WO2022110731A1 - 电子雾化设备、电子雾化设备主体以及雾化材料储存设备 - Google Patents

电子雾化设备、电子雾化设备主体以及雾化材料储存设备 Download PDF

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Publication number
WO2022110731A1
WO2022110731A1 PCT/CN2021/097155 CN2021097155W WO2022110731A1 WO 2022110731 A1 WO2022110731 A1 WO 2022110731A1 CN 2021097155 W CN2021097155 W CN 2021097155W WO 2022110731 A1 WO2022110731 A1 WO 2022110731A1
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WO
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Prior art keywords
material storage
storage device
atomization
power
auxiliary
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Application number
PCT/CN2021/097155
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English (en)
French (fr)
Inventor
陈琛
徐升阳
Original Assignee
深圳雾芯科技有限公司
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Publication date
Application filed by 深圳雾芯科技有限公司 filed Critical 深圳雾芯科技有限公司
Priority to EP21763209.0A priority Critical patent/EP4268636A1/en
Publication of WO2022110731A1 publication Critical patent/WO2022110731A1/zh

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/51Arrangement of sensors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors

Definitions

  • the present application relates to an electronic device, in particular to an electronic atomization device, an electronic atomization device main body, and an atomization material storage device.
  • E-liquid generally includes flavoring agents of different flavors, which can generate different flavors after atomization.
  • the present application proposes an electronic atomization device, a main body of the electronic atomization device, and an atomization material storage device, which provide different electric powers to the atomization material storage device in a manner different from the prior art, and provide users with different use experiences.
  • the utility model provides an electronic atomization device.
  • the electronic atomization device includes an atomization material storage device and a main body.
  • the nebulized material storage device is used to store nebulizable material.
  • the body is removably connected to the atomized material storage device.
  • the main body includes a processing circuit, a power supply and a detection device.
  • the power source is electrically connected to the processing circuit, wherein the processing circuit controls the power source to provide a first electrical power to the atomizing material storage device to atomize the atomizable material.
  • the detection device is electrically connected to the processing circuit.
  • the detection device When the atomizing material storage device triggers the detection device, the detection device provides a power adjustment signal to the processing circuit, wherein the processing circuit controls the power supply to provide a second power supply in response to the power adjustment signal electrical power to the atomizing material storage device, the second electrical power being different from the first electrical power.
  • the atomized material storage device includes an electrical contact element, and the main body includes an electrical connection terminal that is electrically connected to the electrical contact element.
  • the atomized material storage device further includes an auxiliary device, wherein when the auxiliary device is connected between the detection device and the electrical connection terminal, the detection device is triggered to provide the power adjustment signal.
  • the auxiliary device is used to form a short circuit between the detection device and the electrical connection terminal.
  • the power adjustment signal indicates the potential difference between the detection device and the electrical connection terminal.
  • the auxiliary device includes an auxiliary elastic piece, and one end of the auxiliary elastic piece is connected to the electrical contact element.
  • the auxiliary device further includes auxiliary pins
  • the atomized material storage device further includes a base
  • the base includes a first groove and a second groove
  • the first groove accommodates the In the electrical contact element
  • the second groove accommodates the auxiliary pin, wherein the other end of the auxiliary elastic sheet is connected to the auxiliary pin.
  • the auxiliary elastic sheet is provided in the atomized material storage device.
  • the auxiliary elastic sheet is disposed on the outer surface of the atomized material storage device.
  • the utility model provides an electronic atomization device main body, which comprises a casing with a power supply inside, and one end of the casing is used for connecting with an atomization material storage device.
  • the main body of the electronic atomization device further includes: a processing circuit, a power supply and a detection device.
  • the power source is electrically connected to the processing circuit, wherein the processing circuit controls the power source to provide a first electrical power to the atomizing material storage device to atomize the atomizable material in the atomizing material storage device.
  • the detection device is electrically connected to the processing circuit.
  • a power adjustment signal is provided to the processing circuit, wherein the power adjustment signal is used to instruct the processing circuit to control the power supply to provide a second electric power to the mist A chemical material storage device, the second electrical power is different from the first electrical power.
  • the electronic atomization device body further includes electrical connection terminals.
  • the power supply provides the first electric power to the atomization material storage device through the electrical connection terminal.
  • the detection device provides the power adjustment signal.
  • the power adjustment signal indicates a potential difference between the detection device and the electrical connection terminal.
  • the utility model provides an atomization material storage device, which is used for receiving the first electric power from the main body of the electronic atomization device to atomize the stored atomizable material.
  • the atomized material storage device includes a base, an electrical contact element and an auxiliary elastic sheet.
  • the base includes a first groove. The first groove accommodates the electrical contact element, and the electrical contact surface of the electrical contact element is exposed to the outer surface of the base.
  • One end of the auxiliary elastic sheet is connected to the electrical contact element.
  • the electric contact element receives a second electric power to atomize the atomizable material, wherein the second electric power is different from the first electrical power.
  • the base further includes a second groove.
  • the atomized material storage device further includes auxiliary pins.
  • the second groove is used for accommodating auxiliary pins, and the other end of the auxiliary elastic sheet is connected to the auxiliary pins.
  • the auxiliary elastic sheet is provided in the atomized material storage device.
  • the auxiliary elastic sheet is disposed on the outer surface of the base.
  • FIG. 1 illustrates a schematic diagram of an electronic atomization device according to some embodiments of the present application.
  • Figure 2 illustrates an exemplary combined schematic diagram of an electronic atomizing device according to some embodiments of the present application.
  • FIG 3 illustrates a front cross-sectional view of an electronic atomization device body according to some embodiments of the present application.
  • FIG. 4 illustrates a schematic diagram of a base of an atomized material storage device according to an embodiment of the present application.
  • FIG. 5A illustrates a schematic diagram of collocation of an auxiliary device and an electrical contact element of an atomized material storage device according to an embodiment of the present application.
  • FIG. 5B illustrates a cross-sectional view of the assembly of the auxiliary device and the base according to an embodiment of the present application.
  • FIG. 6A illustrates a schematic diagram of the collocation of an auxiliary device and an electrical contact element of an atomized material storage device according to another embodiment of the present application.
  • FIG. 6B illustrates an assembled cross-sectional view of an auxiliary device and a base according to another embodiment of the present application.
  • FIG. 7A illustrates a schematic diagram of the collocation of an auxiliary device and an electrical contact element of an atomized material storage device according to an embodiment of the present application.
  • FIG. 7B illustrates an assembled cross-sectional view of an auxiliary device and a base according to an embodiment of the present application.
  • FIG. 8A illustrates a schematic diagram of collocation of an auxiliary device and an electrical contact element of an atomized material storage device according to another embodiment of the present application.
  • FIG. 8B illustrates an assembled cross-sectional view of an auxiliary device and a base according to another embodiment of the present application.
  • references in the following description to the formation of a first feature on or on a second feature may include embodiments in which the first feature is formed in direct contact with the second feature, and may also include additional features that may be formed on Embodiments between the first feature and the second feature such that the first feature and the second feature may not be in direct contact. Additionally, this application may repeat reference numerals and/or letters in various instances. This repetition is for the purpose of simplicity and clarity, and does not in itself indicate a relationship between the various embodiments and/or configurations discussed.
  • FIG. 1 illustrates a schematic front view of an electronic atomization device 100 according to some embodiments of the present application.
  • the electronic atomization device 100 may include an atomization material storage device 100A and a main body 100B.
  • the atomized material storage device 100A and the main body 100B may be designed as a whole.
