CN217906343U - Heating core sealing element and atomizer - Google Patents

Abstract

The utility model relates to a core sealing member and atomizer generate heat, the liquid hole has been seted up at core sealing member top generates heat, liquid is direct from last to circulating to the micropore top that generates heat the core down, it has communicated the groove of ventilating through the spread groove to cross the liquid hole, when not using because the stock solution storehouse is sealed, liquid can not flow through the groove of ventilating under the pressure effect, when using, because the micropore generates heat the core and has heated liquid, the mobility of liquid strengthens, other external can be through the groove of ventilating automatic entering stock solution storehouse in, make pressure balance in the stock solution storehouse, liquid can be smooth and easy generate heat the core contact with the micropore. And this application is direct by the core sealing member parcel micropore that generates heat the core, need not the cotton core of cladding, the difficult burnt paste of the core sealing member that generates heat that flexible material made can adopt temperature resistant material, long service life, especially is fit for disposable atomizer.

Description

Heating core sealing element and atomizer

Technical Field

The utility model relates to an electronic atomization technical field especially relates to a core sealing member and atomizer generate heat.

Background

The electronic atomizer generates atomized smoke by heating liquid in the liquid storage bin through the heating core, the traditional heating core is filled with liquid from the cotton core coated on the side wall of the atomizing core, and the cotton core is limited in service life, so that the cotton core needs to be frequently replaced and burnt odor is easily generated.

On the other hand, because the sealed vacuum effect that produces must open up the inlet port with stock solution storehouse intercommunication and take a breath, just can make the core feed liquor that generates heat smooth and easy, traditional inlet port is either open in usual, or needs manually to open.

The normally open air hole easily causes the natural volatilization of liquid in the liquid storage bin, the fragrance is emitted, the fragrance is reduced, the taste is reduced, foreign matters are easy to enter, the taste is influenced, and the health is possibly influenced.

The manually opened air inlet is very inconvenient to operate, and the user forgets to remember the time, so that the heating core is not enough to contact with the liquid, and the dry burning phenomenon is generated.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a heat generating core sealing member and an atomizer which can smoothly feed liquid without wrapping cotton.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a core sealing member generates heat for sealing connection micropore generates heat core and stock solution storehouse, the core sealing member that generates heat is made by flexible material, includes:

the middle part of the top part is provided with a vent hole, and a plurality of liquid passing holes are symmetrically arranged by taking the vent hole as a center or are arranged in a surrounding way;

the peripheral wall is connected with the top, and the inner wall of the peripheral wall is provided with at least one air exchange groove communicated with one of the liquid passing holes through a connecting groove.

Furthermore, the ventilating device also comprises a bottom support, wherein the bottom support is annular and is connected to one end, far away from the top, of the peripheral wall, and the ventilating groove penetrates through the bottom support outwards.

Further, the inner wall of the peripheral wall further includes an auxiliary groove extending downward from the top.

Further, the ventilation groove and/or the auxiliary groove extend in a bending way.

Furthermore, the edge of the top is provided with a first convex ring.

Further, a second convex ring is arranged between the vent hole and the liquid passing hole on the top.

Furthermore, the outer wall of the peripheral wall is provided with at least one circle of third convex ring.

An atomizer comprises the heating core sealing element, a liquid storage bin, a micropore heating core and an air pipe, wherein a liquid outlet hole is formed in the bottom of the liquid storage bin, the micropore heating core is wrapped by the heating core sealing element, the liquid outlet hole is communicated to the top of the micropore heating core through a liquid passing hole of the heating core sealing element, an air flow hole is formed in the middle of the micropore heating core, and the air pipe, the air vent and the air flow hole are communicated.

Furthermore, a plurality of liquid storage tanks are arranged at the top of the micropore heating core, and the liquid outlet hole, the liquid passing hole and the liquid storage tanks are communicated.

Further, the liquid storage bin comprises a top connecting seat, a bin wall and a bottom connecting seat which are connected in sequence, the top connecting seat is detachably and hermetically connected with the bin wall, the liquid outlet hole is formed in the bottom connecting seat, and one end of the air pipe is hermetically connected with the bottom connecting seat and the other end of the air pipe is hermetically connected with the top connecting seat.

