WO2021142730A1 - 一种雾化装置 - Google Patents
一种雾化装置 Download PDFInfo
- Publication number
- WO2021142730A1 WO2021142730A1 PCT/CN2020/072540 CN2020072540W WO2021142730A1 WO 2021142730 A1 WO2021142730 A1 WO 2021142730A1 CN 2020072540 W CN2020072540 W CN 2020072540W WO 2021142730 A1 WO2021142730 A1 WO 2021142730A1
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- WO
- WIPO (PCT)
- Prior art keywords
- bracket
- sealing
- hole
- component
- assembly
- Prior art date
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F47/00—Smokers' requisites not otherwise provided for
Definitions
- the present disclosure generally relates to a vaporization device, and in particular, to an electronic device that provides an aerosol.
- an electronic cigarette is an electronic product that heats and atomizes an atomizable solution and generates an aerosol for users to inhale.
- an electronic cigarette product includes a casing, an oil storage chamber, an atomization chamber, a heating component, an air inlet, an air flow channel, an air outlet, a power supply device, a sensing device, and a control device.
- the oil storage chamber is used for storing vaporizable solution
- the heating component is used for heating and atomizing the atomizable solution and generating aerosol.
- the air inlet and the atomizing chamber communicate with each other, and provide air to the heating assembly when the user inhales.
- the aerosol generated by the heating element is first generated in the atomization chamber, and then inhaled by the user through the air flow channel and the air outlet.
- the power supply device provides the power required by the heating element, and the control device controls the heating time of the heating element according to the user's inhalation action detected by the sensing device.
- the shell covers the above-mentioned components.
- the e-liquid In the manufacturing process of electronic cigarettes, the e-liquid is usually injected first and then sealed.
- the sealed e-liquid container is likely to cause e-liquid leakage in the subsequent assembly process, which will make the quality of the product difficult to control.
- the sealed e-liquid container is also prone to leakage due to temperature changes during transportation, which affects the yield of the product.
- the generated aerosol may condense in each cavity or channel to form a liquid.
- the aerosol may condense to form liquid in the cavity or passage such as the atomization chamber, the air inlet, the air flow channel, or the air outlet.
- the liquid in the cavities or channels may leak during the user's use of the electronic cigarette.
- the e-liquid may also leak if it is not properly stored. Such leakage will contaminate the user's clothes, pants or other valuables carried with him, thereby causing a bad user experience.
- the e-liquid is heated by the heating element to generate aerosol. If the current cannot pass through the heating element, the heating element cannot generate aerosol. In addition, if the e-liquid cannot reach the heating element smoothly, the heating element cannot generate aerosol. Failure to generate aerosol will cause a bad user experience.
- the atomizing device includes a bracket, a first sealing component, and a second sealing component.
- the first sealing component is a part of the bracket, and the first sealing component covers the top part of the bracket.
- the second sealing component is a part of the bracket and is located in the first recess of the bracket.
- the atomization device includes a housing, a bracket, a first sealing component, a storage compartment, a heating component, and a second sealing component.
- the first sealing component is a part of the bracket.
- the storage compartment is bounded by the first sealing component and the shell.
- the heating element is located in the first recess of the bracket.
- the second sealing component is a part of the bracket and is located between the bracket and the heating component.
- FIG. 1A, FIG. 1B, and FIG. 1C are schematic diagrams of the exploded structure of cigarette cartridges according to some embodiments of the application.
- FIGS. 2A, 2B, and 2C are schematic diagrams of the housing of some embodiments of the application.
- 3A and 3B are schematic diagrams of the liquid absorption assembly of some embodiments of the application.
- 4A, 4B, and 4C are schematic diagrams of the sealing assembly of some embodiments of the application.
- FIG. 5A, FIG. 5B, FIG. 5C, FIG. 5D, and FIG. 5E are schematic diagrams of brackets according to some embodiments of the application.
- 6A, 6B, and 6C are schematic diagrams of the sealing assembly of some embodiments of the application.
- FIG. 7A is a schematic diagram of the sealing assembly of some embodiments of the application.
- 8A, 8B, and 8C are schematic diagrams of heating components according to some embodiments of the application.
- 9A, 9B, and 9C are schematic diagrams of the base of some embodiments of the application.
- FIG. 9D is a cross-sectional view of the base of some embodiments of the application.
- FIG. 10 is a schematic diagram of the spring leaf of some embodiments of the application.
- FIG. 11A, FIG. 11B, FIG. 11C, FIG. 11D, and FIG. 11E are schematic diagrams of the combination of the sealing assembly and the bracket according to some embodiments of the application.
- Fig. 12A, Fig. 12B, Fig. 12C, Fig. 12D, Fig. 12E, Fig. 12F, Fig. 12G are schematic diagrams of the cartridge combination according to some embodiments of the application.
- Figures 13A and 13B are cross-sectional views of cartridges according to some embodiments of the application.
- 14A and 14B are schematic diagrams of gas channels in some embodiments of the application.
- 15A, 15B, and 15C are schematic diagrams of gas channels in some embodiments of the application.
- 16A, 16B, and 16C are schematic diagrams of the sealing assembly and the bracket of some embodiments of the application.
- Figure 17 shows a schematic diagram of the sealing assembly of some embodiments of the application.
- FIG. 18A shows a schematic diagram of the sealing assembly of some embodiments of the application.
- 18B, 18C, 18D, and 18E show cross-sectional views of the sealing assembly of some embodiments of the application.
- 19A to 19H show schematic diagrams of the sealing assembly of some embodiments of the application.
- FIG. 20 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Fig. 21 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Figure 22 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Figure 23 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Figure 24 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- FIG. 25 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Fig. 26 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Figure 27 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Fig. 28 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Figure 29 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- Fig. 30 shows a cross-sectional view of a cartridge according to some embodiments of the application.
- first feature on or on the second feature may include embodiments in which the first feature and the second feature are formed in direct contact, and may also include additional features that may be formed on An embodiment between the first feature and the second feature so that the first feature and the second feature may not be in direct contact.
- present disclosure may repeat reference numerals and/or letters in various examples. This repetition is for the purpose of simplification and clarity, and does not in itself indicate the relationship between the various embodiments and/or configurations discussed.
- the electronic atomizer device may also be called an electronic cigarette, and the electronic atomizer device includes an electronic atomizer device main body and an electronic atomizer, and the electronic atomizer device main body is also called a cigarette.
- the rod (not shown), the electronic atomizer is also called the cartridge 10.
- the cartridge and the cigarette rod are separate and separate structural parts, and the cartridge can be plugged and connected to the cigarette rod.
- the cartridge and the cigarette rod are combined to form an electronic cigarette.
- the cartridge and the cigarette rod may be integrally formed structural members.
- FIG. 1A, FIG. 1B, and FIG. 1C are schematic diagrams of the exploded structure of the cartridge 10 according to some embodiments of the application.
- the cartridge 10 includes a housing 11, a liquid suction component 12, a sealing component 13, a bracket 14, a sealing component 15, a heating component 16 and a base 17.
- the housing 11 can be similar to a flat and long cylindrical body.
- the housing 11 includes a mouth pieice 11 m.
- the mouthpiece cover 11m is in contact with the mouth of the user of the electronic cigarette.
- the flat housing 11 or the nozzle cover 11m can correspond to the shape of the user's mouth, so that the user can easily hold the nozzle cover 11m.
- the material of the housing 11 can be hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the housing 11 includes an opening 11g. The mouth of the e-cigarette user inhales gas or mist through the opening 11g.
- the housing 11 includes a hole 11h that can be engaged with the protrusion 17p of the base 17 (see FIG. 9A). When the hole 11h is engaged with the protrusion 17p, the housing 11 and the base 17 are engaged.
- the hole 11h may be a mortise
- the protrusion 17p may be a tenon.
- the housing 11 contains a space 11c. The space 11c is defined by the housing 11.
- the housing 11 may include a storage compartment and a channel, wherein the storage compartment can store fluid, and the fluid can flow through the channel.
- 3A and 3B are schematic diagrams of the liquid absorption assembly 12 according to some embodiments of the application.
- the material of the liquid absorbing component 12 may include cotton, but it can be selected according to the actual situation and is not limited to this.
- the material of the liquid absorbing component 12 may include a high molecular polymer.
- the liquid absorbing component 12 may include a non-woven fabric.
- the liquid absorbent assembly 12 may include absorbent paper.
- the liquid absorbent assembly 12 may include cotton cloth.
- the liquid absorbing assembly 12 may include a multilayer structure.
- the liquid absorbent assembly 12 may include two layers of absorbent paper.
- the liquid absorbent assembly 12 may include two layers of cotton cloth.
- the liquid absorbent assembly 12 may include two layers of non-woven fabric.
- the liquid absorbing component 12 may include a multilayer composite structure. In some embodiments, the liquid absorbing component 12 may include a composite structure composed of non-woven fabric and cotton fabric. In some embodiments, the liquid absorbent assembly 12 may include a composite structure composed of non-woven fabric and absorbent paper. In some embodiments, the liquid absorbent assembly 12 may include a composite structure composed of cotton cloth and absorbent paper.
- the liquid suction assembly 12 may be tubular. Both ends of the liquid absorbing assembly 12 have openings 12g1 and 12g2. In some embodiments, the opening 12g1 is away from the base 17 and the opening 12g2 is close to the base 17. In some embodiments, the shape of the openings 12g1 and 12g2 at both ends of the liquid absorbing assembly 12 may be a circle, a triangle, a diamond or a rectangle.
- FIG. 4A, 4B, and 4C are schematic diagrams of the sealing assembly 13 according to some embodiments of the application.
- the material of the sealing component 13 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- FIG. 4A shows the top surface and side surfaces of the sealing component 13, where the top surface of the sealing component 13 is a surface close to the liquid suction component 12.
- the sealing assembly 13 includes a mesa 13m and an opening 13g.
- the shape of the platform 13m may be rectangle, triangle, diamond or circle, but it is not limited thereto.
- the opening 13g is located on the platform 13m.
- the ring structure 13r1 surrounds the opening 13g.
- the ring structure 13r1 protrudes from the platform 13m.
- the area of the top surface of the ring structure 13r1 is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 13r1 is a trapezoid or triangle with an upper base smaller than a lower base.
- the opening 13g may be a crater-shaped opening.
- the sealing assembly 13 includes a recess 13ca1. Along the long axis of the sealing assembly 13, the recesses 13ca1 are located on both sides of the opening 13g.
- the shape of the recess 13ca1 is selected to be suitable for the outer shape of the sealing assembly 13 and the outer shape of the platform 13m1, and is not limited to a circle, a triangle, a diamond or a rectangle.
- the sealing assembly 13 includes a flange 13f1.
- the flange 13f1 surrounds the circumference or outside of the sealing assembly 13.
- the flange 13f1 protrudes radially outward from the sealing assembly 13.
- the sealing component 13 includes a top surface 13ts, a side wall 13sw, and a ramp surface 13rs.
- the flange 13f1 surrounds the side wall 13sw of the sealing assembly 13.
- the flange 13f1 protrudes radially outward from the side wall 13sw of the sealing assembly 13.
- the platform 13m protrudes from the top surface 13ts.
- the top surface 13ts is connected to the inclined surface 13rs.
- the inclined surface 13rs is connected to the side wall 13sw.
- FIG. 4B shows the top surface and side surfaces of the sealing component 13, where the top surface of the sealing component 13 is a surface close to the liquid suction component 12.
- the opening 13g is located on the platform 13m.
- the ring structure 13r1 surrounds the opening 13g.
- the ring structure 13r1 protrudes from the platform 13m.
- the opening 13g is a crater-shaped opening.
- the flange 13f1 surrounds the side wall 13sw of the silica gel 13.
- the flange 13f1 protrudes radially outward from the side wall 13sw of the sealing assembly 13.
- the platform 13m protrudes from the top surface 13ts.
- the recesses 13ca1 are located on both sides of the opening 13g.
- the shape of the recess 13ca1 is selected to be suitable for the outer shape of the sealing assembly 13 and the outer shape of the platform 13m1.
- the top surface 13ts is connected to the inclined surface 13rs.
- the inclined surface 13rs is connected to the side wall 13sw.
- the sealing assembly 13 includes a hole 13h1.
- the hole 13h1 is located in the recess 13ca1.
- the hole 13h1 is located on the bottom surface of the recess 13ca1.
- the holes 13h1 are located on both sides of the opening 13g.
- the sealing assembly 13 includes a hole 13h2.
- the hole 13h2 is located in the recess 13ca1.
- the hole 13h2 is located on the sidewall 13sw1 and the bottom 13b1 of the recess 13ca1 (as shown in FIG. 4C).
- the hole 13h2 is located on the bottom 13b1 of the recess 13ca1 (as shown in FIG. 4C).
- the hole 13h2 is located on the side wall 13sw1 of the recess 13ca1 (as shown in FIG. 4C). Along the long axis of the sealing assembly 13, the holes 13h2 are located on both sides of the opening 13g.
- FIG. 4C shows the bottom surface and the side surface of the sealing component 13, where the bottom surface of the sealing component 13 is a surface close to the base 17.
- the sealing assembly 13 includes an opening 13g.
- the ring structure 13r2 surrounds the opening 13g.
- a groove 13gr1 surrounds the ring structure 13r2. Because of the ring structure 13r2 surrounding the opening 13g and the groove 13gr1 surrounding the ring structure 13r2, the opening 13g is a crater-shaped opening.
- the sealing assembly 13 includes a hole 13h1.
- the hole 13h1 is located on the bottom surface of the recess 13ca1.
- the holes 13h1 are located on both sides of the opening 13g.
- the sealing assembly 13 includes a hole 13h2.
- the hole 13h2 is located in the recess 13ca1.
- the hole 13h2 is located on the side wall 13sw1 and the bottom 13b1 of the recess 13ca1.
- the hole 13h2 is located on the bottom 13b1 of the recess 13ca1.
- the hole 13h2 is located on the side wall 13sw1 of the recess 13ca1.
- the holes 13h2 are located on both sides of the opening 13g.
- the sealing assembly 13 includes a flange 13f2.
- the flange 13f2 surrounds the side wall 13sw of the silica gel 13.
- the flange 13f1 protrudes radially outward from the outer side of the side wall 13sw of the sealing assembly 13.
- the flange 13f2 protrudes radially inward from the inner side of the side wall 13sw of the sealing assembly 13.
- the sealing assembly 13 includes a groove 13gr2.
- the side wall 13sw of the sealing assembly 13 and the side wall 13sw1 of the recess 13ca1 define the groove 13gr2.
- the groove 13gr2 is located between the flange 13f2 and the side wall 13sw1 of the recess 13ca1.
- FIG. 5A, FIG. 5B, FIG. 5C, FIG. 5D, and FIG. 5E are schematic diagrams of the bracket 14 of some embodiments of the application.
- the material of the bracket 14 can be hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the bracket 14 includes a tube structure 14t.
- the tube 14t protrudes from the bracket 14.
- the tube structure 14t includes an opening 14g1.
- the shape of the opening 14g1 may be circular. In some embodiments, the shape of the opening 14g1 may be rectangular, triangular, or rhombic, but is not limited to it.
- the bracket 14 includes a ring structure 14r1.
- the ring structure 14r1 surrounds the tube structure 14t.
- the ring structure 14r1 protrudes from the bracket 14.
- the ring structure 14r1 protrudes from the top portion 14tp.
- a groove 14gr1 is formed between the ring structure 14r1 and the pipe structure 14t.
- the area of the top surface of the ring structure 14r1 is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 14r1 is a trapezoid or triangle with an upper base smaller than a lower base.
- the bracket 14 includes vents 14v1 and 14v2. Air holes 14v1 and 14v2 are formed in the top portion 14tp (refer to FIG. 5B). In some embodiments, one side of the bracket 14 has two air holes 14v1, and one side of the bracket 14 has one air hole 14v2, so the bracket 14 may have a total of four air holes 14v1 and two air holes 14v2. In some embodiments, the bracket 14 may have a larger number of air holes. In some embodiments, the bracket 14 may have a smaller number of air holes.
- the air holes 14v1 and 14v2 are defined by grooves recessed in the surface of the top portion 14tp.
- the bracket 14 includes a fluid passage 14vp connected to and in fluid communication with the air hole 14v1.
- the fluid channel 14vp can be serrated to prevent the e-liquid from leaking out.
- the fluid channel 14vp has several directional turns. In some embodiments, the fluid channel 14vp may undergo five directional turns before reaching the air hole 14v1 from the opening 14g3. In some embodiments, the number of turns of the fluid channel 14vp from the opening 14g3 to the air hole 14v1 may be greater. In some embodiments, the number of turns of the fluid channel 14vp from the opening 14g3 to the air hole 14v1 may be less.
- the fluid channel 14vp may also be a straight line.
- the bracket 14 has two fluid channels 14vp on one side, so the bracket 14 can have four fluid channels 14vp in total.
- the bracket 14 may have a larger number of fluid channels. In some embodiments, the bracket 14 may have a smaller number of fluid channels.
- the bracket 14 includes an opening 14g2 and an opening 14g3.
- the bracket 14 contains a fluid channel 14gc.
- one side of the bracket 14 has an opening 14g2, an opening 14g3 and a fluid channel 14gc, so the bracket has two openings 14g2, two openings 14g3 and two fluid channels 14gc.
- the fluid channel 14gc is defined by a groove recessed in the surface of the bracket.
- the opening 14g1 is in fluid communication with the opening 14g2.
- the opening 14g2 is in fluid communication with the fluid channel 14gc.
- the fluid passage 14gc is in fluid communication with the opening 14g3.
- the opening 14g3 is in fluid communication with the fluid channel 14vp.
- the bracket 14 includes a tube structure 14t.
- the tube 14t protrudes from the bracket 14.
- the tube structure 14t includes an opening 14g1.
- the shape of the opening 14g1 may be circular. In some embodiments, the shape of the opening 14g1 may be a rectangle, a triangle, or a diamond, but it is not limited thereto. Near one end of the opening 14g1, the outer diameter of the tube structure 14t gradually becomes smaller. Near one end of the opening 14g1, the thickness of the tube wall of the tube structure 14t gradually becomes smaller.
- the tube structure 14t may have a uniform inner diameter.
- the bracket 14 includes a ring structure 14r1.
- the ring structure 14r1 surrounds the tube structure 14t.
- the ring structure 14r1 protrudes from the bracket 14.
- the ring structure 14r1 protrudes from the top portion 14tp.
- a groove 14gr1 is formed between the ring structure 14r1 and the pipe structure 14t.
- the area of the top surface of the ring structure 14r1 is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 14r1 is a trapezoid or triangle with an upper base smaller than a lower base.
- the bracket 14 includes air holes 14v1 and 14v2.
- one side of the bracket 14 has two air holes 14v1, and one side of the bracket 14 has one air hole 14v2, so the bracket 14 has a total of four air holes 14v1 and two air holes 14v2.
- the air holes 14v1 and 14v2 are defined by grooves recessed in the surface of the bracket.
- the bracket 14 includes a fluid passage 14vp connected to and in fluid communication with the air hole 14v1.
- the fluid channel 14vp can be serrated to prevent the e-liquid from leaking out.
- the fluid channel 14vp may also be a straight line.
- the bracket 14 has two fluid channels 14vp on one side, so the bracket 14 has four fluid channels 14vp in total.
- the bracket 14 includes an opening 14g2 and an opening 14g3.
- the bracket 14 contains a fluid channel 14gc.
- one side of the bracket 14 has an opening 14g2, an opening 14g3 and a fluid channel 14gc, so the bracket has two openings 14g2, two openings 14g3 and two fluid channels 14gc.
- the fluid passage 14gc is defined by a groove recessed in the surface of the bracket.
- the opening 14g1 is in fluid communication with the opening 14g2.
- the opening 14g2 is in fluid communication with the fluid channel 14gc.
- the fluid passage 14gc is in fluid communication with the opening 14g3.
- the opening 14g3 is in fluid communication with the fluid channel 14vp.
- the bracket 14 includes a recess 14ca1.
- recesses 14ca1 are located on both sides of the tube structure 14t.
- the shape of the recess 14ca1 is selected to be suitable for the outer shape of the sealing component 14, the outer shape of the tube structure 14t, and the outer shape of the ring structure 14r1, and is not limited to a circle, a triangle, a diamond or a rectangle.
- the recess 14ca1 of the bracket 14 corresponds to the recess 13ca1 of the sealing assembly 13.
- the bracket 14 includes a tube structure 14t.
- the tube 14t protrudes from the bracket 14.
- the tube structure 14t includes an opening 14g1.
- the shape of the opening 14g1 may be circular. In some embodiments, the shape of the opening 14g1 may be rectangular, triangular, or rhombic, but is not limited to it.
- the outer diameter of the tube structure 14t gradually becomes smaller. Near one end of the opening 14g1, the thickness of the tube wall of the tube structure 14t gradually becomes smaller.
- the tube structure 14t has a uniform inner diameter.
- the bracket 14 includes a ring structure 14r1.
- the ring structure 14r1 surrounds the tube structure 14t.
- the ring structure 14r1 protrudes from the bracket 14.
- the ring structure 14r1 protrudes from the top portion 14tp.
- a groove 14gr1 is formed between the ring structure 14r1 and the pipe structure 14t.
- the area of the top surface of the ring structure 14r1 is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 14r1 is a trapezoid or triangle with an upper base smaller than a lower base.
- the bracket 14 includes air holes 14v1 and 14v2. Air holes 14v1 and 14v2 are formed in the top portion 14tp. In some embodiments, one side of the bracket 14 has two air holes 14v1, and one side of the bracket 14 has one air hole 14v2, so the bracket 14 has a total of four air holes 14v1 and two air holes 14v2. In some embodiments, the air holes 14v1 and 14v2 are defined by grooves recessed in the surface of the top portion 14tp.
- the bracket 14 includes a fluid passage 14vp connected to and in fluid communication with the air hole 14v1.
- the fluid channel 14vp can be serrated to prevent the e-liquid from leaking out. In some embodiments, the fluid channel 14vp may also be a straight line. . In some embodiments, the bracket 14 has two fluid channels 14vp on one side, so the bracket 14 has four fluid channels 14vp in total.
- the bracket 14 includes an opening 14g2 and an opening 14g3.
- the bracket 14 contains a fluid channel 14gc.
- one side of the bracket 14 has an opening 14g2, an opening 14g3 and a fluid channel 14gc, so the bracket has two openings 14g2, two openings 14g3 and two fluid channels 14gc.
- the fluid channel 14gc is defined by a groove recessed in the surface of the bracket.
- the opening 14g1 is in fluid communication with the opening 14g2.
- the opening 14g2 is in fluid communication with the fluid channel 14gc.
- the fluid passage 14gc is in fluid communication with the opening 14g3.
- the opening 14g3 is in fluid communication with the fluid channel 14vp.
- the bracket 14 includes a recess 14ca1.
- recesses 14ca1 are located on both sides of the tube structure 14t.
- the shape of the recess 14ca1 is selected to be suitable for the outer shape of the sealing component 14, the outer shape of the tube structure 14t, and the outer shape of the ring structure 14r1, and is not limited to a circle, a triangle, a diamond or a rectangle.
- the recess 14ca1 of the bracket 14 corresponds to the recess 13ca1 of the sealing assembly 13.
- the bracket 14 includes a hole 14h1.
- the hole 14h1 is located in the recess 14ca1.
- the hole 14h1 is located on the bottom surface of the recess 14ca1.
- the holes 14h1 are located on both sides of the opening 14g1.
- the bracket 14 includes a hole 14h2.
- the hole 14h2 is located in the recess 14ca1.
- the hole 14h2 is located on the sidewall and bottom of the recess 14ca1.
- the hole 14h2 is located on the bottom of the recess 14ca1.
- the hole 14h2 is located on the sidewall of the recess 14ca1.
- the holes 14h2 are located on both sides of the opening 14g1.
- FIG. 5B and 5C show the top surface and the side surface of the bracket 14.
- FIG. 5D shows the side and bottom surfaces of the bracket 14.
- the bracket 14 includes a tube structure 14t. The tube 14t protrudes from the bracket 14.
- the bracket 14 includes air holes 14v1 and 14v2. Air holes 14v1 and 14v2 are formed in the top portion 14tp.
- one side of the bracket 14 has two air holes 14v1, and one side of the bracket 14 has one air hole 14v2, so the bracket 14 has a total of four air holes 14v1 and two air holes 14v2.
- the air holes 14v1 and 14v2 are defined by grooves recessed in the surface of the top portion 14tp.
- the bracket 14 includes a fluid passage 14vp connected to and in fluid communication with the air hole 14v1.
- the fluid channel 14vp can be serrated to prevent the e-liquid from leaking out.
- the fluid channel 14vp may also be a straight line.
- the bracket 14 has two fluid channels 14vp on one side, so the bracket 14 has four fluid channels 14vp in total.
- the bracket 14 includes an opening 14g2 and an opening 14g3.
- the bracket 14 contains a fluid channel 14gc.
- one side of the bracket 14 has an opening 14g2, an opening 14g3 and a fluid channel 14gc, so the bracket has two openings 14g2, two openings 14g3 and two fluid channels 14gc.
- the fluid channel 14gc is defined by a groove recessed in the surface of the bracket.
- the opening 14g1 is in fluid communication with the opening 14g2.
- the opening 14g2 is in fluid communication with the fluid channel 14gc.
- the fluid passage 14gc is in fluid communication with the opening 14g3.
- the opening 14g3 is in fluid communication with the fluid channel 14vp.
- the bracket 14 includes a recess 14ca2.
- the recess 14ca2 is defined by the bottom surface 14b1 and the side wall 14sw1 of the bracket 14.
- the bracket 14 includes a ring structure 14r2.
- the ring structure 14r2 is in the recess 14ca2.
- the ring structure 14r2 is on the bottom surface 14b1 of the recess 14ca2.
- the ring structure 14r2 protrudes from the bottom surface 14b1.
- the area of the top surface of the ring structure 14r2 is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 14r2 is a trapezoid or triangle with an upper base smaller than a lower base.
- the bracket 14 includes a ring structure 14r3.
- the ring structure 14r2 is in the recess 14ca2.
- the ring structure 14r3 is on the bottom surface 14b1 of the recess 14ca2.
- the ring structure 14r3 protrudes from the bottom surface 14b1.
- the area of the top surface of the ring structure 14r3 is smaller than the area of the bottom surface.
- the shape of the longitudinal section of the ring structure 14r3 is a trapezoid or triangle with an upper base smaller than a lower base.
- the ring structure 14r3 is located on both sides of the ring structure 14r2.
- FIG. 5E shows the bottom surface of the bracket 14.
- the bracket 14 includes a recess 14ca2.
- the recess 14ca2 is defined by the bottom surface 14b1 and the side wall 14sw1 of the bracket 14.
- the bracket 14 includes a ring structure 14r2.
- the ring structure 14r2 is in the recess 14ca2.
- the ring structure 14r2 is on the bottom surface 14b1 of the recess 14ca2.
- the ring structure 14r2 protrudes from the bottom surface 14b1.
- the hole 14h2 is in the recess 14ca2.
- the hole 14h2 is on the bottom surface 14b1.
- the ring structure 14r2 surrounds the hole 14h2.
- the ring structure 14r2 surrounds the two holes 14h2.
- the area of the top surface of the ring structure 14r2 is smaller than the area of the bottom surface thereof.
- the shape of the longitudinal section of the ring structure 14r2 is a trapezoid or triangle with an upper base smaller than a lower base.
- the bracket 14 includes a ring structure 14r3.
- the ring structure 14r2 is in the recess 14ca2.
- the ring structure 14r3 is on the bottom surface 14b1 of the recess 14ca2.
- the ring structure 14r3 protrudes from the bottom surface 14b1.
- the hole 14h1 is in the recess 14ca2.
- the hole 14h1 is on the bottom surface 14b1.
- the ring structure 14r3 surrounds the hole 14h1.
- the area of the top surface of the ring structure 14r3 is smaller than the area of the bottom surface.
- the shape of the longitudinal section of the ring structure 14r3 is a trapezoid or triangle with an upper base smaller than a lower base.
- the ring structure 14r3 is located on both sides of the ring structure 14r2.
- FIG. 6A, 6B, and 6C are schematic diagrams of the sealing assembly 15 according to some embodiments of the application.
- the material of the sealing component 15 can be silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- one surface of the sealing component 15 includes a hole 15h1 and a hole 15h2.
- the two holes 15h2 are respectively located on both sides of the hole 15h1.
- the hole 15h2 penetrates the sealing assembly 15.
- the sealing assembly 15 includes a side wall 15sw1.
- the sealing assembly 15 includes flanges 15f1, 15f2, and 15f3.
- the flanges 15f1, 15f2, and 15f3 protrude radially outward from the side wall 15sw1.
- the sealing assembly 15 includes an opening 15g1.
- the opening 15g1 is located on the side wall 15sw1.
- the opening 15g1 is away from the hole 15h1.
- the hole 15h1 may be in fluid communication with the opening 15g1.
- the sealing component 16 includes two openings 15g1, and the two openings 15g1 are symmetrically arranged based on the long axis of the sealing component.
- one surface of the sealing component 15 includes holes 15h1 and 15h2.
- the two holes 15h2 are respectively located on both sides of the hole 15h1.
- the hole 15h2 penetrates the sealing assembly 15.
- the sealing assembly 15 includes a side wall 15sw1.
- the sealing assembly 15 includes flanges 15f1, 15f2, and 15f3.
- the flanges 15f1, 15f2, and 15f3 protrude radially outward from the side wall 15sw1.
- the sealing assembly 15 includes an opening 15g1.
- the opening 15g1 is located on the side wall 15sw1.
- the opening 15g1 is away from the hole 15h1.
- the hole 15h1 may be in fluid communication with the opening 15g1.
- the sealing component 16 includes two openings 15g1, and the two openings 15g1 are symmetrically arranged based on the long axis of the sealing component.
- one surface of the sealing component 15 includes a hole 15h2 and an opening 15g2.
- the two holes 15h2 are respectively located on both sides of the opening 15g2.
- the hole 15h2 penetrates the sealing assembly 15.
- the surface including the hole 15h2 and the opening 15g2 is opposite to the surface including the holes 15h1 and 15h2.
- the sealing assembly 15 includes a side wall 15sw1.
- the sealing assembly 15 includes flanges 15f1, 15f2, and 15f3.
- the flanges 15f1, 15f2, and 15f3 protrude radially outward from the side wall 15sw1.
- the sealing assembly 15 includes an opening 15g1.
- the opening 15g1 is located on the side wall 15sw1.
