CN114617302A - Atomization core assembling method - Google Patents

Abstract

The application relates to the technical field of electronic cigarettes, and provides an atomizing core assembling method, which comprises the following steps: the tobacco tar is injected into the oil storage bin of the oil cup, the hard tube is installed in the installation hole of the sealing silica gel part, a sealing bottom plate is arranged on the sealing silica gel part, the connecting piece is connected to the inner peripheral wall of the oil cup in a clamped mode, the top of the atomizing core is connected to the inner peripheral wall of the oil cup in a clamped mode, the atomizing core is provided with an oil inlet tube and an air outlet, the sealing bottom plate is burst through the oil inlet tube, the damaged sealing bottom plate is clamped between the oil inlet tube and the hard tube, and the air outlet of the atomizing core is communicated with the air exhaust duct. The product that the atomizing core assembly method provided made, can dismantle between atomizing core and the oil cup, sealing plate has the sealed effect to the tobacco tar in the oil storage storehouse, and the tobacco tar can not contact with atomizing core for a long time, and ambient air is difficult also to enter into the oil storage storehouse of oil cup through atomizing core, is difficult for leading to the tobacco tar to deteriorate, and atomizing core also can not soak in the tobacco tar for a long time, has prolonged atomizing core's life.

Description

Atomization core assembling method

Technical Field

The application belongs to the technical field of electronic cigarettes, and particularly relates to an atomization core assembling method.

Background

There is the electron cigarette of atomizing core inseparable on the market at present, concrete structure is as shown in figure 1, wherein the direct joint of atomizingcore 202 is at the opening part ofoil cup 201, andjoint structure 203 between them is the back-off formula design, thereby atomizingcore 202 is fixed undetachable inoil cup 201, atomizingcore 202 includes pottery and heat-generating body, pottery is used for adsorbing the tobacco tar, the heat-generating body sets up in ceramic lower surface and is used for heating the tobacco tar.

With respect to the related art among the above, there are the following drawbacks:

1. the atomizing core is fixed in the oil cup and can not be disassembled, the atomizing core can not be recycled, the atomizing core is very wasted, a bullet-core structure is basically adopted, the production efficiency of the product is not high, the sale cost can be indirectly increased, and the market does not compete for advantages;

2. because the atomizing core is fixed and is not dismantled in the oil cup, so the tobacco tar contacts with the atomizing core for a long time, and the outside air can lead to the tobacco tar to go bad easily in entering into the oil storage storehouse of oil cup through the atomizing core, and the atomizing core also soaks in the tobacco tar for a long time, leads to the life reduction of atomizing core.

Disclosure of Invention

An object of the embodiment of the present application is to provide an atomizing core assembling method, so as to solve the following technical problems: the atomization core of the common electronic cigarette is fixed in the oil cup and can not be disassembled, the atomization core can not be recycled, the common electronic cigarette is very wasted, a bullet-core structure is basically adopted, the production efficiency of the product is not high, the sale cost can be indirectly increased, and the market does not compete for advantages; and the tobacco tar contacts with the atomizing core for a long time, and the outside air can enter into the oil storage bin of the oil cup through the atomizing core, so that the tobacco tar is easy to deteriorate, and the atomizing core is also soaked in the tobacco tar for a long time, so that the service life of the atomizing core is shortened.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: an atomization core assembling method is provided, which comprises the following steps:

the method comprises the following steps: the tobacco tar is injected into the oil storage bin of the oil cup;

step two: respectively installing a plurality of hard tubes in the installation holes of the sealing silica gel part to obtain connecting pieces, wherein a sealing bottom plate for sealing the bottom end opening of the installation hole is arranged on the sealing silica gel part, a vertically arranged air outlet hole is arranged in the middle of the sealing silica gel part, and an exhaust groove communicated with the bottom of the air outlet hole is arranged at the bottom of the sealing silica gel part;

step three: aligning the connecting piece to the mounting opening of the oil cup, then clamping the connecting piece on the inner peripheral wall of the oil cup, arranging an air outlet pipe in the oil cup, vertically arranging the air outlet pipe along the central axis of the oil cup, arranging the oil storage bin on the peripheral side of the air outlet pipe, communicating the top of the hard pipe with the bottom opening of the oil storage bin, and communicating the top of the air outlet hole with the bottom opening of the air outlet pipe;

