CN100593982C - Electronic cigarette with nanoscale ultra-fine space heating atomization function - Google Patents

Abstract

An electronic cigarette that heats and atomizes nicotine solution in a nanometer-scale ultra-fine space, including a cigarette rod and a cigarette holder connected to the front end of the cigarette rod; The rechargeable battery, the liquid storage tank for storing the nicotine solution, the liquid-absorbing core installed in the front end of the liquid storage tank and in contact with the nicotine solution, and the space heating mist installed in the heating chamber at the front of the tobacco rod Heater with chemical effect; the wall of the tobacco rod corresponding to the liquid storage tank is provided with a liquid filling port connected with the liquid storage tank, and an electric heating switch is installed at any place on the wall of the tobacco rod; the center of the cigarette holder is provided with a hollow conduit extending into the tobacco rod; A piezoelectric sensor is installed on the front wall of the cigarette holder; a connecting device for charging the rechargeable battery is provided at the rear end of the cigarette rod through an external power source; the piezoelectric sensor is always connected with the rechargeable battery; the electric heating switch, the piezoelectric sensor and the rechargeable The battery constitutes a circuit loop; it has the advantages of convenient assembly, easy portability, wide application, and convenient use.

Description

Electronic cigarette with nanoscale ultra-fine space heating atomization function

technical field

The present invention relates to an electronic cigarette with nanoscale ultra-fine space heating atomization function, in particular to an electronic cigarette that can realize nanoliter level control of liquid nicotine and is based on miniaturized resistance, laser, radio frequency, electromagnetic induction, infrared, ultrasonic , microwave and other devices implement space ultra-fine and efficient heating and atomization of electronic cigarettes.

Background technique

In recent years, the harm of traditional smoking to the smoker himself and the people around him has become more and more recognized by people. For this reason, in many countries and regions, in the regulations issued by government departments, smoking in any public places is expressly prohibited. Therefore, the smoking cessation campaign is gradually gaining popularity. However, for smokers who are deeply addicted, quitting smoking is indeed a difficult process.

In order to meet the needs of smoking cessation, many products in different forms have been launched on the market so far, such as tablets, appliances, electronic cigarettes, etc. Among them, the electronic cigarette can realize the atomization of nicotine, and retains the characteristics of the traditional smoking method in the process of smoking, which is more in line with the habit of smokers themselves. Alkali has removed the harmful components in traditional tobacco to the greatest extent, and corrected the problem of not distinguishing the good from the bad and inhaling them all into the body, so it is quite attractive in reducing the harm of tobacco. Because of this, e-cigarettes have been favored by consumers in recent years, and are gradually being recognized as effective smoking cessation products.

In the current technical approach to realize the electronic atomization function, it is mainly divided into two categories: heating atomization and ultrasonic atomization. The former, Liu Jing and Lv Yonggang once proposed a kind of scheme (Liu Jing, Lv Yonggang, a kind of pen type miniature steam generator, Chinese patent 03242914.2) that can implement heating atomization to the liquid in the small cavity at the end of 2002, it is easy to implement in conventional The atomization of liquid and liquid nicotine has developed the function of delivering nicotine vapor to the nasal cavity, oral cavity and other parts; since then, although some researchers have also proposed corresponding pen-type heating and atomizing electronic cigarettes, the technical ideas are different from this Much the same. Different from electronic heating to achieve liquid nicotine atomization, a Chinese patent submitted in March 2003 proposed an ultrasonic atomization solution (Han Li, a non-combustible electronic atomized cigarette, Chinese patent 03111173.4), Based on the oscillating excitation of the liquid by ultrasonic waves at a specific frequency, the corresponding atomized nicotine droplets can be generated, and then delivered to the human oral cavity to create the feeling of smoking. This atomization scheme is somewhat similar to the common ultrasonic humidifier in the family, and some technical schemes proposed by others since then are mostly similar to this.

