WO2023124444A1 - Atomiseur, base d'atomisation, noyau d'atomisation et procédé de fabrication s'y rapportant - Google Patents

Atomiseur, base d'atomisation, noyau d'atomisation et procédé de fabrication s'y rapportant Download PDF

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Publication number
WO2023124444A1
WO2023124444A1 PCT/CN2022/126606 CN2022126606W WO2023124444A1 WO 2023124444 A1 WO2023124444 A1 WO 2023124444A1 CN 2022126606 W CN2022126606 W CN 2022126606W WO 2023124444 A1 WO2023124444 A1 WO 2023124444A1
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Prior art keywords
conductive sheet
liquid
atomizing core
conductive
atomizing
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PCT/CN2022/126606
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English (en)
Chinese (zh)
Inventor
吴成琴
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深圳市艾溹技术研究有限公司
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Publication of WO2023124444A1 publication Critical patent/WO2023124444A1/fr

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/46Shape or structure of electric heating means
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/70Manufacture
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts

Definitions

  • the invention relates to an atomizer, an atomization seat, an atomization core and a manufacturing method thereof.
  • the atomizing seat of the atomizer is used to heat and atomize the atomized liquid of the liquid guide, and the atomizing core is the core component of the atomizing function of the atomizing seat.
  • Traditional atomizing cores can only be manufactured one by one, such as the atomizing cotton core in the cotton jam assembly of the oil cup disclosed in Chinese patent CN113367396A, and the clamping and winding method of the atomizing core of the atomizing seat disclosed in Chinese patent CN216292996U , so that the manufacturing efficiency of the atomizing core is low.
  • a method for manufacturing an atomizing core comprising: providing a conductive sheet assembly, wherein the conductive sheet assembly includes M conductive sheets, and two adjacent conductive sheets are connected in a first direction; connecting the conductive sheet assembly Placed in a mold for in-mold injection molding, so that each of the conductive sheets is partially covered with a corresponding fixed injection molded part to form M semi-finished atomization cores; the conductive parts of two adjacent semi-finished atomization cores Cutting operation is performed on the joint of the sheet in the first direction.
  • An atomizing core manufactured by using the manufacturing method of the atomizing core described in any one of the above embodiments.
  • An atomization seat comprising the above-mentioned atomization core.
  • An atomizer characterized in that it includes the above-mentioned atomization seat, the atomizer also includes a sealing seat and a liquid guide, the liquid guide is installed on the seal seat, and the seal seat is provided with a connecting The liquid outlet hole and the installation groove are connected, and the liquid guiding part is located in the installation groove and connected with the sealing seat.
  • Fig. 1 is a schematic flow chart of a manufacturing method of an atomizing core according to an embodiment
  • Fig. 2 is a schematic structural view of a conductive sheet assembly provided in step S101 of a manufacturing method of an atomizing core according to an embodiment
  • Fig. 3 is a schematic diagram of an embodiment Schematic diagram of the structure of the atomization seat
  • Fig. 4 is a three-dimensional cross-sectional view of the atomization seat shown in Fig. 3
  • Fig. 5 is a schematic structural view of the atomization core of the atomization seat shown in Fig. 3
  • Fig. 6 is a diagram including the atomization seat shown in Fig.
  • Figure 7 is a schematic structural view of the atomizer shown in Figure 6 from another angle of view;
  • Figure 8 is a sectional view of the atomizer shown in Figure 7 along the A-A line;
  • Figure 9 is the atomization shown in Figure 6
  • Figure 10 is a B-B sectional view of the atomizer shown in Figure 9;
  • Figure 11 is a schematic diagram of the explosion of the atomization core of the atomizer shown in Figure 3;
  • Figure 12 is the atomization shown in Figure 11
  • Figure 13 is the structural schematic diagram of the mounting seat of the atomization seat shown in Figure 3;
  • Figure 14 is the partial structural schematic diagram of another perspective of the atomizer shown in Figure 6 .
  • a manufacturing method of an atomizing core is used to manufacture an atomizing core.
  • there are multiple atomizing cores wherein the multiple can be two or more than three.
  • the manufacturing method of the atomizing core includes part or all of the following steps:
  • a conductive sheet assembly is provided, wherein the conductive sheet assembly includes M conductive sheets, and two adjacent conductive sheets are connected in a first direction, so that the M conductive sheets of each conductive sheet assembly are connected to Integral, so that the conductive sheet assembly can be integrally formed when forming the conductive sheet assembly, which improves the manufacturing efficiency of the conductive sheet assembly.
  • each conductive sheet is located in the corresponding core cavity, so that the fixed injection molded parts formed in each core cavity cover the corresponding conductive sheet, so that the M conductive sheets
  • the sheets are arranged in one-to-one correspondence with multiple mold core cavities, so that M semi-finished atomizing cores can be molded at the same time.
  • the conductive sheet assembly can be placed in the mold for in-mold injection molding, so that the M conductive sheets are respectively set in correspondence with multiple mold core cavities, and then the injection molding slurry is injected into the mold to make the mold M semi-finished atomizing cores are molded in multiple mold core cavities at the same time, even if each of the conductive sheets is partially covered by the corresponding fixed injection molded part, and two adjacent semi-finished atomizing cores pass through the corresponding conductive sheets in the first
  • the connection in the direction improves the bending stress strength of the atomizing core.
  • the manufacturing method of the above-mentioned atomizing core when manufacturing, firstly provide a conductive sheet assembly, the conductive sheet assembly includes M conductive sheets, and two adjacent conductive sheets are connected in the first direction; then the conductive sheet assembly is placed in the mold To carry out in-mold injection molding, so that each conductive piece is partially covered with the corresponding fixed injection molded parts to form M semi-finished atomization cores, that is, M semi-finished atomization cores are simultaneously molded through the in-mold injection molding process; finally, the adjacent two The conductive sheet of the semi-finished atomizing core is cut in the first direction, so that each semi-finished atomizing core is separated in the first direction, so that multiple atomizing cores can be manufactured, and the manufacturing efficiency of the atomizing core is improved. .
  • each of the conductive sheets includes a connected conductive sheet body and a connecting piece, and the connecting pieces of two adjacent conductive sheets are connected in the first direction, that is, two adjacent conductive sheets
  • the connecting part of one of the conductive sheets of the sheet is connected to the connecting part of the other conductive sheet in the first direction, so that two adjacent conductive sheets are connected together.
  • the step of cutting the conductive sheets of two adjacent semi-finished atomization cores at the joint in the first direction is specifically: cutting the two adjacent atomization core semi-finished products.
  • the connecting piece of the conductive sheet of the core semi-finished product is cut at the connection point in the first direction, so that each semi-finished atomizing core is separated at the connecting piece of the conductive sheet in the first direction, so that multiple atomization cores can be produced. chemical core.