step four: aim at the installing port of oil cup with the atomizing core, then make the top joint of atomizing core in the internal perisporium of oil cup, the top of atomizing core is provided with into oil pipe and gas outlet, and with the sealed bottom plate bursting and make the inside that advances the top of oil pipe and stretch into the mounting hole through advancing oil pipe, the sealed bottom plate clamp after the damage is located and is advanced between oil pipe and the hard tube in order to realize the oil circuit intercommunication, and the gas outlet of atomizing core communicates in order to realize the gas circuit intercommunication in the air discharge duct.

In the technical scheme that can be realized of this application, be provided with on the sealing bottom plate and conveniently advance the oil pipe and disclose the breakable structure of breaking with it.

In an achievable technical scheme of the application, the breakable structure comprises a first cross pre-breaking groove formed in the upper surface of the sealing bottom plate and a second cross pre-breaking groove formed in the lower surface of the sealing bottom plate.

In an achievable technical scheme of this application, the protrusion of the internal perisporium of venthole is provided with the interior sealing strip of the periphery wall of a plurality of rings butt in the outlet duct of oil cup.

In an achievable technical scheme of this application, the periphery wall protrusion of sealed silica gel portion is provided with the outer sealing strip of a plurality of rings butt in oil cup internal perisporium, and the outer sealing strip is located the top of exhaust duct.

In an achievable technical scheme of the application, a top opening of the mounting hole is provided with a baffle ring for baffle the top of the hard pipe.

In an implementable aspect of the present application, the steps of assembling the atomizing core are as follows:

mounting the bottom of the top of the ceramic heating component on a mounting seat;

the sealing sleeve covers the top of the ceramic heating component, a first exhaust gap is arranged on the peripheral side of the sealing sleeve, and a hole communicated with the interior of the ceramic heating component is formed in the top of the sealing sleeve;

the sealing sleeve is arranged at the bottom of the oil inlet cover, a second exhaust notch which is arranged corresponding to the first exhaust notch is formed in the bottom of the oil inlet cover, and the oil inlet pipe is arranged on the oil inlet cover;

the mounting seat and the oil inlet cover are connected in an up-and-down clamping manner to clamp the ceramic heating component and the sealing sleeve, so that the atomizing core is obtained.

In the technical scheme that the oil cup can be realized, a circle of groove is formed in the middle of the peripheral side wall of the mounting seat, an O-shaped sealing ring is connected in the groove in a clamping mode, and the O-shaped sealing ring abuts against the inner peripheral wall of the oil cup.

In the technical scheme that can be realized of this application, the top both sides of mount pad set up the side plate respectively, and two side plate cooperations press from both sides the bottom both sides of pressing from both sides tight oil inlet cover, and the side plate is located the top of O shape sealing washer, is provided with the card hole on the side plate, and the bottom both sides of oil inlet cover are provided with the fixture block respectively, and the bottom outside of fixture block sets up the direction inclined plane.

In the technical scheme that can realize of this application, pottery subassembly that generates heat includes pottery generate heat core, positive electrode, negative electrode and the cotton piece of polymer oil absorption, and positive electrode and negative electrode all connect in the bottom of pottery generate heat core, and positive electrode and negative electrode all run through in the cotton piece of polymer oil absorption, and the cotton piece clamp of polymer oil absorption is located between the bottom of pottery generate heat core and positive electrode, negative electrode, and the cotton piece horizontal arrangement of polymer oil absorption.

In summary, the present application includes at least one of the following beneficial effects:

1. the atomizing core and the oil cup can be detached by adding the connecting piece, the atomizing core can be recycled, waste is not easy to cause, a one-bullet multi-core structure can be realized, the production efficiency of the product is higher, the sale cost can be indirectly reduced, and the market has competitive advantages;

2. the design of the sealing bottom plate can seal the tobacco tar in the oil storage bin of the oil cup, so that the tobacco tar cannot leak even if the atomizing core is disassembled, and when the oil cup and the atomizing core are assembled, the sealing bottom plate can be poked by the atomizing core, so that the tobacco tar in the oil storage bin of the oil cup can flow into the atomizing core along the hard pipe, and the detachable assembly between the oil cup and the atomizing core can be realized;

