WO2023011499A1 - 气雾生成系统及气雾生成装置 - Google Patents

气雾生成系统及气雾生成装置 Download PDF

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Publication number
WO2023011499A1
WO2023011499A1 PCT/CN2022/109781 CN2022109781W WO2023011499A1 WO 2023011499 A1 WO2023011499 A1 WO 2023011499A1 CN 2022109781 W CN2022109781 W CN 2022109781W WO 2023011499 A1 WO2023011499 A1 WO 2023011499A1
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WO
WIPO (PCT)
Prior art keywords
aerosol
generating device
window
heater
aerosol generating
Prior art date
Application number
PCT/CN2022/109781
Other languages
English (en)
French (fr)
Inventor
蒯宿鹏
徐中立
李永海
Original Assignee
深圳市合元科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 深圳市合元科技有限公司 filed Critical 深圳市合元科技有限公司
Publication of WO2023011499A1 publication Critical patent/WO2023011499A1/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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • 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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/46Shape or structure of electric heating means
    • 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
    • A24F40/90Arrangements or methods specially adapted for charging batteries thereof

Definitions

  • the embodiments of the present application relate to the technical field of heat-not-burn smoking appliances, and in particular to an aerosol generating system and an aerosol generating device.
  • Smoking articles eg, cigarettes, cigars, etc.
  • Burn tobacco during use to produce tobacco smoke.
  • Attempts have been made to replace these tobacco-burning products by making products that release compounds without burning them.
  • a heating device which releases a compound by heating rather than burning a material.
  • the material may be tobacco or other non-tobacco products, which may or may not contain nicotine.
  • aerosol delivering articles eg so-called electrically heated smoking devices.
  • An embodiment of the present application provides an aerosol generating device for heating an aerosol generating product to generate an aerosol; including:
  • a heater extending at least partially within the receiving cavity to heat the aerosol-generating article; the heater having a free front end for insertion into the aerosol-generating article;
  • a window at least partially surrounding the heater and avoiding the free front end, so that the heater has a bare portion exposed through the window; whereby a user can perform an operation on the bare portion of the heater through the window clean.
  • the distance between the exposed part of the heater and the free front end is greater than 8 mm; in a specific implementation, the distance between the exposed part of the heater and the free front end is 12 mm.
  • the window has dimensions such that a user's finger is prevented from contacting the heater through the window.
  • the window has an area of 10 mm 2 to 100 mm 2 ; preferably, the window has an area of 30 mm 2 to 80 mm 2 .
  • the window is configured as a strip extending along the width direction of the aerosol generating device.
  • the window has a length dimension and a width dimension, and at least one of the length dimension and width dimension is not greater than 10 mm; preferably, at least one of the length dimension and width dimension is not greater than 6 mm.
  • the length of the window is 10-20 mm; and/or, the width of the window is 3-6 mm.
  • the exposed part of the heater is located outside the receiving chamber.
  • the exposed portion of the heater has a length of about 2-5 mm.
  • it further includes: a fixing seat for holding the heater; the exposed part is close to or ends at the fixing seat.
  • the aerosol generating device comprises a front side and a rear side opposite along the thickness direction;
  • the window is located at least partially on the front and/or rear side.
  • the aerosol generating device includes a left side and a right side opposite along the width direction;
  • the heater is adjacent to the right side and the window is at least partially located on the right side.
  • a door cover movably coupled to the aerosol generating device at a first position and a second position;
  • the door cover covers the window when in the first position, and exposes the window when in the second position.
  • the door cover simultaneously covers the window and the receiving cavity at the first position, and exposes the window and the receiving cavity at the same time at the second position.
  • a bracket at least partially defines the window.
  • the shutter is used to block the window.
  • the shutter is removably combined with the bracket, and blocks the window when coupled to the bracket, and reveals the window when removed from the bracket.
  • the shielding member is configured to be removable from the support along the width direction of the aerosol generating device.
  • the shielding member when the shielding member is combined with the bracket, it is evenly engaged with the outer surface of the bracket.
  • Guide rails for providing guidance when the shutter is coupled to or removed from the bracket.
  • the cover includes:
  • At least one shielding arm extending from the body portion along the width direction of the aerosol generating device, is used to shield the window.
  • the bracket has a concave part, and the main body part is combined with the bracket by being accommodated in the concave part.
  • the bracket is provided with a first magnetic member
  • the main body part is provided with a second magnetic part, so as to be magnetically attracted to the first magnetic part when the shielding part is combined with the bracket.
  • the blocking member is movably combined with the bracket, and is configured to selectively block or reveal the window through movement.
  • the electric core, the extension length along the length direction of the aerosol generating device at least partially coincides with the heater;
  • the cavity is located between the electric core and the heater along the width direction of the aerosol generating device, so as to reduce heat transfer from the heater to the electric core.
  • the support includes: an inner wall at least partially surrounding the heater; and,
  • the cavity is formed between the inner and outer walls of the stent.
  • the bracket is configured to be removable from the aerosol-generating device to substantially fully expose the heater.
  • the receiving chamber is in airflow communication with the window, so that during suction, external air can enter the receiving chamber through the window.
  • an extractor optionally configured from an operating position to an extraction position, for extracting an aerosol-generating article; wherein the aerosol-generating article is in contact with the heater when the extractor is in the operating position, and the extractor is in The aerosol-generating article is separated from the container in the extraction position;
  • the extractor is provided with a third magnetic piece, which is used to magnetically adsorb with the first magnetic piece when in the operating position;
  • the magnetic pole directions of the first magnetic part, the second magnetic part and the third magnetic part are the same.
  • an extractor optionally configured from an operating position to an extraction position, for extracting an aerosol-generating article; wherein the aerosol-generating article is in contact with the heater when the extractor is in the operating position, and the extractor is in The aerosol-generating article is separated from the container in the extraction position;
  • the extractor is at least partially exposed to the window in the operative position.
  • an extractor optionally configured from an operating position to an extraction position, for extracting an aerosol-generating article; wherein the aerosol-generating article is in contact with the heater when the extractor is in the operating position, and the extractor is in The aerosol-generating article is separated from the container in the extraction position;
  • the extractor covers exposed portions of the heater when in the operative position.
  • an aerosol generating device for heating an aerosol generating product to generate an aerosol; comprising:
  • a heater extending at least partially within the receiving cavity to heat the aerosol-generating article; the heater having a free front end for insertion into the aerosol-generating article;
  • a window at least partially surrounding the heater and avoiding the free front end
  • At least part of the heater facing away from the free front end is visible through the window.
  • An aerosol generating device for heating an aerosol generating article to generate an aerosol comprising:
  • a heater extending at least partially within the receiving cavity to heat the aerosol-generating article; the heater having a free front end for insertion into the aerosol-generating article;
  • a window at least partially surrounding the heater and avoiding the free front end; the window being configured, in use, as an air inlet for air into the receiving cavity.
  • Fig. 1 is a schematic diagram of an aerosol generating device provided by an embodiment
  • Fig. 2 is an exploded schematic view of the aerosol generating device from another perspective
  • Fig. 3 is a schematic diagram of an embodiment of an aerosol generating device combined with a product box
  • Fig. 4 is a schematic diagram of an aerosol generating device in another embodiment
  • Fig. 5 is a schematic structural view of an embodiment of the aerosol generating device in Fig. 1;
  • Fig. 6 is a structural schematic diagram of the door cover moving to open the heating assembly in Fig. 5;
  • Fig. 7 is a schematic diagram of the use state of the aerosol generating device in Fig. 6 at a viewing angle
  • Fig. 8 is a structural schematic diagram of a door cover from another perspective
  • Fig. 9 is an exploded schematic diagram of various parts of the aerosol generating device in Fig. 6;
  • Fig. 10 is a schematic cross-sectional view of the aerosol generating device in Fig. 6;
  • Fig. 11 is a schematic diagram of the extractor in Fig. 10 in operation
  • Fig. 12 is a schematic diagram of the extractor in the extraction state in Fig. 11;
  • Fig. 13 is a schematic cross-sectional view of a view angle of the extractor in Fig. 10;
  • Fig. 14 is a schematic diagram of a viewing angle after the extractor in Fig. 6 extracts the aerosol-generating product
  • Fig. 15 is a schematic view of another embodiment of the aerosol generating device in Fig. 1 in use;
  • Fig. 16 is an exploded schematic view of various parts of the aerosol generating device in Fig. 15 at a viewing angle;
  • Fig. 17 is an exploded schematic diagram of various parts of the aerosol generating device in Fig. 15 under another viewing angle;
  • Fig. 18 is a schematic cross-sectional view of the aerosol generating device in Fig. 16;
  • Fig. 19 is a schematic cross-sectional view of another viewing angle of the extractor in Fig. 18;
  • Fig. 20 is a schematic diagram after the shielding member is removed in Fig. 15;
  • Fig. 21 is a schematic diagram of an aerosol generating device provided in another embodiment in an extraction state
  • Fig. 22 is a schematic cross-sectional view of the aerosol generating device in Fig. 21 in operation;
  • Fig. 23 is a schematic cross-sectional view of the aerosol generating device in Fig. 21 in an extraction state
  • Fig. 24 is an enlarged view of part B in Fig. 23 .
  • An embodiment of the present application provides an aerosol generating device for receiving an aerosol generating product to generate an aerosol.
  • the aerosol-generating product is preferably a tobacco-containing material that releases volatile compounds from the matrix when heated; or it can also be a non-tobacco material that is suitable for electric heating and smoking after heating.
  • the aerosol-generating product preferably adopts a solid matrix, which may include one or more of powder, granules, shredded strips, strips or flakes of one or more of vanilla leaves, tobacco leaves, homogeneous tobacco, expanded tobacco; or Alternatively, the solid matrix may contain additional tobacco or non-tobacco volatile flavor compounds to be released when the matrix is heated.
  • the aerosol-generating article comprises a cigarette stick in the shape of an elongated column.
  • the aerosol generating device 100 is configured in a substantially square shape.
  • the aerosol generating device 100 includes:
  • the proximal end 110 and the distal end 120 are opposite along the length direction; according to the requirements of common use, the proximal end 110 is configured as one end for the user to inhale the aerosol, and the aerosol-generating article receives the aerosol at least partially through the proximal end 110 in use generated in the device 100 and heated to generate an aerosol.
  • the aerosol generating device 100 is defined as:
  • the first space 1100 basically extends from the proximal end 110 to the distal end 120; and the first space 1100 is located on one side of the aerosol generating device 100 along the width direction; in use, the first space 1100 is used for accommodating and assembling The space for the electric core 111 for power supply;
  • the second space 1200 is basically located near the far end 120, and is opposite or adjacent to the part of the first space 1100 along the width direction; in use, the second space 1200 is used to accommodate and assemble circuit boards such as PCBs board space;
  • the third space 1300 is basically located near the proximal end 110, and is opposite to the second space 1200 along the length direction, and is opposite or adjacent to the part of the first space 1100 near the proximal end 110 along the width direction; Among them, the third space 1300 is a heated space at least partially defined to receive and heat at least a portion of the aerosol-generating article to generate an aerosol for inhalation.
  • first space 1100, the second space 1200, and the third space 1300 are substantially airtightly sealed from each other to prevent the flow of hot air or aerosol before them.
  • FIG. 3 shows a schematic diagram of an aerosol generating system composed of the aerosol generating device 100 and the product box 200 .
  • the product box 200 such as a cigarette box is usually configured in a square shape; the product box 200 usually has an openable flip cover 300 , and the aerosol contained in the product box 200 can be accessed by opening the flip cover 300 Produce articles such as cigarettes.
  • the aerosol generating device 100 basically has a similar shape and size to the product box 200 such as a cigarette box, which is advantageous for being placed in combination with the product box 200 .
  • Fig. 3 there are several planes on the outer surface of the aerosol generating device 100, and the planes with the largest area are the plane side surfaces on both sides in the thickness direction;
  • the plane side surface of the side is the plane with the largest area.
  • the area or shape of the largest plane on the outer surface of the aerosol generating device 100 and the largest plane on the outer surface of the product box 200 are substantially the same or close to each other.
  • the area or shape of any side surface of the aerosol generating device 100 along the thickness direction is substantially the same or close to the area or shape of any side surface of the product box 200 along the thickness direction.
  • the side surface of the aerosol generating device 100 in contact with or combined with the product box 200 is square; and any other side surface of the aerosol generating device 100 adjacent to the side surface contacting the product box 200 is square;
  • the side surfaces of the aerosol generating device 100 along the length direction or along the width direction are all square.
  • the aerosol generating device 100 when the aerosol generating device 100 is combined with the product box 200 along the thickness direction, the side surface of the aerosol generating device 100 away from the product box 200 along the thickness direction, and the product box 200 is away from the side surface of the aerosol generating device 100.
  • the side surfaces are bare.
  • the user can hold the side surface of the mist generating device 100 facing away from the product box 200 along the thickness direction and the side surface of the product box 200 facing away from the aerosol generating device 100 at the same time with the aerosol generating device 100 and the product box 200 by fingers. Hold; thus it is advantageous for portability.
  • the aerosol generating device 100 and the product box 200 basically have similar shapes and sizes.
