CN111152004B - Method for assembling atomization device - Google Patents

Abstract

The invention provides an assembling method of an atomizing device, wherein the atomizing device comprises a main body, a heating piece, a first electrode contact and a second electrode contact, two electrode assembling holes are formed in the main body, two ends of the heating piece bend towards the direction of the electrode assembling holes, and the assembling method comprises the following steps: the two bent ends of the heating element are arranged in the electrode assembling holes; inserting the first electrode contact and the second electrode contact into two of the electrode assembly holes. The assembly method of the atomization device is simple.

Description

Method for assembling atomization device

Technical Field

The invention relates to the field of simulated smoking, in particular to an assembling method of an atomizing device.

Background

Nowadays, electronic cigarettes are accepted by more and more people by virtue of the advantages of sanitation, environmental protection, convenient use, various taste experiences and the like, and both small-sized or disposable electronic cigarettes which seek cool and large-power electronic cigarettes, practicality and convenience and the like have more and more markets.

Generally, an atomization device in the electronic cigarette heats the tobacco liquid supplied by the liquid storage component under the electric drive of the power supply device, so that the tobacco liquid is atomized into smoke for a user to suck. However, the structure of the atomization device in the existing market is complex, the assembly is complex, the disassembly and assembly and the later maintenance of the atomization device are relatively troublesome, and the user experience is not high.

Disclosure of Invention

In view of the above, it is necessary to provide an assembling method of an atomizing device which is convenient to assemble.

An assembling method of an atomization device, wherein the atomization device comprises a main body, a heating piece, a first electrode contact and a second electrode contact, two electrode assembling holes are formed in the main body, two ends of the heating piece bend towards the direction of the electrode assembling holes, and the assembling method comprises the following steps: the two bent ends of the heating element are arranged in the electrode assembling holes; inserting the first electrode contact and the second electrode contact into two of the electrode assembly holes. In one embodiment, the main body further includes two electrode mounting holes formed through the main body in a direction perpendicular to the upper surface, the communication cavity is located between the two electrode mounting holes, and two ends of the heat generating member are bent toward the mounting holes, and the assembling method further includes: the first electrode contact and the second electrode contact are respectively assembled in the two electrode assembling holes.

In one embodiment, the atomizing device further includes a liquid guiding member, the main body has a communicating cavity formed therethrough, the communicating cavity is located between the two electrode assembling holes, the heat generating member is transversely disposed at one end of the communicating cavity, and the assembling method further includes: and before the two bent ends of the heating element are arranged in the electrode assembly holes, the liquid guide element is arranged in the communicating cavity.

In one embodiment, the first electrode contact protrudes outwards along the radial direction of the first electrode contact to form a third limiting step, and the third limiting step abuts against the heating element to prevent the heating element from sliding out of the electrode assembly hole.

In one embodiment, the atomizing device further includes a base, the base includes an upper surface facing the main body and a lower surface facing away from the upper surface, the main body is coupled to the base, the base is provided with two step holes penetrating through the base corresponding to the two electrode assembling holes, and the two step holes are aligned and communicated with the two electrode assembling holes respectively, and the assembling method further includes: the first electrode contact and the second electrode contact are fitted into the two stepped holes from the lower surface, and then the base is fitted to the body while the first electrode contact and the second electrode contact are inserted into the two electrode fitting holes.

In one embodiment, the atomizing device further includes a sealing cylinder and a piercing part, the sealing cylinder faces the one end of the main body and has a mounting port, the sealing cylinder is provided with an avoidance port opposite to the other end of the mounting port, the avoidance port is communicated with the mounting port, the piercing part includes the main body and a piercing part, the piercing part is convexly arranged at one end of the main body opposite to the heating part, the piercing part is surrounded at the periphery of the communicating cavity, the mounting port is used for sleeving the main body, the avoidance port is used for avoiding the piercing part, and the assembling method further includes: loading said piercing member into said mounting port of said sealing cartridge.

According to the assembling method of the atomization device, the first electrode of the atomization device is in contact with the second electrode and is assembled in the two step holes of the base in a contact mode, on one hand, convenience and follow-up maintenance of electrode contact assembly are achieved, on the other hand, direct conductive contact between the electrode and the electrode which is assembled in the electrode assembly hole in the follow-up mode is achieved, the structure of the atomization device is simplified, and the assembly complexity of the atomization device is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an electronic cigarette according to an embodiment of the invention;

figure 2 is a partially exploded schematic view of the electronic cigarette shown in figure 1;

figure 3 is a schematic view of the structure of the cartridge of the electronic cigarette shown in figure 1;

figure 4 is an exploded view of the liquid storage component and the mouthpiece component of the cartridge of figure 3;

FIG. 5 is a schematic view of the construction of the spike assembly in the cartridge of FIG. 3;

FIG. 6 is an exploded view of the spike assembly of the cartridge of FIG. 5;

FIG. 7 is a cross-sectional view of the cartridge of FIG. 3 in a sealed position;

