CN213964701U - Atomizer with side fog-sucking channel and integrated atomizing assembly - Google Patents

Abstract

The utility model discloses an atomizer with side fog-absorbing channel and integral type atomizing component, including the atomizing shell, the suction nozzle end of atomizing shell is equipped with the suction inlet, the link is equipped with the opening, the atomizing shell is connected with battery pack through the link and constitutes electronic atomization equipment, still include integral type atomizing component, integral type atomizing component packs into the atomizing shell from the opening, the mouth extends downwards from in the atomizing shell is equipped with the fog-absorbing channel, the fog-absorbing channel is located the inner wall one side of atomizing shell, integral type atomizing component includes liquid storage cavity seal cover, atomizing core seat and the base that top-down connects gradually, the lower extreme of atomizing core seat is equipped with the mounting groove of upwards recessing, install the upper segment that is equipped with atomizing core seal seat and atomizing core in the mounting groove, the upper end of base is equipped with the base cavity downwards, the lower segment of atomizing core stretches into the base cavity, the base shutoff is in the opening of atomizing shell; the liquid guiding device has the advantages of good liquid guiding effect, uniform vapor fog generation during heating and atomization, firm structure, no deformation and difficult occurrence of liquid leakage and air leakage.

Description

Atomizer with side fog-sucking channel and integrated atomizing assembly

Technical Field

The utility model relates to a technical field of electronic atomization equipment, more specifically the utility model relates to an atomizer with side inhale fog passageway and integral type atomization component.

Background

Electronic atomization equipment generally includes battery pack and atomizer, installs the battery for atomizer power supply in the battery pack, and the atomizer includes the unit that generates heat, and the unit that generates heat can be atomized into the vapour fog with the solution that treats atomizing when the circular telegram, supplies to suck in the user's sunction inlet.

The electronic atomization device specifically comprises medical liquid medicine atomization device and the like, and the basic task of the electronic atomization device is to provide a heating process to convert atomized liquid or liquid medicine and other solutions stored in the electronic atomization device into vapor, aerosol, steam and the like.

The glass fiber rope or the cotton rope that the material that leads liquid generally is rectangular shape in current electronic atomization plant, its atomizer, and the heating wire of heating usefulness directly twines on glass fiber rope or cotton rope, because its is small, the stock solution performance is poor, in the heating process, easy because of the stock solution volume is few, the atomized liquid conduction takes place to burn untimely and leads to producing burnt flavor, causes to use for the user and experiences badly. In addition, in the structure of adopting glass fiber rope or cotton rope as the atomizer of leading liquid, generally transversely set up glass fiber rope or cotton rope on atomizing seat, the both ends of glass fiber rope or cotton rope are stretched into and are absorbed and conduct the atomized liquid in the stock solution chamber, and this kind of structure generally can not be sealed between stock solution chamber and glass fiber rope or the cotton rope completely, and when user's suction was great, lead to the emergence of weeping phenomenon easily. In addition in production, need install on the atomizing seat after glass fine rope or cotton rope winding heater, then put into atomizer atomizing shell with atomizing seat and all the other accessories one by one and assemble, the structure is complicated, the equipment is inconvenient, production efficiency is low and be not convenient for automated production.

Disclosure of Invention

An object of the utility model is to provide an atomizer that has side and inhales fog passageway and integral type atomizing component for overcoming the not enough of above-mentioned technique.

The technical scheme of the utility model is realized like this: an atomizer with a side mist suction channel and an integrated atomization component comprises an atomization shell, wherein the atomization shell comprises a suction nozzle end and a connecting end, the suction nozzle end is provided with a suction port, the connecting end is provided with an opening, the atomization shell is connected with a battery component through the connecting end to form electronic atomization equipment, the atomizer further comprises the integrated atomization component, the integrated atomization component is arranged in the atomization shell from the opening, the mist suction channel extends downwards from the suction port in the atomization shell, the mist suction channel is arranged on one side of the inner wall of the atomization shell, the integrated atomization component comprises a liquid storage cavity sealing sleeve, an atomization core seat and a base which are sequentially connected from top to bottom, the lower end of the atomization core seat is provided with an upward concave installation groove, the upper section of the atomization core sealing seat and the atomization core are installed in the installation groove, the upper end of the base is downwards provided with a base cavity, the lower section of the atomizing core extends into the cavity of the base, and the base is blocked at the opening of the atomizing shell.