  • the connecting parts of the conductive sheets of the two adjacent atomizing core semi-finished products are exposed on the outside of the corresponding fixed injection molded part at the connection point in the first direction, so as to provide a direct connection between the two adjacent atomizing cores.
  • the connecting part of the conductive sheet of the semi-finished product is cut at the connection in the first direction.
  • the step of placing the conductive sheet assembly in the mold for in-mold injection molding is specifically: placing the conductive sheet body of each conductive sheet of the conductive sheet assembly in the mold For in-mold injection molding, the conductive sheet body part of each conductive sheet is wrapped in the fixed injection molded part, so as to form a plurality of semi-finished products of the atomizing core.
  • the conductive sheet body part of each conductive sheet is wrapped in the fixed injection molded part, so that each conductive sheet is reliably connected in the fixed injection molded part.
  • the conductive sheet body part of each conductive sheet is covered in the fixed injection molded part, and one side of the conductive sheet body of each conductive sheet is exposed on the surface of the fixed injection molded part, that is, the conductive sheet of the conductive sheet One side of the sheet body is flush with the surface of the fixed injection molded part, so that the conductive sheet body of the conductive sheet can better cover the fixed injection molded part, and at the same time, the conductive sheet body can be better attached to the liquid guide to add heat.
  • a cutout is formed on the side wall of each of the fixed injection molded parts along the first direction
  • the avoidance gap, the cutout avoidance gap is used to avoid cutting the connecting piece, so that the cutting avoidance gap can be better avoided when the connecting piece is cut later, and the processing convenience of the atomizing core is improved.
  • the cutting avoidance notch is provided correspondingly to the connecting piece. It can be understood that there may be multiple cut-off escape notches and connecting pieces, and multiple cut-off escape notches correspond to multiple connective pieces one-to-one.
  • the number of the conductive sheet assemblies is N, and the M conductive sheets of two adjacent conductive sheet assemblies are connected one by one in the second direction, wherein N is greater than or equal to An integer of 2, so that two adjacent conductive sheet assemblies are reliably connected.
  • the number of conductive sheet assemblies is N
  • the number of conductive sheets of each conductive sheet assembly is M
  • two adjacent conductive sheets The sheets are connected in the first direction
  • the M conductive sheets of two adjacent conductive sheet assemblies are connected one by one in the second direction, so there are a total of M*N conductive sheets, so that the conductive sheets
  • the sheet assembly is placed in the mold for in-mold injection molding, so that each of the conductive sheets partially covers the corresponding fixed injection molded part to form M*N atomizing core semi-finished products.
  • the manufacturing method further includes: S105, cutting the conductive sheets The conductive sheet of each semi-finished atomization core is broken and bent in the second direction.
  • the conductive sheet of each semi-finished atomization core is cut and bent in the second direction, wherein the second direction is the same as the first There is an angle between the directions.
  • the manufacturing method of the atomizing core includes: first providing N conductive sheet assemblies 20, wherein each conductive sheet assembly includes M conductive sheets 22, and two adjacent conductive sheets are located at the first The direction is connected in the X-axis direction shown in Figure 6, so that the M conductive sheets of each conductive sheet assembly are connected together, and the M conductive sheets of two adjacent conductive sheet assemblies are connected in the second direction, that is, as shown in Figure 6.
  • the number of conductive sheet assemblies can be one, that is, the conductive sheets of two adjacent semi-finished atomizing cores of each conductive sheet assembly are connected at the connection point in the first direction.
  • the cutting operation is to complete the manufacturing of the atomizing core, and M atomizing cores are obtained.
  • the first direction and the second direction are perpendicular to each other, so that the M*N conductive sheets can be manufactured better.
  • the M*N conductive sheets are distributed in a rectangular array.
  • the M conductive sheets of two adjacent conductive sheet assemblies are connected in the second direction through a fixing strip, so that the M conductive sheets of two adjacent conductive sheet assemblies connected in one body in the second direction, so that during manufacture, the M conductive sheets of two adjacent conductive sheet assemblies are not easy to collapse or bend when forming corresponding fixed injection molded parts in the mold, so that The M conductive sheets of two adjacent conductive sheet assemblies are better connected and can be integrally formed with corresponding fixed injection molded parts.
  • M breakpoints are respectively provided on both sides of the fixing strip, and the M conductive sheets of two adjacent conductive sheet assemblies respectively pass through the M breakpoints on both sides of the fixing strip and connect to the two sides of the fixing strip.
  • the second direction is connected in one-to-one correspondence.
  • the step of breaking and bending each conductive sheet of each atomizing core semi-finished product after the cutting operation in the second direction is specifically: cutting each conductive sheet after the cutting operation
  • the conductive sheet of a semi-finished atomizing core is broken and bent at the breakpoint of the fixing strip in the second direction, so that each conductive sheet of each semi-finished atomizing core is
  • the breaking point of the fixing strip in the second direction is cut off after the cutting operation and bent to form each atomizing core structure, even if each conductive sheet of each atomizing core is in the second direction After being cut, it is bent and formed on the fixed injection molded part, so that each conductive piece of each atomizing core after being formed is bent and formed on the fixed injection molded part after being cut in the second direction.
  • the conductive sheet of each of the atomizing core semi-finished products is cut and bent at the breakpoint of the fixing strip in the second direction, so that each conductive sheet
  • the sheet is broken at the breakpoint of the fixing strip in the second direction, and is bent from one side of the fixed injection molded part to the other side, so that the conductive sheet of each atomizing core after forming
  • the second direction is better fixed to the fixed injection molded part, and at the same time, the conductive sheet of each atomizing core after molding can not only abut against the liquid guiding part and heat the liquid guiding part, but also can be better connected with The conductive column abuts to conduct electricity.
  • the present application also provides an atomizing core 310 , which is manufactured by using the manufacturing method of the atomizing core described in any one of the above-mentioned embodiments.
  • the above-mentioned atomizing core when manufacturing, first provides a conductive sheet assembly, the conductive sheet assembly includes M conductive sheets, and two adjacent conductive sheets are connected in the first direction; then the conductive sheet assembly is placed in the mold for molding.
  • each conductive piece is partly covered with the corresponding fixed injection molded parts to form M semi-finished atomization cores, that is, M semi-finished atomization cores are formed at the same time through the in-mold injection molding process; finally, two adjacent atomization cores are formed
  • the conductive sheet of the core semi-finished product is cut at the joint in the first direction, so that each atomizing core semi-finished product is separated in the first direction, so that multiple atomizing cores can be manufactured, and the manufacturing efficiency of the atomizing core is improved.
  • the atomizing core 310 includes a conductive sheet 314 and a fixed injection molded part 312, and the conductive sheet 314 includes a conductive sheet body 314a, a connecting piece 314b and a bent portion 314c, Both the connecting piece 314b and the bent portion 314c are connected to the conductive sheet body 314a.