FIG. 8A is a cross-sectional view of the cartridge of FIG. 3 in a puncturing position;

figure 8B is a cross-sectional view of the cartridge of figure 8A at position 8B-8B;

figure 8C is a cross-sectional view of the cartridge of figure 8A at the position 8C-8C;

figure 9 is a cross-sectional view of a power supply assembly in the e-cigarette of figure 1;

figure 10 is an exploded view of the power supply assembly of the electronic cigarette of figure 9;

figure 11 is a cross-sectional view of the e-cigarette of figure 1;

FIG. 12A is a schematic view of the sealed cartridge of FIG. 3;

figure 12B is a top view of the sealed cartridge of figure 3;

figure 12C is a bottom view of the sealed cartridge of figure 3;

FIG. 12D is a cross-sectional view of the closure cartridge of FIG. 12C at position 12D-12D;

FIG. 12E is a cross-sectional view of the closure cartridge of FIG. 12C at position 12E-12E;

figure 13 is another exploded view of the spike assembly of the cartridge of figure 5;

figure 14 is another exploded view of the reservoir component and the mouthpiece component of the cartridge of figure 3;

figure 15 is a schematic view of the construction of the mouthpiece shell in the cartridge of figure 3;

FIG. 16A is an assembled schematic view of the cartridge of FIG. 3;

FIG. 16B is an assembled view of the cartridge of FIG. 3;

figure 16C is an assembled schematic view of the cartridge of figure 3;

FIG. 16D is a schematic view of the assembly of the cartridge of FIG. 3;

figure 16E is an assembled schematic view of the cartridge of figure 3;

electronic cigarette 100 cartridge 10

Reservoir assembly 11 housing 110

Opening 1101 reservoir 1103

First mating portion 1105 intake vent 1107

Airflow channel 1109 lower groove 1115

Upper channel 1125 sealing sheet 112

Base 130 of spike assembly 13

Upper surface 1301 and lower surface 1303

Positioning column 1305 stepped hole 1307

Second sensing air hole 1309 first limit step 1317

First latch portion 1321 of piercing member 132

Guiding bevel 1322 positioning slot 1323

Main body 1324 puncturing part 1325

Second limit step 1326 electrode assembly hole 1327

Communicating chamber 1329 sealing barrel 135

Atomization component 15 liquid guide 150

The heat generating member 152 has a first electrode contact 17

First mating step 170 and second mating step 172

Second electrode contact 19 power supply assembly 30

Battery case 31 decoration 32

Battery holder 33 terminal hole 330

First sensing air hole 332 contacts terminal 35

Circuit board 36 sensor 37

USB interface 38 adsorption piece 39

Mouthpiece shell 52 of mouthpiece component 50

Smoke outlet 521 sealing member 54

Third limiting step 171 first mounting step 1102

Mounting chamber 1104 fourth limit step 1328

Body 1351 seal 1353

Dodging port 1355 limiting groove 1357

Mounting hole 1359 first side 1302

Second side 1304 notch 1306

Second mounting step 1106 atomization chamber 154

Fifth limiting step 1308 second clamping part 1100

Attaching part 523 of second matching part 522

A first contour 524.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, in an embodiment of the present invention, an electronic cigarette 100 includes a cartridge 10, a power supply component 30, and a mouthpiece component 50. The cartridge 10 is electrically connected to the power supply 30, and is used for electrically driving the atomized liquid smoke through the power supply 30, so that the atomized liquid smoke is formed and flows into the mouth of the smoker through the mouthpiece component 50. The mouthpiece component 50 is in some embodiments a separate component that is removably mounted to the cartridge 10, and in other embodiments the mouthpiece component 50 may be integrally provided with the cartridge 10 and formed integrally with the cartridge 10.

Referring to fig. 3-6, the cartridge 10 includes a reservoir assembly 11 and an aerosolization device (not shown) including a spike assembly 13 and an aerosolization assembly 15. Stock solution subassembly 11 is used for storing the tobacco juice, and all is in airtight state in the transportation and before using, and unable and 15 intercommunications of atomization component, avoid taking place revealing of tobacco juice. The puncturing component 13 is movably connected to the liquid storage component 11 in a matching manner and used for puncturing the liquid storage component 11 under the action of external force when the cigarette cartridge 10 is used for the first time, so that the liquid storage component 11 is communicated with the atomizing component 15, and the atomizing component 15 adsorbed with the cigarette liquid can be electrically driven by the power supply component 30 to be heated to form smoke, and then the smoke can be sucked by a user through the cigarette holder component 50.

