CN105517455A

CN105517455A - Electronic hookah charcoal and method for heating tobacco leaves by electronic hookah charcoal

Info

Publication number: CN105517455A
Application number: CN201480001492.4A
Authority: CN
Inventors: 刘水根
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-08-08
Filing date: 2014-08-08
Publication date: 2016-04-20
Also published as: WO2016019573A1

Abstract

Electronic hookah charcoal and a method for heating tobacco leaves by the electronic hookah charcoal. The electronic hookah charcoal is used for being assembled together with a hookah assembly. The electronic hookah charcoal comprises a housing. A heat source and a reflecting cup are mounted in the housing. The heat source can generate heat radiation. The reflecting cup is used for reflecting the heat radiation generated by the heat source so as to enable heat to be gathered. The heat source is fixedly mounted in the reflection cup. The electronic hookah charcoal has a simple structure and is easy to produce and assemble. By additionally arranging the reflecting cup that can reflect the heat radiation generated by the heat source back into the inner space of the reflecting cup so as to enable the heat to be gathered, heat is brought to tobacco leaves by means of air convection generated by smoking, heat is prevented from radiating freely towards the periphery, the heat loss is reduced, the heat efficiency is improved, energy is saved, and the electronic hookah charcoal is environmentally friendly.

Description

Electronic hookah carbon and method for heating tobacco leaves by using same

Technical Field

The invention relates to the field of electronic cigarettes, in particular to electronic hookah carbon and a method for heating tobacco leaves by using the same.

Background

The electron water smoke carbon on the market at present utilizes electric heating wire or electric heating plate to generate heat, and the heat convection who produces when through thermal radiation or heat-conduction or people smoking is with heat transfer to tobacco leaf, heating tobacco leaf, release flue gas. There are two main ways: firstly, an electric heating wire or an electric heating sheet is arranged above tobacco leaves, an air inlet is arranged above the electric heating wire or the electric heating sheet, when a person smokes, air enters from the air inlet, heat generated by the electric heating wire or the electric heating sheet is brought to the tobacco leaves through the electric heating wire or the electric heating sheet, then the tobacco leaves penetrate through an air outlet at the bottom of a tobacco container and enter an air passage of a water tobacco pot component, but when no smoking action is performed, the heat rises due to light hot air, the heat is dissipated through the air inlet, and heat radiation generated by the electric heating wire or the electric heating sheet can be freely radiated to the periphery, so that the heat loss is large, and the heat efficiency is low; the second kind, electric heating wire or electric heating piece are around the tobacco leaf or below, be about to electric heating wire or electric heating piece setting inside flourishing cigarette ware, the heat that electric heating wire or electric heating piece produced is passed through flourishing cigarette ware direct transfer and is given the tobacco leaf, though because flourishing cigarette ware direct contact tobacco leaf, this kind of mode is more efficient than the heating of 1 st mode, but very easy scorching tobacco leaf, influence the taste of flue gas, and because the heat that produces concentrates in the tobacco leaf below, so the top tobacco leaf can not obtain sufficient heat, especially when having the smoking action, outside air gets into from the air inlet, through the tobacco leaf, take away the air flue that gets into hookah subassembly with the heat of tobacco leaf below, make the heat that the tobacco leaf of top obtained still less like this, lead to the tobacco leaf heating inhomogeneous.

Disclosure of Invention

The invention aims to provide electronic hookah carbon and a method for heating tobacco leaves by using the same, and solves the problems that in the prior art, electronic hookah carbon has large heat loss and low heat efficiency and tobacco leaves are easily heated unevenly.

The technical scheme adopted by the invention for solving the technical problem is as follows: the electronic hookah carbon is used for being assembled with a hookah component and comprises a shell, a heat source capable of generating heat radiation and a reflecting cup used for reflecting the heat radiation generated by the heat source to further collect heat are mounted in the shell, and the heat source is fixedly mounted in the reflecting cup.

