CN115644519A - Can strengthen leading liquid and atomizing heating element and atomizer - Google Patents

Abstract

The invention provides a heating component and an atomizer capable of enhancing liquid guiding and atomization, wherein the heating component comprises liquid guiding, and a fixing column is convexly arranged in the middle of one end of the heating component; the heating body is made of porous metal, is injected into the liquid guide body and is used for heating and atomizing the liquid substrate guided to the heating body, and a plurality of atomizing holes for exposing the internal heating body are formed in one end of the liquid guide body far away from the fixing column; and at least two electrodes are arranged on the heating body, and the position of one end of the conducting liquid far away from the fixed column corresponding to the electrodes is provided with a window so as to expose the electrodes inside. The heating assembly solves the problems of low liquid guiding efficiency, poor atomization effect and easy deformation and damage due to insufficient rigidity of the heating body in the prior art.

Description

Can strengthen leading liquid and atomizing heating element and atomizer

Technical Field

The invention relates to the technical field of electronic atomization, in particular to an atomization and atomizer with porous metal as a heating part.

Background

In the prior art, an electronic atomization device mainly comprises an atomizer and a power supply assembly. An atomizer generally comprises a liquid storage part and an atomizing core, wherein the liquid storage part is used for storing an atomized liquid substrate, and the atomizing core is used for heating and atomizing the liquid substrate to form aerosol which can be eaten by a user; the power supply assembly is used to provide energy to the atomizer.

Wherein, the atomizing core includes the heat-generating body and leads the liquid, utilize to lead liquid and lead liquid matrix to lead to heat-generating body department, and the heat-generating body is then atomized to leading liquid matrix in the liquid, but among the integrated configuration between them in the current, lead the liquid one side of leading of liquid and the heat-generating body to have certain distance, lead to leading liquid speed slow, influence atomization effect, and the heat-generating body is established on leading the surface of liquid, how effectual butt combination is a problem between the two, still because of the heat-generating body is soft structure partially, intensity and rigidity are not enough, the setting is influenced appearance deformation and damage that receives external force easily on the surface, often need additionally to set up heat-generating body support etc. and fix and improve intensity.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a heating component and an atomizer capable of enhancing liquid guiding and atomization, and aims to solve the problems that the liquid guiding efficiency is slow, the atomization effect is poor, and a heating body is insufficient in rigidity and easy to deform and damage in the prior art.

In a first aspect, to solve the above technical problem, a heating assembly capable of enhancing liquid guiding and atomization is provided, which includes:

the liquid guide device is used for absorbing liquid and conducting liquid matrix, and a fixing column is convexly arranged in the middle of one end of the liquid guide device;

the heating body is made of porous metal, is injected into the liquid guide body and is used for heating and atomizing the liquid substrate guided to the heating body, and a plurality of atomizing holes for exposing the internal heating body are formed in one end of the liquid guide body far away from the fixing column; and the heating body is provided with at least two electrodes, and the end of the conducting liquid far away from the fixed column is provided with a window at the position corresponding to the electrode so as to expose the electrode inside.

Further, the porous metal is a metal felt, a foam metal or a heating cloth.

Further, the drainage body is made of porous ceramics.

Furthermore, the heating body comprises a plurality of V-shaped parts which are connected end to form a ring shape, so that a round hole is formed in the middle of the heating body.

Further, the heat-generating body includes that the centre has the first ring portion of round hole, interval encircle locate the second ring portion of first ring portion periphery and at least two bar portions that are used for connecting first ring portion and second ring portion, just the periphery arch of second ring portion is equipped with the electrode that two at least symmetries set up.

Furthermore, the periphery of the second circular part is also provided with two symmetrically arranged auxiliary electrodes in a protruding manner.

Furthermore, the position corresponding to each electrode is provided with one strip-shaped part, and the strip-shaped parts are linear or curved.

Furthermore, a through air passage is arranged at the center of the fixing column, the circle center of the round hole and the circle center of the air passage are located on the same axis, and the aperture of the round hole is smaller than that of the air passage, so that at least part of the heating body is exposed in the air passage.

Furthermore, a plurality of reinforcing ribs are arranged between the liquid guide body and the fixing column.

In a second aspect, the present invention further provides an atomizer, including the heat generating component according to any one of the first aspect, which can enhance liquid guiding and atomization.