From a comprehensive analysis, the resistance heating atomization scheme introduced above is a kind of contact heating, which mainly heats the liquid flowing through the heating wire, and then further spreads to the surrounding liquid by means of the heat transfer of the fluid. This method has no heating efficiency. It can be used to the maximum; while ultrasonic oscillation atomization has the problems of small amount of atomization and insufficient energy utilization. Therefore, the purpose of the present invention is to provide an electronic cigarette that can implement ultra-fine space heating and atomization of liquid nicotine on the nanometer scale, and the liquid nicotine loaded in the pen-type cigarette rod can be nano-sized by microfluidic technology. Level-up control, the transmission channels where these solutions are located are equipped with miniaturized resistance screens, lasers, radio frequency, magnetic induction, infrared, ultrasound, microwaves and other devices with space heating effects. The electronic cigarette not only improves the atomization efficiency, but also has more comprehensive functions. Nano-scale fluid can achieve efficient atomization effect under the action of this kind of space heating, so it is easy to produce smoke characteristics similar to those of traditional cigarettes. When users inhale the resulting atomized nicotine, Get great satisfaction.

Contents of the invention

The purpose of the present invention is to overcome the problems of the existing electronic cigarettes, such as small amount of vaporization, slow charging, hot cigarette rod, carbon deposit or leakage of liquid nicotine, pollution of the environment caused by disposable cartridges containing nicotine, and the length of the cigarette rod. Fix the shortcomings such as singleness, so as to provide an electronic cigarette with high efficiency, miniature size and portability.

The embodiment that realizes the object of the present invention is as follows:

The electronic cigarette provided by the present invention for heating and atomizing the nicotine solution in a nanoscale ultra-fine space includes: a cigarette rod part 2, and a mouthpiece part 32 connected to the front end of the tobacco rod part 2; it is characterized in that the The tobacco rod part 2 is a hollow rod-shaped tobacco rod with a plug welded on the rear end; the inner cavity of the hollow rod-shaped tobacco rod 2 is sequentially equipped with a rechargeable battery 5 and a liquid storage tank 18 for storing nicotine solution. The liquid-absorbing core 19 at the front end of the liquid storage tank 18 and in contact with the nicotine solution and the resistance heater 20 with space heating atomization effect installed in the heating chamber 24 at the front of the tobacco rod part 2; The wall of the tobacco rod corresponding to the liquid storage tank 18 is provided with a liquid filling port 16 communicating with the liquid storage tank 18, and an electric heating switch 17 is installed at any part of the rod wall of the tobacco rod part 2;

The center of the mouthpiece part 32 is provided with a hollow conduit 33 protruding into the cigarette rod part 2; the front wall of the mouthpiece part 32 is equipped with a piezoelectric sensor 37 or more deformation sensors;

The rear end of the tobacco rod part 2 is provided with a charging connecting device 13 for charging the rechargeable battery 5 through an external power source;

The piezoelectric sensor 37 is always connected to the rechargeable battery 5; the electric heating switch 17, the sensor 37 and the rechargeable battery 5 form a circuit loop.

The heater with space heating atomization effect is a resistance heater with space heating atomization effect, and the resistance heater is a resistance electrically connected to the rechargeable battery 5; the resistance is an axial micro-nano The axial micro-nano tube bundle resistance composed of tube bundles is either a wire-mesh resistance composed of screens stacked together to form nanoscale micro-channels; or an axial micro-nano tube resistance with axial micro-nano tubes.

The heating chamber 24 is provided with a micro-radio frequency heater, a magnetic induction heater, a micro-ultrasonic heater, a micro-infrared heater or a micro-microwave radiation heater for heating the heater 20 with a space heating atomization effect.

The rechargeable battery 5 is a button nickel-cadmium battery, a nickel-hydrogen battery, a lithium battery, a dry battery, a thermoelectric battery, a photoelectric battery, a supercapacitor battery or a nuclear battery.

A hollow cavity connector 26 whose length has a telescopic function is connected between the cigarette rod part 2 and the mouthpiece part 32 .

An indicator light 14 electrically connected to the rechargeable battery 5 or/and a buzzer 11 simulating the "hissing" sound emitted by shredded tobacco during traditional smoking is installed on the rear wall of the tobacco rod part 2 .

