Patent Application
20250214100
The present invention relates to a nebulizing device, and more particularly to use a bottle containing liquid and atomizing liquid into vapor by using the nebulizing device.
Current nebulizing devices include scent and liquid nebulizing devices such as essential oil diffuser devices of previous US Pat. No. US20190275186-A1, US20190307913-A1 and U.S. Pat. No. 11,000,618. The structures of said devices are more complex, the volume of said devices is greater and the exhaustion of essential oil is more rapid which leads to inefficient control of the consumption of essential oil. In addition, essential oil in the bottle will be drawn to the outlet of a tube and overflow to form essential oil droplets. Airflow from the nozzle atomizes the droplets and the adhesive substance of essential oil droplets blocks the outlet of the tube of devices, which said devices cannot efficiently provide scented liquid at the outlet of the tube therefore the atomizing effectiveness will be affected.
A nebulizing device disclosed herein can moderately release the amount of scented liquid being used from a bottle containing scented liquid, and the nebulizing device can efficiently atomize the scented liquid. The nebulizing device can at least resolve or overcome the problem of exhausting rapid and considerable usage of scented liquid.
A nebulizing device with a bottle containing scented liquid disclosed herein, wherein the scented liquid is drawn to the outlet of a tube and may form an adhesive substance of the scented liquid blocking the outlet of the tube 77 and can be removed and cleaned to avoid blocking the outlet of the tube 77 to maintain the outstanding atomizing result of the nebulizing device.
In some embodiments of the present invention, the nebulizing device comprising: a body, a power connected unit, a gas providing device, an atomizer room; The body comprising an accommodation chamber, an opening, and the accommodation chamber defined in the body, and the opening accommodated on the upper of the accommodation chamber; the power connected unit, the gas providing device and the atomizer room housed in the accommodation chamber; the gas providing device comprising an air inflow segment and an air outflow segment and the gas providing device electrically connected with the power connected unit; the atomizer room comprising a cavity, a coupling section, a lid, a spray head, a tube;
The tube is inside the coupling section and the free end of the tube forms a suction mouth extending toward the cavity. The suction mouth is proximate to the nozzle. The nozzle has a minimum effective diameter therethrough discharging the center of the airflow axis that passes through the above of the outlet of the suction mouth.
The cross-sectional portion of the spray head that extending toward the side of the nozzle forming a first shrinkage conduit, and the narrowest free end of the first shrinkage conduit forming the nozzle. The cross-sectional portion of the tube that extending towards the side of the suction mouth formed a second shrinkage conduit, and the narrowest free end of the second shrinkage conduit formed the suction mouth.
In some embodiments of the present invention, the nebulizing device further comprising a bottle containing liquids, wherein said coupling section connecting with the bottle, and the bottle containing liquids comprising scents, liquids or alcohol and so on. The other side of the tube can extend toward the inside of the liquids of the bottle.
The power connected unit electrically couples with power, the power supplying the gas providing device producing high-pressure airflow passing through the shrunk cross-sectional portion of the first shrinkage conduit, and forming high-speed airflow from the nozzle of the spray head to pass through the above of the suction mouth of the tube to form an area of negative air pressure (such as Bernoulli's principle), therefore the scented liquid (e.g. fragrance oil, essential oil) inside the bottle are being drawn through the second shrinkage conduit to the suction mouth to overflowing continual certain volume of droplets of scented liquid successively to control minimally overflowing the scented liquid. The nozzle provides continual high-speed airflow which blows scented liquid into vapor. The vapor accumulates in the cavity of the atomizer room, and fragrance will spread from the atomized orifice of the lid to the outside.
In some embodiments of the present invention, the certain caliber of the suction mouth overflowing certain volume of scented liquid, and the volume of the droplet particles includes, for example, approximately 10 to 1,000 μm3 to release a moderate amount of scented liquid usage. Furthermore, the caliber of the conical end of the suction mouth and the second shrinkage conduit can determine the size of the caliber of the tube outlet inside the liquids of the bottle, thereby the high-speed airflow of the nozzle can atomize scented liquid efficiently to at least resolve the exhaustion and substantial usage of scented liquid and to extend the scent diffusing time of the nebulizing device.
