrasonic atomizing device according to claim 2, wherein the depth (h) of the depressed portion is in the range of 2 to 12 times the wavelength (λ) of the ultrasonic wave generated by the ultrasonic vibrator Inside. 如請求項1至4中任一項所述的超音波霧化裝置,其中,前述多孔板的厚度是0.02mm~0.05mm,該多孔板的貫通孔的孔徑是0.002mm~0.100mm。 The ultrasonic atomizing device according to any one of claims 1 to 4, wherein the porous plate has a thickness of 0.02 mm to 0.05 mm, and the through hole of the porous plate has a diameter of 0.002 mm to 0.100 mm. 如請求項1至4中任一項所述的超音波霧化裝置,其中,前述多孔板,被配置在比液面更上方且位於自液面算起至與液面的距離是水深的90%的範圍內的位置。 The ultrasonic atomizing device according to any one of claims 1 to 4, wherein the porous plate is disposed above the liquid surface and located at a distance from the liquid surface to a distance from the liquid surface of 90 The location within the range of %. 如請求項5所述的超音波霧化裝置,其中,前述多孔板,被配置在比液面更上方且位於自液面算起至與液面的距離是水深的90%的範圍內。 The ultrasonic atomizing device according to claim 5, wherein the porous plate is disposed above the liquid surface and is located within a range from the liquid surface to a distance from the liquid surface of 90% of the water depth. 一種超音波加濕器,將超音波振動給予到容器內的水而在水面形成液體隆起部及/或飛沫部,來霧化前述水,該超音波加濕器的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的 中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機構,前述多孔板的底面,被配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部之位置。 An ultrasonic humidifier that imparts ultrasonic vibration to a water in a container to form a liquid ridge and/or a droplet on the surface of the water to atomize the water, the ultrasonic humidifier characterized by: Further, a depressed portion is further provided at the bottom, and an ultrasonic vibrator is disposed at a bottom portion of the depressed portion, and a shim-like member having an opening at the center thereof is disposed in a state of covering the depressed portion, or is covered by a bottom plate of the container having the opening portion. The recessed portion, the opening portion of the bottom plate of the container becomes in the depressed portion a central opening position; and a perforated plate having a plurality of minute through holes, and an arrangement mechanism for disposing the perforated plate at a predetermined position; wherein the perforated plate is passed through the elastic holding member Mounted on the arrangement mechanism, the bottom surface of the perforated plate is disposed at a position where the liquid ridges and/or the droplets are formed when the ultrasonic vibrator operates. 一種超音波芳香揮發器,將超音波振動給予到容器內的包含芳香成分的水而在水面形成液體隆起部及/或飛沫部,來霧化前述水,該超音波芳香揮發器的特徵在於:在前述容器的底部進一步設置凹陷部,並在該凹陷部的底部設置超音波振動器,且以覆蓋該凹陷部的狀態來配置其中心具有開口部之墊片狀構件、或利用具有開口部之容器底板來覆蓋該凹陷部,該容器底板的開口部變成在該凹陷部的中心的開口位置;並且,具備形成有多數個微小的貫通孔之多孔板、及配設機構,該配設機構將此多孔板配設在預定位置;其中,前述多孔板經由彈性保持構件而被安裝在前述配設機構上,藉由此配設機構,前述多孔板的底面,被配設在當超音波振動器動作時會接觸到所形成的液體隆起部及/或飛沫部之位置。 An ultrasonic aromatic volatile device which atomizes the water by imparting ultrasonic vibration to the water containing the aromatic component in the container and forming a liquid bulging portion and/or a droplet portion on the water surface, and the ultrasonic aroma volatile device is characterized by: Further, a recessed portion is further provided at a bottom portion of the container, and an ultrasonic vibrator is disposed at a bottom portion of the recessed portion, and a shim-shaped member having an opening at a center thereof is disposed in a state of covering the recessed portion, or an opening portion is used. The container bottom plate covers the recessed portion, the opening of the container bottom plate becomes an opening position at the center of the recessed portion, and includes a perforated plate in which a plurality of minute through holes are formed, and an arrangement mechanism The perforated plate is disposed at a predetermined position; wherein the perforated plate is attached to the arrangement mechanism via the elastic holding member, and by the arrangement mechanism, the bottom surface of the perforated plate is disposed in the ultrasonic vibrator During operation, the position of the formed liquid ridge and/or the droplet portion is contacted.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI775254B (en) * 2020-01-17 2022-08-21 日商東芝三菱電機產業系統股份有限公司 Ultrasonic atomizing apparatus