The advantages of the present invention are:

1. The electronic cigarette of the present invention that conducts nanoscale ultra-fine space heating and atomization of nicotine solution introduces a nanoscale heating device with a space heating effect and a nanoscale smoke liquid supply flow channel, which can implement nanoscale nicotine solution Space heating, rapid heating, large amount of nicotine solution atomization, high efficiency of concentrated energy use, and long power supply time;

2. The electronic cigarette of the present invention, which conducts nanoscale ultra-fine space heating and atomization of nicotine solution, adopts a rechargeable battery power supply, which can be charged quickly and brings great convenience to users;

3. The electronic cigarette of the present invention, which conducts nanoscale ultra-fine space heating and atomization of nicotine solution, adopts connectors with axial telescopic and folding functions in the structure of the cigarette rod, and can be assembled into electronic cigarettes of different thicknesses and lengths. It can be the same size as ordinary cigarettes, and can also be adjusted into structures of different shapes and sizes to meet the individual needs of different users and smoking habits in different occasions, and it is more flexible and vivid to use;

4. The electronic cigarette of the present invention, which conducts nano-scale ultra-fine space heating and atomization of nicotine solution, is equipped with a buzzer that can simulate the "sizzling" sound of shredded tobacco due to combustion in the traditional smoking process, making the smoking effect more effective. Realistic, changing the relatively quiet characteristics of traditional cigarettes and some commercialized electronic cigarettes, making the product more interesting in the consumption process;

5. In the electronic cigarette of the present invention, which heats and atomizes the nicotine solution in a nanometer-scale ultra-fine space, the nicotine solution is packaged in the cigarette rod, and is supplied to the space with a nanoliter level through the liquid-absorbing core of the micro-channel structure. On the resistance heater with heating atomization effect, there is no leakage problem, and it is easy to use and carry; since the heater is set in the center of the tobacco rod, there is no problem of heating the outer wall of the tobacco rod;

6. In the electronic cigarette of the present invention that conducts nanoscale ultra-fine space heating and atomization of the nicotine solution, the nicotine solution can be directly packaged into a container set in the tobacco rod without introducing a liquid-carrying liquid-carrying core material, thus There is no problem of disposable cartridges, which reduces the cost of processing and use, and eliminates the environmental pollution caused by random discarding of cigarette butts; moreover, since the object of atomization is liquid nicotine, it will not be in the cigarette stick during long-term use Carbon build-up problem occurs;

7. The electronic cigarette of the present invention that conducts nanoscale ultra-fine space heating and atomization of nicotine solution can be made into products with different costs according to the needs of user groups, and is easy to promote, so as to meet the needs of smoking cessation groups with different income levels ;

8. The nano-scale ultra-fine space heating and atomizing electronic cigarette based on nicotine solution of the present invention, due to the use of nicotine solution, users can also directly use the provided nano-additives to add in it, thereby preparing liquid cigarettes with different tastes Alkali, to meet their own special needs;

9. The mouthpiece and the cigarette case of the electronic cigarette of the present invention that conducts nanoscale ultra-fine space heating and atomization of nicotine solution can be made of antibacterial materials, thus improving the hygiene level during use.

To sum up, the core of the electronic cigarette of the present invention, which performs nanoscale ultra-fine space heating and atomization of nicotine solution, is to provide space heating and nano-liquid transport technologies. It can help smokers minimize the harm caused by traditional smoking in daily use, and also avoid interference with the surrounding environment. The electronic cigarette based on nanoscale ultra-fine space heating and atomization used in the present invention can have various combinations; the appearance of the electronic cigarette is not limited to the pen type, and other combination forms such as plane, ring, and irregular shapes can also be used . However, for the sake of simplicity, the technical route of the present invention will only be described below by taking the pen-type electronic cigarette based on nanoscale ultra-fine space heating and atomization as an example.

Description of drawings

Fig. 1 is a structural diagram of an embodiment of the present invention;

Figure 1-1, Figure 1-2, Figure 1-3, and Figure 1-4 are schematic cross-sectional views of C-C, D-D, E-E, and F-F of Figure 1, respectively;

Fig. 2 is a structural diagram of another embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view along line A-A of FIG. 2 .

FIG. 4 is a circuit diagram among the sensor 37 , the electric heating switch 17 and the rechargeable battery 5 .

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the present invention is described in further detail:

Example 1:

Fig. 1 is a structural diagram of an embodiment of the present invention; Fig. 1-1, Fig. 1-2, Fig. 1-3 and Fig. 1-4 are respectively C-C, D-D, E-E and F-F sectional schematic diagrams of Fig. 1; Fig. 2 is this A structural diagram of another embodiment of the invention; FIG. 3 is a schematic cross-sectional view of A-A in FIG. 2 . FIG. 4 is a circuit diagram among the sensor 37 , the electric heating switch 17 and the rechargeable battery 5 .