Preferably, the atomizing device further comprises a suction nozzle shell, the suction nozzle shell is sleeved on the outer wall of the suction nozzle end of the atomizing shell, an upper suction opening is formed in the top of the suction nozzle shell, and a suction nozzle sealing sleeve is further arranged between the suction nozzle shell and the atomizing shell and around the suction opening and the upper suction opening.

Preferably, the atomizing core includes the atomizing core body that is used for conducting the atomized liquid and the resistance that generates heat that is used for heating the atomized liquid, this internal atomizing chamber that is equipped with of atomizing core.

Preferably, the heating resistor is arranged on the inner surface of the atomizing cavity or in the atomizing core body close to the inner surface of the atomizing cavity.

Preferably, the upper cross section of the atomizing core body is larger than the lower cross section of the atomizing core body, and the longitudinal section of the atomizing core body is T-shaped.

Preferably, the upper end surface of the atomizing core body is provided with a liquid guide groove in a downward concave manner.

Preferably, the atomizing cavity of the atomizing core body is formed by an atomizing core through hole transversely arranged at the lower section of the atomizing core body.

Preferably, the atomizing core body is composed of a microporous ceramic material or a microporous diatomaceous earth material.

Preferably, the lower section of the atomizing core divides the base cavity into an air inlet cavity and a mist outlet cavity.

Preferably, an air inlet is formed in the outer wall of the base on one side of the air inlet cavity, a mist outlet channel is communicated with the upper portion of the mist outlet cavity and is formed in the atomizing core seat, and the mist outlet channel is communicated with the mist suction channel upwards.

Preferably, the liquid storage cavity sealing sleeve and the cavity between the inner walls of the atomizing shell form a liquid storage cavity for storing atomized liquid, and the liquid storage cavity sealing sleeve and the atomizing core seat are both provided with liquid guide through holes communicated with the liquid storage cavity and the atomizing core.

Preferably, the inner walls of the two sides of the connecting end are provided with a first clamping hole or a first clamping groove, and the side wall of the base is provided with a first convex buckle which is buckled with the first clamping hole or the first clamping groove.

Preferably, the outer wall of the lower part of the atomizing core holder is provided with a second convex buckle, and two side wall parts of the base are provided with a second clamping hole or a second clamping groove which is fastened with the second convex buckle.

Preferably, a supporting column for upwards supporting the atomizing core body is arranged in the base.

Preferably, the bottom of the base is provided with an electrode mounting hole, a positive electrode or a negative electrode is arranged in the electrode mounting hole, and the positive electrode or the negative electrode is in abutting electrical connection with another positive electrode or another negative electrode arranged on the battery component.

Preferably, the outer bottom of base inlays and is equipped with magnet or magnet-philic material, magnet or magnet-philic material with another magnet or magnet-philic material that is equipped with on the battery pack produce mutual suction and make atomizer and battery pack carry out magnetism to inhale the formula and be connected.

The utility model has the advantages as follows: the side mist suction channel is adopted, so that the volume of the liquid storage cavity is increased, and more atomized liquid is stored; the integrated atomization assembly is adopted, so that the structure is simple, the assembly is convenient, the production efficiency can be greatly improved, and the full-automatic production is convenient; in addition, the atomization core body for conducting the atomized liquid is made of the microporous material in the integrated atomization assembly, and compared with a cotton rope or a glass fiber rope as a liquid guide material, the atomization core body is uniform in atomization and good in atomization effect due to good liquid storage and guide performance, and is not easy to be burnt to generate scorched smell during heating atomization due to good heat resistance; structurally, the atomizing core seat adopts a structure that the atomizing core is arranged at the lower part of the atomizing core seat and adopts a T-shaped atomizing core, so that atomized liquid can be rapidly conducted, the structure is firm, the deformation is avoided, the sealing effect is good, and the phenomena of liquid leakage and air leakage are avoided.