Families Citing this family (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105181419B (en) * 2015-10-22 2017-11-17 中国科学院合肥物质科学研究院 The online and offline detection means and detection method of volatile organic matter in a kind of ultrasonic atomizatio extraction water body
CN105559151B (en) * 2016-03-21 2019-05-24 湖南中烟工业有限责任公司 A kind of ultrasonic ultrasonic delay line memory and electronic cigarette
JP7009483B2 (en) * 2017-01-09 2022-01-25 ユナイテッド セラピューティクス コーポレイション Aerosol delivery device, and methods for its manufacture and operation
US10799653B2 (en) 2017-01-09 2020-10-13 United Therapeutics Corporation Aerosol delivery device and method for manufacturing and operating the same
EP3821914B1 (en) * 2018-07-10 2023-12-06 Panasonic Intellectual Property Management Co., Ltd. Mist-generating device
CN110772657A (en) * 2019-11-07 2020-02-11 安徽泰德电子科技有限公司 Intelligent aromatherapy machine convenient for water adding and draining and use method thereof
HUE067026T2 (en) 2019-12-15 2024-09-28 Shaheen Innovations Holding Ltd Ultrasonic mist inhaler
US12121056B2 (en) 2019-12-15 2024-10-22 Shaheen Innovations Holding Limited Hookah device
US11730193B2 (en) 2019-12-15 2023-08-22 Shaheen Innovations Holding Limited Hookah device
US20240148053A9 (en) 2019-12-15 2024-05-09 Shaheen Innovations Holding Limited Hookah device
US11911559B2 (en) 2019-12-15 2024-02-27 Shaheen Innovations Holding Limited Ultrasonic mist inhaler
US11944121B2 (en) 2019-12-15 2024-04-02 Shaheen Innovations Holding Limited Ultrasonic mist inhaler with capillary element
US11666713B2 (en) 2019-12-15 2023-06-06 Shaheen Innovations Holding Limited Mist inhaler devices
US11589610B2 (en) 2019-12-15 2023-02-28 Shaheen Innovations Holding Limited Nicotine delivery device having a mist generator device and a driver device
HUE060002T2 (en) 2019-12-15 2023-01-28 Shaheen Innovations Holding Ltd Mist inhaler devices
US11730191B2 (en) 2019-12-15 2023-08-22 Shaheen Innovations Holding Limited Hookah device
AU2021285405A1 (en) 2020-06-01 2023-01-19 Shaheen Innovations Holding Limited An infectious disease screening system
KR20230034987A (en) 2020-06-01 2023-03-10 샤힌 이노베이션즈 홀딩 리미티드 Infectious disease screening device
KR102513605B1 (en) * 2020-07-24 2023-03-23 주식회사 케이티앤지 Aerosol-generating apparatus based on ultrasound
CN112705406A (en) * 2020-12-02 2021-04-27 黑龙江壹帕软件有限公司 High-frequency sound field coupling vibration transmission atomization device
CN113977344B (en) * 2021-11-19 2023-03-24 南京航空航天大学 Ultrasonic vibration atomization rotating jet cooling device and operation process thereof
US20230188901A1 (en) 2021-12-15 2023-06-15 Shaheen Innovations Holding Limited Apparatus for transmitting ultrasonic waves

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0771653B2 (en) * 1990-12-28 1995-08-02 ティーディーケイ株式会社 Ultrasonic liquid atomizer
JP2848124B2 (en) * 1992-06-09 1999-01-20 オムロン株式会社 Ultrasonic inhaler
JPH08110069A (en) * 1994-10-11 1996-04-30 Fukoku Co Ltd Humidifier
JP4782368B2 (en) * 2003-07-25 2011-09-28 ナノミストテクノロジーズ株式会社 Ultrasonic separator for solution
TWM387706U (en) * 2010-04-28 2010-09-01 Middleland Sensing Tech Inc Detachable ultrasonic nebulizer
JP2013221633A (en) * 2012-04-13 2013-10-28 Ryohin Keikaku Co Ltd Ultrasonic atomizing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI775254B (en) * 2020-01-17 2022-08-21 日商東芝三菱電機產業系統股份有限公司 Ultrasonic atomizing apparatus

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