WO2022148147A1 - Atomizing core having humidity sensing element - Google Patents

Abstract

An atomizing core (1) having a humidity sensing element, comprising a liquid guiding member (11), a heating element (12) and the humidity sensing element (13). The liquid guiding member (11) is used for absorbing and storing a liquid to be atomized, and guiding the liquid to be atomized to the heating element (12). The heating element (12) heats and atomizes the liquid to be atomized. The humidity sensing element (13) is used for measuring the humidity of the liquid to be atomized in the liquid guiding member (11). The present atomizing core having the humidity sensing element can quickly prevent, without delay, the atomizing core from dry burning.

Description

Coil with humidity sensor technical field

The present invention relates to the technical field of electronic atomization equipment, and more particularly, the present invention relates to an atomizing core with a humidity-sensitive element.

Background technique

Electronic atomization equipment generally includes atomization components and battery components. The battery components are used to control the atomization components and provide power to the atomization components. The atomization assembly generally includes a liquid storage device and an atomization core. The liquid storage device is filled with the liquid to be atomized. The liquid to be atomized, that is, the liquid to be atomized can be smoke liquid or a solution containing drugs. The atomization core generally includes a guide. Liquid and heating element, conducting liquid to receive, penetrate, and conduct the liquid to be atomized in the liquid storage device, the heating element generates heat after being energized, and the atomizing core is used to heat, evaporate, and atomize the liquid to be atomized into aerosol or steam, Vapor mist for users to inhale and use for health and medical purposes. The atomization core is the key component of the electronic atomizer, and its performance directly determines the atomization effect, heating efficiency and user experience of the electronic atomizer.

At present, the atomizing core on the market is usually composed of liquid-conducting cotton and heating resistance wire, or ceramic liquid-conducting and heating resistance wire. The combination of heating resistance wire and liquid-conducting cotton is generally wound, and the combination of resistance wire and ceramic liquid-conducting The methods include implantation, printing, patch, etc. Different combination methods have different effects on liquid conduction efficiency and heat transfer efficiency. In the existing atomizing core, when the atomizing liquid is about to be used up or the conduction is not smooth, the temperature of the atomizing core will rise sharply, resulting in dry burning of the atomizing core, and the atomizing core is easy to be burned at high temperature. As well as producing scorched smoke, inhaling it will cause a bad taste and experience to the user.

The existing method for preventing dry burning of the atomizing core is generally to detect the temperature of the atomizing core during operation, and when the temperature of the atomizing core rises to a set threshold, the power supply is turned off to stop the working of the atomizing core. This method needs to use the temperature sensing element to detect the temperature of the atomizing core in real time, but the method of detecting the temperature is detected after the lack of the liquid to be atomized and the temperature rises to a certain extent, so it has a certain lag. Sex, there is still a certain degree of dry burning.

technical problem

The purpose of the present invention is to provide an atomizing core with a humidity sensitive element in order to overcome the deficiencies of the above technologies.

technical solutions

The technical solution of the present invention is achieved as follows: an atomizing core with a humidity-sensitive element, which is used for heating and atomizing the liquid to be atomized in an electronic atomization device, includes a liquid conducting element, a heating element and a humidity-sensitive element, the The conducting liquid is used to absorb and store the liquid to be atomized and conduct the liquid to be atomized to the heating element, and the heating element heats and atomizes the liquid to be atomized. It is used to detect the humidity of the liquid to be atomized contained in the conducting liquid.

Preferably, the humidity-sensitive element is a humidity-sensitive sensor made of a humidity-sensitive material provided on the conducting liquid.

Preferably, the liquid conducting material is made of a porous ceramic base material, the humidity sensitive element is made of a moisture sensitive material, and the moisture sensitive material and the porous ceramic base material are mixed together and sintered together.

Preferably, the conductive liquid is made of a porous ceramic base material, the heating element is made of a heat-generating material, the humidity sensitive element is made of a moisture-sensitive material, and the moisture-sensitive material, the heat-generating material and the porous ceramic base material are mixed together Sintered into one.