  • the product box 200 has a length dimension of approximately 70-80 mm, a width dimension of approximately 40-50 mm, and a thickness dimension of approximately 10-20 mm.
  • the corresponding aerosol generating device 100 may have a length L of about 70-80 mm, a width W of about 40-50 mm, and a thickness H of about 9.5-20 mm.
  • the surfaces on both sides of the aerosol generating device 100 along the thickness direction are planes with the largest area, and the area is about 2800 mm 2 -4000 mm 2 .
  • the extension length/thickness of the first space 1100 is substantially close to the length L/thickness H of the aerosol generating device 100 .
  • the width of the first space 1100 is between 1/3-2/3 of the width W of the aerosol generating device 100 ; more preferably, the width of the first space 1100 is substantially close to 1/2 of the width W of the aerosol generating device 100 .
  • the first space 1100 also has a length dimension of about 60-65 mm, a width dimension of about 15-25 mm, and a thickness dimension of about 5-10 mm.
  • the cells 111 accommodated or assembled in the first space 1100 are configured in a substantially square shape.
  • the volume or shape of the battery cell 111 is substantially the same as or close to that of the first space 1100 .
  • the cell 111 has a length of about 60-65 mm, a width of about 15-25 mm, and a thickness of about 5-10 mm.
  • the second space 1200 has a length of about 35-50 mm, a width of 15-25 mm, and a thickness of about 5-10 mm.
  • the third space 1300 has a length of about 25mm-40mm, a width of 15-25mm, and a thickness of about 5-10mm.
  • the width of the second space 1200 and/or the third space 1300 is between 1/3-2/3 of the width W of the aerosol generating device 100; more preferably, the second space 1200 and/or the third space The width of the space 1300 is substantially close to 1/2 of the width W of the aerosol generating device 100 .
  • the thickness of the second space 1200 and/or the third space 1300 is basically close to the thickness H of the aerosol generating device 100 .
  • the extension length of the second space 1200 is greater than the extension length of the third space 1300 . In still some implementations, the extension length of the second space 1200 is between 1/2 ⁇ 2/3 of the length of the aerosol generating device 100 . In still some implementations, the extension length of the third space 1300 is between 1/3 ⁇ 1/2 of the length of the aerosol generating device 100 .
  • the aerosol generating device 100 is provided with a wireless charging coil 1400 close to at least one side in the thickness direction; the wireless charging coil 1400 can be used to communicate with an external wireless charging device coupling, and then receive the electromagnetic energy of the wireless charging device to generate a charging current to charge the battery cell 111 .
  • the wireless charging coil 1400 for wirelessly charging the battery cell 111 is a planar spiral coil.
  • the wireless charging coil 1400 is a generally square planar helical coil, as shown in FIG. 4 .
  • the wireless charging coil 1400 may also be configured as a circular planar spiral coil.
  • the wireless charging coil 1400 is made of wire material with a circular or rectangular cross-section; such wire material is, for example, common copper wire, nickel wire, and the like.
  • the planar spiral coil of the wireless charging coil 1400 is in the form of a deposited, printed, etched coating, track or line; for example, the wireless charging coil 1400 is made of a conductive material by printing on a substrate , deposition, etc. to form a coating or a planar spiral coil of a circuit.
  • the planar helical coil of the wireless charging coil 1400 is in the form of a planar helical coil formed by etching or cutting a sheet-shaped metal conductive substrate.
  • the aerosol generating device 100 includes:
  • the main housing 10, the main housing 10 is mainly used as the housing part of the aerosol generating device 100, and then defines the above first space 1100, the second space 1200 and the third space 1300 inside; therefore, in practice, the main housing 10 roughly has the shape and size requirements of the aerosol generating device 100 described above.
  • the door cover 20 is located at the proximal end 110 of the main housing 10 and/or the aerosol generating device 100, and is configured to be movable relative to the main housing 10 in practice; of course, according to the preferred implementation shown in FIGS. 5 and 6
  • the movement of the door cover 20 relative to the main housing 10 is sliding along the width direction of the main housing 10, as shown by arrow R1 in FIG.
  • the movement of the body 10 may be in the form of rotation around a certain axis.
  • the movement design of the door cover 20 has an open position and a closed position.
  • the door cover 20 is in the closed position, such as shown in FIG. 5
  • the door cover 20 forms a shield or seal to the third space 1300, and the aerosol generating device 100 is locked and cannot be used at this time; the door cover 20 is in the open position.
  • the third space 1300 is exposed, and then the user can receive the aerosol generating product A into the aerosol generating device 100 for inhalation and clean the third space 1300 .
  • the main housing 10 is provided with a guide groove 11 for guiding the movement of the door cover 20 .
  • the guide groove 11 is provided on the side surface of the main casing 10 along the thickness direction; and the guide groove 11 is configured as an elongated groove extending along the width direction of the main casing 10 .
  • the door cover 20 at least partially extends into the guide groove 11 , thereby cooperating with the guide groove 11 to form a guide during the moving process; and, the end positions at both ends of the guide groove 11 are used to limit the movement of the door cover 20 .
  • the guide groove 11 has a length of approximately 30-40 mm.
  • the door cover 20 includes:
  • the first shielding wall 210 is substantially parallel to the upper side of the main housing 10; in the closed position, it shields or closes the third space 1300 at the proximal end 110;
  • the second shielding wall 220 and the third shielding wall 230 extend along the length direction of the main housing 10 , and the second shielding wall 220 and the third shielding wall 230 are connected to the first shielding wall 210 at the proximal end 110 .
  • the second shielding wall 220 and the third shielding wall 230 are respectively arranged to be located on both sides in the thickness direction of the main casing 10; Both sides of the direction shield or close the third space 1300 .
  • a first hook 221 is provided at the end of the second shielding wall 220 away from the first shielding wall 210, and/or a second hook 231 is provided at the end of the third shielding wall 230 away from the first shielding wall 210;
  • the first hook 221 and/or the second hook 231 at least partly protrude into the guide groove 11, and at the same time cooperate to provide guidance, and keep connected with the main housing 10, so as to prevent the first hook 221 and /or the second hook 231 disengages from the guide groove 11 to cause the door cover 20 to fall off from the main casing 10 .
  • the first shielding wall 210 and/or the second shielding wall 220 and/or the third shielding wall 230 are in the shape of a rectangle.
  • the first shielding wall 210 has a length dimension of about 15-25 mm and a width dimension of about 5-10 mm.
  • the second shielding wall 220 and/or the third shielding wall 230 has a length dimension of about 28mm ⁇ 40mm, and a width dimension of about 15 ⁇ 25mm.
  • the door cover 20 is made of a material with high thermal conductivity, such as a metal material, which is beneficial for promoting heat dissipation of the heating components in the third space 1300 and transferring heat to other parts evenly.
  • the aerosol generating device 100 includes:
  • a receiving hole 41 located at the proximal end 110 , through which the aerosol-generating article A can be at least partially received in the aerosol-generating device 100 .
  • receiving aperture 41 is delimited by extractor 40 .
  • the receiving hole 41 can also be defined by the main casing 10 or the bracket 30 .
  • the aerosol generating device 100 includes:
  • the receiving cavity 430 is also bounded by the extractor 40 .
  • the receiving chamber 430 can also be defined by the main casing 10, or the bracket 30, and the like.
  • the aerosol generating device 100 includes:
  • the heater 50 is configured in the shape of a pin, a needle or a sheet, etc., such as the needle shown in FIG. Into the aerosol generating product A to heat.
  • the pin or needle-shaped heater 50 has a length dimension of about 12-19 mm, and an outer diameter dimension of about 2-5 mm.
  • the sheet-shaped heater 50 may have a length dimension of about 12-19 mm, a width dimension of about 3-6 mm, and a thickness dimension of about 0.4-1 mm.
  • the heater 50 extends at least partially within the receiving chamber 430 , thereby being advantageous for insertion into the aerosol-generating article A for heating.
  • the heater 50 can also be configured into a cylindrical shape; when in use, its inner space is defined to form a receiving chamber 430 for receiving the aerosol generating product A, and through the aerosol generating The manner in which the periphery of product A is heated generates an aerosol.
  • the heater 50 is a resistive heater; or in some implementations, the heater 50 is a susceptor that is penetrated by a magnetic field to generate heat.
  • the aerosol generating device 100 includes:
  • the bracket 30 is used to support the extractor 40 in practice. Meanwhile, the bracket 30 is also configured to surround or cover to protect the heater 50 . specific:
  • the bracket 30 is detachably disposed in the third space 1300 , and when the extractor 40 is connected to the aerosol generating device 100 , it is supported or held by the bracket 30 .
  • the bracket 30 at least partially surrounds or covers the heater 50, at least preventing the heater 50 from being completely exposed to the third space 1300, which is beneficial to prevent the user from touching or touching.
  • bracket 30 generally has a square shape.
  • the specific bracket 30 has a length dimension of approximately 25-40 mm, a width dimension of 15-25 mm, and a thickness dimension of approximately 5-10 mm.
  • the extractor 40 includes:
  • a cylindrical receiving portion 420 the inner space of which is configured as a receiving cavity 430 for receiving an aerosol-generating article A;
  • An operation part 410 that a user moves or removes the extractor 40 to extract the aerosol generating article A by operating the operation part 410 with a finger or the like in use.
  • the operating part 410 is connected to the main housing 10 , so that the extractor 40 is stably held on the aerosol generating device 100 .
  • the operating part 410 can be directly or indirectly connected to the main housing 10 .
  • the operating part 410 is fixed and held in the aerosol generating device 100 by abutting against and connecting to the upper end of the bracket 30 .
  • the extractor 40 can be moved or removed relative to the main housing 10, so as to assume a relative operating position and an extracting position. specific:
  • FIG. 11 shows a schematic view of the extractor 40 in an operative position in one embodiment.
  • the aerosol-generating article A is received in the receiving portion 420 and is provided by the support wall 421 of the receiving portion 420.
  • Support; the heater 50 penetrates at least partly through the supporting wall 421 into the receiving chamber 430 defined by the receiving portion 420 , thereby heating the aerosol generating product A.
  • the operating position is basically an operating position formed by inserting the heater 50 into the aerosol-generating article A.
  • the extractor 40 remains connected to the main housing 10 .
  • FIG. 12 shows a schematic diagram of the extractor 40 in an extracting position in one embodiment.
  • the extracting position it is used to operate the extractor 40 through the movement or removal along the length direction relative to the main housing 10 through the operation part 410.
  • the aerosol generating product A is separated from the heater 50 under the support of the supporting wall 421 to be removed.
  • the extraction location is formed by the separation of the aerosol-generating article A from the heater 50 .
  • the extractor 40 is also directly or indirectly connected to the main housing 10 at the extracting position, which is beneficial to prevent the extractor 40 from detaching from the aerosol generating device 100 .
  • the extractor 40 is not directly or indirectly connected to the main housing 10 at the extraction position, then the extractor 40 is separated from the main housing 10 and/or the bracket 30 at the extraction position, and then It is advantageous to facilitate removal or disengagement directly from within the aerosol-generating device 100 .
  • the aerosol-generating article A has a length of about 40-80 mm; and an outer diameter of about 4-8 mm.
  • the receiving portion 420 of the extractor 40 has a length of approximately 15-40 mm; and the receiving portion 420 has an inner diameter of approximately 4-8 mm.
  • the extractor 40 also includes:
  • the first hole 422 is located on the support wall 421, and the inner diameter is basically adapted to the heater 50 and slightly larger, so that the heater 50 can pass through the first hole 422 and be inserted into the receiving part 420;
  • the first hole 422 is circular and has an inner diameter of about 3 to 6 mm.
  • the second hole 423 is located on the support wall 421 , and is used for external air to enter the aerosol generating product A through the second hole 423 during the suction process, as shown by the arrow R2 in FIG. 13 .
  • the second hole 423 has an inner diameter of approximately 1-2 mm. Meanwhile, there may be several second holes 423 arranged around the first holes 422 .
  • the structure of the bracket 30 includes:
  • the left side wall 310 and the right side wall 320 facing away from each other along the width direction; in assembly, the left side wall 310 is a side wall adjacent to the first space 1100, and is connected to the main housing 10 in a detachable manner such as buckle;
  • the right side wall 320 is at least partially exposed outside the aerosol generating device 100 after assembly, and at least partially defines the outer surface of the aerosol generating device 100 along the width direction;
  • a third hole 33 is formed on the lower end wall 350, and the heater 50 passes through the third hole 33 into the bracket 30 from below along the length direction during assembly;
  • the front side wall 330 and the rear side wall 340 facing each other along the thickness direction are provided with a window 32 at a position where the front side wall 330 and the rear side wall 340 are close to the lower end wall 350 .
  • the front side wall 330 and the rear side wall 340 are not connected or contact the lower end wall 350 .
  • the window 32 is defined by the spacing between the front side wall 330 and/or the rear side wall 340 and the lower end wall 350 .
  • the window 32 is directly communicated with the outside air, then the second hole 423 of the extractor 40 can be communicated with the outside air through the window 32; then in the suction process, the outside air directly enters the second hole through the window 32 423, and then into the receiving cavity 430, the aerosol generated by the aerosol generating product A is sucked by the user together, as shown by the arrow R2 in FIG. 10 .