Referring to fig. 4 in particular, the reservoir assembly 11 includes a housing 110 and a sealing sheet 112, the housing 110 is substantially square and cylindrical, an opening 1101 is formed at one end of the housing 110, and the sealing sheet 112 seals the opening 1101 and defines a reservoir cavity 1103 (see fig. 7 and 8A) with the housing 110 for storing the tobacco juice. In this embodiment, the housing 110 forms a mounting step 1102 inside the opening 1101, the mounting step 1102 is used for mounting the sealing sheet 112, the mounting step 1102 is perpendicular to the axial direction of the housing 110 and is continuous in the circumferential direction of the housing 110, the mounting step 1102 divides the opening 1101 into a reservoir 1103 and a mounting cavity 1104 along the axial direction of the housing 110, the reservoir 1103 is located at a side of the opening 1101 close to the mouthpiece component 50 and is bounded by the mounting step 1102, the reservoir 1103 is used for storing smoke liquid, the mounting cavity 1104 is located at a side of the opening 1101 far from the mouthpiece component 50 and is bounded by the mounting step 1102, the mounting cavity 1104 is used for matching the puncturing component 13, the periphery of the sealing sheet 112 is fixedly connected with the mounting step 1102, the sealing sheet 112 seals the reservoir 1103, and the connection mode of the sealing sheet 112 and the mounting step 1102 includes, but is not limited to, high temperature hot melting.

The spike assembly 13 is coupled to the housing 110, and the atomizing assembly 15 is coupled to the spike assembly 13 and positioned in the path of the smoke fluid flowing out of the reservoir 1103. Wherein, the puncturing assembly 13 is capable of moving unidirectionally relative to the housing 110 from a sealing position spaced from the sealing sheet 112 to a puncturing position for puncturing the sealing sheet 112, and the sealing sheet 112 is punctured when the puncturing assembly 13 moves to the puncturing position, so that the reservoir 1103 is communicated with the atomizing assembly 15.

Referring to fig. 4 and 5, in particular, one of the housing 110 and the puncturing assembly 13 is provided with a first fastening portion 1321, and the other is provided with a first matching portion 1105 for limiting the first fastening portion 1321 to move only in a single direction along the puncturing direction, so that the puncturing assembly 13 can puncture the sealing sheet 112 when moving from the sealing position to the puncturing position in the single direction along the puncturing direction under the action of an external force, and is fixed relative to the housing 110 through the matching of the first fastening portion 1321 and the first matching portion 1105 after puncturing, thereby satisfying the subsequent normal use of the cartridge 10.

In one embodiment, the first fastening portion 1321 is a boss protruding from one of the housing 110 and the puncture assembly 13, and the first matching portion 1105 is a slot opening on the other of the housing 110 and the puncture assembly 13. The clamping groove comprises a lower groove 1115 and an upper groove 1125 which are sequentially arranged along a puncturing direction, the boss is positioned in the lower groove 1115 in a limited mode at a sealing position, moves in a direction close to the upper groove 1125 after being separated from the lower groove 1115 in the puncturing process, and is limited in the upper groove 1125 after the puncturing is finished (namely, the puncturing position).

Further, the surface of the boss adjacent to the upper groove 1125 forms a guiding slope 1322 inclined upward in the puncturing direction, such that the boss is moved out of the lower groove 1115 under the guidance of the guiding slope 1322 when the puncture assembly 13 moves from the sealing position to the puncturing position, and is re-engaged in the upper groove 1125 when moving to the upper groove 1125. That is, with the bosses snap into the lower groove 1115 and the upper groove 1125, the puncturing assembly 13 is only able to move relative to the housing in the direction to puncture the sealing sheet 112, but is not able to exit the sealing sheet 112 in the opposite direction after puncturing, resulting in leakage of the smoke.

Referring to fig. 6, in the present embodiment, the puncturing assembly 13 includes a base 130 and a puncturing member 132 coupled to the base 130. Base 130 has a generally square cylindrical shape and includes an upper surface 1301 facing piercing member 132, a lower surface 1303 facing away from upper surface 1301, and a positioning post 1305. Positioning post 1305 is disposed on upper surface 1301, and positioning slot 1323 matched with positioning post 1305 is formed on the surface of puncturing part 132 facing upper surface 1301 in a recessed manner. When the puncturing element 132 is mounted on the base 130, the positioning post 1305 is inserted into the positioning slot 1323, so as to fix the puncturing element 132 on the base 130 and move along with the base 130 along the puncturing direction with respect to the housing 110.

More specifically, the first fastening portion 1321 is a boss protruding from the periphery of the base 130, and the first engaging portion 1105 is a slot disposed at a position of the housing 110 corresponding to the first fastening portion 1321, so that the puncturing assembly 13 is fixed at a sealing position spaced from the sealing sheet 112 by the engagement of the boss and the lower slot 1115 during transportation and when not in use, i.e., the puncturing assembly 13 and the liquid storage assembly 11 are kept independent from each other; when the cigarette bullet is used for the first time, the base 130 is pushed, the boss moves out of the lower groove 1115 under the guidance of the inclined guide surface 1322, the puncturing component 13 continues to move towards the direction close to the liquid storage component 11 under the action of external force, and when the boss is clamped into the upper groove 1125 again, the puncturing component 13 punctures the sealing sheet 112 and stops limiting at the puncturing position, so that the normal use of the cigarette bullet 10 is ensured.