  • the fixed injection molding part 312 is overmolded on the conductive sheet body 314a, the connecting part 314b and a part of the bending part 314c respectively, and the other part of the bending part 314c protrudes from the fixing injection molding part 312 It is bent and attached to the surface of the fixed injection molded part 312 , and the conductive sheet body 314 a is partially exposed on the fixed injection molded part 312 to heat the atomized liquid. It can be understood that during manufacture, multiple atomizing cores 310 are produced simultaneously, and the conductive sheet body 314 a and the connecting piece 314 b of each atomizing core 310 are molded by in-mold injection molding.
  • the connecting piece 314b extends to the periphery of the fixed injection molding part 312, that is, the end of the connecting piece 314b away from the conductive sheet body 314a is exposed on the side peripheral edge of the fixed injection molding part 312, so that the conductive sheets 314 of two adjacent atomizing cores 310 are fixed.
  • the injection molded part 312 is overmolded on the conductive sheet body 314a and the connecting piece 314b and then cut to realize batch manufacturing of more than two atomizing cores 310 and improve the manufacturing efficiency of a single atomizing core 310 .
  • the length of the connecting piece 314b is relatively long, and the connecting piece 314b of two adjacent atomizing cores 310 is connected together before the fixed injection molding piece 312 is overmolded on the conductive sheet body 314a and the connecting piece 314b.
  • the conductive sheet body 314 a is used to generate heat when conducting electricity, so as to heat and atomize the liquid guiding element 20 .
  • the conductive sheet body 314 a is at least partially used for adhering to the liquid guiding element 20 so as to heat and atomize the liquid guiding element 20 .
  • the conductive sheet 314 includes a conductive sheet body 314a, a connecting piece 314b and a bent portion 314c, both the connecting piece 314b and the bent portion 314c are connected to the conductive sheet body 314a, and because the fixed injection molded part 312 Parts of the conductive sheet body 314a, the connecting piece 314b and the bending portion 314c are overmolded respectively, so that the fixed injection molded part 312, the conductive sheet body 314a, the connecting piece 314b, and the bending portion 314c are formed into an integrated structure, which improves the fogging effect.
  • the conductive sheet body 314a conducts electricity better, thereby making the atomizing core 310 conduct better electricity and making the structure of the atomizing core 310 more compact.
  • the body of the conductive sheet can be stretched reliably after the bending part is bent. It is tightly installed on the fixed injection molded part, so that the surface of the conductive sheet body is smoother, and then it is better contacted and heated with the liquid guiding part 20 .
  • the liquid guiding element is liquid guiding cotton, and the atomizing core is supported and abutted against the liquid guiding element.
  • multiple atomizing cores 310 can be manufactured at the same time, that is, firstly, the conductive sheets 314 corresponding to the multiple atomizing cores 310 are integrally injected into a mold.
  • the conductive strips 314 corresponding to two atomizing cores 310 are connected together, and then the conductive strips 314 of two adjacent atomizing cores 310 after injection molding are respectively cut, so that the conductive strips 314 of two adjacent atomizing cores 310
  • the connecting piece 314b and the bent portion 314c are separated, and then a plurality of atomizing cores 310 are manufactured, which improves the manufacturing efficiency of the atomizing cores 310 .
  • a part of the conductive sheet body 314a, the connecting piece 314b and the bending part 314c are all exposed on one end surface of the fixed injection molded part 312, so that the conductive sheet
  • the heat generated by 314 is better for heating and atomizing the atomized liquid.
  • the conductive sheet 314 is in contact with the liquid guiding element, that is, the conductive sheet 314 heats and atomizes the atomized liquid on the liquid guiding element.
  • the conductive strip body 314a is exposed on the surface of the fixed injection molding part 312
  • the connecting part 314b is exposed on the surface of the fixed injection molding part 312
  • the bending part 314c is exposed on the fixed injection molding part 312
  • the surface of the fixed injection molded part 312 is flush with the end surface, so that the fixed injection molded part 312 and the conductive sheet 314 can be better contacted with the liquid guiding part, and then the conductive sheet 314 and the liquid guiding part can better contact the ground surface.
  • the liquid guide part is spread on the surface of the conductive sheet body 314a exposed on the fixed injection molded part 312, the connecting part 314b is exposed on the surface of the fixed injection molded part 312, and the bending part 314c is exposed on the surface of the fixed injection molded part 312.
  • the surface of the fixed injection molding part 312 is above the end surface of the fixed injection molding part 312, so that the conductive sheet 314 can better heat and atomize the atomized liquid of the liquid guide part.
  • the connecting piece 314b, the bent portion 314c and the conductive sheet body 314a are integrally formed to make the structure of the conductive piece 314 more compact, and at the same time make the connecting piece 314b, the bent portion 314c and the conductive sheet body 314a more compact.
  • the conductive sheet body 314a is reliably connected.
  • the conductive sheet body 314a includes a first connecting portion 3141, a second connecting portion 3143 and a conductive heating portion 3145, and the two ends of the conductive heating portion 3145 are connected to the first connecting portion 3141 and the second connecting portion 3141 respectively.
  • the connecting part 3143 is connected, and the conductive heating part 3145 is used to attach and abut against the liquid-guiding element, so as to heat and atomize the liquid-guiding element.
  • the connecting part 314b includes a first connecting part 3142 and a second connecting part 3144, and the first connecting part 3142 and the second connecting part 3144 are at least respectively connected to two sides of the first connecting part 3141. Or, in one of the embodiments, the first connecting part 3142 and the second connecting part 3144 are at least respectively connected to two sides of the second connecting part 3143 .
  • the first connecting part 3142 and the second connecting part 3144 can be respectively connected to both sides of the first connecting part 3141, so that the conductive elements of the multiple atomizing cores 310
  • the sheets 314 can be reliably connected during the manufacturing process, ie after injection molding and before cutting.
  • the first connecting part 3142 and the second connecting part 3144 can be respectively connected to both sides of the second connecting part 3143, so that the conductive sheets 314 of the multiple atomizing cores 310 It can be connected reliably during the manufacturing process, that is, after injection molding and before cutting.
  • the number of the first connecting part 3142 and the number of the second connecting part 3144 are both two; the two first connecting parts 3142 are respectively connected to the first connecting part 3141 and one side of the second connecting part, the two second connecting parts 3144 are respectively connected to the first connecting part 3141 and the other side of the second connecting part, so that the conductive sheets 314 of the multiple atomizing cores 310 are manufactured More reliable connection during the process, ie after injection molding and before cutting.
  • the number of the bent portions 314c is two, and the two bent portions 314c are respectively connected to the first connecting portion 3141 and the second connecting portion 3143, the two bent portions 314c are used for external electrical conduction, so as to realize the reliable electrical conduction of the conductive heating portion 3145.