3. the sealing bottom plate has a sealing effect on the tobacco tar in the oil storage bin, so that the tobacco tar cannot be contacted with the atomizing core for a long time, the outside air cannot enter the oil storage bin of the oil cup easily through the atomizing core, the tobacco tar is not easy to deteriorate, the atomizing core cannot be soaked in the tobacco tar for a long time, and the service life of the atomizing core is prolonged;

4. the sealing bottom plate, the first cross-shaped pre-breaking groove and the second cross-shaped pre-breaking groove are matched for use, when the oil inlet pipe at the top of the atomizing core breaks the sealing bottom plate, the sealing bottom plate is partially clamped between the oil inlet pipe and the hard pipe, so that the connection sealing performance between the atomizing core and the hard pipe is greatly improved, and the phenomenon of oil leakage or air leakage is effectively improved;

5. the design of outer sealing strip can promote the connection leakproofness between sealed silica gel portion periphery wall and the oil cup internal perisporium, and the connection leakproofness between the outlet duct of sealed silica gel portion and oil cup can be promoted in the design of interior sealing strip, has effectively improved the phenomenon of oil leak or gas leakage.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a common electronic cigarette with an inseparable atomizing core.

Fig. 2 is an operation diagram of the assembly connection member in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of the connecting piece installed in the oil cup in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of the atomizing core installed in the oil cup in the embodiment of the present application.

Fig. 5 is an exploded structural diagram of a product obtained by the assembly method provided by the embodiment of the application.

FIG. 6 is a schematic partial sectional structure view of an oil cup in the embodiment of the present application.

Fig. 7 is an exploded view of the atomizing core in the embodiment of the present application.

Fig. 8 is a schematic structural diagram of an oblique top view of a connecting member in an embodiment of the present application.

Fig. 9 is a schematic structural diagram of a connecting member viewed from a tilted bottom in an embodiment of the present application.

Fig. 10 is a schematic sectional view of the connector according to the embodiment of the present application after the connector is assembled.

Wherein, in the figures, the respective reference numerals:

101. an oil cup; 11. an air outlet pipe; 12. an oil storage bin;

102. an atomizing core; 21. a mounting seat; 211. a side clamping plate; 212. clamping holes; 213. an annular groove; 22. a ceramic heating element; 221. a ceramic heating core; 222. a positive electrode; 223. a negative electrode; 224. a high molecular oil absorbent cotton block; 23. sealing sleeves; 231. a hole; 232. a first exhaust gap; 233. sealing the convex edge; 24. an oil inlet cover; 241. a second vent gap; 242. an oil inlet pipe; 243. a clamping block; 2431. a guide slope; 244. reinforcing ribs; 25. an O-shaped sealing ring; 26. a sealing plug; 261. a sealing rod; 262. sealing the disc; 27. a magnet;

103. a connecting member; 31. sealing the silica gel part; 311. an air outlet; 312. an exhaust groove; 313. mounting holes; 314. sealing the bottom plate; 3141. a first cross pre-breaking groove; 3142. a second cross pre-breaking groove; 315. a retainer ring; 316. an outer seal strip; 317. an inner seal strip; 32. a hard pipe;

201. an oil cup; 202. an atomizing core; 203. a clamping structure.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

At present, on the market, the electronic cigarette of an atomizing core inseparable formula, wherein the direct joint of atomizing core is at the opening part of oil cup, and joint structure between them is the back-off formula design, thereby the atomizing core is fixed and can not be dismantled in the oil cup, the atomizing core includes pottery and heat-generating body, pottery is used for adsorbing the tobacco tar, the heat-generating body sets up in porcelainous lower surface and is used for heating the tobacco tar.

With respect to the related art among the above, there are the following drawbacks:

1. the atomizing core is fixed in the oil cup and can not be disassembled, the atomizing core can not be recycled, the atomizing core is very wasted, a bullet-core structure is basically adopted, the production efficiency of the product is not high, the sale cost can be indirectly increased, and the market does not compete for advantages;

2. because the atomizing core is fixed and is not dismantled in the oil cup, so the tobacco tar contacts with the atomizing core for a long time, and the outside air can lead to the tobacco tar to go bad easily in entering into the oil storage storehouse of oil cup through the atomizing core, and the atomizing core also soaks in the tobacco tar for a long time, leads to the life reduction of atomizing core.