  • the atomized material storage device 100A and the main body 100B may be designed as two separate components.
  • the atomized material storage device 100A may be designed to be removably associated with the main body 100B.
  • the atomized material storage device 100A when the atomized material storage device 100A is combined with the main body 100B, a portion of the atomized material storage device 100A is housed in the main body 100B.
  • the atomized material storage device 100A may be referred to as a cartridge or oil storage assembly.
  • the body 100B may be referred to as the main body.
  • the main body 100B may provide electrical power to the atomized material storage device 100A.
  • the electrical power provided by the main body 100B to the atomizing material storage device 100A may heat the atomizable material stored in the atomizing material storage device 100A.
  • the atomizable material may be a liquid.
  • the atomizable material may be a solution.
  • Atomizable material can also be called e-liquid. E-liquid is edible.
  • FIG. 2 illustrates an exemplary combined schematic diagram of an electronic atomizing device 100 according to some embodiments of the present application.
  • the main body 100B has the main body casing 22 .
  • the main body casing 22 has an opening 22h. Opening 22h may receive a portion of atomized material storage device 100A.
  • the atomized material storage device 100A may not have directionality.
  • the atomized material storage device 100A can be detachably combined with the main body 100B in two different orientations (ie, two different orientations with the surface Is facing up or down).
  • the atomized material storage device 100A includes a casing 1 and a base 9 . The location of the base 9 is at the bottom of the atomized material storage device 100A.
  • the opening 22h accommodates the base 9 of the atomization material storage device 100A.
  • the electronic atomization device body 100B includes electrical connection terminals 31 a and 31 b , a processing circuit 32 , a power supply 33 and a detection device 34 .
  • the processing circuit 32 is electrically connected to the electrical connection terminals 31 a and 31 b , the power supply 33 and the detection device 34 .
  • the processing circuit 32 is used to control the components of the electronic atomization device 100 to cooperate to realize the functions of the electronic atomization device 100.
  • the power source 33 is electrically connected to the electrical connection terminals 31a and 31b. Controlled by the processing circuit 32, the power supply 33 transmits electric power of different magnitudes to the atomizing material storage device 100A through the electrical connection terminals 31a and 31b to heat the atomizable material stored in the atomizing material storage device 100A.
  • the electrical connection terminals 31a and 31b are two identical terminals arranged symmetrically.
  • the electric power generated by the power supply 33 can be transmitted in the form of electric current, and the electric current will enter the atomized material storage device 100A from one of the electrical connection terminals 31a and 31b (eg, the electrical connection terminal 31a), and from the The other of the electrical connection terminals 31a and 31b (eg, the electrical connection terminal 31b) enters the power supply 33 to complete the current loop.
  • the processing circuit 32 controls the power supply 33 to provide the first electric power PW1 to the atomization material storage device 100A; in some embodiments, when the atomization material storage device 100A is combined with the electronic atomization device main body 100B, if the atomization material storage device 100A triggers the detection device 34, the detection device 34
  • the power adjustment signal AS is provided to the processing circuit 32, so that the processing circuit 32 controls the power supply 33 to provide a second electric power PW2 different from the first electric power PW1 to the atomizing material storage device 100A in response to the power adjustment signal AS.
  • the second electrical power PW2 is greater than the first electrical power PW1. However, this is not a limitation of the present application. In other embodiments, the second electrical power PW2 may be smaller than the first electrical power PW1.
  • the processing circuit 32 controls the power supply 33 to provide the first electrical power PW1 to the atomizing material storage device 100A.
  • the trigger detection device 34 when the atomization material storage device 100A is combined with the electronic atomization device body 100B, if the atomization material storage device 100A causes the detection device 34 to form between one of the electrical connection terminals 31 a and 31 b Short circuit, the trigger detection device 34 provides the power adjustment signal AS to the processing circuit 32, so that the processing circuit 32 can control the power supply 33 to supply the second electric power PW2 to the atomizing material storage device 100A in response to the power adjustment signal AS.
  • the power adjustment signal AS is used to indicate the potential difference between the detection device 34 and the electrical connection terminals 31a and 31b.
  • the detection device 34 when the detection device 34 is disconnected, a current loop cannot be formed between the detection device 34 and the electrical connection terminals 31a and 31b, so there is no potential difference.
  • the detection device 34 when the detection device 34 forms an open circuit, the detection device 34 will not provide the power adjustment signal AS.
  • the power adjustment signal AS provided by the detection device 34 indicates that there is no potential difference between the detection device 34 and the electrical connection terminals 31a and 31b.
  • the processing circuit 32 controls the power supply 33 to provide the first electric power PW1 to the atomizing material storage device 100A.
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomizing material storage device 100A.
  • the detection device 34 is described as providing the power adjustment signal AS, the present application does not limit the detection device 34 to actively provide the power adjustment signal AS to the processing circuit 32 .
  • the processing circuit 32 can detect the potential difference between the detection device 34 and the electrical connection terminals 31a and 31b in real time as the power adjustment signal AS.
  • the processing circuit 32 controls the power supply 33 to provide the first electric power PW1 to the atomizing material storage device 100A; when the power adjustment signal AS indicates that the detection device 34 is connected to the electrical connection terminals 31a and 31b When a short circuit is formed between one of them, the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomizing material storage device 100A in response to the power adjustment signal AS.
  • FIG. 4 illustrates a schematic diagram of the base 9 of the atomized material storage apparatus 100A according to an embodiment of the present application.
  • the base 9 includes an air intake area 9a, which includes a groove 9a1.
  • the groove 9a1 is provided with an opening 9h1 and an opening 9h2.
  • the opening 9h1 and the opening 9h2 may be provided within the range of the intake area 9a.
  • the opening 9h1 and the opening 9h2 can be disposed within the range of the groove 9a1.
  • the opening 9h1 and the opening 9h2 communicate with the atomizing chamber inside the atomizing material storage device 100A.
  • the openings 9h1 and 9h2 serve as air intake holes, and air can enter the inside of the atomized material storage device 100A through the openings 9h1 and 9h2.
  • the base 9 additionally includes grooves 9h3 and 9h4 provided on both sides of the intake area 9a.
  • the grooves 9h3 and 9h4 can respectively accommodate the electrical contact elements 9p1 and 9p2 and fix the electrical contact elements 9p1 and 9p2 on the base 9 .
  • the rods 9k1 and 9k2 of the electrical contact elements 9p1 and 9p2 pass through the grooves 9h3 and 9h4 and extend to the inside of the atomized material storage device 100A.
  • the electrical contact elements 9p1 and 9p2 may have the function of conducting current.
  • the electrical contact surface 9s1 of the electrical contact element 9p1 and the electrical contact surface 9s2 of the electrical contact element 9p2 are exposed on the outer surface of the base 9 .
  • the electrical contact surfaces 9s1 and 9s2 are in contact with the electrical connection terminals 31a and 31b respectively, and the electrical contact elements 9p1 and 9p2 can connect the first electrical power PW1 or The second electric power PW2 is provided into the atomized material storage device 100A.
  • the electrical contact elements 9p1 and 9p2 may comprise metal.
  • the electrical contact elements 9p1 and 9p2 can be attracted by the magnetic components.
  • the atomized material storage device 100A can be adsorbed by the magnetic components disposed in the main body 100B via the electrical contact elements 9p1 and 9p2 .
  • the atomized material storage device 100A can be detachably combined with the main body 100B via the electrical contact elements 9p1 and 9p2 .