Drawings

FIG. 1 is a three-dimensional exploded view of the atomizer of the present invention;

FIG. 2 is a perspective view of the integrated atomizing assembly of the present invention;

FIG. 3 is a three-dimensional exploded view of the integrated atomizing assembly of the present invention;

fig. 4 is a front view of the atomizing core of the present invention;

fig. 5 is a longitudinal cross-sectional view of an atomizing core of the present invention;

fig. 6 is a perspective view of the atomizing core of the present invention;

fig. 7 is a front view of the atomizer of the present invention;

fig. 8 is a side view of the atomizer of the present invention;

fig. 9 is a three-dimensional exploded structural view of the atomizer of the present invention;

fig. 10 is a perspective exploded sectional view of the atomizer according to the present invention;

fig. 11 is a front cross-sectional view of an atomizer of the present invention;

fig. 12 is a side cross-sectional view of an atomizer of the present invention;

figure 13 is a front cross-sectional view of the reservoir seal cartridge of the present invention;

fig. 14 is a side view of an atomizing cartridge of the present invention;

fig. 15 is a perspective view of the atomizing cartridge of the present invention;

fig. 16 is a cross-sectional view of an atomizing cartridge of the present invention;

fig. 17 is a first perspective view of the base of the present invention;

fig. 18 is a second perspective view of the base according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model discloses an atomizer with side fog passageway and integral type atomization component for the following literary composition description, as shown in FIG. 1, with the vertical placing of last suction inlet 130 of this atomizer upwards, this paper "upper and lower, upper portion, lower part, upper end, lower extreme, above-mentioned, following" of relevant each part describe, all refer to the upper and lower position relation of each part when the last suction inlet of this atomizer was vertical up placed.

Example (b):

as shown in fig. 1 and fig. 11, an atomizer with a side mist suction channel and an integrated atomizing assembly comprises an atomizing shell 1 and an integrated atomizing assembly 2, wherein the atomizing shell 1 comprises a suction nozzle end 11 and a connecting end 12, the suction nozzle end 11 is provided with a suction port 110, the connecting end 12 is provided with an opening 120, the atomizing shell 1 is connected with a battery assembly (not shown) through the connecting end 12 to form an electronic atomizing device, and the integrated atomizing assembly 2 is loaded into the atomizing shell 1 from the atomizing shell opening 120. The integrated atomization component 2 can be conveniently assembled in advance, and then is assembled in the atomization shell 1, so that the installation quality is reliable, the production efficiency can be improved, and the automatic production is facilitated.

As shown in fig. 2, 3, 11, 12, and 17, the integrated atomizing assembly 2 includes a liquid storage chamber sealing sleeve 21, an atomizing core holder 22, and a base 23, which are sequentially connected from top to bottom, wherein the liquid storage chamber sealing sleeve 21 is used for sealing a gap between the liquid storage chamber 10 and the atomizing core holder 22. The lower extreme of atomizing core print 22 is equipped with mounting groove 220 to the indent, and the installation is equipped with the upper segment of atomizing core seal receptacle 24 and atomizing core 25 in mounting groove 220, and atomizing core seal receptacle 24 is used for sealing the gap between mounting groove 220 and the atomizing core 25 upper segment. The base 23 is composed of an outer wall and a bottom plate, namely, the upper end of the base 23 is provided with a base cavity 230 downwards, the lower section of the atomizing core 25 extends into the base cavity 230, and the base 23 is blocked in the opening 120 of the atomizing shell. The atomizing core 25 is invertedly installed in the lower extreme mounting groove 220 of atomizing core seat 22, compare in traditional fine rope of glass or cotton rope erect as the drain material and locate the atomizing seat on, the atomizing core 25 of being convenient for accepts the direct downwardly-conducted atomized liquid in top stock solution chamber in the below, and the drain is efficient, makes the atomizing even, atomization effect good.

As shown in fig. 4-6, 11 and 12, the atomizing core 25 includes an atomizing core body 251 made of a microporous material and used for conducting the atomized liquid and a heating resistor 252 for heating the atomized liquid, and a lead 253 is connected to the heating resistor 252. The atomizing core body 251 is divided into an upper section and a lower section, and an atomizing cavity 250 is arranged in the atomizing core body 251. The heating resistor 252 is disposed on the inner surface of the atomizing chamber 250 or in the atomizing core body close to the inner surface of the atomizing chamber 250, so that the atomized liquid can be more easily heated, evaporated and atomized on the surface of the atomizing chamber 250. The utility model discloses in, the upper segment cross section of atomizing core body 251 is greater than its hypomere cross section, and the longitudinal section of atomizing core body 251 is the T font, makes the upper end area big and can contact more atomized liquid, and the drain effect is better. The upper end face of the atomizing core body 251 is provided with a liquid guiding groove 254 in a downward concave manner, the liquid guiding groove 254 is a concave cavity, a certain amount of atomized liquid can be stored and conducted into the atomizing core body 251, and the atomized liquid can be rapidly supplemented when the heating resistor 252 is heated and atomized, so that dry burning caused by cut-off of flow is avoided. The atomizing cavity 250 of the atomizing core body is composed of the atomizing core through holes 250 transversely arranged at the lower section of the atomizing core body 251, the transversely arranged atomizing core through holes 250 can more fully evaporate and atomize atomized liquid in the transverse atomizing cavity, droplets which are not atomized can still be dripped and continuously atomized in the atomizing cavity, the droplets are not taken away by airflow flowing transversely, and the atomizing efficiency can be improved. The atomizing core body 251 is made of a microporous high temperature resistant material, particularly a microporous ceramic material or a microporous diatomite material.

