CN109805449B - Magnetic induction atomizing suction device - Google Patents

Abstract

The invention relates to a magnetic induction atomizing suction device. The magnetic induction atomization suction device comprises a power supply control part, an atomization part and a suction part which are sequentially connected, wherein the atomization part comprises an outer shell, an inner shell, a magnetic induction coil and an atomization body for containing fuming objects, the left ends of the outer shell and the inner shell are connected to a shell base, the magnetic induction coil is wound between the inner shell and the outer shell, the atomization body is arranged in the inner shell, an air inlet hole is formed in the outer shell, the atomization body is matched with the inner shell, and a magnetic inductor conductor is arranged in the atomization body; the magnetic susceptor conductor divides the atomizer body into at least one chamber for holding a solid smoking article and at least one chamber for holding a liquid smoking article. The magnetic induction atomization suction device solves the problem that the user experience is seriously affected by poor fragrance of the electronic cigarette which is independently heated by the magnetic induction technology or slow initial cigarette output of the low-temperature cigarette which is independently heated, and the heat utilization rate is high.

Description

Magnetic induction atomizing suction device

Technical Field

The invention belongs to the field of cigarette substitutes, and particularly relates to a magnetic induction atomization suction device.

Background

It is reported that the number of Chinese smokers is more than 3.5 hundred million and nearly 10 hundred million worldwide. The main smoking of these smokers is traditional cigarettes. The traditional cigarette is synthesized by volatilizing, pyrolyzing and high Wen Chongxin substances, and there are more than 7300 compounds in smoke, wherein 2740 substances generated by high temperature combustion, pyrolysis and high temperature resynthesis at 900 ℃ are included, and some of these substances are related to tobacco characteristic aroma, but very little substances are harmful to human body (the harmful substances are CO, benzo [α]Pyrene, polycyclic aromatic hydrocarbon, etc.).

Recently, due to the continuous rise of the back-smoking exercise and the physical health demands of smokers, low-tar and low-harm cigarettes are sold and increased, and novel tobacco products without burning process are also vigorously developed. It is predicted that new tobacco markets will become more enormous in the future.

The novel tobacco products comprise electronic cigarettes (including ultrasonic atomization electronic cigarettes), heated non-combustible cigarettes (also called low-temperature cigarettes and low-temperature cigarettes) and smokeless tobacco products. At present, international tobacco megaly (such as Philippi Moris production company, nicotiana internationally, yinmei tobacco, reynolds tobacco and the like) is focused on enhancing the research and development of novel tobacco products such as electronic cigarettes, low-temperature cigarettes and the like. The electronic cigarette and the heating non-combustible cigarette have advantages and disadvantages, such as rapid smoking of the electronic cigarette and large smoke quantity, but the flavor and taste of the electronic cigarette are different from those of the traditional cigarette; the low-temperature cigarette has a fragrance and taste similar to those of the traditional cigarettes, but the initial cigarette output is slow (about 20 seconds are generally required for starting smoking), and the smoke quantity is small. In addition, the electronic cigarette and part of the low-temperature cigarettes are mainly heated to form fog by adopting a heating mode of the resistance element for sucking, and the heating mode has low heat efficiency due to the fact that the resistance element is heated to have a large amount of heat loss.

The magnetic induction heating technology is a known technology, and the principle is as follows: the induction coil changes its magnetic field continuously under the condition of alternating current, so that electrons in the receptor conductor positioned in the induction coil do irregular motion to generate eddy current, thereby causing the conductor to generate heat, and the generated heat is proportional to the density of the eddy current and the resistivity of the conductor. Because of the advantages of rapid response, high thermal efficiency and the like of the magnetic induction heating technology, a plurality of institutions and individuals have conducted a great deal of research at present, and a plurality of patents are filed. Such research institutions and individuals mainly include foreign Phillips production companies, BAT, domestic and also tobacco industry Limited liability companies such as Yunnan, choYu, guangxi, hunan, henan and the like, and Shenzhen Heyuan, shimeile, angustification, good and other companies and Li Wenjie individuals, and their patent application publication numbers are shown as CN105407750A, CN106163309A, CN105307516A, CN105595432A. The magnetic induction tobacco products are only electronic cigarettes with only liquid heating smoke generating mediums or low-temperature cigarettes with solid heating smoke generating mediums, so that the problems that the fragrance and the taste of the electronic cigarettes are poor, the smoke output of the low-temperature cigarettes is slow, and the like, and the user experience is seriously affected are mainly caused. In addition, most of the existing magnetic induction tobacco product appliances are provided with a heat insulation layer on the surface, and the main reason is that the tobacco material is not coated with the receptor conductor material, so that the heat generated by the receptor conductor material is not fully utilized, or a large amount of heat loss exists. Although the susceptor conductor material is coated in the tobacco material in a few technologies, the susceptor conductor material is discarded along with the discarding of the tobacco material after the smoking, so that the resource waste and the environmental pollution are caused, and even the safety risk exists because the susceptor conductor material is conductive or is in a block shape, a spiral shape and the like and is easy to hurt people, and the metal material is easy to conduct. The prior art also does not have a novel tobacco product compounded by the electronic cigarette mainly heated by magnetic induction and the low-temperature cigarette. Since the magnetic induction technology has a very high heating rate (the heating rate can reach tens to hundreds of degrees celsius per second), in order to minimize the generation of harmful substances, the heating temperature needs to be controlled at a proper level, but the prior art has few reports on a simple and efficient temperature control technology device.