In the electronic hookah carbon, a tobacco container for containing tobacco leaves is further arranged in the shell and below the heat source; the inner wall surface of the reflecting cup is parabolic and the opening of the reflecting cup faces downwards, the opening of the smoke container faces upwards and is opposite to the opening of the reflecting cup, one end of the heat source is fixedly installed at the top end of the reflecting cup, and the other end of the heat source extends towards the opening of the smoke container.

In the electronic hookah carbon, a heat-resistant metal net for separating the tobacco leaves from the heat source is arranged between the opening of the reflecting cup and the opening of the tobacco container, and the mesh size of the heat-resistant metal net is smaller than that of the tobacco leaves.

In the electronic hookah carbon, the shell comprises an upper shell and a lower shell which are detachably connected; one end of the reflecting cup is fixedly arranged on the top cover of the upper shell, a supporting plate used for supporting the end part of the opening at the other end of the reflecting cup is arranged in the side wall of the upper shell, and the end part of the opening of the reflecting cup is abutted against the supporting plate; the bottom cover of the lower shell is convexly provided with an airflow pipe which is communicated with the tobacco container and used for circulating the smoke generated by the tobacco leaves, and the tobacco container is connected with the airflow pipe and is further fixedly arranged in the lower shell.

In the electronic hookah carbon, the airflow pipe is connected with a silicone tube which is communicated with the airflow pipe and is used for circulating smoke generated by tobacco leaves to the hookah component, one end, far away from the airflow pipe, of the silicone tube is used for being assembled with the hookah component, and a one-way valve which is opened towards the direction of the hookah component is arranged in the silicone tube.

In the electronic hookah carbon, the top cover of the upper shell is provided with a first air inlet hole, the reflection cup is provided with a second air inlet hole communicated with the first air inlet hole, and the first air inlet hole, the second air inlet hole, the reflection cup, the smoke container, the airflow pipe and the silicone tube form a communicated airflow channel.

In the electronic hookah carbon, the circuit board is mounted on the inner wall of the bottom cover of the lower shell, the circuit board is electrically connected with the power adapter, the power adapter is internally provided with a first electric jack for plugging an external power supply and a second electric jack for switching electric energy to the heat source, a power adapter is inserted into the second electric jack, and the power adapter is electrically connected with the heat source through an electric lead.

In the electronic hookah carbon, an airflow sensor electrically connected with the circuit board is arranged in the silica gel tube; and a temperature sensor which is electrically connected with the circuit board and is used for measuring the temperature of the tobacco leaves is arranged at the opening of the tobacco container facing the reflection cup.

In the electronic hookah carbon, the periphery of the reflecting cup is coated with heat insulation cotton.

The invention also provides a method for heating tobacco leaves by using the electronic hookah carbon, which comprises the following steps:

a. The heat source generates heat radiation after being electrified;

B. the reflecting cup reflects the heat radiation to further collect the heat, and the collected heat is brought to the tobacco leaves by air convection generated by smoking to heat the tobacco leaves, so that smoke is generated.

The electronic hookah carbon and the method for heating the tobacco leaves have the following beneficial effects: the electronic hookah carbon has a simple structure, is easy to produce and assemble, can reflect heat radiation generated by a heat source back to the inner space of the reflecting cup to gather heat, brings the heat to tobacco leaves by air convection generated by smoking, avoids free radiation of the heat to the periphery, reduces heat loss, improves heat efficiency, saves energy and is environment-friendly.

Drawings

FIG. 1 is a schematic cross-sectional view of the assembly of an electronic hookah carbon and hookah assembly of the present invention;

FIG. 2 is a schematic external view of the electronic hookah carbon of the present invention;

FIG. 3 is a schematic cross-sectional view of an electronic hookah carbon of the present invention;

FIG. 4 is a schematic cross-sectional view of the lower housing of the electronic hookah carbon and its internal structure of the present invention;

FIG. 5 is a schematic cross-sectional view of a bolt with holes for an E-hookah carbon according to the present invention.