  • FIG. 5A illustrates a schematic diagram of the collocation of the auxiliary device 5 and the electrical contact elements 9p1 and 9p2 of the atomized material storage apparatus 100A according to an embodiment of the present application.
  • the auxiliary device 5 includes auxiliary elastic pieces 5a.
  • one end of the auxiliary elastic sheet 5a is connected to one of the electrical contact elements 9p1 and 9p2 (connected to the electrical contact element 9p2 as shown in FIG. 5A ).
  • one end of the auxiliary elastic piece 5a is connected to the rod portion 9k2 of the electrical contact element 9p2 , and the auxiliary elastic piece 5a extends from the rod portion 9k2 of the electrical contact element 9p2 to the center of the base 9 .
  • the length of the auxiliary elastic piece 5a extends to the center of the groove 9a1.
  • the auxiliary dome 5a may contain metal.
  • the detection device 34 when the auxiliary device 5 is connected between the detection device 34 and the electrical connection terminal 31a or 31b, the detection device 34 is triggered to provide the power adjustment signal AS.
  • FIG. 5B illustrates a cross-sectional view of the assembly of the auxiliary device 5 and the base 9 according to an embodiment of the present application.
  • the auxiliary elastic piece 5a extends from the rod portion 9k2
  • the auxiliary elastic piece 5a is embedded in the base 9 when part or all of the components of the atomized material storage apparatus 100A are combined with each other.
  • the detection device 34 passes through the groove 9a1 of the base 9 and is connected to the other end of the auxiliary elastic piece 5a, and the terminals 31a and 31a are electrically connected to One of the 31b (eg, the electrical connection terminal 31b) is electrically connected to the electrical contact element 9p2.
  • the auxiliary elastic piece 5a is connected between the detection device 34 and the electrical connection terminal 31b, and further makes a short circuit between the detection device 34 and the electrical connection terminal 31b, triggering the detection device 34 to provide a power adjustment signal AS to the processing circuit 32, wherein
  • the power adjustment signal AS indicates that a short circuit is formed between the detection device 34 and the electrical connection terminal 31b.
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomized material storage device 100A in response to the power adjustment signal AS.
  • FIG. 6A illustrates a schematic diagram of the collocation of the auxiliary device 5 and the electrical contact elements 9p1 and 9p2 of the atomized material storage apparatus 100A according to another embodiment of the present application.
  • the embodiment in FIG. 6A is roughly the same as the embodiment in FIG. 5A , the only difference is that one end of the auxiliary elastic piece 5a is connected to the electrical contact surface 9s2 of the electrical contact element 9p2 , and the auxiliary elastic piece 5a extends from the electrical contact surface 9s2 of the electrical contact element 9p2 to the base 9 . center extension.
  • FIG. 6B illustrates a cross-sectional view of the assembly of the auxiliary device 5 and the base 9 according to another embodiment of the present application. Since the auxiliary elastic pieces 5a extend from the electric contact surface 9s2, the auxiliary elastic pieces 5a are exposed to the outer surface of the base 9 when part or all of the components of the atomized material storage apparatus 100A are combined with each other. In some embodiments, when the atomization material storage device 100A is combined with the electronic atomization device main body 100B, the detection device 34 is connected to the other end of the auxiliary elastic piece 5a, and one of the terminals 31a and 31b is electrically connected (for example, an electrical connection The terminal 31b) is electrically connected to the electrical contact element 9p2.
  • the auxiliary elastic piece 5a is connected between the detection device 34 and the electrical connection terminal 31b, and further makes a short circuit between the detection device 34 and the electrical connection terminal 31b, triggering the detection device 34 to provide a power adjustment signal AS to the processing circuit 32, wherein
  • the power adjustment signal AS indicates that a short circuit is formed between the detection device 34 and the electrical connection terminal 31b.
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomized material storage device 100A in response to the power adjustment signal AS.
  • FIG. 7A illustrates a schematic diagram of the collocation of the auxiliary device 6 and the electrical contact elements 9p1 and 9p2 of the atomized material storage apparatus 100A according to an embodiment of the present application.
  • the auxiliary device 6 includes an auxiliary elastic piece 6a and an auxiliary pin 6p.
  • one end of the auxiliary elastic sheet 6a is connected to one of the electrical contact elements 9p1 and 9p2 (connected to the electrical contact element 9p2 as shown in FIG. 7A ).
  • one end of the auxiliary elastic sheet 6a is connected to the rod portion 9k2 of the electrical contact element 9p2, the auxiliary elastic sheet 6a extends from the rod portion 9k2 of the electrical contact element 9p2 to the center of the base 9, and the other end of the auxiliary elastic sheet 6a is connected to the auxiliary elastic sheet 6a.
  • the rod portion 6k of the pin 6p is connected.
  • the auxiliary elastic pieces 6a and the auxiliary pins 6p may contain metal.
  • the detection device 34 when the auxiliary device 6 is connected between the detection device 34 and the electrical connection terminal 31a or 31b, the detection device 34 is triggered to provide the power adjustment signal AS.
  • FIG. 7B illustrates a cross-sectional view of the assembly of the auxiliary device 6 and the base 9 according to an embodiment of the present application.
  • the auxiliary elastic piece 6a extends from the rod portion 9k2
  • the auxiliary elastic piece 6a is embedded in the base 9 when part or all of the components of the atomized material storage device 100A are combined with each other.
  • the detection device 34 is electrically connected to the electrical contact surface 6s of the auxiliary pin 6p, and one of the terminals 31a and 31b is electrically connected.
  • One eg, the electrical connection terminal 31b
  • the auxiliary elastic piece 6a and the auxiliary pin 6p are connected between the detection device 34 and the electrical connection terminal 31b, and further make a short circuit between the detection device 34 and the electrical connection terminal 31b, triggering the detection device 34 to provide the power adjustment signal AS to The processing circuit 32, wherein the power adjustment signal AS indicates that a short circuit is formed between the detection device 34 and the electrical connection terminal 31b.
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomized material storage device 100A in response to the power adjustment signal AS.
  • FIG. 8A illustrates a schematic diagram of the collocation of the auxiliary device 6 and the electrical contact elements 9p1 and 9p2 of the atomized material storage apparatus 100A according to another embodiment of the present application.
  • the embodiment shown in FIG. 8A is substantially the same as the embodiment shown in FIG. 7A , except that one end of the auxiliary elastic piece 6a is connected to the electrical contact surface 9s2 of the electrical contact element 9p2, and the other end of the auxiliary elastic piece 6a is connected to the electrical contact surface 6s of the auxiliary pin 6p. .
  • FIG. 8B illustrates a cross-sectional view of the assembly of the auxiliary device 6 and the base 9 according to an embodiment of the present application.
  • the auxiliary elastic piece 6a extends from the electrical contact surface 9s2 to the electrical contact surface 6s, when part or all of the components of the atomized material storage device 100A are combined with each other, the auxiliary elastic piece 6a is exposed to the surface of the base 9 .
  • the outer surface when the atomization material storage device 100A is combined with the electronic atomization device main body 100B, the detection device 34 is electrically connected to the electrical contact surface 6s of the auxiliary pin 6p, and one of the terminals 31a and 31b is electrically connected.
  • One (eg, the electrical connection terminal 31b) is electrically connected to the electrical contact element 9p2.
  • the auxiliary elastic piece 6a and the auxiliary pin 6p are connected between the detection device 34 and the electrical connection terminal 31b, and further make a short circuit between the detection device 34 and the electrical connection terminal 31b, triggering the detection device 34 to provide the power adjustment signal AS to
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomized material storage device 100A in response to the power adjustment signal AS.
