CN109420225A - Atomization device and method of operating the same - Google Patents

Atomization device and method of operating the same Download PDF

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Publication number
CN109420225A
CN109420225A CN201710784560.4A CN201710784560A CN109420225A CN 109420225 A CN109420225 A CN 109420225A CN 201710784560 A CN201710784560 A CN 201710784560A CN 109420225 A CN109420225 A CN 109420225A
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circuit
parameter group
voltage
liquid
atomization
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白胜文
施育嘉
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Delta Electronics Inc
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Delta Electronics Inc
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M11/00Sprayers or atomisers specially adapted for therapeutic purposes
    • A61M11/001Particle size control

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  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Anesthesiology (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Hematology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Special Spraying Apparatus (AREA)

Abstract

The invention relates to an atomization device and an operation method thereof. The atomization device comprises an atomization circuit, a power circuit, a selection interface and a control circuit. The atomizer circuit has a piezoelectric actuator. The power circuit is used for selectively providing voltage to the atomization circuit. The selection interface is used for selecting a first parameter group or a second parameter group, wherein the first parameter group corresponds to the first liquid, and the second parameter group corresponds to the second liquid. When the first parameter group is selected, the control circuit is used for controlling the power supply circuit to provide a first voltage to the atomization circuit so as to drive the piezoelectric actuator to atomize and release the first liquid according to the first particle size.

Description

雾化装置及其操作方法Atomization device and operation method thereof

技术领域technical field

本发明涉及一种雾化装置及其操作方法,尤为一种针对液体种类进行雾化的雾化装置及其操作方法。The invention relates to an atomization device and an operation method thereof, in particular to an atomization device and an operation method for atomizing liquid types.

背景技术Background technique

现行的雾化装置皆在一定时间内以预设的功率以及电压来驱动,用户无法自行调整功率或电压。然而,当雾化装置用于雾化药液时,不同的药液具有不同的物理性质及浓度,因此,驱动雾化装置喷雾的功率或电压,将会影响药液的雾化时间、投药率及粒径大小。The existing atomizing devices are all driven with preset power and voltage within a certain period of time, and users cannot adjust the power or voltage by themselves. However, when the atomizing device is used to atomize the liquid medicine, different liquid medicines have different physical properties and concentrations. Therefore, the power or voltage driving the atomizing device to spray will affect the atomization time and the dosing rate of the liquid medicine. and particle size.

药液经由雾化装置上的筛孔震荡挤压出去而被雾化,对于某些药液来说,若过大的驱动功率或电压使雾化装置的压电致动器摆荡幅度增大,不仅使雾化的粒径增大,更可能导致小粒径粒子追撞大粒径粒子而结合成更大的粒子,如此将减少雾化的药液进入肺部的深度;若过小的驱动功率或电压,虽可雾化出小粒径粒子,但耗费时间。是故,现行的雾化装置显然有存在缺失,亟待加以改良。The liquid medicine is oscillated and squeezed out through the sieve holes on the atomizing device and is atomized. For some liquid medicines, if the excessive driving power or voltage increases the oscillation amplitude of the piezoelectric actuator of the atomizing device, It not only increases the atomized particle size, but also may cause small particle size particles to collide with large particle size particles and combine into larger particles, which will reduce the depth of the atomized liquid medicine entering the lungs; if the drive is too small Power or voltage can atomize small-sized particles, but it takes time. Therefore, the current atomizing device obviously has defects and needs to be improved.

发明内容SUMMARY OF THE INVENTION

本发明的一实施态样涉及一种雾化装置,包含雾化电路、电源电路、选择接口以及控制电路。雾化电路具有压电致动器。电源电路用以选择性地提供电压至与其电性耦接的雾化电路。选择接口用以选择第一参数组或第二参数组,其中第一参数组对应第一液体,第二参数组对应第二液体。控制电路则与选择接口以及电源电路电性耦接,其中,当第一参数组被选择时,控制电路用以控制电源电路以提供第一电压至雾化电路,进而驱动压电致动器根据第一粒径雾化释出第一液体,而当第二参数组被选择时,用以控制电源电路以提供第二电压至雾化电路,进而驱动压电致动器根据第二粒径雾化释出第二液体。An embodiment of the present invention relates to an atomizing device, which includes an atomizing circuit, a power supply circuit, a selection interface, and a control circuit. The atomizing circuit has a piezoelectric actuator. The power circuit is used for selectively supplying a voltage to the atomizing circuit electrically coupled thereto. The selection interface is used to select the first parameter group or the second parameter group, wherein the first parameter group corresponds to the first liquid, and the second parameter group corresponds to the second liquid. The control circuit is electrically coupled to the selection interface and the power supply circuit, wherein, when the first parameter group is selected, the control circuit is used to control the power supply circuit to provide the first voltage to the atomizing circuit, and then drive the piezoelectric actuator according to the The first particle size is atomized to release the first liquid, and when the second parameter group is selected, it is used to control the power circuit to provide a second voltage to the atomization circuit, and then drive the piezoelectric actuator to spray according to the second particle size. The second liquid is released.

本发明的另一实施态样涉及一种雾化装置的操作方法,用以操作雾化装置,其中雾化装置具有电源电路以及雾化电路,雾化电路电性耦接于电源电路并具有压电致动器,雾化装置更具有控制电路以及选择接口,控制电路电性耦接于选择接口以控制电源电路。所述操作方法包含下列步骤:通过选择接口提供第一参数组或第二参数组,其中第一参数组对应第一液体,第二参数组对应第二液体;当第一参数组被选择时,控制电路控制电源电路以提供第一电压至雾化电路,进而驱动压电致动器根据第一粒径雾化释出第一液体;以及,当第二参数组被选择时,控制电路控制电源电路以提供第二电压至雾化电路,进而驱动压电致动器根据第二粒径雾化释出第二液体。Another embodiment of the present invention relates to an operating method of an atomizing device for operating the atomizing device, wherein the atomizing device has a power circuit and an atomizing circuit, and the atomizing circuit is electrically coupled to the power circuit and has a voltage The electric actuator and the atomizing device further have a control circuit and a selection interface, and the control circuit is electrically coupled to the selection interface to control the power supply circuit. The operating method includes the following steps: providing a first parameter group or a second parameter group through a selection interface, wherein the first parameter group corresponds to the first liquid, and the second parameter group corresponds to the second liquid; when the first parameter group is selected, The control circuit controls the power supply circuit to provide the first voltage to the atomizing circuit, and then drives the piezoelectric actuator to atomize and release the first liquid according to the first particle size; and, when the second parameter group is selected, the control circuit controls the power supply The circuit provides a second voltage to the atomizing circuit, and then drives the piezoelectric actuator to atomize and release the second liquid according to the second particle size.

因此,根据本发明的技术内容,本发明实施例藉由提供一种雾化装置及其操作方法,藉以改善先前技术的雾化装置无法针对不同种类的液体进行雾化的问题。Therefore, according to the technical content of the present invention, the embodiments of the present invention provide an atomizing device and an operating method thereof, thereby improving the problem that the prior art atomizing device cannot atomize different types of liquids.

附图说明Description of drawings

图1为本发明一实施例的雾化装置示意图;1 is a schematic diagram of an atomizing device according to an embodiment of the present invention;

图2为本发明一实施例的雾化装置示意图;2 is a schematic diagram of an atomizing device according to an embodiment of the present invention;

图3为本发明一实施例的雾化装置示意图;3 is a schematic diagram of an atomizing device according to an embodiment of the present invention;

图4为本发明一实施例的雾化装置示意图;4 is a schematic diagram of an atomizing device according to an embodiment of the present invention;

图5为本发明一实施例的雾化装置示意图;5 is a schematic diagram of an atomizing device according to an embodiment of the present invention;

图6为本发明一实施例的雾化装置操作方法的步骤流程图;以及FIG. 6 is a flow chart of the steps of a method for operating an atomizing device according to an embodiment of the present invention; and

图7为本发明一实施例的雾化装置的操作方法的步骤流程图。FIG. 7 is a flow chart of the steps of the operation method of the atomizing device according to an embodiment of the present invention.