  • the free front end of the heater 50 penetrates into the bracket 30 ; the end of the heater 50 away from the free front end is fixed in the main casing 10 . Further according to the embodiment shown in the figures, the end of the heater 50 facing away from the free front end is surrounded and fixed by the fixing seat 52 .
  • the heater 50 has an exposed portion 51 exposed to the window 32; of course, the exposed portion 51 has a length of approximately 2-5 mm.
  • the exposed portion 51 of the heater 50 is visible through the window 32 .
  • the exposed portion 51 is defined by the size or position of the window 32 .
  • the fixing seat 52 is covered by the lower end wall 350 of the bracket 30, and the exposed part 51 of the heater 50 is completely defined by the bracket 30; 330 and/or the portion between the rear side wall 340 and the lower end wall 350.
  • the exposed portion 51 is close to the end of the fixing seat 52 and/or the heater 50 .
  • the distance d4 between the exposed portion 51 of the heater 50 and the free front end is about 12 mm.
  • This bare part 51 is away from the free front end, and it is difficult for cleaning implements to clean the bare part 51 directly from the receiving hole 41 of the extractor 40 .
  • the distance d4 between the exposed portion 51 of the heater 50 and the free front end is greater than 8 mm.
  • the window 32 has a suitable area, and some cleaning tools can be inserted into the window 32 to clean the exposed part 51 of the heater 50 during use.
  • the cleaning utensils are, for example, small brushes, or steel wire strips, or scrapers, and the like.
  • the window 32 must have a suitable area to provide the required size for the cleaning implement to penetrate, but must also prevent the user's fingers from reaching in so as not to be burned by the heater 50 .
  • the window 32 has an area greater than 10 mm 2 , and an area less than 100 mm 2 . In a more preferred implementation, the window 32 has an area greater than 30 mm 2 to less than 80 mm 2 .
  • the window 32 is substantially square in shape.
  • the window 32 is elongated in the width direction of the bracket 30 .
  • the length d1 of the window 32 extending along the width direction of the bracket 30 is about 10-20 mm; and the width d2 of the window 32 extending along the length direction of the bracket 30 is about 3-6 mm.
  • the length dimension d1 of the window 32 is 17 mm; and the width dimension d2 of the window 32 is about 4.2 mm.
  • At least one of the length d1 and the width d2 of the window 32 should not be greater than 10 mm, which is beneficial for preventing the user's fingers from entering. In a more preferred implementation, at least one of the length d1 and the width d2 of the window 32 should not be larger than 6 mm.
  • the length of the exposed portion 51 of the heater 50 is basically 3-6 mm. In a preferred implementation, the length of the heater 50 penetrating into the receiving portion 420 of the extractor 40 is about 10-18 mm. In a preferred implementation, the length of the exposed portion 51 of the heater 50 does not exceed 1/3 of the total length of the heater 50 .
  • the bracket 30 in order to facilitate the guide of the extractor 40 during assembly, movement or removal with the bracket 30 ; the bracket 30 also has a first inner wall 360 and a second inner wall 370 .
  • the first inner wall 360 and the second inner wall 370 are configured in an arc shape, and the first inner wall 360 and the second inner wall 370 are opposite.
  • the first inner wall 360 and the second inner wall 370 are curved outward along the width direction in an arc shape, thereby defining a guiding accommodation space 31 between them.
  • the shape of the accommodating space 31 is basically the same as that of the receiving portion 420 of the extractor 40, and the size and volume of the accommodating space 31 is slightly larger than that of the receiving portion 420.
  • the first inner wall 360 and the second inner wall 370 provide guidance.
  • the accommodating space 31 between the first inner wall 360 and the second inner wall 370 is configured to receive the aerosol generating product A The receiving chamber 430.
  • the door cover 20 covers or closes the window 32 in the closed position; and, the door cover 20 opens or reveals the window 32 a in the open position.
  • the first adiabatic cavity 34 and/or the second adiabatic cavity 35 are empty and open, and then communicated with the outside air, thereby forming thermal insulation through the low thermal conductivity of the air; the first adiabatic cavity
  • the cavity 34 prevents the heat of the heater 50 from being transmitted radially outward to the electric core 111 of the first space 1100; and/or the second adiabatic cavity 35 prevents the heat of the heater 50 from being transmitted radially outward to the right side wall 320 on.
  • the first heat-insulating chamber 34 and/or the second heat-insulating chamber 35 are closed chambers, and their internal pressure can be configured to be lower than the external pressure, that is, the first heat-insulating chamber 34 and/or The second adiabatic cavity 35 has a vacuum degree; it is favorable for preventing heat transfer.
  • the inside of the first heat insulating chamber 34 and/or the second heat insulating chamber 35 is filled with some heat insulating materials, such as aerogel, porous polymer, porous polyurethane, foam cotton, etc.; is favorable.
  • the receiving portion 420 of the extractor 40 is at least partially exposed to the window 32 .
  • a circuit board 12 for controlling the operation of the aerosol generating device 100 is installed in the second space 1200 of the aerosol generating device 100; It is electrically connected with the circuit board 12, and then the electric core 111 is charged after being connected with an external power supply device.
  • the cleaning of debris or aerosol condensate dropped from the aerosol generating product A may include:
  • the inner wall of the receiving part 420 and part of the surface of the heater 50 can be cleaned by extending into the receiving hole 41 through a tool such as a brush;
  • bracket 30 Further remove the bracket 30 from the main casing 10, as shown in FIG. 9 , so that the heater 50 is basically completely exposed, and then the surface of the heater 50 can be thoroughly and completely cleaned by a cleaning tool.
  • Fig. 15 to Fig. 18 show a schematic structural diagram of another embodiment of the aerosol generating device 100; in this implementation, the aerosol generating device 100 includes:
  • the door cover 20a is located at the proximal end 110a of the main housing 10a, and can move between an open position and a closed position relative to the main housing 10a; for example, it can move or rotate along the width direction of the main housing 10a.
  • the aerosol generating device 100 also includes a stop protrusion 17a located between the main housing 10a and the door cover 20a; during assembly, the stop protrusion 17a is located at the proximal end 110a of the main housing 10a , and is at least partially protruding relative to the main housing 10a.
  • the limiting protrusion 17a is used to provide a limit between the open position and the closed position of the door cover 20a.
  • the door cover 20a covers or hides the position-limiting protrusion 17a at any position of the movement. The limiting protrusion 17a is not exposed on the surface of the aerosol generating device 100 at any moving position of the door cover 20a.
  • the aerosol generating device 100 also includes:
  • the bracket 30a is at least partly bounded by a window 32a with the main casing 10a; the heater 50a is at least partly exposed in the window 32a;
  • the extractor 40a is supported and held by the support 30a; in use, the extractor 40a is used to extract the aerosol-generating article A received in the aerosol-generating device 100a.
  • the extractor 40a in order to facilitate the stable connection between the extractor 40a and the bracket 30a at the operating position, the extractor 40a is provided with a locking protrusion 43a; the locking protrusion 43a is used to engage the extractor 40a with the bracket 30a at the operating position way to form a connection.
  • the locking protrusion 43a there are several locking protrusions 43a, and they are configured in the form of ribs on the outer surface of the receiving portion 420a of the extractor 40a.
  • the extractor 40a extracts the aerosol-generating product A by directly removing it from the holder 30a along the length direction, as shown by the arrow R3 in FIG. 16 .
  • the bracket 30a is provided with a first connection hole 15a and/or a second connection hole 16a , and of course the first connection hole 15a is arranged adjacent to the first space 1100 .
  • connecting components such as screws/bolts/screws are installed in the first connecting hole 15a and/or the second connecting hole 16a to connect the bracket 30a to the main housing 10a.
  • the first connecting hole 15 a is arranged adjacent to the proximal end 110 a ; the second connecting hole 16 a is arranged adjacent to the second space 1200 .
  • the first connection hole 15a is covered or hidden by the extractor 40a. Specifically, the first connecting hole 15a is covered by the operating portion 41a of the extractor 40a. And after the extractor 40a is removed, the first connecting hole 15a is exposed, at this time, the user can disassemble the connecting parts such as screws/bolts/screws located in the first connecting hole 15a through a screwdriver and other utensils; and then release the bracket 30a
  • the connection with the main case 10a is such that the bracket 30a can be detached from the main case 10a.
  • the second connection hole 16a is exposed to the window 32a; or, the second connection hole 16a is visible through the window 32a; then the user can insert a screwdriver into the second connection hole 16a through the window 32a to make screws/bolts/ Screws and other connecting parts are removed.
  • the aerosol generating device 100 of this example further includes:
  • the shutter 60a is used to block or cover or close the window 32a; and when the window 32a does not need to be opened for suction, safety protection, etc., the shutter 60a is used to block or cover or close the window 32a.
  • the window 32a can be opened by moving or removing the shutter 60a .
  • the shutter 60a is removably combined with the bracket 30a to shield or cover or close the window 32a.
  • the shutter 60a When the shutter 60a is combined with the bracket 30a, it can shield or cover or close the window 32a. And when the shutter 60a is removed from the bracket 30a, the window 32a is opened.
  • the shutter 60a is coupled to the bracket 30a along the width direction of the main housing 10a, or is removed from the bracket 30a along the width direction of the main housing 10a.
  • the main housing 10a is also provided with a guide rail 14a extending in the width direction; the corresponding shielding member 60a is provided with a guide groove 65a, thereby providing a guide rail 65a when the shielding member 60a is combined with the bracket 30a or removed. guide.
  • the window 32a is open at the front and rear sides along the thickness direction of the main casing 10a and the right side away from the first space 1100 in the width direction.
  • the length d11 is 20 mm; and the width d12 is 6 mm.
  • window 32a is at least partially bounded by bracket 30a. Specifically, it is defined by the space between the bracket 30a and the main casing 10a along the length direction.
  • the bracket 30a also defines at least a part of accommodating space 31a for accommodating the extractor 40a.
  • the accommodating space 31a extends along the length direction, and its shape is basically the same as the receiving portion 420a of the extractor 40a.
  • the volume of the accommodating space 31a is slightly larger than that of the receiving portion 420a.
  • the receiving cavity for receiving the aerosol-generating article A is defined by the receiving portion 420a of the extractor 40a in the above implementation. And when there is no part of the extractor 40a, the receiving space 31a can be mainly used as a receiving cavity for receiving the aerosol generating article A.
  • the bracket 30a has a protruding portion 34a protruding away from the first space 1100 along the width direction, and a concave portion 33a is defined between the protruding portion 34a and other parts of the bracket 30a .
  • the convex portion 34a is located at the proximal end 110a, so that the concave portion 33a is formed adjacent to the window 32a.
  • the receiving space 31a avoids the protruding portion 34a.
  • the shielding member 60a includes a main body portion 61a extending along the length direction, and a first shielding arm 62a and a second shielding arm 63a substantially extending from both sides of the thickness of the main body portion 61a along the width direction.
  • the first shielding arm 62a and the second shielding arm 63a respectively shield, shield or close the window 32a from opposite sides in the thickness direction.
  • the main body portion 61a covers, shades or closes the window 32a from the right side in the width direction.
  • the main body portion 61a is accommodated and held in the recessed portion 33a; and the surface of the shutter 60a is flatly engaged with the bracket 30a.
  • the guide groove 65a is formed on the first shielding arm 62a and/or the second shielding arm 63a.
  • the bracket 30a is further provided with a first magnetic member 36a; of course, in a preferred implementation, the first magnetic member 36a is arranged in the protruding portion 34a.
  • a second magnetic piece 64a is also provided on the shielding member 60a for magnetically adsorbing to the first magnetic member 36a when combined with the bracket 30a to shield the window 32a, so that the shielding member 60a is stably held on the bracket 60a.
  • the second magnetic member 64a is accommodated on the main body portion 61a of the shielding member 60a.
  • the extractor 40a is provided with a third magnetic piece 45a, which is used to magnetically adsorb to the first magnetic piece 36a in the operating position, so as to keep the extractor 40a stably on the support 60a.
  • the magnetic pole arrangement directions of the first magnetic member 36a, the second magnetic member 64a and the second magnetic member 45a are the same.
  • the first magnetic member 36a has a first magnetic pole, such as an N pole, facing the proximal end 110a, and a second magnetic pole, such as an S pole, facing the distal end 120a.
  • the second magnetic member 64a also has a first magnetic pole, such as an N pole, facing the proximal end 110a, and a second magnetic pole, such as an S pole, facing the distal end 120a.
  • the third magnetic member 45 a also has a first magnetic pole such as an N pole facing the proximal end 110 a and a second magnetic pole such as an S pole facing the distal end 120 a.
  • the adsorption of the first magnetic member 36a can be magnetically adsorbed to the second magnetic member 64a and the second magnetic member 45a located on the upper and lower sides at the same time.
  • the receiving portion 420a of the extractor 40a has a relatively longer length. Further, after assembly, the receiving portion 420a of the extractor 40a completely covers the heater 50a, so that the heater 50a is not visible when the extractor 40a is coupled to the bracket 30a. In a specific implementation, the front end of the receiving portion 420a is made to abut against the upper surface 521a of the fixing seat 52a facing the proximal end 110a.
  • a first air port 46a for the air from the window 32a to enter the extractor 40a is provided at the front end of the receiving portion 420a of the extractor 40a for supplying air into the receiving portion 420a.
