CN219438224U - Novel electronic cigarette - Google Patents

Abstract

The utility model provides a novel electronic cigarette, which comprises an oil bin, a suction nozzle and an atomization device, wherein an oil bin inner cavity and a first air passage are arranged in the oil bin, the suction nozzle is arranged on the oil bin and is communicated with an upper port of the first air passage, the atomization device is arranged below the oil bin and is communicated with a lower port of the first air passage, the atomization device comprises a tobacco tar penetrating piece, a heating component and a base, the tobacco tar penetrating piece is arranged at the lower port of the oil bin inner cavity, the heating component is arranged below the tobacco tar penetrating piece, the base is positioned right below the tobacco tar penetrating piece, a space avoiding groove is formed in the position of the base corresponding to the tobacco tar penetrating piece, a space is formed between the space avoiding groove and the tobacco tar penetrating piece, an air inlet hole is formed in the space avoiding groove, a condensate containing groove is formed in the base and is communicated with the lower port of the first air passage, the condensate containing groove is lower than the space avoiding groove, and the air inlet hole, the space avoiding groove and the condensate containing groove are connected with a second air passage.

Description

Novel electronic cigarette

Technical Field

The utility model relates to the field of electronic cigarettes, in particular to a novel electronic cigarette.

Background

The electronic cigarette has become a mature smoking substitute on the market, in the electronic cigarette, the atomizer is powered by the battery, so that the atomizer heats the tobacco liquid to generate smoke for users to inhale, in the process, the smoke passes through the air passage and is condensed to generate condensate, the condensate accumulated to a certain extent flows along the inner wall of the air passage in the opposite direction of smoke output under the action of gravity and passes through the heating wire, and when the heating wire heats again, the condensate contacted with the heating wire is heated to form condensate aerosol particles, so that more condensate aerosol particles are doped in the smoke to influence smoking taste.

Disclosure of Invention

The utility model aims to provide a novel electronic cigarette to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a novel electronic cigarette, includes oil storehouse, suction nozzle and atomizing device, be equipped with oil storehouse inner chamber and first air flue in the oil storehouse, the suction nozzle is installed on the oil storehouse and is linked together with the last port of first air flue, atomizing device installs under the oil storehouse and is linked together with the lower port of first air flue, atomizing device includes tobacco tar infiltration spare, heating element and base, the lower port at oil storehouse inner chamber is installed to the tobacco tar infiltration spare, heating element installs under the tobacco tar infiltration spare, the base is located the tobacco tar infiltration spare under, the base has been seted up in the position department that corresponds the tobacco tar infiltration spare and has been kept away the empty groove, keep away and have the interval between empty groove and the tobacco tar infiltration spare, the inlet port has been seted up on the empty groove, condensate holding tank has been seted up to the base, condensate holding tank and keep away empty groove intercommunication and with the lower port intercommunication of first air flue, condensate holding tank is less than the empty groove, condensate air flue, empty groove and condensate holding tank link into the second.

Further, a plurality of capillary through holes penetrating in the vertical direction are formed in the tobacco tar penetrating piece, and a bowl-shaped groove is formed in the upper portion of the tobacco tar penetrating piece.

Further, the heating component comprises a heat conducting piece, an anode metal heating rod and a cathode metal heating rod, wherein the heat conducting piece is arranged below the tobacco tar penetrating piece and connected with the anode metal heating rod and the cathode metal heating rod, and the anode metal heating rod and the cathode metal heating rod are inserted under the base.

Further, the heat conduction piece includes conducting strip, first heat conduction pin and second heat conduction pin, the conducting strip inlays and establishes under tobacco tar infiltration piece, the upper end of first heat conduction pin and second heat conduction pin all sets firmly under the conducting strip, first heat conduction pin and second heat conduction pin all pass the base downwards and spiral winding respectively on anodal metal heating rod and negative pole metal heating rod.

Further, the heat conducting strip comprises a first connecting end piece, a roundabout-shaped piece and a second connecting end piece, wherein the roundabout-shaped piece is fixedly arranged between the first connecting end piece and the second connecting end piece, and the upper ends of the first heat conducting pin and the second heat conducting pin are respectively fixedly arranged below the first connecting end piece and the second connecting end piece.

Further, the device also comprises a shell and an atomization control device, wherein the atomization control device and the oil bin are both arranged on the shell, and the atomization device is electrically connected with the atomization control device.