In order to solve the above objective technical problem, the present application provides a detachable assembly structure of an atomizing core, please refer to fig. 2-10 together, and the detachable assembly structure of the atomizing core provided in the embodiment of the present application will now be described.

An embodiment of the present application provides an atomizing core assembling method, please refer to fig. 2-4, including the following steps:

the method comprises the following steps: the tobacco tar is injected into theoil storage bin 12 of theoil cup 101;

step two: respectively installing a plurality ofhard pipes 32 in aninstallation hole 313 of a sealingsilica gel part 31 to obtain a connectingpiece 103, wherein a sealingbottom plate 314 used for sealing an opening at the bottom end of theinstallation hole 313 is arranged on the sealingsilica gel part 31, a vertically arrangedair outlet hole 311 is arranged in the middle of the sealingsilica gel part 31, anair exhaust groove 312 communicated with the bottom of theair outlet hole 311 is arranged at the bottom of the sealingsilica gel part 31, the sealingsilica gel part 31 is generally made of silica gel with soft texture, and thehard pipes 32 can be made of common steel pipes, stainless steel pipes, aluminum alloy steel pipes or other materials with hard texture;

step three: aligning the connectingpiece 103 to the mounting opening of theoil cup 101, then clamping the connectingpiece 103 to the inner peripheral wall of theoil cup 101, arranging anair outlet pipe 11 in theoil cup 101, vertically arranging theair outlet pipe 11 along the central axis of theoil cup 101, arranging theoil storage bin 12 on the peripheral side of theair outlet pipe 11, communicating the top of thehard pipe 32 with the bottom opening of theoil storage bin 12, and communicating the top of theair outlet hole 311 with the bottom opening of theair outlet pipe 11;

step four: the atomizingcore 102 is aligned with the mounting opening of theoil cup 101, then the top of theatomizing core 102 is clamped to the inner peripheral wall of theoil cup 101, the top of theatomizing core 102 is provided with anoil inlet pipe 242 and an air outlet, the sealingbottom plate 314 is burst through theoil inlet pipe 242, the top of theoil inlet pipe 242 extends into the mountinghole 313, the damaged sealingbottom plate 314 is clamped between theoil inlet pipe 242 and thehard pipe 32 to achieve oil circuit communication, and the air outlet of theatomizing core 102 is communicated with theair exhaust groove 312 to achieve air circuit communication.

Referring to fig. 5-7, the steps for assembling theatomizing core 102 are as follows:

mounting the bottom of the top of theceramic heating element 22 on the mountingbase 21;

the sealingsleeve 23 covers the top of theceramic heating component 22, afirst exhaust gap 232 is arranged on the peripheral side of the sealingsleeve 23, and ahole 231 communicated with the interior of theceramic heating component 22 is arranged on the top of the sealingsleeve 23;

the sealingsleeve 23 is arranged at the bottom of theoil inlet cover 24, the bottom of theoil inlet cover 24 is provided with asecond exhaust gap 241 which is arranged corresponding to thefirst exhaust gap 232, and theoil inlet pipe 242 is arranged on theoil inlet cover 24;

the mountingbase 21 and theoil inlet cover 24 are snap-fitted up and down to clamp theceramic heating element 22 and the sealingsleeve 23 to obtain theatomizing core 102.

The mountingseat 21 and theoil inlet cover 24 are made of hard plastics, so that the peripheral side wall of the mountingseat 21 is detachably and hermetically connected with the inner peripheral wall of theoil cup 101, and a smoke suction port for communicating a smoke rod is formed in the bottom of the mountingseat 21.

First exhaust breach 232 andsecond exhaust breach 241 are the isosceles trapezoid design, andfirst exhaust breach 232 andsecond exhaust breach 241 present for big end down design moreover, and sealcover 23 wholly presents for the cuboid design before seting upfirst exhaust breach 232.