  • the receiving portion 420a has a support wall 421a therein for providing support for the aerosol-generating article A.
  • the extractor 40a also has an extension wall 424a extending from the receiving portion 420a, and the extension wall 424a abuts against the upper surface 521a of the fixing seat 52a during assembly.
  • the extension wall 424a can cover the exposed part 51a of the heater 50a exposed to the window 32a; Form a certain space to block or keep the aerosol seeping or leaking from the first hole 422a and/or the second hole 423a, for preventing the aerosol from seeping or leaking from the first hole 422a and/or the second hole 423a It is advantageous to be seen by the user.
  • the extension wall 424a is to open the bare part 51a of the heater 50a, and then the user can use a cleaning tool to clean the heater through the window 32a. The exposed portion 51a of 50a is cleaned.
  • the first air port 46a is formed on the extension wall 424a.
  • the exposed portion 51a of the heater 50a is defined by the bracket 30a and the fixing base 52a which fixes the end of the heater 50a.
  • the exposed portion 51a is defined by the portion of the heater 50a located between the bracket 30a and the fixing seat 52a.
  • the exposed portion 51a is near the end of the fixing base 52a and/or the heater 50a.
  • the distance between the exposed portion 51a of the heater 50a and the free front end is about 12 mm. This bare part 51a is away from the free front end, and it is difficult for cleaning implements to clean the bare part 51a directly from the receiving hole 41a of the extractor 40a.
  • the supporting wall 421a is provided with a first hole 422a through which the heater 50a penetrates into the aerosol generating product A; and a second hole 423a through which air enters the aerosol generating product A.
  • the flow of the airflow refers to the arrow R2 shown in FIGS.
  • the air from the window 32a enters the first air port 46a in the extractor 40a into the receiving portion 420a of the extractor 40a, and is sucked into the aerosol-generating article A through the second hole 423a until it is sucked.
  • the airflow channel includes an air inlet portion extending radially toward the heater 50a, and an air outlet portion extending in the receiving cavity toward the proximal end 110a along the length direction.
  • the air intake part passes through the first air port 46a for the air from the window 32a to enter the extractor 40a, and the air outlet part passes through the second hole 423a.
  • the distance d3 between the supporting wall 421 a and the front end of the receiving portion 420 a is about 3-5 mm.
  • the shutter 60a opens or blocks the window 32a by moving or rotating at different positions on the bracket 30a.
  • the shutter 60a is configured to move along the lengthwise direction on the bracket 30a, and then block the window 32a when moving close to the second space 1200 , and at least partially open the window 32a when moving away from the second space 1200 .
  • the shielding member 60a may also be along the width direction.
  • the bracket 30a also defines a first heat-insulating cavity 34b; in terms of arrangement, the first heat-insulating cavity 34b is located between the receiving cavity for receiving the aerosol generating product A and the first space 1100 along the width direction, for It is beneficial to prevent the heat of the heater 50 a from being transferred to the battery cells 111 in the first space 1100 .
  • the first heat-insulating chamber 34b is a closed space, and its interior can be filled with air, so as to utilize the low heat conduction of air to form heat insulation.
  • the first heat insulating chamber 34b is vacuumed to make its pressure lower than the external pressure, so as to form heat insulation.
  • the first heat insulation cavity 34b is filled with porous body, foam, aerogel, etc. to improve heat insulation.
  • the cleaning of debris or aerosol condensate dropped from the aerosol generating product A may include:
  • the inner wall of the receiving part 420a and part of the surface of the heater 50a can be cleaned by extending into the receiving hole 41a through an appliance such as a brush;
  • Figures 21 to 24 present a schematic diagram of an aerosol-generating device 100b according to yet another embodiment; in this implementation, the aerosol-generating device 100b is configured in a generally elongated cylindrical shape with a diameter of about 90-110 mm. The length dimension, and the outer diameter dimension of about 15-20mm.
  • the aerosol generating device 100b also includes a proximal end 110b and a distal end 120b opposite along the length direction; and:
  • the first shell 10b is also provided with a second shell 15b adjacent to the proximal end 110b;
  • the extractor 40b located at the proximal end 110b is used to extract the aerosol-generating article A; in this preferred implementation, the extractor 40b extracts the aerosol-generating article A by being directly removed from the second housing 10b.
  • the first housing 10b is also provided with a second housing 15b adjacent to the adjacent end 110b; correspondingly, the extractor 40b includes an annular operating portion 410b, and is located in the operating portion 410b.
  • the cylindrical receiving portion 420b In practice, the user can apply force to the operation part 410b with fingers to perform extraction operation; and the aerosol generating article A is removably received in the receiving part 420b through the receiving hole 41b defined by the operation part 410b.
  • the operating part 410b is arranged around the second housing 15b; in the operating state, the operating part 410b abuts against the end of the second housing 15b toward the proximal end 110b, and is then stably held on the second housing 15b; And the outer surface of the second housing 15b is also used to provide guidance during the extraction operation of the extractor 40b by the user.
  • the receiving part 420b has a supporting wall 421b for supporting the aerosol generating product A; the supporting wall 421b is provided with a first hole 422b for the receptor 50b to penetrate into the receiving part 420b so as to facilitate Inserted into the aerosol-generating article A; the supporting wall 421b is also provided with a second hole 423b for supplying air into the aerosol-generating article A of the receiving part 420b.
  • the second casing 15b is provided with:
  • the bracket 20b is generally in the shape of a tube extending along the length direction of the second housing 15b; and the bracket 20b is basically arranged coaxially with the second housing 15b, and is located in the second housing 15b; a space 210b in which the receiving portion 420b of the extractor 40b is received in use to form the operating state of the heatable aerosol-generating article A;