Further, the atomization control device comprises a battery, a circuit board, keys and an elastic reset mechanism which are all installed in the shell, the battery is electrically connected with the circuit board, the circuit board is electrically connected with the atomization device, key installation holes are formed in the shell, the key installation holes are sleeved outside the keys, the elastic reset mechanism is located in the shell and installed between the shell and the keys, and a push type switch is arranged on the circuit board and is oppositely arranged with the keys.

Further, the length of the key is at least equal to two-thirds of the height of the housing, and the width of the key is at least equal to two-thirds of the width of the housing.

Further, still include last sealing plug, go up the sealing plug and install between suction nozzle and oil storehouse, go up the sealing plug and seted up the through-hole, the last port intercommunication of through-hole and first air flue, it includes from down last shape stopper, cover plate and the boss that sets gradually, be equipped with sealing rib on the perisporium along with shape stopper, along with shape stopper is located the last port of oil storehouse inner chamber, follow shape and pass through sealing rib sealing connection between the last port of stopper and oil storehouse inner chamber, the cover plate laminating is on the last port of first air flue and oil storehouse inner chamber, boss cartridge is in the suction nozzle, the through-hole runs through boss and cover plate.

Further, a concave gap is formed between the first air passage and the top of the oil bin inner cavity, the first air passage is communicated with the oil bin inner cavity through the concave gap, a bulge matched with the concave gap is arranged between the shape-following plug and the cover plate, and the bulge is filled in the concave gap.

The utility model has the beneficial effects that:

when the smoke-absorbing device works, tobacco tar in the inner cavity of the oil bin downwards permeates into the tobacco tar permeation piece, the tobacco tar permeation piece is heated through the heating component, so that the tobacco tar in the tobacco tar permeation piece is atomized, smog formed by atomization is released in the second air passage, then under the action of sucking the suction nozzle by a user, air enters the second air passage from the air inlet hole and passes through the second air passage, the first air passage and the inside of the suction nozzle along with the smog, finally enters the mouth of the user, in the process, the smog is condensed and condensate is generated, most of the condensate finally flows into the condensate accommodating groove along the inner wall of the first air passage under the action of gravity to be collected, and the condensate is effectively prevented from flowing into the second air passage to be contacted with the heating component, so that the condensate contacted with the heating component is prevented from being heated into condensate aerosol, the quantity of condensate aerosol particles is reduced, and the smoking taste is greatly improved.

Drawings

Fig. 1: the utility model is a perspective schematic view.

Fig. 2: the utility model is a partial schematic perspective view.

Fig. 3: the utility model is an exploded schematic diagram.

Fig. 4: the utility model is a schematic cross-sectional view.

Fig. 5: the oil bin of the utility model is a schematic perspective view.

Fig. 6: the oil bin of the utility model is a schematic perspective view from bottom to top.

Fig. 7: the suction nozzle of the utility model is a perspective view from bottom to top.

Fig. 8: the atomization device of the utility model is a schematic perspective view from bottom to top.

Fig. 9: fig. 8 is a partial perspective view.

Fig. 10: the utility model provides a perspective schematic view of a base.

Fig. 11: a schematic perspective view of the housing of the present utility model.

Fig. 12: a schematic perspective view of the upper sealing plug of the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to fig. 1 to 9, the novel electronic cigarette comprises a bin 1, a suction nozzle 2 and an atomization device 3, wherein a bin inner cavity 1-1 and a first air passage 1-2 are arranged in the bin 1, the suction nozzle 2 is arranged on the bin 1 and is communicated with an upper port of the first air passage 1-2, the suction nozzle 2 and the bin 1 are connected through a buckle, the atomization device 3 is arranged below the bin 1 and is communicated with a lower port of the first air passage 1-2, the atomization device 3 comprises a T-shaped tobacco tar penetrating member 31, a heating component 32 and a base 33, the tobacco tar penetrating member 31 is made of ceramics, the tobacco tar penetrating member 31 is arranged at a lower port of the bin inner cavity 1-1, tobacco tar in the bin inner cavity 1-1 can be conveniently used up, the tobacco tar utilization rate is high, the heating component 32 is arranged below the tobacco tar penetrating member 31, the base 33 is located right below the tobacco tar penetrating member 31, a space avoiding groove 33-1 is formed at a position of the base 33 corresponding to the tobacco tar penetrating member 31, the tobacco tar penetrating member 31 is attached to the space avoiding groove 33-1, a space is provided between the space avoiding groove 33-1 and the tobacco tar penetrating member 31 in the up-down direction, an air inlet hole 33-2 is formed at the bottom of the space avoiding groove 33-1, in this embodiment, a plurality of air inlet holes 33-2 are formed, a condensate accommodating groove 33-3 is formed at the base, the condensate accommodating groove 33-3 is communicated with the side of the space avoiding groove 1 and is communicated with the lower port of the first air passage 1-2, and the condensate accommodating groove 33-3 is connected to the second air passage 33-1, the space avoiding groove 33-2, the condensate accommodating groove 33-1 and the condensate accommodating groove 33-3 The air avoidance groove 33-1 and the air inlet hole 33-2 are connected into a second air passage;

