CN215684866U - Micropore ceramic atomizing core generates heat to side - Google Patents

Abstract

The utility model relates to the technical field of ceramic heating bodies, in particular to a microporous ceramic atomizing core with heat generated from side surfaces, wherein the microporous ceramic base comprises an adsorption base body and an oil storage base body, the lower end surface of the adsorption base body is an atomizing surface, a heating element is embedded in the atomizing surface, the heating element comprises a first side surface heating part, a middle heating part and a second side surface heating part, the middle heating part is provided with two connecting ends, the first side surface heating part is connected with one end of the middle heating part, the second side surface heating part is connected with the other end of the middle heating part, and the first side surface heating part and the second side surface heating part are embedded in the adsorption base body; the oil storage base body is arranged on the upper end face of the adsorption base body. When the microporous ceramic atomizing core is used, tobacco tar permeates into the first side heating part and the second side heating part of the adsorption matrix from the oil storage tank to be preheated and then is heated to the middle heating part of the atomizing surface, so that the atomizing core has good atomizing effect and better energy-saving effect.

Description

Micropore ceramic atomizing core generates heat to side

Technical Field

The utility model relates to the technical field of ceramic heating bodies, in particular to a microporous ceramic atomizing core with a heating side surface.

Background

The atomizing core is a heating structure for atomizing the tobacco tar, the existing atomizing core comprises a microporous ceramic substrate and heating sheets uniformly distributed on the lower surface of the microporous ceramic substrate, an oil inlet groove is formed in the upper surface of the microporous ceramic substrate, the tobacco tar enters the oil inlet groove, the heating sheets generate heat to atomize the tobacco tar in the oil inlet groove, the heating sheets are of a sheet structure, the tobacco tar in the substrate is mainly atomized on the surfaces of the heating sheets, the atomizing effect is poor, meanwhile, the heating sheets are uniformly distributed on the lower surface of the microporous ceramic substrate, the lower surface of the microporous ceramic substrate is thick except the oil inlet groove, partial heat of the heating sheets is transferred to the outer wall of the substrate except the oil inlet groove on the lower surface of the substrate, the heating area of the substrate is large, and the heat capacity of the substrate is reduced; and another kind of design will generate heat the piece sintering on micropore ceramic base surface, during the sintering, because the piece that generates heat buries the depth degree inconsistent of micropore ceramic base, consequently, after expend with heat and contract with cold, the piece that generates heat breaks away from micropore ceramic base easily, influences the qualification rate of product, simultaneously because the piece that generates heat buries the depth degree inconsistent of micropore ceramic base, in atomizing heating process, forms dry combustion method and temperature inconsistent during heating and atomizing, influences the taste.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the utility model aims to provide the microporous ceramic atomizing core with the side heating function, the microporous ceramic atomizing core is simple and novel in structure, the microporous ceramic base body is composed of an adsorption base body and an oil storage base body, when the microporous ceramic atomizing core is used, smoke oil permeates into a first side heating part and a second side heating part of the adsorption base body from an oil storage tank through micropores to be preheated, and then is heated to a middle heating part of an atomizing surface, so that the atomizing core is better in heating effect and atomizing effect, and the oil storage base body is independently arranged, so that the oil storage area is increased, the oil supply speed is buffered, the smoke oil is preheated first and then is heated, condensation is reduced, and the energy-saving effect is better.

The purpose of the utility model is realized by the following technical scheme: a micropore ceramic atomizing core with side heating comprises a micropore ceramic base body, wherein the micropore ceramic base body comprises an adsorption base body and an oil storage base body, the lower end face of the adsorption base body is an atomizing face, a heating element is embedded in the atomizing face, the heating element comprises a first side heating part, a middle heating part and a second side heating part, the middle heating part is provided with two connecting ends, the first side heating part is connected with one end of the middle heating part, the second side heating part is connected with the other end of the middle heating part, and the first side heating part and the second side heating part are embedded in the adsorption base body; the oil storage base body is arranged on the upper end face of the adsorption base body.