- the sealing component 16 includes two openings 15g1, and the two openings 15g1 are symmetrically arranged based on the long axis of the sealing component.
- the opening 15g1 is close to the opening 15g2.
- the opening 15g1 is in fluid communication with the opening 15g2.
- the hole 15h1 may be in fluid communication with the opening 15g1 and the opening 15g2.
- FIG. 7A is a schematic diagram of the sealing assembly 25 according to some embodiments of the application.
- one surface of the sealing component 25 includes a hole 25h1 and a hole 25h2.
- Two holes 25h2 are respectively located on both sides of the hole 25h1.
- the hole 25h2 penetrates the sealing assembly 25.
- the sealing assembly 25 includes a side wall 25sw1.
- the sealing assembly 25 includes a flange 25f1 and a flange 25f2.
- the flanges 25f1 and 25f2 protrude radially outward from the side wall 25sw1.
- the other surface of the sealing element 25 includes an opening 25g2 (not shown in FIG. 7A) and a hole 25h2.
- the hole 25h1 may be in fluid communication with the opening 25g2.
- the hole 25h1, hole 25h2, side wall 25sw1, flange 25f1, flange 25f2, and opening 25g2 of the sealing component 25 are respectively the same as the hole 15h1, hole 15h2, side wall 15sw1, flange 15f1, flange 15f2, and opening 15g2 of the sealing component 15 Correspondingly have similar functions.
- the heating element 16 includes a recess 16ca and a flange 16f.
- a flange 16f is located on one side of the heating assembly 16 and protrudes outward.
- the two flanges 16f are respectively located on both sides of the recess 16ca.
- both the opening of the recess 16ca and the flange 16f are located above the heating element 16.
- the opening of the recess 16ca is located above the heating assembly 16, and the flange 16f is located below the heating assembly 16.
- the heating element 16 can be formed of a porous material, and the porous material can absorb the e-liquid to be atomized.
- the heating element 16 may be formed of a heat-resistant material, and the heat-resistant material can withstand the high temperature used to atomize the smoke oil without deterioration or combustion.
- the heating element 16 may be formed of a porous heat-resistant material, such as ceramic.
- the heating assembly 16 includes a flange 16f.
- a flange 16f is located on one side of the heating assembly 16 and protrudes outward.
- the two flanges 16f are located on both sides of the heating assembly 16 respectively.
- the flange 16f is located above the heating assembly 16.
- the heating element 16 has an appearance similar to a "T" shape.
- the flange 16f is located under the heating assembly 16.
- the shape of the heating element 16 is similar to an "inverted T" shape.
- the heating element 16 can be formed of a porous material, and the porous material can absorb the e-liquid to be atomized.
- the heating element 16 may be formed of a heat-resistant material, and the heat-resistant material can withstand the high temperature used to atomize the smoke oil without deterioration or combustion.
- the heating element 16 may be formed of a porous heat-resistant material, such as ceramic.
- the heating assembly 16 includes a flange 16f.
- a flange 16f is located on one side of the heating assembly 16 and protrudes outward.
- the two flanges 16f are located on both sides of the heating assembly 16 respectively.
- the other surface of the heating element 16 includes the contact 16c and the heating circuit 16hc.
- the two contacts 16c are located on both sides of the heating circuit 16hc.
- the contact 16c and the heating circuit 16hc are made of conductive material.
- the resistance of the conductive material of the heating circuit 16hc is higher than that of the contact 16c, so that the heating circuit 16hc generates more heat.
- the flange 16f is located above the heating assembly 16.
- the heating element 16 has an appearance similar to a "T" shape.
- the flange 16f is located near the contact point 16c and the lower part of the heating circuit 16hc.
- the shape of the heating element 16 is similar to an "inverted T" shape.
- the heating element 16 can be formed of a porous material, and the porous material can absorb the e-liquid to be atomized.
- the heating element 16 may be formed of a heat-resistant material, and the heat-resistant material can withstand the high temperature used to atomize the smoke oil without deterioration or combustion.
- the heating element 16 may be formed of a porous heat-resistant material, such as ceramic.
- the base 17 includes a post 17c, a spring piece 17s, a protrusion 17p, a side wall 17sw, and flanges 17f1, 17f2.
- the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15, and the heating assembly 16 are housed in the space defined by the housing 11 and the base 17.
- the protrusion 17p protrudes radially outward from the side wall.
- the base 17 includes four symmetrical protrusions 17p
- the housing 11 includes four holes 11h corresponding to the protrusions 17p.
- the pillar 17c may be a cylinder or a corner pillar. If the column 17c is a cylinder, the shape of its bottom or top surface is circular. If 17c is a triangular column, the shape of the bottom or top surface is triangle. If 17c is a quadrangular column, the shape of the bottom or top surface is quadrangular. In some embodiments, the shape of the hole 13h1 of the sealing element 13, the hole 14h1 of the bracket 14 and the hole 15h1 of the sealing element 15 (or the hole 25h1 of the sealing element 25) is the same as the shape of the top surface (or bottom surface) of the column 17c Corresponding. In some embodiments, the pillar 17c is a tapered structure.
- the area of the bottom surface of the pillar 17c is larger than the area of the top surface.
- the diameter of the bottom surface of the column 17c is larger than the diameter of the top surface.
- 17c is a triangular column, the area of the bottom surface of the column 17c is larger than the area of the top surface.
- the flanges 17f1 and 17f2 protrude radially outward from the side wall 17sw.
- the flange 17f2 is located at the lower part of the base 17.
- the protrusion 17p is located between the flanges 17f1 and 17f2.
- the base 17 includes a post 17c, a spring piece 17s, a protrusion 17p, a side wall 17sw, a hole 17h1, an opening 17g1, and flanges 17f1, 17f2.
- the protrusion 17p protrudes radially outward from the side wall.
- the base 17 includes four symmetrical protrusions 17p
- the housing 11 includes four holes 11h corresponding to the protrusions 17p.
- the pillar 17c may be a cylinder or a corner pillar. If the column 17c is a cylinder, the shape of its bottom or top surface is circular. If 17c is a triangular column, the shape of the bottom or top surface is triangle. In some embodiments, the shape of the hole 13h1 of the sealing element 13, the hole 14h1 of the bracket 14 and the hole 15h1 of the sealing element 15 (or the hole 25h1 of the sealing element 25) is the same as the shape of the top surface (or bottom surface) of the column 17c Corresponding. In some embodiments, the pillar 17c is a tapered structure. In some embodiments, the area of the bottom surface of the pillar 17c is larger than the area of the top surface. For example, if the column 17c is a cylinder, the diameter of the bottom surface of the column 17c is larger than the diameter of the top surface.
- the opening 17g1 and the hole 17h1 are located between the posts 17c.
- the opening 17g1 is located between the holes 17h1.
- Two posts 17c are located on both sides of the opening 17g1 and the hole 17h1.
- Two holes 17h1 are located on both sides of the opening 17g1.
- the position of the hole 17h1 corresponds to the position of the spring plate 17s.
- the base 17 includes an opening 17g1.
- the base 17 includes two openings 17 g 1, and the two openings 17 g 1 are symmetrically arranged based on the long axis of the base 17.
- the flanges 17f1 and 17f2 protrude radially outward from the side wall 17sw.
- the flange 17f2 is located at the lower part of the base 17.
- the protrusion 17p is located between the flanges 17f1 and 17f2.
- the base 17 includes a post 17c, a protrusion 17p, a side wall 17sw, flanges 17f1, 17f2, a contact point 17c1, a magnetic component 17m, an opening 17g2, and a fluid channel 17gc.
- the protrusion 17p protrudes radially outward from the side wall.
- the base 17 includes four symmetrical protrusions 17p, and the housing 11 includes four holes 11h corresponding to the protrusions 17p. When the housing 11 and the base 17 are joined, a protrusion 17p will enter a hole 11h, so that the housing 11 and the base 17 are smoothly joined and not separated.
- the pillar 17c may be a cylinder or a corner pillar. If the column 17c is a cylinder, the shape of its bottom or top surface is circular. If 17c is a triangular column, the shape of the bottom or top surface is triangle. In some embodiments, the shape of the hole 13h1 of the sealing element 13, the hole 14h1 of the bracket 14 and the hole 15h1 of the sealing element 15 (or the hole 25h1 of the sealing element 25) is the same as the shape of the top surface (or bottom surface) of the column 17c Corresponding. In some embodiments, the pillar 17c is a tapered structure. In some embodiments, the area of the bottom surface of the pillar 17c is larger than the area of the top surface. For example, if the column 17c is a cylinder, the diameter of the bottom surface of the column 17c is larger than the diameter of the top surface.
- the flanges 17f1 and 17f2 protrude radially outward from the side wall 17sw.
- the flange 17f2 is located at the lower part of the base 17.
- the protrusion 17p is located between the flanges 17f1 and 17f2.
- the opening 17g2 and the contact point 17c1 are located between the magnetic components 17m.
- the opening 17g2 is located between the contact points 17c1.
- the two magnetic components 17m are located on both sides of the opening 17g2 and the contact point 17c1.
- Two contact points 17c1 are located on both sides of the opening 17g2.
- the position of the contact 17c1 corresponds to the position of the spring leaf 17s.
- the fluid channel 17gc is located between the contact points 17c1.
- the fluid channel 17gc is defined by a groove recessed in the bottom surface of the base 17.
- the fluid passage 17gc is in fluid communication with the opening 17g2.
- the opening 17g2 is in fluid communication with the opening 17g1.
- the contact 17c1 is in electrical communication with the spring piece 17s.
- the contact 17c1 can be in contact with a conductive component (not shown) of the cigarette rod.
- the energy from the battery of the cigarette rod is transferred to the contact 17c1, the spring sheet 17s, and the heating element 16 via the conductive component contacting the contact 17c1.
- the magnetic component 17m is magnetically attached to the corresponding magnetic component (not shown) of the cigarette rod. When the magnetic component 17m is magnetically attached to the corresponding magnetic component of the cigarette rod, the cartridge 10 can be correctly positioned to the cigarette rod.
- FIG. 9D is a partial cross-sectional view of the base 17.
- the base 17 includes a post 17c, a spring piece 17s, a protrusion 17p, a side wall 17sw, a hole 17h1, an opening 17g1, a flange 17f1, 17f2, a contact point 17c1.
- the protrusion 17p protrudes radially outward from the side wall.
- the base 17 includes four symmetrical protrusions 17p
- the housing 11 includes four holes 11h corresponding to the protrusions 17p. When the housing 11 and the base 17 are joined, a protrusion 17p will enter a hole 11h, so that the housing 11 and the base 17 are smoothly joined and not separated.
- the pillar 17c may be a cylinder or a corner pillar.
- the shape of the hole 13h1 of the sealing element 13, the hole 14h1 of the bracket 14 and the hole 15h1 of the sealing element 15 (or the hole 25h1 of the sealing element 25) is the same as the shape of the top surface (or bottom surface) of the column 17c Corresponding.
- the pillar 17c is a tapered structure.
- the area of the bottom surface of the pillar 17c is larger than the area of the top surface.
- the opening 17g1 and the hole 17h1 are located between the posts 17c.
- the opening 17g1 is located between the holes 17h1.
- Two posts 17c are located on both sides of the opening 17g1 and the hole 17h1.
- Two holes 17h1 are located on both sides of the opening 17g1.
- the position of the hole 17h1 corresponds to the position of the spring plate 17s.
- the base 17 includes an opening 17g1.
- the base 17 includes two openings 17 g 1, and the two openings 17 g 1 are symmetrically arranged based on the long axis of the base 17.
- the flanges 17f1 and 17f2 protrude radially outward from the side wall 17sw.
- the flange 17f2 is located at the lower part of the base 17.
- the protrusion 17p is located between the flanges 17f1 and 17f2.
- the spring sheet 17s is used to conduct current to the contact 16c of the heating element 16 to increase the temperature of the heating element 16.
- the spring piece 17s is formed of a conductive material.
- the contact 17c1 is in electrical communication with the spring piece 17s. In some embodiments, the contact 17c1 and the spring leaf 17s are formed by a single conductive component. The area of the contact 17c1 is defined by the aperture of the hole 17h1.
- the contact 17c1 can be in contact with a conductive component (not shown) of the cigarette rod. The energy from the battery of the cigarette rod is transferred to the contact 17c1, the spring sheet 17s and the heating assembly 16 through the conductive component contacting the contact 17c1.
- the base 17 is mostly made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited Here.
- hard plastic such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited Here.
- FIG. 10 is a schematic diagram of the spring sheet 17s of some embodiments of the application.
- the base 17 includes two spring pieces 17s.
- the base 17 includes a pair of spring pieces 17s.
- the two spring pieces 17s of the base 17 are symmetrical.
- the leaf spring 17s may include five parts 17s1, 17s2, 17s3, 17s4, and 17s5.
- the spring 17s can be formed by a single conductive component.
- the spring leaf 17s can be integrally formed.
- the spring leaf 17s may be composed of multiple parts.
- the shape of the portion 17s1 is substantially square or rectangular.
- the portion 17s1 extends substantially on the XY plane.
- the contact 17c1 may be formed by the portion 17s1.
- the part 17s1 is connected to the part 17s2.
- the portion 17s1 is electrically connected to the portion 17s2.
- the portion 17s2 is substantially perpendicular to the portion 17s1.
- the portion 17s2 extends substantially on the XZ plane.
- the portion 17s2 extends substantially in the positive Z-axis direction.
- the width of the portion 17s2 on the X axis is smaller than the side length of the portion 17s1. In some embodiments, the width of the portion 17s2 on the X axis is greater than or equal to the side length of the portion 17s1. As the portion 17s2 extends on the Z axis, the width of the portion 17s2 on the X axis becomes smaller.
- the width of the portion 17s2 on the X axis gradually becomes smaller.
- the width of the portion 17s2 on the X axis becomes smaller.
- the width of the portion 17s2 on the X axis gradually becomes smaller.
- the part 17s2 is connected to the part 17s3.
- the portion 17s2 is electrically connected to the portion 17s3.
- the portion 17s3 substantially extends on a plane that forms an angle of 40 to 50 degrees with the XY plane and an angle of 40 to 50 degrees with the XZ plane.
- the portion 17s3 extends substantially along a direction at an angle of 40 to 50 degrees with the positive Y axis and an angle of 40 to 50 degrees with the positive Z axis.
- the width of the portion 17s3 on the X axis is equal to the width of the portion 17s2 on the X axis. In some embodiments, the width of the portion 17s3 on the X axis is smaller or greater than the width of the portion 17s2 on the X axis.
- the width on the X axis is the same.
- the width on the X axis gradually decreases.
- the width of the portion 17s3 on the X axis becomes smaller.
- the width of the portion 17s3 on the X axis gradually becomes smaller.
- the width of the portion 17s3 on the X axis becomes smaller.
- the width of the portion 17s3 on the X axis becomes smaller.
- the width of the portion 17s3 on the X axis gradually decreases.
- the part 17s3 is connected to the part 17s4.
- the portion 17s3 is electrically connected to the portion 17s4.
- the portion 17s4 extends substantially on the XY plane.
- the portion 17s4 extends substantially along the positive Y-axis direction.
- the width of the portion 17s4 on the X axis is equal to the width of the portion 17s3 on the X axis. In some embodiments, the width of the portion 17s4 on the X axis is smaller or greater than the width of the portion 17s3 on the X axis.
- the width on the X axis is the same.
- the width on the X axis gradually decreases.
- the width of the portion 17s4 on the X axis becomes smaller.
- the width of the portion 17s4 on the X axis gradually becomes smaller.
- the width of the portion 17s4 on the X axis becomes smaller.
- the width of the portion 17s3 on the X axis gradually becomes smaller.
- the part 17s4 is connected to the part 17s5.
- the portion 17s4 is electrically connected to the portion 17s5.
- the portion 17s5 extends substantially on a plane at an angle of 40 to 50 degrees with the XY plane and an angle of 40 to 50 degrees with the XZ plane.
- the portion 17s5 extends substantially along a direction at an angle of 40 to 50 degrees with the positive Y axis and an angle of 40 to 50 degrees with the negative Z axis.
- the width of the portion 17s5 on the X axis is equal to the width of the portion 174 on the X axis. In some embodiments, the width of the portion 17s5 on the X axis is smaller or greater than the width of the portion 17s4 on the X axis.
- the width on the X axis is the same. At the junction of the part 17s4 and the part 17s5, the width on the X axis gradually becomes smaller. As the portion 17s5 extends toward the positive Y axis and the negative Z axis, the width of the portion 17s5 on the X axis becomes smaller. As the portion 17s5 extends toward the positive Y axis and the negative Z axis, the width of the portion 17s5 on the X axis gradually becomes smaller. In some embodiments, when the portion 17s5 extends to a certain position toward the positive Y axis and the negative Z axis, the width of the portion 17s5 on the X axis becomes smaller. In some embodiments, after the portion 17s5 extends toward the positive Y axis and the negative Z axis to a certain position, as the portion 17s5 continues to extend, the width of the portion 17s5 on the X axis gradually decreases.
- the part 17s4 of the spring 17s abuts the contact 16c of the heating assembly 16.
- the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15, the heating assembly 16 and the base 17 are combined into the cartridge 10, according to the base 17 and the heating assembly 16 In the space defined between, the height of the spring leaf 17s on the Z axis will be squeezed.
- the spring sheet 17s Because the height of the spring sheet 17s on the Z axis is compressed, the spring sheet 17s generates a force applied to the heating element 16 so that the portion 17s4 of the spring sheet 17s closely abuts the contact point 16c of the heating element 16. The portion 17s4 of the spring sheet 17s closely abuts the contact point 16c of the heating element 16 to reduce the chance of poor contact or disconnection between the spring sheet 17s and the heating element 16.
- FIG. 11A, FIG. 11B, FIG. 11C, FIG. 11D, and FIG. 11E are schematic diagrams of the combination of the sealing assembly 13, the bracket 14, and the sealing assembly 15 according to some embodiments of the application.
- FIG. 11A shows a cross-sectional view along the long axis of the sealing assembly 13 and the bracket 14.
- the upper part is the sealing assembly 13 and the lower part is the bracket 14.
- the sealing component 13 and the bracket 14 are separate components.
- the sealing component 13 and the bracket 14 are a single component.
- the sealing component 13 is combined with the bracket 14 from the upper side of the bracket 14 downward.
- the opening 13g of the sealing assembly 13 corresponds to the opening 14g1 of the bracket 14.
- the hole 13h1 of the sealing assembly 13 corresponds to the hole 14h1 of the bracket 14.
- the hole 13h2 of the sealing assembly 13 corresponds to the hole 14h2 of the bracket 14.
- the recess 13ca1 of the sealing component 13 corresponds to the recess 14ca1 of the bracket 14.
- the groove 13gr1 of the sealing assembly 13 corresponds to the ring structure 14r1 of the bracket 14.
- the ring structure 13r2 of the sealing assembly 13 corresponds to the groove 14gr1 of the bracket 14.
- the groove 13gr2 of the sealing component 13 corresponds to the top part 14tp of the bracket 14.
- FIG. 11B shows a cross-sectional view along the short axis of the bracket 14.
- the bracket 14 of FIG. 11B has not been combined with the sealing assembly 13 yet.
- the upper part of the bracket 14 includes an opening 14g1, a tube structure 14t, a ring structure 14r1, and a groove 14gr1.
- the outer surface of the bracket 14 contains a fluid channel 14vp.
- the fluid channel 14vp is in fluid communication with the opening 14g3 and the air hole 14v1.
- the recess 14ca2 of the bracket 14 includes a ring structure 14r2 and a hole 14h2.
- FIG. 11C shows the combination of the sealing assembly 13 and the bracket 14.
- FIG. 11C shows a cross-sectional view along the short axis of the sealing assembly 13 and the bracket 14.
- the upper part of the bracket 14 includes an opening 14g1, a tube structure 14t, a ring structure 14r1, and a groove 14gr1.
- the outer surface of the bracket 14 contains a fluid channel 14vp.
- the fluid channel 14vp is in fluid communication with the opening 14g3 and the air hole 14v1.
- the recess 14ca2 of the bracket 14 includes a ring structure 14r2 and a hole 14h2.
- the sealing assembly 13 includes a ring structure 13r1, a platform 13m, an inclined surface 13rs, a groove 13gr1, a flange 13f1, a flange 13f2, and a ring structure 13r2.
- the ring structure 13r1 When the sealing assembly 13 is combined with the bracket 14, the ring structure 13r1 is attached to the outer surface of the tube structure 14t. When the sealing assembly 13 is combined with the bracket 14, the ring structure 13r2 is inserted into the groove 14gr1. When the sealing assembly 13 is combined with the bracket 14, the protruding part of the ring structure 13r2 is squeezed and interfered after being inserted into the groove 14gr1 to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the ring structure 14r1 When the sealing assembly 13 is combined with the bracket 14, the ring structure 14r1 is inserted into the groove 13gr1.
- the sealing assembly 13 When the sealing assembly 13 is combined with the bracket 14, because the groove 13gr1 is inserted by the protruding part of the ring structure 14r1, a groove and interference are generated at the corresponding position of the groove 13gr1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing assembly 13 When the sealing assembly 13 is combined with the bracket 14, the upper part 14tp of the bracket 14 is inserted into the groove 13gr2.
- the flange 13f2 When the sealing assembly 13 is combined with the bracket 14, because the upper part 14tp is inserted into the groove 13gr2, the flange 13f2 is squeezed and an interference amount is generated to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference When the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 11D shows a cross-sectional view along the long axis of the sealing assembly 13, the bracket 14 and the sealing assembly 15. In FIG. 11D, the sealing assembly 13 has been combined with the bracket 14.
- the ring structure 13r1 is attached to the outer surface of the tube structure 14t.
- the ring structure 13r2 is inserted into the groove 14gr1.
- the ring structure 13r2 surrounds the tube structure 14t.
- the ring structure 14r1 is inserted into the groove 13gr1.
- the ring structure 14r1 surrounds the opening 13g.
- a groove and interference are generated at the corresponding position of the groove 13gr1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the upper part 14tp of the bracket 14 is inserted into the groove 13gr2.
- the flange 13f2 is squeezed and interfered to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the air hole 14v2 forms a fluid passage between the upper portion 14tp of the bracket 14 and the groove 13gr2.
- the fluid channel can pass through the slits between the sealing assembly 13 and the bracket 14, and through the slits between the sealing assembly 13, the bracket 14 and the housing 11, to balance the storage compartment 11ca for storing e-liquid (such as The pressure shown in FIG. 12A) is the same as the pressure outside the housing 11.
- the upper part is the combination of the sealing assembly 13 and the bracket 14, and the lower part is the sealing assembly 15.
- the sealing component 13 and the sealing component 15 are separate components.
- the sealing component 13 and the sealing component 15 are a single component.
- the sealing assembly 15 includes a hole 15h1, a hole 15h2, an opening 15g1, an opening 15g2, a flange 15f1, a flange 15f2, and a flange 15f3.
- the hole 15h1, the opening 15g1, and the opening 15g2 are in fluid communication.
- the hole 15h1 and the opening 15g2 form a passage through the sealing component 15.
- the hole 15h1 has a shape with a narrow top and a wide bottom.
- the hole 15h1 has a stepped inner surface.
- the hole 15h2 forms a passage through the sealing assembly 15.
- the sealing component 15 is combined with the bracket 14 in the direction from below the bracket 14.
- the hole 15h1 of the sealing assembly 15 corresponds to the hole 14h2 of the bracket 14.
- the hole 15h2 of the sealing assembly 15 corresponds to the hole 14h2 of the bracket 14.
- the opening 15g1 of the sealing assembly 15 corresponds to the opening 14g3 of the bracket 14.
- the sealing component 15 corresponds to the recess 14ca2 of the bracket 14.
- FIG. 11E shows a cross-sectional view along the long axis of the sealing assembly 13, the bracket 14, the sealing assembly 15 and the heating assembly 16.
- FIG. 11D shows a cross-sectional view along the long axis of the sealing assembly 13, the bracket 14, the sealing assembly 15 and the heating assembly 16.
- the sealing assembly 13, the bracket 14, and the sealing assembly 15 have been combined.
- the sealing assembly 15 includes a ring structure 15r.
- the ring structure 15r is provided in the hole 15h1.
- the ring structure 15r is arranged on the stepped inner surface of the hole 15h1.
- the ring structure 15r protrudes from the inner surface of the hole 15h1.
- the ring structure 15r protrudes downward.
- the area of the top surface of the ring structure 15r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 15r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 15r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the hole 15h1 corresponds to the recess 16ca of the heating element 16.
- the bracket 14 and the sealing component 15 accommodates the heating component 16.
- the hole 13h1, the hole 14h1, the hole 15h2 and the recess 16ca are in fluid communication.
- the opening 14g3, the opening 15g1 and the opening 15g2 are in fluid communication.
- the hole 15h1 surrounds the heating assembly 16.
- the heating element 16 abuts the inner surface of the hole 15h1.
- the hole 15h1 surrounds the flange 16f of the heating element 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 15h1.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 15h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 12A, FIG. 12B, FIG. 12C, FIG. 12D, FIG. 12E, FIG. 12F, and FIG. 12G are schematic diagrams of the combination of the cartridge 10 according to some embodiments of the application.
- the housing 11 is shown in FIG. 12A.
- the housing 11 includes an opening 11g, a nozzle cover 11m, a storage compartment 11ca, a fluid channel 11gc, an outer wall 11w, a space 11c, and a hole 11h.
- the housing 11 can be similar to a flat and long cylindrical body.
- the mouthpiece cover 11m is in contact with the mouth of the user of the electronic cigarette.
- the flat housing 11 or the nozzle cover 11m can correspond to the shape of the user's mouth, so that the user can easily hold the nozzle cover 11m.
- the thickness of the outer wall 11w is not uniform. At a distance from the opening 11g, the thickness of the outer wall 11w becomes smaller. At a distance of 11g, the inner surface of the outer wall 11w is
- the storage compartment 11ca is used to store the e-liquid to be atomized.
- the storage compartment 11ca may be bounded by an outer wall 11w and a tubular structure forming a fluid channel 11gc.
- the space 11c is a space for storing other components of the cartridge 10.
- the space 11c is defined by the outer wall 11w.
- the outer wall 11w may be formed of two different materials.
- the inner layer of the outer wall 11w may be formed of a softer material, and the outer layer of the outer wall 11w may be formed of a harder material. If the inner layer of the outer wall 11w is formed of a softer material, it will help seal the e-liquid.
- the outer wall 11w formed of two different materials can be formed by two-color injection molding or other similar methods.
- the material of the housing 11 can be hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the fluid channel 11gc has a tube structure.
- the fluid channel 11gc is in fluid communication with the opening 11g.
- Each end of the fluid channel 11gc has an opening.
- the opening at one end of the fluid channel 11gc is connected to the opening 11g.
- the shape of the openings at both ends of the fluid channel 11gc may be a circle, a triangle, a diamond, or a rectangle.
- the hole 11h can be engaged with the protrusion 17p of the base 17. When the housing 11 is engaged with the base 17, the hole 11h is engaged with the protrusion 17p.
- FIG. 12B shows the housing 11 and the liquid suction assembly 12.
- the housing 11 includes an opening 11g, a nozzle cover 11m, a storage compartment 11ca, a fluid channel 11gc, an outer wall 11w, a space 11c, and a hole 11h.
- the liquid suction assembly 12 is disposed inside the fluid channel 11gc of the housing 11.
- the liquid suction assembly 12 contacts the inner surface of the fluid channel 11gc.
- the material of the liquid absorbing component 12 is cotton, but it can be selected according to the actual situation and is not limited to this.
- the liquid suction assembly 12 is tubular. Both ends of the liquid absorbing assembly 12 have openings 12g1 and 12g2.
- the opening 12g1 is away from the base 17 and the opening 12g2 is close to the base 17.
- the shapes of the openings 12g1 and 12g2 at both ends of the liquid absorbing assembly 12 respectively correspond to the shapes of the openings at both ends of the fluid channel 11gc.
- the shape of the openings 12g1 and 12g2 at both ends of the liquid absorbing assembly 12 may be a circle, a triangle, a diamond or a rectangle.
- FIG. 12C shows the housing 11, the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15, and the heating assembly 16.
- the liquid suction assembly 12 is disposed inside the fluid channel 11gc of the housing 11.
- the sealing assembly 13, the bracket 14, the sealing assembly 15, and the heating assembly 16 are arranged in the space 11c of the housing 11 (as shown in FIG. 12B).
- the storage compartment 11ca is used to store the e-liquid to be atomized.
- the storage compartment 11ca is bounded by an outer wall 11w, a fluid channel 11gc and a sealing assembly 13.
- the storage compartment 11ca is bounded by an outer wall 11w, a tubular structure forming a fluid channel 11gc, a sealing assembly 13 and a bracket 14.
- Fig. 12D is a partial enlarged view of Fig. 12C.
- the tube structure 14t is inserted into the fluid channel 11gc.
- the fluid channel 11gc surrounds the tube structure 14t.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 14g1 of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g2 of the bracket 14 is in fluid communication with the opening 14g1, the liquid suction assembly 12, the fluid channel 11gc, and the opening 11g.
- the fluid channel 11gc has a wall with a decreasing thickness at one end close to the bracket 14.
- the fluid channel 11gc has an opening with a gradually larger diameter at one end close to the bracket 14.
- the fluid passage 11gc has a gradually larger inner diameter at one end close to the bracket 14.
- the fluid channel 11gc has a uniform outer diameter.
- the ring structure 13r1 is attached to the outer surface of the tube structure 14t.
- the shape of the ring structure 13r1 corresponds to the wall of the fluid channel 11gc with a decreasing thickness.
- the shape of the ring structure 13r1 corresponds to the opening of the fluid channel 11gc with a gradually larger diameter.
- the ring structure 13r1 conforms to the wall of the fluid channel 11gc whose thickness decreases.
- the ring structure 13r1 conforms to the opening of the fluid channel 11gc with a gradually larger diameter.
- the thickness of the outer wall 11w becomes smaller.
- the inner surface of the outer wall 11w is stepped.
- the sealing component 13 is combined with the housing 11, the stepped inner surface of the outer wall 11w abuts the inclined surface 13rs of the sealing component 13.
- the sealing assembly 13 is combined with the housing 11, because the stepped inner surface of the outer wall 11w abuts the inclined surface 13rs of the sealing assembly 13, the inclined surface 13rs generates grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing assembly 13 When the sealing assembly 13 is combined with the housing 11, the flange 13f1 of the sealing assembly 13 abuts the inner surface of the outer wall 11. .