Preferably, the humidity sensitive element is formed of a humidity sensitive material, the heating element is formed of a heating material, and the humidity sensitive material and the heating material are mixed into one body.

Preferably, the humidity sensitive material includes MgO, Cr ₂ O ₃ , TiO ₂ , NH ₄ VO ₃ , ZnCr ₂ O ₄ , ZnO, SnO ₂ , LiZnVO ₄ , ZnCrVO ₄ , V ₂ O ₅ , Fe ₂ O ₃ , One or more of Li ₂ O, Na ₂ O, K ₂ O, and CaO.

Preferably, the porous ceramic matrix material includes one or more of SiO₂, Fe₂O₃, and Al₂O₃.

Preferably, the heating material includes graphene or at least one of nickel-chromium, nickel-iron, stainless steel, tungsten wire, and iron-chromium-aluminum.

Preferably, the humidity sensing element and the heating element are respectively provided with two pins.

beneficial effect

The present invention utilizes the characteristic that the humidity sensor has different resistance values when the dry humidity of the liquid to be atomized is different. , by detecting its resistance, the dry humidity of the atomizing core can be determined, so that when the liquid to be atomized is lacking in the conducting liquid, the humidity can be quickly detected due to its reduced humidity, so as to reduce the power or shut down the power in time, which can quickly, Prevent the atomizing core from drying out without delay.

Description of drawings

FIG. 1 is a cross-sectional view of an atomizing core of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

The atomizing core with humidity sensitive element of the present invention is used for electronic atomizing equipment (not shown in the figure), and the electronic atomizing equipment includes atomizing components and battery components. The battery components are used to control the atomizing components and provide power to the atomizing components . The atomization assembly includes a liquid storage device and an atomization core, and the liquid storage device is filled with the liquid to be atomized.

As shown in FIG. 1 , an atomizing core 1 with a humidity sensing element according to an embodiment of the present invention is used to heat and atomize the liquid to be atomized. The atomizing core 1 includes a liquid conducting element 11, a heating element 12 and a humidity sensing element 13, The heating element 12 and the humidity sensing element 13 are arranged on the liquid conducting element 11 , including on the surface or inside thereof. The conducting liquid 11 can absorb, penetrate, store the liquid to be atomized and conduct the liquid to be atomized to the heating element 12 . The heating element 12 heats and atomizes the liquid to be atomized, and the humidity sensor 13 is used to detect the humidity of the liquid to be atomized contained in the conducting liquid. The humidity sensing element 13 and the heating element 12 are respectively provided with two pins, the heating element 12 is provided with a pin 14, and the pins of the humidity sensing element 13 are not shown in the figure. The heating element 12 can heat, evaporate and atomize the liquid to be atomized into aerosol or steam or mist, and the generated mist can be sucked out by the user through the mist channel provided in the atomization assembly. The humidity of the liquid guide 11 refers to relative humidity. When the liquid guide 11 completely absorbs, penetrates, and stores the liquid to be atomized in a maximum amount, its humidity is 100%. When the liquid guide 11 does not absorb the liquid to be atomized, that is, it is completely dry. Its humidity is 0%. The humidity sensing element 13 can sense the humidity of the conductive liquid 11 by changing the resistance value.

In this embodiment, the liquid guide 11 of the atomizing core 1 is made of a porous ceramic base material, and the humidity sensitive element 13 is integrally made by adding the moisture sensitive material to the liquid guide 11. The moisture sensitive material and the porous ceramic base material can be mixed together. Sintered into one. That is, the liquid conducting 11 and the humidity sensing element 13 are combined into one to make the same porous ceramic atomizing core. The heating element 12 is made of a resistive material that can be energized and heated.

The humidity-sensitive element 13 is composed of a humidity-sensitive material. The humidity-sensitive material refers to a functional material whose resistance value changes with the humidity of the environment. Zinc oxide, etc. It can convert changes in humidity into electrical signals through resistance values. Moisture-sensitive materials can realize automatic indication, automatic recording, automatic control and adjustment of humidity.

