CN111493365A - Atomizer for storing condensed water, aerosol generating device and assembling method - Google Patents

Abstract

The invention relates to the field of aerosol generating devices, and particularly discloses an atomizer for storing condensed water, which comprises: the oil tank is provided with an oil cavity, an oil filling hole and an oil plug above the oil tank, a base connected with the bottom of the oil tank, a water storage cavity in the base, a base air inlet communicated with the water storage cavity, an air adjusting ring installed on the base, an atomizing core installed in the base, and a first sealing element and a second sealing element between the atomizing core and the base. According to the invention, the concave water storage cavity is arranged between the air inlet hole of the atomizing core and the air inlet hole of the atomizer, so that cooling water in the atomizing core and condensed water at the air inlet hole of the atomizer can be collected simultaneously, and the cooling water can be prevented from leaking outwards in the using process; and the water storage cavity is integrally formed, and the atomizing core and the atomizer are well sealed through a sealing piece, so that water seepage and oil leakage at the bottom of the atomizer and mutual air blowby inside the atomizer can be effectively prevented.

Description

Atomizer for storing condensed water, aerosol generating device and assembling method

Technical Field

The invention belongs to the field of aerosol generating devices, and particularly relates to an atomizer for storing condensed water, an aerosol generating device and an assembling method.

Background

Electronic cigarettes, emerging smoking articles, have gradually replaced the traditional cigarette status and become more and more accepted by the smoking consumer population. The essence of electron cigarette is an aerosol generating device, is connected with the atomizer through the host computer, and the battery in the host computer makes the heat-generating body of atomizing core in the atomizer generate heat, atomizes into the aerosol with the oil in the oil storehouse, and when the smoker breathes in, thereby outside air and aerosol can mutually mix into the flue gas and inhaled by the smoker.

Because the atomizing core belongs to the vulnerable and consumable part, the atomizing core needs to be replaced and cleaned frequently when the electronic cigarette is used. Most of the existing atomizer atomizing cores are replaced from the bottom of the atomizer, and the air channel is used for air intake from the bottom. When atomizing, there is great difference in temperature inside and outside the atomizer, hot smog meet cold outer wall and will form the comdenstion water in the air inlet department of atomizer, and the atomizing smog of atomizer can also can produce the comdenstion water in the air flue of atomizing core along with the air flue flows in addition, and two strands of comdenstion water can be directly during the bottom infiltration host computer from the atomizer, cause the damage of electrode and host computer circuit.

Disclosure of Invention

The invention aims to provide an atomizer for storing condensed water, an aerosol generating device and an assembling method, so that the defect that the existing atomizer is damaged because the condensed water in an atomizing core is easy to directly permeate into a main machine from the bottom of the atomizer when in work is overcome.

To achieve the above object, the present invention provides an atomizer for storing condensed water, comprising: the oil bin is internally provided with an oil cavity, a first end of the oil bin is provided with a suction nozzle, the suction nozzle is provided with an air outlet hole, the oil cavity is communicated with the outside of the oil bin through the air outlet hole, the first end of the oil bin is also provided with an oil filling hole communicated with the oil cavity, and the oil filling hole is sealed through an oil plug; the oil tank comprises a base, a water storage cavity is arranged in the base, a first end of the base is provided with a first atomizing core mounting hole communicated with the first end of the water storage cavity, a second end of the base is provided with a second atomizing core mounting hole, the first end of the second atomizing core mounting hole extends into the water storage cavity and has a certain distance with the second end of the water storage cavity, the second end of the second atomizing core mounting hole extends outwards from the second end of the base, a base air inlet hole is formed in the side face of the base and is communicated with the first end of the water storage cavity, the first end of the base is connected with the second end of the oil tank, and the first atomizing core mounting hole can be communicated with the oil cavity; the air adjusting ring is sleeved on the outer side of the base in a rotatable mode, and is provided with an air adjusting hole, wherein when the air adjusting ring rotates, the relative position of the air adjusting hole and the air inlet hole of the base can be changed, so that the air passing amount is changed; the atomizing core is arranged in the oil cavity, the first end of the atomizing core is butted with the air outlet hole and is provided with an atomizing core air outlet, the second end of the atomizing core is provided with an atomizing core air inlet hole, the atomizing core air inlet hole is communicated with the water storage cavity, and the position of the atomizing core air inlet hole is higher than that of the second end of the water storage cavity; the second end of the atomization core is sleeved in the first atomization core mounting hole and the second atomization core mounting hole through a first sealing piece and a second sealing piece respectively.