Detailed Description

The structure principle and the specific implementation of the electronic hookah carbon of the invention are further explained with the accompanying drawings and the embodiments:

as shown in figure 1, the electronic hookah carbon is used for being assembled with a hookah assembly 1 to form an electronic hookah. Electron water smoke carbon includes casing 2, install heat source 5 that can produce heat radiation in the casing 2 and be used for gathering the thermal reflection cup 4 of heat radiation heat that heat source 5 produced, heat source 5 fixed mounting is in reflection cup 4, lie in heat source 5's below in the casing 2 and still install the flourishing cigarette ware 3 that is used for holding the tobacco leaf, the inner wall surface of reflection cup 4 is parabolic face form and opening down, the opening of flourishing cigarette ware 3 up and relative with the opening of reflection cup 4, the one end fixed mounting of heat source 5 is on the top of reflection cup 4, the other end of heat source 5 extends towards the opening of flourishing cigarette ware 3.

As shown in fig. 2, the housing 2 includes an upper housing 21 and a lower housing 22 detachably connected, and a sealing ring (not labeled in the figure) is disposed between the upper housing 21 and the lower housing 22 to prevent gas from entering and disturbing a normal gas flow passage in the electronic hookah carbon. Wherein the lower half periphery of upper casing 21 is wrapped with convex decorative sheet 23 for beautify the outward appearance of electron shredded tobacco for water pipes carbon, is equipped with the first electric mortiser 10 that is used for with external power source grafting on lower casing 22, and the bottom of lower casing 22 is equipped with a hollow portion 222 that runs through towards the protruding direction of shredded tobacco for water pipes kettle subassembly 1. The upper shell 21 and the lower shell 22 can be detachably connected in an inserting manner, specifically, an inserting groove matched with the end of the lower shell 22 is formed on the end of the upper shell 21, and the end of the lower shell 22 is inserted into the inserting groove of the upper shell 21; a slot matched with the end of the upper shell 21 can be formed on the end of the lower shell 22, and the end of the upper shell 21 is inserted into the slot of the lower shell 22; in the present embodiment, as shown in fig. 3, a slot 24 adapted to the end of the lower shell 22 is formed between the outer wall of the upper shell 21 and the decorative sheet 23. The upper casing 21 and the lower casing 22 can be detachably connected by means of buckling, and the upper casing 21 is buckled on the periphery of the lower casing 22, or the lower casing 22 is buckled on the periphery of the upper casing 21.

As shown in fig. 3, the smoke container 3 is mounted in the lower case 22, the reflecting cup 4 and the heat source 5 are mounted in the upper case 21, and the heat source 5 may be a halogen bulb, a tungsten bulb, or the like, or an infrared lamp that generates infrared heat radiation or the like. The reflecting cup 4 is used for gathering the heat of the heat radiation generated by the heat source 5 towards the tobacco leaves to heat the tobacco leaves, the inner wall of the reflecting cup 4 is in a paraboloid shape and is in a roughly inverted bowl shape, so that the heat radiation is gathered, and the heat radiation emission can be reduced to the maximum extent, wherein the opening of the reflecting cup is in a circular shape, the inner diameter of the opening is preferably 30mm-70mm, and the inner diameter of the opening of the reflecting cup can be 30mm, 50mm, 60mm or 70mm, and is most preferably 50 mm. The inner wall of the reflecting cup 4 is plated with a heat-insulating reflecting film, and the reflecting cup 4 itself can be made of a material capable of reflecting heat radiation. The heat source 5 is arranged above the tobacco container 3, so that the tobacco container does not need to be contacted with tobacco leaves, the phenomenon of uneven heating is avoided, meanwhile, the reflection cup 4 capable of gathering heat radiation heat is additionally arranged, the heat can be prevented from freely radiating around, the heat loss is reduced, and the heat efficiency is greatly improved. The distance between one end of the heat source 5 extending towards the smoke container 3 and the top end of the smoke container 3 is preferably 2mm-10mm, which not only helps to improve the thermal efficiency of heating tobacco leaves, but also avoids the problem of burning caused by over-heating of tobacco leaves, wherein the distance between one end of the heat source 5 extending towards the opening direction of the smoke container 3 and the opening of the smoke container 3 can be 2mm, 4mm, 5mm, 6mm, 10mm, and most preferably 4 mm.