In this embodiment, the humidity sensitive material is composed of MgO, Cr ₂ O ₃ , TiO ₂ , and NH ₄ VO ₃ , the porous ceramic matrix material is composed of SiO₂, Fe₂O₃, and Al₂O₃, and the heating material is composed of nickel-chromium.

In other embodiments, the liquid guide 11 can also be made of liquid guide cotton or glass fiber material, and the humidity sensing element 13 can also be independently provided on the liquid guide 11 and made of a moisture sensor made of a moisture sensitive material.

In other embodiments, the conductive liquid 11 is made of a porous ceramic base material, the heating element 12 is made of a heat-generating material, and the humidity sensitive element 13 is made of a moisture-sensitive material. The moisture-sensitive material, the heat-generating material and the porous ceramic base material can be mixed together and sintered into one.

In other embodiments, the humidity sensitive element 13 is formed of a humidity sensitive material, and the heating element 12 is formed of a heating material, and the humidity sensitive material and the heating material can also be mixed into one body.

In other embodiments, the moisture sensitive material can also be made of ZnCr ₂ O ₄ , ZnO, SnO ₂ , LiZnVO ₄ , ZnCrVO ₄ , V ₂ O ₅ , Fe ₂ O ₃ , Li ₂ O, Na ₂ O, K ₂ O, It is composed of one or more of CaO, and the heating material can also be composed of at least one of graphene, nickel-iron, stainless steel, tungsten wire, and iron-chromium-aluminum.

Industrial Applicability

The above descriptions are only preferred embodiments of the present invention, and all equivalent changes and modifications made according to the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.

Claims (9)

1. An atomizing core with a humidity-sensitive element, which is used for heating and atomizing a liquid to be atomized in an electronic atomization device, characterized in that it comprises a liquid-conducting element, a heating element and a humidity-sensing element, and the liquid-conducting liquid is used for absorbing and storing The liquid to be atomized and the liquid to be atomized is conducted to the heating element, the heating element heats and atomizes the liquid to be atomized, and the humidity sensor is used to detect the conductive liquid The humidity of the liquid to be atomized contained in it.
2. The atomizing core with a humidity-sensitive element according to claim 1, wherein the humidity-sensitive element is a humidity-sensitive sensor made of a humidity-sensitive material, which is provided on the conductive liquid.
3. The atomizing core with a humidity-sensitive element according to claim 1, wherein the conducting liquid is composed of a porous ceramic matrix material, the humidity-sensitive element is composed of a humidity-sensitive material, and the humidity-sensitive material is formed with the moisture-sensitive material. The porous ceramic matrix materials are mixed together and sintered together.
4. The atomizing core with a humidity-sensitive element according to claim 1, characterized in that the conducting liquid is made of a porous ceramic base material, the heating element is made of a heating material, and the humidity-sensitive element is made of a humidity-sensitive material , the humidity-sensitive material, the heat-generating material and the porous ceramic matrix material are mixed together and sintered into one body.
5. The atomizing core with a humidity-sensitive element according to claim 1, wherein the humidity-sensitive element is formed of a humidity-sensitive material, the heat-generating element is formed of a heat-generating material, and the humidity-sensitive material and the heat-generating material Mixed together to make.
6. The atomizing core with a humidity-sensitive element according to any one of claims 2-5, wherein the humidity-sensitive material comprises MgO, Cr ₂ O ₃ , TiO ₂ , NH ₄ VO ₃ , ZnCr ₂ O ₄ , ZnO, SnO ₂ , LiZnVO ₄ , ZnCrVO ₄ , one or more of V ₂ O ₅ , Fe ₂ O ₃ , Li ₂ O , Na ₂ O, K ₂ O and CaO.
7. The atomizing core with humidity sensing element according to claim 3 or 4, wherein the porous ceramic matrix material comprises one or more of SiO₂, Fe₂O₃, and Al₂O₃.
8. The atomizing core with humidity sensing element according to claim 4 or 5, wherein the heating material comprises at least one of graphene or nickel-chromium, nickel-iron, stainless steel, tungsten wire, and iron-chromium-aluminum.
9. The atomizing core with a humidity-sensitive element according to claim 1, wherein the humidity-sensitive element and the heating element are respectively provided with two pins.