- the sealing assembly 13 When the sealing assembly 13 is combined with the housing 11, because the flange 13f1 abuts the inner surface of the outer wall 11, the flange 13f1 is squeezed and interfered to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 15 When the sealing component 15 is combined with the housing 11, the flange 15f3 of the sealing component 15 abuts the inner surface of the outer wall 11 to form a liquid or gas seal.
- the sealing component 15 When the sealing component 15 is combined with the housing 11, the flange 15f3 is pressed against the inner surface of the outer wall 11, and the flange 15f3 is squeezed and interfered to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the air hole 14v2 forms a fluid passage between the upper portion 14tp of the bracket 14 and the groove 13gr2.
- the pressure of the storage compartment 11ca may become smaller and the e-liquid may not easily flow to the depression 16ca.
- the air hole 14v2 can balance the storage compartment 11ca for storing smoke oil (as shown in Figure 12A)
- the pressure in) is the same as the pressure outside the housing 11.
- the seal assembly 15 includes a ring structure 15r.
- the ring structure 15r is provided in the hole 15h1.
- the ring structure 15r is arranged on the stepped inner surface of the hole 15h1.
- the ring structure 15r protrudes from the inner surface of the hole 15h1.
- the ring structure 15r protrudes downward.
- the area of the top surface of the ring structure 15r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 15r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 15r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the hole 15h1 surrounds the heating assembly 16.
- the heating element 16 abuts the inner surface of the hole 15h1.
- the hole 15h1 surrounds the flange 16f of the heating element 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 15h1.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 15h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the storage compartment 11ca, the hole 13h2, the hole 14h2, the hole 15h1, and the recess 16ca are in fluid communication.
- the storage compartment 11ca, the hole 13h1, the hole 14h1, and the hole 15h2 are in fluid communication.
- the opening 14g3, the opening 15g1, and the opening 15g2 are in fluid communication.
- the opening 14g3, the opening 15g1, and the opening 15g2 are not fluidly connected to the storage compartment 11ca, the hole 13h2, the hole 14h2, the hole 15h1, and the recess 16ca.
- the opening 14g3, the opening 15g1, and the opening 15g2 are not fluidly connected to the storage compartment 11ca, the hole 13h1, the hole 14h1, and the hole 15h2.
- the storage compartment 11ca needs to be filled with e-liquid to be atomized.
- the e-liquid may be poured into the storage compartment 11ca in the state shown in FIG. 12C or FIG. 12D.
- the e-liquid can be poured into the storage compartment 11ca from the hole 15h2 on one side, through the hole 14h1 and the hole 13h1 on the same side in the state shown in Fig. 12C or Fig. 12D; the hole 15h2 on the other side
- the hole 14h1 and the hole 13h1 can balance the internal and external pressures of the storage compartment 11ca during the e-liquid filling.
- a fluid channel includes a hole 15h2, a hole 14h1, and a hole 13h1 on the same side, and e-liquid is poured into the storage compartment 11ca through the fluid channel; another fluid channel Including the hole 15h2, the hole 14h1 and the hole 13h1 on the other side, the other fluid channel can balance the internal and external pressure of the storage compartment 11ca during the filling of the e-liquid.
- the base 17 is combined with the housing 11, the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15, the heating assembly 16, and the base 17.
- the base 17 is combined with the housing 11, the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15 and the heating assembly 16 from bottom to top (as shown in FIG. 12C).
- the flange 17f1 of the base 17 abuts against the inner surface of the outer wall 11w of the housing 11 to form a liquid or gas seal.
- the base 17 is mostly made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited Here.
- the flange 17f2 of the base 17 abuts against the lower edge of the outer wall 11w of the housing 11.
- the post 17c of the base 17 will be inserted into the hole 15h2 and the hole 14h1.
- the column structure 17c passes through the hole 15h2 of the sealing assembly 15.
- the hole 15h2 of the sealing assembly 15 surrounds a portion of the column structure 17c.
- the post 17c of the base 17 will be inserted into the hole 15h2 so that the hole 13h1 is not in fluid communication with the hole 14h1.
- Fig. 12F is a partial enlarged view of Fig. 12E.
- the top of the column 17c is approximately at the hole 14h1.
- the post 17c of the base 17 will be inserted into the hole 15h2 and the hole 14h1.
- the column structure 17c passes through the hole 15h2 of the sealing assembly 15.
- the hole 15h2 of the sealing assembly 15 surrounds a portion of the column structure 17c.
- the post 17c of the base 17 will be inserted into the hole 15h2 so that the hole 13h1 is not in fluid communication with the hole 14h1.
- the storage compartment 11ca is not in fluid communication with the hole 15h1.
- the storage compartment 11ca is in fluid communication with the hole 13h2, the hole 14h2, the hole 15h1, and the recess 16ca of the heating assembly 16.
- the opening 14g2 and the opening 14g1 are not in fluid communication with the storage compartment 11ca.
- Fig. 12G is a partial enlarged view of Fig. 12E.
- the opening 17g2, the fluid channel 17gc and the opening 17g1 are in fluid communication. Through the opening 15g1, the opening 14g3, and the fluid channel 14gc (not shown in FIG. 12G), the opening 14g2 can be in fluid communication with the opening 17g2, the fluid channel 17gc, and the opening 17g1.
- the magnetic component 17m can be magnetically attached to the corresponding magnetic component (not shown) of the cigarette rod. When the magnetic component 17m is magnetically attached to the corresponding magnetic component of the cigarette rod, the cartridge 10 can be correctly positioned to the cigarette rod.
- the contact 17c1 can be in contact with a conductive component (not shown) of the cigarette rod. The energy from the battery of the cigarette rod is transferred to the contact 17c1, the spring sheet 17s and the heating assembly 16 through the conductive component contacting the contact 17c1.
- the contact 17c1 can be formed by the portion 17s1 of the spring leaf 17s.
- the post 17c when the base 17 is combined with the housing 11, the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15 and the heating assembly 16 shown in FIG. 12C, the post 17c will create the hole 15h2 of the sealing assembly 15
- the inner surface is squeezed and interference is generated to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the base 17 After pouring the e-liquid into the storage compartment 11ca in the state of FIG. 12C, the base 17 will be combined with the housing 11, the liquid suction assembly 12, the sealing assembly 13, the bracket 14, the sealing assembly 15 and the heating assembly 16 shown in FIG. 12C.
- the e-liquid stored in the storage compartment 11ca can no longer flow out through the hole 13h1, the hole 14h1, and the hole 15h2.
- the e-liquid stored in the storage compartment 11ca can only flow to the recess 16ca of the heating element 16 through the hole 13h2, the hole 14h2 and the hole 15h1, and the heating element 16 can absorb the e-liquid for heating and atomization.
- the storage compartment 11ca is in fluid communication with the hole 13h2, the hole 14h2, the hole 15h1, and the recess 16ca.
- the combined cartridge may not include the flange 15f3 shown in FIG. 12G.
- the flange 17f1, the flange 13f1, and other flanges even if there is no flange 15f3, the cartridge 10 still has sealing properties for the stored e-liquid and the inhaled gas.
- the housing 11 can be similar to a flat and long cylindrical body.
- the mouthpiece cover 11m is in contact with the mouth of the user of the electronic cigarette.
- the flat housing 11 or the nozzle cover 11m can correspond to the shape of the user's mouth, so that the user can easily hold the nozzle cover 11m.
- the hole 11h of the housing 11 is engaged with the protrusion 17p of the base 17.
- the flange 17f2 of the base 17 abuts against the lower edge of the housing 11.
- the flange 17f2 of the base 17 abuts against the lower edge of the outer wall 11w of the housing 11.
- the storage compartment 11ca is in fluid communication with the recess 16ca of the heating assembly 16 via the hole 13h2, the hole 14h2, and the hole 15h1.
- the e-liquid stored in the storage compartment 11ca flows to the recess 16ca of the heating element 16 through the holes 13h2, 14h2, and 15h1, so that the heating element 16 absorbs the e-liquid for heating and atomization.
- the opening 11g is in fluid communication with the fluid channel 11gc, the liquid suction assembly 12, and the opening 14g1.
- the opening 17g2 is in fluid communication with the opening 17g1.
- the opening 17g1 is in fluid communication with the opening 14g1 via the opening 15g2, the opening 15g1, the opening 14g3, the fluid channel 14gc, and the opening 14g2 (not shown in FIG. 13A).
- the opening 17g1 is in fluid communication with the opening 15g2, the opening 15g1, and the opening 14g3.
- the space below the heating element 16 and the opening 17g1 and the opening 15g2 may be referred to as an atomization chamber.
- the space below the contact 16c of the heating element 16 and the heating circuit 16hc, and the space between the opening 17g1 and the opening 15g2 can be referred to as an atomization chamber.
- the gas inhaled from the outside and the atomized e-liquid are mixed in the atomizing chamber.
- the spring sheet 17s is used to conduct current to the contact point 16c of the heating element 16 to increase the temperature of the heating element 16.
- the spring piece 17s is formed of a conductive material.
- the contact 17c1 is in electrical communication with the spring piece 17s.
- the contact 17c1 and the spring leaf 17s are formed by a single conductive component.
- the contact 17c1 is formed by a part of the spring leaf 17s.
- the area of the contact 17c1 is defined by the aperture of the hole 17h1.
- the contact 17c1 can be in contact with a conductive component (not shown) of the cigarette rod.
- the energy from the battery of the cigarette rod is transferred to the contact 17c1, the spring sheet 17s and the heating assembly 16 through the conductive component contacting the contact 17c1.
- the energy of the battery is transferred to the contact 16c of the heating assembly 16 and the heating circuit 16hc via the contact 17c1 and the spring sheet 17s, so as to heat and atomize the smoke oil absorbed by the heating assembly 16.
- the height of the spring sheet 17s is compressed. Because the height of the spring piece 17s is squeezed, the spring piece 17s generates a force applied to the heating element 16 so that the spring piece 17s closely abuts the contact point 16c of the heating element 16. The spring sheet 17s closely abuts the contact point 16c of the heating element 16 to reduce the chance of poor contact or disconnection between the spring sheet 17s and the heating element 16.
- the bracket 14 includes an air hole 14v1 and a fluid channel 14vp.
- the fluid channel 14vp is in fluid communication with the air hole 14v1 and the fluid channel 14gc.
- the pressure of the storage compartment 11ca may become smaller and the e-liquid may not easily flow to the depression 16ca.
- Figure 13B when the external air flows from the fluid channel 17gc (not shown in Figure 13B) and the opening 17g2 (not shown in Figure 13B) to the opening 17g1, and the external air interacts with the mist at the opening 15g2 (or atomization chamber).
- the pressure of the storage compartment 11ca can be connected to the outside via the fluid channel 14vp and the air hole 14v1 in fluid communication with the fluid channel 14gc. Pressure balance.
- FIGS. 14A and 14B are schematic diagrams of gas channels in some embodiments of the application.
- Arrows 14a1, 14a2, 14a3, and 14a4 shown in FIGS. 14A and 14B indicate the path of fluid (such as air) flowing from the outside of the cartridge 10 into the cartridge 10 when the user inhales gas from the opening 11g. 14A, when the user inhales air from the opening 11g, the arrow 14a1 indicates that the outside air flows from the fluid channel 17gc, the opening 17g2, and the opening 17g1 into the underside of the heating element 16 and in the space between the opening 17g1 and the opening 15g2 (ie, the atomization chamber) middle. In the atomization chamber, the heated and atomized e-liquid is mixed with air.
- the arrow 14a1 indicates that the mixed gas flows through the opening 15g2 to the opening 15g1 and the opening 14g3.
- arrow 14a2 indicates that the mixed gas flows from opening 15g1 to opening 14g3.
- the arrow 14a3 indicates that the mixed gas flows from the opening 14g3 to the opening 14g2 via the fluid channel 14gc.
- the arrow 14a4 indicates that the mixed gas flows from the opening 14g2 to the opening 14g1, the fluid channel 11gc, and the opening 11g, and is inhaled by the user through the opening 11g.
- the liquid suction assembly 12 is arranged in the fluid channel 11gc to prevent the mixed gas from being condensed by the e-liquid in the storage compartment 11ca and leaking when the mixed gas flows through the fluid channel 11gc.
- the arrow 15a1 indicates the path of the external air entering the cartridge 10.
- the arrow 15a1 indicates that external air enters the cartridge from the fluid channel 17gc and the opening 17g2, and flows from the opening 17g1 to the opening 15g2, the opening 15g1, and the opening 14g3.
- the arrow 15a2 indicates that part of the gas flows from the opening 14g3 to the fluid channel 14vp and to the air hole 14v1.
- the fluid channel 14vp can be serrated to prevent the e-liquid from leaking out.
- the fluid channel 14vp may also be a straight line. Referring to FIG.
- the arrow 15a3 indicates that part of the gas flows from the opening 14g3 to the fluid channel 14vp, to the air hole 14v1, and to the storage compartment 11ca.
- the pressure of the storage compartment 11ca may become smaller and the e-liquid may not easily flow to the depression 16ca.
- the gas paths indicated by arrows 15a1, 15a2, and 15a3 in FIGS. 15A and 15C can balance the pressure of the storage compartment 11ca and the outside, so that the e-liquid can flow smoothly to the recess 16ca.
- the arrow 15a4 indicates the path of the external air entering the cartridge 10.
- the arrow 15a4 indicates that external air enters the cartridge from the fluid channel 17gc and the opening 17g2, and flows from the opening 17g1 to the opening 15g2, the opening 15g1, and the opening 14g3.
- the arrow 15a5 indicates that part of the gas flows from the opening 14g3 along the slit between the bracket 14 and the housing 11 (not shown in FIG. 15C), and flows to the air hole 14v2.
- the arrow 15a6 indicates that part of the gas flows from the opening 14g3 along the slit between the bracket 14 and the housing 11 (not shown in FIG. 15C), flows to the air hole 14v2, and passes through the slit between the sealing assembly 13 and the bracket 14. Flow to the storage compartment 11ca.
- the e-liquid in the storage compartment 11ca is continuously consumed and reduced, so that the pressure in the storage compartment 11ca gradually decreases.
- negative pressure may be generated.
- the decrease of the pressure in the storage compartment 11ca may make it difficult for the e-liquid to flow to the recess 16ca of the heating assembly 16.
- the heating element 16 does not completely absorb the e-liquid, the high-temperature heating element 16 may burn dry and produce a burnt smell.
- the gas paths indicated by arrows 15a4, 15a5, and 15a6 in FIGS. 15B and 15C can balance the pressure of the storage compartment 11ca and the outside, so that the e-liquid can flow smoothly to the recess 16ca.
- 16A, 16B, and 16C are schematic diagrams of the sealing assembly 23 and the bracket 24 of some embodiments of the application.
- the sealing component 23 corresponds to the sealing component 13 and the sealing component 15.
- the sealing component 23 can be used to replace the sealing component 13 and the sealing component 15.
- the sealing assembly 23 includes a part 231 and a part 232.
- the portion 231 may correspond to the sealing assembly 13.
- the portion 232 may correspond to the sealing component 15 or the sealing component 25.
- the sealing assembly 23 further includes a platform 23m, an inclined surface 23rs, and a flange 23f1.
- the platform 23m corresponds to the platform 13m, and the platform 23m and the platform 13m have similar functions.
- the inclined surface 23rs corresponds to the inclined surface 13rs, and the inclined surface 23rs and the inclined surface 13rs have similar functions.
- the flange 23f1 corresponds to the flange 13f1, and the flange 23f1 and the flange 13f1 have similar functions.
- the bracket 24 corresponds to the bracket 14. In some embodiments, the bracket 24 can be used to replace the bracket 14. Referring to Fig. 16B, the bracket 24 includes a perforation 24th. The perforation 24th corresponds to the connecting portion 23c. The through hole 24th is used to accommodate the connecting portion 23c. In some embodiments, if there are two connecting portions 23c between the portion 231 and the portion 232, and the positions of the two connecting portions 23c are symmetrical, the bracket 24 includes a through hole 24th corresponding to the two connecting portions 23c.
- the bracket 24 may include a tube structure 24t, a ring structure 24r1, an opening 24g1 (not shown in FIG.
- the pores 24v2 (not shown in FIG. 16B), recesses 24ca1 (not shown in FIG. 16B), recesses 24ca2 (not shown in FIG. 16B), which are respectively connected with the tube structure 14t, the ring structure 14r1, the opening 14g1, and the opening 14g2, opening 14g3, fluid channel 14gc, fluid channel 14vp, air hole 14v1, air hole 14v2, recess 14ca1, recess 14ca2 correspond to and have similar functions.
- FIG. 16C shows a cross-sectional view of the seal assembly 23 and the bracket 24 along the long axis.
- the sealing assembly 23 includes a platform 23m, a recess 23ca1, a hole 23h1, a hole 23h2, a hole 23h3, a hole 23h4, a groove 23gr1, an inclined surface 23rs, and a flange 23f1.
- the platform 23m corresponds to the platform 13m, and the platform 23m and the platform 13m have similar functions.
- the inclined surface 23rs corresponds to the inclined surface 13rs, and the inclined surface 23rs and the inclined surface 13rs have similar functions.
- the flange 23f1 corresponds to the flange 13f1, and the flange 23f1 and the flange 13f1 have similar functions.
- the recess 23ca1 corresponds to the recess 13ca1, and the recess 23ca1 and the recess 13ca1 have similar functions.
- the hole 23h1 corresponds to the hole 13h1, and the hole 23h1 and the hole 13h1 have similar functions.
- the hole 23h2 corresponds to the hole 13h2, and the hole 23h2 and the hole 13h2 have similar functions.
- the hole 23h3 corresponds to the hole 15h2, and the hole 23h3 and the hole 15h2 have similar functions.
- the hole 23h4 corresponds to the hole 15h1, and the hole 23h4 and the hole 15h1 have similar functions.
- the hole 23h4 can be used to accommodate the heating assembly 16.
- the groove 23gr1 corresponds to the groove 13gr1, and the groove 23gr1 and the groove 13gr1 have similar functions.
- the bracket 24 includes an opening 24g1, an opening 24g2, an opening 24g3, a tube structure 24t, a ring structure 24r1, and a recess 24ca2.
- the opening 24g1 corresponds to the opening 14g1, and the opening 24g1 and the opening 14g1 have similar functions.
- the opening 24g2 corresponds to the opening 14g2, and the opening 24g2 and the opening 14g2 have similar functions.
- the opening 24g3 corresponds to the opening 14g3, and the opening 24g3 and the opening 14g3 have similar functions.
- the tube structure 24t corresponds to the tube structure 14t, and the tube structure 24t and the tube structure 14t have similar functions.
- the recess 24ca2 corresponds to the recess 14ca2, and the recess 24ca2 and the recess 14ca2 have similar functions.
- the ring structure 24r1 corresponds to the ring structure 14r1, and the ring structure 24r1 and the ring structure 14r1 have similar functions.
- the ring structure 24r1 When the sealing assembly 23 is combined with the bracket 24, the ring structure 24r1 is inserted into the groove 23gr1.
- a groove and interference amount are generated at the corresponding position of the groove 23gr1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 17 shows a schematic diagram of the sealing assembly 33 according to some embodiments of the application.
- the sealing component 33 may include a sealing component 331 and a sealing component 332.
- the sealing component 33 may include a sealing component 331.
- the sealing component 331 may be a kind of ring.
- the sealing component 332 may be a kind of ring.
- the materials of the sealing component 331 and the sealing component 332 can include silicone, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and are not limited thereto.
- the sealing component 331 and the sealing component 332 are made of the same material. In some embodiments, the materials of the sealing component 331 and the sealing component 332 are different.
- the sealing component 331 and the sealing component 332 may be tightly combined with other components (for example, the bracket 14 or the bracket 34). In some embodiments, the sealing component 331 and the sealing component 332 can form a single component with other components. In some embodiments, the sealing component 331 and the sealing component 332 may be part of other components (for example, the bracket 14 or the bracket 34). In some embodiments, the sealing component 331 and the sealing component 332 can be formed with other components through an integrated injection molding method.
- FIG. 18A shows a schematic diagram of the sealing assembly 351 according to some embodiments of the application.
- the sealing component 351 includes a hole 35h1 and a hole 35h2. In some embodiments, the two holes 35h2 are located on both sides of the hole 35h1. The hole 35h1 and the hole 35h2 pass through the sealing assembly 351.
- the material of the sealing component 351 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and it is not limited thereto.
- the sealing component 351 may be tightly integrated with other components (for example, the bracket 14).
- the sealing component 351 can form a single component with other components.
- the sealing component 351 may be a part of other components (for example, the bracket 14).
- the sealing component 351 can be formed with other components through an integrated injection molding method.
- FIG. 18B shows a cross-sectional view of the sealing assembly 351 according to some embodiments of the application.
- FIG. 18B shows a cross-sectional view along the long axis of the seal assembly 351.
- the sealing component 351 includes a hole 35h1 and a hole 35h2.
- the two holes 35h2 are located on both sides of the hole 35h1.
- the hole 35h1 and the hole 35h2 pass through the sealing assembly 351. From one side of the sealing member 351 to the other side, the inner diameter of the hole 35h1 becomes smaller.
- the inner diameter of the hole 35h1 on one side of the sealing assembly 351 is smaller than the inner diameter of the hole 35h1 on the other side of the sealing assembly 351.
- the hole 35h1 has a stepped inner surface.
- the inner wall of the hole 35h1 is stepped.
- the ring structure 35r is disposed on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base. From one side of the sealing assembly 351 to the other side, the inner diameter of the hole 35h2 becomes smaller.
- the inner diameter of the hole 35h2 on one side of the sealing assembly 351 is smaller than the inner diameter of the hole 35h2 on the other side of the sealing assembly 351.
- the material of the sealing component 351 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and it is not limited thereto.
- FIG. 18C shows a cross-sectional view of the sealing assembly 352 of some embodiments of the application.
- the sealing component 352 includes a hole 35h1. Unlike the sealing component 351, the sealing component 352 does not have a hole 35h2.
- the hole 35h1 penetrates the sealing assembly 352. From one side of the sealing member 352 to the other side, the inner diameter of the hole 35h1 becomes smaller.
- the inner diameter of the hole 35h1 on one side of the sealing assembly 352 is smaller than the inner diameter of the hole 35h1 on the other side of the sealing assembly 352.
- the hole 35h1 has a stepped inner surface. In the sealing assembly 352, the inner wall of the hole 35h1 is stepped.
- the ring structure 35r is disposed on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base.
- the material of the sealing component 352 may include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- the sealing component 352 may be tightly integrated with other components (for example, the bracket 14 or the bracket 34).
- the sealing component 352 can form a single component with other components.
- the sealing component 352 may be part of other components (for example, the bracket 14 or the bracket 34).
- the sealing component 352 can be formed with other components through an integrated injection molding method.
- FIG. 18D shows a cross-sectional view of the sealing assembly 353 according to some embodiments of the application.
- the sealing component 353 includes a hole 35h2 and a hole 35h3.
- the sealing member 353 does not have a hole 35h1.
- the two holes 35h2 are located on both sides of the hole 35h3, respectively.
- the hole 35h2 and the hole 35h3 pass through the sealing assembly 353. From one side of the sealing member 353 to the other side, the inner diameter of the hole 35h3 becomes smaller.
- the inner diameter of the hole 35h3 on one side of the sealing assembly 353 is smaller than the inner diameter of the hole 35h3 on the other side of the sealing assembly 353.
- the inner diameter of the hole 35h2 becomes smaller.
- the inner diameter of the hole 35h2 on one side of the sealing assembly 351 is smaller than the inner diameter of the hole 35h2 on the other side of the sealing assembly 351.
- the material of the sealing component 353 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the sealing component 353 may be tightly integrated with other components (for example, the bracket 14).
- the sealing component 353 can form a single component with other components.
- the sealing component 353 may be part of other components (for example, the bracket 14).
- the sealing component 353 can be formed with other components through an integrated injection molding method.
- FIG. 18E shows a cross-sectional view of the sealing assembly 354 according to some embodiments of the application.
- the sealing assembly 354 includes a hole 35h3. Unlike the sealing component 353, the sealing component 354 does not have a hole 35h2.
- the hole 35h3 penetrates the sealing assembly 354. From one side of the sealing assembly 354 to the other side, the inner diameter of the hole 35h3 becomes smaller.
- the inner diameter of the hole 35h3 on one side of the sealing assembly 354 is smaller than the inner diameter of the hole 35h3 on the other side of the sealing assembly 354.
- the material of the sealing component 354 may include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- the sealing component 354 may be tightly integrated with other components (for example, the bracket 14 or the bracket 34). In some embodiments, the sealing component 354 can form a single component with other components. In some embodiments, the sealing component 354 may be part of other components (for example, the bracket 14 or the bracket 34). In some embodiments, the sealing component 354 can be formed with other components through an integrated injection molding method.
- FIG. 19A shows a schematic diagram of one side of the sealing assembly 451 of some embodiments of the application.
- the sealing component 451 includes a hole 45h1 and a hole 45h2. In some embodiments, the two holes 45h2 are located on both sides of the hole 45h1. The hole 45h1 and the hole 45h2 pass through the sealing assembly 451.
- the material of the sealing component 451 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and it is not limited thereto.
- the sealing component 451 may be tightly integrated with other components (for example, the bracket 14).
- the sealing component 451 can form a single component with other components.
- the sealing component 451 may be a part of other components (for example, the bracket 14).
- the sealing component 451 can be formed with other components through an integrated injection molding method.
- FIG. 19B shows a schematic diagram of the other side of the sealing assembly 451 of some embodiments of the application.
- the sealing component 451 includes a hole 45h1 and a hole 45h2.
- the two holes 45h2 are located on both sides of the hole 45h1.
- the hole 45h1 and the hole 45h2 pass through the sealing assembly 451.
- the sealing assembly 451 includes a ring structure 45r.
- the ring structure 45r is disposed on the surface of the sealing component 451.
- the ring structure 45r is disposed on the bottom surface of the sealing assembly 451.
- the ring structure 45r protrudes from the surface of the sealing component 451.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the material of the sealing component 451 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and it is not limited thereto.
- FIG. 19C shows a schematic diagram of one side of the sealing assembly 452 of some embodiments of the application.
- the sealing assembly 452 includes a hole 45h1.
- the hole 45h1 penetrates through the sealing assembly 452.
- the wings at the left and right ends of the sealing assembly 452 can be removed.
- the material of the sealing component 452 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- the sealing component 452 may be tightly integrated with other components (for example, the bracket 14 or the bracket 34).
- the sealing component 452 can form a single component with other components.
- the sealing component 452 may be part of other components (for example, the bracket 14 or the bracket 34).
- the sealing component 452 can be formed with other components through an integrated injection molding method.
- FIG. 19D shows a schematic view of the other side of the sealing assembly 452 of some embodiments of the application.
- the sealing assembly 452 includes a hole 45h1.
- the hole 45h1 penetrates through the sealing assembly 452.
- the sealing component 452 includes a ring structure 45r.
- the ring structure 45r is arranged on the surface of the sealing component 452.
- the ring structure 45r is disposed on the bottom surface of the sealing component 452.
- the ring structure 45r protrudes from the surface of the sealing component 452.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the wings at the left and right ends of the sealing assembly 452 can be removed.
- the material of the sealing component 452 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- FIG. 19E shows a schematic diagram of one side of the sealing assembly 453 of some embodiments of the application.
- the sealing assembly 453 includes a hole 45h1.
- the hole 45h1 penetrates the sealing assembly 453.
- the material of the sealing component 452 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- the sealing component 453 may be tightly integrated with other components (for example, the bracket 14 or the bracket 34).
- the sealing component 453 can form a single component with other components.
- the sealing component 453 may be part of other components (for example, the bracket 14 or the bracket 34).
- the sealing component 453 can be formed with other components through an integrated injection molding method.
- FIG. 19F shows a schematic view of the other side of the sealing assembly 453 of some embodiments of the application.
- the sealing assembly 453 includes a hole 45h1.
- the hole 45h1 penetrates the sealing assembly 453.
- the seal assembly 453 includes a ring structure 45r.
- the ring structure 45r is disposed on the surface of the sealing component 452.
- the ring structure 45r is disposed on the bottom surface of the sealing assembly 453.
- the ring structure 45r protrudes from the surface of the sealing component 453.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the material of the sealing component 453 may include silica gel, rubber, or siloxane, but other suitable materials may be selected according to actual conditions, and it is not limited thereto.
- FIG. 19G shows a schematic view of one side of the sealing assembly 454 of some embodiments of the application.
- the sealing component 454 includes a hole 45h1 and a hole 45h2. In some embodiments, the two holes 45h2 are located on both sides of the hole 45h1. The hole 45h1 and the hole 45h2 pass through the sealing assembly 454.
- the other side of the sealing assembly 454 is similar to the one side shown in FIG. 19G. The other side of the sealing assembly 454 is the same as the one side shown in FIG. 19G.
- the material of the sealing component 454 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to the actual situation, and it is not limited thereto.
- the sealing component 454 may be tightly integrated with other components (for example, the bracket 14). In some embodiments, the sealing component 454 can form a single component with other components. In some embodiments, the sealing component 454 may be part of other components (for example, the bracket 14). In some embodiments, the sealing component 454 can be formed with other components through an integrated injection molding method.
- FIG. 19H shows a schematic diagram of one side of the sealing assembly 455 of some embodiments of the application.
- the sealing assembly 455 includes a hole 45h1.
- the hole 45h1 penetrates the sealing assembly 455.
- the sealing component 455 may further include left and right wings such as the sealing component 452.
- the other side of the sealing assembly 455 is similar to the one side shown in FIG. 19H.
- the other side of the sealing assembly 455 is the same as the one side shown in FIG. 19H.
- the material of the sealing component 455 can include silica gel, rubber, or siloxane, but other suitable materials can be selected according to actual conditions, and it is not limited thereto.
- the sealing component 455 may be tightly integrated with other components (for example, the bracket 14 or the bracket 34).
- the sealing component 455 can form a single component with other components.
- the sealing component 455 may be part of other components (for example, the bracket 14 or the bracket 34).
- the sealing component 455 can be formed with other components through an integrated injection molding method.
- FIG. 20 shows a cross-sectional view of the cartridge 101 according to some embodiments of the application.
- the cartridge 101 includes a bracket 14, a casing 11 and a sealing component 331.
- the housing 11 houses the bracket 14.
- the sealing assembly 331 is engaged with the bracket 14.
- the housing 11 houses the bracket 14 and the sealing assembly 331.
- the sealing component 331 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 14.
- the sealing component 331 is a ring.
- the cartridge 101 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 331.
- the storage compartment 11ca is bounded by the bracket 14 and the shell 11.