Preferably, in the above technical scheme, one end of the oil chamber extends outward from the second end of the oil bin to form an oil chamber opening, and the oil chamber opening is provided with a first convex ring.

Preferably, in the above technical scheme, the first end of suction nozzle is followed the first end of oil bin outwards extends, the second end of suction nozzle stretches into to the oil intracavity, the first end of atomizing core pass through the trachea with the second end of suction nozzle is connected, the trachea is equipped with the trachea and crosses the gas pocket, the trachea cross the gas pocket can with the venthole with atomizing core gas outlet is linked together, the first end of atomizing core with be equipped with the third sealing member between the trachea.

Preferably, among the above-mentioned technical scheme, the first end of atomizing core is equipped with the third seal ring groove, the second end of atomizing core is equipped with first seal ring groove and second seal ring groove, atomizing core inlet port is located first seal ring groove with between the second seal ring groove, be equipped with in the first seal ring inslot first sealing member, be equipped with in the second seal ring inslot the second sealing member, be equipped with in the third seal ring inslot the third sealing member.

Preferably, in the above technical solution, the first sealing element is a first sealing ring, the second sealing element is a second sealing ring, the third sealing element is a third sealing ring, and the first sealing ring, the second sealing ring and the third sealing ring are all O-rings.

Preferably, in the above technical solution, the base is formed by assembling an upper base and a lower base.

Preferably, among the above-mentioned technical scheme, go up the first end of base through first annular with first bulge loop looks adaptation, thereby fix oil pocket department, first atomizing core mounting hole is established go up in the base, the terminal surface of going up the second end of base is equipped with air inlet duct and second bulge loop, the air inlet duct is followed the side of going up the base outwards extends and forms the base inlet port, the first end of base down pass through the second annular with second bulge loop looks adaptation, thereby with the second end of going up the base is connected, be equipped with down in the base the water storage chamber with the second atomizing core mounting hole.

Preferably, in the above technical scheme, the circumference of going up the base is opened has fourth sealed annular, be equipped with the ring sealing washer of transferring gas in the fourth sealed annular, the ring of transferring gas passes through it overlaps to transfer gas ring sealing washer on going up the base.

In order to achieve the above object, in another aspect, the present invention further provides an aerosol generating device including the above atomizer for storing condensed water, further including: a magnet provided in the lower base; the electrode base is internally provided with a positive electrode and a negative electrode, the first end of the electrode base can be connected with the lower base through a magnet ring, and the second end of the electrode base is connected with a host.

In order to achieve the above object, in another aspect, the present invention further provides an assembling method of an atomizer for storing condensed water, including the atomizer for storing condensed water as described above, including the steps of:

s1: installing a gas regulating ring: installing the air adjusting ring sealing ring on the upper base, and then sleeving the air adjusting ring;

s2: installing a lower base: buckling the lower base and the upper base, and welding the lower base and the upper base together through ultrasonic welding;

s3: installing an oil bin: welding the oil bin and the upper base together through ultrasonic welding;

s4: installing an air pipe: the air pipe extends into the oil bin through the second atomization core mounting hole and is sleeved and pressed on the suction nozzle;

s5: installing an oil plug: inserting the oil plug into the oil filling hole;

s6: installing an atomization core: and the first sealing ring, the second sealing ring and the third sealing ring are respectively installed on the atomization core, and then the atomization core is fixedly installed in the oil cavity through the second atomization core installation hole in an inserting manner.