the oil bin inner cavity 1-1 is used for containing tobacco tar; the tobacco tar penetrating member 31 is used for sucking tobacco tar in the oil bin cavity 1-1 and for enabling external air to pass through the tobacco tar penetrating member 31 to enter the oil bin cavity 1-1 when negative pressure is formed in the oil bin cavity 1-1 so as to keep air pressure balance in the oil bin cavity 1-1; the heating element 32 is used for heating the tobacco tar penetrating member 31 to atomize the tobacco tar in the tobacco tar penetrating member 31 to release the smoke to the second air passage, and the condensate accommodating groove 33-3 is used for accommodating condensate.

Referring to fig. 4, a plurality of capillary through holes penetrating in the vertical direction are formed in the tobacco tar permeable member 31, and a bowl-shaped groove 31-1 is formed in the upper portion of the tobacco tar permeable member 31. Before the utility model is used, the air pressure in the oil bin inner cavity 1-1 is balanced with the external air pressure, so that the tobacco tar sucked into the capillary through holes can not automatically drop downwards to cause oil leakage, and when the tobacco tar in the oil bin inner cavity 1-1 is about to be used up, the residual tobacco tar can be conveniently collected through the bowl-shaped groove 31-1, so that the waste of the tobacco tar is avoided.

Referring to fig. 8, the heating component 32 includes a heat conducting member 321, a positive metal heating rod 322 and a negative metal heating rod 323, wherein the heat conducting member 321 is installed below the tobacco tar penetrating member 31 and wound on the positive metal heating rod 322 and the negative metal heating rod 323, and the positive metal heating rod 322 and the negative metal heating rod 323 are both inserted under the base 33.

Referring to fig. 9, the heat conducting member 321 includes a heat conducting sheet 3211, a first heat conducting pin 3212 and a second heat conducting pin 3213, the heat conducting sheet 3211 is embedded under the tobacco tar penetrating member 31, the upper ends of the first heat conducting pin 3212 and the second heat conducting pin 3213 are both fixed under the heat conducting sheet 3211, and the first heat conducting pin 3212 and the second heat conducting pin 3213 both pass through the base 33 downward and are respectively spirally wound on the positive metal heating rod 322 and the negative metal heating rod 323.

Compared with the existing spiral heat conducting filaments, the heat conducting fin 3211 has larger heating area and good heat transfer effect, and can heat the tobacco tar penetrating piece 31 more fully, so that atomization is more complete, the smoke amount is increased, and the taste is improved.

Referring to fig. 9, a heat conducting strip 3211 includes a first connecting end piece 3211-1, a circuitous strip 3211-2 and a second connecting end piece 3211-3, the circuitous strip 3211-2 is fixedly disposed between the first connecting end piece 3211-1 and the second connecting end piece 3211-3, and upper ends of the first heat conducting pins 3212 and the second heat conducting pins 3213 are respectively fixedly disposed under the first connecting end piece 3211-1 and the second connecting end piece 3211-3.

Referring to fig. 3 and 4, the smoke filter further comprises a lower sealing sleeve 34 made of silica gel, the lower sealing sleeve 34 is sleeved outside the upper portion of the smoke filter 31 and in the lower port 1-3 of the oil chamber inner cavity 1-1, and a sealing ring 34-1 with an integrated structure is arranged on the periphery of the lower sealing sleeve 34. The sealing connection between the periphery of the tobacco tar permeable member 31 and the lower port 1-3 of the interior chamber 1-1 of the oil sump is achieved by the lower sealing sleeve 34.