As shown in fig. 7-12, the lower section of the atomizing core 25 divides the base cavity 230 into an air inlet chamber 2301 and a mist outlet chamber 2302, so that the air inlet chamber 2301 and the mist outlet chamber 2302 can be divided, and the air inlet flows through the atomizing chamber in a large amount, thereby effectively bringing out the atomized mist or steam.

As shown in fig. 2, 7-12, an air inlet 231 is provided on the outer wall of the base at the side of the air inlet chamber 2301 of the base, and an atomizing channel 221 is provided on the atomizing core holder 22 at the side of the atomizing chamber 2302. The mist outlet channel 221 of the present embodiment is disposed on the atomizing core 22 above the mist outlet chamber 2302. The mist outlet passage 221 is further provided with a mist suction passage 1101 in an upward communication manner, the mist suction passage 1101 is communicated with the suction port 110 and the mist outlet passage 221, the mist suction passage 1101 of the embodiment is arranged on one side of the inner wall of the atomizing housing 1, a pipeline is formed by extending the suction port 110 downwards and is constructed along the inner wall of one side, and the mist suction passage 1101 is formed by integrally molding with the atomizing housing 1. The atomized steam or vapor fog in the fog outlet chamber 2302 can be guided out to the suction opening 110 through the communication between the fog outlet passage 221 and the fog suction passage 1101. The utility model discloses an inhale fog passageway and locate inner wall one side of atomizing shell, adopted the side to inhale the fog passageway promptly, helped increasing the volume in stock solution chamber 10, can store more atomizing liquids like this under the same conditions.

As shown in fig. 11 and 12, except for the mist suction channel 1101, the cavity between the liquid storage chamber sealing sleeve 21 and the inner wall of the atomizing housing 1 forms a liquid storage chamber 10 for storing the atomized liquid, the liquid storage chamber sealing sleeve 21 and the atomizing core holder 22 are provided with a liquid guiding through hole 101 for communicating the liquid storage chamber 10 and the atomizing core 25, and the liquid guiding through hole 101 guides the liquid downwards to the atomizing core 25 and communicates with the liquid guiding groove 254 of the atomizing core body.

As shown in fig. 9 and 10, the atomizer of the present invention further includes a suction nozzle shell 13, wherein the suction nozzle shell 13 is sleeved on the outer wall of the upper portion of the atomizing shell 1, the top of the suction nozzle shell 13 is provided with an upper suction port 130, a suction nozzle sealing sleeve 14 is further arranged between the suction nozzle shell 13 and the atomizing shell 1 and around the suction port 110 and the upper suction port 130, and the suction nozzle sealing sleeve 14 is used for sealing the gap between the suction nozzle shell 13 and the atomizing shell 1 at the suction port 110 and ensures the communication between the suction port 110 and the upper suction port 130. Since the mist suction path 1101 is located on the inner wall side of the atomizing housing 1, if the suction port 110 is located at the center of the tip of the atomizing housing, there is a curved path, which is inconvenient to manufacture, so that the suction port 110 can be located only on the side of the tip of the atomizing housing. At this time, the suction nozzle housing 13 is additionally installed, so that the mist sucked out from the suction port 110 is guided to the upper suction port 130 provided at the center of the top end of the suction nozzle housing 13 to be discharged, thereby facilitating the use of the user. The atomizing housing 1 and the nozzle housing 13 may be formed of a transparent material so as to observe the content or use condition of the atomized liquid in the liquid storage chamber 10.