Compared with the prior art, the invention has the following beneficial effects:

1. in the base, the water storage cavity which is integrally formed and is recessed downwards is arranged between the air inlet hole of the atomizing core and the air inlet hole of the atomizer, so that condensed water in the atomizing core and the condensed water in the air inlet hole of the atomizer can be collected simultaneously, and the condensed water is prevented from directly leaking out of the air inlet hole of the atomizer when the atomizer works.

2. According to the invention, the water storage cavity is integrally formed, and the fixing part of the atomizing core and the atomizer is provided with the first sealing element, the second sealing element and the third sealing element, so that the sealing property of the water storage cavity and the sealing property between the water storage cavity and the oil cavity and the atomizing core are ensured, water and oil seepage from the bottom of the atomizer are avoided, and mutual air leakage among air passages is prevented.

3. The oil filling hole of the oil bin is formed in the top of the oil bin, so that the risk of smoke oil leakage in the oil bin when the atomizing core is in an inclined or horizontal state can be effectively reduced.

Drawings

Fig. 1 is a sectional view of an atomizer for storing condensed water according to the present invention.

Fig. 2 is a three-dimensional sectional view of an atomizer for storing condensed water according to the present invention.

Fig. 3 is a sectional view of the oil sump.

Fig. 4 is a cross-sectional view of the base.

Fig. 5 is a structural view of the upper and lower covers.

Fig. 6 is a structural view of the register ring.

Fig. 7 is a three-dimensional cross-sectional view of an atomizing core.

Fig. 8 is a schematic flow direction diagram of the air flow in the atomizer for storing condensed water according to the present invention.

Fig. 9 is a cross-sectional view of the atomizer and electrode mount.

Fig. 10 is an exploded view of the atomizer and electrode mount.

Fig. 11 is a flow chart illustrating an assembling method of the atomizer for storing condensed water according to the present invention.

Description of the main reference numerals:

1-an oil bin, 11-an oil cavity, 12-a suction nozzle, 13-an air outlet hole, 14-an oil filling hole, 15-an oil plug, 16-an oil cavity opening, 17-a first convex ring and 18-an air pipe mounting hole;

2-base, 21-water storage cavity, 22-first atomization core mounting hole, 23-second atomization core mounting hole, 24-base air inlet hole, 25-upper base, 26-lower base, 27-first ring groove, 28-upper air inlet channel, 29-second convex ring, 210-second ring groove, 211-lower base boss, 212-fourth sealing ring groove;

3-air adjusting ring, 31-air adjusting hole, 32-anti-skid line and 33-air adjusting ring sealing ring;

4-atomizing core, 41-atomizing core air outlet, 42-atomizing core air inlet, 43-third sealing ring groove, 44-first sealing ring groove, 45-second sealing ring groove and 46-atomizing core air passage;

5-trachea, 51-trachea poroplasty;

6-a first sealing ring, 7-a second sealing ring and 8-a third sealing ring;

9-electrode base, 91-anode, 92-cathode, 93-magnet ring, and 94-stud;

10-magnet.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

As shown in fig. 1 to 7, the atomizer for storing condensed water in this embodiment includes: the oil tank comprises an oil bin 1, an oil cavity 11, a suction nozzle 12, an air outlet hole 13, an oil filling hole 14, an oil plug 15, an oil cavity opening 16, a first convex ring 17, an air pipe mounting hole 18, a base 2, a water storage cavity 21, a first atomizing core mounting hole 22, a second atomizing core mounting hole 23, a base air inlet hole 24, an upper base 25, a lower base 26, a first annular groove 27, an upper air inlet channel 28, a second convex ring 29, a second annular groove 210, a lower base boss 211, a fourth sealing annular groove 212, an air adjusting ring 3, an air adjusting hole 31, an anti-skid thread 32, an air adjusting ring sealing ring 33, an atomizing core 4, an atomizing core air outlet 41, an atomizing core air inlet hole 42, a third sealing annular groove 43, a first sealing annular groove 44, a second sealing annular groove 45, an atomizing core air channel 46, an air pipe 5, an air pipe air passing hole 51, a first sealing ring 6, a second sealing ring 7 and.