  • the two bending portions 314c are both bent and attached to the surface of the fixed injection molded part 312 , and the two bending portions 314c are respectively used to abut against the conductive pillar 300 to make the atomizing core 310 externally conductive.
  • the two conductive pillars 300 are positive conductive pillars and negative conductive pillars respectively, and the two bent portions 314c are in contact with the positive conductive pillars and the negative conductive pillars respectively.
  • the side wall of the fixed injection molded part 312 is formed with a cutting avoidance notch 312a, and the cutting avoidance notch is used to avoid cutting off the connecting part 314b for subsequent When cutting the connecting piece 314b, the cutting avoidance gap 312a is better avoided, which improves the processing convenience of the atomizing core 310 .
  • the cutting avoidance notch 312a is provided correspondingly to the connecting member 314b, that is, the connecting member 314b extends to the inner wall of the cutting avoiding notch 312a.
  • the excess part of the connecting piece 314b protrudes from the cutting avoidance notch 312a, and the excess part of the protruding connecting piece 314b is cut by cutting the avoiding notch 312a, so that the structure of the manufactured atomizing core 310 is The shape is flatter.
  • there are at least two connecting parts 314b the first connecting part 3141 is connected to one of the connecting parts 314b, and the second connecting part 3143 is connected to the other connecting part 314b.
  • There are at least two cutting escape notches 312a one of the connecting parts 314b extends to the inner wall of one cutting avoiding notch 312a, and the other connecting member 314b extends to the inner wall of the other cutting avoiding notch 312a.
  • the side wall of the fixed injection molded part 312 is also formed with a bending avoidance gap 312b, and the bending avoidance gap is used to avoid bending and form the bending part 314c, so that Subsequent better bending and forming of the bending portion improves the processing convenience of the atomizing core 310 and makes the structure of the atomizing core 310 more compact.
  • the bending avoidance gap 312b is provided corresponding to the bending forming area of the bending part, that is, the bending part is bent and attached to the surface of the fixed injection molded part 312 through the bending avoidance gap 312b.
  • the bent portion of the conductive sheet 314 of the atomizing core 310 is cut at a predetermined position protruding from the fixed injection molded part 312 , and the bent part is bent and attached to the surface of the fixed injection molded part 312 .
  • the inner wall of the bending avoidance gap 312b is formed with a bending positioning groove 3122, and the part of the bending part 314c protruding from the fixed injection molded part 312 is bent and accommodated in the bending positioning groove
  • the structure of the atomizing core 310 is relatively compact.
  • the bending positioning groove is formed at a position adjacent to the end surface of the side wall of the fixed injection molded part 312 .
  • the surface of the fixed injection molded part 312 is also formed with a bending receiving hole 3126 communicating with the bending positioning groove, and the end of the bending part 230 away from the conductive sheet body 314a is located in the bending receiving hole In 3126 , the bent portion 230 is better accommodated in the fixed injection molded part 312 .
  • the bent receiving hole is used for plugging the conductive post 300 , so that the conductive post 300 and the bent portion 230 can reliably contact and conduct electricity.
  • the conductive heating part 3145 is in the shape of a mesh sheet or a rectangular bent sheet.
  • the bending part 230 is formed on the part of the fixed injection molded part 312, the conductive sheet body 314a and the connecting piece 314b are located in the same plane, so that the structure of the conductive sheet 314 injection molded on the fixed injection molded part 312 is relatively flat, so that the conductive sheet 314 is more flat. It is better to abut against the liquid guide 20 for heating and atomization.
  • the bent portion 230 is formed on the part of the fixed injection molded part 312, the conductive sheet body 314a and the connecting piece 314b are all coated on the end surface of the fixed injection molded part 312, that is, the bent part 230 is formed on the fixed injection molded part 312 Part, the conductive sheet body 314a and the connecting piece 314b are all exposed on the end surface of the fixed injection molded part 312, and the bending part 230 is formed on the part of the fixed injection molded part 312, the surface of the conductive sheet body 314a and the connecting piece 314b are all connected to the fixed injection molded part 312
  • the end surfaces of the conductive strips 314 are evenly aligned, so that the conductive sheet 314 can better abut against the liquid guiding element 20 .
  • the conductive sheet 314 also includes a reinforcing rib 314d connected to the conductive heating part 3145, and the end of the reinforcing rib far away from the conductive heating part 3145 is coated on the fixed injection molded part 312, thereby improving the compressive stress of the conductive heating part 3145 Strength, so that the conductive heating part 3145 is not easy to collapse, so that the conductive heating part 3145 can better contact the surface of the liquid guiding part 20, so as to better avoid the deformation of the conductive sheet 314 when the liquid guiding part 20 is heated.
  • the case of dry burning there are multiple reinforcing ribs, and the multiple reinforcing ribs are all connected to the conductive heating part 3145 .
  • the present application also provides an atomization seat 300 , including the atomization core 310 described in any one of the above-mentioned embodiments.
  • the atomization seat 300 includes an atomization core 310 and a mounting seat 320 , wherein the atomization core 310 includes an atomization core body 312 , a conductive sheet 314 and a liquid blocking sleeve 316 , Both the heating part and the conductive part of the conductive sheet 314 are exposed on the surface of the atomizing core body 312, and the heating part of the conductive sheet 314 is in contact with the liquid guiding element 200, so that the heating part of the conductive sheet 314 can be The liquid guiding element 200 is heated and atomized, and at the same time, the conductive part of the conductive sheet 314 can be externally connected to conduct electricity.
  • Both the liquid blocking set 316 and the sealing seat 100 are connected to the mounting seat 320, and the liquid blocking set 316 is sleeved on the atomizing core body 312, so that the atomizing core body 312 is reliably connected to the blocking element.
  • the liquid blocking set 316 is connected to the mounting seat 320, the liquid blocking set 316 is located between the mounting seat 320 and the sealing seat 100, and the atomizing core body 312 is located between the mounting seat 320 and the sealing seat 100.
  • the liquid blocking sleeve 316 is provided with an abutting portion 316a, and the abutting portion 316a is arranged along the outer peripheral wall of the atomizing core body 312, so that both the atomizing core body 312 and the abutting portion 316a are sealed with each other.
  • the seat 100 is reliably abutted and sealed.
  • the end surface of the sealing seat 100 provided with the installation groove 104 abuts against the abutting portion 316a and the atomizing core body 312 respectively, so that the end surface of the sealing seat 100 provided with the installation groove 104 is in contact with the abutting portion 316a and the atomizing core body 312 respectively.
  • the chemical core body 312 is sealed and abutted to play a role of double sealing.
  • the abutting portion 316a is arranged along the outer peripheral wall of the atomizing core body 312, that is, the abutting portion 316a is located on the outer peripheral wall of the atomizing core body 312, and the abutting portion 316a and the atomizing core body 312 are both sealed with each other. seat 100 abutment.