As shown in fig. 3, the opening of the reflective cup 4 faces downward, the opening of the cigarette holder 3 faces upward, and the openings of the cigarette holder 3 and the reflective cup 4 are opposite and close to each other. A heat-resistant metal net 6 is arranged between the opening of the reflecting cup 4 and the opening of the tobacco container 3 and is used for isolating the tobacco leaves from the heat source 5, and the mesh size of the heat-resistant metal net 6 is smaller than that of the tobacco leaves, so that the tobacco leaves are prevented from entering the reflecting cup 4 and directly contacting the heat source 5. The heat-resistant metal net 6 can be fixedly arranged at the opening of the reflecting cup 4, or can be detachably connected with the cigarette container 3 by directly covering the opening of the cigarette container 3, wherein the detachable connection is to facilitate the opening of the heat-resistant metal net 6 when the cigarette container 3 is used for replacing tobacco leaves; of course, it is preferable that the heat-resistant metal net 6 is directly and fixedly installed at the opening of the reflection cup 4 and the opening cover of the reflection cup 4 is buckled, so that the heat-resistant metal net 6 is not needed to be installed on the tobacco container 3, and the tobacco leaf replacement of the tobacco container 3 is more convenient. In addition, the upper casing 21 and the lower casing 22 are detachably connected, so that the upper casing 21 and the lower casing 22 are easily separated, and the opening of the tobacco container 3 is exposed to replace tobacco leaves.

As shown in fig. 3, one end of the reflector cup 4 is fixedly mounted on the top cover of the upper casing 21 by screws or welding or adhering, a support plate 7 for supporting the other end of the reflector cup 4 is mounted in the lower sidewall of the upper casing 21 in a protruding manner, and the other end of the reflector cup 4 is the opening of the reflector cup 4, so that the end of the opening of the reflector cup 4 can be abutted against the support plate 7, and the support plate 7 is preferably a microcrystalline glass plate which can resist high temperature and has low thermal conductivity. The periphery of the reflector cup 4 is covered with a heat insulation cotton 41 for isolating the heat on the reflector cup 4 and preventing the heat of the upper shell 21 from being too high.

As shown in fig. 3-4, a substantially cylindrical airflow tube 221 is convexly disposed on the bottom cover of the lower housing 22 toward the smoke container 3, the bottom wall of the smoke container 3 is recessed toward the inside of the smoke container 3 to form a groove 31 with both ends open, the airflow tube 221 is inserted into the groove 31 of the smoke container 3 and is communicated with the smoke container 3, the inner wall of the airflow tube 221 is provided with internal threads, the external threads of the perforated bolt 32 shown in fig. 5 are matched with the internal threads of the airflow tube 221 to form threaded connection, as shown in fig. 5, the perforated bolt 32 comprises a nut 321 and a stud 322, the nut 321 presses against the smoke container 3, the nut 321 is provided with a vent hole 323 for smoke generated by tobacco leaves to flow out, the stud 322 is hollow cylindrical, the outer circumference of stud 322 has external threads.

As shown in fig. 3-4, one end of the airflow tube 221, which is away from the cigarette holder 3, is connected to a silicone tube 8 communicated with the airflow tube 221, wherein a hollow penetrating portion 222 for inserting and fixing the silicone tube 8 is convexly disposed on a bottom cover of the lower housing 22 in a direction toward the hookah assembly 1, one end of the silicone tube 8 is inserted into the penetrating portion 222 and is fixed on the penetrating portion 222 by means of adhesion or the like, and the other end of the silicone tube 8 is used for being assembled with the hookah assembly 1, so as to circulate the smoke generated by the tobacco leaves into the hookah assembly 1. Be equipped with the check valve 81 that opens towards shredded tobacco for water pipes subassembly 1 direction in silicone tube 8, can avoid leading to the water in shredded tobacco for water pipes subassembly 1 to flow backward and hold in the cigarette ware 3 when the aspirator blowback like this, in this embodiment, wherein check valve 81 is installed in the one end that shredded tobacco for water pipes subassembly 1 was kept away from to silicone tube 8, can conveniently produce the operation of equipment like this, of course also can install other positions in silicone tube 8 in other embodiments, check valve 81 rotates with silicone tube 8 to be connected, can connect through folding paper etc.. In addition, a filter 82 for filtering tobacco leaves is installed below the perforated bolt 32 to prevent the tobacco leaves passing through the air holes 323 of the perforated bolt 32 from entering into the hookah assembly 1.