An oil cavity 11 is arranged in the oil bin 1, the oil cavity 11 extends outwards from the bottom end of the oil bin 1 to form an oil cavity opening 16, and a first convex ring 17 is arranged at the bottom end of the oil bin 1 and surrounds the oil cavity opening 16; a suction nozzle 12 is arranged at the first end of the oil bin 1, the bottom end of the suction nozzle 12 extends into the oil cavity 11 from the top end of the oil cavity 11, the top end of the suction nozzle 12 protrudes and extends outwards from the top end of the oil bin 1, an air outlet hole 13 is formed in the center of the suction nozzle 12, and the oil cavity 11 is communicated with the outside of the oil bin 1 through the air outlet hole 13; oil filling holes 14 are further formed in the first end of the oil bin 1 and on two sides of the suction nozzle 12, the top ends of the oil cavities 11 are communicated with the outside of the oil bin 1 through the oil filling holes 14, and an oil plug 15 is plugged into each oil filling hole 14 and sealed through the oil filling hole 14; an air pipe mounting hole 18 is further formed at the bottom end of the suction nozzle 12, and the axis of the air pipe mounting hole 18 coincides with the axis of the air outlet hole 13 and is recessed into the suction nozzle 12.

One end of the air pipe 5 is inserted into the air pipe mounting hole 18 and is connected with the bottom end of the suction nozzle 12, an air pipe passing hole 51 is opened in the suction nozzle 5, one end of the air pipe passing hole 51 extends outwards from the top end of the air pipe 5 and is butted with the air outlet hole 13, and the other end of the air pipe passing hole 51 extends outwards from the bottom end of the air pipe 5.

The base 2 is formed by mutually assembling an upper base 25 and a lower base 26, the top end of the upper base 25 is provided with a first ring groove 27, the first ring groove 27 is matched with the first convex ring 17, the upper base 25 and the oil bin 1 can be connected together by mutually assembling the first ring groove 27 and the first convex ring 17, the middle part of the upper base 25 is provided with a first atomizing core mounting hole 22, the end surface of the bottom end of the upper base 25 is provided with two upper air inlet channels 28 and a second convex ring 29, the two upper air inlet channels 28 extend outwards from the center of the end surface of the bottom end of the upper base 25 to the side surface of the upper base 25, and respectively form base air inlet holes 24 on the side surface; the top end of the lower base 26 is provided with a second annular groove 210, the second annular groove 210 is matched with the second convex ring 29, and the lower base 26 can be connected with the bottom end of the upper base 25 through the mutual matching of the second annular groove 210 and the second convex ring 29; a water storage cavity 21 is arranged in the lower base 25, a cavity opening of the water storage cavity 21 extends outwards from the top end of the lower base 26, a lower base boss 211 is arranged in the lower base 25, the top end of the lower base boss 211 extends towards the inside of the water storage cavity 21 and has a certain distance with the bottom of the water storage cavity 21, a second atomizing core mounting hole 23 is arranged in the lower base boss 211, two ends of the second atomizing core mounting hole 23 respectively extend outwards from two ends of the lower base boss 211, and a certain gap is formed between the top end of the lower base boss 211 and the bottom end of the first atomizing core mounting hole 22; a fourth sealing ring groove 212 is arranged on the side surface of the upper base 25 and above the base air inlet hole 24, an air adjusting ring sealing ring 33 is sleeved in the fourth sealing ring groove 212, and the air adjusting sealing ring 33 is an O-shaped ring.

The air adjusting ring 3 is sleeved on the side surface of the upper base 25 and can be fixed through an air adjusting ring sealing ring 33, and the air adjusting ring 3 can rotate on the upper base 25; the air adjusting ring is provided with two air adjusting holes, the positions of the air adjusting holes correspond to the positions of the base air inlet holes 24, when the air adjusting ring rotates, the relative positions of the air adjusting holes and the base air inlet holes can be changed and are mutually staggered or overlapped, and therefore the air passing amount in the air passage can be changed; the air adjusting ring 3 is also provided with anti-skid grains 32 so as to increase the friction between the hand and the air adjusting ring 3 in the air adjusting process.