The puncture element 132 includes a main body 1324 and a puncture portion 1325, and the main body 1324 is substantially in the shape of a square column, and two electrode mounting holes 1327 and a communication chamber 1329 are formed in the main body 1324 so as to penetrate therethrough in the axial direction of the puncture element 132. The communication chamber 1329 is located between the two electrode fitting holes 1327, and accommodates the atomizing assembly 15. The puncturing portion 1325 protrudes from the surface of the main body 1324 facing the sealing sheet 112 and surrounds the communication cavity 1329, so that when the puncturing portion 1325 punctures the sealing sheet 112, the outline of the punctured position of the sealing sheet 112 matches with the outline of the communication cavity 1329, and the tobacco juice in the liquid storage cavity 1103 just flows into the communication cavity 1329 to be heated and atomized by the atomizing assembly 15. It will be appreciated that in other embodiments, two electrode mounting holes 1327 open on the surface of the body 1324 facing the upper surface 1301, and the two electrode mounting holes 1327 are blind holes.

In this embodiment, the piercing portion 1325 is configured to pierce the sealing sheet 112 at one end to facilitate the piercing operation. It should be understood that in some other embodiments, the position and shape of the puncturing portion 1325 disposed on the main body 1324 may be determined according to the need, for example, the puncturing portion 1325 is only a single puncturing needle, or the puncturing portion 1325 is only disposed around a portion of the periphery of the communicating cavity 1329, etc., and it is only necessary to move the puncturing assembly 13 to the puncturing position, and the puncturing portion 1325 can puncture the sealing sheet 112 to allow the smoke liquid in the reservoir 1103 to flow into the atomizing assembly 15, which is not limited herein.

In order to prevent the smoke liquid from leaking from the gap between the puncturing member 132 and the housing 110, the puncturing assembly 13 includes a sealing cylinder 135, and the sealing cylinder 135 is disposed outside the puncturing member 132 and seals the gap between the puncturing member 132 and the housing 110. Referring to fig. 12A-12E, the sealing cylinder 135 includes a body 1351 and a sealing rib 1353, the body 1351 is substantially in a shape of a square column, one end of the body 1351 facing the puncturing element 132 is provided with a mounting port 1359, the mounting port 1359 is used for sleeving the main body 1324, a size of an inner cavity of the mounting port 1359 is consistent with a size of an outer contour of the main body 1324, the other end of the body 1351 opposite to the mounting port 1359 is provided with an avoiding port 1355, the avoiding port 1355 is used for avoiding the puncturing portion 1325, a size of the inner cavity of the avoiding port 1355 is consistent with the outer contour of the puncturing portion 1325, and the avoiding port 1355 is communicated with the mounting port 1359. The side wall of the body 1351 is provided with a sealing rib 1353 protruding from the body 1351, the sealing rib 1353 is used for reducing friction between the sealing cylinder 135 and the housing 110 when the sealing cylinder 135 is mounted with the housing 110, thereby facilitating assembly, and the sealing rib 1353 is used for reducing a gap between the sealing cylinder 135 and the housing 110, thereby improving sealing effect. The number of the sealing ribs 1353 may be one or more, depending on the specific requirement, and is not limited herein.

In the present embodiment, the sealing cylinder 135 is made of a sealing material having plastic deformability, and the sealing material includes, but is not limited to, rubber, silicone, and the like. Referring to fig. 6, the piercing element 132 includes a fourth limit step 1328, and the fourth limit step 1328 is disposed at an end of the main body 1324 facing the sealing sheet 112 in a protruding manner along the circumference of the main body 1324. Correspondingly, the sealing member 135 includes a retention groove 1357 (see fig. 12A and 12D), the retention groove 1357 is formed by a depression in the side wall of the mounting opening 1359 near one end of the relief opening 1355, and the axial dimension of the retention groove 1357 corresponds to the axial dimension of the fourth retention step 1328. When the sealing cylinder 135 is sleeved outside the puncturing element 132, the fourth limiting step 1328 is caught by the limiting groove 1357, so that the sealing cylinder 135 is fixed on the puncturing element 132 and moves together with the puncturing element 132 along the puncturing direction with respect to the housing 110.

The atomizing assembly 15 includes a liquid guiding member 150 and a heat generating member 152, the heat generating member 152 is disposed on one surface of the puncturing member 132 facing the base 130, the heat generating member 150 is disposed transversely at one end of the communicating chamber 1329, and two opposite ends of the heat generating member are disposed in the two electrode mounting holes 1327, where "transversely" is defined as being disposed parallel to the surface of the puncturing member 132 facing the base 130, and the liquid guiding member 150 is supported on the heat generating member 152 and is accommodated in the communicating chamber 1329. Specifically, the cartridge 10 includes a first electrode contact 17 and a second electrode contact 19, and the heating element 152 is U-shaped with an opening facing the communication cavity 1329, that is, the heating element 152 is sheet-shaped, and both ends of the heating element 152 are bent in a direction facing the electrode mounting hole 1327. When the first electrode contact 17 and the second electrode contact 19 are respectively mounted in the two electrode mounting holes 1327, one end of the heat generating member 152 is inserted and held between the first electrode contact 17 and the hole wall of the corresponding electrode mounting hole 1327, and the other end of the heat generating member 152 is inserted and held between the second electrode contact 19 and the hole wall of the corresponding electrode mounting hole 1327. So, on the one hand realize the convenience of generating heat the piece 152 assembly, on the other hand is convenient for generate heat subsequent dismouting and maintenance of piece 152.