  • a magnetic field generator such as an induction coil 30b surrounding the support 20b, is used to generate a changing magnetic field
  • the susceptor 50b is configured to generate heat when the changing magnetic field penetrates to heat the aerosol-generating product A; the susceptor 50b is preferably configured in the shape of a pin, needle or sheet extending at least partially in the axial direction of the containing space 210b, for Insertion into the aerosol-generating article A is advantageous when the extractor 40b is received in the receiving space 210b.
  • the free front end of the susceptor 50b is located in the accommodation space 210b, and the end relative to the free front end 50b is held by the fixing seat 70b.
  • the fixing seat 70b includes a first fixing seat 71b and a second fixing seat 72b arranged sequentially from inside to outside along the radial direction of the susceptor 50b;
  • the fixing seat 72b is preferably made of an organic polymer with low thermal conductivity such as PEEK.
  • the second housing 15b is provided with a first air inlet 151b; in terms of specific position arrangement, the first air inlet 151b is located The position where the housing 15b is adjacent to the first housing 10b is also adjacent to the portion where the operating portion 410b of the extractor 40b engages with the first housing 10b. After assembly, when the operation part 410b is held in the second housing 15b, it covers the first air inlet 151b, and can reveal the first air inlet 151b when the aerosol generating product A is extracted by removing/moving etc. to the extraction position. Air port 151b.
  • the operating portion 410b of the extractor 40b has a joint gap of about 2 mm with the first housing 10b, and the first air inlet 151b is opposite to the gap and communicated with the gas flow. Then, during the suction process, external air enters the first air inlet 151b through the joint gap between the operation part 410b and the first housing 10b.
  • the bracket 20b also has an inner bottom wall 221b defining the receiving space 210b; the inner bottom wall 221b has a distance or gap of about 1-3mm from the fixing seat 70b of the susceptor 50b, and the inner bottom wall 221b also has a second air port 222b.
  • the second air port 222b is opposite to the second hole 423b on the extractor 40b.
  • the external air enters the first air inlet 151b through the gap between the operation part 410b and the first housing 10b as indicated by the arrow R2 in the figure, and then passes through the first air inlet 151b along the radial direction.
  • the direction flows to the second air port 222b through the gap between the bottom wall 221b and the fixing seat 70b, and finally passes through the second hole 423b on the extractor 40b from the second air port 222b to enter the aerosol generating product A and then is sucked.
  • the airflow path includes an air inlet part extending from the first air inlet 151b to the second air inlet 222b substantially along the radial direction of the susceptor 50b;
  • the outlet part of 110b Basically, the inlet section and the outlet section are substantially vertical.
  • the air outlet part passes through the receiving space 210b and/or the receiving part 420b of the extractor 40b.
  • the second fixing seat 72b has a protrusion 721b extending to the first air inlet 151b, through which the protrusion 721b is connected to the second housing in the first air inlet 151b.
  • the body 15b forms a holder; when it needs to be disassembled, the protrusion 721b can be pressed to disengage from the first air inlet 151b, so that the second housing 15b can be disassembled or removed from the first housing 10b.

Abstract

本申请提出一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;气雾生成装置包括:接收腔,用于接收气溶胶生成制品;加热器,至少部分于接收腔内延伸,以加热气溶胶生成制品;加热器具有用于插入至气溶胶生成制品的自由前端;窗口,至少部分围绕加热器并避开自由前端,以使加热器具有显露于窗口的裸露部分;由此用户可通过窗口对加热器的裸露部分进行清洁。以上气雾生成装置,在使用中通过窗口对加热器背离自由前端的部分进行清洁是有利的。

Description

气雾生成系统及气雾生成装置
相关申请的交叉引用
本申请要求2021年08月02日向中国国家知识产权局递交的申请号为202110881136.8,名称为“气雾生成系统及气雾生成装置”的在先申请的优先权,上述在先申请的内容以引入的方式并入本文本中。
技术领域
本申请实施例涉及加热不燃烧烟具技术领域,尤其涉及一种气雾生成系统及气雾生成装置。
背景技术
烟制品(例如,香烟、雪茄等)在使用过程中燃烧烟草以产生烟草烟雾。人们试图通过制造在不燃烧的情况下释放化合物的产品来替代这些燃烧烟草的制品。
此类产品的示例为加热装置,其通过加热而不是燃烧材料来释放化合物。例如,该材料可为烟草或其他非烟草产品,这些非烟草产品可包含或可不包含尼古丁。作为另一示例,存在有气溶胶提供制品,例如,所谓的电加热吸烟装置。
发明内容
本申请实施例提供一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;包括:
接收腔,用于接收气溶胶生成制品;
加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
窗口,至少部分围绕所述加热器并避开所述自由前端,以使所述加热器具有显露于所述窗口的裸露部分;由此用户可通过所述窗口对所述加热器的裸露部分进行清洁。
在优选的实施中,所述加热器的裸露部分与自由前端的距离大于8mm;在一个具体的实施中,所述加热器的裸露部分与自由前端的距离为12mm。
在优选的实施中,所述窗口具有这样的尺寸特征,所述尺寸特征使得能阻止用户的手指通过所述窗口接触所述加热器。
在优选的实施中,所述窗口具有10mm 2~100mm 2的面积;优选地,所述窗口具有30mm 2~80mm 2的面积。
在优选的实施中,所述窗口被构造成沿所述气雾生成装置的宽度方向延伸的长条形。
在优选的实施中,所述窗口具有长度尺寸和宽度尺寸,且所述长度尺寸和宽度尺寸的至少一个不大于10mm;优选地,所述长度尺寸和宽度尺寸的至少一个不大于6mm。
在优选的实施中,所述窗口的长度尺寸为10~20mm;和/或,所述窗口的宽度尺寸为3~6mm。
在优选的实施中,所述加热器的裸露部分是位于所述接收腔外的。
在优选的实施中,所述加热器的裸露部分具有大约2~5mm的长度。
在优选的实施中,还包括:固定座,用于保持所述加热器;所述裸露部分靠近或终止于该固定座。
在优选的实施中,所述气雾生成装置包括沿厚度方向相对的前侧和后侧;
所述窗口至少部分位于所述前侧和/或后侧。
在优选的实施中,所述气雾生成装置包括沿宽度方向相对的左侧和右侧;
所述加热器毗邻所述右侧,所述窗口至少部分位于所述右侧。
在优选的实施中,还包括:门盖,在第一位置和第二位置可移动地耦合至所述气雾生成装置;
所述门盖在所述第一位置时遮盖所述窗口,以及在所述第二位置时裸露所述窗口。
在优选的实施中,所述门盖在第一位置同时遮盖所述窗口和接收腔,以及在所述第二位置同时显露所述窗口和接收腔。
在优选的实施中,还包括:
支架,至少部分界定所述窗口。
在优选的实施中,还包括:
遮挡件,用于遮挡所述窗口。
在优选的实施中,所述遮挡件可移除地结合于所述支架上,并在结合于所述支架时遮挡所述窗口、以及在从所述支架上移除时显露所述窗口。
在优选的实施中,所述遮挡件被构造成能沿所述气雾生成装置的宽度方向从所述支架上移除。
在优选的实施中,所述遮挡件结合于所述支架上时与所述支架的外表面是平整接合。
在优选的实施中,还包括:
导轨,用于在所述遮挡件结合于所述支架或者从所述支架上移除时提供引导。
在优选的实施中,所述遮挡件包括:
主体部分,用于可移除地结合于所述支架;
至少一个遮挡臂,以及由所述主体部分沿所述气雾生成装置宽度方向延伸的,用于遮盖所述窗口。
在优选的实施中,所述支架具有凹陷部分,所述主体部分通过容纳于所述凹陷部分进而结合于所述支架。
在优选的实施中,所述支架上设置有第一磁性件;
所述主体部分上设置有第二磁性件,以当所述遮挡件结合于所述支架上时与所述第一磁性件磁性吸附。
在优选的实施中,所述遮挡件可移动地结合于所述支架上,并被配置能通过移动选择性地遮挡或显露所述窗口。
在优选的实施中,还包括:
电芯,沿所述气雾生成装置的长度方向的延伸长度至少部分与所述加热器重合;
空腔,沿所述气雾生成装置的宽度方向位于所述电芯和加热器之间,以减少热量由所述加热器向所述电芯传递。
在优选的实施中,所述支架包括:内壁,至少部分围绕所述加热器;以及,
外侧壁,毗邻所述电芯;
所述空腔形成于所述支架的内壁和外侧壁之间。
在优选的实施中,所述支架被构造成能从所述气雾生成装置移除,以基本完全裸露所述加热器。
在优选的实施中,所述接收腔与所述窗口气流连通,进而在抽吸中外部空气能通过所述窗口进入所述接收腔。
在优选的实施中,还包括:
提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
所述提取器上设置有第三磁性件,用于在所述操作位置时与所述第一磁性件磁性吸附;
沿所述气雾生成装置的长度方向,所述第一磁性件、第二磁性件和第三磁性件的磁极方向是相同的。
在优选的实施中,还包括:
提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
所述提取器在所述操作位置时至少部分是裸露于所述窗口的。
在优选的实施中,还包括:
提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
所述提取器在所述操作位置时遮盖所述加热器的裸露部分的。
本申请的又一个实施例还提出一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;包括:
接收腔,用于接收气溶胶生成制品;
加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
窗口,至少部分围绕所述加热器并避开所述自由前端;
所述加热器背离所述自由前端的至少部分通过所述窗口是可视的。
一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;包括:
接收腔,用于接收气溶胶生成制品;
加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
窗口,至少部分围绕所述加热器并避开所述自由前端;该窗口被配置为在使用中供空气进入所述接收腔的进气口。
以上气雾生成装置,在使用中通过窗口对加热器背离自由前端的部分进行清洁是有利的。
附图说明
一个或多个实施例通过与之对应的附图中的图片进行示例性说明,这些示例性说明并不构成对实施例的限定,附图中具有相同参考数字标号的元件表示为类似的元件,除非有特别申明,附图中的图不构成比例限制。
图1是一个实施例提供的气雾生成装置的示意图;
图2是又一个视角下气雾生成装置的分解示意图;
图3是一个实施例的气雾生成装置与制品盒结合的示意图;