The atomizing core 4 is arranged in the oil cavity 11, an atomizing core air passage 46 is arranged inside the atomizing core 4, and the atomizing core air passage 46 extends outwards from the top end of the atomizing core 4 and forms an atomizing core air outlet 41; a third sealing ring groove 43 is formed at the top end of the atomizing core 4, and a third sealing ring 8 is sleeved in the third sealing ring groove 43; the top end of the atomizing core 4 sleeved with the third sealing ring is inserted into the air pipe air passing hole 51, and the air outlet 41 of the atomizing core is butted with the air outlet 13; a plurality of atomizing core air inlet holes 42 are formed in the side face of the bottom end of the atomizing core 4, and the atomizing core air inlet holes 42 are just positioned in a gap between the top end of the lower base boss 211 and the bottom end of the first atomizing core mounting hole 22; the atomizing core air inlet hole 42 enables the atomizing core air passage 46 to be communicated with the water storage cavity 21; a first sealing ring groove 44 and a second sealing ring groove 45 are respectively arranged on the upper side and the lower side of an atomizing core air inlet 42 on the side surface of the bottom end of an atomizing core 4, a first sealing ring 6 is sleeved in the first sealing ring groove 44, a second sealing ring 7 is sleeved in the second sealing ring groove 45, when the bottom end of the atomizing core 4 is installed in the base 2, the bottom end of the atomizing core 4 is sleeved in the first atomizing core installation hole 22 through the first sealing ring 6, and the bottom end of the atomizing core 4 is sleeved in the second atomizing core installation hole 23 through the second sealing ring 7; the first sealing ring 6, the second sealing ring 7 and the third sealing ring 8 are all O-shaped rings.

With continued reference to fig. 8, the airflow direction and the operation principle of the atomizer storing condensed water in this embodiment will be further explained so that those skilled in the art can better understand the technical solution in this embodiment:

the outside gas of atomizer is from transferring in the gas pocket 31 on the ring 3 of transferring the air, get into in the base inlet port 24, then flow into to water storage chamber 21 through last air flue 28 among the last base 25, back in the water storage chamber 21, in flowing into atomizing core 4 through atomizing core inlet port 42 that is close to water storage chamber 21 top again, the atomizing core air flue 46 of rethread atomizing core inside mixes the back with the atomizing gaseous of production in the atomizing core 4, flow out from atomizing core gas outlet 41 again, through trachea air vent 51 and the export 13 atomizer that flows out, it inhales to provide the user.

Because the inside of atomizing core 4 can produce high-temperature gas, the temperature of base inlet port 24 and accent air vent 31 department is again than lower, consequently form the comdenstion water in the position of base inlet port 31 and last air flue 28 easily, the same reason, also can produce the comdenstion water on atomizing core gas outlet 41 and the pore wall of trachea air-through 51, the comdenstion water can flow back to atomizing core 4's bottom and flow out from atomizing core inlet port 42, two strands of comdenstion water can be collected and store in water storage chamber 21, so that in the atomizer use or when inclining, the comdenstion water can not spill, and water storage chamber 21 is integrated into one piece structure, all be equipped with the sealing member in first atomizing core mounting hole 22 and the second atomizing core mounting hole 23 and seal, consequently the comdenstion water can be stored safely in water storage chamber 21, can not permeate to atomizing core, the bottom of oil storehouse or atomizer.