- the storage compartment 11ca is defined by the bracket 14 and the outer wall 11w of the housing 11 and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing component 331 is squeezed by the bracket 14 and the housing 11.
- the sealing assembly 331 is pressed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the cartridge 101 includes a sealing component 351 and a heating component 16.
- the sealing component 351 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 351 and the heating assembly 16.
- the sealing component 351 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 14.
- the sealing component 351 includes a hole 35h1, a hole 35h2, and a ring structure 35r.
- the hole 35h1 of the sealing component 351 is connected to the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is connected to the recess 16ca of the heating component 16.
- the hole 35h1 of the sealing component 351 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 35h1 of the sealing assembly 351, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 351.
- the hole 35h1 of the sealing component 351 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 351.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 35h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 353 can replace the sealing component 351.
- the sealing component 353 and the bracket 14 can be formed by an integrated injection molding method.
- the hole 35h3 of the sealing component 353 surrounds the heating component 16.
- the hole 35h3 of the sealing component 353 surrounds the heating component 16.
- the heating element 16 abuts against the inner surface of the hole 35h3 of the sealing element 353.
- the hole 35h3 of the sealing component 353 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h3 of the sealing element 353.
- the flange 16f of the heating element 16 creates a groove and interference amount at the corresponding position on the inner surface of the hole 35h3 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing assembly 351 includes a ring structure 35r.
- the ring structure 35r is provided in the hole 35h1.
- the ring structure 35r is disposed on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base.
- the annular structure 35r surrounds the recess 16ca of the heating element 16.
- the top surface of the heating element 16 squeezes the annular structure 35r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 101 includes a supporting structure 18.
- the supporting structure 18 includes a hole for receiving the heating element 16.
- the supporting structure 18 includes a hole corresponding to the hole 35h2.
- the supporting structure 18 includes two holes corresponding to the holes 35h2.
- the cartridge 101 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 35h2 of the sealing component 351 (or the sealing component 353).
- the column structure 17c passes through the hole 35h2.
- Hole 35h2 surrounds part of column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 35h2 to be squeezed and generate interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- FIG. 21 shows a cross-sectional view of the cartridge 102 according to some embodiments of the application.
- the cartridge 102 includes a bracket 14, a casing 11, a sealing component 331 and a sealing component 332.
- the housing 11 houses the bracket 14.
- the sealing component 331 and the sealing component 332 are joined to the bracket 14.
- the housing 11 houses the bracket 14, the sealing assembly 331 and the sealing assembly 332.
- the sealing component 331, the sealing component 332, and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 14.
- the sealing component 331 is a ring.
- the cartridge 102 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 331.
- the storage compartment 11ca is bounded by the bracket 14 and the shell 11.
- the storage compartment 11ca is defined by the bracket 14 and the outer wall 11w of the casing 11 and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing component 331 is squeezed by the bracket 14 and the housing 11.
- the sealing assembly 331 is pressed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the sealing assembly 332 surrounds the tube structure 14t.
- the sealing component 332 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 332 is between the tube structure 14t and the fluid channel 11gc.
- the sealing assembly 332 is squeezed by the bracket 14 and the housing 11.
- the sealing component 332 is squeezed by the tube structure 14t of the bracket 14 and the fluid channel 11gc of the housing 11.
- the squeezed sealing component 332 generates grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 332 is a ring.
- the cartridge 102 includes a sealing component 351 and a heating component 16.
- the sealing component 351 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 351 and the heating assembly 16.
- the sealing component 351 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 14.
- the sealing component 351 includes a hole 35h1, a hole 35h2, and a ring structure 35r.
- the hole 35h1 of the sealing component 351 is connected to the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is connected to the recess 16ca of the heating component 16.
- the hole 35h1 of the sealing component 351 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 35h1 of the sealing assembly 351, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 351.
- the hole 35h1 of the sealing component 351 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h1.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 35h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 353 may replace the sealing component 351.
- the sealing component 353 and the bracket 14 can be formed by an integrated injection molding method.
- the hole 35h3 of the sealing component 353 surrounds the heating component 16.
- the heating element 16 abuts against the inner surface of the hole 35h3 of the sealing element 353.
- the hole 35h3 of the sealing component 353 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h3 of the sealing element 353.
- the flange 16f of the heating element 16 creates a groove and interference amount at the corresponding position on the inner surface of the hole 35h3 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the e-liquid may leak.
- the sealing assembly 351 includes a ring structure 35r.
- the ring structure 35r is provided in the hole 35h1.
- the ring structure 35r is disposed on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base.
- the annular structure 35r surrounds the recess 16ca of the heating element 16.
- the top surface of the heating element 16 squeezes the annular structure 35r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 102 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 35h2 of the sealing component 351 (or the sealing component 353).
- the column structure 17c passes through the hole 35h2.
- Hole 35h2 surrounds part of column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 35h2 to be squeezed and generate interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 22 shows a cross-sectional view of the cartridge 103 according to some embodiments of the application.
- the cartridge 103 includes a bracket 14, a casing 11, a sealing component 331 and a sealing component 332.
- the housing 11 houses the bracket 14.
- the sealing component 331 and the sealing component 332 are joined to the bracket 14.
- the housing 11 houses the bracket 14, the sealing assembly 331 and the sealing assembly 332.
- the sealing component 331, the sealing component 332, and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 14.
- the sealing component 331 is a ring.
- the cartridge 103 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 331.
- the storage compartment 11ca is bounded by the bracket 14 and the shell 11.
- the storage compartment 11ca is defined by the bracket 14 and the outer wall 11w of the casing 11 and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing component 331 is squeezed by the bracket 14 and the housing 11.
- the sealing assembly 331 is pressed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the sealing assembly 332 surrounds the tube structure 14t.
- the sealing component 332 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 332 is between the tube structure 14t and the fluid channel 11gc.
- the sealing assembly 332 is squeezed by the bracket 14 and the housing 11.
- the sealing component 332 is squeezed by the tube structure 14t of the bracket 14 and the fluid channel 11gc of the housing 11.
- the squeezed sealing component 332 generates grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 332 is a ring.
- the cartridge 103 includes a sealing component 451 and a heating component 16.
- the sealing component 451 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 451 and the heating assembly 16.
- the sealing component 451 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 14.
- the sealing component 451 includes a hole 45h1, a hole 45h2, and a ring structure 45r.
- the hole 45h1 of the sealing component 451 is connected to the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing assembly 451 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing component 451 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 451 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 451, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the sealing assembly 451 includes a ring structure 45r.
- the ring structure 45r is disposed on the surface of the sealing component 451.
- the ring structure 45r is disposed on the bottom surface of the sealing assembly 451.
- the ring structure 45r protrudes downward.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 45r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 103 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 45h2 of the sealing assembly 451.
- the column structure 17c passes through the hole 45h2 of the sealing assembly 451.
- the hole 45h2 of the sealing assembly 451 surrounds a portion of the column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 45h2 of the sealing component 451 to be squeezed and produce interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 23 shows a cross-sectional view of the cartridge 104 according to some embodiments of the application.
- the cartridge 104 includes a bracket 34, a casing 11, a sealing component 331 and a sealing component 332.
- the bracket 34 and the bracket 14 have a similar structure. Compared with the bracket 14, the bracket 34 does not have a hole 14h1.
- the housing 11 houses the bracket 34.
- the sealing component 331 and the sealing component 332 are joined to the bracket 34.
- the housing 11 houses the bracket 34, the sealing assembly 331 and the sealing assembly 332.
- the sealing component 331, the sealing component 332, and the bracket 34 can be formed by an integrated injection molding method.
- the sealing component 331 is located between the bracket 34 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 34.
- the sealing component 331 is a ring.
- the cartridge 104 includes a bracket 34, a casing 11, a storage compartment 11ca and a sealing assembly 331.
- the storage compartment 11ca is defined by the bracket 34 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 34, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 34 can be formed by an integrated injection molding method.
- the sealing component 331 is located between the bracket 34 and the outer wall 11w of the casing 11.
- the sealing assembly 331 is squeezed by the bracket 34 and the housing 11.
- the sealing assembly 331 is squeezed by the bracket 34 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 34 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 34 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 34.
- the outer surface of the tube structure 14t of the bracket 34 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the material of the bracket 34 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this. .
- the opening 14g1 of the bracket 34, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the sealing assembly 332 surrounds the tube structure 14t.
- the sealing assembly 332 and the bracket 34 can be formed by an integrated injection molding method.
- the sealing assembly 332 is between the tube structure 14t and the fluid channel 11gc.
- the sealing assembly 332 is squeezed by the bracket 34 and the housing 11.
- the sealing component 332 is squeezed by the tube structure 14t of the bracket 34 and the fluid channel 11gc of the housing 11.
- the squeezed sealing component 332 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 332 is a ring.
- the cartridge 104 includes a sealing component 453 and a heating component 16.
- the sealing component 453 and the bracket 34 can be formed by an integrated injection molding method.
- the bracket 34 accommodates the sealing assembly 453 and the heating assembly 16.
- the sealing component 453 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 34.
- the sealing component 453 includes a hole 45h1 and a ring structure 45r.
- the hole 45h1 of the sealing component 453 is connected to the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 454 is in fluid communication with the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 453 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 453 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 34 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 453, the hole 14h2 of the bracket 34, and the recess 16ca of the heating assembly 16.
- the seal assembly 453 includes a ring structure 45r.
- the ring structure 45r is disposed on the surface of the sealing component 453.
- the ring structure 45r is disposed on the bottom surface of the sealing assembly 453.
- the ring structure 45r protrudes downward.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 45r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 24 shows a cross-sectional view of the cartridge 105 according to some embodiments of the application.
- the cartridge 105 includes a bracket 14, a casing 11, a sealing component 331 and a sealing component 332.
- the housing 11 houses the bracket 14.
- the sealing component 331 and the sealing component 332 are joined to the bracket 14.
- the housing 11 houses the bracket 14, the sealing assembly 331 and the sealing assembly 332.
- the sealing component 331, the sealing component 332, and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 14.
- the sealing component 331 is a ring.
- the cartridge 105 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 331.
- the storage compartment 11ca is bounded by the bracket 14 and the shell 11.
- the storage compartment 11ca is defined by the bracket 14 and the outer wall 11w of the casing 11 and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 331 is located between the bracket 14 and the outer wall 11w of the casing 11.
- the sealing component 331 is squeezed by the bracket 14 and the housing 11.
- the sealing assembly 331 is pressed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the sealing assembly 332 surrounds the tube structure 14t.
- the sealing component 332 and the bracket 14 can be formed by an integrated injection molding method.
- the sealing assembly 332 is between the tube structure 14t and the fluid channel 11gc.
- the sealing assembly 332 is squeezed by the bracket 14 and the housing 11.
- the sealing component 332 is squeezed by the tube structure 14t of the bracket 14 and the fluid channel 11gc of the housing 11.
- the squeezed sealing component 332 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 332 is a ring.
- the cartridge 105 includes a sealing component 454 and a heating component 16.
- the sealing component 454 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 454 and the heating assembly 16.
- the sealing component 454 and the heating component 16 are received in the recess 14ca2 of the bracket 14.
- the sealing component 454 includes a hole 45h1, a hole 45h2, and a ring structure 45r.
- the hole 45h1 of the sealing component 454 is connected to the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing component 454 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing component 454 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 454 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 454, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the heating element 16 is combined with the sealing element 454, and the top surface of the heating element 16 abuts the sealing element 454.
- the top surface of the heating element 16 presses a part of the sealing element 454 and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 105 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 45h2 of the sealing assembly 454.
- the column structure 17c passes through the hole 45h2 of the sealing component 454.
- the hole 45h2 of the sealing assembly 454 surrounds a portion of the column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 45h2 of the sealing component 454 to be squeezed and produce interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 25 shows a cross-sectional view of the cartridge 106 according to some embodiments of the application.
- the cartridge 106 includes a bracket 34, a casing 11, a sealing component 331 and a sealing component 332.
- the bracket 34 and the bracket 14 have a similar structure. Compared with the bracket 14, the bracket 34 does not have a hole 14h1.
- the housing 11 houses the bracket 34.
- the sealing component 331 and the sealing component 332 are joined to the bracket 34.
- the housing 11 houses the bracket 34, the sealing assembly 331 and the sealing assembly 332.
- the sealing component 331, the sealing component 332, and the bracket 34 can be formed by an integrated injection molding method.
- the sealing component 331 is located between the bracket 34 and the outer wall 11w of the casing 11.
- the sealing assembly 331 surrounds the upper portion 14tp of the bracket 34.
- the sealing component 331 is a ring.
- the cartridge 106 includes a bracket 34, a casing 11, a storage compartment 11ca, and a sealing assembly 331.
- the storage compartment 11ca is defined by the bracket 34 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 34, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing component 331 and the bracket 34 can be formed by an integrated injection molding method.
- the sealing component 331 is located between the bracket 34 and the outer wall 11w of the casing 11.
- the sealing assembly 331 is squeezed by the bracket 34 and the housing 11.
- the sealing assembly 331 is squeezed by the bracket 34 and the outer wall 11w of the casing 11.
- the squeezed sealing component 331 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 34 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 34 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 34.
- the outer surface of the tube structure 14t of the bracket 34 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the material of the bracket 34 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this. .
- the opening 14g1 of the bracket 34, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the sealing assembly 332 surrounds the tube structure 14t.
- the sealing assembly 332 and the bracket 34 can be formed by an integrated injection molding method.
- the sealing assembly 332 is between the tube structure 14t and the fluid channel 11gc.
- the sealing assembly 332 is squeezed by the bracket 34 and the housing 11.
- the sealing component 332 is squeezed by the tube structure 14t of the bracket 34 and the fluid channel 11gc of the housing 11.
- the squeezed sealing component 332 generates grooves and interference to form a liquid or gas seal. When the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect. When the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 332 is a ring.
- the cartridge 106 includes a sealing component 455 and a heating component 16.
- the sealing component 455 and the bracket 34 can be formed by an integrated injection molding method.
- the bracket 34 houses the sealing assembly 455 and the heating assembly 16.
- the sealing component 455 and the heating component 16 are received in the recess 14ca2 of the bracket 34.
- the sealing assembly 455 includes a hole 45h1.
- the hole 45h1 of the sealing component 455 is connected with the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 455 is in fluid communication with the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 455 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 455 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 34 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 454, the hole 14h2 of the bracket 34, and the recess 16ca of the heating assembly 16.
- the heating component 16 is combined with the sealing component 455, and the top surface of the heating component 16 abuts the sealing component 455.
- the top surface of the heating element 16 presses a part of the sealing element 455 and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 26 shows a cross-sectional view of the cartridge 107 according to some embodiments of the application.
- the cartridge 107 includes a bracket 14, a casing 11 and a sealing assembly 13.
- the housing 11 houses the bracket 14.
- the sealing assembly 13 is engaged with the bracket 14.
- the housing 11 houses the bracket 14 and the sealing assembly 13.
- the sealing assembly 13 and the bracket 14 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 14 and the housing 11. The relationship among the housing 11, the sealing assembly 13 and the bracket 14 is as described above.
- the cartridge 107 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 13.
- the storage compartment 11ca is bounded by the bracket 14, the sealing assembly 13 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 14, the sealing assembly 13, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing assembly 13 and the bracket 14 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 14 and the outer wall 11w of the casing 11.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the top portion 14tp of the bracket 14 and the outer wall 11w of the casing 11.
- the part of the sealing assembly 13 (the inclined surface 13rs and the flange 13f1 as shown in FIG. 4A) is pressed by the bracket 14 and the housing 11.
- Portions of the sealing assembly 13 (such as the inclined surface 13rs and the flange 13f1) are squeezed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed part of the sealing assembly 13 generates grooves and interference to form a liquid or gas seal.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the platform 13m of the sealing assembly 13 (as shown in Fig. 4A) surrounds the tube structure 14t.
- the platform 13m of the sealing assembly 13 is between the tube structure 14t and the fluid channel 11gc.
- the platform 13m of the sealing assembly 13 is squeezed by the bracket 14 and the housing 11.
- the platform 13m of the sealing assembly 13 is squeezed by the tube structure 14t of the bracket 14 and the fluid channel 11gc of the housing 11.
- the squeezed platform 13m produces grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 107 includes a sealing component 451 and a heating component 16.
- the sealing component 451 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 451 and the heating assembly 16.
- the sealing component 451 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 14.
- the sealing component 451 includes a hole 45h1, a hole 45h2, and a ring structure 45r.
- the hole 45h1 of the sealing component 451 is connected to the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing assembly 451 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 45h1 of the sealing component 451 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 451 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 451, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the sealing assembly 451 includes a ring structure 45r.
- the ring structure 45r is disposed on the surface of the sealing component 451.
- the ring structure 45r is disposed on the bottom surface of the sealing assembly 451.
- the ring structure 45r protrudes downward.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 45r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 107 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 45h2 of the sealing assembly 451.
- the column structure 17c passes through the hole 45h2 of the sealing assembly 451.
- the hole 45h2 of the sealing assembly 451 surrounds a portion of the column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 45h2 of the sealing component 451 to be squeezed and produce interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 27 shows a cross-sectional view of the cartridge 108 according to some embodiments of the application.
- the cartridge 108 includes a bracket 34, a casing 11 and a sealing assembly 13.
- the bracket 34 and the bracket 14 have a similar structure. Compared with the bracket 14, the bracket 34 does not have a hole 14h1. In some embodiments of FIG. 27, the sealing assembly 13 does not have a hole 13h1. In some embodiments of FIG. 27, the sealing component 13 may have 13h1.
- the housing 11 houses the bracket 34.
- the sealing assembly 13 is engaged with the bracket 34.
- the housing 11 houses the bracket 34 and the sealing assembly 13.
- the sealing assembly 13 and the bracket 34 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 34 and the housing 11. The relationship among the housing 11, the sealing assembly 13 and the bracket 34 is as described above.
- the cartridge 108 includes a bracket 34, a casing 11, a storage compartment 11ca and a sealing assembly 13.
- the storage compartment 11ca is bounded by the bracket 34, the sealing assembly 13 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 34, the sealing assembly 13, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing assembly 13 and the bracket 34 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 34 and the outer wall 11w of the casing 11.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the top portion 14tp of the bracket 34 and the outer wall 11w of the casing 11.
- a part of the sealing assembly 13 (as shown in FIG. 4A with the inclined surface 13rs and the flange 13f1) is pressed by the bracket 34 and the housing 11.
- Portions of the sealing assembly 13 (such as the inclined surface 13rs and the flange 13f1) are squeezed by the bracket 34 and the outer wall 11w of the casing 11.
- the squeezed part of the sealing assembly 13 generates grooves and interference to form a liquid or gas seal.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 34 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 34 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 34.
- the outer surface of the tube structure 14t of the bracket 34 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the material of the bracket 34 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this. .
- the opening 14g1 of the bracket 34, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the platform 13m of the sealing assembly 13 (as shown in Fig. 4A) surrounds the tube structure 14t.
- the platform 13m of the sealing assembly 13 is between the tube structure 14t and the fluid channel 11gc.
- the platform 13m of the sealing assembly 13 is squeezed by the bracket 34 and the housing 11.
- the platform 13m of the sealing assembly 13 is squeezed by the tube structure 14t of the bracket 34 and the fluid channel 11gc of the housing 11.
- the squeezed platform 13m produces grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 108 includes a sealing component 452 and a heating component 16.
- the sealing component 452 and the bracket 34 can be formed by an integrated injection molding method.
- the bracket 34 accommodates the sealing assembly 452 and the heating assembly 16.
- the sealing component 452 and the heating component 16 are received in the recess 14ca2 of the bracket 34.
- the sealing component 452 includes a hole 45h1, a hole 45h2, and a ring structure 45r.
- the hole 45h1 of the sealing component 452 is connected to the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 452 is in fluid communication with the hole 14h2 of the bracket 34.
- the hole 45h1 of the sealing component 452 is connected to the recess 16ca of the heating component 16.
- the hole 45h1 of the sealing component 452 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 34 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 45h1 of the sealing assembly 452, the hole 14h2 of the bracket 34, and the recess 16ca of the heating assembly 16.
- the seal assembly 452 includes a ring structure 45r.
- the ring structure 45r is arranged on the surface of the sealing component 452.
- the ring structure 45r is disposed on the bottom surface of the sealing component 452.
- the ring structure 45r protrudes downward.
- the area of the top surface of the ring structure 45r is smaller than the area of the bottom surface thereof.
- the longitudinal section shape of the ring structure 45r is a trapezoid or triangle with an upper base smaller than a lower base.
- the top surface of the heating element 16 squeezes the annular structure 45r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 28 shows a cross-sectional view of the cartridge 109 according to some embodiments of the application.
- the cartridge 109 includes a bracket 14, a casing 11, and a sealing assembly 13.
- the housing 11 houses the bracket 14.
- the sealing assembly 13 is engaged with the bracket 14.
- the housing 11 houses the bracket 14 and the sealing assembly 13.
- the sealing assembly 13 and the bracket 14 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 14 and the housing 11. The relationship among the housing 11, the sealing assembly 13 and the bracket 14 is as described above.
- the cartridge 109 includes a bracket 14, a casing 11, a storage compartment 11ca and a sealing assembly 13.
- the storage compartment 11ca is bounded by the bracket 14, the sealing assembly 13 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 14, the sealing assembly 13, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing assembly 13 and the bracket 14 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 14 and the outer wall 11w of the casing 11.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the top portion 14tp of the bracket 14 and the outer wall 11w of the casing 11.
- the part of the sealing assembly 13 (the inclined surface 13rs and the flange 13f1 as shown in FIG. 4A) is pressed by the bracket 14 and the housing 11.
- Portions of the sealing assembly 13 (such as the inclined surface 13rs and the flange 13f1) are squeezed by the bracket 14 and the outer wall 11w of the casing 11.
- the squeezed part of the sealing assembly 13 generates grooves and interference to form a liquid or gas seal.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 14 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 14 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 14.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 14.
- the outer surface of the tube structure 14t of the bracket 14 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc can directly contact. No additional sealing components may be provided between the outer surface of the tube structure 14t of the bracket 14 and the inner surface of the fluid channel 11gc.
- the material of the bracket 14 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this.
- the opening 14g1 of the bracket 14, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the platform 13m of the sealing assembly 13 (as shown in Fig. 4A) surrounds the tube structure 14t.
- the platform 13m of the sealing assembly 13 is between the tube structure 14t and the fluid channel 11gc.
- the platform 13m of the sealing assembly 13 is squeezed by the bracket 14 and the housing 11.
- the platform 13m of the sealing assembly 13 is squeezed by the tube structure 14t of the bracket 14 and the fluid channel 11gc of the housing 11.
- the squeezed platform 13m produces grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 109 includes a sealing component 351 and a heating component 16.
- the sealing component 351 and the bracket 14 can be formed by an integrated injection molding method.
- the bracket 14 accommodates the sealing assembly 351 and the heating assembly 16.
- the sealing component 351 and the heating component 16 are accommodated in the recess 14ca2 of the bracket 14.
- the sealing component 351 includes a hole 35h1, a hole 35h2, and a ring structure 35r.
- the hole 35h1 of the sealing component 351 is connected to the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is in fluid communication with the hole 14h2 of the bracket 14.
- the hole 35h1 of the sealing component 351 is connected to the recess 16ca of the heating component 16.
- the hole 35h1 of the sealing component 351 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 14 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 35h1 of the sealing assembly 351, the hole 14h2 of the bracket 14 and the recess 16ca of the heating assembly 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the hole 35h1 of the sealing component 351 surrounds the heating component 16.
- the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 351.
- the hole 35h1 of the sealing component 351 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 351.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 35h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing assembly 351 includes a ring structure 35r.
- the ring structure 35r is provided in the hole 35h1.
- the ring structure 35r is disposed on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base.
- the annular structure 35r surrounds the recess 16ca of the heating element 16.
- the top surface of the heating element 16 squeezes the annular structure 35r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 109 includes a column structure 17c.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 35h2 of the sealing assembly 351.
- the column structure 17c passes through the hole 35h2.
- Hole 35h2 surrounds part of column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 35h2 to be squeezed and generate interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 29 shows a cross-sectional view of the cartridge 110 according to some embodiments of the application.
- the cartridge 110 includes a bracket 34, a casing 11 and a sealing assembly 13.
- the bracket 34 and the bracket 14 have a similar structure. Compared with the bracket 14, the bracket 34 does not have a hole 14h1. In some embodiments of FIG. 27, the sealing assembly 13 does not have a hole 13h1. In some embodiments of FIG. 27, the sealing component 13 may have 13h1.
- the housing 11 houses the bracket 34.
- the sealing assembly 13 is engaged with the bracket 34.
- the housing 11 houses the bracket 34 and the sealing assembly 13.
- the sealing assembly 13 and the bracket 34 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 34 and the housing 11. The relationship among the housing 11, the sealing assembly 13 and the bracket 34 is as described above.
- the cartridge 110 includes a bracket 34, a casing 11, a storage compartment 11ca and a sealing assembly 13.
- the storage compartment 11ca is bounded by the bracket 34, the sealing assembly 13 and the shell 11.
- the storage compartment 11ca is bounded by the bracket 34, the sealing assembly 13, the outer wall 11w of the housing 11, and the outer wall of the fluid channel 11gc.
- the sealing assembly 13 and the bracket 34 can be formed by an integrated injection molding method.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the bracket 34 and the outer wall 11w of the casing 11.
- the side wall 13sw and the flange 13f1 of the sealing assembly 13 are located between the top portion 14tp of the bracket 34 and the outer wall 11w of the casing 11.
- the part of the sealing assembly 13 (the inclined surface 13rs and the flange 13f1 as shown in FIG. 4A) is squeezed by the bracket 34 and the housing 11.
- Portions of the sealing assembly 13 (such as the inclined surface 13rs and the flange 13f1) are squeezed by the bracket 34 and the outer wall 11w of the casing 11.
- the squeezed part of the sealing assembly 13 generates grooves and interference to form a liquid or gas seal.
- the sealing component 331 is a ring.
- the tube structure 14t of the bracket 34 is inserted into the fluid channel 11gc of the housing 11.
- the fluid channel 11gc surrounds the tube structure 14t.
- the fluid channel 11gc has a tube structure.
- the opening 12g2 of the liquid suction assembly 12 is connected to the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 and the opening 14g1 of the bracket 34 are connected in the fluid channel 11gc.
- the fluid channel 11gc of the housing 11 is in fluid communication with the opening 14g1 of the bracket 34.
- the opening 12g2 of the liquid suction assembly 12 is in fluid communication with the opening 14g1 of the bracket 34.
- the outer surface of the tube structure 14t of the bracket 34 abuts the inner surface of the fluid channel 11gc to form a liquid or gas seal.
- the material of the bracket 34 is hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to actual conditions, and it is not limited to this.
- the tube structure 11t and the fluid channel 11gc are made of hard plastic, such as polypropylene (PP) or polyethylene (PE), but other suitable materials can be selected according to the actual situation, and it is not limited to this. .
- the opening 14g1 of the bracket 34, the liquid suction assembly 12, and the fluid channel 11gc are in fluid communication.
- the platform 13m of the sealing assembly 13 (as shown in Fig. 4A) surrounds the tube structure 14t.
- the platform 13m of the sealing assembly 13 is between the tube structure 14t and the fluid channel 11gc.
- the platform 13m of the sealing assembly 13 is squeezed by the bracket 34 and the housing 11.
- the platform 13m of the sealing assembly 13 is squeezed by the tube structure 14t of the bracket 34 and the fluid channel 11gc of the housing 11.
- the squeezed platform 13m produces grooves and interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 110 includes a sealing component 352 and a heating component 16.
- the sealing component 352 and the bracket 34 can be formed by an integrated injection molding method.
- the bracket 34 accommodates the sealing assembly 352 and the heating assembly 16.
- the sealing component 352 and the heating component 16 are received in the recess 14ca2 of the bracket 34.
- the sealing component 352 includes a hole 35h1, a hole 35h2, and a ring structure 35r.
- the hole 35h1 of the sealing component 352 is connected with the hole 14h2 of the bracket 34.
- the hole 35h1 of the sealing component 352 is in fluid communication with the hole 14h2 of the bracket 34.
- the hole 35h1 of the sealing component 352 is connected to the recess 16ca of the heating component 16.
- the hole 35h1 of the sealing component 352 is in fluid communication with the recess 16ca of the heating component 16.
- the hole 14h2 of the bracket 34 is in fluid communication with the recess 16ca of the heating element 16.
- the storage compartment 11ca is in fluid communication with the hole 35h1 of the sealing assembly 352, the hole 14h2 of the bracket 34, and the recess 16ca of the heating assembly 16.
- the hole 35h1 of the sealing component 352 surrounds the heating component 16.
- the hole 35h1 of the sealing component 352 surrounds the heating component 16.
- the heating element 16 abuts against the inner surface of the hole 35h1 of the sealing element 352.
- the hole 35h1 of the sealing component 352 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h1 of the sealing element 352.
- the flange 16f of the heating element 16 creates a groove and interference at the corresponding position on the inner surface of the hole 35h1 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the sealing component 354 may replace the sealing component 352.
- the sealing component 354 and the bracket 34 can be formed by an integrated injection molding method.
- the hole 35h3 of the sealing component 354 surrounds the heating component 16.
- the hole 35h3 of the sealing component 354 surrounds the heating component 16.
- the heating element 16 abuts the inner surface of the hole 35h3 of the sealing element 354.
- the hole 35h3 of the sealing component 354 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h3 of the sealing element 354.
- the flange 16f of the heating element 16 creates a groove and interference amount at the corresponding position on the inner surface of the hole 35h3 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the seal assembly 352 includes a ring structure 35r.
- the ring structure 35r is provided in the hole 35h1.
- the ring structure 35r is provided on the stepped inner surface of the hole 35h1.
- the ring structure 35r protrudes from the inner surface of the hole 35h1.
- the ring structure 35r protrudes downward.
- the area of the top surface of the ring structure 35r is smaller than the area of the bottom surface.
- the longitudinal section shape of the ring structure 35r is a trapezoid or triangle with an upper base smaller than a lower base.
- the annular structure 35r surrounds the recess 16ca of the heating element 16.
- the top surface of the heating element 16 squeezes the annular structure 35r and generates an interference amount to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- FIG. 30 shows a cross-sectional view of the cartridge 111 according to some embodiments of the application.
- the cartridge 111 and the cartridge 109 have a similar structure and composition.
- the difference between the cartridge 111 and the cartridge 109 is that the cartridge 111 uses a sealing component 353 instead of the sealing component 352.