  • the processing circuit 32 controls the power supply 33 to provide a larger second electric power PW2 to the atomizing material storage device 100A, so as to provide a larger amount of atomization and increase the taste during smoking.
  • the processing circuit 32 controls the power supply 33 to provide a smaller first electric power PW1 to the atomizing material storage device 100A.
  • the user can use different atomizing material storage devices 100A according to their own preferences, so as to obtain different usage experiences.
  • the processing circuit 32 controls the power provided by the power source 33 according to the potential difference signal (whether the detection device 34 is open circuit or short circuit).
  • the detection device 34 may be a sensor.
  • the detection device 34 can be a pressure sensor.
  • the processing circuit 32 controls the power supply 33 to provide the second electric power PW2 to the atomizing material storage device 100A in response to the power adjustment signal AS.
  • the detection device 34 can be triggered by the atomizing material storage device 100A, thereby controlling the power supply 33 to provide different electric powers to the atomizing material storage device 100A, it belongs to the invention of the present application.
  • the terms “approximately,” “substantially,” “substantially,” and “about” are used to describe and account for small variations. When used in conjunction with an event or circumstance, the terms can refer to instances in which the event or circumstance occurs precisely as well as instances in which the event or circumstance occurs closely. As used herein with respect to a given value or range, the term “about” generally means within ⁇ 10%, ⁇ 5%, ⁇ 1%, or ⁇ 0.5% of the given value or range. A range may be expressed herein as from one endpoint to the other or between the two endpoints. All ranges disclosed herein are inclusive of the endpoints unless otherwise specified.
  • substantially coplanar may refer to two surfaces positioned along the same plane within a few micrometers ( ⁇ m), eg, within 10 ⁇ m, 5 ⁇ m, 1 ⁇ m, or 0.5 ⁇ m positioned along the same plane.
  • ⁇ m micrometers
  • a term may refer to a value within ⁇ 10%, ⁇ 5%, ⁇ 1%, or ⁇ 0.5% of the mean of the stated value.
  • the terms “approximately,” “substantially,” “substantially,” and “about” are used to describe and explain small variations. When used in conjunction with an event or circumstance, the terms can refer to instances in which the event or circumstance occurs precisely as well as instances in which the event or circumstance occurs closely.
  • a term when used in conjunction with a numerical value, a term may refer to a range of variation less than or equal to ⁇ 10% of the numerical value, eg, less than or equal to ⁇ 5%, less than or equal to ⁇ 4%, less than or equal to ⁇ 3% , less than or equal to ⁇ 2%, less than or equal to ⁇ 1%, less than or equal to ⁇ 0.5%, less than or equal to ⁇ 0.1%, or less than or equal to ⁇ 0.05%.
  • the difference between two values is less than or equal to ⁇ 10% of the mean of the values (eg, less than or equal to ⁇ 5%, less than or equal to ⁇ 4%, less than or equal to ⁇ 3%, less than or equal to ⁇ 2%, less than or equal to ⁇ 1%, less than or equal to ⁇ 0.5%, less than or equal to ⁇ 0.1%, or less than or equal to ⁇ 0.05%), then the two values may be considered to be “substantially” or “substantially” about" is the same.
  • substantially parallel may refer to an angular variation range of less than or equal to ⁇ 10° relative to 0°, eg, less than or equal to ⁇ 5°, less than or equal to ⁇ 4°, less than or equal to ⁇ 3°, ⁇ 2° or less, ⁇ 1° or less, ⁇ 0.5° or less, ⁇ 0.1° or less, or ⁇ 0.05° or less.
  • substantially vertical may refer to an angular variation range of less than or equal to ⁇ 10° relative to 90°, eg, less than or equal to ⁇ 5°, less than or equal to ⁇ 4°, less than or equal to ⁇ 3°, ⁇ 2° or less, ⁇ 1° or less, ⁇ 0.5° or less, ⁇ 0.1° or less, or ⁇ 0.05° or less.
  • two surfaces may be considered coplanar or substantially coplanar if the displacement between the two surfaces is equal to or less than 5 ⁇ m, equal to or less than 2 ⁇ m, equal to or less than 1 ⁇ m, or equal to or less than 0.5 ⁇ m .
  • a surface is considered to be planar or substantially planar if its displacement relative to the plane between any two points on the surface is equal to or less than 5 ⁇ m, equal to or less than 2 ⁇ m, equal to or less than 1 ⁇ m, or equal to or less than 0.5 ⁇ m .
  • conductive As used herein, the terms “conductive,” “electrically conductive,” and “conductivity” refer to the ability to transfer electrical current. Conductive materials generally refer to those materials that exhibit little or zero resistance to current flow. One measure of conductivity is Siemens/meter (S/m). Typically, a conductive material is a material with a conductivity greater than approximately 104 S/m (eg, at least 105 S/m or at least 106 S/m). The conductivity of a material can sometimes change with temperature. Conductivity of materials is measured at room temperature unless otherwise specified.
  • an element that is provided “on” or “over” another element may encompass situations where the former element is directly on (eg, in physical contact with) the latter element, as well as one or more A case where an intermediate component is located between the previous component and the latter component.
  • spatially relative terms such as “below”, “below”, “lower”, “above”, “upper”, “lower”, “left side”, “right side” may be used herein ” etc. describe the relationship of one component or feature to another component or feature as illustrated in the figures.
  • the spatially relative terms are intended to encompass different orientations of the device in use or operation.
  • the device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly. It will be understood that when an element is referred to as being “connected” or “coupled to” another element, it can be directly connected or coupled to the other element or intervening elements may be present.