Disclosure of Invention

The existing novel tobacco products manufactured by utilizing the magnetic induction heating technology mainly have the following defects: there is no magnetic induction atomizing suction device for simultaneously heating liquid and solid fuming objects and having good comprehensive experience; the magnetic inductor conductor material is not covered by the smoke material, the heat utilization rate is not high, or the magnetic inductor conductor material is covered by the smoke material but is discarded together with the smoked tobacco material, so that resource waste or other risks are caused; simple and efficient magnetic induction heating temperature control technology is not seen yet. Aiming at the defects of the prior art, the invention aims to provide the magnetic induction atomization suction device capable of simultaneously heating the liquid-state and solid-state fuming objects, so that the problem of low smoke output when the magnetic induction technology singly heats low-temperature smoke of the solid-state fuming objects is solved, and the problem of poor fragrance of the electronic cigarette for singly heating the liquid-state fuming objects by the magnetic induction technology is solved, thereby truly improving the suction experience of users; meanwhile, the problems that heat is not fully utilized, and the magnetic inductor conductor is discarded along with the smoke material are solved, and the temperature is simply and effectively controlled.

The technical scheme of the invention is as follows: the utility model provides a magnetic induction atomizing suction device, includes power control portion, atomizing portion and the suction portion that connects gradually, atomizing portion includes shell body, inner shell body, magnetic induction coil and is used for splendid attire fuming thing's atomizing body, the left end of shell body and inner shell body is connected on atomizing portion shell body base, magnetic induction coil winds between inner shell body and the outer shell body, the atomizing body is arranged in the inner shell body, be equipped with the inlet port on the shell body, air gets into the atomizing body through inlet port, magnetic induction coil, shell body base in proper order, the atomizing body matches with the inner shell body, be arranged in the atomizing body and be stamped the magnetic inductor conductor; the magnetic inductor conductor divides the atomization body into at least two cavities for containing fuming objects, wherein at least one cavity contains solid fuming objects, at least one cavity contains liquid fuming objects, and the two cavities are heated by the magnetic inductor conductor at the same time.

The atomization body is detachably arranged in the inner shell.

The atomization part is internally provided with a temperature sensor for acquiring temperature data of the magnetic sensor conductor, and the temperature sensor acquires the transmitted temperature data for at least 1 time, preferably at least 2 times, more preferably at least 5 times per second. Preferably, the temperature sensor is in contact with the magnetic susceptor conductor. Further, the temperature sensor is built in a supporting tube with certain strength and forms a temperature sensor component together, and a temperature sensing point (namely a temperature sensing point) of the temperature sensor is preferably exposed out of the supporting tube.

Further, the temperature sensing point (i.e. the temperature sensing welding point) of the temperature sensor is coated with a weak magnetic induction material (such as copper, zinc, gold, silver, etc.), a soft magnetic sheet, etc. magnetic isolation or shielding material to prevent or reduce the magnetic induction self-heating of the temperature sensing point so as to influence the temperature measurement precision, or the temperature sensing point material is directly made of a weak magnetic material (such as copper, zinc, gold, silver, etc.) which can generate potential by heating, or a paramagnetic material (such as nickel, manganese, etc. containing material) which meets the temperature requirement.

When the instantaneous monitoring temperature of the temperature sensor reaches 365 ℃, preferably 280 ℃, more preferably 240 ℃ during suction, the whole atomizing device automatically stops power supply, so as to realize intelligent control and control the generation of harmful substances.