The beneficial effects of the utility model reside in that: generate heat core sealing member top and seted up the liquid hole, liquid is direct from last to circulating to the micropore top that generates heat the core down, it has communicated the groove of ventilating through the spread groove to cross the liquid hole, when not using because the stock solution storehouse is sealed, liquid can not flow through the groove of ventilating under the pressure effect, when using, because the micropore generates heat the core and has heated liquid, the mobility of liquid strengthens, other external can be through the groove of ventilating automatic entering stock solution storehouse in, make the internal atmospheric pressure of stock solution storehouse balanced, liquid can be smooth and easy generate heat the core contact with the micropore. And this application is direct by the core sealing member parcel micropore that generates heat the core, need not the cotton core of cladding, the difficult burnt paste of the core sealing member that generates heat that flexible material made can adopt temperature resistant material, long service life, especially is fit for disposable atomizer.

Drawings

Fig. 1 is a schematic structural view of a heat generating core sealing member according to an embodiment of the present invention;

fig. 2 is a schematic structural view of another direction of a heat generating core sealing member according to an embodiment of the present invention;

fig. 3 is a schematic structural view of another direction of the heat generating core sealing member according to the embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of an atomizer according to an embodiment of the present invention;

fig. 5 is an exploded view of an atomizer according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a microporous heating core according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a bottom connection seat according to an embodiment of the present invention.

Description of the reference symbols:

100. a heat generating core sealing member; 110. a top portion; 111. a vent hole; 112. a liquid passing hole;

113. a first convex ring; 114. a second convex ring; 120. a peripheral wall; 121. a ventilation groove; 122. connecting grooves;

123. an auxiliary groove; 124. a third convex ring; 130. a bottom support; 200. a top connection seat; 300. a wall of the silo;

310. a liquid storage bin; 400. a bottom connecting seat; 410. a liquid outlet hole; 420. a cylinder wall;

500. a microporous heating core; 510. an airflow aperture; 520. a liquid storage tank; 600. an air tube; 700. a suction nozzle; 800. A base; 810. an air inlet; 811. an electrode; 812. an insulating sheath; 900. a condensation absorber.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the following description, in conjunction with the accompanying drawings and embodiments, will explain the present invention in further detail with respect to a heat generating core sealing member and an atomizer. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1-5, a heat generating core sealing member 100 for sealing and connecting a microporous heat generating core 500 and a liquid storage bin 310, the heat generating core sealing member 100 is made of a flexible material, and includes:

a top 110, the middle of which is provided with a vent hole 111, and a plurality of liquid passing holes 112 are symmetrically arranged or circularly arranged by taking the vent hole 111 as a center;

and a peripheral wall 120 connected to the top portion 110, wherein the inner wall of the peripheral wall 120 is provided with at least one ventilation groove 121 communicated with one of the liquid passing holes 112 through a connecting groove 122.

The liquid passing hole 112 is formed in the top 110 of the heating core sealing element 100, liquid directly flows to the top 110 of the microporous heating core 500 from top to bottom, the liquid passing hole 112 is communicated with the ventilation groove 121 through the connecting groove 122, when the heating core sealing element is not used, the liquid is sealed in the liquid storage bin 310, the liquid does not flow out through the ventilation groove 121 under the action of pressure, when the heating core sealing element is used, the liquid is heated by the microporous heating core 500, the liquidity of the liquid is enhanced, boiling can be generated along with the increase of temperature, other external matters can automatically enter the liquid storage bin 310 through the ventilation groove 121, so that the pressure in the liquid storage bin 310 is balanced, and the liquid can be smoothly contacted with the microporous heating core 500; while the provision of the deaeration tank 121 also enables better heat dissipation of the peripheral wall 120, which is not mainly in contact with the liquid. And this application is direct to generate heat core 500 by generating heat core sealing member 100 parcel micropore, need not the cotton core of cladding, and the heating core sealing member 100 that flexible material made is difficult for burnt to be stuck with paste, can adopt temperature resistant material, and long service life is particularly suitable for disposable atomizer.

Referring to fig. 2 and 3, the ventilation device further includes a bottom bracket 130, the bottom bracket 130 is annular and is connected to an end of the circumferential wall 120 away from the top 110, and the ventilation slot 121 penetrates through the bottom bracket 130 and faces outward. Set up collet 130, can wrap up the micropore better and generate heat core 500, avoid the micropore to generate heat core 500 and generate heat core sealing member 100 and break away from, can improve sealed effect simultaneously.

Referring to fig. 3, the inner wall of the peripheral wall 120 further includes an auxiliary groove 123 extending downward from the top 110. Set up supplementary groove 123, assist taking a breath and supplementary feed liquor, supplementary groove 123 need not through connecting groove 122 direct intercommunication feed liquor groove, generate heat the micropore of core 500 itself through the micropore can, can also reduce the temperature of micropore heating core 500 perisporium 120 through supplementary groove 123 simultaneously, avoid micropore heating core 500 overheated. Specifically, the ventilation grooves 121 and the auxiliary grooves 123 are generally disposed symmetrically or in an array in position, and the number of the ventilation grooves 121 and the auxiliary grooves 123 is set as required.

