SUMMERY OF THE UTILITY MODEL
The utility model discloses to the problem that present electron smog atomizing device exists, provide a porous glass atomizing device to realize safe in utilization, smog volume abundant and atomizing taste excellent, long service life's purpose.
The utility model discloses a porous glass atomizing device of first aspect, it includes atomizing core 5 and heater 4, atomizing core 5 is porous glass.
Preferably, the heater 4 is enclosed outside the atomizing core 5, and more preferably, the heater 4 is disposed inside the atomizing core 5.
Preferably, the porous glass is formed by sintering sodium borosilicate particles, and the diameter of the sodium borosilicate particles is 2-350 nm.
Preferably, the aperture of the porous glass is 1-300 nm, and the porosity is 30-80%.
Preferably, the heater 4 is a metal heating wire, the metal heating wire is selected from a metal simple substance or a metal alloy, the metal is selected from one or more of nickel, copper, iron, aluminum, titanium or platinum, and the metal heating wire is placed inside the atomizing core 5 or surrounds the atomizing core 5 through a mosaic, winding or sintering technology.
Preferably, the heat generator 4 is a conductive paste selected from tungsten, silver, platinum, rhodium or palladium, and the conductive paste is placed inside the atomizing core 5 or around the atomizing core 5 by screen printing, deposition or spraying technology.
The utility model discloses the second aspect provides an contain porous glass atomizing device's electron cigarette, it still includes:
a mouthpiece 1 having a first air flow passage 11 therein communicating with the outside;
the oil storage part 2 is of a hollow structure and comprises an oil storage cavity 21 and a cavity defined by the oil storage cavity 21, the cavity is a second air flow channel 22, and the oil storage cavity 21 is used for storing smoke liquid;
electrode 7, power supply 6 and housing 3;
the connection relationship of the components is as follows:
the oil storage component 2 is connected with the mouthpiece 1 at one end and is communicated with the atomizing device at the other end, the second airflow channel 22 is communicated with the first airflow channel 11 to form a smoke channel so as to ensure that the generated smoke is inhaled into the mouth of a smoker, and pores 8 are arranged between the oil storage cavity 21 and the atomizing core 5 so as to enable smoke liquid in the oil storage cavity 21 to permeate into the atomizing core 5;
the atomizing core 5 is in air flow communication with the second air flow channel 22;
the heater 4 is connected to the power source 6 via electrodes 7.
The housing 3 is used for accommodating various parts in the electronic cigarette so as to facilitate the use of the electronic cigarette.
Preferably, the oil storage member 2 has a hollow cylindrical shape, and the atomizing core 5 has a cubic or cylindrical shape, wherein the oil storage member 2 and the atomizing core 5 are not limited to the above-mentioned shapes as long as it is ensured that the contact surfaces of the oil storage member 2 and the atomizing core 5 are matched with each other.
Preferably, the number of the pores 8 is N, and N is more than or equal to 1.
Preferably, the cross section of the pore 8 is in a circular, polygonal or irregular shape, and the cross section area is 0.01-10 mm2。
Preferably, one end of the atomizing core 5, which is far away from the oil storage cavity 21, is provided with a sealing layer, the sealing layer is made of ceramics such as alumina ceramics, zirconia ceramics, silicon nitride ceramics, silicon carbide ceramics, and the like, common glass, PEEK materials, and other insulating high-temperature-resistant materials, so that on one hand, heat generated by the heater 4 is prevented from diffusing downwards, and on the other hand, the sealing effect is performed on oil adsorbed in the atomizing core 5, so as to ensure that the oil leakage phenomenon cannot occur.
The porous glass has the capacity of adsorbing oily liquid, high mechanical strength, corrosion resistance and temperature resistance of at least 1200 ℃;
compared with the prior art, the utility model discloses following beneficial effect has:
1. the utility model discloses atomizing device adopts porous glass as atomizing core, has not only solved the problem that falls the powder easily in the porous ceramic use, has still avoided burning in the cotton use of atomizing to produce the situation of pasting the flavor, and porous glass atomizing core adsorption efficiency is strong, can adsorb the metallic taste that some metal heater produced that generates heat, the utility model discloses porous glass atomizing core atomizes fully, and the flue gas is felt mellow and full and long service life, security are strong.
2. The utility model discloses atomizing device and oil storage chamber 21 contact in the electron cigarette, and heater 4 arranges in 5 inside or enclose of atomizing core the atomizing core 5 outside, in the use, the heat that heater 4 produced not only can atomize the tobacco juice in the atomizing core in order to produce the smog that can suck, still is favorable to the tobacco juice in the oil storage chamber 21 to preheat, saves electric power during the atomizing.
3. The utility model discloses suction nozzle spare 1 is far away with 5 distances of atomizing core in the electron cigarette, so the phenomenon of scalding the mouth can not appear.
4. The utility model discloses in the preferred embodiment, atomizing core 5 is kept away from oil storage cavity 21 one end has the sealing layer, the sealing layer is pottery such as alumina ceramics, zirconia ceramics, silicon nitride pottery, carborundum pottery, ordinary glass, insulating high temperature resistant materials such as PEEK material, and the heat that prevents heater 4 production in one aspect of which diffuses down, and the other hand plays sealed effect to the fluid of absorption in atomizing core 5 to the oil leak phenomenon can not appear in the assurance.
Detailed Description
In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are illustrated in the accompanying drawings, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
The embodiment is an electron cigarette with porous glass atomizing device, and its atomizing device includes atomizing core 5 and heater 4, atomizing core 5 is porous glass.
The heater 4 is arranged inside the atomizing core 5.
The porous glass is formed by sintering sodium borosilicate particles, and the diameter of the sodium borosilicate particles is 2-350 nm.
The pore diameter of the porous glass is 1-300 nm, and the porosity is 60%.
The heater 4 is a metal heating wire, the metal heating wire is selected from a copper simple substance, and the metal heating wire is arranged inside the atomizing core 5 through embedding, winding or sintering technology.
Wherein, the electron cigarette still includes:
a mouthpiece 1 having a first air flow passage 11 therein communicating with the outside;
the oil storage part 2 is of a hollow structure and comprises an oil storage cavity 21 and a cavity defined by the oil storage cavity 21, the cavity is a second air flow channel 22, and the oil storage cavity 21 is used for storing smoke liquid;
electrode 7, power supply 6 and housing 3;
the connection relationship of the components is as follows:
the oil storage component 2 is connected with the mouthpiece 1 at one end and is communicated with the atomizing device at the other end, the second airflow channel 22 is communicated with the first airflow channel 11 to form a smoke channel so as to ensure that the generated smoke is inhaled into the mouth of a smoker, and pores 8 are arranged between the oil storage cavity 21 and the atomizing core 5 so as to enable smoke liquid in the oil storage cavity 21 to permeate into the atomizing core 5;
the atomizing core 5 is in air flow communication with the second air flow channel 22;
the heater 4 is connected to the power source 6 via electrodes 7.
The housing 3 is used for accommodating various parts in the electronic cigarette so as to facilitate the use of the electronic cigarette.
The oil storage part 2 is in a hollow cylindrical shape, the atomizing core 5 is in a cylindrical shape, and contact surfaces of the oil storage part 2 and the atomizing core 5 are matched with each other.
The number of the pores 8 is 8.
The cross-sectional shape of the pores 8 is circular, and the cross-sectional area is 5mm2。