Theoil inlet pipes 242 are provided with two symmetrical designs, the cross section outer contour of theatomizing core 102 presents an oval shape, and the twooil inlet pipes 242 are positioned on the major axis of the oval shape. In other embodiments, the number of theoil inlet pipes 242 may be one, three, four, five or more, and all theoil inlet pipes 242 may be designed to be evenly and symmetrically spaced around the central axis of theoil inlet cover 24, and as the number of theoil inlet pipes 242 increases, the number of theoil storage bins 12 corresponding to theoil cup 101 also needs to increase.

The middle part of the peripheral side wall of the mountingseat 21 is provided with a circle of groove, an O-shapedsealing ring 25 is clamped in the groove before theatomization core 102 is assembled, and the O-shapedsealing ring 25 is used for abutting against the inner peripheral wall of theoil cup 101. The O-shapedsealing ring 25 can improve the sealing performance between the mountingseat 21 and theoil cup 101, so that the phenomena of oil leakage and smoke leakage are effectively avoided, and the product quality is higher.

The both sides of the top ofmount pad 21 set upside plate 211 respectively, andside plate 211 is located the top of Oshape sealing washer 25, and the process ofassembly atomizing core 102 includes the following step: break twoside splint 211 to the outside, then fill in twoside splint 211 with the bottom ofoil inlet cover 24 between, twoside splint 211 press from both sides tight bottom both sides ofoil inlet cover 24 under the effect of elastic restoring force, twoside splint 211 have spacing and tight effect of clamp to the bottom ofoil inlet cover 24, can make betweenoil inlet cover 24 and themount pad 21 more firm.

Be provided withcard hole 212 on theside splint 211, the bottom both sides ofoil feed cover 24 are provided withfixture block 243 respectively, and the bottom outside offixture block 243 sets up directioninclined plane 2431, and the assembly step betweenoil feed cover 24 and themount pad 21 is as follows: the bottom of theoil inlet cover 24 is gradually inserted between the twoside clamping plates 211 along the guide inclinedsurface 2431 until theclamping block 243 is completely clamped in theclamping hole 212, theclamping block 243 and theclamping hole 212 on theside clamping plate 211 are matched with each other, so that theoil inlet cover 24 and the mountingseat 21 can be firmly connected, and the structure is detachable, so that theceramic heating component 22 can be conveniently detached for cleaning and maintenance. The design of the guidinginclined surface 2431 facilitates the bottom of theoil inlet cover 24 to be rapidly inserted between the twoside clamping plates 211.

A reinforcingrib 244 is arranged between the top of theclamping block 243 and the outer side surface of the bottom of theoil inlet cover 24, theclamping block 243 and theoil inlet cover 24 can be connected more firmly through the reinforcingrib 244, and theclamping block 243 is not prone to falling off due to frequent disassembly.

Two lateral surfaces of the sealingsleeve 23 are provided with sealingribs 233 which are abutted against the inner lateral surface of the bottom of theoil inlet cover 24, and the sealingribs 233 can obviously improve the sealing property between the sealingsleeve 23 and theoil inlet cover 24, thereby effectively preventing smoke and smoke from seeping.

Theceramic heating component 22 comprises aceramic heating core 221, apositive electrode 222, anegative electrode 223 and a polymer oilabsorption cotton block 224, wherein thepositive electrode 222 and thenegative electrode 223 are both connected to the bottom of theceramic heating core 221, thepositive electrode 222 and thenegative electrode 223 both penetrate through the polymer oilabsorption cotton block 224, the polymer oilabsorption cotton block 224 is clamped between the bottom of theceramic heating core 221 and thepositive electrode 222 and thenegative electrode 223, and the polymer oilabsorption cotton block 224 is horizontally arranged.

The process of assembling theceramic heating element 22 includes the steps of: thepositive electrode 222 and thenegative electrode 223 are both connected to the bottom of theceramic heating core 221, and thepositive electrode 222 and thenegative electrode 223 are inserted into two through holes of the horizontally arranged polymer oilabsorption cotton block 224, so that the polymer oilabsorption cotton block 224 is clamped between the bottom of theceramic heating core 221 and thepositive electrode 222 and thenegative electrode 223.

The high-molecular oilabsorption cotton block 224 has a good absorption effect on oil smoke, the taste of the electronic cigarette can be improved to a certain extent, and theceramic heating component 22 designed above is simple in structure, stable in operation and convenient to mount and dismount.