The invention has the following beneficial effects:

according to the invention, the heating element is firstly injected into the liquid guide body, so that the heating element is directly coated by the liquid guide body, the structural strength of the heating element is improved, the heating element is not directly influenced by external force, and the problems that the heating element is easily deformed and damaged under stress when arranged on the surface of the liquid guide body are solved; secondly, the mode of injection molding the heating element inside can also reduce the conduction distance for transferring the liquid matrix to the heating element, so as to improve the liquid guiding speed and the atomization effect, and solve the problems of slow liquid guiding efficiency, poor atomization effect and easy deformation and damage due to insufficient rigidity of the heating element in the prior art; the atomizing holes arranged on the liquid guide body can ensure that the atomized aerosol can flow out, and the design of the window can realize the electric connection between the heating body and the external power supply assembly.

In addition, at least part of the heating body is exposed in the air passage to be directly atomized at the air passage and matched with the aerosol atomized in the atomizing hole, so that the atomizing rate and effect are improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a heat generating component in an embodiment;

FIG. 2 is a sectional view of a heat generating component in the embodiment;

FIG. 3 is a top view of a heat generating component in an embodiment;

FIG. 4 is a bottom view of the heating element in the embodiment;

FIG. 5 is a schematic view of a heat generating body in one embodiment thereof;

FIG. 6 is a schematic view of a heat generating body in another embodiment;

FIG. 7 is a schematic view of a heat-generating body in still another specific embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Example 1

As shown in fig. 1-4, the heating element capable of enhancing liquid guiding and atomization in this embodiment is applied to an atomizer of an electronic atomization device, and is used for heating and atomizing a liquid substrate stored in the atomizer to form an aerosol for human consumption; the heating component specifically comprises a columnar liquid guiding body 1 and a heating body 2, wherein the liquid guiding body 1 is used for absorbing and conducting liquid matrix in an atomizer, and the liquid guiding body 1 is provided with two surfaces which are arranged oppositely along the height direction and communicated with each other, so that the liquid matrix can flow between the two surfaces under the action of the liquid guiding body; the heating element 2 is made of porous metal, namely, a large number of directional or random holes are dispersedly distributed in the heating element, so that the heating element can absorb liquid matrix while being heated and atomized, the liquidity of the liquid matrix in the atomizing core can be improved in the atomizing process, the atomizing effect of the liquid matrix is further ensured, the aerosol formed by atomization has good taste consistency, the heating element is arranged in the liquid guide in an integrated forming mode such as injection molding, the heating element is in a structure of injection molding in the liquid guide, the heating element can be directly coated by the liquid guide, the structural strength of the heating element is improved, the heating element cannot be directly influenced by external force, and the problems that the heating element is easily deformed and damaged under stress when arranged on the surface of the liquid guide are solved; secondly, the mode of injecting the heating element into the interior can also reduce the conduction distance of transmitting the liquid substrate to the heating element, so as to improve the liquid guiding speed and the atomization effect.

It can be understood that, in practical use, the liquid guide body has two opposite surfaces, one of which is a liquid absorption surface 3 contacting with the liquid matrix in the atomizer, and the other surface is an atomization surface 4 atomizing the liquid matrix and outputting aerosol outwards, that is, when the liquid guide body guides the liquid matrix from the liquid absorption surface to the atomization surface, the liquid guide body is heated and atomized by an internal heating body to generate aerosol, that is, the heating body is located between the liquid absorption surface and the atomization surface; in addition, the liquid guide body can be cylindrical, flat or step-shaped, and the like, and the present application is not limited to this specifically, in this embodiment, a cylindrical example is taken as an example, the fixing column 10 is convexly arranged in the middle of the liquid absorption surface of the liquid guide body, the heating component can be fixed in the atomizer by using the fixing column, and in the structural design of fixing by using the fixing column, the periphery of the liquid guide body can be directly contacted with the liquid matrix, and only the atomizing surface is exposed outside the atomizer to absorb liquid, that is, except that the liquid absorption surface is contacted with the liquid matrix to absorb liquid, the outer Zhou Yeke absorbs liquid, the contact area of the liquid guide body and the liquid matrix is increased, and the liquid guide amount and the liquid guide speed can be effectively increased.

Preferably, an air passage 11 which penetrates through the atomizing surface and the liquid absorbing surface in the front and back is arranged at the center of the fixed column 10, a through round hole 20 is arranged at the center of the heating body 2 at a position corresponding to the air passage 11, namely, the circle center of the round hole and the circle center of the air passage are positioned on the same axis; and both ends at heating body 2 all are equipped with an electrode 21, use as anodal and negative pole respectively, and be used for connecting external power supply's positive negative pole respectively, and offer on leading the atomizing face of liquid 1 in order to show atomizing hole 12 of inside heating body 2 and all offer fenestration 13 in the position department that corresponds two electrodes, in order to show inside electrode 21, the atomizing hole of seting up can ensure that the aerosol after the atomizing can outwards flow, fenestration then can make things convenient for electrode and external power supply to carry out the electricity and be connected.