Referring to fig. 1 and 3, the device further comprises an L-shaped housing 4 and an atomization control device 5, wherein the atomization control device 5 and the oil sump 1 are mounted on the housing 4, and the atomization device 3 is electrically connected with the atomization control device 5 and is used for controlling the atomization device 3 to start or stop atomization work.

Referring to fig. 1 and 11, the housing 4 includes a face shell 41 and a bottom shell 42, the face shell 41 and the bottom shell 42 are connected by a buckle, a key mounting hole 4-1 is formed on one side of the housing 4 along the X axial direction, an oil bin mounting groove 4-2 is formed on the other side of the housing 4 along the X axial direction, a battery accommodating position 4-3 and a circuit board fixing support are arranged in the housing 4, the oil bin 1 is inserted into the oil bin mounting groove 4-2, the oil bin 1 is connected with the oil bin mounting groove 4-2 by the buckle, an avoidance hole site is formed at the bottom of the oil bin mounting groove 4-2, and the avoidance hole site is used for preventing the oil bin mounting groove 4-2 from interfering with an anode metal heating rod 322, a cathode metal heating rod 323, a first heat conduction pin 3212 and a second heat conduction pin 3213 of the atomizing device 3.

Referring to fig. 4 and 11, the atomizing control device 5 includes a battery, a circuit board 51, a key 52 and an elastic reset mechanism 53 all mounted in the housing 4, the battery is fixed in the battery accommodating position 4-3 and electrically connected with the circuit board 51, the circuit board 51 is fixed on the circuit board fixing bracket, the circuit board 51 is electrically connected with the positive metal heating rod 322 and the negative metal heating rod 323 of the atomizing device 3 through a first wire and a second wire respectively, the key mounting hole 4-1 is sleeved outside the key 52, the key mounting hole 4-1 is used for limiting the stroke of the key 52 moving outwards along the X axis, the elastic reset mechanism 53 is located in the housing 4 and mounted between the housing 4 and the key 52, when a user stops applying external force to the key 52, the elastic reset mechanism 53 drives the key 52 to perform reset movement along the X axis through elastic force, a push switch 511 is arranged on the circuit board 51, and the push switch 511 and the key 52 are arranged oppositely.

Referring to fig. 1 and 3, the length of the key 52 along the Z-axis is at least equal to two thirds of the height H of the housing 4, and the width of the key 52 along the Y-axis is at least equal to two thirds of the width W of the housing 4, so that the key 52 finally forms a large key structure, which is convenient for the user to press the key 52 and has strong hand feeling experience.

Referring to fig. 4, the elastic restoring mechanism 53 includes a spring mount 531, a spring 532 and a spring support 533, the spring mount 531 is fixed on the key 52, and the spring 532 is mounted between the spring mount 531 and the spring support 533.

Referring to fig. 4, the spring mount 531 includes a first stop collar 5311 and a second stop collar 5312 that are coaxially disposed, the first stop collar 5311 and the second stop collar 5312 are both fixedly disposed on the key 52, one end of the spring 532 is sleeved in the first stop collar 5311 and in the second stop collar 5312, and the other end of the spring 532 is attached to the spring support 533.

Referring to fig. 4, the spring supporting member 533 is a supporting plate, and the spring supporting member 533 is fixedly disposed on an inner side wall of the housing 4.

Referring to fig. 4, in the present embodiment, two sets of spring mounting seats 531 are provided and distributed in the up-down direction, two springs 532 are provided and distributed in the up-down direction, the upper springs 532 are mounted between the upper spring mounting seats 531 and the spring supports 533, and the lower springs 532 are mounted between the lower spring mounting seats 531 and the circuit board 51.

Referring to fig. 3, 4 and 12, the device further comprises an upper sealing plug 6 made of silica gel, the upper sealing plug 6 is installed between the suction nozzle 2 and the oil bin 1, the upper sealing plug 6 is provided with a through hole 6-1, the through hole 6-1 is communicated with an upper port of the first air channel 1-2, the upper sealing plug 6 comprises a follow-up plug 61, a cover plate 62 and a boss 63 which are sequentially arranged from bottom to top, a sealing rib 61-1 is arranged on a peripheral wall of the follow-up plug 61, the follow-up plug 61 is located in an upper port of the oil bin inner cavity 1-1, the follow-up plug 61 is in sealing connection with the upper port of the oil bin inner cavity 1-1 through the sealing rib 61-1, the cover plate 62 is attached to the upper ports of the first air channel 1-2 and the oil bin inner cavity 1-1, the boss 63 is inserted into the suction nozzle 2, and the through hole 6-1 penetrates through the boss 63 and the cover plate 62.