Referring to fig. 2 and 3, the ventilation groove 121 and/or the auxiliary groove 123 are bent and extended. That is, a strip may be provided in the ventilation groove 121 and/or the auxiliary groove 123 to bend the passage, and preferably, the ventilation groove 121 and/or the auxiliary groove 123 may extend in a zigzag shape. The bending and extending can better ensure the sealing effect and improve the heat dissipation effect of the peripheral wall 120.

Referring to fig. 1, a first raised ring 113 is disposed on the edge of the top portion 110. The first bead 113 is provided to prevent liquid from leaking from the edge of the top portion 110, and it will be appreciated that the first bead 113 is integrally formed with the heat generating core seal 100.

Referring to fig. 1, the top portion 110 is provided with a second convex ring 114 between the vent hole 111 and the liquid passing hole 112. The second bead 114 is provided to prevent liquid from leaking from the vent hole 111, and it is understood that the second bead 114 is also integrally formed with the heat generating core sealing member 100.

Referring to fig. 1-3, the outer wall of the peripheral wall 120 is provided with at least one third convex ring 124. The third convex ring 124 is arranged to prevent the liquid from leaking from the outer wall of the heating core sealing element 100, thereby improving the sealing effect.

The heat generating core sealing member 100 is made of a flexible material, and particularly, the heat generating core sealing member 100 is made of a flexible harmless high temperature resistant material, preferably silica gel or rubber.

Referring to fig. 1-7, an atomizer comprises the above-mentioned heating core sealing member 100, and further comprises a liquid storage bin 310, a microporous heating core 500 and an air tube 600, wherein a liquid outlet 410 is disposed at the bottom of the liquid storage bin 310, the microporous heating core 500 is wrapped by the heating core sealing member 100, the liquid outlet 410 is communicated with the top 110 of the microporous heating core 500 through a liquid passing hole 112 of the heating core sealing member 100, an air flow hole 510 is disposed at the middle of the microporous heating core 500, and the air tube 600, the air vent 111 and the air flow hole 510 are communicated. The middle part of micropore heating core 500 directly sets up airflow hole 510, and the smog that produces promptly directly gets into trachea 600 through airflow hole 510, air vent 111, and airflow channel is smooth and easy, and the bore is big, and the smog volume of production is big, and smog is through the filtration of micropore heating core 500 for the taste is better.

Referring to fig. 6, the top 110 of the microporous heating core 500 is provided with a plurality of liquid reservoirs 520, and the liquid outlet 410, the liquid passing hole 112 and the liquid reservoirs 520 are communicated. The liquid storage bin 310 is arranged, so that dry burning can be avoided, the contact surface of the liquid and the micropore heating core 500 can be improved, and the smoke quantity is improved. The reservoirs 520 are generally disposed symmetrically about the airflow hole 510 or in a surrounding array, and the number of the reservoirs is generally 2-4, or may be set according to actual needs, and in particular, the reservoirs 520 are disposed corresponding to the liquid passing holes 112.

Referring to fig. 4-7, the liquid storage chamber 310 includes a top 110 connecting seat, a chamber wall 300 and a bottom connecting seat 400 connected in sequence, the top 110 connecting seat is detachably connected with the chamber wall 300 in a sealing manner, the liquid outlet 410 is disposed on the bottom connecting seat 400, one end of the air tube 600 is connected with the bottom connecting seat 400 in a sealing manner, and the other end is connected with the top 110 connecting seat in a sealing manner. The top 110 connecting base is detachably connected with the bin wall 300 to facilitate liquid injection. The bottom connection seat 400 may be integrally formed with the air tube 600 or hermetically connected. Specifically, the top portion 110 is connected to the base and has a downwardly extending cylindrical wall 420, and the outer circumferential wall 120 of the heat generating core sealing member 100 is sealingly connected to the cylindrical wall 420.