- the hole 35h3 of the sealing assembly 353 surrounds the heating assembly 16.
- the hole 35h3 of the sealing component 353 surrounds the heating component 16.
- the heating element 16 abuts against the inner surface of the hole 35h3 of the sealing element 353.
- the hole 35h3 of the sealing component 353 surrounds the flange 16f of the heating component 16.
- the flange 16f of the heating element 16 abuts the inner surface of the hole 35h3 of the sealing element 353.
- the flange 16f of the heating element 16 creates a groove and interference amount at the corresponding position on the inner surface of the hole 35h3 to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- the cartridge 111 includes a column structure 17c.
- the sealing component 353 and the bracket 14 can be formed by an integrated injection molding method.
- the column structure 17c is disposed on the base 17.
- the column structure 17c is inserted into the hole 35h2 of the sealing assembly 351.
- the column structure 17c passes through the hole 35h2.
- Hole 35h2 surrounds part of column structure 17c.
- the column structure 17c is inserted into the hole 14h1 of the bracket 14 to seal the storage compartment 11ca.
- the column 17c will cause the inner surface of the hole 35h2 to be squeezed and generate interference to form a liquid or gas seal.
- the amount of interference is 0.15mm to 0.25mm, there is a better sealing effect.
- the amount of interference is less than 0.1mm, the e-liquid may leak.
- any one of the sealing component 13, the sealing component 331, the sealing component 332, the sealing component 351, the sealing component 352, the sealing component 353, and the sealing component 354 and any one of the bracket 14 and the bracket 34 can be integrated by It is formed by injection molding.
- the bonding force between any one of the sealing component 13, the sealing component 331, the sealing component 332, the sealing component 351, the sealing component 352, the sealing component 353, and the sealing component 354 and any one of the bracket 14 and the bracket 34 In the range of 0.1 N/cm 2 (Newton/square millimeter) to 20 N/cm 2 .
- any one of the sealing assembly 13, the sealing assembly 331, the sealing assembly 332, the sealing assembly 351, the sealing assembly 352, the sealing assembly 353, and the sealing assembly 354 can be integrated with any one of the bracket 14 and the bracket 34. Therefore, there is no problem of assembly deviation and part tolerance, which can improve the risk of liquid leakage (such as e-liquid leakage).
- the sealing component 451 or the sealing component 454 and the bracket 14 can be formed by an integrated injection molding method.
- the bonding force between the sealing component 451 or the sealing component 454 and the bracket 14 is in the range of 0.1 N/cm 2 (Newton/square millimeter) to 20 N/cm 2 . Since the sealing assembly 451 or the sealing assembly 454 and the bracket 14 can be formed by an integrated injection molding method, there are no problems of assembly misalignment and part tolerances, and the risk of liquid leakage (such as e-liquid leakage) can be improved.
- any one of the sealing component 452, the sealing component 453, and the sealing component 455 and the bracket 34 may be formed by an integrated injection molding method.
- the bonding force between any one of the sealing component 452, the sealing component 453, and the sealing component 455 and the bracket 34 is in the range of 0.1 N/cm 2 (Newton/square millimeter) to 20 N/cm 2 . Because any one of the sealing assembly 452, the sealing assembly 453, and the sealing assembly 455 and the bracket 34 can be formed by an integrated injection molding method, there is no assembly misalignment and part tolerance problems, which can improve the risk of liquid leakage (such as E-liquid leakage).
- references to “some embodiments”, “partial embodiments”, “one embodiment”, “another example”, “examples”, “specific examples” or “partial examples” throughout the specification mean At least one embodiment or example in this application includes the specific feature, structure, or characteristic described in the embodiment or example. Therefore, descriptions appearing in various places throughout the specification, such as: “in some embodiments”, “in embodiments”, “in one embodiment”, “in another example”, “in an example “In”, “in a specific example” or “exemplified”, which are not necessarily quoting the same embodiment or example in this application.
- spatially relative terms for example, “below”, “below”, “lower”, “above”, “upper”, “lower”, “left”, “right” and the like can be The simplicity of description is used herein to describe the relationship between one component or feature and another component or feature as illustrated in the figure.
- the spatial relative terms are intended to cover different orientations of the device in use or operation.
- the device can be oriented in other ways (rotated by 90 degrees or in other orientations), and the spatial relative descriptors used herein can also be interpreted accordingly. It should be understood that when a component is referred to as being “connected to” or “coupled to” another component, it can be directly connected or coupled to the other component, or intervening components may be present.
- the terms “approximately”, “substantially”, “substantially” and “about” are used to describe and consider small variations. When used in conjunction with an event or situation, the term may refer to an example in which the event or situation occurs precisely and an example in which the event or situation occurs in close proximity. 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. Ranges can be expressed herein as from one endpoint to another or between two endpoints. Unless otherwise specified, all ranges disclosed herein include endpoints.
- substantially coplanar may refer to two surfaces located within a few micrometers ( ⁇ m) along the same plane, for example, within 10 ⁇ m, within 5 ⁇ m, within 1 ⁇ m, or within 0.5 ⁇ m located along the same plane.
- ⁇ m micrometers
- the term may refer to a value within ⁇ 10%, ⁇ 5%, ⁇ 1%, or ⁇ 0.5% of the average value of the stated value.
- the terms “approximately”, “substantially”, “substantially” and “about” are used to describe and explain small changes.
- the term may refer to an example in which the event or situation occurs precisely and an example in which the event or situation occurs in close proximity.
- the term when used in combination with a value, can refer to a range of variation less than or equal to ⁇ 10% of the stated value, for example, 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 average value of the value (for example, 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 can be considered “substantially” or " About” is the same.
- substantially parallel can refer to a range of angular variation less than or equal to ⁇ 10° relative to 0°, for example, 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°.
- substantially perpendicular may refer to an angular variation range of less than or equal to ⁇ 10° relative to 90°, for example, 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°.
- a/an and “said” may include plural indicators.
- a component provided “on” or “above” another component may cover the case where the former component is directly on the latter component (for example, in physical contact with the latter component), and one or more A situation in which an intermediate component is located between the previous component and the next component.
- a/an and “said” may include plural indicators.
- a component provided “on” or “above” another component may cover the case where the former component is directly on the latter component (for example, in physical contact with the latter component), and one or more A situation in which an intermediate component is located between the previous component and the next component.
Landscapes
- Gasket Seals (AREA)
Abstract
一种雾化器装置包含托架(14)、第一密封组件(13)、第二密封组件(15)。第一密封组件(13),其为托架(14)的一部份,第一密封组件(13)覆盖托架(14)之顶部部分。第二密封组件(15),其为托架(14)的一部份且位于托架(14)之第一凹陷中。
Description
本揭露大体上涉及一种雾化装置(vaporization device),具体而言涉及一种提供可吸入气雾(aerosol)之电子装置。
电子烟系一种电子产品,其将可雾化溶液加热雾化并产生气雾以供用户吸食。近年来,各大厂商开始生产各式各样的电子烟产品。一般而言,一电子烟产品包括外壳、储油室、雾化室、加热组件、进气口、气流通道、出气口、电源装置、感测装置及控制装置。储油室用于储存可雾化(vaporizable)溶液,加热组件用于将可雾化溶液加热雾化并产生气雾。进气口与雾化室彼此连通,当使用者吸气时提供空气给加热组件。由加热组件产生之气雾首先产生于雾化室内,随后经由气流通道及出气口被使用者吸入。电源装置提供加热组件所需之电力,控制装置根据感测装置侦测到的用户吸气动作,控制加热组件的加热时间。外壳则包覆上述各个组件。
在电子烟的制造过程中通常系先注入烟油再进行密封。然而,密封后的烟油容器在后续组装过程中易导致烟油泄漏,将使产品的质量难以控管。且密封后的烟油容器在运送过程中亦容易因温度变化造成泄漏,影响产品的良率。
在用户使用电子烟的过程中,产生的气雾可能于各个空腔或通道中冷凝形成液体。举例言之,气雾可能在雾化室、进气口、气流通道、或出气口等等空腔或通道中冷凝形成液体。在该等空腔或通道中的液体可能在用户使用电子烟的过程中泄漏。此外,烟油未被妥善储存亦可能造成泄漏。此等泄漏将污染使用者的衣服、裤子或随身携带的其他贵重物品,因而造成不良的使用者体验。
在用户使用电子烟的过程中,透过加热组件加热烟油而产生气雾。若电流无法通过加热组件,加热组件则无法产生气雾。此外,若烟油无法顺畅达到加热组件,加热组件亦无法产生气雾。无法产生气雾将造成不良的使用者体验。
随着使用频率的不断提高,如何通过各种改良而降低电子烟的组装成本并使电子烟的更好的满足用户的需求从而提高用户体验,是电子烟发展必不可少的一个环节。
因此,提出可解决上述问题之雾化装置。
发明内容
本申请的一些实施例提供了一种雾化装置。雾化装置包含托架、第一密封组件、第二密封组件。第一密封组件为所述托架的一部份,所述第一密封组件覆盖所述托架之顶部部分。第二密封组件,其为所述托架的一部份且位于所述托架之第一凹陷中。
本申请的一些实施例提供了一种雾化装置。雾化装置包含壳体、托架、第一密封组件、储存舱、加热组件及第二密封组件。第一密封组件为所述托架的一部份。储存舱由所述第一密封组件及所述壳体所界定。加热组件位于所述托架之第一凹陷中。第二密封组件为所述托架的一部份且位于所述托架与所述加热组件之间。
当结合附图阅读时,从以下详细描述容易理解本揭露的各方面。应注意,各种特征可能未按比例绘制,且各种特征的尺寸可出于论述的清楚起见而任意增大或减小。
图1A、图1B、图1C为本申请的一些实施例的烟弹的分解结构示意图。
图2A、图2B、图2C为本申请的一些实施例的壳体的示意图。
图3A、图3B为本申请的一些实施例的吸液组件的示意图。
图4A、图4B、图4C为本申请的一些实施例的密封组件的示意图。
图5A、图5B、图5C、图5D、图5E为本申请的一些实施例的托架的示意图。
图6A、图6B、图6C为本申请的一些实施例的密封组件的示意图。
图7A为本申请的一些实施例的密封组件的示意图。
图8A、图8B、图8C为本申请的一些实施例的加热组件的示意图。
图9A、图9B、图9C为本申请的一些实施例的底座的示意图。
图9D为本申请的一些实施例的底座之剖面图。
图10为本申请的一些实施例的弹簧片的示意图。
图11A、图11B、图11C、图11D、图11E为本申请的一些实施例的密封组件及托架的组合示意图。
图12A、图12B、图12C、图12D、图12E、图12F、图12G为本申请的一些实施例的烟弹组合示意图。
图13A及图13B为本申请的一些实施例的烟弹之剖面图。
图14A及图14B为本申请的一些实施例的气体通道之示意图。
图15A、图15B、图15C为本申请的一些实施例的气体通道之示意图。
图16A、图16B、图16C为本申请的一些实施例的密封组件及托架之示意图。
图17所示为本申请的一些实施例的密封组件之示意图。
图18A所示为本申请的一些实施例的密封组件之示意图。
图18B、图18C、图18D、图18E所示为本申请的一些实施例的密封组件之剖面图。
图19A至图19H所示为本申请的一些实施例的密封组件之示意图。
图20所示为本申请的一些实施例的烟弹的剖面图。
图21所示为本申请的一些实施例的烟弹的剖面图。
图22所示为本申请的一些实施例的烟弹的剖面图。
图23所示为本申请的一些实施例的烟弹的剖面图。
图24所示为本申请的一些实施例的烟弹的剖面图。
图25所示为本申请的一些实施例的烟弹的剖面图。
图26所示为本申请的一些实施例的烟弹的剖面图。
图27所示为本申请的一些实施例的烟弹的剖面图。
图28所示为本申请的一些实施例的烟弹的剖面图。
图29所示为本申请的一些实施例的烟弹的剖面图。
图30所示为本申请的一些实施例的烟弹的剖面图。
贯穿图式和详细描述使用共同参考标号来指示相同或类似组件。根据以下结合附图作出的详细描述,本揭露的特点将更为清楚。
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。在本揭露中,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,本揭露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。
下文详细论述本揭露的实施例。然而,应了解,本揭露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揭露的范围。
在本申请的一些实施例中,电子雾化器装置也可称为电子烟,电子雾化器装置包括电子雾化器装置主体和电子雾化器,电子雾化器装置主体也被称为烟杆(未图标),电子雾化器也被称为烟弹10。在本申请的一些实施例中,烟弹和烟杆为分离的单独结构件,烟弹可插拔连接于烟杆。烟弹和烟杆结合后以形成电子烟。在本申请的一些实施例中,烟弹和烟杆可为一体成型的结构件。
图1A、图1B、图1C为本申请的一些实施例的烟弹10的分解结构示意图。烟弹10包含壳体11、吸液组件12、密封组件13、托架14、密封组件15、加热组件16及底座17。
图2A、图2B、图2C为本申请的一些实施例的壳体11的示意图。壳体11可类似为扁平且长之柱状体。壳体11包含吸嘴盖(mouthpieice)11m。吸嘴盖11m与电子烟用户的嘴接触。扁平之壳体11或吸嘴盖11m可与使用者的嘴形相对应,以让使用者可轻易含住吸嘴盖11m。壳体11的材质可为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。
壳体11包含开口11g。电子烟用户的嘴经由开口11g吸入气体或气雾。壳体11包含孔11h,其可与底座17之突出物17p接合(参阅图9A)。当孔11h与突出物17p接合时,壳体11与底座17接合。在某些实施例中,孔11h可为榫卯(mortise),突出物17p可为榫舌(tenon)。壳体11包含空间11c。空间11c是由壳体11所界定。在一些实施例中,壳体11可包含储存舱及通道,其中储存舱可储存流体,且流体可流过通道。
图3A、图3B为本申请的一些实施例的吸液组件12的示意图。吸液组件12的材质可包含棉,但可以根据实际情况进行选择,并不限定于此。在某些实施例中,吸液组件12的材质可包含高分子聚合物。在某些实施例中,吸液组件12可包含无纺布。在某些实施例中,吸液组件12可包含吸水纸。在某些实施例中,吸液组件12可包含棉布。在某些实施例中,吸液组件12可以包含多层结构。在某些实施例中,吸液组件12可以包含二层吸水纸。在某些实施例中,吸液组件12可以包含二层棉布。在某些实施例中,吸液组件12可以包含二层无纺布。
在某些实施例中,吸液组件12可包含多层复合结构。在某些实施例中,吸液组件12可包含由无纺布及棉布组成的复合结构。在某些实施例中,吸液组件12可包含由无纺布及吸水纸组成的复合结构。在某些实施例中,吸液组件12可包含由棉布及吸水纸组成的复合结构。
吸液组件12可为管状。吸液组件12两端具有开口12g1及12g2。在一些实施例中,开 口12g1远离座底17,开口12g2接近底座17。在一些实施例中,吸液组件12两端开口12g1及12g2之形状可为圆形、三角形、菱形或矩形。
图4A、图4B、图4C为本申请的一些实施例的密封组件13的示意图。密封组件13的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。图4A所示为密封组件13之顶面及侧面,其中密封组件13之顶面为接近吸液组件12之一面。参考图4A,密封组件13包含平台(mesa)13m及开口13g。在一些实施例中,平台13m之形状可为矩形、三角形、菱形或圆形,但不限于此。开口13g位于平台13m上。环状结构13r1围绕开口13g。环状结构13r1凸出于平台13m。环状结构13r1的顶面面积小于其底面面积。环状结构13r1的纵切面形状为上底小于下底之梯形或三角形。在一些实施例中,开口13g可以系火山口状(crater-shaped)的开口。
参考图4A,密封组件13包含凹陷13ca1。沿密封组件13之长轴,凹陷13ca1位于开口13g之两侧。凹陷13ca1之形状经选择以适于密封组件13之外形及平台13m1之外形,并不限于圆形、三角形、菱形或矩形。参考图4A,密封组件13包含凸缘(flange)13f1。凸缘13f1围绕密封组件13的周围或外侧。凸缘13f1自密封组件13径向向外凸出。密封组件13包含顶表面(top surface)13ts、侧壁(side wall)13sw及斜表面(ramp surface)13rs。凸缘13f1围绕密封组件13的侧壁13sw。凸缘13f1自密封组件13的侧壁13sw径向向外凸出。平台13m自顶表面13ts凸起。顶表面13ts连接至斜表面13rs。斜表面13rs连接至侧壁13sw。
图4B所示为密封组件13之顶面及侧面,其中密封组件13之顶面为接近吸液组件12之一面。参考图4B,开口13g位于平台13m上。环状结构13r1围绕开口13g。环状结构13r1凸出于平台13m。在一些实施例中,开口13g系火山口状(crater-shaped)的开口。凸缘13f1围绕硅胶13的侧壁13sw。凸缘13f1自密封组件13的侧壁13sw径向向外凸出。平台13m自顶表面13ts凸起。沿密封组件13之长轴,凹陷13ca1位于开口13g之两侧。凹陷13ca1之形状经选择以适于密封组件13之外形及平台13m1之外形。顶表面13ts连接至斜表面13rs。斜表面13rs连接至侧壁13sw。
参考图4B,密封组件13包含孔13h1。孔13h1位于凹陷13ca1中。孔13h1位于凹陷13ca1之底面上。沿密封组件13之长轴,孔13h1位于开口13g之两侧。参考图4B,密封组件13包含孔13h2。孔13h2位于凹陷13ca1中。孔13h2位于凹陷13ca1之侧壁13sw1及底部13b1(如图4C所示)上。在一些实施例中,孔13h2位于凹陷13ca1之底部13b1(如图4C所示)上。在一些实施例中,孔13h2位于凹陷13ca1之侧壁13sw1(如图4C所示)上。沿密封组件13之长轴,孔13h2位于开口13g之两侧。
相对于图4A及图4B,图4C所示为密封组件13之底面及侧面,其中密封组件13之底面为接近底座17之一面。密封组件13包含开口13g。环状结构13r2围绕开口13g。凹槽(groove)13gr1围绕环状结构13r2。因为围绕开口13g之环状结构13r2及围绕环状结构13r2之凹槽13gr1,开口13g系火山口状(crater-shaped)的开口。
参考图4C,密封组件13包含孔13h1。孔13h1位于凹陷13ca1之底面上。沿密封组件13之长轴,孔13h1位于开口13g之两侧。参考图4C,密封组件13包含孔13h2。孔13h2位于凹陷13ca1中。孔13h2位于凹陷13ca1之侧壁13sw1及底部13b1上。在一些实施例中,孔13h2位于凹陷13ca1之底部13b1上。在一些实施例中,孔13h2位于凹陷13ca1之侧壁13sw1上。沿密封组件13之长轴,孔13h2位于开口13g之两侧。
参考图4C,密封组件13包含凸缘(flange)13f2。凸缘13f2围绕硅胶13的侧壁13sw。凸缘13f1自密封组件13之侧壁13sw之外侧径向向外凸出。凸缘13f2自密封组件13之侧壁13sw之内侧径向向内凸出。参考图4C,密封组件13包含凹槽(groove)13gr2。密封组件13之侧壁13sw与凹陷13ca1之侧壁13sw1界定凹槽13gr2。凹槽13gr2位于凸缘13f2及凹陷13ca1的侧壁13sw1之间。
图5A、图5B、图5C、图5D、图5E为本申请的一些实施例的托架14的示意图。托架14的材质可为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。参考图5A,托架14包含管结构14t。管14t自托架14凸出。管结构14t包含开口14g1。开口14g1的形状可为圆形。在一些实施例中,开口14g1的形状可为可为矩形、三角形或菱形,但不限于止。在接近开口14g1之一端,管结构14t的外径逐渐变小。在接近开口14g1之一端,管结构14t之管壁的厚度逐渐变小。管结构14t可具有均匀内径。托架14包含环状结构14r1。环状结构14r1围绕管结构14t。环状结构14r1凸出于托架14。环状结构14r1凸出于顶部部分14tp。环状结构14r1管结构14t之间形成凹槽14gr1。环状结构14r1的顶面面积小于其底面面积。环状结构14r1的纵切面形状为上底小于下底之梯形或三角形。
参考图5A,托架14包含气孔(vent)14v1及14v2。气孔14v1及14v2形成于顶部部分14tp(参图5B)。在一些实施例中,托架14之一侧具有两个气孔14v1,托架14之一侧具有一气孔14v2,故托架14可共具有四个气孔14v1及两个气孔14v2。在一些实施例中,托架14可具有数目更多的气孔。在一些实施例中,托架14可具有数目较少的气孔。
在一些实施例中,气孔14v1及14v2由凹陷于凹陷于顶部部分14tp表面之凹槽界定。托 架14包含与气孔14v1连接并流体连通之流体通道14vp。流体通道14vp可为锯齿状,以防止烟油外泄。流体通道14vp具有数个方向转折。在某些实施例中,流体通道14vp从开口14g3到达气孔14v1之前可经过5次方向转折。在一些实施例中,流体通道14vp从开口14g3到达气孔14v1之前的转折数目可以更多。在一些实施例中,流体通道14vp从开口14g3到达气孔14v1之前的转折数目可以较少。
在一些实施例中,流体通道14vp亦可为直线。在一些实施例中,托架14之一侧具有两个流体通道14vp,故托架14共可具有四个流体通道14vp。在一些实施例中,托架14可具有数目更多的流体通道。在一些实施例中,托架14可具有数目较少的流体通道。
参考图5A,托架14包含开口14g2及开口14g3。托架14包含流体通道14gc。在一些实施例中,托架14之一侧具有一开口14g2、一开口14g3及一流体通道14gc,故托架具有两开口14g2、两开口14g3及两流体通道14gc。流体通道14gc由凹陷于托架表面之凹槽界定。开口14g1与开口14g2流体连通。开口14g2与流体通道14gc流体连通。流体通道14gc与开口14g3流体连通。开口14g3与流体通道14vp流体连通。
参考图5B,托架14包含管结构14t。管14t自托架14凸出。管结构14t包含开口14g1。开口14g1的形状可为圆形。在一些实施例中,开口14g1的形状可为矩形、三角形或菱形,但不限于此。在接近开口14g1之一端,管结构14t的外径逐渐变小。在接近开口14g1之一端,管结构14t之管壁的厚度逐渐变小。管结构14t可具有均匀内径。托架14包含环状结构14r1。环状结构14r1围绕管结构14t。环状结构14r1凸出于托架14。环状结构14r1凸出于顶部部分14tp。环状结构14r1管结构14t之间形成凹槽14gr1。环状结构14r1的顶面面积小于其底面面积。环状结构14r1的纵切面形状为上底小于下底之梯形或三角形。
参考图5B,托架14包含气孔14v1及14v2。在一些实施例中,托架14之一侧具有两个气孔14v1,托架14之一侧具有一气孔14v2,故托架14共具有四个气孔14v1及两个气孔14v2。在一些实施例中,气孔14v1及14v2由凹陷于托架表面之凹槽界定。托架14包含与气孔14v1连接并流体连通之流体通道14vp。流体通道14vp可为锯齿状,以防止烟油外泄。在一些实施例中,流体通道14vp亦可为直线。在一些实施例中,托架14之一侧具有两个流体通道14vp,故托架14共具有四个流体通道14vp。
参考图5B,托架14包含开口14g2及开口14g3。托架14包含流体通道14gc。在一些实施例中,托架14之一侧具有一开口14g2、一开口14g3及一流体通道14gc,故托架具有两开口14g2、两开口14g3及两流体通道14gc。流体通道14gc由凹陷于托架表面之凹槽界 定。开口14g1与开口14g2流体连通。开口14g2与流体通道14gc流体连通。流体通道14gc与开口14g3流体连通。开口14g3与流体通道14vp流体连通。
参考图5B,托架14包含凹陷14ca1。沿密封组件14之长轴,凹陷14ca1位于管结构14t之两侧。凹陷14ca1之形状经选择以适于密封组件14之外形、管结构14t之外形及环结构14r1之外形,并不限于圆形、三角形、菱形或矩形。托架14之凹陷14ca1与密封组件13之凹陷13ca1相对应。
参考图5C,托架14包含管结构14t。管14t自托架14凸出。管结构14t包含开口14g1。开口14g1的形状可为圆形。在一些实施例中,开口14g1的形状可为可为矩形、三角形或菱形,但不限于止。管结构14t的外径逐渐变小。在接近开口14g1之一端,管结构14t之管壁的厚度逐渐变小。管结构14t具有均匀内径。托架14包含环状结构14r1。环状结构14r1围绕管结构14t。环状结构14r1凸出于托架14。环状结构14r1凸出于顶部部分14tp。环状结构14r1管结构14t之间形成凹槽14gr1。环状结构14r1的顶面面积小于其底面面积。环状结构14r1的纵切面形状为上底小于下底之梯形或三角形。
参考图5C,托架14包含气孔14v1及14v2。气孔14v1及14v2形成于顶部部分14tp。在一些实施例中,托架14之一侧具有两个气孔14v1,托架14之一侧具有一气孔14v2,故托架14共具有四个气孔14v1及两个气孔14v2。在一些实施例中,气孔14v1及14v2由凹陷于顶部部分14tp表面之凹槽界定。托架14包含与气孔14v1连接并流体连通之流体通道14vp。流体通道14vp可为锯齿状,以防止烟油外泄。在一些实施例中,流体通道14vp亦可为直线。。在一些实施例中,托架14之一侧具有两个流体通道14vp,故托架14共具有四个流体通道14vp。
参考图5C,托架14包含开口14g2及开口14g3。托架14包含流体通道14gc。在一些实施例中,托架14之一侧具有一开口14g2、一开口14g3及一流体通道14gc,故托架具有两开口14g2、两开口14g3及两流体通道14gc。流体通道14gc由凹陷于托架表面之凹槽界定。开口14g1与开口14g2流体连通。开口14g2与流体通道14gc流体连通。流体通道14gc与开口14g3流体连通。开口14g3与流体通道14vp流体连通。参考图5C,托架14包含凹陷14ca1。沿密封组件14之长轴,凹陷14ca1位于管结构14t之两侧。凹陷14ca1之形状经选择以适于密封组件14之外形、管结构14t之外形及环状结构14r1之外形,并不限于圆形、三角形、菱形或矩形。托架14之凹陷14ca1与密封组件13之凹陷13ca1相对应。
参考图5C,托架14包含孔14h1。孔14h1位于凹陷14ca1中。孔14h1位于凹陷14ca1 之底面上。沿托架14之长轴,孔14h1位于开口14g1之两侧。托架14包含孔14h2。孔14h2位于凹陷14ca1中。孔14h2位于凹陷14ca1之侧壁及底部上。在一些实施例中,孔14h2位于凹陷14ca1之底部上。在一些实施例中,孔14h2位于凹陷14ca1之侧壁上。沿托架14之长轴,孔14h2位于开口14g1之两侧。
图5B及图5C绘示托架14之顶面及侧面。图5D绘示托架14之侧面及底面。为参考图5D,托架14包含管结构14t。管14t自托架14凸出。参考图5D,托架14包含气孔14v1及14v2。气孔14v1及14v2形成于顶部部分14tp。在一些实施例中,托架14之一侧具有两个气孔14v1,托架14之一侧具有一气孔14v2,故托架14共具有四个气孔14v1及两个气孔14v2。在一些实施例中,气孔14v1及14v2由凹陷于顶部部分14tp表面之凹槽界定。托架14包含与气孔14v1连接并流体连通之流体通道14vp。流体通道14vp可为锯齿状,以防止烟油外泄。在一些实施例中,流体通道14vp亦可为直线。在一些实施例中,托架14之一侧具有两个流体通道14vp,故托架14共具有四个流体通道14vp。