  • the present application also provides an atomizer, which includes the atomization seat described in any one of the above-mentioned embodiments.
  • the atomizer 10 a further includes a sealing seat 100 and a liquid guiding element 200 , and the liquid guiding element 200 is installed on the sealing seat 100 .
  • the sealing seat 100 is provided with a liquid outlet hole 102 and an installation groove 104 which communicate with each other, and the liquid guiding element 200 is located in the installation groove 104 and connected with the sealing seat 100 .
  • the liquid guiding element 200 plays the role of stabilizing and guiding the liquid.
  • the atomized liquid may be e-liquid or medicinal liquid or other liquids.
  • the liquid guide 200 is located in the installation groove 104 and connected to the sealing seat 100, so that the atomized liquid flows out from one side of the seal seat 100 through the liquid outlet 102 and the installation groove 104, and the liquid guide 200 It plays the role of guiding and stabilizing the liquid, so that the liquid guiding effect of the sealing seat 100 is relatively stable; since the heating part and the conductive part of the conductive sheet 314 are exposed on the surface of the atomizing core body 312, the heating part of the conductive sheet 314 is in contact with the
  • the liquid guide 200 enables the conductive piece 314 to heat and atomize the atomized liquid of the liquid guide 200, and because the liquid blocking sleeve 316 is socketed on the atomizing core body 312, and the sealing seat 100 is provided with the end faces of the installation grooves 104 respectively It abuts against the abutting portion 316a and the atomizing core body 312, and the abutting portion 316a is arranged along the outer peripheral wall of the atomizing core body
  • the part where the sealing seat 100 abuts with the atomizing core body 312 is arranged around the heating part of the conductive sheet 314, so that the sealing seat 100 and the The contact portion of the atomizing core body 312 reliably seals the heated portion of the conductive sheet 314 .
  • the conductive sheet 314 Since the heated part of the conductive sheet 314 abuts against the liquid guide 200, the conductive sheet 314 heats and atomizes the atomized liquid of the liquid guide 200, and because the part where the sealing seat 100 contacts the atomizing core body 312 Surrounding the heating part of the conductive sheet 314, coupled with the liquid-stabilizing and liquid-guiding functions of the liquid-guiding member 200, the side leakage of the atomized liquid from the contact between the sealing seat 100 and the atomizing core body 312 is further avoided The problem.
  • the end surface of the atomizing core body 312 abutting against the sealing seat 100 is an abutting surface, and the heating part between the abutting surface and the conductive sheet 314 is exposed on the surface of the atomizing core body 312 flush, so that the surface of the atomizing core body 312 in contact with the sealing seat 100 and the heated part of the conductive sheet 314 exposed to the surface of the atomizing core body 312 are on the same plane, so that the atomizing core body 312 can better resist It is connected to the sealing seat 100 , and at the same time, the conductive sheet 314 can better abut against the liquid guiding element 200 .
  • the atomizing core body 312 is in contact with the sealing seat 100 and the liquid guiding element 200 respectively, and the heating part of the conductive sheet 314 is in contact with the liquid guiding element 200, so that the liquid guiding element 200 is in contact with the heating element 200 respectively.
  • the part is in contact with the atomizing core body 312, so that both the conductive sheet 314 and the atomizing core body 312 are in flat contact with the liquid guide 200, which improves the atomization effect of the atomizer 10a.
  • the atomizing core body 312 and the conductive sheet 314 are integrally formed, so that the atomizing core body 312 and the conductive sheet 314 are firmly connected, and the structure of the atomizing core 310 is relatively compact.
  • the atomizing core body 312 and the conductive sheet 314 are integrally formed by injection molding, so that the structure of the atomizing core 310 is relatively compact. 310 are manufactured in batches, which improves the manufacturing efficiency of a single atomizing core 310 .
  • the liquid guiding part 200 includes a liquid guiding part body 210 and a supporting liquid stabilizing part 220 arranged in layers.
  • liquid guide body 210 can be arranged flatly in the installation groove 104, even if the surface of the liquid guide body 210 exposed in the installation groove 104 is reliably flush with the surface of the sealing seat 100, due to the support of the liquid stabilizer 220 and
  • the liquid guide body 210 is arranged in layers so that the supporting and stabilizing member 220 is not easy to collapse, that is, to avoid dry burning of the heated part of the conductive sheet 314, so that the liquid guide body 210 and the heated part of the conductive sheet 314 are reliably Abut.
  • the liquid guiding part body 210 has the function of stabilizing liquid and guiding liquid
  • the supporting liquid stabilizing part 220 has the function of stabilizing liquid and guiding liquid, so that the atomized liquid is stored in the liquid guiding part body 210 and the supporting liquid stabilizing part 220 respectively.
  • the liquid guiding rate of the liquid guiding part body 210 is greater than that of the supporting liquid stabilizing part 220, so that the liquid guiding part body 210 has a better liquid guiding effect, and the liquid guiding part 200 can discharge liquid reliably.
  • both the liquid guide body 210 and the supporting liquid stabilizing member 220 are oil guiding cotton, so that both the liquid guiding body 210 and the supporting liquid stabilizing member 220 have better liquid guiding and liquid stabilizing effects.
  • the side of the liquid guide body 210 facing away from the supporting liquid stabilizing member 220 also abuts against the atomizing core body 312, so that the liquid guide body 210
  • the main body 210 abuts against the atomizing core body 312 and the heating part respectively, so that the atomizing core body 312 plays an auxiliary supporting role on the liquid guiding element body 210, so as to prevent the liquid guiding element body 210 from being easily bent, deformed or even collapsed.
  • the position where the atomizing core body 312 abuts against the sealing seat 100 can better prevent side leakage.
  • the atomizer 10a further includes an oil cup 400, an oil storage chamber 402 is formed in the oil cup 400, and the oil storage chamber 402 is used for storing atomized liquid.
  • the seal seat 100 is located in the oil storage chamber 402 and is connected with the oil cup 400. Since the seal seat 100 is provided with a connected liquid outlet hole 102 and a mounting groove 104, the atomized liquid in the oil storage chamber 402 can pass through the liquid outlet hole. 102 flows out into the installation groove 104, and the liquid guide member 200 in the installation groove 104 plays the role of stabilizing and guiding the liquid, so that the atomized liquid can be reliably exported to the sealing seat 100, and at the same time, the heating part of the conductive sheet 314 can be controlled.
  • the atomized liquid of the liquid guiding element 200 can be heated and atomized in time, avoiding side leakage at the abutting part of the atomizing core 310 and the sealing seat 100 .
  • the sealing seat 100 is also provided with a liquid passage 106 communicating with the installation groove 104, the number of the liquid outlet holes 102 is two, and the two liquid outlet holes 102 are connected to the liquid outlet holes 102.