With continuing reference to fig. 9 and 10, the embodiment further discloses an aerosol generating device, which comprises the above atomizer for storing condensed water, and three magnets 10 are installed in the lower base 26 of the atomizer, and the three magnets 10 are uniformly distributed around the axis of the atomizer; one end of the electrode base 9 is provided with a magnet ring 93, one end of the electrode base 9 can be sleeved on the lower base 26 of the atomizer and fixed with each other through mutual attraction of the magnet ring 93 and the magnet 10, the other end of the electrode base 9 is connected with a host through a stud 94, the electrode base 9 is provided with a positive pole 91 and a negative pole 92, and the end parts of the positive pole 91 and the negative pole 92 can be contacted with the bottom end of the atomizing core 4.

Example two:

with continued reference to fig. 11, the present invention further discloses an assembling method of an atomizer for storing condensed water, which is mainly based on the atomizer for storing condensed water in the first embodiment, and the assembling method includes the following specific steps:

s1: installing a gas regulating ring: the air adjusting ring sealing ring 33 is arranged in a fourth sealing ring groove 212 in the upper base 25, then the air adjusting ring 3 is sleeved, and the air adjusting ring 3 is rotated for three times to ensure that the air adjusting ring has good sealing performance and rotates smoothly;

s2: installing a lower base: buckling a second annular groove 210 at the top of the lower base 26 with a second convex ring 29 at the bottom of the upper base 25, and welding the upper and lower bases together by ultrasonic welding;

s3: installing an oil bin: buckling a first convex ring 17 at the bottom of the oil bin 1 and a first annular groove 27 at the top of the upper base 25, and then welding the oil bin 1 and the upper base 25 together through ultrasonic welding;

s4: installing an air pipe: the air pipe 5 extends into the oil bin 1 through the second atomization core mounting hole 23 and is sleeved and pressed in the air pipe mounting hole 18 on the suction nozzle 12;

s5: installing an oil plug: the oil plug 15 is plugged into the oil filling hole 14;

s6: installing an atomization core: install first sealing washer 6, second sealing washer 7 and third sealing washer 8 respectively in atomizing core 4's the sealed annular that corresponds, then pass second atomizing core mounting hole 23 plug bush to oil pocket 11 with atomizing core 4's top, make atomizing core 4's top cover insert in trachea air passing hole 51, the second end cover of atomizing core is inserted respectively in first atomizing core mounting hole 22 and second atomizing core mounting hole 23, and then fixes atomizing core 4.

In conclusion, the concave water storage cavity is arranged between the air inlet hole of the atomizing core and the air inlet hole of the atomizer, so that the cooling water in the atomizing core and the condensed water at the air inlet hole of the atomizer can be collected simultaneously, and the cooling water can be prevented from leaking outwards in the using process; and the water storage cavity is integrally formed, and the atomizing core and the atomizer are well sealed through a sealing piece, so that water seepage and oil leakage at the bottom of the atomizer and mutual air blowby inside the atomizer can be effectively prevented.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. An atomizer for storing condensed water, comprising:

the oil bin is internally provided with an oil cavity, a first end of the oil bin is provided with a suction nozzle, the suction nozzle is provided with an air outlet hole, the oil cavity is communicated with the outside of the oil bin through the air outlet hole, the first end of the oil bin is also provided with an oil filling hole communicated with the oil cavity, and the oil filling hole is sealed through an oil plug;

the oil tank comprises a base, a water storage cavity is arranged in the base, a first end of the base is provided with a first atomizing core mounting hole communicated with the first end of the water storage cavity, a second end of the base is provided with a second atomizing core mounting hole, the first end of the second atomizing core mounting hole extends into the water storage cavity and has a certain distance with the second end of the water storage cavity, the second end of the second atomizing core mounting hole extends outwards from the second end of the base, a base air inlet hole is formed in the side face of the base and is communicated with the first end of the water storage cavity, the first end of the base is connected with the second end of the oil tank, and the first atomizing core mounting hole can be communicated with the oil cavity;

the air adjusting ring is sleeved on the outer side of the base in a rotatable mode, and is provided with an air adjusting hole, wherein when the air adjusting ring rotates, the relative position of the air adjusting hole and the air inlet hole of the base can be changed, so that the air passing amount is changed;

the atomizing core is arranged in the oil cavity, the first end of the atomizing core is butted with the air outlet hole and is provided with an atomizing core air outlet, the second end of the atomizing core is provided with an atomizing core air inlet hole, the atomizing core air inlet hole is communicated with the water storage cavity, and the position of the atomizing core air inlet hole is higher than that of the second end of the water storage cavity;

the second end of the atomization core is sleeved in the first atomization core mounting hole and the second atomization core mounting hole through a first sealing piece and a second sealing piece respectively.