The suction part is connected with the atomization part through threads, buckles, magnetic attraction or plug-in connection. Preferably, the atomizing body in the atomizing part is connected with the suction part.

The power supply control part is connected with the atomizing part through threads, buckles, magnetic attraction or plug connection or is directly connected integrally.

The inner shell, the shell base and the suction part are made of one or more materials selected from ceramics, glass, high-temperature resistant silica gel, polytetrafluoroethylene and weak magnetic induction materials.

The magnetic inductor conductor is made of sheet materials and has a thickness of 0.01 mm-5 mm.

The magnetic inductor conductor is a ferromagnetic conductor and is made of at least one material selected from iron, nickel, cobalt, ferrite and alloys thereof.

The surface of the magnetic inductor conductor is covered with an inert material layer, and the inert material layer is made of at least one of quartz glass, industrial enamel, glaze, high-temperature-resistant nontoxic paint, fluoroplastic and resin.

Preferably, electromagnetic isolation soft magnetic sheets or conductive rubber for blocking electromagnetic radiation can be arranged around the electromagnetic induction heating device.

By adopting the structural design, the atomization body is divided into two or more independent cavities by the magnetic inductor conductor, and the two cavities are respectively used for installing the liquid smoke generating object and the solid smoke generating object, so that the liquid smoke generating object and the solid smoke generating object can be heated simultaneously to obtain composite smoke, the two sides of the magnetic inductor conductor are respectively used for heating the liquid smoke generating object and the solid smoke generating object, the heat utilization rate is high, the higher smoke output can be ensured, the sensory quality of the smoke is improved, and the problems that the smoke fragrance and the taste are poor when the electronic smoke is independently heated by utilizing the magnetic induction technology or the smoke is slowly output when the low-temperature smoke is independently heated, the user experience is seriously influenced by long waiting time and the like are solved; preferably, the right end wall of the atomization body is provided with air outlets corresponding to the solid fuming object storage cavity and the liquid fuming object storage cavity respectively, so that the smoke in the two cavities can be timely and smoothly sucked out to enter the smoke channel.

Preferably, the solid smoking article is at least one of a sheet, a granule, a wire, and a loose porous block, so that the heat conduction efficiency and the penetrating ability are improved, and the fogging ability is improved.

Preferably, the solid smoke substance contains at least one of tobacco and tobacco extract, so as to increase the tobacco aroma of smoke and improve the smoking taste.

Preferably, more magnetic inductor conductors can be additionally arranged in the middle of the solid smoke generating object so as to further improve the heating value. The additionally arranged magnetic induction conductors can improve the smoke quantity and the aroma concentration of the solid smoke objects.

By adopting the structural design, the atomization body can be conveniently detached from the atomization part by moving the suction device to the right so as to be convenient for replacing the atomization body; the fuming object is arranged in the atomization body and is not in direct contact with other parts of the magnetic induction atomization device, so that the other parts of the atomization part do not need to be cleaned frequently; the magnetic inductor conductor is fixed in the atomization body and can be reused, so that waste is avoided, and other safety risks are avoided; the external cold air flow passes through the space between the inner shell and the outer shell of the atomization part and then enters the atomization body, and the cold air can absorb part of heat generated on the coil, so that the temperature of the air flow is increased, and the atomization of fuming objects in the atomization body is facilitated. These can all improve the user's experience.

Further, the suction device comprises a smoke channel, the smoke channel is communicated with the atomization part of the magnetic induction atomization device, and the cross-sectional area of the smoke channel can be gradually reduced from left to right so as to fully mix smoke generated by the solid smoke generating object and the liquid smoke generating object, and the experience of a user is further improved.

Compared with the prior art, the invention has the following beneficial effects:

(1) The liquid state fuming object and the solid state fuming object are heated simultaneously by utilizing the magnetic induction heating technology for sucking. The interior of the atomizer body is divided into cavities respectively containing solid smoke objects and liquid smoke objects by a magnetic sensor conductor material, and the smoke objects are closely contacted with the magnetic sensor conductor material. Due to the use of less aerosol-forming substances in the solid smoke, the aroma of baking and the like generated by heating the solid smoke is clearer, and the composite smoke has good aroma sensory quality; meanwhile, the liquid smoke generating object is heated by the magnetic inductor conductor, namely, smoke is generated when the smoke generating object is pumped, and the smoke quantity is large. Therefore, the invention truly and comprehensively solves the problems that the fragrance and taste of the electronic cigarette are poor by independently heating the electronic cigarette by utilizing the magnetic induction technology or the initial smoke output of the low-temperature cigarette is slow by independently heating the electronic cigarette, and the like, which seriously influences the experience of the user, and achieves the effects of fast smoke output, large smoke quantity, strong simulation sense and good experience sense.