  • the channel 106 is connected, so that the atomized liquid in the oil storage chamber 402 can quickly flow into the installation groove 104 through the liquid outlet hole 102, and the liquid outlet efficiency of the sealing seat 100 is improved.
  • the installation groove 104 It communicates with the installation groove 104, so that part of the atomized liquid entering the liquid outlet hole 102 can quickly flow into the installation groove 104 through the liquid passage 106, and part of it can flow into the installation groove 104 through the liquid outlet hole 102, which improves the flow of the atomized liquid into the installation
  • the efficiency in the tank 104 is improved, and at the same time, the situation of dry burning due to large deviations in liquid inlet efficiency at various positions in the installation tank 104 is avoided.
  • the liquid guide body 210 and the supporting liquid stabilizer 220 are stacked in the installation groove 104, and the side of the liquid guide body 210 facing away from the support liquid stabilizer 220 is in contact with the atomizing core body.
  • the mounting seat 320 is provided with a communicating accommodation groove 302 and a first air inlet 304, and the liquid blocking sleeve 316 is located in the accommodation groove 302 and is closely connected with the mounting seat 320, so that the liquid blocking The sleeve 316 is closely connected with the mounting seat 320, so that the atomized liquid is not easy to flow into the receiving groove 302 even if there is a part of side leakage between the atomizing core body 312 and the sealing seat 100, and even leaks from the first air inlet 304.
  • the liquid blocking sleeve 316 is provided with a second air inlet 306 communicating with the first air inlet 304 , and an atomization chamber is formed between the liquid blocking sleeve 316 and the atomizing core body 312 308, the atomization chamber 308 communicates with the second air inlet 306, so that the peripheral airflow of the liquid barrier sleeve 316 can flow into the atomization chamber 308 through the first air inlet 304 and the second air inlet 306 .
  • the heating portion of the conductive sheet 314 is formed with a vent hole 314a communicating with the atomizing chamber 308, so that the atomized vapor generated by the conductive sheet 314 heating and atomizing the atomized liquid of the liquid guide 200 can pass through the air vent.
  • the holes 314a flow into the atomizing chamber 308 to form atomizing gas.
  • the conductive sheet 314 is used to generate heat when electricity is applied.
  • the liquid blocking kit 316 is also provided with an escape opening 311
  • the atomizing core body 312 is also provided with a A connected side air hole 313
  • the side air hole 313 communicates with the shelter port 311 , so that the atomized gas in the atomization chamber 308 can flow out through the side air hole 313 and the shelter port 311 .
  • the sealing seat 100 is also provided with an air outlet channel 109, the air outlet channel 109 communicates with the side air hole 313, and the air outlet channel 109 avoids the opening of the liquid outlet hole 102 and the installation groove 104 respectively, so that the sealing The air outlet and liquid inlet of the seat 100 are separated from each other, and at the same time, the air outlet of the sealed seat 100 is realized reliably.
  • the oil cup 400 is provided with a central tube 404
  • the sealing seat 100 is located in the oil storage chamber 402 and is sleeved on the central tube 404
  • the central tube 404 communicates with the air outlet channel 109, so that the atomized gas in the atomizing chamber 308 The air can flow out through the side air hole 313 , the avoidance port 311 , the air outlet channel 109 and the central pipe 404 in sequence, so as to realize the reliable air outlet of the sealing seat 100 .
  • the liquid blocking sleeve 316 is formed with a housing groove 306 communicating with the first air inlet 304, the atomizing core body 312 is located in the housing groove 306 and connected with the liquid blocking sleeve 316, so that the blocking The liquid sleeve 316 is sleeved on the atomizing core body 312, even if the liquid blocking sleeve 316 is sleeved on the outer peripheral wall of the atomizing core body 312 to jointly form the atomizing chamber 308, and at the same time make the atomizing core body 312 is reliably assembled between the sealing seat 100 and the liquid blocking sleeve 316 .
  • both the atomizing core body 312 and the liquid blocking sleeve 316 are in contact with the sealing seat 100 to play a double role in preventing side leakage, and avoid side leakage at the contact point between the atomizing core 310 and the sealing seat 100 question.
  • the liquid blocking set 316 is in interference fit with the atomizing core body 312, so that the liquid blocking set 316 is closely connected with the atomizing core body 312, further improving the liquid blocking The reliability of the connection between the sleeve 316 and the atomizing core body 312 .
  • the liquid blocking set 316 can be a liquid blocking silicone piece or a liquid blocking rubber piece, so that the liquid blocking set 316 has better elasticity, and the liquid blocking set 316 is in an interference fit with the atomizing core body 312 , so that the liquid blocking sleeve 316 is more closely connected with the atomizing core body 312 .
  • the atomizing core body 312 includes a socket portion 312a and a raised portion 312b protruding from the outer peripheral wall of the socket portion 312a, the socket Both the part 312 a and the raised part 312 b are located in the receiving groove 306 and connected with the liquid blocking set 316 , so that the atomizing core body 312 and the liquid blocking set 316 are connected reliably.
  • the sleeve portion and the raised portion 312b are integrally formed, so that the sleeve portion and the raised portion 312b are firmly connected.
  • the sleeve portion and the protruding portion 312b can also be formed separately and fixedly connected by glue.
  • the inner wall of the receiving groove 306 is also formed with a detachable groove body 306a, the sleeve part 312a is located in the receiving groove 306 and connected with the liquid blocking sleeve 316, and the raised part 312b is located in the The anti-loosening groove 306a is connected with the liquid-blocking sleeve 316, so that the protrusion 312b snaps into the anti-loosening groove 306a, so that the atomizing core body 312 and the liquid-shielding sleeve 316 are assembled and connected reliably.
  • the protrusion 312b of the atomizing core body 312 slides into the receiving groove 306 with interference, so that the liquid blocking sleeve 316 is elastically deformed during the assembly of the sleeve on the atomizing core body 312 until the protrusion 312b slides into the detachment prevention groove 306a to realize the detachment prevention effect of the atomizing core body 312 and the liquid blocking sleeve 316.
  • the protrusion 312b is adapted to the anti-loosening groove 306a, so that the liquid blocking sleeve 316 is reliably sleeved on the outer peripheral wall of the atomizing core body 312 .
  • the number of the protrusions 312b and the anti-off grooves 306a are multiple, the plurality of protrusions 312b are arranged at intervals on the outer peripheral wall of the sleeve portion 312a, and the plurality of the The protrusions 312b are located in the plurality of anti-loosening grooves one by one, so that the liquid blocking sleeve 316 is more reliably sleeved on the outer peripheral wall of the atomizing core body 312 .
  • the number of the protrusions 312b and the anti-loosening grooves 306a are both four.
  • the number of the protrusions 312b and the anti-loosening grooves 306a can be one, two or three.