It can be seen from the figure that in this embodiment, the electronic cigarette for heating and atomizing the nicotine solution in a nanometer-scale ultra-fine space includes: the tobacco rod part 2 and the mouthpiece part 32 connected to the front end of the tobacco rod part 2; the tobacco rod part 2 is a hollow rod-shaped cigarette rod 2, the rear end of which is welded with a plug. The hollow cavity of the tobacco rod part 2 is sequentially equipped with a rechargeable battery 5 and a liquid storage tank 18 for storing nicotine solution, which is installed in the liquid storage The liquid-absorbing core 19 at the front end of the box 18 and in contact with the nicotine solution and the heater 20 with space heating atomization effect installed in the heating chamber 24 at the front part of the tobacco rod part 2; corresponding to the liquid storage box 18 The rod wall of the cigarette rod is provided with a liquid filling port 16 communicating with the liquid storage tank 18, and an electric heating switch 17 is installed at any place on the rod wall of the cigarette rod part 2;

The center of the cigarette holder part 32 is provided with a hollow conduit 33 extending into the cigarette rod part 2; a piezoelectric sensor 37 is installed on the front wall of the cigarette holder part 32; The battery 5 charges the charging connection device 13; as shown in Figure 4, the piezoelectric sensor 37 is always connected to the rechargeable battery 5; the electric heating switch 17, the piezoelectric sensor 37 and the rechargeable battery 5 constitute a circuit circuit.

When the electronic cigarette of the present invention is not in use, it can be packed in a cigarette case; the interior of the cigarette case can be designed into a square, cylindrical or other shape according to the requirements of aesthetics and portability; the inside of the cigarette case can be divided into several parts according to the size of each part The compartment is used to place chargers, cigarette rods and their parts, storage containers for e-liquid, etc.; the cigarette case itself can be made of metal, plastic, foam or wood according to different grades, but it needs to prevent dust deposition and bacterial contamination; The rear end of the rod part 2 is provided with a charging connection device 13 for charging the rechargeable battery 5 through an external power source, and the rechargeable battery 5 in the cigarette rod part 2 can be charged by inserting the charger.

The piezoelectric sensor 37 is arranged on the wall surface of the front part of the mouthpiece part 32, and is electrically connected with the rechargeable battery 5 in the cigarette rod part 2, and is used to sense the suction action to control the opening and closing of the electric heating switch 17; Or during the suction process, the deformation of the piezoelectric sensor 37 caused by the action of the lips is sensed by the piezoelectric sensor 37, and the sensing signal is transmitted to the electric heating switch 17, and the switch of the resistance heater switch 17 is turned on, thereby heating and atomizing the space. Effect of the heater 20 to heat, atomize the nicotine solution contained in the liquid storage tank 18 in the cigarette rod part 2; the mouthpiece part 32 is adapted to the shape of the mouth and is easy to contact with the oral cavity, using polymer medical silicone rubber Pouring, the shape can be made into various decorations, and antibacterial materials such as silver powder can be added, and even various patterns are drawn to meet the various needs of users.

The length of the tobacco rod part 2 is between 20 mm and 500 mm, and the diameter is between 1 mm and 100 mm; the tobacco rod part can be selected from materials compatible with the human body, such as medical plastics made of ABS, polyimide, etc. and stainless steel, etc., and different colors can be selected according to personal preferences; in addition, the cigarette rod part 2 can also have a hollow cavity connector 26 with axial (length) telescopic function to form an extended folding cigarette. As for the rod part, this structure can be disassembled or installed on the cigarette rod part 2 as required, and the user can freely choose according to personal preference, so as to provide users with more personalized choices. Since the hollow cavity connector 26 is hollow inside, flow channels can be set according to needs to adjust the flow rate, so as to change the filtration or circulation of smoke and steam; the retractable hollow cavity connector 26 is equivalent to a traditional hookah , the smoking process can increase the pleasure of smoking for the user, so the electronic cigarette thus produced is equivalent to a miniaturized electronic hookah; the surface of the hollow cavity connector 26 should be non-toxic, so as not to cause skin infection , does not emit toxic gas, is not easy to age, and is made of materials that are easy to clean and disinfect. According to needs, the surface of the whole cigarette rod can also be coated with materials with electromagnetic shielding function.