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Abstract

一种电子雾化设备(100),包括雾化材料储存设备(100A)以及主体(100B)。该雾化材料储存设备(100A)用于储存可雾化材料。该主体(100B)可拆卸式地连接至该雾化材料储存设备100A)。该主体(100B)包括处理电路(32)、电源(33)以及侦测装置(34)。该电源(33)电性连接至该处理电路(32),其中该处理电路(32)控制该电源(33)提供第一电功率至该雾化材料储存设备(100A)以雾化该可雾化材料。该侦测装置(34)电性连接至该处理电路(32)。当该雾化材料储存设备(100A)触发该侦测装置(34)时该侦测装置(34)提供功率调整信号(AS)至该处理电路(32),其中该处理电路(32)响应于该功率调整信号(AS)而控制该电源(33)提供第二电功率至该雾化材料储存设备(100A),该第二电功率与该第一电功率不同。本发明还公开了一种电子雾化设备主体(100B)和一种雾化材料储存设备(100A)。

Description

电子雾化设备、电子雾化设备主体以及雾化材料储存设备 技术领域
本申请涉及一种电子设备,具体涉及一种电子雾化设备、电子雾化设备主体以及雾化材料储存设备。
背景技术
近年来,各大厂商开始生产各式各样的电子雾化设备产品,其中包括将可挥发性溶液加热雾化并产生气雾以供用户吸食的烟油式电子雾化设备产品。烟油中一般包括不同口味的香味剂,能够雾化后产生不同香味。
实用新型内容
本申请提出了一种电子雾化设备、电子雾化设备主体以及雾化材料储存设备,用不同于现有技术的方式提供不同的电功率至雾化材料储存设备,提供使用者不同的使用体验。
本实用新型提出一种电子雾化设备。所述电子雾化设备包括雾化材料储存设备以及主体。所述雾化材料储存设备用于储存可雾化材料。所述主体可拆卸式地连接至所述雾化材料储存设备。所述主体包括处理电路、电源以及侦测装置。所述电源电性连接至所述处理电路,其中所述处理电路控制所述电源提供第一电功率至所述雾化材料储存设备以雾化所述可雾化材料。所述侦测装置电性连接至所述处理电路。当所述雾化材料储存设备触发所述侦测装置时所述侦测装置提供功率调整信号至所述处理电路,其中所述处理电路响应于所述功率调整信号而控制所述电源提供第二电功率至所述雾化材料储存设备,所述第二电功率与所述第一电功率不同。
作为一种实施方式,所述雾化材料储存设备包括电触元件,所述主体包括电性连接至所述电触元件的电连接端子。所述雾化材料储存设备还包括辅助装置,其中当所述辅助装置连接于所述侦测装置与所述电连接端子之间时,触发所述侦测装置以提供所述功率调整信号。
作为一种实施方式,所述辅助装置用于使所述侦测装置与所述电连接端子之间形成短路。
作为一种实施方式,所述功率调整信号指示所述侦测装置与所述电连接端子 之间的电位差。
作为一种实施方式,所述辅助装置包括辅助弹片,所述辅助弹片的一端连接至所述电触元件。
作为一种实施方式,所述辅助装置还包括辅助接脚,所述雾化材料储存设备还包括底座,所述底座上包括第一凹槽与第二凹槽,所述第一凹槽容纳所述电触元件,所述第二凹槽容纳所述辅助接脚,其中所述辅助弹片的另一端连接至所述辅助接脚。
作为一种实施方式,所述辅助弹片设置于所述雾化材料储存设备中。
作为一种实施方式,所述辅助弹片设置于所述雾化材料储存设备的外表面。
本实用新型提出一种电子雾化设备主体,包括内设有电源的壳体,所述壳体的一端用于与雾化材料储存设备连接。所述电子雾化设备主体还包括:处理电路、电源以及侦测装置。所述电源电性连接至所述处理电路,其中所述处理电路控制所述电源提供第一电功率至所述雾化材料储存设备以雾化所述雾化材料储存设备中的可雾化材料。所述侦测装置电性连接至所述处理电路。当所述雾化材料储存设备触发所述侦测装置时提供功率调整信号至所述处理电路,其中所述功率调整信号用于指示所述处理电路控制所述电源提供第二电功率至所述雾化材料储存设备,所述第二电功率与所述第一电功率不同。
作为一种实施方式,所述电子雾化设备主体还包括电连接端子。当所述雾化材料储存设备与所述电子雾化设备主体连接时,所述电源通过所述电连接端子提供所述第一电功率至所述雾化材料储存设备。当所述雾化材料储存设备使得所述侦测装置与所述电连接端子之间形成短路时,所述侦测装置提供所述功率调整信号。
作为一种实施方式,所述功率调整信号指示所述侦测装置与所述电连接端子之间的电位差。
本实用新型提出一种雾化材料储存设备,用于从电子雾化设备主体接收第一电功率以雾化储存的可雾化材料。所述雾化材料储存设备包括底座、电触元件以及辅助弹片。所述底座包括第一凹槽。所述第一凹槽容纳所述电触元件,所述电触元件的电触面暴露于所述底座的外表面。所述辅助弹片的一端连接至所述电触元件。当所述辅助弹片的另一端与所述电子雾化设备主体电性连接时,所述电触元件接收第二电功率以雾化所述可雾化材料,其中所述第二电功率不同于所述第 一电功率。
作为一种实施方式,所述底座还包括第二凹槽。所述雾化材料储存设备还包括辅助接脚。所述第二凹槽用于容纳辅助接脚,且所述辅助弹片的另一端连接至所述辅助接脚。
作为一种实施方式,所述辅助弹片设置于所述雾化材料储存设备中。
作为一种实施方式,所述辅助弹片设置于所述底座的外表面。
附图说明
附图是用来提供对本申请的进一步理解,并且构成说明书的一部分,与下面的具体实施方式一起用于解释本申请,但并不构成对本申请的限制。在附图中:
图1演示根据本申请一些实施例的电子雾化设备的示意图。
图2演示根据本申请一些实施例的电子雾化设备的示范性组合示意图。
图3演示根据本申请的一些实施例的电子雾化设备主体的前视剖视图。
图4演示依据本申请一实施例的雾化材料储存设备的底座的示意图。
图5A演示依据本申请一实施例的雾化材料储存设备的辅助装置与电触元件的搭配示意图。
图5B演示依据本申请一实施例的辅助装置与底座的组装剖视图。
图6A演示依据本申请另一实施例的雾化材料储存设备的辅助装置与电触元件的搭配示意图。
图6B演示依据本申请另一实施例的辅助装置与底座的组装剖视图。
图7A演示依据本申请一实施例的雾化材料储存设备的辅助装置与电触元件的搭配示意图。
图7B演示依据本申请一实施例的辅助装置与底座的组装剖视图。
图8A演示依据本申请另一实施例的雾化材料储存设备的辅助装置与电触元件的搭配示意图。
图8B演示依据本申请另一实施例的辅助装置与底座的组装剖视图。
具体实施方式
以下公开内容提供用于实施所提供的标的物的不同特征的许多不同实施例或实例。下文描述组件和布置的特定实例。当然,这些仅是实例且并不意图为限制性的。在本申请中,在以下描述中对第一特征在第二特征之上或上的形成的参考可包含第一特征与第二特征直接接触形成的实施例,并且还可包含额外特征可形 成于第一特征与第二特征之间从而使得第一特征与第二特征可不直接接触的实施例。另外,本申请可能在各个实例中重复参考标号和/或字母。此重复是出于简化和清楚的目的,且本身并不指示所论述的各种实施例和/或配置之间的关系。
下文详细论述本申请的实施例。然而,应了解,本申请提供了可在多种多样的特定情境中实施的许多适用的概念。所论述的特定实施例仅仅是说明性的且并不限制本申请的范围。
图1演示根据本申请一些实施例的电子雾化设备100的正面示意图。
电子雾化设备100可包含雾化材料储存设备100A及主体100B。在某些实施例中,雾化材料储存设备100A及主体100B可设计为一个整体。在某些实施例中,雾化材料储存设备100A及主体100B可设计成分开的两组件。在某些实施例中,雾化材料储存设备100A可设计成可拆卸式地与主体100B结合。在某些实施例中,当雾化材料储存设备100A与主体100B结合时,雾化材料储存设备100A的一部分收纳于主体100B中。在某些实施例中,雾化材料储存设备100A可称为烟弹(cartridge)或储油组件。在某些实施例中,主体100B可称为本体(main body)。