Preferably, the liquid guide may be a loose porous material such as a fiber layer or porous ceramics, or may be a perforated glass substrate or dense ceramic substrate having liquid guide holes extending from the liquid-absorbing surface to the atomizing surface. The liquid conducting body in the embodiment is porous ceramic, the porous ceramic material is generally a ceramic material formed by sintering components such as aggregate, a binder, a pore-forming agent and the like at a high temperature, a large number of pore channel structures which are communicated with each other and the surface of the material are arranged in the porous ceramic material, and the porous ceramic material has high porosity, stable chemical property, large specific surface area, small volume density, low heat conductivity, high temperature resistance, corrosion resistance and other excellent performances, and has numerous applications in the fields of metallurgy, biology, energy, environmental protection and the like, wherein the porosity of the porous ceramic in the embodiment is 48-65%, the pore diameter is 15-35um, and the strength is more than 300N.

In some alternative implementations, the porous metal may preferably be a metal felt, a metal foam, or a heat generating cloth; the metal felt is formed by weaving a plurality of metal fibers, so that the metal felt body is provided with a plurality of weaving holes, the liquid suction and liquid guide effects are realized, and meanwhile, in the suction process, the aerosol in the weaving holes can be taken out by suction airflow, so that the taste of the aerosol is further ensured; the metal foam has a plurality of foam pores (i.e. the fine pores and/or micro pores in the metal foam), the diameter of the foam pores can reach millimeter level, and the foam pores on the metal foam are almost or completely communicated with each other, so that the liquid guiding effect can be realized, and the aerosol on the metal foam can be carried out as far as possible.

In a specific embodiment, as shown in fig. 5, the heating element 2 includes a first circular part 23 having a circular hole 20 in the middle, a second circular part 24 surrounding the first circular part 23 at intervals, and two strip parts 25 for connecting the first circular part 23 and the second circular part 24, and two symmetrically arranged electrodes 21 are protruded on the outer periphery of the second circular part 24; this many rings of ring's annular structure design, the current is the cyclic annular flow of connecting in parallel when flowing above that like this, and the design that adopts the ring can improve the rigidity of heat-generating body firstly, makes it more firm, the performance is also more stable and life is longer, secondly can make temperature distribution more even, avoids concentrating the core problem of pasting that leads to because of the heat, makes the aerosol taste that the atomizing produced good.

Preferably, the two strip-shaped portions 25 are respectively and correspondingly disposed at the positions of the two electrodes, that is, the current conducted from one of the electrodes flows from the circular ring portions disposed on the two inner and outer rings to the other electrode, and just flows back and forth in parallel from one end to the other end and around the two circular rings; of course, as shown in fig. 6, two additional auxiliary electrodes 26 may be further added on the periphery of the second circular portion, the two auxiliary electrodes are not used for connecting with an external power supply, the two auxiliary electrodes 26 and the two electrodes 21 are crossed and distributed on the periphery of the second circular portion in an annular array, and the two auxiliary electrodes are used for balancing the temperature distribution around the entire heating element.

Preferably, the strip portion 24 is linear or curved, in this embodiment linear, to facilitate connection and integral formation of the two annular portions.

In a specific other embodiment, as shown in fig. 7, the heating element 2 includes a plurality of V-shaped portions 22 connected end to form a ring-shaped structure, so as to form a circular hole 20 corresponding to the air passage 11 in the middle of the heating element 2, two electrodes 21 are made into a fan shape similar to a V shape, two electrodes 21 and the plurality of V-shaped portions 22 are connected end to end, that is, the connection structure of the electrodes and the V-shaped portions is the same as the connection structure of two adjacent V-shaped portions, and the two electrodes are arranged in bilateral symmetry, that is, two ends between the two electrodes are connected with a plurality of V-shaped portions, so as to form a symmetrical design; the V-shaped linear design of the heating element can ensure that the temperature distribution is uniform and the grain diameter of atomized particles is uniform during heating; it will be appreciated that the apex of the V-shaped portion is disposed inwardly, i.e. the apex of the V-shaped portion is located around the circular aperture.