In this embodiment, the key component for nanoscale ultra-fine space heating atomization of nicotine solution is the heater 20 with space heating atomization effect; the heater 20 with space heating atomization effect is a space heating atomization effect A resistive heater; the resistive heater is a resistor electrically connected to the rechargeable battery 5; the resistor is the resistance of the axial micronanotube bundle composed of axial micronanotube bundles, and its resistance value is in the range of 0.01Ω to 100Ω. The resistor is either a wire mesh resistor stacked together to form nano-scale micropores (made of metal such as stainless steel or polysilicon wire mesh stacked together to form a nano-scale flow space for liquid or gas The nicotine circulation of this part can ensure that nanoliter liquid nicotine is obtained in the heating chamber due to the extremely small size of the circulation space; the stainless steel or polysilicon wire mesh has specific electrical impedance characteristics, and is electrically connected with the rechargeable battery 5, so In the case of electrification, when the nicotine solution flows through the nano-scale micro-channel formed by stacking the wire mesh, due to the huge specific surface area of heat generation of the nano-scale micro-channel itself, the space heating of the nicotine solution can be achieved. Make it quickly atomized to form liquid vapor, so as to efficiently and continuously release the smoke vapor and be inhaled by the nasal cavity of the human body; when it enters the lungs through the nasal cavity, the nicotine vapor quickly falls back into liquid droplets, which are absorbed by the capillaries on the surface of the lungs rapidly absorbed, and enter the blood circulation, thereby bringing the pleasure of smoking to the user); the resistance may be an axial micro-nano-pipe resistance with an axial micro-nano-pipe (through MEMS or nano-fabrication technology on a metal such as stainless steel or polysilicon On the carrier 22, an axial micro-nano pipe resistor with a diameter in the order of 10-1000 nm and a length in the range of 10 nm to 100 mm is processed.

In order to strengthen the heating effect of the resistive heater with the space heating atomization effect, a micro-radio frequency heater, Magnetic induction heaters, miniature ultrasonic heaters, miniature infrared heaters or miniature microwave radiant heaters.

The heating chamber 24 of the present invention, the cigarette rod part 2, the cigarette holder part 32, etc. are all made of materials with certain biocompatibility. There is a liquid filling port 16 that can be closed or opened to add nicotine solution and observe; the transparent plastic allows observation of the amount of nicotine in the liquid nicotine box 18 from the outside due to its observability, which is conducive to adding nicotine in time solution. The cigarette rod 2 is stored in the cigarette case when not in use, so as to avoid external pollution. The nicotine solution box 18 packaged at the left end of the heating chamber 24 continuously sucks the nicotine solution into the nano-scale flow channel of the heater through the capillary action of the liquid-absorbing core 19, so that it can withstand space heating here; When loading the nicotine solution, first open the cover of the liquid filling port 16, the nicotine solution can enter the micro-channel along the liquid-absorbing core 19, and can be gently discharged through the user’s suction action, so there will be A small stream of liquid nicotine on the order of liters is sprayed into the heating chamber 24; the heating chamber 24 and the liquid storage tank 18 are controlled by the liquid-absorbing core (19), so that each time passes through the heater 20 having a space heating atomization effect There is only a small amount of nicotine solution, so the nicotine solution can be heated to quickly generate steam, so as to achieve the purpose of being flexible, fast and saving electricity. This is like heating a large pot of water with heating elements, but if only heating a small It is quite easy to steam the water droplets. The heating chamber 24 is made of metal, such as stainless steel or magnetic metal; the two ends of the heating chamber 24 are respectively fixed on the cigarette rod, and there are some annular holes in the middle. Since the heat conduction of the air is relatively weak, this structure can prevent heat from being transmitted to the cigarette rod The external grip, which effectively reduces the heat dissipation to the outside world, greatly reduces the surface temperature of the electronic cigarette rod, the user's hands will not feel hot, and it also improves the utilization efficiency of the power supply and prolongs the charging time of one charge. E-cigarette use time. The heating chamber 24 is equipped with a fine heater 20 (with micro flow channel) having a space heating atomization effect, arranged along the axial direction of the cigarette rod, and controlled by the electric heating switch 17 at the same time. Under normal circumstances, during the smoking process, the indicator light 14 can emit light when the power supply (rechargeable battery) is turned on, and the nicotine solution from the liquid storage tank 18 is heated into steam by the heater 20 having a space heating atomization effect. The flow liquid is small in volume, on the order of nanoliters or microliters, so it can be guaranteed to be completely heated and turned into steam. The resulting nicotine vapor is finally released from the hollow conduit 33 and enters the user's mouth. During use, the amount of nicotine solution in the liquid storage tank 18 can be observed at any time to determine whether to add nicotine solution. If the cover of the liquid filling port 16 is set to be transparent, it can also be determined by directly observing the liquid storage tank 18.