主体100B可以提供电功率给雾化材料储存设备100A。由主体100B提供至雾化材料储存设备100A的电功率可以加热储存于雾化材料储存设备100A内的可雾化材料。可雾化材料可以是一种液体。可雾化材料可以是一种溶液。可雾化材料亦可称为烟油。烟油是可食用的。
图2演示根据本申请一些实施例的电子雾化设备100的示范性组合示意图。
主体100B具有主体外壳22。主体外壳22具有一开口22h。开口22h可收纳雾化材料储存设备100A的一部分。在某些实施例中,雾化材料储存设备100A可以不具有方向性。在某些实施例中,雾化材料储存设备100A以两种不同方向(亦即,表面1s朝上或朝下两种不同方向)皆可以与主体100B可拆卸式地结合。于外观上,雾化材料储存设备100A包含外壳1以及底座9。底座9的位置位于雾化材料储存设备100A的底部。当雾化材料储存设备100A与电子雾化设备主体100B结合时,开口22h容纳雾化材料储存设备100A的底座9。
图3演示根据本申请的一些实施例的电子雾化设备主体100B的前视剖视图。在某些实施例中,电子雾化设备主体100B包括电连接端子31a与31b、处理电路32、电源33以及侦测装置34。在某些实施例中,处理电路32电性连接至电连接端子31a与31b、电源33以及侦测装置34。处理电路32用于控制电子雾化设备 100的部件协作以实现电子雾化设备100的功能。
在某些实施例中,电源33电性连接至电连接端子31a与31b。经由处理电路32的控制,电源33通过电连接端子31a与31b传送不同大小的电功率至雾化材料储存设备100A以加热储存于雾化材料储存设备100A内的可雾化材料。在某些实施例中,电连接端子31a与31b为对称设置的两个相同端子。本领域技术人员应能理解电源33所产生的电功率可以电流的形式传送,并且电流将从电连接端子31a与31b的其中之一(例如电连接端子31a)进入雾化材料储存设备100A,并从电连接端子31a与31b的另一(例如电连接端子31b)进入电源33,以完成电流回路。
在某些实施例中,当雾化材料储存设备100A与电子雾化设备主体100B结合时,若雾化材料储存设备100A未触发侦测装置34,则处理电路32控制电源33提供第一电功率PW1至雾化材料储存设备100A;在某些实施例中,当雾化材料储存设备100A与电子雾化设备主体100B结合时,若雾化材料储存设备100A触发侦测装置34,则侦测装置34提供功率调整信号AS至处理电路32,以使得处理电路32响应于功率调整信号AS来控制电源33提供不同于第一电功率PW1的第二电功率PW2至雾化材料储存设备100A。在某些实施例中,第二电功率PW2大于第一电功率PW1。然而,此并非本申请的一限制。在其他实施例中,第二电功率PW2可小于第一电功率PW1。
在某些实施例中,当雾化材料储存设备100A与电子雾化设备主体100B结合时,若雾化材料储存设备100A并未在侦测装置34和电连接端子31a及31b的其中之一之间形成电性路径,则侦测装置34形成断路,如此设置下,处理电路32控制电源33提供第一电功率PW1至雾化材料储存设备100A。在某些实施例中,当雾化材料储存设备100A与电子雾化设备主体100B结合时,若雾化材料储存设备100A导致侦测装置34与电连接端子31a与31b的其中之一之间形成短路,则触发侦测装置34提供功率调整信号AS至处理电路32,使得处理电路32可以响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。
在某些实施例中,功率调整信号AS用于指示侦测装置34与电连接端子31a和31b之间的电位差。本领域技术人员应能理解,当侦测装置34形成断路时,侦测装置34与电连接端子31a和31b之间无法形成电流回路,因此不具有电位差。在某些实施例中,当侦测装置34形成断路时,侦测装置34将不提供功率调整信 号AS。在某些实施例中,当侦测装置34形成断路时,侦测装置34所提供的功率调整信号AS指示侦测装置34与电连接端子31a和31b之间不具有电位差。当处理电路32接收到的功率调整信号AS指示侦测装置34与电连接端子31a和31b之间不具有电位差时,处理电路32控制电源33提供第一电功率PW1至雾化材料储存设备100A。
当雾化材料储存设备100A导致侦测装置34与电连接端子31a及31b的其中之一(例如电连接端子31b)之间形成短路时,侦测装置34与电连接端子31b之间的电位差为零。当处理电路32接收到的功率调整信号AS指示侦测装置34与电连接端子31b之间的电位差为零时,处理电路32控制电源33提供第二电功率PW2至雾化材料储存设备100A。
需注意的是,虽然此处描述侦测装置34提供功率调整信号AS,然而,本申请并不限制是由侦测装置34主动提供功率调整信号AS至处理电路32。在某些实施例中,处理电路32可实时地检测侦测装置34与电连接端子31a与31b之间的电位差作为功率调整信号AS。当功率调整信号AS指示侦测装置34为断路时,处理电路32控制电源33提供第一电功率PW1至雾化材料储存设备100A;当功率调整信号AS指示侦测装置34与电连接端子31a与31b的其中之一之间形成短路时,处理电路32响应于功率调整信号AS控制电源33提供第二电功率PW2至雾化材料储存设备100A。
图4演示依据本申请一实施例的雾化材料储存设备100A的底座9的示意图。底座9包含进气区域9a,进气区域9a包括凹槽9a1。凹槽9a1设有开口9h1及开口9h2。开口9h1及开口9h2可设置于进气区域9a的范围内。开口9h1及开口9h2可设置于凹槽9a1的范围内。开口9h1及开口9h2与雾化材料储存设备100A内部的雾化仓连通。开口9h1及开口9h2作为进气孔,空气可经由开口9h1及开口9h2进入雾化材料储存设备100A内部。
底座9另外包含设置于进气区域9a两侧的凹槽9h3和9h4。凹槽9h3及9h4可分别容纳电触元件9p1及9p2,并将电触元件9p1及9p2固定于底座9上。电触元件9p1及9p2的杆部9k1及9k2穿过凹槽9h3及9h4并延伸至雾化材料储存设备100A内部。电触元件9p1及9p2可具有传导电流的功能。电触元件9p1及9p2穿过凹槽9h3及9h4后,电触元件9p1的电触面9s1和电触元件9p2的电触面9s2暴露在底座9的外表面。当雾化材料储存设备100A与电子雾化设备主体100B结 合时,电触面9s1及9s2分别与电连接端子31a及31b接触,电触元件9p1及9p2可将电源33提供的第一电功率PW1或第二电功率PW2提供至雾化材料储存设备100A内。电触元件9p1及9p2可包含金属。电触元件9p1及9p2可被磁性组件吸附。雾化材料储存设备100A可经由电触元件9p1及9p2被设置于主体100B内的磁性组件吸附。雾化材料储存设备100A可经由电触元件9p1及9p2与主体100B可拆卸式地结合。
图5A演示依据本申请一实施例的雾化材料储存设备100A的辅助装置5与电触元件9p1及9p2的搭配示意图。在某些实施例中,辅助装置5包括辅助弹片5a。在某些实施例中,辅助弹片5a的一端与电触元件9p1及9p2的其中之一连接(如图5A所示与电触元件9p2连接)。在某些实施例中,辅助弹片5a的一端与电触元件9p2的杆部9k2连接,辅助弹片5a自电触元件9p2的杆部9k2向底座9的中心延伸。在某些实施例中,辅助弹片5a的长度延伸至凹槽9a1的中心位置。在某些实施例中,辅助弹片5a可包含金属。在某些实施例中,当辅助装置5连接于侦测装置34与电连接端子31a或31b之间时,触发侦测装置34提供功率调整信号AS。