图4是又一个实施例的气雾生成装置的示意图;
图5是图1中气雾生成装置一个实施例的具体结构示意图;
图6是图5中门盖移动至打开加热组件的结构示意图;
图7是图6中气雾生成装置一个视角的使用状态的示意图;
图8是又一个视角的门盖的结构示意图;
图9是图6中气雾生成装置各部分的分解示意图;
图10是图6中气雾生成装置的剖面示意图;
图11是图10中提取器在操作状态的示意图;
图12是图11中提取器在提取状态的示意图;
图13是图10中提取器一个视角的剖面示意图;
图14是图6中提取器提取气溶胶生成制品后一个视角的示意图;
图15是图1中气雾生成装置又一个实施例的使用状态示意图;
图16是图15中气雾生成装置一个视角下各部分的分解示意图;
图17是图15中气雾生成装置又一个视角下各部分的分解示意图;
图18是图16中气雾生成装置一个视角的剖面示意图;
图19是图18中提取器又一个视角的剖面示意图;
图20是图15中遮挡件移除后的示意图;
图21是又一个实施例提供的气雾生成装置在提取状态的示意图;
图22是图21中气雾生成装置在操作状态的剖面示意图;
图23是图21中气雾生成装置在提取状态的剖面示意图;
图24是图23中B部放大图。
具体实施方式
为了便于理解本申请,下面结合附图和具体实施方式,对本申请进行更详细的说明。
本申请的一实施例提出一种气雾生成装置,用于接收气溶胶生成制品生成气溶胶。
进一步在可选的实施中,气溶胶生成制品优选采用加热时从基质中释放的挥发化合物的含烟草的材料;或者也可以是能够加热之后适合于电加热发烟的非烟草材料。气溶胶生成制品优选采用固体基质,可以包括香草叶、烟叶、均质烟草、膨胀烟草中的一种或多种的粉末、颗粒、碎片细条、条带或薄片中的一种或多种;或者,固体基质可以包含附加的烟草或非烟草的挥发性香味化合物,以在基质受热时被释放。
进一步在可选的实施中,气溶胶生成制品包括呈细长的柱状的烟支。
进一步参见图1至图2所示,在一个实施例中气雾生成装置100的被构造成是大致为方形形状。
在图1所示的实施中,气雾生成装置100的包括有:
沿长度方向相对的近端110和远端120;根据通常使用的需求,近端110被配置为作为用户吸食气溶胶的一端,在使用中气溶胶生成制品通过近端110至少部分接收至气雾生成装置100内并被加热生成气溶胶。
进一步根据图1和图2,气雾生成装置100界定有:
第一空间1100,基本是由近端110延伸至远端120;并且第一空间1100位于气雾生成装置100沿宽度方向的一侧;在使用中,该第一空间1100是用于容纳和装配用于供电的电芯111的空间;
第二空间1200,基本是位于靠近远端120的位置,并且沿宽度方向与第一空间1100的部分相对或毗邻的;在使用中,该第二空间1200是用于容纳和装配电路板例如PCB板的空间;
第三空间1300,基本是位于靠近近端110的位置,并且沿长度方向与第二空间1200是相对的,以及沿宽度方向与第一空间1100靠近近端110的部分相对或毗邻的;在使用中,第三空间1300,至少部分界定的加热空间,以接收并加热气溶胶生成制品的至少一部分,生成供抽吸的气溶胶。
在优选的实施中,第一空间1100、第二空间1200和第三空间1300特闷彼此之间基本是气密密封的,以阻止热空气或气溶胶在它们之前的流动。
进一步参见图3所示,图3示出了气雾生成装置100与制品盒200结合组成的气雾生成系统的示意图。根据图3所示,制品盒200例如烟盒,通常被构造成是方形的形状;制品盒200通常具有可打开的翻盖300,通过打开翻盖300则可以取用制品盒200内部所容纳的气溶胶生成制品例如烟支。
进一步根据图3所示,气雾生成装置100基本与制品盒200例如烟盒具有相近的外形和体积尺寸,则对于与制品盒200结合放置是有利的。
进一步根据图3所示,气雾生成装置100的外表面上具有若干平面,面积最大的平面为位于厚度方向两侧的呈平面的侧表面;制品盒200例如烟盒的同样具有位于厚度方向两侧的呈平面的侧表面,为面积最大的平面。当气雾生成装置100沿厚度方向的侧表面、与制品盒200沿厚度方向的侧表面结合时,它们的接触面积由两者中面积较小的平面所限定。
当然在一些实施中,气雾生成装置100的外表面上的最大平面、与制品盒200外表面上的最大平面的面积或形状基本是相同或接近的。或者在一些实施中,气雾生成装置100沿厚度方向的任一侧表面的面积或形状,与制品盒200沿厚度方向的任一侧表面的面积或形状,基本是相同或接近的。
同时根据图3中所示,气雾生成装置100与制品盒200接触或结合的侧表面为方形;并且气雾生成装置100与接触制品盒200的侧表面毗邻的任意其他侧表面均为方形;例如图3中气雾生成装置100沿长度方向、或沿宽度方向的侧表面均为方形。
同时根据图3所示,当气雾生成装置100与制品盒200沿厚度方向结合时,气雾生成装置100沿厚度方向背离制品盒200的侧表面、以及制品盒200背离气雾生成装置100的侧表面是裸露的。在使用中,用户可以通过手指同时夹持雾生成装置100沿厚度方向背离制品盒200的侧表面、以及制品盒200背离气雾生成装置100的侧表面同时对气雾生成装置100与制品盒200进行保持;从而对便于携带是有利的。
根据图3所示,气雾生成装置100与制品盒200基本具有相近的形状和尺寸体积。在实施中,制品盒200具有大约70~80mm的长度尺寸、大约40~50mm的宽度尺寸、以及大约10~20mm的厚度尺寸。
根据图3所示,则对应气雾生成装置100可以具有大约70~80mm的长度L、大约40~50mm的宽度W、以及大约9.5~20mm的厚度H。则实施中,气雾生成装置100沿厚度方向两侧表面为面积最大的平面,面积大约为2800mm 2~4000mm 2
进一步在一些可选的实施中,第一空间1100的延伸长度/厚度与气雾生成装置100的长度L/厚度H基本是接近的。第一空间1100的宽度介于气雾生成装置100宽度W的1/3~2/3;更加优选地,第一空间1100的宽度基本接近于气雾生成装置100宽度W的1/2。在一些实施中,第一空间1100也具有大约60~65mm的长度尺寸、大约15~25mm的宽度尺寸、以及大约5~10mm的厚度尺寸。
相应地,根据图2所示,容纳或装配于第一空间1100的电芯111被构造成基本是呈方形的形状。相应地在一些实施中,电芯111的体积或形状与第一空间1100基本是相同或接近的。在一些实施中,电芯111具有大约60~65mm的长度、大约15~25mm的宽度、以及大约5~10mm的厚度。
进一步在一些可选的实施中,第二空间1200具有大约35~50mm的长度尺寸、15~25mm的宽度尺寸、以及大约5~10mm的厚度尺寸。
进一步在一些可选的实施中,第三空间1300具有大约25mm~40mm的长度尺寸、15~25mm的宽度尺寸、以及大约5~10mm的厚度尺寸。
在又一些实施中,第二空间1200和/或第三空间1300的宽度介于气雾生成装置100宽度W的1/3~2/3;更加优选地,第二空间1200和/或第三空间1300的宽度基本接近于气雾生成装置100的宽度W的1/2。
第二空间1200和/或第三空间1300的厚度基本是与气雾生成装置100的厚度H基本是接近的。
在又一些实施中,第二空间1200的延伸长度大于第三空间1300的延伸长度。在又一些实施中,第二空间1200的延伸长度介于气雾生成装置100的长度的1/2~2/3。在又一些实施中,第三空间1300的延伸长度介于气雾生成装置100的长度的1/3~1/2。
进一步根据图4所示,在又一个可选的实施中,气雾生成装置100内设置有靠近厚度方向至少一侧的无线充电线圈1400;该无线充电线圈1400能够用于与外部的无线充电设备耦合,进而接收无线充电设备的电磁能产生充电电流进而对电芯111进行充电。
进一步根据图4所示,用于对电芯111进行无线充电的无线充电线圈1400是平面螺旋线圈。在一些实施中,无线充电线圈1400是大体呈方形的平面螺旋线圈,如图4所示。或者在一些实施中,无线充电线圈1400还可以被构造成是圆形的平面螺旋线圈。
在一些可选的实施中,无线充电线圈1400是由截面为圆形、或者矩形的导线材料的制备的;这样的导线材料,例如通常的铜丝、镍丝等。或者在又一些可选实施中,无线充电线圈1400的平面螺旋线圈是被沉积、印刷、蚀刻的涂层、轨迹或线路的形式;例如,无线充电线圈1400是由导电材料通过在一基体上印刷、沉积等形成的涂层或线路的平面螺旋线圈的形式。或者在又一些可选的实施中,无线充电线圈1400的平面螺旋线圈是通过一片状的金属导电基材蚀刻或切削后形成的平面螺旋线圈的形式。
进一步图5至图7示出了一个具体实施例的气雾生成装置100的示意图,在该实施例中,气雾生成装置100包括有:
主壳体10,该主壳体10主要作为气雾生成装置100的外壳部件,进而在其内部界定以上第一空间1100、第二空间1200和第三空间1300;因此在实施中,主壳体10大致是具有以上所描述的气雾生成装置100的外形和尺寸要求。
门盖20,位于主壳体10和/或气雾生成装置100的近端110,并在实施中被构造成可以相对于主壳体10移动;当然根据图5和图6所示的优选实施例,门盖20相对于主壳体10的移动,是沿主壳体10的宽度方向的滑动,如图6中箭头R1所示;或者在其他的变化实施中,门盖20相对于主壳体10的移动可以是绕某个轴转动的形式。
根据图5至图7所示,门盖20的移动设计,使其具有打开位置和关闭位置。其中,门盖20在关闭位置下例如图5所示,门盖20形成对第三空间1300的遮挡或封闭,此时气雾生成装置100是被锁定不可使用的;门盖20在打开位置下例如图6和图7所示,使第三空间1300裸露,进而用户可以将气溶胶生成制品A接收至气雾生成装置100进行抽吸、以及对第三空间1300的进行清洁。
进一步根据图5至图7所示,主壳体10上设置有导向槽11,用于对门盖20的移动过程提供引导。具体在优选的实施中,导向槽11是被设置于主壳体10沿厚度方向的侧表面上的;并且导向槽11被构造成是沿主壳体10的宽度方向延伸的细长的槽。在使用中,门盖20至少部分延伸至导向槽11内,从而与导向槽11配合形成移动过程的导向;并且,导向槽11两端的端部位置,用于对门盖20的移动提供限位。
在图中所示的实施中,导向槽11具有大约30~40mm的长度。
门盖20的形状或构造可以参见图8所示,门盖20包括:
第一遮挡壁210,基本是与主壳体10的上侧面平行的构造;在关闭位置的使用状态下在近端110对第三空间1300进行遮挡或封闭;
第二遮挡壁220和第三遮挡壁230,沿主壳体10的长度方向延伸,并且第二遮挡壁220和第三遮挡壁230在近端110处与第一遮挡壁210连接。第二遮挡壁220和第三遮挡壁230分别被布置成位于主壳体10厚度方向的两侧;进而在使用中,第二遮挡壁220和第三遮挡壁230分别从主壳体10的厚度方向的两侧对第三空间1300进行遮挡或封闭。
进一步,第二遮挡壁220背离第一遮挡壁210端部处设置有第一卡勾221,和/或第三遮挡壁230背离第一遮挡壁210端部处设置有第二卡勾231;在使用中,第一卡勾221和/或第二卡勾231至少部分伸入至导向槽11内,在配合提供导向的同时,并与主壳体10保持连接,以阻止第一卡勾221和/或第二卡勾231从导向槽11内脱出造成门盖20从主壳体10上脱落。
在图8所示的优选实施中,第一遮挡壁210和/或第二遮挡壁220和/或第三遮挡壁230呈矩形的形状。在更加优选的实施中,第一遮挡壁210具有大约15~25mm的长度尺寸、以大约5~10mm的宽度尺寸。以及,第二遮挡壁220和/或第三遮挡壁230具有大约28mm~40mm的长度尺寸、以及大 约15~25mm的宽度尺寸。
在更加优选的实施中,门盖20采用高导热的材质,例如金属材质制备,对于促进第三空间1300内加热组件的散热以及将热量均匀地向其他部分的传递是有利的。
进一步参见图6和图7所示,气雾生成装置100包括有:
接收孔41,位于近端110,气溶胶生成制品A可通过该接收孔41至少部分接收于气雾生成装置100内。
在图10所示的优选实施中,接收孔41是由提取器40界定的。或者在其他的变化实施中,当气雾生成装置100不具有该提取器40时,接收孔41还可以是由主壳体10、或者支架30等界定的。
同时参见图10所示,对应地,气雾生成装置100包括有:
接收腔430,气溶胶生成制品A的至少一部分可移除地接收于接收腔430内;该接收腔430与接收孔41是连通的。
在图10所示的优选实施中,接收腔430也是由提取器40界定的。或者在其他的变化实施中,当气雾生成装置100不具有该提取器40时,接收腔430还可以是由主壳体10、或者支架30等界定的。
进一步根据图9和图10所示,气雾生成装置100包括有:
加热器50,被构造成销钉、针状或片状等等形状,例如图9所示的针状;用于当气溶胶生成制品A接收在气雾生成装置100内时,加热器50能插入至气溶胶生成制品A内进行加热。在一些可选的实施中,销钉或针状的加热器50具有大约12~19mm的长度尺寸、以及大约2~5mm的外径尺寸。在又一些可选的实施中,片状的加热器50可以具有大约12~19mm的长度尺寸、以及大约3~6mm的宽度尺寸、以及大约0.4~1mm的厚度尺寸。相应地,根据图10所示,加热器50至少部分在接收腔430内延伸,进而对于插入至气溶胶生成制品A内进行加热是有利的。
在其他的变化实施例中,加热器50还可以被构造成圆筒状的形状;在使用时其内部空间界定形成接收腔430,以用于接收气溶胶生成制品A,并通过对气溶胶生成制品A的外周加热的方式,生成气溶胶。
在一些可选的实施中,加热器50是电阻加热器;或者在一些实施中,加热器50是被磁场穿透而发热的感受器。
进一步根据图9和图10所示,气雾生成装置100包括有:
支架30,在实施中用于支撑提取器40。同时,支架30还被配置为围绕或遮挡以保护加热器50。具体:
支架30一方面通过可拆卸的方式设置于第三空间1300内,当提取器40连接到气雾生成装置100内时,是由支架30提供支撑或保持的。另一方面,支架30至少部分围绕或遮挡加热器50,则至少能避免加热器50被完全露出于第三空间1300,进而对阻止用户的接触或触碰等是有利的。
在优选的实施中,支架30大体上具有方形的外形。在实施中,具体支架30具有大约25mm~40mm的长度尺寸、15~25mm的宽度尺寸、以及大约5~10mm的厚度尺寸。
进一步参见图9和图10所示,提取器40包括:
筒状的接收部分420,该接收部分420的内部空间被构造成用于接收气溶胶生成制品A的接收腔430;
操作部分410,在使用中用户通过用手指等操作该操作部分410从而移动或移除提取器40以提取气溶胶生成制品A。当提取器40装配于气雾生成装置100内时,通过该操作部分410与主壳体10连接,进而使提取器40稳定保持在气雾生成装置100上。当然,在一些实施中,操作部分410是可以直接或间接与主壳体10连接。或者在图9和图10的优选实施中,操作部分410是通过抵靠和连接在支架30的上端部进而被固定和保持在气雾生成装置100内的。
进一步在更加优选的实施中,提取器40可以相对于主壳体10移动或移除,进而呈现具有相对的操作位置和提取位置。具体:
图11示出了一个实施例中提取器40处于操作位置的示意图,当提取器40处于操作位置时,气溶胶生成制品A接收在接收部分420内,并由接收部分420的承托壁421提供支撑;加热器50至少部分通过承托壁421穿入至接收部分420界定的接收腔430内,进而加热气溶胶生成制品A。操作位置基本是由加热器50插入至气溶胶生成制品A形成的操作位置。在该操作位置时,提取器40是与主壳体10保持连接的。
图12示出了一个实施例中提取器40处于提取位置的示意图,在提取位置中,用于通过操作部分 410进行操作使提取器40通过相对于主壳体10沿长度方向的移动或移除,进而使气溶胶生成制品A在承托壁421的支撑下与加热器50分离从而移除。该提取位置是由气溶胶生成制品A与加热器50分离形成。
在一个可选的实施中,提取器40在提取位置下同样也是与主壳体10直接或间接保持连接的,对阻止提取器40从气雾生成装置100内脱离是有利的。或者在又一个可选的实施中,提取器40在提取位置下与主壳体10是非直接或间接连接的,则提取器40在提取位置是脱离主壳体10和/或支架30的,进而便于直接从气雾生成装置100内移除或脱离的有利的。