Removable grafting in smoking mouth department has sealingplug 26, and sealingplug 26 includes sealingrod 261 and sealeddish 262, and sealingrod 261 connects perpendicularly in the upper surface central point department of sealeddish 262, and under the condition of thisatomizing core 102 not with the butt joint of cigarette rod, sealingplug 26 can stop up the smoking mouth, effectively prevents that the smoking mouth from being polluted, when smokingextract sealing plug 26 can.

The bottom ofmount pad 21 is provided with two heavy grooves, and the card connects themagnet 27 of installing the fixed cigarette pole of magnetism in the heavy groove, and twomagnets 27 are located the both sides of sealingplug 26.Magnet 27 and heavy groove are the cylinder shape, andmagnet 27's design can be used for fixed cigarette pole of magnetism to inhale, is favorable to the fastness of connection between cigarette pole and themount pad 21.

The partial circumferential side wall of the mountingseat 21 located outside theoil cup 101 is provided with threeannular grooves 213, in this embodiment, the threeannular grooves 213 are uniformly arranged at intervals up and down, and theannular grooves 213 are used for increasing the friction force and the touch feeling on the surface of the mountingseat 21.

Referring to fig. 8-10, two of thehard tubes 32 are disposed on two sides of theair outlet 311, and the two mountingholes 313 and theair outlet 311 are located on the same straight line. In other embodiments, the number of thehard pipes 32 may also be three, four, five or more, and of course, all the mountingholes 313 may be designed to be evenly and symmetrically spaced around the circumference of theair outlet hole 311, and as the number of thehard pipes 32 increases, the number of theoil storage bins 12 corresponding to the oil cups 101 also increases.

The outer profile of the horizontal section of the sealingsilicone part 31 is an ellipse, the vertical section of theair discharge groove 312 is a rectangle, and the length direction of theair discharge groove 312 is parallel to the minor axis direction of the ellipse. The sealingsilica gel part 31 and theexhaust groove 312 in the above design are more beneficial to rapidly sending out the smoke exhausted from the air outlet of theatomizing core 102, and the smoke blocking phenomenon is not easy to occur.

The width of theexhaust groove 312 is greater than the diameter of theair outlet 311, for example, in this embodiment, the width of theexhaust groove 312 is 1.1-1.2 times of the diameter of theair outlet 311, so that the flue gas entering theexhaust groove 312 can be exhausted along theair outlet 311 without affecting the structural strength of the whole sealingsilica gel part 31.

The diameter of the mountinghole 313 is smaller than the outer diameter of thehard tube 32, for example, in this embodiment, the diameter of the mountinghole 313 is 0.9-9.95 times of the outer diameter of thehard tube 32, because the texture of the sealingsilica gel part 31 is relatively soft, the mountinghole 313 can be enlarged by thehard tube 32, so as to achieve firm connection between thehard tube 32 and the sealingsilica gel part 31, and the sealingsilica gel part 31 can almost completely fit and wrap thehard tube 32, so that the sealing performance between thehard tube 32 and the mountinghole 313 is ensured to be very good, and oil leakage is not easy to occur.

The sealingbottom plate 314 is provided with an easily-broken structure, theoil inlet pipe 242 breaks the easily-broken structure in the process of assembling theatomizing core 102, and the broken easily-broken structure is clamped between theoil inlet pipe 242 and thehard pipe 32 to realize sealing connection.

The material for making theseal bottom plate 314 is also soft, when theoil inlet pipe 242 at the top of theatomizing core 102 breaks theseal bottom plate 314, theseal bottom plate 314 is partially clamped between theoil inlet pipe 242 and thehard tube 32, so that the connection sealing performance between theatomizing core 102 and thehard tube 32 is greatly improved, and the phenomenon of oil leakage or air leakage is effectively improved.

The breakable structure comprises a firstcross pre-breaking groove 3141 arranged on the upper surface of the sealingbottom plate 314 and a secondcross pre-breaking groove 3142 arranged on the lower surface of the sealingbottom plate 314, and the firstcross pre-breaking groove 3141 and the secondcross pre-breaking groove 3142 are designed to facilitate theoil inlet pipe 242 at the top of theatomizing core 102 to burst the sealing bottom plate 314 (see fig. 3 in detail), so that part of the sealingbottom plate 314 is clamped between theoil inlet pipe 242 and thehard pipe 32 to enhance the sealing performance.