(2) The heat utilization rate is high, and the environment is protected and safe. The susceptor conductor material is basically coated in the liquid and solid smoking article tobacco materials, heat energy generated by the susceptor conductor material is fully absorbed by the smoking article to be heated, an air inlet hole is formed in the outer shell, and air sequentially passes through the air inlet hole, the magnetic induction coil and the shell base to enter the atomization body, so that heat of the susceptor conductor material and the coil is used for heating the smoking article as much as possible. Meanwhile, the receptor conductor is fixed on the atomization body and can be reused, so that no metal conductor material is discarded, and the safety risk and the resource and energy waste caused by discarding the metal conductor material are avoided.

(3) The temperature control technology is simple and effective, and the suction safety is high. The temperature sensing point of the temperature sensor is coated with a weak magnetic induction material, a soft magnetic sheet and other magnetic isolation or shielding materials, or the weak magnetic material or paramagnetic material which can generate potential by heating is directly made into the temperature sensing point material, so that the magnetic induction self-heating phenomenon of the temperature sensing point is prevented or reduced, and the temperature measuring precision is effectively improved; and the temperature sensor collects the transmitted temperature data at least 1 time, preferably at least 2 times, more preferably at least 5 times per second. The use of the technologies for effectively improving the temperature measurement precision and rapidly collecting and transmitting temperature data can effectively control the magnetic induction atomization temperature below 365 ℃, preferably below 280 ℃ and more preferably below 240 ℃ so that the harmful substances generated by heating the fuming objects are at the lowest level as possible, and the suction safety is effectively improved.

Drawings

Fig. 1 is a schematic longitudinal sectional view of a magnetic induction atomizing suction apparatus according to the present invention.

Fig. 2 is a schematic diagram of the structure of the temperature sensor part of the magnetic induction atomizing suction device of the present invention.

Detailed Description

The invention will be described in detail below with reference to the drawings in connection with embodiments. It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other. For convenience of description, the words "upper", "lower", "left" and "right" are used hereinafter to denote only the directions corresponding to the upper, lower, left, and right directions of the drawings, and do not limit the structure.

Fig. 1 is a schematic cross-sectional view of a magnetic induction atomizing suction device according to this embodiment. Specifically, the magnetic induction atomization suction device comprises a power supply control part 1, an atomization part 2 and a suction part 3 which are sequentially connected, wherein the atomization part comprises an outer shell 21, an inner shell 23, a magnetic induction coil 22 and an atomization body 24 for containing fuming materials, the left ends of the outer shell 21 and the inner shell 23 are connected to a shell base 26, the magnetic induction coil 22 is wound between the inner shell 23 and the outer shell 21, the atomization body 24 is arranged in the inner shell 23, an air inlet 211 is formed in the outer shell 21, air sequentially enters the atomization body 24 through the air inlet 211, the magnetic induction coil 22 and the shell base 26, the atomization body 24 is matched with the inner shell 23, a magnetic induction conductor 25 is arranged in the atomization body 24, the magnetic induction conductor 25 is fixed on a magnetic induction conductor support seat 29, and the support seat 29 is fixed on the atomization body 24; the atomizing part 2 is provided with a temperature sensor for acquiring temperature data of the magnetic sensor conductor 25; the magnetic susceptor conductor 25 divides the atomizer body 24 into two chambers for holding a smoking article, namely chamber 241 and chamber 242, wherein chamber 241 holds a solid smoking article and chamber 242 holds a liquid smoking article.

Wherein the atomizing body 24 is detachably built in the inner housing 23; the temperature sensor is provided on the atomizing base 27, penetrates through the wedge-shaped insertion hole 5 of the magnetic sensor conductor support seat 29, extends into the atomizing body 24 and contacts the magnetic sensor conductor 25, is built in the support tube 28 of a certain strength, and constitutes together a temperature sensor member, and the temperature sensing point (temperature sensing point) is preferably exposed out of the support tube. The temperature sensor collects the temperature data transmitted to the power supply control section 1 not less than 1 time per second.