As shown in fig. 3-4, a circuit board 9 is welded and mounted on an inner wall of the bottom cover of the lower housing 22, a power adapter 91 is electrically connected to the circuit board 9, the power adapter 91 has a first electrical socket 10 facing an outer side of the lower housing 22 for plugging an external power supply, the power adapter 91 further has a second electrical socket 20 for connecting the heat source 5 with electrical energy, as shown in fig. 3, a power adapter 92 is inserted into the second electrical socket 20, and the power adapter 92 is electrically connected to two pins of the heat source 5 through electrical leads 93 for supplying power to the heat source 5. It should be noted that, when the upper housing 21 and the lower housing 22 are detached to replace the tobacco leaves, the power adapter 92 can be easily pulled out from the second electrical socket 20, and after the tobacco leaves are replaced, the power adapter 92 is inserted into the second electrical socket 20, and the tobacco leaves can be continuously used after being installed in place. A fuse 94 is also provided on the circuit board 9 for protecting the circuit.

As shown in fig. 3, a top cover of the upper housing 21 is provided with first air inlet holes 11, preferably 8 first air inlet holes 11, and the edge of the top cover of the upper housing 21 is uniformly arranged, so that air flow can uniformly enter the electronic hookah carbon, and the smoking effect and the smoking taste can be better enhanced. The reflection cup 4 is provided with a second air inlet hole 12 communicated with the first air inlet hole 11, it can be understood that when the periphery of the reflection cup 4 is coated with the heat insulation cotton 41, in order to communicate the second air inlet hole 12 with the first air inlet hole 11, the second air inlet hole 12 is inevitably formed at a position where the reflection cup 4 is not coated with the heat insulation cotton 41, in this embodiment, the second air inlet hole 12 is formed at the top of the reflection cup 4, so that the first air inlet hole 11, the second air inlet hole 12, the reflection cup 4, the smoke container 3, the airflow pipe 221 and the silicone tube 8 form a complete and communicated airflow channel. When a user smokes, airflow enters the electronic hookah carbon through the first air inlet hole 11 on the top cover of the upper shell 21, then enters the reflection cup 4 through the second air inlet hole 12 on the reflection cup 4, hot air in the reflection cup 4 is brought to the tobacco container 3, tobacco leaves are heated by the hot air to generate smoke, and the smoke enters the airflow pipe 221 through the vent hole 323 on the bolt 32 with the hole, blows the check valve 81 to enter the silicone tube 8 and then enters the hookah component 1 to realize a smoking process.

An airflow sensor 95 electrically connected with the circuit board 9 is arranged in the silicone tube 8, is communicated with the airflow channel and is used for sensing whether airflow passes through or not, and further controlling the work of the electronic hookah carbon.

A temperature sensor (not shown) electrically connected with the circuit board 9 is arranged at the opening of the cigarette container 3 facing the reflection cup 4 and used for measuring the temperature of the tobacco leaves and further controlling the heating intensity of the heat source 5.

A touch switch (not shown) may be disposed outside the lower case 22, a LOGO may be printed on the touch switch, three-color LED lamps are installed in the touch switch to indicate high, medium and low gears of different heating powers, and both the touch switch and the LED lamps are electrically connected to the circuit board 9.