其中附图标记为:The reference numerals are:

1:雾化装置1: Atomization device

2:无线传输装置2: Wireless transmission device

100:雾化电路100: Atomization circuit

101:压电致动器101: Piezoelectric Actuators

200:电源电路200: Power circuit

300:控制电路300: Control circuit

400:选择接口400: select interface

401:显示屏幕401: Display screen

500:数据库500: Database

600:回馈回馈电路600: Feedback Feedback Circuit

700:无线通信模块700: Wireless Communication Module

A:第一选项A: The first option

B:第二选项B: Second option

S600~S602:步骤流程S600~S602: Step flow

S700~S706:步骤流程S700~S706: Step Flow

具体实施方式Detailed ways

以下将以图式及详细叙述清楚说明本发明的精神,任何所属技术领域中具有通常知识者在了解本发明的实施例后,当可由本发明所教示的技术,加以改变及修饰,其并不脱离本发明的精神与范围。The following will clearly illustrate the spirit of the present invention with drawings and detailed descriptions. After understanding the embodiments of the present invention, any person with ordinary knowledge in the technical field can make changes and modifications by the technology taught in the present invention. depart from the spirit and scope of the present invention.

本文的用语只为描述特定实施例,而无意为本发明的限制。单数形式如“一”、“这”、“此”、“本”以及“该”,如本文所用,同样也包含多个形式。The language used herein is intended to describe particular embodiments and is not intended to be limiting of the invention. Singular forms such as "a," "the," "the," "this," and "the," as used herein, also include the plural.

关于本文中所使用的“第一”、“第二”、…等,并非特别指称次序或顺位的意思,亦非用以限定本发明,其仅为了区别以相同技术用语描述的组件或操作。Regarding the "first", "second", ... etc. used in this document, it does not specifically refer to the order or order, nor is it used to limit the present invention, it is only used to distinguish components or operations described in the same technical terms. .

关于本文中所使用的“耦接”或“连接”,均可指二或多个组件或装置相互直接作实体接触,或是相互间接作实体接触,亦可指二或多个组件或装置相互操作或动作。As used herein, "coupling" or "connection" can mean that two or more components or devices are in direct physical contact with each other, or are in indirect physical contact with each other, or two or more components or devices are in physical contact with each other. action or action.

关于本文中所使用的“包含”、“包括”、“具有”、“含有”等等,均为开放性的用语,即意指包含但不限于。As used herein, "comprising," "including," "having," "containing," and the like, are open-ended terms, meaning including but not limited to.

关于本文中所使用的“及/或”,包括所述事物的任一或全部组合。As used herein, "and/or" includes any and all combinations of the stated things.

关于本文中所使用的方向用语,例如:上、下、左、右、前或后等,仅是参考附加图式的方向。因此,使用的方向用语是用来说明并非用来限制本发明。Directional terms used herein, such as: up, down, left, right, front or rear, etc., are only intended to refer to the directions of the accompanying drawings. Accordingly, the directional terms used are illustrative and not limiting of the present invention.

关于本文中所使用的用词(terms),除有特别注明外,通常具有每个用词使用在此领域中、在本发明的内容中与特殊内容中的平常意义。某些用以描述本发明的用词将于下或在此说明书的别处讨论,以提供本领域技术人员在有关本发明的描述上额外的引导。With regard to the terms used herein, unless otherwise noted, each term generally has its ordinary meaning as used in the field, in the context of the present invention, and in specific contexts. Certain terms used to describe the invention are discussed below or elsewhere in this specification to provide those skilled in the art with additional guidance in the description of the invention.

图1为本发明一实施例的雾化装置示意图。在本实施例中,雾化装置1包括雾化电路100、电源电路200、控制电路300以及选择接口400。雾化电路100具有压电致动器101且与电源电路200电性耦接,其中压电致动器101举例而言包含电容、电阻及电感,当压电致动器101被提供电压时,压电致动器101即可根据一种工作频率作动。电源电路200与雾化电路100电性耦接,电源电路200可选择性地提供不同电压至雾化电路100电性耦接。控制电路300则与电源电路200电性耦接,控制电路300用于控制电源电路200提供至雾化电路100的电压值或提供电压的时间。选择接口400与控制电路300电性耦接,其用于选择第一参数组或第二参数组,其中第一参数组对应第一液体,第二参数组对应第二液体,而选择接口400更具有显示屏幕401,用以图像化地显示对应第一参数组的第一选项或对应第二参数组的第二选项以供用户选择。值得注意的是,选择接口400可用以选择两组以上的参数组,每个参数组可分别对应至一种特定液体,换言之,显示屏幕401上可有两种以上的不同选项供用户选择。FIG. 1 is a schematic diagram of an atomizing device according to an embodiment of the present invention. In this embodiment, the atomizing device 1 includes an atomizing circuit 100 , a power supply circuit 200 , a control circuit 300 and a selection interface 400 . The atomizing circuit 100 has a piezoelectric actuator 101 and is electrically coupled to the power supply circuit 200 , wherein the piezoelectric actuator 101 includes, for example, capacitance, resistance and inductance. When the piezoelectric actuator 101 is supplied with a voltage, The piezoelectric actuator 101 can be actuated according to one operating frequency. The power supply circuit 200 is electrically coupled to the atomizing circuit 100 , and the power supply circuit 200 can selectively provide different voltages to the atomizing circuit 100 for electrical coupling. The control circuit 300 is electrically coupled to the power supply circuit 200 , and the control circuit 300 is used for controlling the voltage value or the time of supplying the voltage provided by the power supply circuit 200 to the atomizing circuit 100 . The selection interface 400 is electrically coupled to the control circuit 300 for selecting the first parameter group or the second parameter group, wherein the first parameter group corresponds to the first liquid, the second parameter group corresponds to the second liquid, and the selection interface 400 further A display screen 401 is provided to graphically display the first option corresponding to the first parameter group or the second option corresponding to the second parameter group for the user to select. It is worth noting that the selection interface 400 can be used to select more than two parameter groups, and each parameter group can correspond to a specific liquid, in other words, there can be more than two different options on the display screen 401 for the user to choose.

在本实施例中,雾化装置1可为一种用以雾化药液的雾化装置,而雾化装置1装载的第一液体可为但不限于含有一定浓度的Budesonide成分的药液,雾化装置1装载的第二液体可为但不限于含有一定浓度的Bisolvon成分的药液。在本实施例中,对应第一液体的第一参数组可包含但不限于驱动电压28伏特(V),对应第二液体的第二参数组可包含但不限于驱动电压27伏特(V),遵照其药液浓稠度调整电压以达到较佳的粒径及/或雾化时间。In this embodiment, the atomizing device 1 may be an atomizing device for atomizing medicinal liquid, and the first liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Budesonide components, The second liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Bisolvon components. In this embodiment, the first parameter group corresponding to the first liquid may include but not limited to a driving voltage of 28 volts (V), and the second parameter group corresponding to the second liquid may include but not limited to a driving voltage of 27 volts (V), Adjust the voltage according to the concentration of the drug solution to achieve a better particle size and/or atomization time.

在本实施例中,当用户于显示屏幕401选择第一选项时,选择接口400即选择第一参数组作为控制电路300的输入值,而控制电路300根据第一参数组控制电源电路200以提供第一电压(28V)至雾化电路100,进而驱动压电致动器101以第一工作频率运作。于压电致动器101以第一工作频率运作的状况下,装载于雾化装置1中的第一液体(如含有一定浓度的Budesonide成分的药液)将被雾化释出,被雾化释出的第一液体的雾状粒子具有第一粒径。举例而言,所述第一粒径尺寸可小于8微米(μm),此种粒径大小将有益于提升第一液体的雾状粒子于使用者肺部的吸收率。另外,在本发明的一些实施例中,当用户于选择接口400的显示屏幕401选择第一选项后,控制电路300仅于第一时间内根据第一参数组控制电源电路200提供第一电压至雾化电路100,据此,控制电路300可控制第一液体被雾化的时间。In this embodiment, when the user selects the first option on the display screen 401, the selection interface 400 selects the first parameter group as the input value of the control circuit 300, and the control circuit 300 controls the power supply circuit 200 according to the first parameter group to provide The first voltage (28V) is applied to the atomizing circuit 100 to drive the piezoelectric actuator 101 to operate at the first operating frequency. Under the condition that the piezoelectric actuator 101 operates at the first operating frequency, the first liquid (such as a liquid medicine containing a certain concentration of Budesonide) loaded in the atomizing device 1 will be atomized and released, and will be atomized. The released mist-like particles of the first liquid have a first particle size. For example, the first particle size may be smaller than 8 micrometers (μm), which is beneficial to improve the absorption rate of the aerosol particles of the first liquid in the user's lungs. In addition, in some embodiments of the present invention, after the user selects the first option on the display screen 401 of the selection interface 400, the control circuit 300 controls the power supply circuit 200 to provide the first voltage to According to the atomization circuit 100, the control circuit 300 can control the time for which the first liquid is atomized.