在一个可选的实施中,气溶胶生成制品A具有大约40~80mm的长度;以及大约4~8mm的外径尺寸。
在又一个优选的实施中,提取器40的接收部分420大约具有15~40mm的长度;以及接收部分420对应具有大约4~8mm的内径。
进一步参见图13所示,提取器40还包括:
第一孔422,位于承托壁421上,内径基本是与加热器50适配并稍大,进而供加热器50穿过该第一孔422后插入至接收部分420内;在适配于销钉或针状的加热器50时,例如图13所示,第一孔422是圆形的,并具有大约3~6mm的内径。
第二孔423,位于承托壁421上,用于在抽吸的过程中外部空气由第二孔423进入至气溶胶生成制品A内,如图13中箭头R2所示。在实施中,第二孔423大约具有1~2mm的内径。同时,第二孔423的数量可以有若干,并围绕第一孔422布置。
进一步根据图9和图10所示,支架30的构造包括:
沿宽度方向相背的左侧壁310和右侧壁320;在装配中,左侧壁310是毗邻第一空间1100的侧壁,并与主壳体10通过卡扣等可拆的方式连接;右侧壁320在装配后至少部分是裸露在气雾生成装置100外的,并且至少部分界定气雾生成装置100沿宽度方向的外表面;
沿长度方向毗邻第二空间1200的下端壁350,该下端壁350上形成有第三孔33,在装配中加热器50沿长度方向从下方贯穿第三孔33至支架30内;
沿厚度方向相背的前侧壁330和后侧壁340,在前侧壁330和后侧壁340靠近下端壁350的位置设置有窗口32。在可选的实施中,前侧壁330和后侧壁340与下端壁350是非连接或接触的。在实施中,窗口32是由前侧壁330和/或后侧壁340与下端壁350之间间隔的间距界定的。
在实施中,窗口32是直接与外部空气连通的,则提取器40的第二孔423可通过该窗口32与外部空气连通;则在抽吸过程中,外部空气直接通过窗口32进入第二孔423内,而后再进入至接收腔430内随着气溶胶生成制品A生成的气溶胶一并被用户抽吸,如图10中箭头R2所示。
进一步根据图9、图10和图14所示,加热器50的自由前端是贯穿至支架30内的;加热器50背离自由前端的末端是被固定在主壳体10内的。进一步根据图中所示的实施,加热器50背离自由前端的末端是被固定座52围绕和固定的。
并且加热器50具有裸露于窗口32的裸露部分51;当然该裸露部分51大约具有2~5mm的长度。加热器50的裸露部分51通过窗口32是可视的。当然在装配后,裸露部分51是由窗口32尺寸或位置所界定的。具体,在该实施中,固定座52是被支架30的下端壁350遮盖遮挡的,则加热器50的裸露部分51完全由支架30界定的;具体是由加热器50沿长度方向位于前侧壁330和/或后侧壁340下端壁350之间的部分界定的。
当然,该裸露部分51是靠近固定座52和/或加热器50的末端的。从图14可以看出,加热器50的裸露部分51与自由前端的距离d4大约为12mm。该裸露部分51是远离自由前端的,清洁器具从提取器40的接收孔41是难以直接对裸露部分51进行清洁的。通常实施中,加热器50的裸露部分51与自由前端的距离d4是大于8mm的。
在又一个实施中,窗口32具有合适的面积,进而在使用中可通过一些清洁器具伸入至窗口32内对加热器50的裸露部分51进行清洁。在一些实施中,清洁器具例如小毛刷、或者钢丝条、或者刮片等等。
在一些优选的实施中,窗口32必须具有合适的面积,以在提供清洁器具伸入所需的尺寸外,还必须要阻止用户的手指伸入以免被加热器50烫伤。
在优选的实施中,窗口32具有大于10mm 2的面积、以及小于100mm 2的面积。在更加优选的实施中,窗口32具有大于30mm 2的面积、以小于80mm 2的面积。
在图9和图14所示优选的实施中,窗口32是基本呈方形的形状。例如,窗口32是支架30的宽度方向延伸长条形的。在更加优选的实施中,窗口32沿支架30的宽度方向延伸的长度尺寸d1大约为10~20mm;以及,窗口32沿支架30的长度方向延伸的宽度尺寸d2大约为3~6mm。
在图14所示的一个具体的实施中,窗口32的长度尺寸d1为17mm;以及窗口32的宽度尺寸d2大约为4.2mm。
并且在又一个可选的实施中,窗口32的长度尺寸d1和宽度尺寸d2的至少一个不得大于10mm,对于阻止用户的手指伸入是有利的。在更加优选的实施中,窗口32的长度尺寸d1和宽度尺寸d2的至少一个均不得大于6mm。
则对应地,加热器50的裸露部分51的长度基本为3~6mm。在优选的实施中,加热器50穿入至提取器40的接收部分420内的长度大约为10~18mm。在优选的实施中,加热器50的裸露部分51的长度不超过加热器50的总长度的1/3。
进一步参见图9和图10所示,为了便于提取器40在与支架30装配、移动或移除的操作过程中的引导;支架30还具有第一内壁360和第二内壁370。根据图中所示,第一内壁360和第二内壁370被构造成是弧形的形状,并且第一内壁360和第二内壁370是相反的。以及第一内壁360和第二内壁370是沿宽度方向向外弯曲的弧形形状,进而在它们之间界定形成有引导容纳空间31。该容纳空间31的形状与提取器40的接收部分420基本相同,容纳空间31的尺寸体积稍微大于接收部分420的体积,则当提取器40稳定装配至支架30上、以及移动或移除过程中,第一内壁360和第二内壁370提供引导。
或者在又一个变化的实施中,当气雾生成装置100不具有提取器40部件时,则由第一内壁360和第二内壁370之间的容纳空间31配置为用于接收气溶胶生成制品A的接收腔430。
同时根据图5和图6中所示,门盖20在关闭位置是遮挡或关闭窗口32的;以及,门盖20在打开位置是打开或显露窗口32a的。
在图9和图10所示的优选实施中,第一内壁360与支架30的左侧壁310之间具有间距,进而在它们之间形成第一绝热腔34;第二内壁70与支架30的右侧壁320之间具有间距,进而在它们之间形成第二绝热腔35。
在图中所示的实施中,第一绝热腔34和/或第二绝热腔35是空的、并且是敞开的,进而与外部空气连通的,进而通过空气的低导热形成绝热;第一绝热腔34以阻止加热器50的热量沿径向向外传递至第一空间1100的电芯111上;和/或第二绝热腔35阻止加热器50的热量沿径向向外传递至右侧壁320上。
在一些变化的实施中,第一绝热腔34和/或第二绝热腔35是封闭的腔,进而可以将它们的内部的压力构造成低于外部的压力,即第一绝热腔34和/或第二绝热腔35具有真空度;对于阻止热量传递是有利的。
或者在又一些变化的实施中,第一绝热腔34和/或第二绝热腔35内部填充有一些绝热材料,例如气凝胶、多孔体聚合物、多孔聚氨酯、泡沫棉等;对于阻止热量传递是有利的。
进一步参见图9和图10所示,提取器40的接收部分420至少部分也是裸露于窗口32的。
进一步在图10所示的优选实施中,气雾生成装置100的第二空间1200内安装有控制气雾生成装置100工作的电路板12;以及位于远端120的充电接口13,在使用中通过与电路板12电连接,进而在于外部电源设备连接后对电芯111进行充电。
对于以上的气雾生成装置100,对气溶胶生成制品A掉落的碎渣或气溶胶冷凝液的清洁可以包括:
在不移除提取器40时,可通过毛刷等器具由接收孔41伸入对接收部分420的内壁、以及加热器50的部分表面进行清洁;
移除提取器40后,可以继续通过毛刷等器具伸入至容纳空间31的内壁进行清洁;以及通过窗口32伸入对加热器50的裸露部分51进行清洁;
进一步再从主壳体10上移除支架30,如图9中所示,使加热器50基本完全裸露出来,进而可通过清洁器具对加热器50的表面进行深度、完整清洁。
进一步图15至图18示出了气雾生成装置100的又一个实施例的结构示意图;在该实施中,气雾生成装置100包括:
主壳体10a;
门盖20a,定位于主壳体10a的近端110a,并能相对主壳体10a在打开位置和关闭位置之间移动;例如沿主壳体10a宽度方向的移动、或者转动等。
同时参见图18所示,气雾生成装置100还包括位于主壳体10a与门盖20a之间的限位凸起17a;在装配中,限位凸起17a位于主壳体10a的近端110a,并且相对于主壳体10a至少部分是凸出的。当门盖20a沿宽度方向相对于主壳体10a移动时,限位凸起17a用于在门盖20a的打开位置和关闭位置提供限位。当然在更加优选的实施中,门盖20a在移动的任何位置下,都是对限位凸起17a遮盖或者隐藏的。限位凸起17a在门盖20a的任意移动位置均是不裸露于气雾生成装置100表面的。
以及,气雾生成装置100还包括:
支架30a,至少部分与主壳体10a界定有窗口32a;加热器50a至少部分是裸露于窗口32a内的;
提取器40a,由支架30a提供支撑和保持;在使用中提取器40a用于提取接收于气雾生成装置100a内的气溶胶生成制品A。
进一步根据图16所示,为了便于提取器40a在操作位置稳定与支架30a保持连接,提取器40a上设置有卡凸43a;卡凸43a用于在操作位置使提取器40a与支架30a卡合的方式形成连接。在图16所示的优选实施中,卡凸43a的数量有若干,并且被构造成是位于提取器40a的接收部分420a外表面的凸棱的形式。
在该实施例中,提取器40a通过直接沿长度方向从支架30a内移除的操作,进而提取气溶胶生成制品A,如图16中箭头R3所示。
进一步参见图16所示,支架30a上设置有第一连接孔15a和/或第二连接孔16a,当然该第一连接孔15a毗邻第一空间1100布置。在使用中,螺钉/螺栓/螺丝等连接部件通过安装在第一连接孔15a和/或第二连接孔16a内对支架30a与主壳体10a进行连接。具体,第一连接孔15a毗邻近端110a布置;第二连接孔16a毗邻第二空间1200布置。
进一步根据图中所示的优选实施,当提取器40a保持于支架30a上时,第一连接孔15a是被提取器40a遮盖或隐藏的。具体,第一连接孔15a是被提取器40a的操作部分41a遮盖的。并且在移除提取器40a后,第一连接孔15a被显露出,此时用户可以通过螺丝刀等器具对位于第一连接孔15a内的螺钉/螺栓/螺丝等连接部件进行拆卸;进而解除支架30a与主壳体10a的连接,是支架30a能从主壳体10a上拆卸。
以及,第二连接孔16a是裸露于窗口32a的;或者,第二连接孔16a通过窗口32a是可见的;则用户可以通过窗口32a将螺丝刀伸入至第二连接孔16a内对螺钉/螺栓/螺丝等连接部件进行拆卸。
进一步根据图15至图17所示,该示例的气雾生成装置100还包括:
遮挡件60a,用于遮挡或遮盖或关闭窗口32a;进而在抽吸、安全防护等不需要敞开窗口32a时,则通过遮挡件60a遮挡或遮盖或关闭窗口32a。而在需要对加热器50a裸露于窗口32a的裸露部分进行清洁、或者需要拆卸第二连接孔16a内的螺钉/螺栓/螺丝等连接部件时,可以通过移动或移除遮挡件60a使窗口32a打开。
进一步根据图15至图17所示的优选实施例,遮挡件60a是通过可移除地结合于支架30a上进而遮挡或遮盖或关闭窗口32a的。当遮挡件60a结合于支架30a上时,遮挡或遮盖或关闭窗口32a。而当遮挡件60a从支架30a上移除时,打开窗口32a。
进一步根据图15至图17所示,遮挡件60a结合于支架30a上时,遮挡件60a与支架30a的表面是平整接合的。
在图中所示的优选实施中,遮挡件60a沿主壳体10a的宽度方向结合至支架30a上,或者沿主壳体10a的宽度方向从支架30a上移除。
在更加优选的实施中,主壳体10a上还设有沿宽度方向延伸的导轨14a;对应遮挡件60a上设置有导槽65a,进而在遮挡件60a结合于支架30a或移除的操作中提供引导。
在该实施例中,窗口32a沿主壳体10a的厚度方向的前后两侧、以及宽度方向背离第一空间1100的右侧,均是敞开的。
进一步根据图20所示,窗口32a在厚度方向的两侧的敞开的尺寸中,长度尺寸d11为20mm;以及,宽度尺寸d12为6mm。
在该实施例中,窗口32a至少部分是由支架30a界定的。具体,是由支架30a沿长度方向与主壳体10a之间的间距空间界定的。
进一步参见图16和图17所示,支架30a还界定有至少部分用于容纳提取器40a的容纳空间31a。 该容纳空间31a是沿长度方向延伸的、其形状与提取器40a的接收部分420a基本相同,容纳空间31a的尺寸体积稍微大于接收部分420a的体积,则当提取器40a稳定装配至支架30a上、以及移动或移除过程中,容纳空间31a的内壁用于提供引导。
同样地,在以上实施中由提取器40a的接收部分420a界定用于接收气溶胶生成制品A的接收腔。而当不存在提取器40a的部件时,容纳空间31a主要可用于作为接收气溶胶生成制品A的接收腔。
进一步参见图16和图17所示,支架30a具有沿宽度方向朝背离第一空间1100凸出的凸出部分34a,并由该凸出部分34a与支架30a的其他部分之间界定形成凹陷部分33a。当然根据图中所示,凸出部分34a位于近端110a,进而使形成的凹陷部分33a是毗邻窗口32a的。
根据图中所示,容纳空间31a是避开凸出部分34a的。
对应地,遮挡件60a包括有沿长度方向延伸的主体部分61a、以及基本向从主体部分61a的厚度两侧沿宽度方向延伸出的第一遮挡臂62a和第二遮挡臂63a。在装配后,第一遮挡臂62a和第二遮挡臂63a分别从厚度方向的相对两侧对窗口32a进行遮盖、遮挡或封闭。主体部分61a从宽度方向的右侧对窗口32a进行遮盖、遮挡或封闭。并且在装配后,主体部分61a是容纳和保持于凹陷部分33a内的;并且遮挡件60a的表面是与支架30a平整接合的。
根据图中所示,导槽65a是形成于第一遮挡臂62a和/或第二遮挡臂63a上的。
进一步参见图18所示,支架30a上还设置有第一磁性件36a;当然,在优选的实施中,第一磁性件36a是被设置于凸出部分34a内的。
相应地,遮挡件60a上还设有第二磁性件64a,用于当结合于支架30a上遮挡窗口32a时,与第一磁性件36a磁性吸附,进而使遮挡件60a稳定保持在支架60a上。优选的实施中,第二磁性件64a是容纳于遮挡件60a的主体部分61a上的。
相应地,提取器40a上设置有第三磁性件45a,用于在操作位置下与第一磁性件36a磁性吸附,进而使提取器40a稳定保持在支架60a上。
进一步根据图中所示的优选实施中,在装配后沿长度方向,第一磁性件36a、第二磁性件64a和第二磁性件45a它们的磁极布置方向是相同的。例如图中所示的优选实施例,第一磁性件36a具有朝向近端110a的第一磁极如N极、以及朝向远端120a的第二磁极如S极。以及,第二磁性件64a同样具有朝向近端110a的第一磁极如N极、以及朝向远端120a的第二磁极如S极。对应地第三磁性件45a同样具有朝向近端110a的第一磁极如N极、以及朝向远端120a的第二磁极如S极。
则在装配后,第一磁性件36a的吸附可以同时与位于上下两侧的第二磁性件64a和第二磁性件45a磁性吸附。
进一步参见图19和图20所示,提取器40a的接收部分420a具有相对更长的长度。进而在装配后,提取器40a的接收部分420a是完全将加热器50a遮盖的,进而当提取器40a结合在支架30a上时加热器50a是不可见的。在具体的实施中,是使接收部分420a的前端抵靠在固定座52a的朝向近端110a的上表面521a上的。
进一步在提取器40a的接收部分420a的前端设置有供窗口32a的空气进入提取器40a内的第一气口46a,用于供空气进入至接收部分420a内。
在该实施中,接收部分420a内具有承托壁421a,用于对气溶胶生成制品A提供支撑。进一步根据图18和图19中所示,提取器40a还具有由接收部分420a延伸出的延长壁424a,该延长壁424a在装配中是抵靠在固定座52a的上表面521a的。在使用中,该延长壁424a一方面能遮挡围绕和遮挡加热器50a裸露于窗口32a的裸露部分51a;另一方面更重要地,通过该延长壁424a在固定座52a与承托壁421a之间形成一定的空间,以遮挡或保持由第一孔422a和/或第二孔423a渗出或漏出的气溶胶,对于阻止气溶胶由第一孔422a和/或第二孔423a渗出或漏出后被用户目视是有利的。
当然,在当提取器40a从支架30a移动或移除以提取气溶胶生成制品A后,延长壁424a是敞开加热器50a的裸露部分51a的,进而用户即可使用清洁器具通过窗口32a对加热器50a的裸露部分51a进行清洁。