The suction part 3 is connected with the atomization part 2 through threads, and an atomization body in the atomization part is connected with the suction part; the power supply control part 1 is connected with the atomizing part 2 through threads.

The inner housing 23, the housing base 26, and the suction portion 3 are made of ceramic; the magnetic susceptor conductor 25 is composed of a sheet material with a thickness of 0.05mm.

The magnetic susceptor conductor 25 is made of ferrite material, and the surface of the magnetic susceptor conductor 25 is covered with an inert material layer made of quartz glass.

Two air outlet holes 4 are arranged between the suction part 3 and the atomization part 2, and the air outlet holes 4 respectively correspond to two cavities in the atomization body; the suction portion 3 is provided therein with a smoke passage 31 having a cross-sectional area gradually decreasing from left to right.

Soft magnetic sheets for blocking electromagnetic radiation are arranged around the electromagnetic induction heating device.

The foregoing examples are set forth in order to provide a more thorough description of the present invention, and are not intended to limit the scope of the invention, since modifications of the invention in various equivalent forms will occur to those skilled in the art upon reading the present invention, and are within the scope of the invention as defined in the appended claims.

Claims (12)

1. The utility model provides a magnetic induction atomizing suction device, includes power control portion (1), atomizing portion (2) and suction portion (3) that connect gradually, atomizing portion includes shell body (21), inner shell body (23), magnetic induction coil (22) and is used for splendid attire fuming thing atomizing body (24), the left end of shell body (21) and inner shell body (23) is connected on atomizing portion shell body base (26), magnetic induction coil (22) are around placing between inner shell body (23) and outer shell body (21), atomizing body (24) are arranged in inner shell body (23), be equipped with inlet port (211) on shell body (21), air gets into atomizing body (24) through inlet port (211), magnetic induction coil (22), shell body base (26) in proper order, a serial communication port, atomizing body (24) are matchd with inner shell body (23), be arranged magnetic inductor conductor (25) in atomizing body (24). The magnetic inductor conductor (25) divides the atomization body (24) into at least two cavities for containing the fuming objects, wherein at least one cavity contains the solid fuming objects, at least one cavity contains the liquid fuming objects, and the two cavities can be heated to form mist by the magnetic inductor conductor (25) at the same time.

2. A magnetic induction atomizing suction device according to claim 1, characterized in that said atomizing body (24) is detachably built in an inner housing (23).

3. A magnetic induction atomizing suction device according to claim 1, characterized in that a temperature sensor for acquiring temperature data of a magnetic inductor conductor (25) is provided in the atomizing part (2), and the temperature sensor acquires the transmitted temperature data not less than 1 time per second.

4. A magnetic induction atomizing suction device as set forth in claim 3, wherein said temperature sensor collects transmitted temperature data no less than 2 times per second.

5. A magnetic induction atomizing suction device as set forth in claim 3, wherein said temperature sensor collects transmitted temperature data no less than 5 times per second.

6. A magnetic induction atomizing suction device according to claim 1, characterized in that the suction portion (3) is connected to the atomizing portion (2) by threads, snap-in, magnetic attraction or plug-in.

7. The magnetic induction atomizing suction device according to claim 1, characterized in that the power supply control part (1) and the atomizing part (2) are connected by threads, buckles, magnetic attraction or plug-in connection, or are directly integrally connected.

8. The magnetic induction atomizing suction device according to claim 1, characterized in that the inner housing (23), the housing base (26), the suction part are made of one or more materials of ceramics, glass, high temperature resistant silica gel, polytetrafluoroethylene, weakly magnetic materials.

9. A magnetic induction atomizing suction device according to claim 1, characterized in that said magnetic inductor conductor (25) is composed of a sheet-like material with a thickness of 0.01mm to 5mm.

10. A magnetic induction atomizing suction device according to claim 1, characterized in that the magnetic inductor conductor (25) is a ferromagnetic conductor made of at least one material of iron, nickel, cobalt, ferrite and alloys thereof.

11. The magnetic induction atomizing suction device according to claim 1, characterized in that the surface of the magnetic inductor conductor (25) is covered with an inert material layer made of at least one of quartz glass, industrial enamel, glaze, high temperature resistant non-toxic paint, fluoroplastic, resin.

12. A magnetic induction atomizing suction device as set forth in claim 3, wherein said temperature sensor is a thermocouple, the temperature sensing point surface of which is covered with a layer of weakly magnetic induction material, or the temperature sensing point of which is directly made of weakly magnetic induction material or paramagnetic material.

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