在本实施例中,当用户于显示屏幕401选择第二选项时,选择接口400即选择第二参数组作为控制电路300的输入值,而控制电路300根据第二参数组控制电源电路200以提供第二电压(27V)至雾化电路100,进而驱动压电致动器101以第二工作频率运作。于压电致动器101以第二工作频率运作的状况下,装载于雾化装置1中的第二液体(含有一定浓度的Bisolvon成分的药液)将被雾化释出,被雾化释出的第二液体的雾状粒子具有第二粒径。举例而言,所述第二粒径尺寸可小于8微米(μm),此种粒径大小将有益于提升第二液体的雾状粒子于使用者肺部的吸收率。在本发明的一些实施例中,当用户于选择接口400的显示屏幕401选择第二选项后,控制电路300仅于第二时间内根据第二参数组控制电源电路200提供第一电压至雾化电路100,据此,控制电路300可控制第二液体被雾化的时间。In this embodiment, when the user selects the second option on the display screen 401, the selection interface 400 selects the second parameter group as the input value of the control circuit 300, and the control circuit 300 controls the power supply circuit 200 according to the second parameter group to provide The second voltage (27V) is applied to the atomizing circuit 100 to drive the piezoelectric actuator 101 to operate at the second operating frequency. Under the condition that the piezoelectric actuator 101 operates at the second operating frequency, the second liquid (medicine containing a certain concentration of Bisolvon) loaded in the atomizing device 1 will be atomized and released. The sprayed particles of the second liquid have a second particle size. For example, the second particle size may be smaller than 8 micrometers (μm), which is beneficial to improve the absorption rate of the aerosol particles of the second liquid in the user's lungs. In some embodiments of the present invention, after the user selects the second option on the display screen 401 of the selection interface 400, the control circuit 300 controls the power supply circuit 200 to supply the first voltage to the atomizer only for the second time according to the second parameter set According to the circuit 100, the control circuit 300 can control the time for which the second liquid is atomized.

图2为本发明一实施例的雾化装置示意图。同于图1的实施例,雾化装置1包括雾化电路100、电源电路200、控制电路300以及选择接口400,而在本实施例中,雾化装置1更额外包含数据库500。图2所示的组件有若干者标号与图1相同,其作动方式同于图1实施例中所述,故不再赘述。FIG. 2 is a schematic diagram of an atomizing device according to an embodiment of the present invention. Similar to the embodiment of FIG. 1 , the atomizing device 1 includes an atomizing circuit 100 , a power supply circuit 200 , a control circuit 300 and a selection interface 400 . In this embodiment, the atomizing device 1 further includes a database 500 . The components shown in FIG. 2 have the same reference numerals as those shown in FIG. 1 , and the operation methods thereof are the same as those described in the embodiment of FIG. 1 , so they will not be described again.

在本实施例中,数据库500与选择接口400电性耦接。数据库500至少用以储存第一参数组及第二参数组,第一参数组及第二参数组储存以供选择接口400存取。于数据库500中更储存有第一时间以及第二时间,其中,第一时间(60秒钟)对应第一参数组,第二时间(90秒钟)对应第二参数组。在本发明的一些实施例中,第一参数组及第二参数组可以被外部装置(图中未示)存取并更新。在本发明的一些实施例中,数据库500储存有药物选单,药物选单包含多个种药液的资料,每一种药物资料皆对应至少一种配适参数组(主要包含配适电压)以及配适时间,依据用户的需要,选择接口400可自数据库500中存取针对不同药液的配适参数组,令雾化装置1可以适当地雾化对应的药液。如此,雾化装置1可以针对不同的药液达成配适的投药率及较佳的粒径,进而增加使用者对药液的肺部吸收量。In this embodiment, the database 500 is electrically coupled to the selection interface 400 . The database 500 is used to store at least a first parameter group and a second parameter group, and the first parameter group and the second parameter group are stored for the selection interface 400 to access. The database 500 further stores a first time and a second time, wherein the first time (60 seconds) corresponds to the first parameter group, and the second time (90 seconds) corresponds to the second parameter group. In some embodiments of the present invention, the first parameter set and the second parameter set can be accessed and updated by an external device (not shown). In some embodiments of the present invention, the database 500 stores a drug menu, the drug menu includes data of a plurality of drug solutions, and each drug data corresponds to at least one adaptation parameter group (mainly including adaptation voltage) and a At an appropriate time, according to the user's needs, the selection interface 400 can access the matching parameter groups for different medicinal liquids from the database 500, so that the atomizing device 1 can properly atomize the corresponding medicinal liquids. In this way, the atomizing device 1 can achieve a suitable dosage rate and a better particle size for different medicinal liquids, thereby increasing the pulmonary absorption of medicinal liquids by the user.

在本实施例中,雾化装置1可为一种用以雾化药液的雾化装置,而雾化装置1装载的第一液体可为但不限于含有一定浓度的Atrovent成分的药液,雾化装置1装载的第二液体可为但不限于含有一定浓度的Combivent成分的药液。在本实施例中,对应第一液体的第一参数组可包含但不限于驱动电压27伏特(V),对应第二液体的第二参数组可包含但不限于驱动电压27伏特(V),遵照其药液浓稠度调整电压以达到较佳的粒径及/或雾化时间。In this embodiment, the atomizing device 1 may be an atomizing device for atomizing medicinal liquid, and the first liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Atrovent components, The second liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Combivent components. In this embodiment, the first parameter group corresponding to the first liquid may include but not limited to a driving voltage of 27 volts (V), and the second parameter group corresponding to the second liquid may include but not limited to a driving voltage of 27 volts (V), Adjust the voltage according to the concentration of the drug solution to achieve a better particle size and/or atomization time.

在本实施例中,当用户于显示屏幕401选择第一选项时,选择接口400即自数据库500存取第一参数组以及第一时间,第一参数组以及第一时间为控制电路300的输入值,据此,控制电路300仅在第一时间(60秒钟)内根据第一参数组控制电源电路200以提供第一电压(27V)至雾化电路100,进而驱动压电致动器101以第一工作频率运作。于压电致动器101以第一工作频率运作的状况下,装载于雾化装置1中的第一液体(如含有一定浓度的Atrovent成分的药液)将被雾化释出,被雾化释出的第一液体的雾状粒子具有第一粒径。举例而言,所述第一粒径的尺寸可小于8微米(μm),此种粒径大小将有益于提升第一液体的雾状粒子于使用者肺部的吸收率。于第一时间经过后,控制电路300即控制电源电路200停止提供第一电压至雾化电路100,第一液体即不再被雾化释出。In this embodiment, when the user selects the first option on the display screen 401 , the selection interface 400 accesses the first parameter group and the first time from the database 500 , and the first parameter group and the first time are the input of the control circuit 300 According to this, the control circuit 300 only controls the power supply circuit 200 according to the first parameter group within the first time (60 seconds) to provide the first voltage (27V) to the atomizing circuit 100, and then drives the piezoelectric actuator 101 operate at the first operating frequency. Under the condition that the piezoelectric actuator 101 operates at the first operating frequency, the first liquid (such as a liquid medicine containing a certain concentration of Atrovent components) loaded in the atomizing device 1 will be atomized and released, and the atomized liquid will be atomized. The released mist-like particles of the first liquid have a first particle size. For example, the size of the first particle size may be less than 8 micrometers (μm), which is beneficial to improve the absorption rate of the aerosol particles of the first liquid in the user's lungs. After the first time elapses, the control circuit 300 controls the power supply circuit 200 to stop supplying the first voltage to the atomizing circuit 100, and the first liquid is no longer released by atomization.

在本实施例中,当用户于显示屏幕401选择第二选项时,选择接口400即自数据库500存取第二参数组以及第二时间,第二参数组以及第二时间为控制电路300的输入值,据此,控制电路300仅在第二时间(90秒钟)内根据第二参数组控制电源电路200以提供第二电压(27V)至雾化电路100,进而驱动压电致动器101以第二工作频率运作。于压电致动器101以第二工作频率运作的状况下,装载于雾化装置1中的第二液体(如含有一定浓度的Combivent成分的药液)将被雾化释出,被雾化释出的第二液体的雾状粒子具有第二粒径。举例而言,所述第二粒径的尺寸可小于8微米(μm),此种粒径大小将有益于提升第一液体的雾状粒子于使用者肺部的吸收率。于第二时间经过后,控制电路300即控制电源电路200停止提供第二电压至雾化电路100,第二液体即不再被雾化释出。In this embodiment, when the user selects the second option on the display screen 401 , the selection interface 400 accesses the second parameter group and the second time from the database 500 , and the second parameter group and the second time are inputs to the control circuit 300 . According to this, the control circuit 300 controls the power supply circuit 200 according to the second parameter group to provide the second voltage (27V) to the atomizing circuit 100 only within the second time (90 seconds) to drive the piezoelectric actuator 101 operate at the second operating frequency. Under the condition that the piezoelectric actuator 101 operates at the second working frequency, the second liquid (such as a liquid medicine containing a certain concentration of Combivent ingredients) loaded in the atomizing device 1 will be atomized and released, and the atomized liquid will be atomized. The released mist-like particles of the second liquid have a second particle size. For example, the size of the second particle size may be less than 8 micrometers (μm), which is beneficial to improve the absorption rate of the aerosol particles of the first liquid in the user's lungs. After the second time elapses, the control circuit 300 controls the power supply circuit 200 to stop supplying the second voltage to the atomizing circuit 100, and the second liquid is no longer released by atomization.