In some embodiments of the present invention, the nebulizing device further comprising a printed circuit board, an upper case; the printed circuit board comprising a converter circuit, and the power connected unit electrically couples with the gas providing device and the printed circuit board; the upper case comprising an electrical circuit touch device, and the electrical circuit touch device movably electrically connecting with the printed circuit board and the converter circuit, thereby opening and closing the function of the printed circuit board, or opening and closing the function of the converter circuit electrically coupling with the gas providing device. Thus, raising the voltage of power to the gas providing device (such as raising 5V to 7V or 10V). The gas providing device can produce and deliver greater air pressure to the spray head when following instructions, and ejecting greater high-speed airflow to eliminate adhesive substance at the outlet of the suction mouth formed by scented liquid or essential oil in a short time and to achieve the cleansing of the suction mouth of the nebulizing device to avoid adhesive substance of the scented liquid (e.g. essential oil or fragrance oil) blocking the outlet of the suction mouth.
In the embodiments of the present invention, the coupling section is further connected to a bottle comprising alcohol. The alcohol inside the bottle is drawn into the suction mouth through the tube. Alcohol can further break down and melt the adhesive substance of scented liquid (e.g. fragrance oil) that blocks the outlet of the suction mouth, therefore said high-speed airflow can eliminate the adhesive substance of scented liquid (e.g. fragrance oil or colloid) more easily to meet the cleansing function of the present invention to avoid the adhesive substance of the scented liquid (e.g. fragrance oil) blocking the outlet of the outlet of the suction mouth.
Comparing with prior technique, the nebulizing device of the present invention providing a nebulizing device moderately release fragrance oil to promote effective evaporation, thereby saving fragrance oil and extending the use of time of the benefit of scented liquid of the nebulizing device through the design of the present invention comprising a selective cleansing function that can raise the amount and speed rate of the airflow of the nozzle through control in any time to eliminate the adhesive substance of the scented liquid (e.g. fragrance oil) at the outlet of the tube located inside the atomizer room of the present invention, this design can avoid scented liquid from blocking the outlet of the tube to maintain outstanding atomizing result of scented liquid.
With reference to
The body 1 and the accommodation chamber 11 in the figures of the embodiment integrated with the power connected unit 3, the gas providing device 5 and the atomizer room 7; the gas providing device 5 comprising an air inflow segment 51 and an air outflow segment 53 and the gas providing device 5 electrically connected with the power connected unit 3; the atomizer room 7 comprising a cavity 72, a coupling section 74, a lid 76, a spray head 75, a tube 77; the cavity 72 defined in the atomizer room 7, and the coupling section 74 is formed at the bottom of the cavity 72, the top of the lid 76 has an atomized orifice 761, and the lid 76 is arranged on top of the cavity 72; the free end of the spray head 75 formed a nozzle 755, the side of the nozzle 755 of the spray head 75 accommodated inside of the cavity 72, the other side of the spray head 75 extends to the outside and connects with the air inflow segment 53 of the gas providing device 5; in some embodiments of the present invention, the other side of the nozzle 75 can use a conduit to connect the gas providing device 5; the tube 77 is inside the coupling section 74 and the free end of the tube 77 forms a suction mouth 771 extending toward the cavity. The suction mouth 771 is proximate to the nozzle 755; The cross-sectional portion of the spray head 75 that extending toward the side of the nozzle 755 forming a first shrinkage conduit 751, and the narrowest free end of the first shrinkage conduit 751 formed the nozzle 755 with cone-shaped; the cross-sectional portion of the tube 77 that extending towards the side of the suction mouth formed a second shrinkage conduit 775, and the narrowest free end of the second shrinkage conduit 775 formed the suction mouth 771 with cone-shaped. In some embodiments of the present invention, the suction mouth 771 is proximate to the nozzle 755; the meaning of the term “proximate” includes “close” “is closely proximate to” and “is extremely proximate to” and therefore the meaning of “proximate” cannot be construed as limiting.
With reference to
The power connected unit electrically couple with power, the power, for example, a battery 31 providing an alternating current to the gas providing device 5 to produce high pressure airflow that flows through the nozzle 755 of the spray head 75 and passes through the above of the suction mouth 771 of the tube 77 to form an area of negative pressure (such as Bernoulli's principle), therefore the scented liquid (e.g. fragrance oil, essential oil) inside the bottle are being drawn to suction mouth 771 and overflow continual small droplets. The nozzle 755 providing continual high-speed airflow, which blows scented liquid from suction mouth 771 into a vapor of scented liquid. The vapor accumulates in the cavity 72 of the atomizer room 7, and vapor of scent (e.g. fragrance) will spread from the atomized orifice 761 of the lid 76 to the outside.