Referring to fig. 6 and 7, in the embodiment, two stepped holes 1307 penetrating through the base 130 are formed in the base 130 at positions corresponding to the two electrode assembling holes 1327, and the two stepped holes 1307 are aligned and communicated with the two electrode assembling holes 1327, respectively. A first limiting step 1317 is formed on the inner hole wall of each stepped hole 1307, so that each stepped hole 1307 is in a step shape with a wide bottom and a narrow top, that is, one end of each stepped hole 1307 close to the puncturing piece 132 is narrower than one end of each stepped hole 1307 far away from the puncturing piece 132. Meanwhile, a second limit step 1326 is formed on the inner hole wall of each of the electrode mounting holes 1327 such that each of the electrode mounting holes 1327 is stepped in a narrow-down and wide-up manner, i.e., one end of each of the electrode mounting holes 1327 near the base 130 is narrower than one end thereof far from the base 130. It is understood that in other embodiments not shown, the stepped bore 1307 on the base 130 may also be a straight bore, i.e., there is no step or step within the stepped bore 1307.

Correspondingly, the first electrode contact 17 is fitted to the tail end of the stepped hole 1307 to form a first fitting step 170 which is fitted with the first limit step 1317, and the first electrode contact 17 is fitted to the head end of the electrode fitting hole 1327 to form a second fitting step 172 which is fitted with the second limit step 1326. Thus, when the second engaging step 172 at the head end of the first electrode contact 17 is fastened to the second limiting step 1326, the first engaging step 170 at the tail end of the first electrode contact 17 is synchronously abutted to the first limiting step 1317 and cannot move forward any more, so that the stroke of the first electrode contact 17 is limited and the first electrode contact 17 is prevented from sliding out of the corresponding electrode assembling hole 1327.

Referring to fig. 7, in the present embodiment, a third limiting step 171 is formed between the first mating step 170 and the second mating step 172 of the first electrode contact 17 and protrudes outward along the radial direction of the first electrode contact 17, and a surface of the third limiting step 171 away from the upper surface 1301 abuts against a surface of the main body 1324 facing the upper surface 1301. Thus, when the first electrode contact 17 is mounted in the electrode mounting hole 1327, the surface of the third limiting step 171 of the first electrode contact 17 away from the upper surface 1301 supports against the surface of the heat generating member 152 facing the upper surface 1301 and cannot move forward any more, so that the stroke of the first electrode contact 17 is limited, and the heat generating member 152 is prevented from sliding out of the corresponding electrode mounting hole 1327. Similarly, the second electrode contact 19 is also provided with the same structure as the first electrode contact 17, and is not described herein again. Referring to fig. 13, further, the base 130 includes a first side 1302 and a second side 1304 disposed opposite to the first side 1302, wherein a direction perpendicular to both the first side 1302 and the second side 1304 is defined as a transverse direction, a direction perpendicular to both the axial direction and the transverse direction is defined as a longitudinal direction, and an upper surface 1301 of the base 130 is recessed along the transverse direction to form a notch 1306 penetrating through the first side 1302 and the second side 1304. The first side 1302 and the second side 1304 are narrow sides.

Referring to fig. 7 and 8, further, the housing 110 has an air inlet hole 1107 corresponding to one of the first side surface 1302 and the second side surface 1304 and an air flow channel 1109 corresponding to the other of the first side surface 1302 and the second side surface 1304, that is, one side surface of the housing 110 in the transverse direction has the air inlet hole 1107, and the other side surface of the housing in the transverse direction has the air flow channel 1109. The airflow channel 1109 is separated from the reservoir 1103, and the airflow channel 1109 is connected between the inlet 1107 and the mouthpiece component 50. Referring to fig. 4 and 7, material is removed from one lateral side of the housing 110 to form a gas flow channel 1109 penetrating through the surface of the housing 110 away from the upper surface 1301 to the surface close to the upper surface 1301, and a second mounting step 1106 is formed at one end of the gas flow channel 1109 close to the upper surface 1301.