应注意的是,虽然本实施例中的数据库500设置于雾化装置1当中,然而本发明并未排除关于数据库设置的其他可能性。例如,在本发明的其他实施例中,数据库可以设置于外部的其他装置或服务器当中,只要本发明的雾化装置1能够与数据库进行通讯,选择接口400即可自数据库存取各参数组以及对应的时间。It should be noted that although the database 500 in this embodiment is set in the atomizing device 1, the present invention does not exclude other possibilities regarding the database setting. For example, in other embodiments of the present invention, the database can be set in other external devices or servers, as long as the atomizing device 1 of the present invention can communicate with the database, the selection interface 400 can access each parameter group from the database and corresponding time.

图3为本发明一实施例的雾化装置示意图。同于图1的实施例,雾化装置1包括雾化电路100、电源电路200、控制电路300以及选择接口400,而在本实施例中,雾化装置1更额外包含回馈电路600。图3所示的组件有若干者标号与图1相同,其作动方式同于图1实施例中所述,故不再赘述。FIG. 3 is a schematic diagram of an atomizing device according to an embodiment of the present invention. Similar to the embodiment of FIG. 1 , the atomizing device 1 includes an atomizing circuit 100 , a power supply circuit 200 , a control circuit 300 and a selection interface 400 , and in this embodiment, the atomizing device 1 further includes a feedback circuit 600 . Some components shown in FIG. 3 have the same reference numerals as those shown in FIG. 1 , and the operation methods thereof are the same as those described in the embodiment of FIG. 1 , so they will not be repeated.

在本实施例中,回馈电路600电性耦接于雾化电路100与控制电路300之间。回馈电路600可包含采样电路(图中未示)及滤波电路(图中未示),采样电路用以采样压电致动器101于工作频率运作下所产生的信号,如谐波信号、脉冲波信号,但不限于此,而滤波电路则与采样电路电性连接,用以撷取采样电路所获取的信号中的特定频率。回馈电路600可再将其获取的压电致动器101于工作时产生的信号传输至控制电路300。In this embodiment, the feedback circuit 600 is electrically coupled between the atomizing circuit 100 and the control circuit 300 . The feedback circuit 600 may include a sampling circuit (not shown in the figure) and a filter circuit (not shown in the figure). The sampling circuit is used to sample the signals generated by the piezoelectric actuator 101 under the operation of the working frequency, such as harmonic signals, pulses wave signal, but not limited to this, and the filter circuit is electrically connected with the sampling circuit for capturing a specific frequency in the signal obtained by the sampling circuit. The feedback circuit 600 can then transmit the acquired signal generated by the piezoelectric actuator 101 to the control circuit 300 .

在本实施例中,雾化装置1可为一种用以雾化药液的雾化装置,而雾化装置1装载的第一液体可为但不限于含有一定浓度的Budesonide成分的药液,雾化装置1装载的第二液体可为但不限于含有一定浓度的Bisolvon成分的药液。在本实施例中,对应第一液体的第一参数组可包含但不限于驱动电压28伏特(V),对应第二液体的第二参数组可包含但不限于驱动电压27伏特(V),遵照其药液浓稠度调整电压以达到较佳的粒径及/或雾化时间。In this embodiment, the atomizing device 1 may be an atomizing device for atomizing medicinal liquid, and the first liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Budesonide components, The second liquid loaded in the atomizing device 1 may be, but not limited to, a medicinal liquid containing a certain concentration of Bisolvon components. In this embodiment, the first parameter group corresponding to the first liquid may include but not limited to a driving voltage of 28 volts (V), and the second parameter group corresponding to the second liquid may include but not limited to a driving voltage of 27 volts (V), Adjust the voltage according to the concentration of the drug solution to achieve a better particle size and/or atomization time.

在本实施例中,当用户于显示屏幕401选择第一选项时,选择接口400即选择第一参数组作为控制电路300的输入值,据此,控制电路300可根据第一参数组控制电源电路200以提供第一电压(28V)至雾化电路100,进而驱动压电致动器101以第一工作频率运作。于压电致动器101以第一工作频率运作的状况下,装载于雾化装置1中的第一液体(如含有一定浓度的Budesonide成分的药液)将被雾化释出,被雾化释出的第一液体的雾状粒子具有第一粒径。举例而言,所述第一粒径的尺寸可小于8微米(μm)。然而,于压电致动器101的工作期间,回馈电路600持续获取压电致动器101工作的信号并将其传输至控制电路300,当控制电路300判断回馈电路600所获取的信号不符合正常状态下压电致动器101以第一工作频率雾化第一液体(如含有一定浓度的Budesonide成分的药液)的信号时,控制电路300停止控制电源电路200以提供第一电压至雾化电路100,第一液体即不再被雾化释出。根据上述,其为一种除错机制,可于使用者的选择不符合正确液体所应当使用的参数组时紧急停止雾化装置1。在本发明的一些实施例中,控制电路300更可传送报警信号至选择接口400,令用户可自显示屏幕400快速了解雾化装置1可能有异常状况发生。In this embodiment, when the user selects the first option on the display screen 401, the selection interface 400 selects the first parameter group as the input value of the control circuit 300, and accordingly, the control circuit 300 can control the power supply circuit according to the first parameter group 200 to provide the first voltage (28V) to the atomizing circuit 100, and then drive the piezoelectric actuator 101 to operate at the first operating frequency. Under the condition that the piezoelectric actuator 101 operates at the first operating frequency, the first liquid (such as a liquid medicine containing a certain concentration of Budesonide) loaded in the atomizing device 1 will be atomized and released, and will be atomized. The released mist-like particles of the first liquid have a first particle size. For example, the size of the first particle size may be less than 8 micrometers (μm). However, during the working period of the piezoelectric actuator 101 , the feedback circuit 600 continues to obtain the working signal of the piezoelectric actuator 101 and transmit it to the control circuit 300 . When the control circuit 300 determines that the signal obtained by the feedback circuit 600 does not meet the In the normal state, when the piezoelectric actuator 101 atomizes the first liquid (such as a medicinal liquid containing a certain concentration of Budesonide) at the first operating frequency, the control circuit 300 stops controlling the power circuit 200 to provide the first voltage to the mist. After the atomization circuit 100 is completed, the first liquid is no longer released by atomization. According to the above, it is a debug mechanism that can stop the atomizing device 1 in an emergency when the user's selection does not conform to the parameter set that should be used for the correct liquid. In some embodiments of the present invention, the control circuit 300 can further transmit an alarm signal to the selection interface 400 , so that the user can quickly know from the display screen 400 that an abnormal situation may occur in the atomizing device 1 .