Further, the heat generating element further includes a first connecting portion and a second connecting portion, the first connecting portion is connected to the first side surface heat generating portion, and the second connecting portion is connected to the second side surface heat generating portion.

Furthermore, the end part of the first connecting part is provided with a first electrode, the first electrode is connected with the first connecting part, the end part of the second connecting part is provided with a second electrode, and the second electrode is connected with the second connecting part.

Furthermore, the middle heating part, the first connecting part, the first electrode, the second connecting part and the second electrode are arranged on the surface of the atomization surface.

Furthermore, the upper end surface of the oil storage base body is a liquid absorption surface, and an oil storage tank is concavely arranged on the liquid absorption surface.

Further, the surface area of the oil storage matrix is smaller than that of the adsorption matrix.

Furthermore, the middle heating part is arranged in a reciprocating and folding way or in an S shape.

The utility model has the beneficial effects that: the microporous ceramic atomizing core is simple and novel in structure, the microporous ceramic base body is composed of an adsorption base body and an oil storage base body, smoke enters an oil storage tank from an oil suction surface and permeates into a first side heating part and a second side heating part of the adsorption base body through micropores to be preheated when the microporous ceramic atomizing core is used, and then the smoke is heated to a middle heating part of an atomizing surface, so that the atomizing core is better in heating effect and good in atomizing effect, the oil storage base body is independently arranged to increase the oil storage area and buffer the oil supply speed, and the smoke is preheated and then heated to reduce condensation and achieve better energy-saving effect.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of another embodiment of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a side view of the present invention;

FIG. 5 is a schematic perspective view of another embodiment of the present invention;

fig. 6 is a schematic structural view of the heating element of the present invention.

The reference signs are: 1-microporous ceramic substrate, 11-adsorption substrate, 111-atomization surface, 12-oil storage substrate, 121-liquid absorption surface, 122-oil storage tank, 2-heating element, 21-first side heating part, 22-middle heating part, 23-second side heating part, 24-first connection part, 25-second connection part, 26-first electrode and 27-second electrode.

Detailed Description

For the understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying fig. 1-6, which are not intended to limit the present invention.

Referring to fig. 1-6, a microporous ceramic atomizing core with side heating comprises a microporous ceramic base 1, wherein the microporous ceramic base 1 comprises an adsorption base 11 and an oil storage base 12, the lower end surface of the adsorption base 11 is an atomizing surface 111, a heating element 2 is embedded in the atomizing surface 111, the heating element 2 comprises a first side heating part 21, a middle heating part 22 and a second side heating part 23, the middle heating part 22 is provided with two connecting ends, the first side heating part 21 is connected with one end of the middle heating part 22, the second side heating part 23 is connected with the other end of the middle heating part 22, and the first side heating part 21 and the second side heating part 23 are embedded in the adsorption base 11; the oil storage base 12 is provided on the upper end surface of the adsorption base 11.

The micropore ceramic atomizing core of this embodiment's simple structure, it is novel, set up micropore ceramic base member 1 to constitute by two parts about absorption base member 11 and oil storage base member 12, the tobacco tar gets into the portion 21 that generates heat of first side portion of absorption base member 11 through the micropore infiltration in the oil storage tank 122 from the imbibition face when using, the portion 23 that generates heat of second side portion preheats, it heats to the middle portion 22 that generates heat of atomizing face 111 again, make the heating effect of atomizing core better, atomization effect is good, and set up the multiplicable oil storage area of oil storage base member 12 alone, buffering fuel feeding speed, preheat earlier through to the tobacco tar, heat again, reduce the condensation, energy-conserving effect is better.