In some embodiments of the present invention of the nebulizing device, continual high-speed airflow passes through the differential current pressure produced by the surroundings of the suction mouth 771 (atmospheric pressure) is negative pressure), the differential airflow pressure from the suction mouth 771 brings fluid to an external suction into the tube 77 and drawn scented liquid from bottle 71 to suction mouth 771 to overflow continual small scented droplets. The nozzle 755 providing continual high-speed airflow, which blows scented liquid from the suction mouth into vapor, and this phenomenon is Bernoulli's principle that gas providing device 5 delivers continual high-pressure airflow that passes through the first shrinkage conduit 751 of the spray head 75 that causes bumping airflow to flow at the narrowest portion of the spray head 75, and the speed reaches to the maximum at the nozzle 755. The air pressure from the gas providing device 71 (e.g. air pump or fan) rises because when airflow passes the small diameter portion causes the small diameter to shrink, and all the airflow passes the first shrinkage conduit 751 at the same time when the small diameter tapers, thereby air pressure decreases at the same time. When delivering continual high-speed airflow via nozzle 755 through above of suction mouth 75 via nozzle 755, the high-speed airflow around the surroundings of the suction mouth 771 produces atmospheric pressure, thereby producing a drawing effect at the suction mouth 771.
With reference to
In some embodiments of the present invention, the volume of scented liquid particles includes 10 μm3 to 1000 μm3; in some embodiments of the present invention, wherein the suction mouth is for overflowing scents or liquids 50 μm3 to 500 μm3 thereby controlling a moderate amount of usage of scented liquid (such as essential oil) to atomize effectively by the high-speed airflow from nozzle 755 to at least resolve the problem of the exhaustion of scented liquid is more rapid and substantial usage of scented liquid. The control of the size of the scented liquid particles can save the usage of scented liquid and increase the usage time to allow the diffusing of scent (e.g. fragrance) last longer.
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In some embodiments of the present invention, wherein the direction of the outlet axis of the nozzle 755 and the suction mouth forms an angle comprising 89 to 45 degrees. The airflow of the nozzle 755 and suction mouth 771 overflowing liquid droplets that form an acute angle, and the suction mouth 771 overflows more smoothly and not easily block suction mouth 771. In some embodiments, the outlet axis of the nozzle 755 and the suction mouth 771 forms an acute angle comprising 88 to 75 degrees, the output airflow of nozzle 755 still maintain outstanding pressure drop at suction mouth 771.
With reference to
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In the embodiment of the present invention shown in
In some embodiments, the coupling section 74 connecting with the bottle 71 including screw threads apparatus, fastener, magnetic apparatus, clip apparatus, hook apparatus, or absorption apparatus. The bottle 71 connects with the apparatuses and can configure to removably connect with the coupling section. In the embodiment shown in figures, the coupling section 74 connects with bottle 71 through the screw threads apparatus.
With reference to
The nebulizing device wherein comprising a bracket 4, and the bracket 4 comprising the bottom of the bracket 4 connects with the inner side of the body 1 and the upper side of the bracket 4 connects with the printed circuit board 9; The printed circuit board 9 electrically connects with the electrical circuit touch device 21 from the upper case 2.
With reference to
The nebulizing device moderately releases and effectively atomizes essential oil or scented liquid to meet the benefit of saving essential oil. The adhesive substance of scented liquid at the suction mouth 771 of the tube 77 inside the atomizing room 7 of the nebulizing device can selectively use the cleansing function through the design of the nebulizing device 100 of the present invention to increase the amount and speed rate of airflow through the nozzle 755 in any time by control or combine with alcohol to eliminate adhesive substance of the scented liquid from the suction mouth 771 of the nebulizing device and avoid adhesive substance from blocking the suction mouth 771 of the tube 71; therefore, maintaining an outstanding atomizing effect and extending diffusing time of scented liquid.
The above embodiments of the present invention, the nebulizing device are only to clearly state the examples in the present invention rather than limiting the embodiments of the present invention. For a person having ordinary skill in the art, based on the above statement, the embodiments can modify and change into different forms and should not further provide examples of all the embodiments. Any changes, shifts and progression according to the essence and the principle of the present invention should be included in the claims under the protection of the present invention.