Preferably, the aperture of the circular hole 20 is smaller than the aperture of the air passage 11, that is, the middle part of the heating element 2 protrudes out of the wall surface of the air passage 11, so that at least part of the heating element 2 is exposed in the air passage 11, and thus the liquid substrate can be conducted to the air passage and directly atomized, and the liquid substrate is matched with the aerosol atomized in the atomization surface, so that the atomization rate and effect are improved.

Preferably, as shown in fig. 4, the atomization holes are arc-shaped holes extending along the circumferential direction, and include a plurality of atomization holes 12 respectively disposed at two sides of the air passage 11 to expose the internal heating element 2, and the plurality of atomization holes are disposed around the air passage 11; of course, the plurality of atomization holes may also be arranged in other distribution manners such as a single-circle or multi-circle annular array, which is not limited herein, and the shape of the atomization holes 12 may also be circular, elliptical, polygonal, or conical.

Preferably, the air passage is a stepped hole with a small end and a large end, the heating element is positioned at the step, the aperture of the round hole is smaller than the minimum aperture of the air passage, and the part with the larger aperture in the air passage is positioned on the atomization surface for guiding liquid, so that the heating element with a larger part can be exposed out in the air passage in the atomization surface for absorbing liquid, the shielding of the atomization surface for guiding liquid to the heating element is reduced, and the contact area between the heating element and air and the atomization area are improved on the premise of ensuring the rigidity of the heating element.

Preferably, a plurality of reinforcing ribs 14 are arranged between the liquid absorbing surface of the liquid guiding body 1 and the fixed column 10 for reinforcing the strength of the fixed column.

Preferably, the heating element is parallel to the atomization surface, so that the conduction distance of the liquid matrix is basically the same, and the atomization effect at each position is balanced; of course, the heating element may also be arranged obliquely, that is, the heating element is not parallel to the atomization surface, so as to adapt to different shape requirements, which is not specifically limited in this application.

Example 2

The atomizer for storing and atomizing a liquid substrate shown in this embodiment is provided with the heat generating component described in embodiment 1 inside, so as to atomize the liquid substrate stored in the atomizer by using the heat generating component.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and those skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the invention, and these modifications or substitutions are included in the scope of the invention; therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a can strengthen leading liquid and atomizing heating element which characterized in that includes:

a fixing column is convexly arranged in the middle of one end of the liquid guide body;

a heating body made of porous metal is injected inside the liquid guide body and used for heating and atomizing the liquid substrate guided to the heating body, and a plurality of atomizing holes for exposing the internal heating body are formed in one end of the liquid guide body far away from the fixing column; and the heating body is provided with at least two electrodes, and the end of the conducting liquid far away from the fixed column is provided with a window at the position corresponding to the electrode so as to expose the electrode inside.

2. The heating element capable of enhancing liquid guiding and atomization as claimed in claim 1, wherein the porous metal is a metal felt, a foam metal or a heating cloth.

3. The heating element capable of enhancing liquid guiding and atomization as claimed in claim 1, wherein the liquid guiding body is made of porous ceramic.

4. The heating element capable of enhancing liquid guiding and atomizing as claimed in claim 1, wherein said heating element includes a plurality of V-shaped portions connected end to end in a ring shape to form a circular hole in the middle of the heating element.

5. The heating element capable of enhancing liquid guiding and atomization as claimed in claim 1, wherein the heating element comprises a first circular ring part with a circular hole in the middle, a second circular ring part arranged around the periphery of the first circular ring part at intervals, and at least two strip-shaped parts for connecting the first circular ring part and the second circular ring part, and two symmetrically arranged electrodes are arranged on the periphery of the second circular ring part in a protruding manner.

6. The heating element capable of enhancing liquid guiding and atomizing as claimed in claim 5, wherein two symmetrically arranged auxiliary electrodes are further protruded from the outer periphery of the second circular portion.

7. The heating element as claimed in claim 5, wherein one of the strip-shaped portions is disposed at a position corresponding to each of the electrodes, and the strip-shaped portion is linear or curved.

8. The heating assembly capable of enhancing liquid guiding and atomizing as claimed in claim 4 or 5, wherein a through air passage is disposed at the center of the fixing column, the center of the circular hole and the center of the air passage are located on the same axis, and the aperture of the circular hole is smaller than that of the air passage, so that at least a portion of the heating element is exposed in the air passage.

9. The heating element capable of enhancing liquid guiding and atomizing as claimed in claim 1, wherein a plurality of reinforcing ribs are arranged between the liquid guiding body and the fixing column.

10. An atomizer, comprising a heat generating component according to any one of claims 1 to 9 for enhanced liquid conduction and atomization.

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