In this embodiment, the heat generating element 2 further includes a first connecting portion 24 and a second connecting portion 25, the first connecting portion 24 is connected to the first side heat generating portion 21, and the second connecting portion 25 is connected to the second side heat generating portion 23; a first electrode 26 is arranged at the end part of the first connecting part 24, the first electrode 26 is connected with the first connecting part 24, a second electrode 27 is arranged at the end part of the second connecting part 25, and the second electrode 27 is connected with the second connecting part 25; the intermediate heat generating portion 22, the first connection portion 24, the first electrode 26, the second connection portion 25, and the second electrode 27 are provided on the surface of the atomization surface 111.

In this embodiment, the first connection portion 24, the second connection portion 25, the first electrode 26 and the second electrode 27 are used as components directly connected to an external power supply, so as to effectively avoid the situation that the first side heating portion 21, the middle heating portion 22 or the second side heating portion 23 is directly contacted with the power supply, and the first side heating portion 21, the middle heating portion 22 or the second side heating portion 23 is burned or deformed due to instantaneous over-high temperature, thereby ensuring the stable structure of the heating element 2, preventing deformation, prolonging the service life, saving energy, and being safe and environment-friendly.

In this embodiment, the upper end surface of the oil storage base 12 is a liquid absorption surface, and the liquid absorption surface is concavely provided with an oil storage tank 122; the surface area of the oil storage matrix 12 is smaller than the surface area of the adsorption matrix 11.

In the present embodiment, when the microporous ceramic atomizing core is used, the smoke enters the oil storage tank 122 from the liquid absorption surface, permeates into the adsorption base 11 through the micropores, is preheated by the first side heating part 21 and the second side heating part 23, and is heated and atomized by the middle heating part 22 of the atomizing surface 111, and the surface area of the adsorption base 11 is controlled to be larger than the surface area of the oil storage base 12, so that the oil storage area can be increased, the oil supply speed can be buffered, and the condensation can be reduced.

In this embodiment, the middle heating portion 22 is folded back and forth or S-shaped.

The middle heating part 22 of this embodiment adopts reciprocal inflection setting or S-shaped setting can further increase with the area of contact that generates heat of atomizing face 111 for this micropore ceramic atomizing core' S heating effect is better, atomization effect is good, under the circumstances of guaranteeing the atomizing taste, guarantees to send out heating element 2 and generates heat the best, and the heat maximum that produces is transmitted to absorption base member 11 and is atomized the tobacco tar.

The above-described embodiments are preferred implementations of the present invention, and the present invention may be implemented in other ways without departing from the spirit of the present invention.

Claims (7)

1. The utility model provides a side micropore ceramic atomizing core that generates heat, includes micropore ceramic base member, its characterized in that: the micro-porous ceramic base comprises an adsorption base body and an oil storage base body, the lower end face of the adsorption base body is an atomization face, a heating element is embedded in the atomization face, the heating element comprises a first side heating part, a middle heating part and a second side heating part, the middle heating part is provided with two connecting ends, the first side heating part is connected with one end of the middle heating part, the second side heating part is connected with the other end of the middle heating part, and the first side heating part and the second side heating part are embedded in the adsorption base body; the oil storage base body is arranged on the upper end face of the adsorption base body.

2. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 1, wherein: the heating element further comprises a first connecting part and a second connecting part, the first connecting part is connected with the first side surface heating part, and the second connecting part is connected with the second side surface heating part.

3. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 2, wherein: the end part of the first connecting part is provided with a first electrode, the first electrode is connected with the first connecting part, the end part of the second connecting part is provided with a second electrode, and the second electrode is connected with the second connecting part.

4. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 3, wherein: the middle heating part, the first connecting part, the first electrode, the second connecting part and the second electrode are arranged on the surface of the atomization surface.

5. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 1, wherein: the upper end surface of the oil storage base body is a liquid absorption surface, and an oil storage tank is concavely arranged on the liquid absorption surface.

6. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 1, wherein: the surface area of the oil storage matrix is smaller than the surface area of the adsorption matrix.

7. The microporous ceramic atomizing core with heat generation on the side surface as claimed in claim 1, wherein: the middle heating part is arranged in a reciprocating and folding way or in an S shape.

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