The top opening part of mountinghole 313 is provided with thefender circle 315 that separates at fenderhard tube 32 top, separates the design offender circle 315, can carry out certain spacing tohard tube 32, prevents effectively thathard tube 32 from breaking away from mountinghole 313 at will, has promoted the firm in connection nature betweenhard tube 32 and the sealedsilica gel portion 31 by a wide margin, and the structure is more stable.

Two circles of outer sealing strips 316 abutting against the inner peripheral wall of theoil cup 101 are convexly arranged on the outer peripheral wall of the sealingsilica gel part 31, the outer sealing strips 316 are located above theexhaust groove 312, the cross section of the outer sealing strips 316 is in a right-angle trapezoidal shape, and the outer side of the upper surface of the outer sealing strips 316 is designed to be an inclined surface, so that the sealingsilica gel part 31 can be quickly inserted into theoil cup 101.

The design of theouter sealing strip 316 can improve the connection sealing performance between the outer peripheral wall of the sealingsilica gel part 31 and the inner peripheral wall of theoil cup 101, and effectively improve the phenomenon of oil leakage or air leakage.

In other embodiments, the outer sealing strips 316 may be designed to be one, three, or four turns, or even more, and when the number of the outer sealing strips 316 is multiple, the adjacent outer sealing strips 316 are spaced up and down.

Two circles of inner sealing strips 317 abutting against the outer peripheral wall of theair outlet pipe 11 of theoil cup 101 are convexly arranged on the inner peripheral wall of theair outlet hole 311. The cross section of theinner sealing bar 317 is in a semi-elliptical shape, and the outer side of the inner side surface of theinner sealing bar 317 is designed to be a circular arc surface, so that theair outlet pipe 11 of theoil cup 101 can be quickly inserted into theair outlet hole 311.

Theinner sealing bar 317 can improve the connection sealing performance between the sealingsilica gel part 31 and theair outlet pipe 11 of theoil cup 101, and effectively improve the phenomenon of oil leakage or air leakage.

In other embodiments, the inner sealing strips 317 can be designed to have one turn, three turns or four turns, or even more, and when the number of the inner sealing strips 317 is multiple, the adjacent inner sealing strips 317 are spaced up and down.

In summary, compared with the prior art, the atomization core assembling method provided by the application has the following expectable technical effects:

1. by adding the connectingpiece 103, theatomizing core 102 and theoil cup 101 can be detached, theatomizing core 102 can be recycled, waste is not easy to cause, a one-bullet multi-core structure can be realized, the production efficiency of the product is higher, the sale cost can be indirectly reduced, and the market has competitive advantages;

2. the design of the sealingbottom plate 314 can seal the tobacco tar in theoil storage bin 12 of theoil cup 101, so that the tobacco tar cannot leak even if theatomizing core 102 is disassembled, and when theoil cup 101 and theatomizing core 102 are assembled, the sealingbottom plate 314 can be pierced by theatomizing core 102, so that the tobacco tar in theoil storage bin 12 of theoil cup 101 can flow into theatomizing core 102 along thehard tube 32, and the detachable assembly between theoil cup 101 and theatomizing core 102 can be realized;

3. because the sealingbottom plate 314 has a sealing effect on the tobacco tar in theoil storage bin 12, the tobacco tar cannot be in contact with theatomizing core 102 for a long time, the outside air cannot easily enter theoil storage bin 12 of theoil cup 101 through theatomizing core 102, the tobacco tar is not easy to deteriorate, theatomizing core 102 cannot be soaked in the tobacco tar for a long time, and the service life of theatomizing core 102 is prolonged.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An atomizing core assembly method, comprising the steps of:

the method comprises the following steps: the tobacco tar is injected into the oil storage bin of the oil cup;

step two: respectively installing a plurality of hard tubes in the installation holes of the sealing silica gel part to obtain connecting pieces, wherein a sealing bottom plate for sealing the bottom end opening of the installation hole is arranged on the sealing silica gel part, a vertically arranged air outlet hole is arranged in the middle of the sealing silica gel part, and an exhaust groove communicated with the bottom of the air outlet hole is arranged at the bottom of the sealing silica gel part;