在本实施例中,当用户于显示屏幕401选择第二选项时,选择接口400即选择第二参数组作为控制电路300的输入值,据此,控制电路300可根据第二参数组控制电源电路200以提供第二电压(27V)至雾化电路100,进而驱动压电致动器101以第二工作频率运作。于压电致动器101以第二工作频率运作的状况下,装载于雾化装置1中的第二液体(如含有一定浓度的Bisolvon成分的药液)将被雾化释出,被雾化释出的第二液体的雾状粒子具有第二粒径。举例而言,所述第二粒径的尺寸可小于8μm)。于压电致动器101的工作期间,回馈电路600持续获取压电致动器101工作的信号并将其传输至控制电路300,当控制电路300判断回馈电路600所获取的信号不符合正常状态下压电致动器101以第二工作频率雾化第二液体(如含有一定浓度的Bisolvon成分的药液)的信号时,控制电路300停止控制电源电路200以提供第二电压至雾化电路100,第二液体即不再被雾化释出。根据上述,其为一种除错机制,可于使用者的选择不符合正确液体所应当使用的参数组时紧急停止雾化装置1。在本发明的一些实施例中,控制电路300更可传送报警信号至选择接口400,令用户可自显示屏幕400快速了解雾化装置1可能有异常状况发生。In this embodiment, when the user selects the second option on the display screen 401, the selection interface 400 selects the second parameter group as the input value of the control circuit 300, and accordingly, the control circuit 300 can control the power supply circuit according to the second parameter group 200 to provide a second voltage (27V) to the atomizing circuit 100, thereby driving the piezoelectric actuator 101 to operate at the second operating frequency. Under the condition that the piezoelectric actuator 101 operates at the second working frequency, the second liquid (such as a liquid medicine containing a certain concentration of Bisolvon) loaded in the atomizing device 1 will be atomized and released, and will be atomized. The released mist-like particles of the second liquid have a second particle size. For example, the size of the second particle size may be less than 8 μm). During the working period of the piezoelectric actuator 101 , the feedback circuit 600 continuously obtains the working signal of the piezoelectric actuator 101 and transmits it to the control circuit 300 . When the control circuit 300 determines that the signal obtained by the feedback circuit 600 does not conform to the normal state When the piezoelectric actuator 101 atomizes the second liquid (such as a liquid medicine containing a certain concentration of Bisolvon) at the second operating frequency, the control circuit 300 stops controlling the power supply circuit 200 to provide the second voltage to the atomizing circuit 100, the second liquid is no longer released by atomization. According to the above, it is a debug mechanism that can stop the atomizing device 1 in an emergency when the user's selection does not conform to the parameter set that should be used for the correct liquid. In some embodiments of the present invention, the control circuit 300 can further transmit an alarm signal to the selection interface 400 , so that the user can quickly know from the display screen 400 that an abnormal situation may occur in the atomizing device 1 .

在本发明的一些实施例中,若控制电路300判断回馈电路600所获取的信号不符合正常状态下压电致动器101以第一工作频率或第二工作频率雾化液体时,则可于数据库中比对回馈电路600所获取的信号符合或接近哪一个参数组于压电制动器101的工作频率,来自动更正到相对应的药物选项。In some embodiments of the present invention, if the control circuit 300 determines that the signal obtained by the feedback circuit 600 does not conform to the normal state when the piezoelectric actuator 101 atomizes the liquid at the first working frequency or the second working frequency, the control circuit 300 can In the database, the signal obtained by the feedback circuit 600 is compared with which parameter group corresponds to or is close to the operating frequency of the piezoelectric actuator 101 to automatically correct the corresponding drug option.

图4为本发明一实施例的雾化装置示意图。同于图1的实施例,雾化装置1包括雾化电路100、电源电路200、控制电路300以及选择接口400,而在本实施例中,雾化装置1更额外包含无线通信模块700。图4所示的组件有若干者标号与图1相同,其作动方式同于图1实施例中所述,故不再赘述。FIG. 4 is a schematic diagram of an atomizing device according to an embodiment of the present invention. Similar to the embodiment of FIG. 1 , the atomizing device 1 includes an atomizing circuit 100 , a power supply circuit 200 , a control circuit 300 and a selection interface 400 . In this embodiment, the atomizing device 1 further includes a wireless communication module 700 . Some components shown in FIG. 4 have the same reference numerals as those shown in FIG. 1 , and their operation methods are the same as those described in the embodiment of FIG.

在本实施例中,无线通信模块700与控制电路300电性耦接。无线通信模块700与外部的无线传输装置2通讯连接,无线通信模块700用以自无线传输装置2接收控制指令,而控制指令可用以选择第一参数组或第二参数组。亦即,在本发明的上述实施例中,用户可通过选择接口400的显示屏幕401来选择第一选项或第二选项,藉以使控制电路300可根据对应的第一参数组或第二参数组来控制电源电路200。但在本实施例中,用户可通过无线传输装置2发送控制指令,以选择控制电路300根据第一参数组或第二参数组中的何者来控制电源电路200,亦即,本实施例为使用者提供了操控本发明雾化装置1的另一种可能性。如此,即便用户未能直接操作雾化装置1的选择接口400,仍可通过无线传输装置2发送控制指令,使雾化装置1仍可以针对不同的药液达成配适的投药率及较佳的粒径。In this embodiment, the wireless communication module 700 is electrically coupled to the control circuit 300 . The wireless communication module 700 is in communication connection with the external wireless transmission device 2 , and the wireless communication module 700 is used for receiving control commands from the wireless transmission device 2 , and the control commands can be used to select the first parameter group or the second parameter group. That is, in the above-mentioned embodiment of the present invention, the user can select the first option or the second option by selecting the display screen 401 of the interface 400, so that the control circuit 300 can select the corresponding first parameter group or the second parameter group according to the corresponding first parameter group or the second parameter group. to control the power supply circuit 200 . However, in this embodiment, the user can send a control command through the wireless transmission device 2 to select which of the first parameter group or the second parameter group the control circuit 300 controls to control the power supply circuit 200 . This provides another possibility for manipulating the atomizing device 1 of the present invention. In this way, even if the user fails to directly operate the selection interface 400 of the atomizing device 1, the control command can still be sent through the wireless transmission device 2, so that the atomizing device 1 can still achieve a suitable dosage rate and a better dosage for different medicinal liquids. particle size.

在本实施例中,当无线通信模块700自无线传输装置2接收控制指令,控制电路300将根据控制指令中的第一参数组或第二参数组来控制电源电路200,进而提供对应的第一电压或第二电压至雾化电路100,其后续作动方式,可参照本发明上述的其他实施例,于此不再赘述。In this embodiment, when the wireless communication module 700 receives the control command from the wireless transmission device 2, the control circuit 300 will control the power supply circuit 200 according to the first parameter group or the second parameter group in the control command, and then provide the corresponding first parameter group. The voltage or the second voltage is applied to the atomizing circuit 100 , and the subsequent operation mode thereof can be referred to the other embodiments of the present invention, which will not be repeated here.

然而,应注意的是,在本发明的其他实施例中,无线传输装置2发送而来的控制指令更包含了变更第一参数组所对应的第一电压和第一时间的信息,或是包含了变更第二参数组所对应的第二电压和第二时间的信息,也可能包含了其他参数组所对应的电压和时间的信息。亦即,无线传输装置2发送而来的控制指令亦可以用以变更或新增各参数组的参数值。例如,若将本实施例与本发明图2的实施例合理结合,当无线通信模块700自无线传输装置2接收控制指令,控制电路300可以根据控制指令变更图2所示的数据库500当中储存的第一参数组或第二参数组所对应的电压或时间,或者是根据控制指令新增用以对应其他种类液体的第三参数组。据此,本实施例提供了一种实施态样,使得更新或新增雾化装置1用以雾化的电压或进行雾化的时间变为可能。However, it should be noted that, in other embodiments of the present invention, the control command sent by the wireless transmission device 2 further includes information about changing the first voltage and the first time corresponding to the first parameter group, or includes In order to change the information of the second voltage and the second time corresponding to the second parameter group, it may also include the information of the voltage and time corresponding to other parameter groups. That is, the control command sent from the wireless transmission device 2 can also be used to change or add parameter values of each parameter group. For example, if this embodiment is reasonably combined with the embodiment of FIG. 2 of the present invention, when the wireless communication module 700 receives a control command from the wireless transmission device 2, the control circuit 300 can change the data stored in the database 500 shown in FIG. 2 according to the control command. The voltage or time corresponding to the first parameter group or the second parameter group, or a third parameter group corresponding to other types of liquids added according to the control instruction. Accordingly, the present embodiment provides an implementation aspect, which makes it possible to update or add a voltage or time for atomization used by the atomizing device 1 for atomization.