图5B演示依据本申请一实施例的辅助装置5与底座9的组装剖视图。在图5B的实施例中,由于辅助弹片5a自杆部9k2延伸,因此当雾化材料储存设备100A的部分或所有组件彼此结合时,辅助弹片5a嵌入底座9之中。在某些实施例中,雾化材料储存设备100A与电子雾化设备主体100B结合时,侦测装置34穿过底座9的凹槽9a1并与辅助弹片5a的另一端连接,电连接端子31a和31b的其中之一(例如电连接端子31b)与电触元件9p2电性连接。辅助弹片5a连接于侦测装置34与电连接端子31b之间,并进一步使得侦测装置34与电连接端子31b之间形成短路,触发侦测装置34提供功率调整信号AS至处理电路32,其中功率调整信号AS指示侦测装置34与电连接端子31b之间形成短路。处理电路32响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。
图6A演示依据本申请另一实施例的雾化材料储存设备100A的辅助装置5与电触元件9p1及9p2的搭配示意图。图6A实施例中与图5A实施例大致相同,差异仅在于辅助弹片5a的一端与电触元件9p2的电触面9s2连接,辅助弹片5a自电触元件9p2的电触面9s2向底座9的中心延伸。
图6B演示依据本申请另一实施例的辅助装置5与底座9的组装剖视图。由于 辅助弹片5a自电触面9s2延伸,因此当雾化材料储存设备100A的部分或所有组件彼此结合时,辅助弹片5a暴露于底座9的外表面。在某些实施例中,雾化材料储存设备100A与电子雾化设备主体100B结合时,侦测装置34与辅助弹片5a的另一端连接,电连接端子31a和31b的其中之一(例如电连接端子31b)与电触元件9p2电性连接。辅助弹片5a连接于侦测装置34与电连接端子31b之间,并进一步使得侦测装置34与电连接端子31b之间形成短路,触发侦测装置34提供功率调整信号AS至处理电路32,其中功率调整信号AS指示侦测装置34与电连接端子31b之间形成短路。处理电路32响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。
图7A演示依据本申请一实施例的雾化材料储存设备100A的辅助装置6与电触元件9p1及9p2的搭配示意图。在某些实施例中,辅助装置6包括辅助弹片6a和辅助接脚6p。在某些实施例中,辅助弹片6a的一端与电触元件9p1及9p2的其中之一连接(如图7A所示与电触元件9p2连接)。在某些实施例中,辅助弹片6a的一端与电触元件9p2的杆部9k2连接,辅助弹片6a自电触元件9p2的杆部9k2向底座9的中心延伸,辅助弹片6a的另一端与辅助接脚6p的杆部6k连接。在某些实施例中,当雾化材料储存设备100A的部分或所有组件彼此结合时,底座9的凹槽9a1容纳辅助接脚6p,辅助接脚6p的电触面6s暴露在底座9的外表面。在某些实施例中,辅助弹片6a和辅助接脚6p可包含金属。在某些实施例中,当辅助装置6连接于侦测装置34与电连接端子31a或31b之间时,触发侦测装置34提供功率调整信号AS。
图7B演示依据本申请一实施例的辅助装置6与底座9的组装剖视图。在图7B的实施例中,由于辅助弹片6a自杆部9k2延伸,因此当雾化材料储存设备100A的部分或所有组件彼此结合时,辅助弹片6a嵌入底座9之中。在某些实施例中,雾化材料储存设备100A与电子雾化设备主体100B结合时,侦测装置34与辅助接脚6p的电触面6s电性连接,电连接端子31a和31b的其中之一(例如电连接端子31b)与电触元件9p2电性连接。辅助弹片6a与辅助接脚6p连接于侦测装置34与电连接端子31b之间,并进一步使得侦测装置34与电连接端子31b之间形成短路,触发侦测装置34提供功率调整信号AS至处理电路32,其中功率调整信号AS指示侦测装置34与电连接端子31b之间形成短路。处理电路32响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。
图8A演示依据本申请另一实施例的雾化材料储存设备100A的辅助装置6与电触元件9p1及9p2的搭配示意图。图8A实施例中与图7A实施例大致相同,差异仅在于辅助弹片6a的一端与电触元件9p2的电触面9s2连接,辅助弹片6a的另一端与辅助接脚6p的电触面6s连接。
图8B演示依据本申请一实施例的辅助装置6与底座9的组装剖视图。在图7B的实施例中,由于辅助弹片6a自电触面9s2延伸至电触面6s,因此,当雾化材料储存设备100A的部分或所有组件彼此结合时,辅助弹片6a暴露于底座9的外表面。在某些实施例中,雾化材料储存设备100A与电子雾化设备主体100B结合时,侦测装置34与辅助接脚6p的电触面6s电性连接,电连接端子31a和31b的其中之一(例如电连接端子31b)与电触元件9p2电性连接。辅助弹片6a与辅助接脚6p连接于侦测装置34与电连接端子31b之间,并进一步使得侦测装置34与电连接端子31b之间形成短路,触发侦测装置34提供功率调整信号AS至处理电路32,其中功率调整信号AS指示侦测装置34与电连接端子31b之间形成短路。处理电路32响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。
简单归纳本申请,当雾化材料储存设备100A与电子雾化设备主体100B结合时,若雾化材料储存设备100A能提供电性路径使得侦测装置34与电连接端子31a和31b的其中之一形成短路,则处理电路32控制电源33提供较大的第二电功率PW2至雾化材料储存设备100A,以提供较大的雾化量,增加吸食时的口感。若雾化材料储存设备100A未使得侦测装置34与电连接端子31a和31b的其中之一形成短路,则处理电路32控制电源33提供较小的第一电功率PW1至雾化材料储存设备100A。在如此设置下,使用者可依据自身喜好使用不同的雾化材料储存设备100A,以得到不同的使用体验。
在上述实施例中,处理电路32是依据电位差信号(侦测装置34是断路或短路)来控制电源33提供的功率。然而,此并非本申请的一限制。在其他实施例中,侦测装置34可以是传感器。举例来说,侦测装置34可以是压力传感器,当雾化材料储存设备100A与电子雾化设备主体100B结合时,雾化材料储存设备100A的对应部提供压力以触发侦测装置34提供功率调整信号AS至处理电路32,以使得处理电路32响应于功率调整信号AS来控制电源33提供第二电功率PW2至雾化材料储存设备100A。只要能通过雾化材料储存设备100A来触发侦测装置34, 借此控制电源33提供不同的电功率至雾化材料储存设备100A皆应隶属于本申请的发明。
如本文中所使用,术语“近似地”、“基本上”、“基本”及“约”用于描述并考虑小变化。当与事件或情况结合使用时,所述术语可指事件或情况精确地发生的例子以及事件或情况极近似地发生的例子。如本文中相对于给定值或范围所使用,术语“约”大体上意味着在给定值或范围的±10%、±5%、±1%或±0.5%内。范围可在本文中表示为自一个端点至另一端点或在两个端点之间。除非另外规定,否则本文中所公开的所有范围包括端点。术语“基本上共面”可指沿同一平面定位的在数微米(μm)内的两个表面,例如,沿着同一平面定位的在10μm内、5μm内、1μm内或0.5μm内。当参考“基本上”相同的数值或特性时,术语可指处于所述值的平均值的±10%、±5%、±1%或±0.5%内的值。