Referring to fig. 5 and 12, a concave notch 1-4 is formed between the first air passage 1-2 and the top of the oil sump cavity 1-1, the first air passage 1-2 is communicated with the oil sump cavity 1-1 through the concave notch 1-4, a protrusion 64 adapted to the concave notch 1-4 is formed between the following plug 61 and the cover plate 62, and the protrusion 64 is filled in the concave notch 1-4.

When the upper sealing plug 6 is assembled with the oil bin 1, tobacco tar is arranged in the oil bin inner cavity 1-1, the upper sealing plug 6 is manually driven to enable the shape-following plug 61 to be plugged into the upper port of the oil bin inner cavity 1-1 downwards until the cover plate 62 is attached to the upper ports of the first air passage 1-2 and the oil bin inner cavity 1-1, namely, the assembly is in place, in the process, gas in the oil bin inner cavity 1-1 is discharged outwards through the concave notch 1-4, the internal pressure and the external pressure of the oil bin inner cavity 1-1 are always balanced, when the assembly is in place, the bulge 64 is filled in the concave notch 1-4, and by arranging the concave notch 1-4 and the bulge 64, the gas in the oil bin inner cavity 1-1 can be prevented from being compressed in the assembly process of the upper sealing plug 6 and the oil bin 1, so that the internal pressure of the oil bin inner cavity 1-1 is higher than the external pressure, and then the internal pressure is caused to extrude the tobacco tar out of the tobacco tar penetrating piece 31, and the situation of oil leakage is caused.

Referring to fig. 4 and 7, the suction nozzle 2 is provided with a cover 21 and a hollow rod 22 therein, the cover 21 is attached to the cover 62 and is connected to the through hole 61, the hollow rod 22 is vertically penetrated and is located in the cover 21, the lower port of the hollow rod 22 is connected to the cover 21, the upper port of the hollow rod 22 is connected to the outside, and the through hole 61, the cover 21 and the hollow rod 22 are connected to form a third air passage.

Working principle:

when smoking is needed, a user presses a push switch 511 through a key 52 to realize that an atomization control device 5 starts an atomization device 3, an electric arc is generated between an anode metal heating rod 322 and a cathode metal heating rod 323 to realize heating of the anode metal heating rod 322 and the cathode metal heating rod 323, heat generated by the anode metal heating rod 322 and the cathode metal heating rod is respectively conducted to a heat conducting fin 3211 through a first heat conducting pin 3212 and a second heat conducting pin 3213, the heat conducting fin 3211 heats a smoke penetrating piece 31 through a plurality of capillary through holes, so that the smoke in the smoke penetrating piece 31 is atomized, the smoke formed by atomization is released in the second air passage, then under the action of sucking through a suction nozzle 2 by the user, air enters the second air passage from the air inlet 33-2, passes through the second air passage, the first air passage 1-2 and the third air passage sequentially along with the smoke, and finally enters an air inlet hole of the user;

the second air passage, the first air passage 1-2 and the third air passage are respectively the initial section, the middle section and the final section of the smoke transmission path, the smoke is transmitted backwards, the temperature of the smoke is lower, so that the condensation phenomenon of the smoke is more obvious, therefore, the condensation phenomenon of the smoke is mostly concentrated in the first air passage 1-2 and the third air passage, namely, the first air passage 1-2 and the third air passage become main areas for generating condensate, the condensate finally flows into the condensate accommodating groove 33-3 along the inner wall of the first air passage 1-2 under the action of gravity to be collected, the condensate is effectively prevented from flowing into the second air passage to be contacted with the heat conducting piece 321, the condition that the condensate contacted with the heat conducting piece 321 is heated into condensate aerosol is avoided, the quantity of the condensate aerosol particles is reduced, and the smoking taste is greatly improved.