The piezoelectric sensor 37, the electric heating switch 17 and the rechargeable battery 5 form an electrical connection loop through a wire; the piezoelectric sensor 37 and the rechargeable battery 5 are always connected; the electric heating switch is turned on or off according to the signal received by the piezoelectric sensor 37 17. A controller can also be added to the above-mentioned electric heating switch to control the heating process of the nicotine solution. The corresponding controller can use a micro-embedded PLC programmable logic controller, etc.; through the programming operation of the programmable logic controller, the To realize the expected function of the controller; the piezoelectric sensor 37 can be purchased directly from the market.

In the electronic cigarette of the present invention, which heats and atomizes the nicotine solution in a nanometer-scale ultra-fine space, the wall of the tobacco rod at the rear of the tobacco rod part 2 can also be equipped with a "sizzling" sound that simulates the burning of shredded tobacco during the traditional smoking process. The buzzer 11; when the user is smoking, the buzzer 11 will make a proper sound, and the volume indicates that the smoke has been generated and its strength, which can greatly enhance the fun of using the product. The buzzer 11 is electrically connected with the empty rechargeable battery 5 .

In this embodiment, the empty rechargeable battery 5 can be a button battery, a nickel-cadmium/nickel-hydrogen battery, a lithium battery, a dry battery, a thermoelectric battery, a photocell, a supercapacitor, or even a nuclear battery.

The chargers used in the above technical solutions can be travel chargers, seat chargers, maintenance chargers, fuel cell chargers, manual chargers, solar chargers or even wireless chargers to meet various needs. The charger can charge the rechargeable battery in the device wirelessly or wiredly; the rechargeable battery is electrically connected to the charging port provided on the outer wall of the device, so that it can be charged through an external power source; there are many ways to charge, including wired methods And the wireless method, when using the wired method, directly use the charging port provided on the outer wall of the device; when using the wireless charging method, it can be realized through electromagnetic coupling, radio frequency and other methods.

Example 2:

In this embodiment, in order to strengthen the heating effect of the heater, a micro-laser heater 25 that heats the heater 20 with a space heating atomization effect is provided in the heating chamber 24, as shown in FIG. 3 , the micro-laser 25. The emitted laser beam is transmitted to the microchannel of the heater containing the nicotine solution through the optical fiber, so that the nicotine solution flowing through the place is rapidly atomized in nanoliters, and steam is generated into the oral cavity to realize the suction process. The laser 25 adopts a laser body that is easy to miniaturize, such as a semiconductor laser, a dye laser, a gas laser and a diode laser, etc., and the power is between 1mW and 5W. This type of miniature laser heater 25 has mature technology and can be purchased from the market or commissioned by a professional manufacturer to design and manufacture it.

In this embodiment, other components except the micro-laser heater 25 have been explained in detail in Embodiment 1, so they will not be described in detail in this embodiment.

Example 3:

In this embodiment, in this embodiment, in order to strengthen the heating effect on the heater, a micro-radio frequency heater that heats the heater 20 with the space heating atomization effect is provided in the heating chamber 24; The micro-laser heater 25 in Example 2 can be replaced by a micro-radio frequency heater; the power of the micro-radio frequency heater is between 1mW and 5W; this type of device has mature technology and can be purchased from the market or commissioned to design and manufacture by a professional manufacturer.

Example 4:

In this embodiment, in this embodiment, in order to strengthen the heating effect on the heater, a miniature magnetic induction heater for heating the heater 20 with the space heating atomization effect is provided in the heating chamber 24; The micro-laser heater 25 in Example 2 can be replaced by a micro-radio frequency heater; the power of the micro-radio frequency heater is between 1mW and 5W; this type of device has mature technology and can be purchased from the market or commissioned to design and manufacture by a professional manufacturer.

Example 5:

In this embodiment, in this embodiment, in order to strengthen the heating effect of the heater, a miniature infrared heater for heating the heater 20 with the space heating atomization effect is provided in the heating chamber 24; The micro-laser heater 25 in Example 2 can be replaced by a micro-infrared heater; the power of the micro-infrared heater is between 1mW and 5W; this type of device has mature technology and can be purchased from the market or commissioned to design and manufacture by a professional manufacturer.