As shown in fig. 1, the inner walls of the two sides of the connecting end 12 of the atomizing shell 1 are provided with first engaging grooves 122, the side wall of the base 23 is provided with first protruding buckles 232 that engage with the first engaging grooves 122, in this embodiment, the first engaging grooves 122 are through holes, and the buckle connection enables the base 23 to be installed in the atomizing shell 1 only and cannot be detached outward, and the installation is convenient, the connection is firm and not easy to loosen, and liquid leakage is avoided.

As shown in fig. 14-18, the outer wall of the lower portion of the atomizing core holder 22 is provided with a second convex buckle 223, two side walls of the base 23 are provided with second locking holes 233 fastened with the second convex buckle 223, in this embodiment, two sides of the base 23 are provided with lugs 2331 protruding upward and connected with the atomizing core holder 22, and the second locking holes 233 are provided on the lugs 2331. The snap-fit connection allows the atomizing cartridge 22 to be directly connected to the base 22. In other embodiments, the second protrusion 223 can be replaced by a second hole, and the second hole 233 can be replaced by a second protrusion.

As shown in fig. 3, 17 and 18, the supporting column 234 for supporting the atomizing core body upward is disposed inside the base 23, the supporting column 234 is disposed at the inner wall of the base, and the atomizing core body 251 can be firmly supported and fixed in the mounting groove 220 upward without affecting or occupying the cavity of the base 23, and pressed against the atomizing core seal seat 24, and the atomizing core seal seat 24 has a sealing function, so as to prevent liquid leakage. The bottom of the base 23 is provided with an electrode mounting hole 235, a positive electrode or a negative electrode 236 is arranged in the electrode mounting hole 235, and the positive electrode or the negative electrode 236 is in abutting connection with another positive electrode or a negative electrode arranged on the battery component. The outer bottom of base 23 still is equipped with blind hole 237, inlays in the blind hole 237 and is equipped with magnet or magnetic material 26, and magnet or magnetic material 26 and the last another magnet or the magnetic material that is equipped with of battery pack produce mutual suction and make atomizer and battery pack carry out magnetism to inhale the formula and be connected. An annular groove 238 is further formed on the outer wall of the base 23, and a sealing ring (not shown) is arranged in the annular groove 238 for sealing a gap between the base 23 and the inner wall of the atomizing housing 1. The magnetic connection makes the atomizer easy to disassemble and assemble.

The working principle of the embodiment is as follows:

as shown in fig. 11 and 12, when a user inhales from the upper suction opening 130 and the suction opening 110, negative pressure is generated inside the atomizer, as shown by arrows a and b in the figure, external air enters from the main air inlet 121 of the housing and enters the air inlet chamber 2301 through the air inlet 231 of the base 23, at this time, the atomized liquid in the liquid storage chamber 10 flows downward through the liquid guide through hole 101 to the liquid guide groove 254 of the atomizing core 25, the atomized liquid further permeates and diffuses in the atomizing core body 251 through the liquid guide groove 254 to the heating resistor 252 on the surface of the atomizing chamber 250, after being heated by the heating resistor 252, the atomized liquid is atomized into steam or vapor in the atomizing chamber 250, and the generated steam or vapor is further passed through the mist outlet chamber 2302, the mist outlet passage 221, the mist suction passage 1101, the suction opening 110, and the upper suction opening 130 and then is sucked into the suction opening of the user.

The above description is only for the preferred embodiment of the present invention, and the above specific embodiments are not intended to limit the present invention. Within the scope of the technical idea of the present invention, various modifications and alterations can be made, and any person skilled in the art can make modifications, amendments or equivalent replacements according to the above description, all belonging to the protection scope of the present invention.

Claims (16)

1. An atomizer with a side mist suction channel and an integrated atomizing component comprises an atomizing shell, wherein the atomizing shell comprises a suction nozzle end and a connecting end, the suction nozzle end is provided with a suction port, the connecting end is provided with an opening, the atomizing shell is connected with a battery component through the connecting end to form electronic atomizing equipment, and the atomizer is characterized by further comprising the integrated atomizing component, the integrated atomizing component is arranged in the atomizing shell from the opening, the mist suction channel extends downwards from the suction port in the atomizing shell, the mist suction channel is arranged on one side of the inner wall of the atomizing shell, the integrated atomizing component comprises a liquid storage cavity sealing sleeve, an atomizing core seat and a base which are sequentially connected from top to bottom, the lower end of the atomizing core seat is provided with an installation groove which is concave upwards, the upper section of the atomizing core sealing seat and the atomizing core are arranged in the installation groove, the upper end of the base is downwards provided with a base cavity, the lower section of the atomizing core extends into the cavity of the base, and the base is blocked at the opening of the atomizing shell.