  • the liquid blocking sleeve 316 is also provided with a clamping sliding groove 316b, and the receiving groove 306 communicates with the avoidance port 311 through the clamping sliding groove 316b.
  • a connecting flange 3121 protrudes, and the connecting flange 3121 is snapped into the clamping chute 316b, so that the atomizing core body 312 is more reliably clamped with the liquid blocking sleeve 316 , and at the same time, the clamping chute 316 b of the liquid blocking sleeve 316 is closely connected with the adjacent side air passage hole 313 of the atomizing core body 312 .
  • the liquid blocking sleeve 316 is also formed with a collection ring groove 316c, the collection ring groove 316c communicates with the receiving groove 306, and the collection ring groove 316c is arranged around the second air inlet 306, Make the air flow around the liquid shielding sleeve 316 reliably flow into the atomization chamber 308 through the second air inlet 306, and at the same time make the condensed liquid generated in the atomization chamber 308 stay in the collection ring groove 316c, so as to realize the protection of the condensed liquid Reliable collection avoids the leakage of condensate through the second air intake hole, so that the liquid blocking kit 316 can better block liquid.
  • the inner bottom wall of the receiving tank 306 is provided with a flow blocking structure 306a, the first end surface of the atomizing core body 312 abuts against the liquid guide 200, and the second end surface of the atomizing core body 312 abuts against
  • the flow blocking structure 306 a makes the liquid blocking sleeve 316 tightly socketed on the atomizing core body 312 .
  • the flow blocking structure is used to block the flow of the atomized liquid, so that the atomized liquid flowing from between the liquid blocking sleeve 316 and the atomizing core body 312 stays in the flow blocking structure.
  • the liquid blocking sleeve 316 and the atomizing core body 312 together define an atomizing cavity 308 , and the flow blocking structure is set to avoid the atomizing cavity 308 .
  • a flow blocking structure 306a is provided on the inner bottom wall of the receiving tank 306, and the second end surface of the atomizing core body 312 abuts against the flow blocking structure 306a. The atomized liquid flowing in between 316 and the atomizing core body 312 stays in the flow blocking structure, which prevents the atomized liquid from directly entering the atomizing chamber 308 without being heated and atomized.
  • the flow blocking structure is set away from the atomization chamber 308, so that the flow blocking structure and the atomization chamber 308 are staggered, and at the same time, the flow blocking structure 306a reliably blocks the atomized liquid in the storage tank 306, avoiding It solves the problem that the atomized liquid flows into the space between the atomized core body 312 and the liquid retaining sleeve 316 from the outer wall of the atomizing core body 312, and also prevents the atomized liquid from flowing into the atomization from between the atomizing core body 312 and the liquid retaining sleeve 316.
  • the flow blocking structure 306a is provided with a first locking groove 3062, and the second end surface is protruded with a first locking protrusion 3123, and the first locking protrusion 3123 is locked into the first locking In the connection groove 3062, the flow blocking structure 306a is closely contacted with the second end surface, and at the same time, the flow blocking structure 306a and the second end surface are reliably positioned relative to each other, so that the flow blocking structure 306a can better block the atomized liquid.
  • the position of the blocking structure 306a adjacent to the first locking groove 3062 is provided with a first abutting surface 3064, and the second end surface is provided with a first mating surface 3125, and the first mating surface 3125 extends To the first engaging protrusion 3123 , the first mating surface 3125 abuts against the first abutting surface 3064 , since the first engaging protrusion 3123 is engaged in the first engaging groove 3062 , That is, the surface of the first engagement protrusion 3123 abuts against the inner wall of the first engagement groove 3062, and since the first abutment surface 3064 is located at a position adjacent to the first engagement groove 3062 of the flow blocking structure, the atomization of the liquid is avoided. The situation of flowing through the inner wall of the first engaging groove 3062 and even entering the atomizing chamber 308 makes the atomized liquid better blocked in the first engaging groove 3062 of the flow blocking structure.
  • the first abutting surface 3064 extends to the position corresponding to the atomization chamber 308 , so that the structure of the liquid blocking sleeve 316 is relatively simple and easy to manufacture. At the same time, the atomized liquid can be better blocked in the first locking groove 3062 of the flow blocking structure.
  • the flow blocking structure 306a is also provided with a second locking groove 3066 communicating with the first locking groove 3062, and the second end surface is also protruded to be connected with the first locking protrusion 3123.
  • the second snap-in protrusion 3027, the second snap-in protrusion 3027 snaps into the second snap-in slot 3066, and the first snap-in protrusion 3123 snaps into the first snap-in slot 3062, so that the block
  • the flow structure 306a is in closer contact with the second end surface, and at the same time, the flow blocking structure 306a is more reliably positioned relative to the second end surface, so that the flow blocking structure 306a can better block the atomized liquid.
  • the depth of the first engaging groove 3062 is greater than the depth of the second engaging groove 3066, so that the junction between the inner wall of the first engaging groove 3062 and the inner wall of the second engaging groove 3066 forms a stepped structure,
  • the atomized liquid is better blocked on the inner surface of the flow blocking structure, and the atomized liquid is better prevented from flowing into the atomizing chamber 308 from between the atomizing core body 312 and the liquid blocking sleeve 316, or even flowing out of the atomizing seat
  • the problem of 300 further improves the atomization effect of the atomizer 10a, and at the same time increases the service life of the atomizer 10a.
  • the blocking structure 306a is provided with a first abutting surface 3064 and a second abutting surface 3068 adjacent to the first engaging groove 3062, and the first abutting surface 3064 and the second abutting surface The connecting surface 3068 is separated by the second engaging groove 3066 .
  • the second end surface is respectively provided with a first mating surface 3125 and a second mating surface 3029, and the first mating surface 3125 respectively extends to the first engaging protrusion 3123 and the second engaging protrusion 3027, the The second mating surface 3029 respectively extends to the first engaging protrusion 3123 and the second engaging protrusion 3027, the first mating surface 3125 abuts against the first abutting surface 3064, and the second mating The surface 3029 abuts against the second abutting surface 3068, so that between the outer wall of the first engaging protrusion 3123 and the inner wall of the first engaging groove 3062, the outer wall of the second engaging protrusion 3027 is in contact with the second engaging groove.
  • a total of four sealing defense lines are formed between the inner walls of the groove 3066, between the first abutting surface 3064 and the first mating surface 3125, and between the second abutting surface 3068 and the second mating surface 3029, so that the atomized liquid is more It stays well in the flow blocking structure, and has a better effect of preventing leakage.
  • the second abutment surface 3068 is provided with a mounting hole 3069
  • the atomizer 10a also includes a conductive post 500
  • the mounting hole 3069 It is used to pass through the conductive column 500 .