图5为本发明一实施例的雾化装置示意图。图中所绘示的为本发明一实施例的雾化装置的外观上视图,在本实施例中,被绘示的仅有雾化装置1的外观,若欲了解雾化装置内部电路的连接关系,请参照本发明第1~4图的实施例。在图5的上视图中,可以见到雾化装置1的外部顶面设置有显示屏幕401,其可以是一种薄膜晶体管液晶显示屏幕(liquidcrystal display,LCD),图5所示的显示屏幕401对应于本发明第1~4图的实施例中的显示屏幕401。于显示屏幕501上显示有第一选项A以及第二选项B,用户可通过触碰方式选取第一选项A或第二选项B,一旦第一选项A或第二选项B被选定,选择接口(图中未示)将根据第一选项A选定第一参数组或根据第二选项B选定第二参数组以作为控制电路(图中未示)的输入值,进而进行第一液体或第二液体的雾化程序。FIG. 5 is a schematic diagram of an atomizing device according to an embodiment of the present invention. What is shown in the figure is the top view of the appearance of the atomizing device according to an embodiment of the present invention. In this embodiment, only the appearance of the atomizing device 1 is shown. If you want to understand the connection of the internal circuit of the atomizing device For the relationship, please refer to the embodiments of Figures 1 to 4 of the present invention. In the top view of FIG. 5 , it can be seen that a display screen 401 is provided on the outer top surface of the atomizing device 1 , which may be a thin film transistor liquid crystal display (liquid crystal display, LCD). The display screen 401 shown in FIG. 5 It corresponds to the display screen 401 in the embodiment of FIGS. 1 to 4 of the present invention. The first option A and the second option B are displayed on the display screen 501. The user can select the first option A or the second option B by touching. Once the first option A or the second option B is selected, the interface is selected. (not shown in the figure) the first parameter group will be selected according to the first option A or the second parameter group will be selected according to the second option B as the input value of the control circuit (not shown in the figure), and then the first liquid or Atomization procedure of the second liquid.

图6为本发明一实施例的雾化装置操作方法的步骤流程图。于本实施例中,此雾化装置操作方法用以操作一雾化装置,关于雾化装置的示意图,可参照本发明图1、图2、图3、图4或图5的实施例。若参照图1的实施例,雾化装置1具有电源电路200以及雾FIG. 6 is a flow chart of steps of a method for operating an atomizing device according to an embodiment of the present invention. In this embodiment, the operation method of the atomizing device is used to operate an atomizing device. For the schematic diagram of the atomizing device, please refer to the embodiment of FIG. 1 , FIG. 2 , FIG. 3 , FIG. 4 or FIG. 5 of the present invention. Referring to the embodiment of FIG. 1 , the atomizing device 1 has a power supply circuit 200 and an atomizer

化电路100,雾化电路100电性耦接于电源电路200并具有压电致动器101,雾化装置1更具有控制电路300以及选择接口400,控制电路300电性耦接于选择接口400以控制电源电路200。于本实施例中,雾化装置1的操作方法所包含的步骤将详述于下列段落中。The atomizing circuit 100, the atomizing circuit 100 is electrically coupled to the power circuit 200 and has a piezoelectric actuator 101, the atomizing device 1 further has a control circuit 300 and a selection interface 400, and the control circuit 300 is electrically coupled to the selection interface 400 to control the power supply circuit 200 . In this embodiment, the steps included in the operation method of the atomizing device 1 will be described in detail in the following paragraphs.

步骤S600:通过选择接口400提供第一参数组或第二参数组。其中第一参数组设置以对应第一液体,而第二参数组设置以对应第二液体。例如图1所示,选择接口400可具有显示屏幕401,藉以图像化地显示对应第一参数组或第二参数组的选项。例如,如图1及图5所示,如图5所示的雾化装置1的显示屏幕401用以显示第一选项A以及第二选项B,用户可通过触碰显示屏幕401的方式来选择第一选项A以及第二选项B,当第一选项A以及第二选项B被选定,如图1所示的选择接口400将相应地选择第一参数组或第二参数组作为控制电路300的输入值。Step S600 : providing the first parameter group or the second parameter group through the selection interface 400 . The first parameter group is set to correspond to the first liquid, and the second parameter group is set to correspond to the second liquid. For example, as shown in FIG. 1 , the selection interface 400 may have a display screen 401 to graphically display options corresponding to the first parameter group or the second parameter group. For example, as shown in FIG. 1 and FIG. 5 , the display screen 401 of the atomizing device 1 shown in FIG. 5 is used to display the first option A and the second option B, and the user can select by touching the display screen 401 The first option A and the second option B, when the first option A and the second option B are selected, the selection interface 400 shown in FIG. 1 will correspondingly select the first parameter group or the second parameter group as the control circuit 300 the input value.

步骤S601:当第一参数组被选择时,控制电路300控制电源电路200以提供第一电压至雾化电路100,进而驱动压电致动器101根据第一粒径雾化释出第一液体。如图1及图5所示,当用户于显示屏幕401上选定第一选项A后,选择接口400即选定对应第一选项A的第一参数组作为控制电路300的输入值。控制电路300即控制电源电路200以提供第一电压至雾化电路100,进而驱动压电致动器101根据第一粒径雾化释出第一液体。此第一粒径设置以对应第一液体的,按此第一粒径雾化第一液体,可使第一液体能较佳的发挥其应收的效果。于本发明的一些实施例中,如图2及图5所示,当使用者于如图5所示的显示屏幕401上选定第一选项A后,如图2所示的选择接口400即自数据库500中存取第一参数组,再将第一参数组作为控制电路300的输入值。Step S601: When the first parameter group is selected, the control circuit 300 controls the power supply circuit 200 to provide the first voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the first liquid according to the first particle size . As shown in FIG. 1 and FIG. 5 , after the user selects the first option A on the display screen 401 , the selection interface 400 selects the first parameter group corresponding to the first option A as the input value of the control circuit 300 . The control circuit 300 controls the power circuit 200 to provide the first voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the first liquid according to the first particle size. If the first particle size is set to correspond to the first liquid, the first liquid can be atomized according to the first particle size, so that the first liquid can better exert its due effect. In some embodiments of the present invention, as shown in FIG. 2 and FIG. 5 , after the user selects the first option A on the display screen 401 shown in FIG. 5 , the selection interface 400 shown in FIG. The first parameter group is accessed from the database 500 , and the first parameter group is used as the input value of the control circuit 300 .

步骤S602:当第二参数组被选择时,控制电路300控制电源电路200以提供第二电压至雾化电路100,进而驱动压电致动器101根据第二粒径雾化释出第二液体。如图1及图5所示,当使用者于如图5所示的显示屏幕401上选定第二选项B后,如图1所示的选择接口400即选定对应第二选项B的第二参数组作为控制电路300的输入值。控制电路300即控制电源电路200以提供第二电压至雾化电路100,进而驱动压电致动器101根据第二粒径雾化释出第二液体。此第二粒径设置以对应第二液体的,按此第二粒径雾化第二液体,可使第二液体能较佳的发挥其应收的效果。于本发明的一些实施例中,如图2及图5所示,当使用者于如图5所示的显示屏幕401上选定第二选项B后,如图2所示的选择接口400即自数据库500中存取第二参数组,再将第二参数组作为控制电路300的输入值。Step S602: When the second parameter group is selected, the control circuit 300 controls the power circuit 200 to provide the second voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the second liquid according to the second particle size . As shown in FIG. 1 and FIG. 5 , after the user selects the second option B on the display screen 401 as shown in FIG. 5 , the selection interface 400 as shown in FIG. 1 selects the first option corresponding to the second option B. The two parameter groups are used as input values of the control circuit 300 . The control circuit 300 controls the power circuit 200 to provide the second voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the second liquid according to the second particle size. If the second particle size is set to correspond to the second liquid, the second liquid can be atomized according to the second particle size, so that the second liquid can better exert its due effect. In some embodiments of the present invention, as shown in FIGS. 2 and 5, after the user selects the second option B on the display screen 401 shown in FIG. 5, the selection interface 400 shown in FIG. The second parameter group is accessed from the database 500 , and the second parameter group is used as the input value of the control circuit 300 .

图7为本发明一实施例的雾化装置操作方法的步骤流程图。于本实施例中,此雾化装置操作方法用以操作一雾化装置,关于雾化装置的示意图,可参照本发明图3或图5的实施例。若参照图3的实施例,雾化装置1具有电源电路200以及雾化电路100,雾化电路100电性耦接于电源电路200并具有压电致动器101,雾化装置1更具有控制电路300以及选择接口400,控制电路300电性耦接于选择接口400以控制电源电路200。此外,雾化装置1更具有回馈电路600电性耦接于雾化电路100与控制电路300之间。于本实施例中,雾化装置1的操作方法所包含的步骤将详述于下列段落中。FIG. 7 is a flow chart of steps of a method for operating an atomizing device according to an embodiment of the present invention. In this embodiment, the operation method of the atomizing device is used to operate an atomizing device. For the schematic diagram of the atomizing device, please refer to the embodiment of FIG. 3 or FIG. 5 of the present invention. Referring to the embodiment of FIG. 3 , the atomizing device 1 has a power supply circuit 200 and an atomizing circuit 100 , the atomizing circuit 100 is electrically coupled to the power supply circuit 200 and has a piezoelectric actuator 101 , and the atomizing device 1 further has a control The circuit 300 and the selection interface 400 , and the control circuit 300 is electrically coupled to the selection interface 400 to control the power supply circuit 200 . In addition, the atomizing device 1 further has a feedback circuit 600 electrically coupled between the atomizing circuit 100 and the control circuit 300 . In this embodiment, the steps included in the operation method of the atomizing device 1 will be described in detail in the following paragraphs.