The above description should not be taken as limiting the scope of the utility model, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (10)

1. Novel electron cigarette, its characterized in that: including oil storehouse, suction nozzle and atomizing device, be equipped with oil storehouse inner chamber and first air flue in the oil storehouse, the suction nozzle is installed on the oil storehouse and is linked together with the last port of first air flue, atomizing device installs under the oil storehouse and is linked together with the lower port of first air flue, atomizing device includes tobacco tar infiltration spare, heating element and base, the tobacco tar infiltration spare is installed at the lower port of oil storehouse inner chamber, heating element installs under the tobacco tar infiltration spare, the base is located the tobacco tar infiltration spare under, the base corresponds the position department of tobacco tar infiltration spare and has seted up and keep away the empty pocket, keep away and have the interval between the tobacco tar infiltration spare, the inlet port has been seted up on the empty pocket, the condensate holding tank has been seted up with keeping away the empty pocket intercommunication and is linked together with the lower port of first air flue, the condensate holding tank is less than keeping away the empty pocket, inlet port, keep away empty pocket and condensate holding tank link into the second air flue.

2. The novel electronic cigarette of claim 1, wherein: a plurality of capillary through holes penetrating along the up-down direction are formed in the tobacco tar penetrating piece, and a bowl-shaped groove is formed in the upper portion of the tobacco tar penetrating piece.

3. The novel electronic cigarette of claim 1, wherein: the heating component comprises a heat conducting piece, an anode metal heating rod and a cathode metal heating rod, wherein the heat conducting piece is arranged below the tobacco tar penetrating piece and connected with the anode metal heating rod and the cathode metal heating rod, and the anode metal heating rod and the cathode metal heating rod are inserted under the base.

4. The novel electronic cigarette of claim 3, wherein: the heat conduction piece comprises a heat conduction sheet, a first heat conduction pin and a second heat conduction pin, the heat conduction sheet is embedded under the tobacco tar permeation piece, the upper ends of the first heat conduction pin and the second heat conduction pin are fixedly arranged under the heat conduction sheet, and the first heat conduction pin and the second heat conduction pin penetrate through the base downwards and are respectively spirally wound on the positive metal heating rod and the negative metal heating rod.

5. The novel electronic cigarette of claim 4, wherein: the heat conducting strip comprises a first connecting end piece, a roundabout piece and a second connecting end piece, wherein the roundabout piece is fixedly arranged between the first connecting end piece and the second connecting end piece, and the upper ends of the first heat conducting pin and the second heat conducting pin are respectively fixedly arranged below the first connecting end piece and the second connecting end piece.

6. The novel electronic cigarette of claim 1, wherein: still include shell and atomizing controlling means, atomizing controlling means and oil storehouse are all installed on the shell, atomizing device is connected with atomizing controlling means electricity.

7. The novel electronic cigarette of claim 6, wherein: the atomization control device comprises a battery, a circuit board, keys and an elastic reset mechanism, wherein the battery, the circuit board, the keys and the elastic reset mechanism are all arranged in the shell, the battery is electrically connected with the circuit board, the circuit board is electrically connected with the atomization device, key installation holes are formed in the shell, the key installation holes are sleeved outside the keys, the elastic reset mechanism is arranged in the shell and between the shell and the keys, and a push type switch is arranged on the circuit board and is arranged opposite to the keys.

8. The novel electronic cigarette of claim 7, wherein: the length of the key is at least equal to two thirds of the height of the shell, and the width of the key is at least equal to two thirds of the width of the shell.

9. The novel electronic cigarette of claim 1, wherein: still include the sealing plug, go up the sealing plug and install between suction nozzle and oil storehouse, go up the sealing plug and seted up the through-hole, the last port intercommunication of through-hole and first air flue, it includes along with shape stopper, cover plate and the boss that upwards set gradually from down to go up the sealing plug, be equipped with sealing rib on the perisporium along with shape stopper, along with shape stopper is located the last port of oil storehouse inner chamber, along with shape stopper and oil storehouse inner chamber go up through sealing rib sealing connection between the port, the cover plate laminating is on the last port of first air flue and oil storehouse inner chamber, boss cartridge is in the suction nozzle, the through-hole runs through boss and cover plate.

10. The novel electronic cigarette of claim 9, wherein: a concave gap is formed between the first air passage and the top of the oil bin inner cavity, the first air passage is communicated with the oil bin inner cavity through the concave gap, a bulge matched with the concave gap is arranged between the shape follow plug and the cover plate, and the bulge is filled in the concave gap.