2. The atomizer of claim 1 further comprising a nozzle housing, wherein said nozzle housing is sleeved on the outer wall of the nozzle end of said atomizing housing, an upper nozzle opening is formed in the top of said nozzle housing, and a nozzle sealing sleeve is further disposed between said nozzle housing and said atomizing housing around said upper nozzle opening and said nozzle opening.

3. The atomizer with side fog-sucking channel and integrated atomization assembly as claimed in claim 1, wherein said atomization core comprises an atomization core body for conducting atomized liquid and a heating resistor for heating atomized liquid, and an atomization cavity is arranged in said atomization core body.

4. The atomizer with side mist-sucking channel and integrated atomizing assembly as claimed in claim 3, wherein said heat-generating resistor is disposed at the inner surface of said atomizing chamber or in the atomizing core body close to the inner surface of the atomizing chamber.

5. The atomizer having a side mist-sucking channel and an integral atomizing assembly as set forth in claim 3, wherein said atomizing core body has an upper cross-section larger than a lower cross-section thereof, and a longitudinal section of said atomizing core body is T-shaped.

6. The atomizer with side fog-sucking channel and integrated atomizing assembly as claimed in claim 3, wherein the upper end surface of said atomizing core body is provided with a liquid guiding groove which is concave downwards.

7. The atomizer having a lateral mist-sucking channel and an integrated atomizing assembly as claimed in claim 3, wherein said atomizing chamber of said atomizing core body is formed by atomizing core through holes transversely formed in the lower section of said atomizing core body.

8. The atomizer of claim 3 wherein said atomizing core body is comprised of a microporous ceramic material or a microporous diatomaceous earth material.

9. The atomizer of claim 1, wherein the lower section of said atomizing core divides said base cavity into an inlet chamber and an outlet chamber.

10. The atomizer having a side mist-sucking channel and an integrated atomizing assembly as claimed in claim 9, wherein an air inlet is provided on the outer wall of the base on one side of the air inlet chamber, and a mist outlet channel is provided on the atomizing core holder and is communicated above the mist outlet chamber, and the mist outlet channel is communicated with the mist-sucking channel upward.

11. The atomizer with side fog-absorbing channel and integrated atomizing assembly as claimed in claim 1, wherein the cavity between the liquid storage chamber sealing sleeve and the inner wall of the atomizing housing forms a liquid storage chamber for storing atomized liquid, and the liquid storage chamber sealing sleeve and the atomizing core holder are both provided with liquid guiding through holes for communicating the liquid storage chamber and the atomizing core.

12. The atomizer with the side mist-sucking channel and the integrated atomizing assembly according to claim 1, wherein the inner walls of the two sides of the connecting end are provided with first clamping holes or first clamping grooves, and the side wall of the base is provided with first convex buckles fastened with the first clamping holes or the first clamping grooves.

13. The atomizer having a side mist-sucking channel and an integrated atomizing assembly as claimed in claim 1, wherein a second protrusion is disposed on the outer wall of the lower portion of the atomizing core holder, and a second hole or a second groove for fastening the second protrusion is disposed on two side walls of the base.

14. The atomizer having a side mist-sucking channel and an integral atomizing assembly as set forth in claim 1, wherein said base has a support column disposed therein for upwardly supporting said atomizing core body.

15. The atomizer with side fog-sucking channel and integrated atomizing assembly as claimed in claim 1, wherein the bottom of said base is provided with an electrode mounting hole, and a positive electrode or a negative electrode is disposed in said electrode mounting hole, and said positive electrode or said negative electrode is in abutting electrical connection with another positive electrode or said negative electrode disposed on said battery assembly.

16. The atomizer with the side fog-sucking channel and the integrated atomizing assembly as claimed in claim 1, wherein a magnet or a magnetic material is embedded in the outer bottom of the base, and the magnet or the magnetic material and another magnet or magnetic material on the battery assembly generate a mutual attraction force to magnetically connect the atomizer and the battery assembly.

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