步骤S700:通过选择接口400提供第一参数组或第二参数组。其中第一参数组设置以对应第一液体,而第二参数组设置以对应第二液体。如图3所示,选择接口400可具有显示屏幕401,藉以图像化地显示对应第一参数组或第二参数组的选项。例如,如图3及图5所示,如图5所示的雾化装置1的显示屏幕401用以显示第一选项A以及第二选项B,用户可通过触碰显示屏幕401的方式来选择第一选项A以及第二选项B,当第一选项A以及第二选项B被选定,如图3所示的选择接口400将相应地选择第一参数组或第二参数组作为控制电路300的输入值。Step S700 : providing the first parameter group or the second parameter group through the selection interface 400 . The first parameter group is set to correspond to the first liquid, and the second parameter group is set to correspond to the second liquid. As shown in FIG. 3 , the selection interface 400 may have a display screen 401 to graphically display options corresponding to the first parameter group or the second parameter group. For example, as shown in FIG. 3 and FIG. 5 , the display screen 401 of the atomizing device 1 shown in FIG. 5 is used to display the first option A and the second option B, and the user can select by touching the display screen 401 The first option A and the second option B, when the first option A and the second option B are selected, the selection interface 400 shown in FIG. 3 will correspondingly select the first parameter group or the second parameter group as the control circuit 300 the input value.

步骤S701:接续于步骤S700,当第一参数组被选择时,控制电路300控制电源电路200以提供第一电压至雾化电路100,进而驱动压电致动器101根据第一粒径雾化释出第一液体。如图3及图5所示,当使用者于如图5所示的显示屏幕401上选定第一选项A后,如图3所示的选择接口400即选定对应第一选项A的第一参数组作为控制电路300的输入值。控制电路300即控制电源电路200以提供第一电压至雾化电路100,进而驱动压电致动器101根据第一粒径雾化释出第一液体。此第一粒径设置以对应第一液体的,按此第一粒径雾化第一液体,可使第一液体能较佳的发挥其应收的效果。Step S701: Following step S700, when the first parameter group is selected, the control circuit 300 controls the power supply circuit 200 to provide the first voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize according to the first particle size The first liquid is released. As shown in FIG. 3 and FIG. 5 , after the user selects the first option A on the display screen 401 as shown in FIG. 5 , the selection interface 400 shown in FIG. 3 selects the first option corresponding to the first option A. A parameter group is used as the input value of the control circuit 300 . The control circuit 300 controls the power circuit 200 to provide the first voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the first liquid according to the first particle size. If the first particle size is set to correspond to the first liquid, the first liquid can be atomized according to the first particle size, so that the first liquid can better exert its due effect.

步骤S702:接续于步骤S700,当第二参数组被选择时,控制电路300控制电源电路200以提供第二电压至雾化电路100,进而驱动压电致动器101根据第二粒径雾化释出第二液体。如图3及图5所示,当用户于显示屏幕401上选定第二选项B后,选择接口400即选定对应第二选项B的第二参数组作为控制电路300的输入值。控制电路300即控制电源电路200以提供第二电压至雾化电路100,进而驱动压电致动器101根据第二粒径雾化释出第二液体。此第二粒径设置以对应第二液体的,按此第二粒径雾化第二液体,可使第二液体能较佳的发挥其应收的效果。Step S702: Following step S700, when the second parameter group is selected, the control circuit 300 controls the power supply circuit 200 to provide the second voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize according to the second particle size The second liquid is released. As shown in FIG. 3 and FIG. 5 , after the user selects the second option B on the display screen 401 , the selection interface 400 selects the second parameter group corresponding to the second option B as the input value of the control circuit 300 . The control circuit 300 controls the power circuit 200 to provide the second voltage to the atomizing circuit 100, and then drives the piezoelectric actuator 101 to atomize and release the second liquid according to the second particle size. If the second particle size is set to correspond to the second liquid, the second liquid can be atomized according to the second particle size, so that the second liquid can better exert its due effect.

步骤S703:接续于步骤S701,通过回馈电路600获取压电致动器101于雾化第一液体时的工作频率并传输至控制电路300。如图3所示,当第一参数组输入控制电路300后,控制电路300即控制电源电路200提供第一电压至雾化电路100,压电致动器101即被驱动以根据第一粒径雾化释出第一液体。然而,在压电致动器101工作时,回馈电路600持续采样压电致动器101于工作频率运作下所产生的信号,回馈电路600再将信号滤波后传输至控制电路300。Step S703 : Following step S701 , the operating frequency of the piezoelectric actuator 101 when the first liquid is atomized is acquired through the feedback circuit 600 and transmitted to the control circuit 300 . As shown in FIG. 3 , after the first parameter group is input to the control circuit 300, the control circuit 300 controls the power supply circuit 200 to provide the first voltage to the atomizing circuit 100, and the piezoelectric actuator 101 is driven to be based on the first particle size Atomization releases the first liquid. However, when the piezoelectric actuator 101 operates, the feedback circuit 600 continuously samples the signal generated by the piezoelectric actuator 101 at the operating frequency, and the feedback circuit 600 filters the signal and transmits it to the control circuit 300 .

步骤S704:接续于步骤S702,通过回馈电路600获取压电致动器101于雾化第二液体时的工作频率并传输至控制电路300。如图3所示,当第二参数组输入控制电路300后,控制电路300即控制电源电路200提供第二电压至雾化电路100,压电致动器101即被驱动以根据第二粒径雾化释出第二液体。然而,在压电致动器101工作时,回馈电路600持续采样压电致动器101于工作频率运作下所产生的信号,回馈电路600再将信号滤波后传输至控制电路300。Step S704 : Following step S702 , the operating frequency of the piezoelectric actuator 101 when the second liquid is atomized is acquired through the feedback circuit 600 and transmitted to the control circuit 300 . As shown in FIG. 3 , after the second parameter set is input to the control circuit 300, the control circuit 300 controls the power supply circuit 200 to provide the second voltage to the atomizing circuit 100, and the piezoelectric actuator 101 is driven to be based on the second particle size Atomization releases the second liquid. However, when the piezoelectric actuator 101 operates, the feedback circuit 600 continuously samples the signal generated by the piezoelectric actuator 101 at the operating frequency, and the feedback circuit 600 filters the signal and transmits it to the control circuit 300 .

步骤S705:接续于步骤S703,当回馈电路600获取的工作频率不符合根据第一电压雾化第一液体的工作频率时,控制电路300停止控制电源电路200以提供第一电压至雾化电路100。如图3所示,回馈电路600持续采样压电致动器101于工作频率运作下所产生的信号,并将谐波信号滤波后传输至控制电路300。控制电路300接收回馈电路600传来的信号后,其将回馈电路600传来的信号与特定频率比对,所述的特定频率为压电致动器101于正常状态下受第一电压驱动以雾化第一液体时的参照频率。若控制电路300判断回馈电路600传来的信号不符合特定频率,其即停止控制电源电路200以提供第一电压至雾化电路100。在本发明的一些实施例中,控制电路300更将提供报警信号至选择接口400的显示屏幕401,以供用户了解雾化装置1可能发生异常。Step S705: Continuing from Step S703, when the operating frequency obtained by the feedback circuit 600 does not match the operating frequency for atomizing the first liquid according to the first voltage, the control circuit 300 stops controlling the power supply circuit 200 to provide the first voltage to the atomizing circuit 100 . As shown in FIG. 3 , the feedback circuit 600 continuously samples the signal generated by the piezoelectric actuator 101 under the operation of the operating frequency, and filters the harmonic signal and transmits it to the control circuit 300 . After the control circuit 300 receives the signal from the feedback circuit 600, it compares the signal from the feedback circuit 600 with a specific frequency, the specific frequency is that the piezoelectric actuator 101 is driven by the first voltage in a normal state to Reference frequency when atomizing the first liquid. If the control circuit 300 determines that the signal from the feedback circuit 600 does not conform to the specific frequency, it stops controlling the power supply circuit 200 to provide the first voltage to the atomizing circuit 100 . In some embodiments of the present invention, the control circuit 300 will further provide an alarm signal to the display screen 401 of the selection interface 400 for the user to know that the atomizing device 1 may be abnormal.