参考图5D,托架14包含开口14g2及开口14g3。托架14包含流体通道14gc。在一些实施例中,托架14之一侧具有一开口14g2、一开口14g3及一流体通道14gc,故托架具有两开口14g2、两开口14g3及两流体通道14gc。流体通道14gc由凹陷于托架表面之凹槽界定。开口14g1与开口14g2流体连通。开口14g2与流体通道14gc流体连通。流体通道14gc与开口14g3流体连通。开口14g3与流体通道14vp流体连通。
参考图5D,托架14包含凹陷14ca2。凹陷14ca2由底面14b1以及托架14之侧壁14sw1所界定。托架14包含环状结构14r2。环状结构14r2在凹陷14ca2中。环状结构14r2在凹陷14ca2之底面14b1上。环状结构14r2凸出于底面14b1。环状结构14r2的顶面面积小于其底面面积。环状结构14r2的纵切面形状为上底小于下底之梯形或三角形。托架14包含环状结构14r3。环状结构14r2在凹陷14ca2中。环状结构14r3在凹陷14ca2之底面14b1上。环状结构14r3凸出于底面14b1。环状结构14r3的顶面面积小于其底面面积。环状结构14r3的纵切面形状为上底小于下底之梯形或三角形。沿托架14之长轴,环状结构14r3位于环状结构14r2之两侧。
图5E绘示托架14之底面。参考图5E,托架14包含凹陷14ca2。凹陷14ca2由底面14b1以及托架14之侧壁14sw1所界定。托架14包含环状结构14r2。环状结构14r2在凹陷14ca2中。环状结构14r2在凹陷14ca2之底面14b1上。环状结构14r2凸出于底面14b1。孔14h2在凹陷14ca2中。孔14h2在底面14b1上。环状结构14r2围绕孔14h2。环状结构14r2围绕两个孔14h2。环状结构14r2的顶面面积小于其底面面积。环状结构14r2的纵切面形状为上 底小于下底之梯形或三角形。托架14包含环状结构14r3。环状结构14r2在凹陷14ca2中。环状结构14r3在凹陷14ca2之底面14b1上。环状结构14r3凸出于底面14b1。孔14h1在凹陷14ca2中。孔14h1在底面14b1上。环状结构14r3围绕孔14h1。环状结构14r3的顶面面积小于其底面面积。环状结构14r3的纵切面形状为上底小于下底之梯形或三角形。沿托架14之长轴,环状结构14r3位于环状结构14r2之两侧。
图6A、图6B、图6C为本申请的一些实施例的密封组件15的示意图。密封组件15的材质可为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。参考图6A,密封组件15之一面包含孔15h1及孔15h2。两个孔15h2分别位于孔15h1之两侧。孔15h2贯通密封组件15。密封组件15包含侧壁15sw1。密封组件15包含凸缘15f1、15f2及15f3。凸缘15f1、15f2及15f3系自侧壁15sw1径向向外凸出。密封组件15包含开口15g1。开口15g1位于侧壁15sw1上。开口15g1远离孔15h1。在一些实施例中,孔15h1可与开口15g1流体连通。在一些实施例中,密封组件16包含两个开口15g1,该两个开口15g1系基于密封组件之长轴对称设置。
参考图6B,密封组件15之一面包含孔15h1及15h2。两个孔15h2分别位于孔15h1之两侧。孔15h2贯通密封组件15。密封组件15包含侧壁15sw1。密封组件15包含凸缘15f1、15f2及15f3。凸缘15f1、15f2及15f3系自侧壁15sw1径向向外凸出。密封组件15包含开口15g1。开口15g1位于侧壁15sw1上。开口15g1远离孔15h1。在某些实施例中,孔15h1可与开口15g1流体连通。在一些实施例中,密封组件16包含两个开口15g1,该两个开口15g1系基于密封组件之长轴对称设置。
参考图6C,密封组件15之一面包含孔15h2及开口15g2。两个孔15h2分别位于开口15g2之两侧。孔15h2贯通密封组件15。包含孔15h2及开口15g2之一面系相对于包含孔15h1及15h2之一面。密封组件15包含侧壁15sw1。密封组件15包含凸缘15f1、15f2及15f3。凸缘15f1、15f2及15f3系自侧壁15sw1径向向外凸出。密封组件15包含开口15g1。开口15g1位于侧壁15sw1上。在一些实施例中,密封组件16包含两个开口15g1,该两个开口15g1系基于密封组件之长轴对称设置。开口15g1接近开口15g2。开口15g1与开口15g2流体连通。在某些实施例中,孔15h1可与开口15g1及开口15g2流体连通。
图7A为本申请的一些实施例的密封组件25的示意图。参考图7A,密封组件25之一面包含孔25h1及孔25h2。两个孔25h2分别位于孔25h1之两侧。孔25h2贯通密封组件25。密封组件25包含侧壁25sw1。密封组件25包含凸缘25f1及凸缘25f2。凸缘25f1及25f2系自侧壁25sw1径向向外凸出。相对于包含孔25h1及25h2之一面,密封组件25之另一面包含开口25g2(未于图7A展示)及孔25h2。在某些实施例中,孔25h1可与开口25g2流体连 通。密封组件25之孔25h1、孔25h2、侧壁25sw1、凸缘25f1、凸缘25f2、开口25g2分别与密封组件15之孔15h1、孔15h2、侧壁15sw1、凸缘15f1、凸缘15f2、开口15g2相对应具有类似之功能。
图8A、图8B、图8C为本申请的一些实施例的加热组件16的示意图。参考图8A,加热组件16包含凹陷16ca及凸缘16f。一凸缘16f位于加热组件16之一侧向外凸出。两凸缘16f分别位于凹陷16ca之两侧。在一些实施例中,凹陷16ca的开口及凸缘16f皆位于加热组件16之上部。在一些实施例中,凹陷16ca的开口位于加热组件16之上部,而凸缘16f位于加热组件16之下部。加热组件16可由多孔性材质所形成,多孔性材质可吸附欲被雾化之烟油。加热组件16可由耐热材质所形成,耐热材质可承受用以雾化烟油之高温并不产生变质或燃烧。加热组件16可由多孔性之耐热材质所形成,例如陶瓷。
参考图8B,加热组件16包含凸缘16f。一凸缘16f位于加热组件16之一侧向外凸出。两凸缘16f分别位于加热组件16之两侧。在一些实施例中,凸缘16f位于加热组件16之上部。加热组件16外形类似「T」形。在一些实施例中,凸缘16f位于加热组件16之下部。加热组件16外形类似「倒T」形。加热组件16可由多孔性材质所形成,多孔性材质可吸附欲被雾化之烟油。加热组件16可由耐热材质所形成,耐热材质可承受用以雾化烟油之高温并不产生变质或燃烧。加热组件16可由多孔性之耐热材质所形成,例如陶瓷。
参考图8C,加热组件16包含凸缘16f。一凸缘16f位于加热组件16之一侧向外凸出。两凸缘16f分别位于加热组件16之两侧。相对于包含凹陷16ca之一面,加热组件16之另一面包含接点16c及加热电路16hc。两接点16c位于加热电路16hc之两侧。接点16c及加热电路16hc为导电材质。加热电路16hc之导电材质之电阻高于接点16c之导电材质,以使加热电路16hc产生较多热量。在一些实施例中,凸缘16f位于加热组件16之上部。加热组件16外形类似「T」形。在一些实施例中,凸缘16f位于接近接点16c及加热电路16hc之下部。加热组件16外形类似「倒T」形。加热组件16可由多孔性材质所形成,多孔性材质可吸附欲被雾化之烟油。加热组件16可由耐热材质所形成,耐热材质可承受用以雾化烟油之高温并不产生变质或燃烧。加热组件16可由多孔性之耐热材质所形成,例如陶瓷。
图9A、图9B、图9C、图9D为本申请的一些实施例的底座17的示意图。在本申请的一些实施例中,底座17包含设置于其中以表征烟弹10内烟油口味信息的电阻(图中未标示)。在一些实施例中,底座17包含设置于其中的加密芯片(图中未标示)。在本申请的一些实施例中,底座17包含设置于其中的吸油垫(图中未标示)。吸油垫可以用于吸收可能泄露的烟油。吸油垫的材质为棉,但可以根据实际情况进行选择,并不限定于此。
参考图9A,底座17包含柱17c、弹簧片17s、突出物17p、侧壁17sw、凸缘17f1、17f2。当壳体11与底座17接合,吸液组件12、密封组件13、托架14、密封组件15、加热组件16收纳于壳体11与底座17所界定之空间中。突出物17p之自侧壁径向向外凸出。在某些实施例中,底座17包含对称设置的四个突出物17p,壳体11包含与突出物17p相对应之四个孔11h。当壳体11与底座17接合时,一突出物17p将进入一个孔11h,以使壳体11与底座17顺利接合且不分离。
在一些实施例中,柱17c可为圆柱或角柱。若柱17c为圆柱,其底面或顶面之形状为圆形。若17c为三角柱,底面或顶面之形状为三角形。若17c为四角柱,底面或顶面之形状为四角形。在某些实施例中,密封组件13之孔13h1、托架14之孔14h1及密封组件15之孔15h1(或密封组件25之孔25h1)之形状与柱17c之顶面(或底面)之形状相对应。在一些实施例中,柱17c为一渐缩之结构。在一些实施例中,柱17c之底面面积大于顶面面积。举例而言,若柱17c为圆柱,柱17c之底面之直径大于顶面之直径。若17c为三角柱,柱17c之底面面积大于顶面面积。
凸缘17f1、17f2系自侧壁17sw径向向外凸出。在一些实施例中,凸缘17f2系位于底座17之下部。在一些实施例中,突出物17p系位于凸缘17f1及17f2之间。当壳体11与底座17接合时,凸缘17f1抵触壳体11之内表面,凸缘17f2抵触壳体11之下缘。弹簧片17s用以将电流传导至加热组件16之接点16c,以使加热组件16之温度上升。弹簧片17s系由导电材质所形成。
参考图9B,底座17包含柱17c、弹簧片17s、突出物17p、侧壁17sw、孔17h1、开口17g1、凸缘17f1、17f2。突出物17p之自侧壁径向向外凸出。在某些实施例中,底座17包含对称设置的四个突出物17p,壳体11包含与突出物17p相对应之四个孔11h。当壳体11与底座17接合时,一突出物17p将进入一个孔11h,以使壳体11与底座17顺利接合且不分离。
在一些实施例中,柱17c可为圆柱或角柱。若柱17c为圆柱,其底面或顶面之形状为圆形。若17c为三角柱,底面或顶面之形状为三角形。在某些实施例中,密封组件13之孔13h1、接架14之孔14h1及密封组件15之孔15h1(或密封组件25之孔25h1)之形状与柱17c之顶面(或底面)之形状相对应。在一些实施例中,柱17c为一渐缩之结构。在一些实施例中,柱17c之底面面积大于顶面面积。举例而言,若柱17c为圆柱,柱17c之底面之直径大于顶面之直径。
开口17g1及孔17h1位于柱17c之间。开口17g1位于孔17h1之间。两个柱17c位于开口17g1及孔17h1之两侧。两个孔17h1位于开口17g1之两侧。孔17h1之位置与弹簧片17s之位置相对应。在一些实施例中,底座17包含一个开口17g1。在一些实施例中,底座17包含两个开口17g1,该两个开口17g1是基于底座17之长轴而对称设置。
凸缘17f1、17f2系自侧壁17sw径向向外凸出。在一些实施例中,凸缘17f2系位于底座17之下部。在一些实施例中,突出物17p系位于凸缘17f1及17f2之间。当壳体11与底座17接合时,凸缘17f1抵触壳体11之内表面,凸缘17f2抵触壳体11之下缘。弹簧片17s用以将电流传导至加热组件16之接点16c,以使加热组件16之温度上升。弹簧片17s系由导电材质所形成。
参考图9C,底座17包含柱17c、突出物17p、侧壁17sw、凸缘17f1、17f2、接点17c1、磁性组件17m、开口17g2及流体通道17gc。突出物17p之自侧壁径向向外凸出。在某些实施例中,底座17包含对称设置的四个突出物17p,壳体11包含与突出物17p相对应之四个孔11h。当壳体11与底座17接合时,一突出物17p将进入一个孔11h,以使壳体11与底座17顺利接合且不分离。
在一些实施例中,柱17c可为圆柱或角柱。若柱17c为圆柱,其底面或顶面之形状为圆形。若17c为三角柱,底面或顶面之形状为三角形。在某些实施例中,密封组件13之孔13h1、接架14之孔14h1及密封组件15之孔15h1(或密封组件25之孔25h1)之形状与柱17c之顶面(或底面)之形状相对应。在一些实施例中,柱17c为一渐缩之结构。在一些实施例中,柱17c之底面面积大于顶面面积。举例而言,若柱17c为圆柱,柱17c之底面之直径大于顶面之直径。
凸缘17f1、17f2系自侧壁17sw径向向外凸出。在一些实施例中,凸缘17f2系位于底座17之下部。在一些实施例中,突出物17p系位于凸缘17f1及17f2之间。当壳体11与底座17接合时,凸缘17f1抵触壳体11之内表面,凸缘17f2抵触壳体11之下缘。
开口17g2及接点17c1位于磁性组件17m之间。开口17g2位于接点17c1之间。两个磁性组件17m位于开口17g2及接点17c1之两侧。两个接点17c1位于开口17g2之两侧。接点17c1之位置与弹簧片17s之位置相对应。流体通道17gc位于接点17c1之间。流体通道17gc由凹陷于底座17之底面的凹槽所界定。流体通道17gc与开口17g2流体连通。开口17g2与开口17g1流体连通。
接点17c1与弹簧片17s电气连通。接点17c1可与烟杆之导电组件(未图标)接触。来 自烟杆之电池的能量经由与接点17c1接触之导电组件而传递至接点17c1、弹簧片17s以及加热组件16。磁性组件17m磁性地附接至烟杆之相应磁性组件(未图标)。当磁性组件17m磁性附接至烟杆之相应磁性组件,烟弹10可正确地定位至烟杆。
图9D为底座17之部分剖面图。底座17包含柱17c、弹簧片17s、突出物17p、侧壁17sw、孔17h1、开口17g1、凸缘17f1、17f2、接点17c1、。突出物17p之自侧壁径向向外凸出。在某些实施例中,底座17包含对称设置的四个突出物17p,壳体11包含与突出物17p相对应之四个孔11h。当壳体11与底座17接合时,一突出物17p将进入一个孔11h,以使壳体11与底座17顺利接合且不分离。
在一些实施例中,柱17c可为圆柱或角柱。在某些实施例中,密封组件13之孔13h1、托架14之孔14h1及密封组件15之孔15h1(或密封组件25之孔25h1)之形状与柱17c之顶面(或底面)之形状相对应。在一些实施例中,柱17c为一渐缩之结构。在一些实施例中,柱17c之底面面积大于顶面面积。
开口17g1及孔17h1位于柱17c之间。开口17g1位于孔17h1之间。两个柱17c位于开口17g1及孔17h1之两侧。两个孔17h1位于开口17g1之两侧。孔17h1之位置与弹簧片17s之位置相对应。在一些实施例中,底座17包含一个开口17g1。在一些实施例中,底座17包含两个开口17g1,该两个开口17g1是基于底座17之长轴而对称设置。
凸缘17f1、17f2系自侧壁17sw径向向外凸出。在一些实施例中,凸缘17f2系位于底座17之下部。在一些实施例中,突出物17p系位于凸缘17f1及17f2之间。当壳体11与底座17接合时,凸缘17f1抵触壳体11之内表面,凸缘17f2抵触壳体11之下缘。
弹簧片17s用以将电流传导至加热组件16之接点16c,以使加热组件16之温度上升。弹簧片17s系由导电材质所形成。接点17c1与弹簧片17s电气连通。在一些实施例中,接点17c1与弹簧片17s系由单一导电组件所形成。接点17c1之面积系由孔17h1之孔径而界定。接点17c1可与烟杆之导电组件(未图标)接触。来自烟杆之电池的能量经由与接点17c1接触之导电组件而传递至接点17c1、弹簧片17s以及加热组件16。除弹簧片17s、接点17c1及磁性组件17m,底座17的材质大部分为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。
图10为本申请的一些实施例的弹簧片17s的示意图。在一些实施例中,底座17包含两个弹簧片17s。在一些实施例中,底座17包含一对弹簧片17s。在一些实施例中,底座17之两个弹簧片17s为对称。弹簧片17s可包含五个部分17s1、17s2、17s3、17s4及17s5。弹 簧片17s可为单一导电组件所形成。弹簧片17s可为一体成形。弹簧片17s可由多个部分组合而成。部分17s1之形状实质上为正方形或矩形。部分17s1实质上在XY平面上延伸。接点17c1可由部分17s1所形成。
部分17s1连接至部分17s2。部分17s1电连接至部分17s2。部分17s2实质上垂直于部分17s1。部分17s2实质上在XZ平面上延伸。部分17s2实质上沿正Z轴方向延伸。部分17s2在X轴上之宽度小于部分17s1之边长。在一些实施例中,部分17s2在X轴上之宽度大于或等于部分17s1之边长。随着部分17s2在Z轴上延伸,部分17s2在X轴上之宽度变小。随着部分17s2在Z轴上延伸,部分17s2在X轴上之宽度逐渐变小。当部分17s2在Z轴上之长度为某一值时,部分17s2在X轴上之宽度变小。当部分17s2在Z轴上之长度为某一值后,随着部分17s2在Z轴上延伸,部分17s2在X轴上之宽度逐渐变小。
部分17s2连接至部分17s3。部分17s2电连接至部分17s3。部分17s3实质上在与XY平面呈40至50度角以及与XZ平面呈40至50度角之平面上延伸。部分17s3实质上沿与正Y轴呈40至50度角以及与正Z轴呈40至50度角之方向延伸。部分17s3在X轴上之宽度等于部分17s2在X轴上之宽度。在一些实施例中,部分17s3在X轴上之宽度小于或大于部分17s2在X轴上之宽度。在部分17s2与部分17s3连接处,X轴上之宽度相同。在部分17s2与部分17s3连接处,在X轴上之宽度逐渐变小。随着部分17s3朝正Y轴及正Z轴延伸,部分17s3在X轴上之宽度变小。随着部分17s3朝正Y轴及正Z轴延伸,部分17s3在X轴上之宽度逐渐变小。在一些实施例中,当部分17s3朝正Y轴及正Z轴延伸至某一位置,部分17s3在X轴上之宽度变小。在一些实施例中,当部分17s3朝正Y轴及正Z轴延伸至某一位置之后,随着部分17s3继续延伸,部分17s3在X轴上之宽度逐渐变小。
部分17s3连接至部分17s4。部分17s3电连接至部分17s4。部分17s4实质上在XY平面上延伸。部分17s4实质上沿正Y轴方向延伸。部分17s4在X轴上之宽度等于部分17s3在X轴上之宽度。在一些实施例中,部分17s4在X轴上之宽度小于或大于部分17s3在X轴上之宽度。在部分17s3与部分17s4连接处,X轴上之宽度相同。在部分17s3与部分17s4连接处,在X轴上之宽度逐渐变小。随着部分17s4朝正Y轴延伸,部分17s4在X轴上之宽度变小。随着部分17s4朝正Y轴延伸,部分17s4在X轴上之宽度逐渐变小。在一些实施例中,当部分17s4朝正Y轴延伸至某一位置,部分17s4在X轴上之宽度变小。在一些实施例中,当部分17s4朝正Y轴延伸至某一位置之后,随着部分17s4继续延伸,部分17s3在X轴上之宽度逐渐变小。
部分17s4连接至部分17s5。部分17s4电连接至部分17s5。部分17s5实质上在与XY 平面呈40至50度角以及与XZ平面呈40至50度角之平面上延伸。部分17s5实质上沿与正Y轴呈40至50度角以及与负Z轴呈40至50度角之方向延伸。部分17s5在X轴上之宽度等于部分174在X轴上之宽度。在一些实施例中,部分17s5在X轴上之宽度小于或大于部分17s4在X轴上之宽度。在部分17s4与部分17s5连接处,X轴上之宽度相同。在部分17s4与部分17s5连接处,在X轴上之宽度逐渐变小。随着部分17s5朝正Y轴及负Z轴延伸,部分17s5在X轴上之宽度变小。随着部分17s5朝正Y轴及负Z轴延伸,部分17s5在X轴上之宽度逐渐变小。在一些实施例中,当部分17s5朝正Y轴及负Z轴延伸至某一位置,部分17s5在X轴上之宽度变小。在一些实施例中,当部分17s5朝正Y轴及负Z轴延伸至某一位置之后,随着部分17s5继续延伸,部分17s5在X轴上之宽度逐渐变小。
当壳体11、接合,吸液组件12、密封组件13、托架14、密封组件15、加热组件16与底座17组合为烟弹10时,弹簧片17s之部分17s4抵触加热组件16之接点16c,以将电流传导至加热组件16。在一些实施例中,当壳体11、接合,吸液组件12、密封组件13、托架14、密封组件15、加热组件16与底座17组合为烟弹10时,根据底座17与加热组件16之间界定的空间,弹簧片17s在Z轴上的高度将被挤压。因为弹簧片17s在Z轴上的高度被挤压,弹簧片17s产生施加于加热组件16之力,使得弹簧片17s之部分17s4紧密抵触加热组件16之接点16c。弹簧片17s之部分17s4紧密抵触加热组件16之接点16c可减少弹簧片17s与加热组件16之间接触不良或断路的机会。
图11A、图11B、图11C、图11D、图11E为本申请的一些实施例的密封组件13、托架14及密封组件15的组合示意图。
图11A所示为沿密封组件13及托架14之长轴方向的剖面图。上方为密封组件13,下方为托架14。在一些实施例中,密封组件13及托架14为分开的组件。在一些实施例中密封组件13及托架14为单一组件。图11A中,密封组件13自托架14之上方向下与托架14组合。密封组件13之开口13g与托架14之开口14g1相对应。密封组件13之孔13h1与托架14之孔14h1相对应。密封组件13之孔13h2与托架14之孔14h2相对应。密封组件13之凹陷13ca1与托架14之凹陷14ca1相对应。密封组件13之凹槽13gr1与托架14之环状结构14r1相对应。密封组件13之环状结构13r2与托架14之凹槽14gr1相对应。密封组件13之凹槽13gr2与托架14之顶部部分14tp相对应。
图11B所示为沿托架14之短轴方向的剖面图。图11B之托架14尚未与密封组件13组合。托架14之上部包含开口14g1、管结构14t、环状结构14r1、凹槽14gr1。托架14之外侧表面包含流体通道14vp。流体通道14vp与开口14g3及气孔14v1流体连通。托架14之凹 陷14ca2包含环状结构14r2及孔14h2。
图11C所示为密封组件13与托架14之组合。图11C所示为沿密封组件13与托架14之短轴方向的剖面图。托架14之上部包含开口14g1、管结构14t、环状结构14r1、凹槽14gr1。托架14之外侧表面包含流体通道14vp。流体通道14vp与开口14g3及气孔14v1流体连通。托架14之凹陷14ca2包含环状结构14r2及孔14h2。密封组件13包含环状结构13r1、平台13m、斜表面13rs、凹槽13gr1、凸缘13f1、凸缘13f2、环状结构13r2。
当密封组件13与托架14组合,环状结构13r1贴附至管结构14t之外表面。当密封组件13与托架14组合,环状结构13r2插入凹槽14gr1。当密封组件13与托架14组合,环状结构13r2之凸出部分因被插入凹槽14gr1后而被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
当密封组件13与托架14组合,环状结构14r1插入凹槽13gr1。当密封组件13与托架14组合,因凹槽13gr1被环状结构14r1之凸出部分插入,凹槽13gr1之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
当密封组件13与托架14组合,托架14之上部部分14tp插入凹槽13gr2。当密封组件13与托架14组合,因上部部分14tp插入凹槽13gr2,凸缘13f2被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图11D所示为沿密封组件13、托架14及密封组件15之长轴方向的剖面图。在图11D中,密封组件13已与托架14组合。
在图11D中,在密封组件13与托架14之组合,环状结构13r1贴附至管结构14t之外表面。在密封组件13与托架14之组合,环状结构13r2插入凹槽14gr1。在密封组件13与托架14之组合,环状结构13r2围绕管结构14t。当密封组件13与托架14组合,环状结构13r2之凸出部分因被插入凹槽14gr1后而被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11D中,在密封组件13与托架14之组合,环状结构14r1插入凹槽13gr1。在密封组件13与托架14之组合,环状结构14r1围绕开口13g。在密封组件13与托架14之组合因 凹槽13gr1被环状结构14r1之凸出部分插入,凹槽13gr1之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11D中,在密封组件13与托架14之组合,托架14之上部部分14tp插入凹槽13gr2。在密封组件13与托架14之组合,因上部部分14tp插入凹槽13gr2,凸缘13f2被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11D中,在密封组件13与托架14之组合,气孔14v2在托架14之上部部分14tp与凹槽13gr2之间形成流体通道。所述流体通道可经由密封组件13与托架14之间的细缝,以及经由密封组件13、托架14及壳体11之间的细缝,平衡用以储存烟油之储存舱11ca(如图12A所示)中的压力与壳体11外部的压力。
在图11D中,在密封组件13与托架14之组合,孔13h1与孔14h1流体连通。在密封组件13与托架14之组合,孔13h2与孔14h2流体连通。
在图11D中,上方为密封组件13与托架14之组合,下方为密封组件15。在一些实施例中,密封组件13及密封组件15为分开的组件。在一些实施例中密封组件13及密封组件15为单一组件。密封组件15包含孔15h1、孔15h2、开口15g1、开口15g2、凸缘15f1、凸缘15f2、凸缘15f3。在图11D中,孔15h1、开口15g1、开口15g2为流体连通。在图11D中,孔15h1及开口15g2形成贯穿密封组件15之通道。孔15h1为上窄下宽之形状。孔15h1具有阶梯状之内表面。在图11D中,孔15h2形成贯穿密封组件15之通道。
图11D中,密封组件15自托架14之下方向上与托架14组合。密封组件15之孔15h1与托架14之孔14h2相对应。密封组件15之孔15h2与托架14之孔14h2相对应。密封组件15之开口15g1与托架14之开口14g3相对应。密封组件15与托架14之凹陷14ca2相对应。
图11E所示为沿密封组件13、托架14、密封组件15及加热组件16之长轴方向的剖面图。在图11D中,密封组件13、托架14及密封组件15已组合。
在图11E中,当托架14与密封组件15组合,环状结构14r2插入密封组件15之上表面。当托架14与密封组件15组合,环状结构14r2围绕密封组件15之孔15h1。当托架14与密封组件15组合,因密封组件15之上表面被环状结构14r2之凸出部分插入,密封组件15之上表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11E中,当托架14与密封组件15组合,环状结构14r3插入密封组件15之上表面。当托架14与密封组件15组合,环状结构14r3围绕密封组件15之孔15h2。当托架14与密封组件15组合,因密封组件15之上表面被环状结构14r3之凸出部分插入,密封组件15之上表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11E中,当托架14与密封组件15组合,密封组件15插入凹陷14ca2。当密封组件13与托架14组合,因密封组件15插入凹陷14ca2,凸缘15f1及凸缘15f2被凹陷14ca2之内表面挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。当密封组件13与托架14组合,因密封组件15插入凹陷14ca2,凸缘15f3抵触托架14之下缘。
在图11E中,当密封组件13、托架14及密封组件15组合,孔13h1、孔14h1及孔15h2流体连通。当密封组件13、托架14及密封组件15组合,孔13h2、孔14h2及孔15h1流体连通。当密封组件13、托架14及密封组件15组合,开口14g3及开口15g1流体连通。
在图11E中,当密封组件13、托架14及密封组件15组合,且当加热组件16尚未与密封组件13、托架14及密封组件15组合,孔13h2、孔14h2、孔15h1、开口14g3、开口15g1及开口15g2流体连通。
在图11E中,密封组件15包含环状结构15r。环状结构15r设置于孔15h1中。环状结构15r设置于孔15h1之阶梯状内表面上。环状结构15r凸出于孔15h1之内表面。环状结构15r向下凸出。环状结构15r的顶面面积小于其底面面积。环状结构15r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件13、托架14及密封组件15组合,加热组件16之顶面抵触环状结构15r。在一些实施例中,当加热组件16与密封组件13、托架14及密封组件15组合,加热组件16之顶面使环状结构15r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11E中,当加热组件16与密封组件13、托架14及密封组件15组合,孔15h1与加热组件16之凹陷16ca相对应。当加热组件16与密封组件13、托架14及密封组件15组合,孔15h1容纳加热组件16。当加热组件16与密封组件13、托架14及密封组件15组合,孔13h1、孔14h1、孔15h2及凹陷16ca流体连通。当加热组件16与密封组件13、托架14及密封组件15组合,开口14g3、开口15g1及开口15g2流体连通。
在图11E中,当加热组件16与密封组件13、托架14及密封组件15组合,孔15h1围绕加热组件16。加热组件16抵触孔15h1之内表面。孔15h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触孔15h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔15h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图11E中,当加热组件16与密封组件13、托架14及密封组件15组合,开口14g3、开口15g1及开口15g2不与孔15h1流体连通。当加热组件16与密封组件13、托架14及密封组件15组合,开口14g3、开口15g1及开口15g2不与孔14h2流体连通。当加热组件16与密封组件13、托架14及密封组件15组合,开口14g3、开口15g1及开口15g2不与孔13h2流体连通。
图12A、图12B、图12C、图12D、图12E、图12F、图12G为本申请的一些实施例的烟弹10组合示意图。图12A所示为壳体11。壳体11包含开口11g、吸嘴盖11m、储存舱11ca、流体通道11gc、外壁11w、空间11c及孔11h。壳体11可类似为扁平且长之柱状体。吸嘴盖11m与电子烟用户的嘴接触。扁平之壳体11或吸嘴盖11m可与使用者的嘴形相对应,以让使用者可轻易含住吸嘴盖11m。外壁11w之厚度并非均匀。距离开口11g之一距离处,外壁11w之厚度变小。距离开11g之一距离处,外壁11w之内表面为一阶梯状。
储存舱11ca是用以储存将被雾化的烟油。储存舱11ca可由外壁11w以及形成流体通道11gc的管状结构所界定。空间11c是用以收纳烟弹10之其他组件的空间。空间11c由外壁11w所界定。在一些实施例中,外壁11w可由两种不同的材料所形成。例如,外壁11w之内层可由较软的材料所形成,外壁11w之外层可由较硬的材料所形成。若外壁11w之内层由较软件材料所形成,将有助于烟油之密封。在一些实施例中,由两种不同材料所形成的外壁11w可经由双色注塑或其他相似方法而形成。壳体11的材质可为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。
流体通道11gc为管结构。流体通道11gc与开口11g流体连通。流体通道11gc之两端各具有一开口。流体通道11gc之一端的开口连接至开口11g。在一些实施例中,流体通道11gc两端开口之形状可为圆形、三角形、菱形或矩形。孔11h可与底座17之突出物17p接合。当壳体11与底座17接合时,孔11h与突出物17p接合。
图12B所示为壳体11及吸液组件12。壳体11包含开口11g、吸嘴盖11m、储存舱11ca、流体通道11gc、外壁11w、空间11c及孔11h。参考图12B,吸液组件12设置于壳体11之 流体通道11gc之内部。吸液组件12接触流体通道11gc之内表面。吸液组件12的材质为棉,但可以根据实际情况进行选择,并不限定于此。吸液组件12为管状。吸液组件12两端具有开口12g1及12g2。在一些实施例中,开口12g1远离座底17,开口12g2接近底座17。吸液组件12两端开口12g1及12g2之形状系各别对应于流体通道11gc两端开口之形状。在一些实施例中,吸液组件12两端开口12g1及12g2之形状可为圆形、三角形、菱形或矩形。
图12C所示为壳体11、吸液组件12、密封组件13、托架14、密封组件15及加热组件16。参考图12C,吸液组件12设置于壳体11之流体通道11gc之内部。参考图12C,密封组件13、托架14、密封组件15及加热组件16设置于壳体11之空间11c(如图12B所示)中。储存舱11ca是用以储存将被雾化的烟油。储存舱11ca由外壁11w、流体通道11gc以及密封组件13所界定。储存舱11ca由外壁11w、形成流体通道11gc的管状结构、密封组件13以及托架14所界定。
图12D所示为图12C之局部放大图。管结构14t插入流体通道11gc。流体通道11gc围绕管结构14t。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之开口14g1抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g2与开口14g1、吸液组件12、流体通道11gc及开口11g流体连通。
流体通道11gc在接近托架14之一端具有厚度渐小之壁。流体通道11gc在接近托架14之一端具有直径渐大之开口。流体通道11gc在接近托架14之一端具有渐大之内径。流体通道11gc具有均匀外径。当密封组件13与壳体11组合,流体通道11gc在接近托架14之一侧之壁插入平台13m。当密封组件13与壳体11组合,因平台13m被流体通道11gc之壁插入,平台13m之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。环状 结构13r1贴附至管结构14t之外表面。在一些实施例中,环状结构13r1之形状对应于流体通道11gc的厚度渐小之壁。在一些实施例中,环状结构13r1之形状对应于流体通道11gc的直径渐大之开口。环状结构13r1适形于流体通道11gc的厚度渐小之壁。环状结构13r1适形于流体通道11gc的直径渐大之开口。
距离开口11g之一距离处,外壁11w之厚度变小。距离开11g之一距离处,外壁11w之内表面为一阶梯状。当密封组件13与壳体11组合,外壁11w之呈阶梯状之内表面抵触密封组件13之斜表面13rs。当密封组件13与壳体11组合,因外壁11w之呈阶梯状之内表面抵触密封组件13之斜表面13rs,斜表面13rs产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
当密封组件13与壳体11组合,密封组件13之凸缘13f1抵触外壁11之内表面。。当密封组件13与壳体11组合,因凸缘13f1抵触外壁11之内表面,凸缘13f1被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
当密封组件15与壳体11组合,密封组件15之凸缘15f3抵触外壁11之内表面,以形成液体或气体的密封。当密封组件15与壳体11组合,因凸缘15f3抵触外壁11之内表面,凸缘15f3被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图12C及图12D中,在密封组件13、托架14及壳体11之组合,气孔14v2在托架14之上部部分14tp与凹槽13gr2之间形成流体通道。当烟油被雾化并被使用者吸入时,储存舱11ca之压力可能变小并导致烟油不易流动至凹陷16ca。经由密封组件13与托架14之间的细缝,以及经由密封组件13、托架14及壳体11之间的细缝,气孔14v2可平衡储存烟油之储存舱11ca(如图12A所示)中的压力与壳体11外部的压力。
在图12D中,密封组件15包含环状结构15r。环状结构15r设置于孔15h1中。环状结构15r设置于孔15h1之阶梯状内表面上。环状结构15r凸出于孔15h1之内表面。环状结构15r向下凸出。环状结构15r的顶面面积小于其底面面积。环状结构15r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件13、托架14及密封组件15组合,加热组件16之顶面抵触环状结构15r。在一些实施例中,当加热组件16与密封组件13、托架14及密封组件15组合,加热组件16之顶面使环状结构15r挤压并产生干涉量,以形成液体 或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图12D中,当加热组件16与密封组件13、托架14及密封组件15组合,孔15h1围绕加热组件16。加热组件16抵触孔15h1之内表面。孔15h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触孔15h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔15h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在图12D中,储存舱11ca、孔13h2、孔14h2、孔15h1及凹陷16ca流体连通。在图12D中,储存舱11ca、孔13h1、孔14h1及孔15h2流体连通。在图12D中,开口14g3、开口15g1、开口15g2流体连通。在图12D中,开口14g3、开口15g1、开口15g2不流体连通至储存舱11ca、孔13h2、孔14h2、孔15h1及凹陷16ca。在图12D中,开口14g3、开口15g1、开口15g2不流体连通至储存舱11ca、孔13h1、孔14h1及孔15h2。
在烟弹10之组装流程中需要在储存舱11ca中灌注欲被雾化的烟油。在一些实施例中,烟油可在图12C或图12D之状态被灌入储存舱11ca。在一些实施例中,可在图12C或图12D之状态下,将烟油自一侧之孔15h2,经由同一侧之孔14h1及孔13h1而灌入储存舱11ca;另一侧之孔15h2、孔14h1及孔13h1可在灌注烟油期间平衡储存舱11ca之内外压力。在一些实施例中,在图12C或图12D之状态下,一流体通道包含同一侧之孔15h2、孔14h1及孔13h1,经由所述流体通道将烟油灌入储存舱11ca;另一流体通道包含另一侧之孔15h2、孔14h1及孔13h1,另一流体通道可在灌注烟油期间平衡储存舱11ca之内外压力。
图12E所示为壳体11、吸液组件12、密封组件13、托架14、密封组件15、加热组件16及底座17。参考图12E,底座17由下往上与壳体11、吸液组件12、密封组件13、托架14、密封组件15及加热组件16(如图12C所示)组合。底座17之凸缘17f1抵触壳体11之外壁11w的内表面,以形成液体或气体的密封。除弹簧片17s、接点17c1及磁性组件17m,底座17的材质大部分为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。底座17之凸缘17f2抵触壳体11之外壁11w的下缘。底座17之柱17c将插入至孔15h2及孔14h1。柱结构17c穿过密封组件15之孔15h2。密封组件15之孔15h2围绕柱结构17c之部分。底座17之柱17c将插入至孔15h2,使得孔13h1不与孔14h1流体连通。