The piercing member 132 coupled to the base 130 abuts the base 130, and the slot 1306 and the surface of the piercing member 132 facing the upper surface 1301 cooperate to define the aerosolizing chamber 154 (as shown in fig. 8A). The outside air enters the atomizing chamber 154 through the air inlet 1107 under the action of suction force, and is mixed with the smoke and then flows out to the mouthpiece component 50 through the airflow channel 1109 for the user to suck. The airflow channel 1109 is transversely positioned between the liquid storage cavity 1103 and the outside air, the airflow channel 1109 has a condensation function, the airflow channel 1109 can transfer heat to the liquid storage cavity 1103 and the outside air, so that the temperature of the airflow channel 1109 is lower relative to the atomizing cavity 154, vapor in a gas phase is generated by heating the smoke liquid in the atomizing cavity 154, when the vapor passes through the airflow channel 1109 with lower temperature, the hot vapor is rapidly cooled to form smaller and high-concentration particles, and the smaller and high-concentration particles contained in the vapor are represented as dense smoke under the observation of naked eyes.

Referring to fig. 8C, the upper surface 1301 of the base 130 is provided with a fifth limiting step 1308 along the edge of the notch 1306, and at least a part of the edge of the heat generating member 152 is clamped into the fifth limiting step 1308, so that the fifth limiting step 1308 further performs an axial limiting function on the heat generating member 152, and the fifth limiting step 1308 cooperates with the third limiting step 171 to prevent the heat generating member 152 from sliding out of the corresponding electrode assembling hole 1327.

Referring to figure 7, the cartridge 10 is separated and independent from the power supply 30 during transport and when not in use, i.e. the assembly is incomplete. At this time, the first clamping portion 1321 (i.e., the boss) of the puncturing element 132 in the puncturing assembly 13 is clamped in the lower groove 1115 of the first matching portion 1105, so that a certain distance is kept between the puncturing element 132 and the sealing sheet 112 in the liquid storage assembly 11, the liquid storage cavity 1103 is kept sealed, and the cartridge 10 is in a sealed position.

Referring to fig. 8, when the puncturing member 13 is pushed to move close to the liquid storage member 11 for the first time, the first locking portion 1321 of the puncturing member 132 is separated from the lower groove 1115 under the guidance of the inclined guiding surface 1322, and continues to move upward under the pushing force and is locked in the upper groove 1125. At this time, the puncturing element 132 punctures the sealing sheet 112, the sealing state of the liquid storage cavity 1103 is broken and is communicated with the atomizing assembly 15, and the tobacco juice flows out from the liquid storage cavity 1103 and drops on the liquid guiding element 150 to be absorbed by the liquid guiding element 150, so that the cartridge 10 is in a usable state. At this time, the upper surface 1301 abuts against the second installation step 1106, and the surface of the sealing cylinder 135 facing away from the upper surface 1301 abuts against the first installation step 1102, so as to limit the first blocking portion 1321 from moving in the puncturing direction and separating from the upper groove 1125 under the guidance of the guiding slope 1322.

Referring again to fig. 4, the mouthpiece component 50 includes a mouthpiece shell 52 and a sealing member 54, the mouthpiece shell 52 is sleeved outside the housing 110, and a smoke outlet 521 communicating with the smoke outlet channel 1109 is formed thereon. The sealing element 54 is disposed between the mouthpiece shell 52 and the shell 110, and is used for sealing a gap between the mouthpiece shell 52 and the shell 110, so as to avoid smoke leakage. The mouthpiece shell 52 is fixedly connected to the housing 110, one of the mouthpiece shell 52 and the housing 110 is provided with a second fastening portion 1100, and the other is provided with a second engaging portion 522 for engaging and limiting the movement of the second fastening portion 1100, so that the mouthpiece shell 52 is fixedly connected to the housing 110. In one embodiment, the second fastening portion 1100 is a boss opened on one of the mouthpiece shell 52 and the housing 110, and the second mating portion 522 is a slot opened on the other of the mouthpiece shell 52 and the housing 110. Further, the boss forms a guide surface (not shown) inclined toward the fitting direction at the head end of the fitting direction, where the fitting direction refers to the direction in which the second trim portion 1100 relatively moves toward the second fitting portion 522, so that the boss is fitted into the pocket under the guide of the guide surface when the nozzle shell 52 is connected to the housing 110. Referring to fig. 7, in the present embodiment, the second fastening portion 1100 is a boss protruding from the lateral side of the casing 110, and the second engaging portion 522 is a slot corresponding to the second fastening portion 1100 and disposed on the mouthpiece shell 52. It is understood that in other embodiments, not shown, the mouthpiece shell 52 and the housing 110 are connected by means including, but not limited to, clamping, gluing, heat fusing, welding, etc., and the mouthpiece shell 52 and the housing 110 are fixedly connected.

In this embodiment, the mouthpiece shell 52 and the housing 110 are both made of transparent materials, so that the user can observe the smoke in the liquid storage cavity 1103 through the mouthpiece shell 52 and the housing 110, and thus the user can conveniently pay attention to the smoke in the liquid storage cavity 1103.