步骤S706:接续于步骤S704,当回馈电路600获取的工作频率不符合根据第二电压雾化第二液体的工作频率时,控制电路300停止控制电源电路200以提供第二电压至雾化电路100。如图3所示,回馈电路600持续采样压电致动器101于工作频率运作下所产生的信号,并将信号滤波后传输至控制电路300。控制电路300接收回馈电路600传来的信号后,其将回馈电路600传来的信号与特定频率比对,所述的特定频率为压电致动器101于正常状态下受第二电压驱动以雾化第二液体时的参照频率。若控制电路300判断回馈电路600传来的信号不符合特定频率,其即停止控制电源电路200以提供第二电压至雾化电路100。在本发明的一些实施例中,控制电路300更将提供报警信号至选择接口400的显示屏幕401,以供用户了解雾化装置1可能发生异常。Step S706: Following step S704, when the operating frequency obtained by the feedback circuit 600 does not match the operating frequency for atomizing the second liquid according to the second voltage, the control circuit 300 stops controlling the power circuit 200 to provide the second voltage to the atomizing circuit 100 . As shown in FIG. 3 , the feedback circuit 600 continuously samples the signal generated by the piezoelectric actuator 101 under the operation of the working frequency, and transmits the signal to the control circuit 300 after filtering. After the control circuit 300 receives the signal transmitted from the feedback circuit 600, it compares the signal transmitted from the feedback circuit 600 with a specific frequency, which is the piezoelectric actuator 101 driven by the second voltage in a normal state. The reference frequency when atomizing the second liquid. If the control circuit 300 determines that the signal from the feedback circuit 600 does not conform to the specific frequency, it stops controlling the power supply circuit 200 to provide the second voltage to the atomizing circuit 100 . In some embodiments of the present invention, the control circuit 300 will further provide an alarm signal to the display screen 401 of the selection interface 400 for the user to know that the atomizing device 1 may be abnormal.

由上述本发明实施方式可知,应用本发明具有下列优点。本发明实施例藉由提供一种雾化装置及其操作方法,藉以改善先前技术的雾化装置无法针对不同种类的液体根据理想的粒径雾化释出的问题。本发明实施例更提供一种雾化装置及其操作方法,可针对特定液体在特定时间内进行雾化,以配合疗程所需的时间。本发明实施例提供一种雾化装置,可回馈压电致动器的工作频率,以判断用户是否选择了不正确的参数组来操作雾化装置。As can be seen from the above-described embodiments of the present invention, the application of the present invention has the following advantages. The embodiments of the present invention provide an atomizing device and an operating method thereof, thereby improving the problem that the prior art atomizing device cannot atomize and release different kinds of liquids according to an ideal particle size. Embodiments of the present invention further provide an atomizing device and an operating method thereof, which can atomize a specific liquid within a specific time to match the time required for a treatment course. An embodiment of the present invention provides an atomizing device, which can feed back the operating frequency of a piezoelectric actuator to determine whether a user selects an incorrect parameter group to operate the atomizing device.

虽然本发明以实施例揭示如上,然其并非用以限定本发明,任何熟习此技艺者,在不脱离本发明的精神和范围内,当可作各种的更动与润饰,因此本发明的保护范围当视后附的申请专利范围所界定者为准。Although the present invention is disclosed above with examples, it is not intended to limit the present invention. Anyone skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention. The scope of protection shall be determined by the scope of the appended patent application.

Claims (14)

1. a kind of atomising device, characterized by comprising:
One atomization circuit has a piezoelectric actuator;
One power circuit, and the atomization circuit electric property coupling, selectively to provide voltage to the atomization circuit;
One selection interface, to select one first parameter group or one second parameter group, wherein first parameter group corresponds to one first Liquid, the corresponding second liquid of second parameter group;And
One control circuit, and the selection interface and the power circuit electric property coupling, when first parameter group is selected, to The power circuit is controlled to provide a first voltage to the atomization circuit, and then drives the piezoelectric actuator according to one first partial size Atomization releases first liquid, when second parameter group is selected, to control the power circuit to provide a second voltage To the atomization circuit, and then the piezoelectric actuator is driven to release the second liquid according to the atomization of one second partial size.
2. atomising device as described in claim 1, which is characterized in that the selection interface has a display screen, to image Change one second option of one first option for showing corresponding first parameter group or corresponding second parameter group.
3. atomising device as described in claim 1, which is characterized in that the selection interface is more coupled with a database communication, should Database is to store first parameter group or second parameter group for selection interface access.
4. atomising device as described in claim 1, which is characterized in that when first parameter group is selected, the control circuit In control power circuit in a first time to provide the first voltage to the atomization circuit, when second parameter group is selected When, the control circuit is in controlling the power circuit in one second time to provide the second voltage to the atomization circuit.
5. atomising device as claimed in claim 4, which is characterized in that further include:
One wireless communication module is coupled with the control circuit, to receive a control instruction from a radio transmitting device, wherein should Control instruction is to select first parameter group or second parameter group.
6. atomising device as claimed in claim 5, which is characterized in that the control instruction is more to change the first parameter group institute The corresponding first voltage and first time or to change the second voltage corresponding to second parameter group with this second Time.
7. atomising device as described in claim 1, which is characterized in that further include:
One feedback circuit is coupled with the atomization circuit and the control circuit, to obtain the piezoelectric actuator in be atomized this first Working frequency when liquid or the second liquid is simultaneously transmitted to the control circuit, when the working frequency that the feedback circuit obtains is not inconsistent When closing the piezoelectric actuator and being atomized the working frequency of first liquid according to the first voltage, or the work obtained when the feedback circuit When working frequency does not meet the piezoelectric actuator and is atomized the working frequency of the second liquid according to the second voltage, which stops Control the power circuit only to provide the first voltage or the second voltage to the atomization circuit.
8. a kind of operating method of atomising device, to operate an atomising device, which is characterized in that the atomising device has an electricity Source circuit and an atomization circuit, the atomization circuit are electrically coupled to the power circuit and have a piezoelectric actuator, the atomization Device is electrically coupled to the selection interface with more a control circuit and a selection interface, the control circuit to control the power supply Circuit, which includes:
One first parameter group or one second parameter group are provided by the selection interface, wherein corresponding one first liquid of first parameter group Body, the corresponding second liquid of second parameter group;
When first parameter group is selected, which controls the power circuit to provide a first voltage to atomization electricity Road, and then the piezoelectric actuator is driven to release first liquid according to the atomization of one first partial size;And
When second parameter group is selected, which controls the power circuit to provide a second voltage to atomization electricity Road, and then the piezoelectric actuator is driven to release the second liquid according to the atomization of one second partial size.
9. operating method as claimed in claim 8, which is characterized in that the selection interface has a display screen, to image Change one second option of one first option for showing corresponding first parameter group or corresponding second parameter group.
10. operating method as claimed in claim 8, which is characterized in that the selection interface of the atomising device more with a data Library communication coupling, the database are simultaneously further included to store first parameter group or second parameter group, the control method:
By the selection interface from the database access first parameter group or second parameter group.
11. operating method as claimed in claim 8, which is characterized in that when first parameter group is selected, the control circuit In control power circuit in a first time to provide the first voltage to the atomization circuit, when second parameter group is selected When, the control circuit is in controlling the power circuit in one second time to provide the second voltage to the atomization circuit.
12. operating method as claimed in claim 11, which is characterized in that the atomising device further includes a wireless communication module, The wireless communication module and the control circuit couple, which further includes:
A control instruction is received from a radio transmitting device by the wireless communication module, wherein the control instruction is to select this First parameter group or second parameter group.
13. operating method as claimed in claim 12, which is characterized in that the control method further includes:
By the control circuit according to the control instruction change first parameter group corresponding to the first voltage and this first when Between or change the second voltage corresponding to second parameter group and second time.
14. operating method as claimed in claim 8, which is characterized in that the atomising device has more a feedback circuit, the feedback Circuit is electrically coupled to the atomization circuit and the control circuit, which further includes:
Working frequency of piezoelectric actuator when being atomized first liquid or the second liquid is obtained simultaneously by the feedback circuit It is transmitted to the control circuit;
First liquid is atomized according to the first voltage when the working frequency that the feedback circuit obtains does not meet the piezoelectric actuator Working frequency when, the control circuit stop control the power circuit to provide the first voltage to the atomization circuit;And
The second liquid is atomized according to the second voltage when the working frequency that the feedback circuit obtains does not meet the piezoelectric actuator Working frequency when, the control circuit stop control the power circuit to provide the second voltage to the atomization circuit.
CN201710784560.4A 2017-09-04 2017-09-04 Atomization device and method of operating the same Pending CN109420225A (en)

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Application publication date: 20190305