如本文中所使用,术语“近似地”、“基本上”、“基本”和“约”用于描述和解释小的变化。当与事件或情况结合使用时,所述术语可指事件或情况精确地发生的例子以及事件或情况极近似地发生的例子。举例来说,当与数值结合使用时,术语可指小于或等于所述数值的±10%的变化范围,例如,小于或等于±5%、小于或等于±4%、小于或等于±3%、小于或等于±2%、小于或等于±1%、小于或等于±0.5%、小于或等于±0.1%,或小于或等于±0.05%。举例来说,如果两个数值之间的差小于或等于所述值的平均值的±10%(例如,小于或等于±5%、小于或等于±4%、小于或等于±3%、小于或等于±2%、小于或等于±1%、小于或等于±0.5%、小于或等于±0.1%,或小于或等于±0.05%),那么可认为所述两个数值“基本上”或“约”相同。举例来说,“基本上”平行可以指相对于0°的小于或等于±10°的角度变化范围,例如,小于或等于±5°、小于或等于±4°、小于或等于±3°、小于或等于±2°、小于或等于±1°、小于或等于±0.5°、小于或等于±0.1°,或小于或等于±0.05°。举例来说,“基本上”垂直可以指相对于90°的小于或等于±10°的角度变化范围,例如,小于或等于±5°、小于或等于±4°、小于或等于±3°、小于或等于±2°、小于或等于±1°、小于或等于±0.5°、小于或等于±0.1°,或小于或等于±0.05°。
举例来说,如果两个表面之间的位移等于或小于5μm、等于或小于2μm、等于或小于1μm或等于或小于0.5μm,那么两个表面可以被认为是共面的或基本上共面的。如果表面相对于平面在表面上的任何两个点之间的位移等于或小于5μm、 等于或小于2μm、等于或小于1μm或等于或小于0.5μm,那么可以认为表面是平面的或基本上平面的。
如本文中所使用,术语“导电(conductive)”、“导电(electrically conductive)”和“电导率”是指转移电流的能力。导电材料通常指示对电流流动呈现极少或零对抗的那些材料。电导率的一个量度是西门子/米(S/m)。通常,导电材料是电导率大于近似地104S/m(例如,至少105S/m或至少106S/m)的一种材料。材料的电导率有时可以随温度而变化。除非另外规定,否则材料的电导率是在室温下测量的。
如本文中所使用,除非上下文另外明确规定,否则单数术语“一(a/an)”和“所述”可包含复数指示物。在一些实施例的描述中,提供于另一组件“上”或“上方”的组件可涵盖前一组件直接在后一组件上(例如,与后一组件物理接触)的情况,以及一或多个中间组件位于前一组件与后一组件之间的情况。
如本文中所使用,为易于描述可在本文中使用空间相对术语例如“下面”、“下方”、“下部”、“上方”、“上部”、“下部”、“左侧”、“右侧”等描述如图中所说明的一个组件或特征与另一组件或特征的关系。除图中所描绘的定向之外,空间相对术语意图涵盖在使用或操作中的装置的不同定向。设备可以其它方式定向(旋转90度或处于其它定向),且本文中所使用的空间相对描述词同样可相应地进行解释。应理解,当一组件被称为“连接到”或“耦合到”另一组件时,其可直接连接或耦合到所述另一组件,或可存在中间组件。
前文概述本公开的若干实施例和细节方面的特征。本公开中描述的实施例可容易地用作用于设计或修改其它过程的基础以及用于执行相同或相似目的和/或获得引入本文中的实施例的相同或相似优点的结构。这些等效构造不脱离本公开的精神和范围并且可在不脱离本公开的精神和范围的情况下作出不同变化、替代和改变。

Claims (15)

  1. 一种电子雾化设备,其特征在于,包括:
    雾化材料储存设备,用于储存可雾化材料;以及
    主体,可拆卸式地连接至所述雾化材料储存设备,包括:
    处理电路;
    电源,电性连接至所述处理电路,其中所述处理电路控制所述电源提供第一电功率至所述雾化材料储存设备以雾化所述可雾化材料;
    侦测装置,电性连接至所述处理电路,用于当所述雾化材料储存设备触发所述侦测装置时提供功率调整信号至所述处理电路,其中所述处理电路响应于所述功率调整信号而控制所述电源提供第二电功率至所述雾化材料储存设备,所述第二电功率与所述第一电功率不同。
  2. 如权利要求1所述的电子雾化设备,所述雾化材料储存设备包括电触元件,所述主体包括电性连接至所述电触元件的电连接端子,其特征在于,所述雾化材料储存设备还包括:
    辅助装置,其中当所述辅助装置连接于所述侦测装置与所述电连接端子之间时触发所述侦测装置以提供所述功率调整信号。
  3. 如权利要求2所述的电子雾化设备,其特征在于,所述辅助装置用于使所述侦测装置与所述电连接端子之间形成短路。
  4. 如权利要求3所述的电子雾化设备,其特征在于,所述功率调整信号指示所述侦测装置与所述电连接端子之间的电位差。
  5. 如权利要求4所述的电子雾化设备,其特征在于,所述辅助装置包括辅助弹片,所述辅助弹片的一端连接至所述电触元件。
  6. 如权利要求5所述的电子雾化设备,其特征在于,所述辅助装置还包括辅助接脚,所述雾化材料储存设备还包括底座,所述底座上包括第一凹槽与第二凹槽,所述第一凹槽容纳所述电触元件,所述第二凹槽容纳所述辅助接脚,其中所述辅助弹片的另一端连接至所述辅助接脚。
  7. 如权利要求5或6所述的电子雾化设备,其特征在于,所述辅助弹片设置于所述雾化材料储存设备中。
  8. 如权利要求5或6所述的电子雾化设备,其特征在于,所述辅助弹片设置于所述雾化材料储存设备的外表面。
  9. 一种电子雾化设备主体,包括内设有电源的壳体,所述壳体的一端用于与雾化材料储存设备连接,其特征在于,所述电子雾化设备主体包括:
    处理电路;
    电源,电性连接至所述处理电路,其中所述处理电路控制所述电源提供第一电功率至所述雾化材料储存设备以雾化所述雾化材料储存设备中的可雾化材料;
    侦测装置,电性连接至所述处理电路,用于当所述雾化材料储存设备触发所述侦测装置时提供功率调整信号至所述处理电路,其中所述功率调整信号用于指示所述处理电路控制所述电源提供第二电功率至所述雾化材料储存设备,所述第二电功率与所述第一电功率不同。
  10. 如权利要求9所述的电子雾化设备主体,其特征在于,还包括:
    电连接端子,当所述雾化材料储存设备与所述电子雾化设备主体连接时,所述电源通过所述电连接端子提供所述第一电功率至所述雾化材料储存设备;
    其中当所述雾化材料储存设备使得所述侦测装置与所述电连接端子之间形成短路时,所述侦测装置提供所述功率调整信号。
  11. 如权利要求10所述的电子雾化设备主体,其特征在于,所述功率调整信号指示所述侦测装置与所述电连接端子之间的电位差。
  12. 一种雾化材料储存设备,用于从电子雾化设备主体接收第一电功率以雾化储存的可雾化材料,其特征在于,包括:
    底座,包括第一凹槽;
    电触元件,所述第一凹槽容纳所述电触元件,所述电触元件的电触面暴露于所述底座的外表面;
    辅助弹片,一端连接至所述电触元件,当所述辅助弹片的另一端与所述电子雾化设备主体电性连接时,所述电触元件接收第二电功率以雾化所述可雾化材料, 其中所述第二电功率不同于所述第一电功率。
  13. 如权利要求12所述的雾化材料储存设备,其特征在于,所述底座还包括第二凹槽,所述雾化材料储存设备还包括:
    辅助接脚,所述第二凹槽用于容纳辅助接脚,且所述辅助弹片的另一端连接至所述辅助接脚。
  14. 如权利要求12或13所述的雾化材料储存设备,其特征在于,所述辅助弹片设置于所述雾化材料储存设备中。
  15. 如权利要求12或13所述的雾化材料储存设备,其特征在于,所述辅助弹片设置于所述底座的外表面。
PCT/CN2021/097155 2020-11-30 2021-05-31 电子雾化设备、电子雾化设备主体以及雾化材料储存设备 WO2022110731A1 (zh)

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