图12F所示为图12E之局部放大图。当底座17与图12C所示之壳体11、吸液组件12、 密封组件13、托架14、密封组件15及加热组件16组合时,柱17c之顶端约在孔14h1处。底座17之柱17c将插入至孔15h2及孔14h1。柱结构17c穿过密封组件15之孔15h2。密封组件15之孔15h2围绕柱结构17c之部分。底座17之柱17c将插入至孔15h2,使得孔13h1不与孔14h1流体连通。因为底座17之柱17c将插入至孔15h2及孔14h1,储存舱11ca不与孔15h1流体连通。储存舱11ca与孔13h2、孔14h2、孔15h1以及加热组件16之凹陷16ca流体连通。开口14g2及开口14g1不与储存舱11ca流体连通。
图12G所示为图12E之局部放大图。开口17g2、流体通道17gc与开口17g1流体连通。经由开口15g1、开口14g3及流体通道14gc(未示于图12G),开口14g2可与开口17g2、流体通道17gc及开口17g1流体连通。磁性组件17m可磁性地附接至烟杆之相应磁性组件(未图标)。当磁性组件17m磁性附接至烟杆之相应磁性组件,烟弹10可正确地定位至烟杆。接点17c1可与烟杆之导电组件(未图标)接触。来自烟杆之电池的能量经由与接点17c1接触之导电组件而传递至接点17c1、弹簧片17s以及加热组件16。接点17c1可由弹簧片17s之部分17s1所形成。
参考图12G,当底座17与图12C所示之壳体11、吸液组件12、密封组件13、托架14、密封组件15及加热组件16组合时,柱17c将造成密封组件15之孔15h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
于图12C之状态将烟油灌注于储存舱11ca后,底座17将与图12C所示之壳体11、吸液组件12、密封组件13、托架14、密封组件15及加热组件16组合。在图12E之状态,储存于储存舱11ca之烟油无法再经由孔13h1、孔14h1及孔15h2流出。在图12E之状态,储存于储存舱11ca之烟油仅可经由孔13h2、孔14h2及孔15h1而流至加热组件16之凹陷16ca,并使加热组件16吸附烟油以供加热并雾化。在图12E之状态,储存舱11ca与孔13h2、孔14h2及孔15h1及凹陷16ca流体连通。
在一些实施例中,若以图7A所示之密封组件25替代如图12E之密封组件15,组合后之烟弹可能不包含如图12G所示之凸缘15f3。然而,因为凸缘17f1、凸缘13f1及其他凸缘,即使没有凸缘15f3,烟弹10对于储存之烟油及吸入之气体仍具有密封性。
图13A及图13B为本申请的一些实施例的烟弹10之剖面图。壳体11可类似为扁平且长之柱状体。吸嘴盖11m与电子烟用户的嘴接触。扁平之壳体11或吸嘴盖11m可与使用者的嘴形相对应,以让使用者可轻易含住吸嘴盖11m。壳体11之孔11h与底座17之突出物17p 接合。底座17之凸缘17f2抵触壳体11之下缘。底座17之凸缘17f2抵触壳体11之外壁11w的下缘。
储存舱11ca经由孔13h2、孔14h2、孔15h1而与加热组件16之凹陷16ca流体连通。储存于储存舱11ca之烟油经由孔13h2、孔14h2、孔15h1而流至加热组件16之凹陷16ca,使得加热组件16吸附烟油以供加热并雾化。
开口11g与流体通道11gc、吸液组件12、开口14g1流体连通。开口17g2与开口17g1流体连通。开口17g1经由开口15g2、开口15g1、开口14g3、流体通道14gc及开口14g2(未示于图13A)而与开口14g1流体连通。当使用者从开口11g吸气,外部气体从流体通道17gc(未示于图13A)及开口17g2流至开口17g1。外部气体在开口15g2(未示于图13A)处与雾化之烟油混合后,流动至开口15g1、开口14g3、流体通道14gc及开口14g2(未示于图13A),再流动至开口14g1及流体通道11gc,最后在开口11g处被使用者吸入。
参考图13B,开口17g1与开口15g2、开口15g1及开口14g3流体连通。在一些实施例中,在加热组件16下方以及在开口17g1、开口15g2之空间可称为雾化室。在一些实施例中,在加热组件16之接点16c及加热电路16hc之下方以及在开口17g1、开口15g2之空间可称为雾化室。自外部吸入之气体与雾化之烟油在雾化室中混合。当使用者从开口11g(未示于图13B中)吸气,外部气体从流体通道17gc(未示于图13B中)及开口17g2(未示于图13B中)流至开口17g1。外部气体在开口15g2(或雾化室)处与雾化之烟油混合后,流动至开口15g1、开口14g3、流体通道14gc(未示于图13B中)及开口14g2(未示于图13B中),再流动至开口14g1(未示于图13B中)及流体通道11gc(未示于图13B中),最后在开口11g(未示于图13B中)处被使用者吸入。
参考图13B,弹簧片17s用以将电流传导至加热组件16之接点16c,以使加热组件16之温度上升。弹簧片17s系由导电材质所形成。接点17c1与弹簧片17s电气连通。在一些实施例中,接点17c1与弹簧片17s系由单一导电组件所形成。在一些实施例中,接点17c1是由弹簧片17s之一部分所形成。接点17c1之面积系由孔17h1之孔径而界定。接点17c1可与烟杆之导电组件(未图标)接触。来自烟杆之电池的能量经由与接点17c1接触之导电组件而传递至接点17c1、弹簧片17s以及加热组件16。电池的能量系经由接点17c1、弹簧片17s传递至加热组件16之接点16c以及加热电路16hc,以加热并雾化加热组件16所吸附之烟油。
在一些实施例中,当底座17与壳体11、吸液组件12、密封组件13、托架14、密封组件15、加热组件16组合为烟弹10时,弹簧片17s的高度被挤压。因为弹簧片17s的高度被 挤压,弹簧片17s产生施加于加热组件16之力,使得弹簧片17s紧密抵触加热组件16之接点16c。弹簧片17s紧密抵触加热组件16之接点16c可减少弹簧片17s与加热组件16之间接触不良或断路的机会。
参考图5A,托架14包含气孔14v1以及流体通道14vp。流体通道14vp与气孔14v1及流体通道14gc流体连通。当烟油被雾化并被使用者吸入时,储存舱11ca之压力可能变小并导致烟油不易流动至凹陷16ca。参考图13B,当外部气体从流体通道17gc(未示于图13B中)及开口17g2(未示于图13B中)流至开口17g1,且外部气体在开口15g2(或雾化室)处与雾化之烟油混合后流动至开口15g1、开口14g3、流体通道14gc(未示于图13B中)时,储存舱11ca之压力可经由与流体通道14gc流体连通之流体通道14vp及气孔14v1而与外部压力平衡。
图14A及图14B为本申请的一些实施例的气体通道之示意图。图14A及图14B所示之箭头14a1、箭头14a2、箭头14a3及箭头14a4指示当使用者自开口11g吸入气体时,流体(例如空气)自烟弹10之外部流入烟弹10的路径。参考图14A,当使用者自开口11g吸入气体时,箭头14a1指示外部之空气自流体通道17gc、开口17g2以及开口17g1流入加热组件16下方以及在开口17g1、开口15g2之空间(即雾化室)中。在雾化室中,经加热而被雾化之烟油与空气混合。箭头14a1指示经混合之气体经过开口15g2流动至开口15g1及开口14g3。
参考图14B,箭头14a2指示经混合之气体自开口15g1流向开口14g3。箭头14a3指示经混合之气体自开口14g3经由流体通道14gc流向开口14g2。参考图14A,箭头14a4指示经混合之气体自开口14g2流向开口14g1、流体通道11gc以及开口11g,并经由开口11g被使用者吸入。吸液组件12设置于流体通道11gc,以防止经混合之气体流经流体通道11gc时被储存舱11ca中的烟油冷凝而泄漏。
图15A、图15B、图15C为本申请的一些实施例的气体通道之示意图。参考图15A,箭头15a1指示外部空气进入烟弹10之路径。箭头15a1指示外部气体自流体通道17gc及开口17g2进入烟弹,并自开口17g1向开口15g2、开口15g1及开口14g3流动。参考图15C,箭头15a2指示部分气体自开口14g3向流体通道14vp流动,并向气孔14v1流动。流体通道14vp可为锯齿状,以防止烟油外泄。在一些实施例中,流体通道14vp亦可为直线。参考图15A,箭头15a3指示部分气体自开口14g3向流体通道14vp流动,向气孔14v1流动以及向储存舱11ca流动。当烟油被雾化并被使用者吸入时,储存舱11ca之压力可能变小并导致烟油不易流动至凹陷16ca。图15A及图15C中箭头15a1、箭头15a2及箭头15a3所指示之气体路径可平衡储存舱11ca及外部之压力,以使烟油可顺利流动至凹陷16ca。
参考图15B,箭头15a4指示外部空气进入烟弹10之路径。箭头15a4指示外部气体自流体通道17gc及开口17g2进入烟弹,并自开口17g1向开口15g2、开口15g1及开口14g3流动。参考图15C,箭头15a5指示部分气体自开口14g3沿托架14及壳体11(未示于图15C)之间的细缝流动,并向气孔14v2流动。参考图15B,箭头15a6指示部分气体自开口14g3沿托架14及壳体11(未示于图15C)之间的细缝流动,向气孔14v2流动以及经由密封组件13与托架14之细缝向储存舱11ca流动。
随着使用者持续使用雾化装置,储存舱11ca内的烟油不断消耗并减少,使储存舱11ca内压力逐渐变小。储存舱11ca内压力变小可能产生负压。储存舱11ca内压力变小可能使烟油不易流至加热组件16的凹陷16ca。当加热组件16未完全吸附烟油时,高温的加热组件16可能干烧并产生焦味。图15B及图15C中箭头15a4、箭头15a5及箭头15a6所指示之气体路径可平衡储存舱11ca及外部之压力,以使烟油可顺利流动至凹陷16ca。
图16A、图16B、图16C为本申请的一些实施例的密封组件23及托架24之示意图。密封组件23对应于密封组件13及密封组件15。在一些实施例中,密封组件23可用以替换密封组件13及密封组件15。参考图16A,密封组件23包含部分231及部分232。部分231可对应于密封组件13。部分232可对应于密封组件15或密封组件25。部分231及部分232之间有连结部23c。在一些实施例中,部分231及部分232之间有两个连结部23c,该两个链接部23c之位置对称。密封组件23更包含平台23m、斜表面23rs及凸缘23f1。在一些实施例中,平台23m与平台13m相对应,且平台23m与平台13m具有类似之功能。在一些实施例中,斜表面23rs与斜表面13rs相对应,且斜表面23rs与斜表面13rs具有类似之功能。在一些实施例中,凸缘23f1与凸缘13f1相对应,且凸缘23f1与凸缘13f1具有类似之功能。
托架24对应于托架14。在一些实施例中,托架24可用以替换托架14。参考图16B,托架24包含穿孔24th。穿孔24th系于连结部23c相对应。穿孔24th用以容纳连结部23c。在一些实施例中,若部分231及部分232之间有两个连结部23c,且该两个链接部23c之位置对称,托架24包含与该两个连结部23c相对应之穿孔24th。托架24可包含管结构24t、环状结构24r1、开口24g1(未示于图16B中)、开口24g2、开口24g3、流体通道24gc、流体通道24vp、气孔24v1(未示于图16B中)、气孔24v2(未示于图16B中)、凹陷24ca1(未示于图16B中)、凹陷24ca2(未示于图16B中),其等分别与管结构14t、环状结构14r1、开口14g1、开口14g2、开口14g3、流体通道14gc、流体通道14vp、气孔14v1、气孔14v2、凹陷14ca1、凹陷14ca2相对应且具有类似功能。
图16C所示为密封组件23及托架24沿长轴之剖面图。密封组件23包含平台23m、凹 陷23ca1、孔23h1、孔23h2、孔23h3、孔23h4、凹槽23gr1、斜表面23rs及凸缘23f1。在一些实施例中,平台23m与平台13m相对应,且平台23m与平台13m具有类似之功能。在一些实施例中,斜表面23rs与斜表面13rs相对应,且斜表面23rs与斜表面13rs具有类似之功能。在一些实施例中,凸缘23f1与凸缘13f1相对应,且凸缘23f1与凸缘13f1具有类似之功能。在一些实施例中,凹陷23ca1与凹陷13ca1相对应,且凹陷23ca1与凹陷13ca1具有类似之功能。在一些实施例中,孔23h1与孔13h1相对应,且孔23h1与孔13h1具有类似之功能。在一些实施例中,孔23h2与孔13h2相对应,且孔23h2与孔13h2具有类似之功能。在一些实施例中,孔23h3与孔15h2相对应,且孔23h3与孔15h2具有类似之功能。在一些实施例中,孔23h4与孔15h1相对应,且孔23h4与孔15h1具有类似之功能。孔23h4可用以容纳加热组件16。在一些实施例中,凹槽23gr1与凹槽13gr1相对应,且凹槽23gr1与凹槽13gr1具有类似之功能。
托架24包含开口24g1、开口24g2、开口24g3、管结构24t、环状结构24r1及凹陷24ca2。在一些实施例中,开口24g1与开口14g1相对应,且开口24g1与开口14g1具有类似之功能。在一些实施例中,开口24g2与开口14g2相对应,且开口24g2与开口14g2具有类似之功能。在一些实施例中,开口24g3与开口14g3相对应,且开口24g3与开口14g3具有类似之功能。在一些实施例中,管结构24t与管结构14t相对应,且管结构24t与管结构14t具有类似之功能。在一些实施例中,凹陷24ca2与凹陷14ca2相对应,且凹陷24ca2与凹陷14ca2具有类似之功能。在一些实施例中,环状结构24r1与环状结构14r1相对应,且环状结构24r1与环状结构14r1具有类似之功能。
当密封组件23与托架24组合,环状结构24r1插入凹槽23gr1。当密封组件23与托架24组合,因凹槽23gr1被环状结构24r1之凸出部分插入,凹槽23gr1之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图17所示为本申请的一些实施例的密封组件33之示意图。密封组件33可包含密封组件331及密封组件332。在一些实施例中,密封组件33可包含密封组件331。密封组件331可为一种环。密封组件332可为一种环。密封组件331及密封组件332的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,密封组件331及密封组件332的材质相同。在一些实施例中,密封组件331及密封组件332的材质不同。在某些实施例中,密封组件331及密封组件332可与其他组件(例如,托架14或托架34)紧密结合。在某些实施例中,密封组件331及密封组 件332可与其他组件形成一单一组件。在某些实施例中,密封组件331及密封组件332可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件331及密封组件332可与其他组件经由一体化注塑方式形成。
图18A所示为本申请的一些实施例的密封组件351之示意图。密封组件351包含孔35h1及孔35h2。在一些实施例中,两个孔35h2分别位于孔35h1之两侧。孔35h1及孔35h2贯通密封组件351。密封组件351的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件351可与其他组件(例如,托架14)紧密结合。在某些实施例中,密封组件351可与其他组件形成一单一组件。在某些实施例中,密封组件351可为其他组件(例如,托架14)的一部份。在某些实施例中,密封组件351可与其他组件经由一体化注塑方式形成。
图18B所示为本申请的一些实施例的密封组件351之剖面图。图18B所示系沿密封组件351之长轴的剖面图。密封组件351包含孔35h1及孔35h2。在一些实施例中,两个孔35h2分别位于孔35h1之两侧。孔35h1及孔35h2贯通密封组件351。从密封组件351之一侧至另一侧,孔35h1之内径变小。孔35h1在密封组件351之一侧的内径小于孔35h1在密封组件351之另一侧的的内径。在密封组件351中,孔35h1具有阶梯状之内表面。在密封组件351中,孔35h1之内壁为阶梯状。环状结构35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。从密封组件351之一侧至另一侧,孔35h2之内径变小。孔35h2在密封组件351之一侧的内径小于孔35h2在密封组件351之另一侧的的内径。密封组件351的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。
图18C所示为本申请的一些实施例的密封组件352之剖面图。密封组件352包含孔35h1。不同于密封组件351,密封组件352不具有孔35h2。孔35h1贯通密封组件352。从密封组件352之一侧至另一侧,孔35h1之内径变小。孔35h1在密封组件352之一侧的内径小于孔35h1在密封组件352之另一侧的的内径。在密封组件352中,孔35h1具有阶梯状之内表面。在密封组件352中,孔35h1之内壁为阶梯状。环状结构35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。密封组件352的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件352可与其他组件(例如,托架14 或托架34)紧密结合。在某些实施例中,密封组件352可与其他组件形成一单一组件。在某些实施例中,密封组件352可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件352可与其他组件经由一体化注塑方式形成。
图18D所示为本申请的一些实施例的密封组件353之剖面图。密封组件353包含孔35h2及孔35h3。密封组件353不具有孔35h1。在一些实施例中,两个孔35h2分别位于孔35h3之两侧。孔35h2及孔35h3贯通密封组件353。从密封组件353之一侧至另一侧,孔35h3之内径变小。孔35h3在密封组件353之一侧的内径小于孔35h3在密封组件353之另一侧的的内径。从密封组件353之一侧至另一侧,孔35h2之内径变小。孔35h2在密封组件351之一侧的内径小于孔35h2在密封组件351之另一侧的的内径。密封组件353的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件353可与其他组件(例如,托架14)紧密结合。在某些实施例中,密封组件353可与其他组件形成一单一组件。在某些实施例中,密封组件353可为其他组件(例如,托架14)的一部份。在某些实施例中,密封组件353可与其他组件经由一体化注塑方式形成。
图18E所示为本申请的一些实施例的密封组件354之剖面图。密封组件354包含孔35h3。不同于密封组件353,密封组件354不具有孔35h2。孔35h3贯通密封组件354。从密封组件354之一侧至另一侧,孔35h3之内径变小。孔35h3在密封组件354之一侧的内径小于孔35h3在密封组件354之另一侧的的内径。密封组件354的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件354可与其他组件(例如,托架14或托架34)紧密结合。在某些实施例中,密封组件354可与其他组件形成一单一组件。在某些实施例中,密封组件354可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件354可与其他组件经由一体化注塑方式形成。
图19A所示为本申请的一些实施例的密封组件451之一侧的示意图。密封组件451包含孔45h1及孔45h2。在一些实施例中,两个孔45h2分别位于孔45h1之两侧。孔45h1及孔45h2贯通密封组件451。密封组件451的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件451可与其他组件(例如,托架14)紧密结合。在某些实施例中,密封组件451可与其他组件形成一单一组件。在某些实施例中,密封组件451可为其他组件(例如,托架14)的一部份。在某些实施例中,密封组件451可与其他组件经由一体化注塑方式形成。
图19B所示为本申请的一些实施例的密封组件451之另一侧的示意图。密封组件451包含孔45h1及孔45h2。在一些实施例中,两个孔45h2分别位于孔45h1之两侧。孔45h1及孔45h2贯通密封组件451。密封组件451包含环状结构45r。环状结构45r设置于密封组件451之表面上。环状结构45r设置于密封组件451之底面上。环状结构45r凸出于密封组件451之表面。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。密封组件451的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。
图19C所示为本申请的一些实施例的密封组件452之一侧的示意图。密封组件452包含孔45h1。孔45h1贯通密封组件452。在一些实施例中,密封组件452左右两端之翼部可被移除。密封组件452的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件452可与其他组件(例如,托架14或托架34)紧密结合。在某些实施例中,密封组件452可与其他组件形成一单一组件。在某些实施例中,密封组件452可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件452可与其他组件经由一体化注塑方式形成。
图19D所示为本申请的一些实施例的密封组件452之另一侧的示意图。密封组件452包含孔45h1。孔45h1贯通密封组件452。密封组件452包含环状结构45r。环状结构45r设置于密封组件452之表面上。环状结构45r设置于密封组件452之底面上。环状结构45r凸出于密封组件452之表面。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。在一些实施例中,密封组件452左右两端之翼部可被移除。密封组件452的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。
图19E所示为本申请的一些实施例的密封组件453之一侧的示意图。密封组件453包含孔45h1。孔45h1贯通密封组件453。相较于密封组件452,密封组件左右两端不具有翼部。密封组件452的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件453可与其他组件(例如,托架14或托架34)紧密结合。在某些实施例中,密封组件453可与其他组件形成一单一组件。在某些实施例中,密封组件453可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件453可与其他组件经由一体化注塑方式形成。
图19F所示为本申请的一些实施例的密封组件453之另一侧的示意图。密封组件453包含孔45h1。孔45h1贯通密封组件453。密封组件453包含环状结构45r。环状结构45r 设置于密封组件452之表面上。环状结构45r设置于密封组件453之底面上。环状结构45r凸出于密封组件453之表面。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。相较于密封组件452,密封组件左右两端不具有翼部。密封组件453的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。
图19G所示为本申请的一些实施例的密封组件454之一侧的示意图。密封组件454包含孔45h1及孔45h2。在一些实施例中,两个孔45h2分别位于孔45h1之两侧。孔45h1及孔45h2贯通密封组件454。密封组件454之另一侧与图19G所示之一侧相似。密封组件454之另一侧与图19G所示之一侧相同。密封组件454的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件454可与其他组件(例如,托架14)紧密结合。在某些实施例中,密封组件454可与其他组件形成一单一组件。在某些实施例中,密封组件454可为其他组件(例如,托架14)的一部份。在某些实施例中,密封组件454可与其他组件经由一体化注塑方式形成。
图19H所示为本申请的一些实施例的密封组件455之一侧的示意图。密封组件455包含孔45h1。孔45h1贯通密封组件455。相较于密封组件451、密封组件452及密封组件454,密封组件455左右两端不具有翼部。在一些实施例中,密封组件455可进一步包含如密封组件452之左右两端翼部。密封组件455之另一侧与图19H所示之一侧相似。密封组件455之另一侧与图19H所示之一侧相同。密封组件455的材质可包含为硅胶、橡胶、硅氧烷,但可以根据实际情况进行选择其他合适材质,并不限定于此。在某些实施例中,密封组件455可与其他组件(例如,托架14或托架34)紧密结合。在某些实施例中,密封组件455可与其他组件形成一单一组件。在某些实施例中,密封组件455可为其他组件(例如,托架14或托架34)的一部份。在某些实施例中,密封组件455可与其他组件经由一体化注塑方式形成。
图20所示为本申请的一些实施例的烟弹101的剖面图。烟弹101包含托架14、壳体11及密封组件331。壳体11收纳托架14。密封组件331与托架14接合。壳体11收纳托架14及密封组件331。密封组件331及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331围绕托架14之上部部分14tp。密封组件331为一环。
参考图20,烟弹101包含托架14、壳体11、储存舱11ca及密封组件331。储存舱11ca系由托架14及壳体11所界定。储存舱11ca系由托架14及壳体11之外壁11w与流体通道 11gc之外壁所界定。密封组件331及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331被托架14及壳体11挤压。密封组件331被托架14及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图20,烟弹101包含密封组件351及加热组件16。密封组件351及托架14可藉由一体化注塑方式而形成。托架14收纳密封组件351及加热组件16。密封组件351及加热组件16收纳于托架14之凹陷14ca2中。密封组件351包含孔35h1、孔35h2及环状结构35r。密封组件351之孔35h1与托架14之孔14h2连接。密封组件351之孔35h1与托架14之孔14h2流体连通。密封组件351之孔35h1与加热组件16之凹陷16ca连接。密封组件351之孔35h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件351之孔35h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图20,密封组件351之孔35h1围绕加热组件16。密封组件351之孔35h1围绕加热组件16。加热组件16抵触密封组件351之孔35h1之内表面。密封组件351之孔35h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件351之孔35h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
在一些实施例中,密封组件353可替代密封组件351。密封组件353及托架14可藉由一体化注塑方式而形成。密封组件353之孔35h3围绕加热组件16。密封组件353之孔35h3围绕加热组件16。加热组件16抵触密封组件353之孔35h3之内表面。密封组件353之孔35h3围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件353之孔35h3之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h3之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图20,密封组件351包含环状结构35r。环状结构35r设置于孔35h1中。环状结构35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件351组合,加热组件16之顶面抵触环状 结构35r。当加热组件16与密封组件351组合,环状结构35r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件351组合,加热组件16之顶面使环状结构35r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图20,烟弹101包含支撑结构18。支撑结构18包含用于容纳加热组件16之孔。支撑结构18包含与孔35h2相对应之孔。支撑结构18包含两个与孔35h2相对应之孔。
参考图20,烟弹101包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件351(或密封组件353)之孔35h2。柱结构17c穿过孔35h2。孔35h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入孔35h2时,柱17c将造成孔35h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图20,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
图21所示为本申请的一些实施例的烟弹102的剖面图。烟弹102包含托架14、壳体11、密封组件331及密封组件332。壳体11收纳托架14。密封组件331及密封组件332与托架14接合。壳体11收纳托架14、密封组件331及密封组件332。密封组件331、密封组件332及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331围绕托架14之上部部分14tp。密封组件331为一环。
参考图21,烟弹102包含托架14、壳体11、储存舱11ca及密封组件331。储存舱11ca 系由托架14及壳体11所界定。储存舱11ca系由托架14及壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件331及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331被托架14及壳体11挤压。密封组件331被托架14及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图21,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图21,密封组件332围绕管结构14t。密封组件332及托架14可藉由一体化注塑方式而形成。密封组件332在管结构14t及流体通道11gc之间。密封组件332被托架14及壳体11挤压。密封组件332被托架14之管结构14t及壳体11之流体通道11gc挤压。被挤压之密封组件332产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件332为一环。
参考图21,烟弹102包含密封组件351及加热组件16。密封组件351及托架14可藉由一体化注塑方式而形成。托架14收纳密封组件351及加热组件16。密封组件351及加热组件16收纳于托架14之凹陷14ca2中。密封组件351包含孔35h1、孔35h2及环状结构35r。密封组件351之孔35h1与托架14之孔14h2连接。密封组件351之孔35h1与托架14之孔14h2流体连通。密封组件351之孔35h1与加热组件16之凹陷16ca连接。密封组件351之孔35h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件351之孔35h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图21,密封组件351之孔35h1围绕加热组件16。密封组件351之孔35h1围绕加热组件16。加热组件16抵触密封组件351之孔35h1之内表面。密封组件351之孔35h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触孔35h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图21,在一些实施例中,密封组件353可替代密封组件351。密封组件353及托架14可藉由一体化注塑方式而形成。密封组件353之孔35h3围绕加热组件16。加热组件16抵触密封组件353之孔35h3之内表面。密封组件353之孔35h3围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件353之孔35h3之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h3之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图21,密封组件351包含环状结构35r。环状结构35r设置于孔35h1中。环状结构35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件351组合,加热组件16之顶面抵触环状结构35r。当加热组件16与密封组件351组合,环状结构35r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件351组合,加热组件16之顶面使环状结构35r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图21,烟弹102包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件351(或密封组件353)之孔35h2。柱结构17c穿过孔35h2。孔35h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入孔35h2时,柱17c将造成孔35h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图22所示为本申请的一些实施例的烟弹103的剖面图。烟弹103包含托架14、壳体11、密封组件331及密封组件332。壳体11收纳托架14。密封组件331及密封组件332与托架14接合。壳体11收纳托架14、密封组件331及密封组件332。密封组件331、密封组件332 及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331围绕托架14之上部部分14tp。密封组件331为一环。
参考图22,烟弹103包含托架14、壳体11、储存舱11ca及密封组件331。储存舱11ca系由托架14及壳体11所界定。储存舱11ca系由托架14及壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件331及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331被托架14及壳体11挤压。密封组件331被托架14及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图22,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图22,密封组件332围绕管结构14t。密封组件332及托架14可藉由一体化注塑方式而形成。密封组件332在管结构14t及流体通道11gc之间。密封组件332被托架14及壳体11挤压。密封组件332被托架14之管结构14t及壳体11之流体通道11gc挤压。被挤压之密封组件332产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件332为一环。
参考图22,烟弹103包含密封组件451及加热组件16。密封组件451及托架14可藉由一体化注塑方式而形成。托架14收纳密封组件451及加热组件16。密封组件451及加热组件16收纳于托架14之凹陷14ca2中。密封组件451包含孔45h1、孔45h2及环状结构45r。密封组件451之孔45h1与托架14之孔14h2连接。密封组件451之孔45h1与托架14之孔 14h2流体连通。密封组件451之孔45h1与加热组件16之凹陷16ca连接。密封组件451之孔45h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件451之孔45h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图22,密封组件451包含环状结构45r。环状结构45r设置于密封组件451之表面上。环状结构45r设置于密封组件451之底面上。环状结构45r向下凸出。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件451组合,加热组件16之顶面抵触环状结构45r。当加热组件16与密封组件451组合,环状结构45r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件451组合,加热组件16之顶面使环状结构45r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图22,烟弹103包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件451之孔45h2。柱结构17c穿过密封组件451之孔45h2。密封组件451之孔45h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入密封组件451之孔45h2时,柱17c将造成密封组件451之孔45h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图23所示为本申请的一些实施例的烟弹104的剖面图。烟弹104包含托架34、壳体11、密封组件331及密封组件332。托架34与托架14具相似结构。相较于托架14,托架34不具有孔14h1。壳体11收纳托架34。密封组件331及密封组件332与托架34接合。壳体11收纳托架34、密封组件331及密封组件332。密封组件331、密封组件332及托架34可藉由一体化注塑方式而形成。密封组件331位于托架34及壳体11之外壁11w之间。密封组件331围绕托架34之上部部分14tp。密封组件331为一环。