Referring to fig. 15, in the present embodiment, the mouthpiece shell 52 is recessed along the longitudinal side surface near the mouthpiece 521 to form a fitting portion 523, and the fitting portion 523 is used for naturally fitting the lip of the user so as to enable the user to obtain a good human-computer interaction experience. The surface of the mouthpiece shell 52 facing the upper surface 1301 is circumferentially recessed and/or protruding forming a first profile 524, in particular the first profile 524 is formed on the longitudinal side wall of the mouthpiece shell 52 by the surface of the mouthpiece shell 52 facing the upper surface 1301 being recessed, the first profile 524 being substantially circular arc-shaped when viewed from a longitudinal perspective.

The process of assembling the cartridge:

referring to fig. 16A-16E, in steps a-c, housing 110 is oriented so that sealed opening 1101 is facing upward, and after the liquid smoke is injected, sealing sheet 112 may be loaded into sealed opening 1101, with sealing sheet 112 mounted on mounting step 1102. In steps d-e, piercing member 132 is oriented such that communication chamber 1329 faces upward and drainage member 150 is loaded into communication chamber 1329. In steps f-g, the heat generating member 152 is oriented such that the opening faces downward, and the heat generating member 152 can be fitted into the electrode fitting hole 1327 through both ends bent. In step h-i, the sealing cartridge 135 is oriented such that the mounting port 1359 faces upward, the piercing member 132 is fitted into the mounting port 1359, and the piercing portion 1325 is fitted into the escape port 1355. In steps j-k, mount 130 is oriented such that lower surface 1303 faces upward, first electrode contact 17 and second electrode contact 19 are oriented such that the head end faces downward, and first electrode contact 17 and second electrode contact 19 fit into two stepped holes 1307. In step l, the first electrode contact 17, the second electrode contact 19, and the base 130 assembly assembled in step k are fitted into the atomizing assembly 15 and the piercing member 132 assembled in step i, the first electrode contact 17 and the second electrode contact 19 are inserted into the two electrode fitting holes 1327, and the positioning column 1305 is fitted into the positioning groove 1323. It will be appreciated that orienting base 130 so that lower surface 1303 faces upward, orienting piercing member 132 so that communication chamber 1329 faces upward, loading base 130 into the assembled atomizing assembly 15 and piercing member 132, and engaging locating posts 1305 with locating slots 1323; first electrode contact 17 and second electrode contact 19 are then oriented such that the head ends face downward, and first electrode contact 17 and second electrode contact 19 are inserted into two electrode assembly holes 1327 through two stepped holes 1307. In steps n-o, the mouthpiece shell 52 is oriented so that the outlet 521 faces downward and the seal 54 is fitted into the mouthpiece shell 52. In step p, the mouthpiece component 50 assembled in step o is fitted over the housing 110, and the second engaging portion 522 and the second fastening portion 1100 are engaged. In step q-r, the atomizing assembly 15 and the spike assembly 13 assembled in step m are loaded into the housing 110, and the first catching portion 1321 is caught in the lower groove 1115.

It will be appreciated that in other embodiments, tobacco tar may be injected into the cartridge after assembly of the cartridge is complete.

Referring to fig. 9, the power supply device 30 includes a battery housing 31, a battery holder 33, a battery (not shown), and two contact terminals 35. A battery holder 33 is fitted in the battery case 31 for mounting a battery. Two terminal holes 330 are opened on the end face of the battery support 33 matching with the cartridge 10, one end of each contact terminal 35 is assembled in each terminal hole 330, and the other end protrudes out of the corresponding terminal hole 330. Each contact terminal 35 protruding outside the terminal hole 330 is in contact with and electrically connected to the first electrode contact 17 or the second electrode contact 19 in the electrode assembly hole 1327 to supply power to the battery.

Referring to fig. 10, further, the power supply device 30 includes a circuit board 36 and a sensor 37 disposed on the circuit board 36, a first sensing air hole 332 is formed on an end surface of the battery holder 33 corresponding to the cartridge 10, a second sensing air hole 1309 (see fig. 6) is formed in the piercing assembly 13 at a position corresponding to the first sensing air hole 332 on the base 130, and the second sensing air hole 1309 is located right below the communicating cavity 1329 and is communicated with the airflow channel 1109. Sensor 37 is fitted within first sensor aperture 332 and, during the air flow induced by the suction force described above, the flowing air passes through both first sensor aperture 332 and second sensor aperture 1309 such that sensor 37 located within first sensor aperture 332 detects a corresponding air flow in response to the suction force and provides power to atomizing assembly 15 by power supply assembly 30.

Still further, the power supply device 30 includes an adsorbing member 39, and the adsorbing member 39 is disposed on an end surface of the battery holder 33 where the cartridge 10 is coupled to generate an attractive force to the cartridge 10 close to the power supply device 30 when the cartridge 10 is mounted on the power supply device 30, so as to accelerate the mounting of the cartridge 10 and provide a guide for a moving direction of the mounting of the cartridge 10. In this embodiment, the attracting element 39 is a magnet disposed on the end face of the battery holder 33 that is coupled to the cartridge 10, and when the cartridge 10 is mounted on the power supply device 30, the magnet attracts the first electrode contact 17 and/or the second electrode contact 19 of the metal material of the cartridge 10. It is understood that in other embodiments, the absorption member 39 can be other absorption elements, such as an electromagnet, and is not limited herein.