step three: aligning the connecting piece to the mounting opening of the oil cup, then clamping the connecting piece to the inner peripheral wall of the oil cup, arranging an air outlet pipe in the oil cup, vertically arranging the air outlet pipe along the central axis of the oil cup, arranging the oil storage bin on the peripheral side of the air outlet pipe, communicating the top of the hard pipe with the bottom opening of the oil storage bin, and communicating the top of the air outlet hole with the bottom opening of the air outlet pipe;

step four: aim at the installing port of oil cup with the atomizing core, then make the top joint of atomizing core in the internal perisporium of oil cup, the top of atomizing core is provided with into oil pipe and gas outlet, and with the sealed bottom plate bursting and make the inside that advances the top of oil pipe and stretch into the mounting hole through advancing oil pipe, the sealed bottom plate clamp after the damage is located and is advanced between oil pipe and the hard tube in order to realize the oil circuit intercommunication, and the gas outlet of atomizing core communicates in order to realize the gas circuit intercommunication in the air discharge duct.

2. The atomizing core assembly method of claim 1, wherein: the sealing bottom plate is provided with an easy-breaking structure which is convenient for the oil inlet pipe to break the sealing bottom plate.

3. The atomizing core assembly method of claim 2, wherein: the breakable structure comprises a first cross pre-breaking groove arranged on the upper surface of the sealing bottom plate and a second cross pre-breaking groove arranged on the lower surface of the sealing bottom plate.

4. The atomizing core assembly method of claim 1, wherein: the inner peripheral wall of the air outlet hole is convexly provided with a plurality of circles of inner sealing strips which are abutted against the outer peripheral wall of the air outlet pipe of the oil cup.

5. The atomizing core assembly method of claim 1, wherein: the periphery wall protrusion of sealed silica gel portion is provided with the outer sealing strip of a plurality of rings butt in oil cup internal perisporium, and the outer sealing strip is located the top of exhaust duct.

6. The atomizing core assembly method of claim 1, wherein: and a separation retaining ring for separating and retaining the top of the hard pipe is arranged at the opening at the top of the mounting hole.

7. The atomizing core assembly method of any one of claims 1 to 6, wherein the atomizing core is assembled by the steps of:

mounting the bottom of the top of the ceramic heating component on a mounting seat;

the sealing sleeve covers the top of the ceramic heating component, a first exhaust gap is arranged on the peripheral side of the sealing sleeve, and a hole communicated with the interior of the ceramic heating component is formed in the top of the sealing sleeve;

the sealing sleeve is arranged at the bottom of the oil inlet cover, a second exhaust notch which is arranged corresponding to the first exhaust notch is formed in the bottom of the oil inlet cover, and the oil inlet pipe is arranged on the oil inlet cover;

the mounting seat and the oil inlet cover are connected in an up-and-down clamping manner to clamp the ceramic heating component and the sealing sleeve, so that the atomizing core is obtained.

8. The atomizing core assembly method of claim 7, wherein: the middle part of the side wall of the mounting seat is provided with a circle of groove, an O-shaped sealing ring is clamped in the groove, and the O-shaped sealing ring is tightly propped against the inner peripheral wall of the oil cup.

9. The atomizing core assembly method of claim 8, wherein: the top both sides of mount pad set up the side plate respectively, and two side plate cooperations press from both sides the bottom both sides of pressing from both sides tight oil inlet cover, and the side plate is located the top of O shape sealing washer, is provided with the card hole on the side plate, and the bottom both sides of oil inlet cover are provided with the fixture block respectively, and the bottom outside of fixture block sets up the direction inclined plane.

10. The atomizing core assembly method of claim 7, wherein: the ceramic heating component comprises a ceramic heating core, a positive electrode, a negative electrode and a high-molecular oil absorption cotton block, wherein the positive electrode and the negative electrode are connected to the bottom of the ceramic heating core, the positive electrode and the negative electrode penetrate through the high-molecular oil absorption cotton block, the high-molecular oil absorption cotton block is clamped between the bottom of the ceramic heating core and the positive electrode and the negative electrode, and the high-molecular oil absorption cotton block is horizontally arranged.

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