The specific working principle is as follows: fixing the electronic hookah carbon on the hookah component 1, connecting a power supply, pressing the touch switch for 5 seconds with a long hand, receiving a starting signal by the touch switch, and executing a starting action under the control of the circuit board 9; continuously pressing the touch switch twice to switch gears, setting three gears of high, middle and low in total, simulating the number of charcoal of the traditional hookah, and displaying the gears through three-color LEDs; the tobacco leaf temperature monitoring device is connected with an external power supply through the power adapter 91, transmits electric energy to the power adapter 92 and the electric lead 93, transmits the electric energy to the heat source 5, detects the instant temperature of tobacco leaves at the same time, and when the temperature of the tobacco leaves rises to a certain temperature (the temperature range is controlled to be 200-500 ℃ and the temperature is selected according to the gear selected by a user), the heat source 5 is converted into low power and the LED lamp flickers to prompt the user to use; when a user smokes, airflow enters the electronic hookah carbon through the first air inlet hole 11 on the top cover of the upper shell 21, and then enters the reflection cup 4 through the second air inlet hole 12 on the reflection cup 4, hot air in the reflection cup 4 is brought to the tobacco container 3, tobacco leaves are heated by the hot air to generate smoke, the smoke enters the airflow pipe 221 through the vent hole 323 on the bolt 32 with holes, the one-way valve 81 is blown open, the smoke enters the silicone tube 8, the airflow triggers the airflow sensor 95 arranged on the silicone tube 8, the airflow sensor 95 senses that the user has smoking action, and the power of the heat source 5 is increased, so that the temperature required by the gear selected by the user is reached; when the user does not smoke, the airflow sensor 95 is not operated, the heat source 5 is kept in a low power state, the temperature of the tobacco leaves is maintained within the range of 50-195 degrees, when the temperature is higher than 195 degrees, the heat source 5 is temporarily stopped, and when the temperature is lower than 50 degrees, the heat source 5 is lighted and operates at low power.

The electronic hookah carbon has a simple structure, is easy to produce and assemble, and can prevent the heat source from directly contacting with the tobacco leaves by containing the tobacco leaves in the tobacco container and installing the heat source above the tobacco container, so that the phenomenon of uneven heating of the tobacco leaves is avoided; meanwhile, the reflection cup which can reflect the heat radiation generated by the heat source back to the inner space to gather the heat is additionally arranged, so that the heat is prevented from freely radiating to the periphery, the loss of the heat is reduced, the heat efficiency is improved, and the energy-saving and environment-friendly effects are achieved.

The electronic water tobacco carbon heats the tobacco leaves by the following method: fixing the electronic hookah carbon on the hookah component 1, connecting a power supply, pressing the touch switch for 5 seconds with a long hand, receiving a starting signal by the touch switch, and executing a starting action under the control of the circuit board 9; continuously pressing the touch switch twice to switch gears, setting three gears of high, middle and low in total, simulating the number of charcoal of the traditional hookah, and displaying the gears through three-color LEDs; the tobacco leaf temperature monitoring device is connected with an external power supply through the power adapter 91, transmits electric energy to the power adapter 92 and the electric lead 93, transmits the electric energy to the heat source 5, detects the instant temperature of tobacco leaves at the same time, and when the temperature of the tobacco leaves rises to a certain temperature (the temperature range is controlled to be 200-500 ℃ and the temperature is selected according to the gear selected by a user), the heat source 5 is converted into low power and the LED lamp flickers to prompt the user to use; when a user smokes, airflow enters the electronic hookah carbon through the first air inlet hole 11 on the top cover of the upper shell 21, and then enters the reflection cup 4 through the second air inlet hole 12 on the reflection cup 4, the reflection cup 4 collects heat radiation heat generated by the heat source 5 and enables the heat to be concentrated towards the direction of tobacco leaves, the heat is brought to the tobacco container 3 by the airflow to heat the tobacco leaves to generate smoke, the smoke airflow enters the airflow pipe 221 through the vent hole 323 on the bolt 32 with the hole, the one-way valve 81 is blown open to enter the silicone tube 8, the smoke airflow triggers the airflow sensor 95 arranged on the silicone tube 8, the airflow sensor 95 senses that the user has smoking action, and the power of the heat source 5 is increased to reach the temperature required by the gear selected by the user; when the user does not smoke, the airflow sensor 95 is not operated, the heat source 5 is kept in a low power state, the temperature of the tobacco leaves is maintained within the range of 50-195 degrees, when the temperature is higher than 195 degrees, the heat source 5 is temporarily stopped, and when the temperature is lower than 50 degrees, the heat source 5 is lighted and operates at low power.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims

The utility model provides an electron shredded tobacco for water pipes carbon for assemble mutually with shredded tobacco for water pipes pot subassembly (1), electron shredded tobacco for water pipes carbon includes casing (2), its characterized in that, install in casing (2) can produce thermal radiation heat source (5) and be used for with thermal radiation reflection that heat source (5) produced and then make heat gathering's reflection cup (4), heat source (5) fixed mounting in reflection cup (4).
The electronic hookah carbon according to claim 1, wherein a tobacco container (3) for containing tobacco leaves is further installed in the housing (2) below the heat source (5); the inner wall surface of the reflecting cup (4) is parabolic and the opening of the reflecting cup faces downwards, the opening of the smoke container (3) faces upwards and is opposite to the opening of the reflecting cup (4), one end of the heat source (5) is fixedly installed at the top end of the reflecting cup (4), and the other end of the heat source (5) extends towards the opening direction of the smoke container (3).
The electronic hookah carbon according to claim 2, wherein a heat-resistant metal net (6) for separating the tobacco leaves from the heat source (5) is provided between the opening of the reflection cup (4) and the opening of the smoke container (3), and the mesh size of the heat-resistant metal net (6) is smaller than the size of the tobacco leaves.
The e-hookah carbon according to claim 2, wherein the housing (2) comprises an upper housing (21) and a lower housing (22) which are detachably connected; one end of the reflecting cup (4) is fixedly arranged on a top cover of the upper shell (21), a supporting plate (7) used for supporting the end part of the opening at the other end of the reflecting cup (4) is arranged in the side wall of the upper shell (21), and the end part of the opening of the reflecting cup (4) is abutted against the supporting plate (7); an airflow pipe (221) communicated with the tobacco container (3) and used for circulating smoke generated by tobacco leaves is convexly arranged on the bottom cover of the lower shell (22) towards the direction of the tobacco container (3), and the tobacco container (3) is connected with the airflow pipe (221) and then fixedly installed in the lower shell (22).
The electronic hookah carbon according to claim 4, wherein a silicone tube (8) communicated with the air flow tube (221) and used for circulating smoke generated by tobacco leaves to the hookah assembly (1) is connected to the air flow tube (221), one end of the silicone tube (8) far away from the air flow tube (221) is used for being assembled with the hookah assembly (1), and a one-way valve (81) which opens towards the hookah assembly (1) is arranged in the silicone tube (8).
The electronic hookah charcoal according to claim 5, wherein a first air inlet hole (11) is formed in a top cover of the upper housing (21), a second air inlet hole (12) communicated with the first air inlet hole (11) is formed in the reflection cup (4), and the first air inlet hole (11), the second air inlet hole (12), the reflection cup (4), the smoke container (3), the airflow pipe (221) and the silicone tube (8) form a communicated airflow channel.
The electronic hookah carbon according to claim 5, wherein a circuit board (9) is installed on an inner wall of a bottom cover of the lower shell (22), a power adapter (91) is electrically connected to the circuit board (9), a first electrical socket (10) for inserting an external power supply and a second electrical socket (20) for connecting electric energy to the heat source (5) are arranged in the power adapter (91), a power adapter (92) is inserted into the second electrical socket (20), and the power adapter (92) is electrically connected with the heat source (5) through an electrical lead (93).
The electronic hookah carbon according to claim 7, wherein an airflow sensor (95) electrically connected to the circuit board (9) is mounted in the silicone tube (8); the opening of the cigarette container (3) facing the reflection cup (4) is provided with a temperature sensor which is electrically connected with the circuit board (9) and is used for measuring the temperature of the tobacco leaves.
The electronic hookah carbon according to claim 1, wherein the periphery of the reflection cup (4) is coated with heat insulation cotton (41).
A method for heating tobacco leaves by using the electronic hookah carbon according to any one of claims 1 to 9, comprising the steps of:

a. The heat source (5) generates heat radiation after being electrified;

b. The reflecting cup (4) reflects the heat radiation to further collect the heat, and the collected heat is brought to the tobacco leaves by air convection generated by smoking to heat the tobacco leaves to generate smoke.