参考图23,烟弹104包含托架34、壳体11、储存舱11ca及密封组件331。储存舱11ca系由托架34及壳体11所界定。储存舱11ca系由托架34及壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件331及托架34可藉由一体化注塑方式而形成。密封组件331位于托架34及壳体11之外壁11w之间。密封组件331被托架34及壳体11挤压。密封组件331被托架34及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于 0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图23,托架34之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架34之开口14g1连接。吸液组件12之开口12g2与托架34之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架34之开口14g1流体连通。吸液组件12之开口12g2与托架34之开口14g1流体连通。托架34之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架34的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架34之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图23,密封组件332围绕管结构14t。密封组件332及托架34可藉由一体化注塑方式而形成。密封组件332在管结构14t及流体通道11gc之间。密封组件332被托架34及壳体11挤压。密封组件332被托架34之管结构14t及壳体11之流体通道11gc挤压。被挤压之密封组件332产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件332为一环。
参考图23,烟弹104包含密封组件453及加热组件16。密封组件453及托架34可藉由一体化注塑方式而形成。托架34收纳密封组件453及加热组件16。密封组件453及加热组件16收纳于托架34之凹陷14ca2中。密封组件453包含孔45h1及环状结构45r。密封组件453之孔45h1与托架34之孔14h2连接。密封组件454之孔45h1与托架34之孔14h2流体连通。密封组件453之孔45h1与加热组件16之凹陷16ca连接。密封组件453之孔45h1与加热组件16之凹陷16ca流体连通。托架34之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件453之孔45h1、托架34之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图23,密封组件453包含环状结构45r。环状结构45r设置于密封组件453之表面上。环状结构45r设置于密封组件453之底面上。环状结构45r向下凸出。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件453组合,加热组件16之顶面抵触环状结构45r。当加热组件16与密封组件453组合,环状结构45r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件453组合,加热组件16之顶面使环状结构45r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于 0.1mm,烟油可能产生泄漏。
图24所示为本申请的一些实施例的烟弹105的剖面图。烟弹105包含托架14、壳体11、密封组件331及密封组件332。壳体11收纳托架14。密封组件331及密封组件332与托架14接合。壳体11收纳托架14、密封组件331及密封组件332。密封组件331、密封组件332及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331围绕托架14之上部部分14tp。密封组件331为一环。
参考图24,烟弹105包含托架14、壳体11、储存舱11ca及密封组件331。储存舱11ca系由托架14及壳体11所界定。储存舱11ca系由托架14及壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件331及托架14可藉由一体化注塑方式而形成。密封组件331位于托架14及壳体11之外壁11w之间。密封组件331被托架14及壳体11挤压。密封组件331被托架14及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图24,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图24,密封组件332围绕管结构14t。密封组件332及托架14可藉由一体化注塑方式而形成。密封组件332在管结构14t及流体通道11gc之间。密封组件332被托架14及壳体11挤压。密封组件332被托架14之管结构14t及壳体11之流体通道11gc挤压。被挤压之密封组件332产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件332为一环。
参考图24,烟弹105包含密封组件454及加热组件16。密封组件454及托架14可藉由一体化注塑方式而形成。托架14收纳密封组件454及加热组件16。密封组件454及加热组件16收纳于托架14之凹陷14ca2中。密封组件454包含孔45h1、孔45h2及环状结构45r。密封组件454之孔45h1与托架14之孔14h2连接。密封组件454之孔45h1与托架14之孔14h2流体连通。密封组件454之孔45h1与加热组件16之凹陷16ca连接。密封组件454之孔45h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件454之孔45h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图24,加热组件16与密封组件454组合,加热组件16之顶面抵触密封组件454。在一些实施例中,当加热组件16与密封组件454组合,加热组件16之顶面挤压密封组件454之部分被并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图24,烟弹105包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件454之孔45h2。柱结构17c穿过密封组件454之孔45h2。密封组件454之孔45h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入密封组件454之孔45h2时,柱17c将造成密封组件454之孔45h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图25所示为本申请的一些实施例的烟弹106的剖面图。烟弹106包含托架34、壳体11、密封组件331及密封组件332。托架34与托架14具相似结构。相较于托架14,托架34不具有孔14h1。壳体11收纳托架34。密封组件331及密封组件332与托架34接合。壳体11收纳托架34、密封组件331及密封组件332。密封组件331、密封组件332及托架34可藉由一体化注塑方式而形成。密封组件331位于托架34及壳体11之外壁11w之间。密封组件331围绕托架34之上部部分14tp。密封组件331为一环。
参考图25,烟弹106包含托架34、壳体11、储存舱11ca及密封组件331。储存舱11ca系由托架34及壳体11所界定。储存舱11ca系由托架34及壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件331及托架34可藉由一体化注塑方式而形成。密封组件331位于托架34及壳体11之外壁11w之间。密封组件331被托架34及壳体11挤压。密封组件331被托架34及壳体11之外壁11w挤压。被挤压之密封组件331产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于 0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图25,托架34之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架34之开口14g1连接。吸液组件12之开口12g2与托架34之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架34之开口14g1流体连通。吸液组件12之开口12g2与托架34之开口14g1流体连通。托架34之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架34的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架34之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图25,密封组件332围绕管结构14t。密封组件332及托架34可藉由一体化注塑方式而形成。密封组件332在管结构14t及流体通道11gc之间。密封组件332被托架34及壳体11挤压。密封组件332被托架34之管结构14t及壳体11之流体通道11gc挤压。被挤压之密封组件332产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件332为一环。
参考图25,烟弹106包含密封组件455及加热组件16。密封组件455及托架34可藉由一体化注塑方式而形成。托架34收纳密封组件455及加热组件16。密封组件455及加热组件16收纳于托架34之凹陷14ca2中。密封组件455包含孔45h1。密封组件455之孔45h1与托架34之孔14h2连接。密封组件455之孔45h1与托架34之孔14h2流体连通。密封组件455之孔45h1与加热组件16之凹陷16ca连接。密封组件455之孔45h1与加热组件16之凹陷16ca流体连通。托架34之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件454之孔45h1、托架34之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图25,加热组件16与密封组件455组合,加热组件16之顶面抵触密封组件455。在一些实施例中,当加热组件16与密封组件455组合,加热组件16之顶面挤压密封组件455之部分被并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图26所示为本申请的一些实施例的烟弹107的剖面图。烟弹107包含托架14、壳体11、密封组件13。壳体11收纳托架14。密封组件13与托架14接合。壳体11收纳托架14、密封组件13。密封组件13及托架14可藉由一体化注塑方式而形成。密封组件13之侧壁13sw 及凸缘13f1位于托架14及壳体11之间。壳体11、密封组件13及托架14之间的关系如前文所述。
参考图26,烟弹107包含托架14、壳体11、储存舱11ca及密封组件13。储存舱11ca系由托架14、密封组件13及壳体11所界定。储存舱11ca系由托架14、密封组件13、壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件13及托架14可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1(如图4A所示)位于托架14及壳体11之外壁11w之间。密封组件13之侧壁13sw及凸缘13f1位于托架14之顶部部分14tp及壳体11之外壁11w之间。密封组件13之部分(如图4A所示之斜表面13rs及凸缘13f1)被托架14及壳体11挤压。密封组件13之部分(如斜表面13rs及凸缘13f1)被托架14及壳体11之外壁11w挤压。密封组件13中被挤压之部分产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图26,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图26,密封组件13之平台13m(如图4A所示)围绕管结构14t。密封组件13之平台13m在管结构14t及流体通道11gc之间。密封组件13之平台13m被托架14及壳体11挤压。密封组件13之平台13m被托架14之管结构14t及壳体11之流体通道11gc挤压。被挤压之平台13m产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图26,烟弹107包含密封组件451及加热组件16。密封组件451及托架14可藉由 一体化注塑方式而形成。托架14收纳密封组件451及加热组件16。密封组件451及加热组件16收纳于托架14之凹陷14ca2中。密封组件451包含孔45h1、孔45h2及环状结构45r。密封组件451之孔45h1与托架14之孔14h2连接。密封组件451之孔45h1与托架14之孔14h2流体连通。密封组件451之孔45h1与加热组件16之凹陷16ca连接。密封组件451之孔45h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件451之孔45h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图26,密封组件451包含环状结构45r。环状结构45r设置于密封组件451之表面上。环状结构45r设置于密封组件451之底面上。环状结构45r向下凸出。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件451组合,加热组件16之顶面抵触环状结构45r。当加热组件16与密封组件451组合,环状结构45r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件451组合,加热组件16之顶面使环状结构45r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图26,烟弹107包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件451之孔45h2。柱结构17c穿过密封组件451之孔45h2。密封组件451之孔45h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入密封组件451之孔45h2时,柱17c将造成密封组件451之孔45h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图27所示为本申请的一些实施例的烟弹108的剖面图。烟弹108包含托架34、壳体11、密封组件13。托架34与托架14具相似结构。相较于托架14,托架34不具有孔14h1。在一些图27之实施例中,密封组件13不具有孔13h1。在一些图27之实施例中,密封组件13可具有13h1。壳体11收纳托架34。密封组件13与托架34接合。壳体11收纳托架34、密封组件13。密封组件13及托架34可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1位于托架34及壳体11之间。壳体11、密封组件13及托架34之间的关系如前文所述。
参考图27,烟弹108包含托架34、壳体11、储存舱11ca及密封组件13。储存舱11ca系由托架34、密封组件13及壳体11所界定。储存舱11ca系由托架34、密封组件13、壳体 11之外壁11w与流体通道11gc之外壁所界定。密封组件13及托架34可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1(如图4A所示)位于托架34及壳体11之外壁11w之间。密封组件13之侧壁13sw及凸缘13f1位于托架34之顶部部分14tp及壳体11之外壁11w之间。密封组件13之部分(如图4A所示斜表面13rs及凸缘13f1)被托架34及壳体11挤压。密封组件13之部分(如斜表面13rs及凸缘13f1)被托架34及壳体11之外壁11w挤压。密封组件13中被挤压之部分产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图27,托架34之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架34之开口14g1连接。吸液组件12之开口12g2与托架34之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架34之开口14g1流体连通。吸液组件12之开口12g2与托架34之开口14g1流体连通。托架34之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架34的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架34之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图27,密封组件13之平台13m(如图4A所示)围绕管结构14t。密封组件13之平台13m在管结构14t及流体通道11gc之间。密封组件13之平台13m被托架34及壳体11挤压。密封组件13之平台13m被托架34之管结构14t及壳体11之流体通道11gc挤压。被挤压之平台13m产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图27,烟弹108包含密封组件452及加热组件16。密封组件452及托架34可藉由一体化注塑方式而形成。托架34收纳密封组件452及加热组件16。密封组件452及加热组件16收纳于托架34之凹陷14ca2中。密封组件452包含孔45h1、孔45h2及环状结构45r。密封组件452之孔45h1与托架34之孔14h2连接。密封组件452之孔45h1与托架34之孔14h2流体连通。密封组件452之孔45h1与加热组件16之凹陷16ca连接。密封组件452之孔45h1与加热组件16之凹陷16ca流体连通。托架34之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件452之孔45h1、托架34之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图27,密封组件452包含环状结构45r。环状结构45r设置于密封组件452之表面上。环状结构45r设置于密封组件452之底面上。环状结构45r向下凸出。环状结构45r的顶面面积小于其底面面积。环状结构45r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件452组合,加热组件16之顶面抵触环状结构45r。当加热组件16与密封组件452组合,环状结构45r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件452组合,加热组件16之顶面使环状结构45r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图28所示为本申请的一些实施例的烟弹109的剖面图。烟弹109包含托架14、壳体11、密封组件13。壳体11收纳托架14。密封组件13与托架14接合。壳体11收纳托架14、密封组件13。密封组件13及托架14可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1位于托架14及壳体11之间。壳体11、密封组件13及托架14之间的关系如前文所述。
参考图28,烟弹109包含托架14、壳体11、储存舱11ca及密封组件13。储存舱11ca系由托架14、密封组件13及壳体11所界定。储存舱11ca系由托架14、密封组件13、壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件13及托架14可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1(如图4A所示)位于托架14及壳体11之外壁11w之间。密封组件13之侧壁13sw及凸缘13f1位于托架14之顶部部分14tp及壳体11之外壁11w之间。密封组件13之部分(如图4A所示之斜表面13rs及凸缘13f1)被托架14及壳体11挤压。密封组件13之部分(如斜表面13rs及凸缘13f1)被托架14及壳体11之外壁11w挤压。密封组件13中被挤压之部分产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图28,托架14之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架14之开口14g1连接。吸液组件12之开口12g2与托架14之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架14之开口14g1流体连通。吸液组件12之开口12g2与托架14之开口14g1流体连通。托架14之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架14之管结构14t的外表面与流体通道11gc之内表面可直接接触。托架14之管结构14t的外表面与流体通道11gc之内表面之间可不设置额外的密封组件。
托架14的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架14之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图28,密封组件13之平台13m(如图4A所示)围绕管结构14t。密封组件13之平台13m在管结构14t及流体通道11gc之间。密封组件13之平台13m被托架14及壳体11挤压。密封组件13之平台13m被托架14之管结构14t及壳体11之流体通道11gc挤压。被挤压之平台13m产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图28,烟弹109包含密封组件351及加热组件16。密封组件351及托架14可藉由一体化注塑方式而形成。托架14收纳密封组件351及加热组件16。密封组件351及加热组件16收纳于托架14之凹陷14ca2中。密封组件351包含孔35h1、孔35h2及环状结构35r。密封组件351之孔35h1与托架14之孔14h2连接。密封组件351之孔35h1与托架14之孔14h2流体连通。密封组件351之孔35h1与加热组件16之凹陷16ca连接。密封组件351之孔35h1与加热组件16之凹陷16ca流体连通。托架14之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件351之孔35h1、托架14之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图28,密封组件351之孔35h1围绕加热组件16。密封组件351之孔35h1围绕加热组件16。加热组件16抵触密封组件351之孔35h1之内表面。密封组件351之孔35h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件351之孔35h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图28,密封组件351包含环状结构35r。环状结构35r设置于孔35h1中。环状结构35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件351组合,加热组件16之顶面抵触环状结构35r。当加热组件16与密封组件351组合,环状结构35r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件351组合,加热组件16之顶面使环状结构35r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好 密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图28,烟弹109包含柱结构17c。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件351之孔35h2。柱结构17c穿过孔35h2。孔35h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入孔35h2时,柱17c将造成孔35h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图29所示为本申请的一些实施例的烟弹110的剖面图。烟弹110包含托架34、壳体11、密封组件13。托架34与托架14具相似结构。相较于托架14,托架34不具有孔14h1。在一些图27之实施例中,密封组件13不具有孔13h1。在一些图27之实施例中,密封组件13可具有13h1。壳体11收纳托架34。密封组件13与托架34接合。壳体11收纳托架34、密封组件13。密封组件13及托架34可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1位于托架34及壳体11之间。壳体11、密封组件13及托架34之间的关系如前文所述。
参考图29,烟弹110包含托架34、壳体11、储存舱11ca及密封组件13。储存舱11ca系由托架34、密封组件13及壳体11所界定。储存舱11ca系由托架34、密封组件13、壳体11之外壁11w与流体通道11gc之外壁所界定。密封组件13及托架34可藉由一体化注塑方式而形成。密封组件13之侧壁13sw及凸缘13f1(如图4A所示)位于托架34及壳体11之外壁11w之间。密封组件13之侧壁13sw及凸缘13f1位于托架34之顶部部分14tp及壳体11之外壁11w之间。密封组件13之部分(如图4A所示之斜表面13rs及凸缘13f1)被托架34及壳体11挤压。密封组件13之部分(如斜表面13rs及凸缘13f1)被托架34及壳体11之外壁11w挤压。密封组件13中被挤压之部分产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。密封组件331为一环。
参考图29,托架34之管结构14t插入壳体11之流体通道11gc。流体通道11gc围绕管结构14t。流体通道11gc为管结构。吸液组件12之开口12g2与托架34之开口14g1连接。吸液组件12之开口12g2与托架34之开口14g1在流体通道11gc中连接。壳体11之流体通道11gc与托架34之开口14g1流体连通。吸液组件12之开口12g2与托架34之开口14g1流体连通。托架34之管结构14t的外表面抵触流体通道11gc之内表面,以形成液体或气体的密封。托架34的材质为硬质塑料,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。在一些实施例中,管结构11t及流体通道11gc系由硬 质塑料制成,例如聚丙烯(PP)或聚乙烯(PE),但可以根据实际情况进行选择其他合适材质,并不限定于此。托架34之开口14g1、吸液组件12及流体通道11gc流体连通。
参考图29,密封组件13之平台13m(如图4A所示)围绕管结构14t。密封组件13之平台13m在管结构14t及流体通道11gc之间。密封组件13之平台13m被托架34及壳体11挤压。密封组件13之平台13m被托架34之管结构14t及壳体11之流体通道11gc挤压。被挤压之平台13m产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图29,烟弹110包含密封组件352及加热组件16。密封组件352及托架34可藉由一体化注塑方式而形成。托架34收纳密封组件352及加热组件16。密封组件352及加热组件16收纳于托架34之凹陷14ca2中。密封组件352包含孔35h1、孔35h2及环状结构35r。密封组件352之孔35h1与托架34之孔14h2连接。密封组件352之孔35h1与托架34之孔14h2流体连通。密封组件352之孔35h1与加热组件16之凹陷16ca连接。密封组件352之孔35h1与加热组件16之凹陷16ca流体连通。托架34之孔14h2与加热组件16之凹陷16ca流体连通。储存舱11ca与密封组件352之孔35h1、托架34之孔14h2以及加热组件16之凹陷16ca流体连通。
参考图29,密封组件352之孔35h1围绕加热组件16。密封组件352之孔35h1围绕加热组件16。加热组件16抵触密封组件352之孔35h1之内表面。密封组件352之孔35h1围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件352之孔35h1之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h1之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图29,在一些实施例中,密封组件354可替代密封组件352。密封组件354及托架34可藉由一体化注塑方式而形成。密封组件354之孔35h3围绕加热组件16。密封组件354之孔35h3围绕加热组件16。加热组件16抵触密封组件354之孔35h3之内表面。密封组件354之孔35h3围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件354之孔35h3之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h3之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图29,密封组件352包含环状结构35r。环状结构35r设置于孔35h1中。环状结构 35r设置于孔35h1之阶梯状内表面上。环状结构35r凸出于孔35h1之内表面。环状结构35r向下凸出。环状结构35r的顶面面积小于其底面面积。环状结构35r的纵切面形状为上底小于下底之梯形或三角形。当加热组件16与密封组件352组合,加热组件16之顶面抵触环状结构35r。当加热组件16与密封组件352组合,环状结构35r围绕加热组件16之凹陷16ca。在一些实施例中,当加热组件16与密封组件352组合,加热组件16之顶面使环状结构35r挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
图30所示为本申请的一些实施例的烟弹111的剖面图。烟弹111与烟弹109具有相似之结构及组成。烟弹111与烟弹109之差异在于烟弹111采用密封组件353,而非密封组件352。
参考图30,密封组件353之孔35h3围绕加热组件16。密封组件353之孔35h3围绕加热组件16。加热组件16抵触密封组件353之孔35h3之内表面。密封组件353之孔35h3围绕加热组件16之凸缘16f。加热组件16之凸缘16f抵触密封组件353之孔35h3之内表面。在一些实施例中,加热组件16之凸缘16f使孔35h3之内表面之对应位置处产生凹槽及干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
参考图30,烟弹111包含柱结构17c。密封组件353及托架14可藉由一体化注塑方式而形成。在一些实施例中,柱结构17c设置于底座17上。柱结构17c插入密封组件351之孔35h2。柱结构17c穿过孔35h2。孔35h2围绕柱结构17c之部分。柱结构17c插入托架14之孔14h1,以密封储存舱11ca。当柱结构17c插入孔35h2时,柱17c将造成孔35h2之内表面被挤压并产生干涉量,以形成液体或气体的密封。当干涉量为0.15mm至0.25mm时,有较好密封功效。当干涉量小于0.1mm,烟油可能产生泄漏。
密封组件13、密封组件331、密封组件332、密封组件351、密封组件352、密封组件353及密封组件354中之任一者与托架14及托架34中之任一者可藉由一体化注塑方式而形成。密封组件13、密封组件331、密封组件332、密封组件351、密封组件352、密封组件353及密封组件354中之任一者与托架14及托架34中之任一者之间的结合力在0.1N/cm
2(牛顿/平方毫米)至20N/cm
2的范围内。因为密封组件13、密封组件331、密封组件332、密封组件351、密封组件352、密封组件353及密封组件354之任一者与托架14及托架34之任一者之间可以一体化注塑方式而形成,故不存在组装偏位、零件公差问题,可改善导致漏液风险(例如烟油泄漏)。
密封组件451或密封组件454与托架14可藉由一体化注塑方式而形成。密封组件451或密封组件454与托架14之间的结合力在0.1N/cm
2(牛顿/平方毫米)至20N/cm
2的范围内。因为密封组件451或密封组件454与托架14之间可以一体化注塑方式而形成,故不存在组装偏位、零件公差问题,可改善导致漏液风险(例如烟油泄漏)。
密封组件452、密封组件453及密封组件455中之任一者与托架34可藉由一体化注塑方式而形成。密封组件452、密封组件453及密封组件455中之任一者与托架34之间的结合力在0.1N/cm
2(牛顿/平方毫米)至20N/cm
2的范围内。因为密封组件452、密封组件453及密封组件455中之任一者与托架34之间可以一体化注塑方式而形成,故不存在组装偏位、零件公差问题,可改善导致漏液风险(例如烟油泄漏)。
整个说明书中对“一些实施例”、“部分实施例”、“一个实施例”、“另一举例”、“举例”、“具体举例”或“部分举例”的引用,其所代表的意思是在本申请中的至少一个实施例或举例包含了该实施例或举例中所描述的特定特征、结构或特性。因此,在整个说明书中的各处所出现的描述,例如:“在一些实施例中”、“在实施例中”、“在一个实施例中”、“在另一个举例中”,“在一个举例中”、“在特定举例中”或“举例“,其不必然是引用本申请中的相同的实施例或示例。
如本文中所使用,空间相对术语,例如,“之下”、“下方”、“下部”、“上方”、“上部”、“下部”、“左侧”、“右侧”及类似者可在本文中用于描述的简易以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。除了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另一组件,或可存在中间组件。
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°。
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。
除非另外规定,否则例如“上方”、“下方”、“上”、“左”、“右”、“下”、“顶部”、“底部”、“垂直”、“水平”、“侧面”、“高于”、“低于”、“上部”、“在……上”、“在……下”、“向下”等等的空间描述是相对于图中所示的定向来指示的。应理解,本文中所使用的空间描述仅出于说明的目的,且本文中所描述的结构的实际实施方案可以任何定向或方式在空间上布置,其前提是本发明的实施例的优点是不会因此类布置而有偏差。
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。
除非另外规定,否则例如“上方”、“下方”、“上”、“左”、“右”、“下”、“顶部”、“底 部”、“垂直”、“水平”、“侧面”、“高于”、“低于”、“上部”、“在……上”、“在……下”、“向下”等等的空间描述是相对于图中所示的定向来指示的。应理解,本文中所使用的空间描述仅出于说明的目的,且本文中所描述的结构的实际实施方案可以任何定向或方式在空间上布置,其前提是本揭露的实施例的优点是不会因此类布置而有偏差。
虽然已参考本揭露的特定实施例描述并说明本揭露,但是这些描述和说明并不限制本揭露。所属领域的技术人员可清晰地理解,在不脱离如由所附权利要求书定义的本揭露的真实精神和范围的情况下,可进行各种改变,且可在实施例内取代等效组件。图示可能未必按比例绘制。归因于制造过程中的变量等等,本揭露中的艺术再现与实际设备之间可能存在区别。可能存在并未特定说明的本揭露的其它实施例。应将本说明书和图式视为说明性而非限定性的。可进行修改,以使特定情形、材料、物质组成、物质、方法或过程适宜于本揭露的目标、精神和范围。所有此类修改都意图在此所附权利要求书的范围内。虽然已参考按特定次序执行的特定操作描述本文中所公开的方法,但应理解,可在不脱离本揭露的教示的情况下组合、细分或重新排序这些操作以形成等效方法。因此,除非本文中特别指示,否则操作的次序和分组并非本揭露的限制。
前文概述本揭露的若干实施例及细节方面的特征。本揭露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。此类等效构造并不脱离本揭露的精神和范围,并且可在不脱离本揭露的精神和范围的情况下作出各种改变、替代和变化。
Claims (20)
- 一种雾化装置,其包含:托架;第一密封组件,其为所述托架的一部份,所述第一密封组件覆盖所述托架的顶部部分;及第二密封组件,其为所述托架的一部份且位于所述托架的第一凹陷中。
- 如权利要求1所述的雾化装置,其进一步包含壳体,其中:所述壳体收纳所述托架;且所述第一密封组件的一部分在所述托架及所述壳体的外壁之间。
- 如权利要求1所述的雾化装置,其进一步包含加热组件,其中:所述第二密封组件的第一孔与所述托架的第一孔流体连通,所述第二密封组件的所述第一孔与所述加热组件的凹陷流体连通。
- 如权利要求3所述的雾化装置,其中所述第二密封组件的所述第一孔围绕所述加热组件的凸缘。
- 如权利要求3所述的雾化装置,其进一步包含柱结构,其中所述柱结构插入所述第二密封组件的第二孔。
- 如权利要求3所述的雾化装置,其中所述第二密封组件包含环状结构,所述环状结构围绕所述加热组件的所述凹陷。
- 如权利要求6所述的雾化装置,其中所述第二密封组件的所述环状结构设置于所述第二密封组件的底面。
- 如权利要求6所述的雾化装置,其中所述第二密封组件的所述环状结构设置于所述第二密封组件的所述第一孔的阶梯状内表面上。
- 如权利要求1所述的雾化装置,其中所述托架的管结构插入所述壳体的管结构。
- 如权利要求9所述的雾化装置,其中所述第一密封组件的一部分在所述托架的所述管结构与所述壳体的所述管结构之间。
- 一种雾化装置,其包含:壳体;托架;第一密封组件,其为所述托架的一部份;储存舱,其由所述第一密封组件及所述壳体所界定;加热组件,其位于所述托架的第一凹陷中;及第二密封组件,其为所述托架的一部份且位于所述托架与所述加热组件之间。
- 如权利要求11所述的雾化装置,其中所述第一密封组件的一部分在所述托架及所述壳体的外壁之间。
- 如权利要求11所述的雾化装置,其中所述第二密封组件的第一孔连接至所述加热组件的凹陷。
- 如权利要求13所述的雾化装置,其中所述加热组件的凸缘抵触所述第二密封组件的所述第一孔的内表面。
- 如权利要求13所述的雾化装置,其进一步包含柱结构,所述第二密封组件的第二孔围绕所述柱结构的一部分。
- 如权利要求13所述的雾化装置,其中所述第二密封组件包含环状结构,所述加热组件挤压所述环状结构。
- 如权利要求16所述的雾化装置,其中所述第二密封组件的所述环状结构设置于所述第二密封组件的底面,并围绕所述加热组件之所述凹陷。
- 如权利要求16所述的雾化装置,其中所述第二密封组件的所述环状结构设置于所述第二密封组件的所述第一孔的阶梯状内表面上,所述环状结构围绕所述加热组件之所述凹陷。
- 如权利要求11所述的雾化装置,其中所述壳体的管结构围绕所述托架的管结构。
- 如权利要求19所述的雾化装置,其中所述第一密封组件的一部分被所述托架的所述管结构及所述壳体的所述管结构挤压。
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