As can be appreciated, referring to fig. 4-7, the atomizer generally further comprises a suction nozzle 700, a base 800 and an electrode 811, the suction nozzle 700 being connected to the connecting base of the top 110 and communicating with the air tube 600; the base 800 is connected with the bottom connection seat 400 and supports the heating core, the base 800 is generally provided with an air inlet hole 810, the air inlet hole 810 is communicated with the air exchange groove 121 and the air flow hole 510, the electrode 811 is arranged in the base 800 through an insulating sheath 812 and is exposed outwards, and the heating core is electrically connected with the electrode 811. In particular, in the base 800, a condensation absorption member 900 may be further disposed below the microporous heating core 500, the condensation absorption member 900 is made of a microporous material, preferably ceramic, and is used for absorbing the condensed liquid, and it can be understood that the condensation absorption member 900 has an air passage hole, the air passage hole is communicated with the air inlet hole 810 to form two air flow passages, one is a smoke passage, and the other is an air exchange passage, and the smoke passage passes through the air inlet hole 810, the air passage hole, the air flow hole 510, the air vent 111, the air pipe 600, and the suction nozzle 700, and the other passes through the air inlet hole 810, the air passage hole, the air exchange groove 121/the auxiliary groove 123, and the liquid storage tank 310.

It is understood that the microporous heating core 500 is made of a material having micropores and a heating material, the microporous material is preferably ceramic, and other microporous materials may also be used as required, the heating material is preferably copper, iron, nickel or an alloy, and the heating material is attached to the microporous material, and the heating material is provided with pins for connecting the electrodes 811.

It should be noted that, if directional indications (such as up, down, left, right, front, back, 8230; \8230;) are provided in the embodiments of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

To sum up, the utility model provides a pair of core sealing member and atomizer generate heat, the liquid hole has been seted up at core sealing member top generates heat, liquid is direct from last to the top of circulation to the micropore core that generates heat down, it has communicated the groove of ventilating through the spread groove to cross the liquid hole, when not using because the stock solution storehouse is sealed, liquid can not flow through the groove of ventilating under the pressure effect, when using, because the micropore core that generates heat has heated liquid, the mobility of liquid strengthens, other external can be through the groove of ventilating automatic entering stock solution storehouse in, make the air pressure balance in the stock solution storehouse, liquid can be smooth and easy generate heat the core contact with the micropore. And this application is direct by the core sealing member parcel micropore that generates heat the core, need not the cotton core of cladding, the difficult burnt paste of the core sealing member that generates heat that flexible material made can adopt temperature resistant material, long service life, especially is fit for disposable atomizer.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description in any form, and although the present invention has been disclosed with reference to the preferred embodiment, it is not limited to the present invention, and any skilled person in the art can make modifications or changes equivalent to the equivalent embodiment of the above embodiments without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a core sealing member generates heat which characterized in that for sealing connection micropore generates heat core and stock solution storehouse, generate heat the core sealing member and make by flexible material, include:

the middle part of the top part is provided with a vent hole, and a plurality of liquid passing holes are symmetrically arranged by taking the vent hole as a center or are arranged in a surrounding way;

the peripheral wall is connected with the top, and the inner wall of the peripheral wall is provided with at least one air exchange groove communicated with one of the liquid passing holes through a connecting groove.

2. A heat generating core sealing member according to claim 1, further comprising a bottom bracket, said bottom bracket being annular and connected to an end of said peripheral wall remote from said top portion, said ventilation slot extending outwardly through said bottom bracket.

3. A heat generating core seal according to claim 1, wherein the inner wall of said peripheral wall further includes an auxiliary groove extending downward from said top.

4. A heat generating core sealing member according to claim 3, wherein the ventilation groove and/or the auxiliary groove are bent and extended.

5. A heat generating core sealing member according to claim 1, wherein an edge of the top portion is provided with a first bead.

6. A heat generating core sealing member according to claim 1, wherein said top portion is provided with a second bead between said vent hole and said liquid passing hole.

7. A heat generation core sealing member according to claim 1, wherein an outer wall of the peripheral wall is provided with at least one third bead.

8. An atomizer, comprising the heat generating core sealing member of any one of claims 1 to 7, further comprising a liquid storage chamber, a microporous heat generating core, and an air tube, wherein a liquid outlet is provided at the bottom of the liquid storage chamber, the heat generating core sealing member wraps the microporous heat generating core, the liquid outlet is communicated to the top of the microporous heat generating core through a liquid passing hole of the heat generating core sealing member, an air flow hole is provided at the middle part of the microporous heat generating core, and the air tube, the air vent and the air flow hole are communicated.

9. An atomizer according to claim 8, wherein a plurality of liquid reservoirs are provided on the top of said microporous heating core, and said liquid outlet, said liquid passing hole and said liquid reservoirs are in communication.

10. The atomizer according to claim 8, wherein said reservoir comprises a top connecting seat, a wall and a bottom connecting seat connected in sequence, said top connecting seat is detachably and hermetically connected with said wall, said liquid outlet is disposed on said bottom connecting seat, one end of said gas pipe is hermetically connected with said bottom connecting seat, and the other end of said gas pipe is hermetically connected with said top connecting seat.

Images