Furthermore, the power supply device 30 is further provided with a USB interface 38, and the USB interface 38 is disposed on the battery bracket 33 and electrically connected to the battery to charge the battery through an external power source.

In this embodiment, the power supply device 30 further includes a decoration member 32 disposed outside the battery case 31. The decoration 32 is attached to the outside of the battery case 31 to provide decoration and beauty.

Referring to fig. 11, in use, under the suction action of the user, the external cold air enters the atomizing chamber 154 through the air inlet 1107, the air flow also flows through the first sensing air hole 332 and the second sensing air hole 1309, the sensor 37 located in the first sensor hole 332 detects the corresponding air flow, the power supply assembly 30 responds to the detection of the sensor 37 and supplies power to the atomizing assembly 15, the contact terminal 35, the first electrode contact 17, the heating element 152 and the second electrode contact 19 are electrically connected to form an electric loop, and the battery provides a heating power supply for the heating element 152 to heat the smoke liquid adsorbed by the liquid guiding element 150 and form smoke; after the external cold air is mixed with the smoke, the cold air mixed with the smoke flows out to the smoke outlet 521 through the airflow channel 1109 for the user to suck.

This application cigarette bullet 10 and electron cigarette 100, when transportation and not use, keep the isolated state between stock solution subassembly 11 and the puncture subassembly 13, when guaranteeing the leakproofness of stock solution chamber 1103 in the stock solution subassembly 11, avoid the weeping phenomenon of cigarette bullet 10. Meanwhile, when the cigarette bullet protector is used, the liquid storage component 11 can be punctured through one-way movement of the puncture component 13, so that cigarette liquid in the liquid storage cavity 1103 flows into the atomization component 15, normal use of the cigarette bullet 10 is guaranteed, the position of the puncture component 13 is fixed when the puncture component 13 moves to the puncture position and the cigarette liquid cannot return to the sealing position again, and liquid leakage caused by separation of the puncture component 13 in the using process is avoided.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (5)

1. A method of assembling an atomizing device, comprising: the atomization device comprises a main body, a heating part, a first electrode contact and a second electrode contact, wherein two electrode assembly holes are formed in the main body, the heating part is arranged on one surface of the main body, which is provided with the electrode assembly holes, two ends of the heating part bend towards the direction of the electrode assembly holes, and the assembling method comprises the following steps: the two bent ends of the heating element are arranged in the electrode assembling holes; and inserting the first electrode contact and the second electrode contact into the two electrode assembly holes along the bending directions of the two ends of the heating piece, so that one end of the heating piece is clamped and clamped between the first electrode contact and the hole wall of the corresponding electrode assembly hole, and the other end of the heating piece is clamped and clamped between the second electrode contact and the hole wall of the corresponding electrode assembly hole.

2. The method of assembly of claim 1, wherein: the atomization device further comprises a liquid guiding piece, a communication cavity is formed in the main body in a penetrating mode, the communication cavity is located between the two electrode assembling holes, the heating piece is transversely arranged at one end of the communication cavity, and the assembling method further comprises the following steps: and before the two bent ends of the heating element are arranged in the electrode assembly holes, the liquid guide element is arranged in the communicating cavity.

3. The method of assembly of claim 1, wherein: the first electrode contact is extended outwards along the radial direction of the first electrode contact to form a third limiting step, and the third limiting step is abutted against the heating element to prevent the heating element from sliding out of the electrode assembly hole.

4. The method of assembly of claim 2, wherein: the atomization device further comprises a base, the base comprises an upper surface facing the main body and a lower surface facing away from the upper surface, the main body is connected to the base in a matching mode, the base and the two electrode assembly holes are correspondingly provided with two step holes penetrating through the base, the two step holes are respectively aligned and communicated with the two electrode assembly holes, and the assembly method further comprises the following steps: the first electrode contact and the second electrode contact are fitted into the two stepped holes from the lower surface, and then the base is fitted to the body while the first electrode contact and the second electrode contact are inserted into the two electrode fitting holes.

5. The method of assembly of claim 4, wherein: the atomizing device still includes sealed section of thick bamboo and piercing part, sealed section of thick bamboo face to the one end of main part has the installing port, sealed section of thick bamboo is last for the other end of installing port has the mouth of dodging, dodge the mouth with the installing port intercommunication, piercing part includes main part and puncture portion, the puncture portion protrusion set up in relatively in the main part the one end of heating element, puncture portion encloses to be located the periphery in intercommunication chamber, the installing port is used for the cover to establish the main part, it is used for dodging to dodge the mouth the puncture portion, the assembly method still includes: loading said piercing member into said mounting port of said sealing cartridge.

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