Embodiment 6:

In this embodiment, in this embodiment, in order to strengthen the heating effect on the heater, a miniature microwave radiation heater for heating the heater 20 with the space heating atomization effect is provided in the heating chamber 24; The miniature laser heater 25 in embodiment 2 can be replaced by a miniature microwave radiation heater; the power of the miniature microwave radiation heater is between 1mW and 5W; this type of device technology is mature, and can be purchased from the market or commissioned by a professional manufacturer to design manufacture.

Embodiment 7:

In this embodiment, in this embodiment, in order to strengthen the heating effect of the heater, a micro-ultrasonic heater for heating the heater 20 with a space heating atomization effect is provided in the heating chamber 24; The micro-laser heater 25 in Example 2 can be replaced by a micro-ultrasonic heater; the power of the micro-ultrasonic heater is between 1mW and 5W; this type of device has mature technology and can be purchased from the market or commissioned to design and manufacture by a professional manufacturer.

Claims (6)

1, a kind of nicotine solution is carried out the electronics cigarette of nanometer sized hyperfine space warming atomizing, comprising: tobacco rod part (2) and be connected in the cigarette holder part (32) of described tobacco rod part (2) front end; It is characterized in that described tobacco rod part (2) is welded with the hollow shaft-like tobacco rod of plug for the rear end; In the inner chamber of this hollow shaft-like tobacco rod part (2) rechargeable battery (5) is housed successively, be used to store the liquid reserve tank (18) of nicotine solution, be loaded on liquid reserve tank (18) front end and with the contacted imbibition core of described nicotine solution (19) be contained in the resistance type heater with space heating atomization effect (20) that is positioned within tobacco rod part (2) anterior heating chamber (24); Be provided with the filling opening (16) that communicates with described liquid reserve tank (18) with the corresponding tobacco rod bar of described liquid reserve tank (18) wall, the bar wall any place of described tobacco rod part (2) is equipped with electrical heating switch (17); Described resistance type heater with space heating atomization effect is a resistance that is electrically connected with rechargeable battery (5); Described resistance is the axial micro-nano tube bank resistance of axial micro-nano tube bank composition or is the axial micro-nano pipeline resistance that has axial micro-nano pipeline;

The center of described cigarette holder part (32) is provided with the hollow tubing conductor (33) that puts in the tobacco rod part (2); On described cigarette holder part (32) anterior wall piezoelectric transducer (37) is housed;

Described tobacco rod part (2) rear end is provided with the charging interface unit (13) that rechargeable battery (5) is charged by external power;

Described piezoelectric transducer (37) is connected state all the time with rechargeable battery (5); Described electrical heating switch (17), piezoelectric transducer (37) and rechargeable battery (5) constitute a circuit loop.

2, the electronics cigarette that nicotine solution is carried out nanometer sized hyperfine space warming atomizing according to claim 1, it is characterized in that, be provided with miniature radio-frequency heater, miniature magnetic induction heaters, miniature ultrasonic heater, miniature infrared heater or the miniature carry out microwave radiation heating device of the heater (20) with space heating atomization effect being implemented heating in the described heating chamber (24).

3, according to claim 1 nicotine solution is carried out the electronics cigarette of nanometer sized hyperfine space warming atomizing, it is characterized in that described rechargeable battery (5) is a button cell.

4, the electronics cigarette that nicotine solution is carried out nanometer sized hyperfine space warming atomizing according to claim 1, it is characterized in that described rechargeable battery (5) is nickel-cadmium cell, Ni-MH battery, lithium battery, dry cell, thermoelectric cell, photocell, super capacitance cell or nuclear battery.

5, the electronics cigarette that nicotine solution is carried out nanometer sized hyperfine space warming atomizing according to claim 1, it is characterized in that, connect the hollow cavity connector (26) that its length has Telescopic between described tobacco rod part (2) and the cigarette holder part (32).

6, the electronics cigarette that nicotine solution is carried out nanometer sized hyperfine space warming atomizing according to claim 1, it is characterized in that, the indicator lamp (14) that is electrically connected with rechargeable battery (5) is housed or/and simulate the buzzer (11) of " whistling " sound that the pipe tobacco burning is sent in traditional smoking process on described tobacco rod part (2) rear link wall.

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