2. The condensate-storing atomizer of claim 1, wherein one end of said oil chamber extends outwardly from said second end of said oil reservoir to form an oil chamber opening, said oil chamber opening being provided with a first raised ring.

3. The atomizer for storing condensed water according to claim 1, wherein a first end of the suction nozzle extends outward from a first end of the oil bin, a second end of the suction nozzle extends into the oil chamber, a first end of the atomizing core is connected with a second end of the suction nozzle through an air pipe, an air pipe air passing hole is arranged in the air pipe, the air outlet hole and an air outlet of the atomizing core can be communicated through the air pipe air passing hole, and a third sealing member is arranged between the first end of the atomizing core and the air pipe.

4. The atomizer for storing condensed water according to claim 3, wherein a third sealing ring groove is formed at the first end of the atomizing core, a first sealing ring groove and a second sealing ring groove are formed at the second end of the atomizing core, the atomizing core air inlet hole is located between the first sealing ring groove and the second sealing ring groove, the first sealing member is arranged in the first sealing ring groove, the second sealing member is arranged in the second sealing ring groove, and the third sealing member is arranged in the third sealing ring groove.

5. The condensate storage atomizer of claim 4, wherein said first sealing member is a first sealing ring, said second sealing member is a second sealing ring, said third sealing member is a third sealing ring, and said first sealing ring, said second sealing ring, and said third sealing ring are all O-rings.

6. The condensate storage atomizer of claim 2, wherein the base is assembled from an upper base and a lower base.

7. The atomizer of claim 6, wherein said first end of said upper base is fitted with said first protrusion ring through a first ring groove, so as to be fixed at said oil cavity opening, said first atomizing core mounting hole is formed in said upper base, said second end of said upper base is provided with an upper air inlet channel and a second protrusion ring, said air inlet channel extends outwardly from said side surface of said upper base and forms said base air inlet hole, said first end of said lower base is fitted with said second protrusion ring through a second ring groove, so as to be connected with said second end of said upper base, said lower base is provided with said water storage cavity and said second atomizing core mounting hole.

8. The atomizer for storing condensed water according to claim 7, wherein a fourth sealing ring groove is formed around the upper base, and a gas regulating ring sealing ring is arranged in the fourth sealing ring groove and is sleeved on the upper base through the gas regulating ring sealing ring.

9. An aerosol generating device comprising a condensed water-storing nebulizer of any one of claims 1 to 8, further comprising:

a magnet provided in the lower base;

the electrode base is internally provided with a positive electrode and a negative electrode, the first end of the electrode base can be connected with the lower base through a magnet ring, and the second end of the electrode base is connected with a host.

10. A method of assembling a condensate-storing atomizer, comprising the condensate-storing atomizer according to any one of claims 1 to 8, comprising the steps of:

s1: installing a gas regulating ring: installing the air adjusting ring sealing ring on the upper base, and then sleeving the air adjusting ring;

s2: installing a lower base: buckling the lower base and the upper base, and welding the lower base and the upper base together through ultrasonic welding;

s3: installing an oil bin: welding the oil bin and the upper base together through ultrasonic welding;

s4: installing an air pipe: the air pipe extends into the oil bin through the second atomization core mounting hole and is sleeved and pressed on the suction nozzle;

s5: installing an oil plug: inserting the oil plug into the oil filling hole;

s6: installing an atomization core: and the first sealing ring, the second sealing ring and the third sealing ring are respectively installed on the atomization core, and then the atomization core is fixedly installed in the oil cavity through the second atomization core installation hole in an inserting manner.

Images