  • the atomizing core body 312 includes an integrally formed atomizing core 310 and a conductive sheet 314, the first end surface and the second end surface are respectively arranged at two ends of the atomizing core 310, and the conductive sheet 314
  • the heating part is exposed on the first end surface and is used to abut against the liquid guiding element 200 so as to heat and atomize the atomized liquid of the liquid guiding element 200 .
  • the conductive portion of the conductive sheet 314 is exposed to the atomizing core 310 and used to abut against the conductive column 500 , so that the conductive sheet 314 and the conductive column 500 conduct electricity reliably.
  • the liquid blocking kit 316 is installed and connected to the mounting base 320 , and the mounting base 320 is provided with an avoidance via hole 324 , and the avoidance via hole 324 communicates with the installation via hole 3069 correspondingly.
  • the conductive pillars 500 are respectively disposed in the avoidance via holes 324 and the installation via holes 3069 , and the conductive pillars 500 abut against the conductive sheet 314 , so that the conductive sheet 314 can be reliably externally connected to conduct electricity.
  • the conductive sheet 314 is formed on the surface of the atomizing core 310 in a bent shape, and the contact part of the conductive sheet 314 and the conductive column 500 is located on the side of the atomizing core 310 adjacent to the conductive column 500, so that the conductive sheet 314 is externally connected to the conductive column 500.
  • the distance is shorter, and the size of the conductive pillar 500 is reduced at the same time.
  • the inner wall of the receiving groove 302 is protruded with a supporting rib 302a, and the supporting rib 302a is used to support and abut against the bottom of the liquid blocking sleeve 316, and the supporting rib 302a 302a avoids the setting of the first air inlet and the second air inlet, so as not to affect the peripheral air flow from the first air inlet and the second air inlet into the atomization chamber 308, which affects the atomization effect, and at the same time make the liquid blocking sleeve 316 abut against the sealing seat 100 reliably.
  • the avoidance via holes are opened in the supporting ribs, so that the liquid blocking kit 316 has better structural strength, and at the same time, the conductive post 500 can reliably contact the conductive sheet 314 through the avoidance via holes and the installation via holes.
  • the liquid blocking kit 316 is a liquid blocking silicone kit, so that the liquid blocking kit 316 has better softness and elasticity, and a supporting rib 302a is provided on the inner wall of the receiving groove 302, and the supporting rib 302a supports and abuts against the The bottom of the liquid blocking set 316 can ensure that the top of the liquid blocking set 316 is in close contact with the sealing seat 100 , which improves the reliability of the contact between the liquid blocking set 316 and the sealing seat 100 .
  • the number of supporting ribs 302a is two, and the two supporting ribs 302a support together and abut against the bottom of the liquid blocking sleeve 316 .
  • annular flange 316a protrudes from the outer peripheral wall of the liquid blocking sleeve 316, and the annular flange 316a abuts against the inner wall of the installation groove 104, so that the liquid blocking sleeve 316 and the mounting seat 320 are more closely connected. , to further avoid the problem that the atomizer 10a is easily damaged.
  • the liquid blocking sleeve 316 is elastically connected to the mounting seat 320, and the outer peripheral wall of the liquid blocking sleeve 316 is protruded with an annular flange 316a, and the annular flange 316a abuts against the
  • the inner wall of the installation groove 104 makes the liquid blocking sleeve 316 elastically fit with the mounting base 320 , thereby making the liquid blocking sleeve 316 and the mounting base 320 more tightly connected, further avoiding the problem that the atomizer 10a is easily damaged.
  • the surface of the liquid guide 200 exposed on the end face of the seal seat 100 is flush with the end face of the seal seat 100, so that the atomizing core body is in contact with the seal seat 100 and the liquid guide 200 respectively.
  • the abutment can be smoothly transitioned, which improves the atomization effect of the atomization seat 300 .
  • both the liquid blocking kit 316 and the atomizing core body 312 are in contact with the sealing seat 100, and since the atomizing core body 312 is in contact with the sealing seat 100, the sealing seat 100 is in contact with the liquid blocking kit respectively.
  • a connecting portion 108 protrudes from the end surface of the sealing seat 100 adjacent to the atomizing seat 300 , and the connecting portion 108 is disposed around the installation groove 104 .
  • the connecting portion 108 is formed with an abutting groove 108a, the abutting portion 316a is located in the abutting groove and abuts against the sealing seat 100, so that the abutting portion 316a is reliably in contact with the sealing seat 100 Abut.
  • the connecting portion 108 is buckled with the mounting seat 320 , so that the sealing seat 100 and the mounting seat 320 are reliably connected.
  • the outer wall of the connecting portion 108 is protruded with a buckle protrusion 108 b
  • the mounting base 320 is provided with a buckling groove 324 , so that the connecting portion and the mounting base 320 are buckled.
  • the mounting seat 320 protrudes from the end surface adjacent to the sealing seat 100 with a fixing portion 320a, and a buckle groove is opened in the fixing portion, so that the fixing portion is buckled with the connecting portion.
  • the number of fixing parts is two, and the outer wall of the connecting part is protruded with two buckle protrusions, and the two buckle protrusions are respectively buckled with the two fixing parts.
  • the buckle protrusion 108b is provided with a buckle slope 1082, and the buckle slope is used to guide the buckle into the buckle groove, so that the connecting part 108 is buckled with the mounting seat 320, and at the same time reduces the The resistance to the buckle connection between the buckle protrusion 108b and the buckle groove.
  • the positions of the locking protrusion 108b and the locking groove 324 can be interchanged.
  • the buckle protrusion 108 b is disposed on the mounting seat 320
  • the buckle groove 324 is opened on the sealing seat 100 .

Abstract

Procédé de fabrication d'un noyau d'atomisation, le procédé de fabrication comprenant les étapes consistant à : fournir un ensemble feuille conductrice, l'ensemble feuille conductrice comprenant M feuilles conductrices et deux feuilles conductrices adjacentes étant reliées dans une première direction; placer l'ensemble feuille conductrice dans un moule, de façon à effectuer un moulage par injection dans le moule, de telle sorte que chaque feuille conductrice recouvre partiellement un élément moulé par injection fixe correspondant pour former M produits semi-finis de noyau d'atomisation; et effectuer, au niveau d'un joint dans la première direction, une opération de coupe sur les feuilles conductrices de deux produits semi-finis de noyau d'atomisation adjacents.
PCT/CN2022/126606 2021-12-30 2022-10-21 Atomiseur, base d'atomisation, noyau d'atomisation et procédé de fabrication s'y rapportant WO2023124444A1 (fr)

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CN202111666738.8A CN114271555A (zh) 2021-12-30 2021-12-30 雾化座、雾化芯及其制造方法

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CN114271555A (zh) * 2021-12-30 2022-04-05 深圳市艾溹技术研究有限公司 雾化座、雾化芯及其制造方法

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