相应地,第一气口46a是形成延长壁424a上的。
进一步在该实施例中,根据图16所示,加热器50a的裸露部分51a是由支架30a与固定加热器50a的末端的固定座52a所界定的。具体,在该实施中,裸露部分51a是由加热器50a位于支架30a与固定座52a之间的部分界定的。当然,裸露部分51a是靠近固定座52a和/或加热器50a的末端的。
同样地,加热器50a的裸露部分51a与自由前端的距离大约为12mm。该裸露部分51a是远离自 由前端的,清洁器具从提取器40a的接收孔41a是难以直接对裸露部分51a进行清洁的。
同样地,承托壁421a上设置有供加热器50a贯穿至气溶胶生成制品A的第一孔422a;以及供空气进入气溶胶生成制品A的第二孔423a。
则在抽吸的过程中,气流的流动参见图15至图20所示的箭头R2,外部空气由支架30a和/或遮挡件60a与主壳体10a之间的缝隙进入窗口32a,而后再由供窗口32a的空气进入提取器40a内的第一气口46a进入至提取器40a的接收部分420a内、并经第二孔423a被吸入至气溶胶生成制品A直至被抽吸。
根据图中所示,在优选的实施中,气流通道包括有沿加热器50a径向朝向加热器50a延伸的进气部分,以及沿长度方向在接收腔内朝近端110a延伸的出气部分。当然,进气部分是穿过供窗口32a的空气进入提取器40a内的第一气口46a的,出气部分是穿过第二孔423a的。
在图19所示的实施中,承托壁421a与接收部分420a的前端的间距d3大约为3~5mm。
或者在又一个变化的实施中,遮挡件60a是通过在支架30a上不同位置的移动或转动进行打开或遮挡窗口32a的。例如,遮挡件60a被构造成能沿长度方向在支架30a上移动,进而当移动至靠近第二空间1200时遮挡窗口32a,移动至背离第二空间1200时至少部分打开窗口32a。当然,在更多的变化实施中,遮挡件60a还可以是沿宽度方向的。
进一步根据图18所示,支架30a内还界定有第一绝热腔34b;在布置上第一绝热腔34b沿宽度方向是位于接收气溶胶生成制品A的接收腔与第一空间1100之间,对于阻止加热器50a的热量传递至第一空间1100的电芯111上是有利的。
在该可选的实施中,第一绝热腔34b是封闭的空间,进而其内部可以填充空气,进而利用空气的低导热形成绝热。或者在又一些实施中,第一绝热腔34b通过抽真空使其压力低于外部压力,形成绝热。或者在又一些实施中,第一绝热腔34b内填充有多孔体、泡棉、气凝胶等,提升绝热。
对于以上的气雾生成装置100,对气溶胶生成制品A掉落的碎渣或气溶胶冷凝液的清洁可以包括:
在不移除提取器40a时,可通过毛刷等器具由接收孔41a伸入对接收部分420a的内壁、以及加热器50a的部分表面进行清洁;
移除提取器40a后,可以继续通过毛刷等器具伸入至容纳空间31a的内壁进行清洁;
继续移除遮挡件60a后,通过窗口32a裸露加热器50a的裸露部分51a,而后由清洁用具伸入窗口32a对加热器50a的裸露部分51a进行清洁;
通过螺丝刀等取下第一连接孔15a和第二连接孔16a内的螺丝后,再移除支架30a,使加热器50a基本是完全呈裸露,进而即可清洁用具对加热器50a表面进行深度、完整清洁。
进一步图21至图24提出了又一个实施例的气雾生成装置100b的示意图;在该实施中,气雾生成装置100b被构造成大体是细长的圆柱状的形状,具有大约90~110mm的长度尺寸、以及大约15~20mm的外径尺寸。
进一步气雾生成装置100b还包括沿长度方向相对的近端110b和远端120b;以及:
第一壳体10b,靠近远端120b;
第一壳体10b上还设置有毗邻近端110b的第二壳体15b;
位于近端110b的提取器40b,用于提取气溶胶生成制品A;在该优选的实施中,提取器40b是通过直接从第二壳体10b上移除进而提取气溶胶生成制品A的。
进一步根据图22和图23所示,第一壳体10b上还设置有毗邻近端110b的第二壳体15b;对应地,提取器40b包括呈环形的操作部分410b、以及位于操作部分410b内的呈筒状的接收部分420b。在实施中,用户可以通过手指对操作部分410b施加作用力进行提取操作;以及,气溶胶生成制品A通过操作部分410b界定的接收孔41b可移除地接收于接收部分420b内。在装配中,操作部分410b围绕第二壳体15b设置;在操作状态下,操作部分410b抵靠在第二壳体15b朝向近端110b的端部,进而稳定保持于第二壳体15b上;并且第二壳体15b的外表面还用于在用户对提取器40b进行提取操作中提供引导。
进一步根据图24所示,接收部分420b具有用于支撑气溶胶生成制品A的承托壁421b;承托壁421b上设置有第一孔422b,用于供感受器50b贯穿至接收部分420b内以便于插入至气溶胶生成制品A中;承托壁421b上还设置有第二孔423b,用于供空气进入至接收部分420b的气溶胶生成制品A中。
进一步第二壳体15b内设置有:
支架20b,大致呈沿第二壳体15b的长度方向延伸的管状;并且该支架20b基本是与第二壳体15b同轴布置,并位于第二壳体15b内;支架20b内界定形成有容纳空间210b,在使用中提取器40b的接收部分420b接收于该容纳空间210b内形成可加热气溶胶生成制品A的操作状态;
磁场发生器例如围绕支架20b的感应线圈30b,用于产生变化的磁场;
感受器50b,被配置在变化的磁场穿透而发热以加热气溶胶生成制品A;感受器50b优选被构造成是至少部分于容纳空间210b的轴向延伸的销钉、针状或片状等形状,对于当提取器40b接收于容纳空间210b内时插入至气溶胶生成制品A内是有利的。
进一步根据图24,感受器50b的自由前端位于容纳空间210b,相对于自由前端50b的末端由固定座70b进行保持。具体,固定座70b包括有沿感受器50b的径向方向由内向外依次布置的第一固定座71b和第二固定座72b;第一固定座71b优选采用是低导热的陶瓷例如氧化锆,第二固定座72b优选采用低导热的有机聚合物例如PEEK。
在抽吸气流的设计上,进一步参见图21至图24所示,第二壳体15b上设置有第一进气口151b;在具体的位置布置上,第一进气口151b是位于第二壳体15b毗邻第一壳体10b的位置,同样地是毗邻与提取器40b的操作部分410b与第一壳体10b接合的部位。在装配后,操作部分410b保持于第二壳体15b时,是遮盖第一进气口151b的,并且在通过移除/移动等操作至提取位置提取气溶胶生成制品A时能显露第一进气口151b。在操作位置中,提取器40b的操作部分410b与第一壳体10b具有大约2mm的接合缝隙,第一进气口151b与该缝隙是相对进而气流连通的。则在抽吸的过程中外部空气由操作部分410b与第一壳体10b之间接合的缝隙进入第一进气口151b。
支架20b还具有界定容纳空间210b的内底壁221b;该内底壁221b与感受器50b的固定座70b具有大约1~3mm间距或缝隙,并且内底壁221b还具有第二气口222b。在实施中,该第二气口222b与提取器40b上的第二孔423b是相对的。
则进而在抽吸中,外部空气沿图中箭头R2所示,由操作部分410b与第一壳体10b之间接合的缝隙进入第一进气口151b,再由第一进气口151b沿径向方向于底壁221b与固定座70b之间的缝隙流向第二气口222b,最终依次由第二气口222b穿过提取器40b上的第二孔423b进入气溶胶生成制品A后被抽吸。
从图中可以看出,气流路径包括基本是沿感受器50b的径向方向由第一进气口151b延伸至第二气口222b的进气部分;以及由第二气口222b沿长度方向延伸至近端110b的出气部分。基本上,进气部分和出气部分是基本垂直的。当然,在实施中,出气部分是穿过容纳空间210b和/或提取器40b的接收部分420b的。
进一步在更加优选的实施中,参见图24所示,第二固定座72b具有延伸至第一进气口151b的卡凸721b,通过该卡凸721b在第一进气口151b内对第二壳体15b形成保持;在需要拆卸时可以按压卡凸721b使脱离第一进气口151b,进而使第二壳体15b从第一壳体10b上拆卸或移除。
需要说明的是,本申请的说明书及其附图中给出了本申请的较佳的实施例,但并不限于本说明书所描述的实施例,进一步地,对本领域普通技术人员来说,可以根据上述说明加以改进或变换,而所有这些改进和变换都应属于本申请所附权利要求的保护范围。

Claims (33)

  1. 一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;其特征在于,包括:
    接收腔,用于接收气溶胶生成制品;
    加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
    窗口,至少部分围绕所述加热器并避开所述自由前端,以使所述加热器具有显露于所述窗口的裸露部分;由此用户可通过所述窗口对所述加热器的裸露部分进行清洁。
  2. 如权利要求1所述的气雾生成装置,其特征在于,所述窗口具有这样的尺寸特征,所述尺寸特征使得能阻止用户的手指通过所述窗口接触所述加热器。
  3. 如权利要求1或2所述的气雾生成装置,其特征在于,还包括:
    固定座,用于保持所述加热器;所述裸露部分靠近或终止于该固定座。
  4. 如权利要求1或2所述的气雾生成装置,其特征在于,所述加热器的裸露部分与自由前端的距离大于8mm。
  5. 如权利要求1或2所述的气雾生成装置,其特征在于,所述窗口具有10mm 2~100mm 2的面积。
  6. 如权利要求1或2所述的气雾生成装置,其特征在于,所述窗口被构造成长条形。
  7. 如权利要求6所述的气雾生成装置,其特征在于,所述窗口具有长度尺寸和宽度尺寸,且所述长度尺寸和宽度尺寸的至少一个不大于10mm。
  8. 如权利要求6所述的气雾生成装置,其特征在于,所述窗口的长度尺寸为10~20mm;和/或,所述窗口的宽度尺寸为3~6mm。
  9. 如权利要求1或2所述的气雾生成装置,其特征在于,所述加热器的裸露部分是位于所述接收腔外的。
  10. 如权利要求1或2所述的气雾生成装置,其特征在于,所述加热器的裸露部分具有大约2~5mm的长度。
  11. 如权利要求1或2所述的气雾生成装置,其特征在于,所述气雾生成装置包括沿厚度方向相对的前侧和后侧;
    所述窗口至少部分位于所述前侧和/或后侧。
  12. 如权利要求1或2所述的气雾生成装置,其特征在于,所述气雾生成装置包括沿宽度方向相对的左侧和右侧;
    所述加热器毗邻所述右侧,所述窗口至少部分位于所述右侧。
  13. 如权利要求1或2所述的气雾生成装置,其特征在于,还包括:门盖,在第一位置和第二位置可移动地耦合至所述气雾生成装置;
    所述门盖在所述第一位置时遮盖所述窗口,以及在所述第二位置时裸露所述窗口。
  14. 如权利要求13所述的雾生成装置,其特征在于,所述门盖在第一位置同时遮盖所述窗口和接收腔,以及在所述第二位置同时显露所述窗口和接收腔。
  15. 如权利要求1或2所述的气雾生成装置,其特征在于,还包括:
    支架,至少部分界定所述窗口。
  16. 如权利要求15所述的气雾生成装置,其特征在于,还包括:
    遮挡件,用于遮挡所述窗口。
  17. 如权利要求16所述的气雾生成装置,其特征在于,所述遮挡件可移除地结合于所述支架上,并在结合于所述支架时遮挡所述窗口、以及在从所述支架上移除时显露所述窗口。
  18. 如权利要求17所述的气雾生成装置,其特征在于,所述遮挡件被构造成能沿所述气雾生成装置的宽度方向从所述支架上移除。
  19. 如权利要求18所述的气雾生成装置,其特征在于,所述遮挡件结合于所述支架上时与所述支架的外表面是平整接合。
  20. 如权利要求17所述的气雾生成装置,其特征在于,还包括:
    导轨,用于在所述遮挡件结合于所述支架或者从所述支架上移除时提供引导。
  21. 如权利要求17所述的气雾生成装置,其特征在于,所述遮挡件包括:
    主体部分,用于可移除地结合于所述支架;
    至少一个遮挡臂,以及由所述主体部分沿所述气雾生成装置宽度方向延伸的,用于遮盖所述窗口。
  22. 如权利要求21所述的气雾生成装置,其特征在于,所述支架具有凹陷部分,所述主体部分通过容纳于所述凹陷部分进而结合于所述支架。
  23. 如权利要求21所述的气雾生成装置,其特征在于,所述支架上设置有第一磁性件;
    所述主体部分上设置有第二磁性件,以当所述遮挡件结合于所述支架上时与所述第一磁性件磁性吸附。
  24. 如权利要求16所述的气雾生成装置,其特征在于,所述遮挡件可移动地结合于所述支架上,并被配置能通过移动选择性地遮挡或显露所述窗口。
  25. 如权利要求15所述的气雾生成装置,其特征在于,还包括:
    电芯,沿所述气雾生成装置的长度方向的延伸长度至少部分与所述加热器重合;
    空腔,沿所述气雾生成装置的宽度方向位于所述电芯和加热器之间,以减少热量由所述加热器向所述电芯传递。
  26. 如权利要求25所述的气雾生成装置,其特征在于,所述支架包括:内壁,至少部分围绕所述加热器;以及,
    外侧壁,毗邻所述电芯;
    所述空腔形成于所述支架的内壁和外侧壁之间。
  27. 如权利要求15所述的气雾生成装置,其特征在于,所述支架被构造成能从所述气雾生成装置移除,以基本完全裸露所述加热器。
  28. 如权利要求1或2所述的气雾生成装置,其特征在于,所述接收腔与所述窗口气流连通,进而在抽吸中外部空气能通过所述窗口进入所述接收腔。
  29. 如权利要求23所述的气雾生成装置,其特征在于,还包括:
    提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
    所述提取器上设置有第三磁性件,用于在所述操作位置时与所述第一磁性件磁性吸附;
    沿所述气雾生成装置的长度方向,所述第一磁性件、第二磁性件和第三磁性件的磁极方向是相同的。
  30. 如权利要求1或2所述的气雾生成装置,其特征在于,还包括:
    提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
    所述提取器在所述操作位置时至少部分是裸露于所述窗口的。
  31. 如权利要求1或2所述的气雾生成装置,其特征在于,还包括:
    提取器,可选择性由操作位置向提取位置进行配置,以用于提取气溶胶生成制品;其中,所述提取器在操作位置时气溶胶生成制品与所述加热器接触,所述提取器在提取位置时气溶胶生成制品与所述器分离;
    所述提取器在所述操作位置时遮盖所述加热器的裸露部分的。
  32. 一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;其特征在于,包括:
    接收腔,用于接收气溶胶生成制品;
    加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
    窗口,至少部分围绕所述加热器并避开所述自由前端;
    所述加热器背离所述自由前端的至少部分通过所述窗口是可视的。
  33. 一种气雾生成装置,用于加热气溶胶生成制品生成气溶胶;其特征在于,包括:
    接收腔,用于接收气溶胶生成制品;
    加热器,至少部分于所述接收腔内延伸,以加热气溶胶生成制品;所述加热器具有用于插入至气溶胶生成制品的自由前端;
    窗口,至少部分围绕所述加热器并避开所述自由前端;该窗口被配置为在使用中供空气进入所述接收腔的进气口。
PCT/CN2022/109781 2021-08-02 2022-08-02 气雾生成系统及气雾生成装置 WO2023011499A1 (zh)

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CN216147260U (zh) * 2021-08-02 2022-04-01 深圳市合元科技有限公司 气雾生成装置
CN216147259U (zh) * 2021-08-02 2022-04-01 深圳市合元科技有限公司 气雾生成装置
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