KR101454125B1 - Integrated type electronic cigarette - Google Patents

Abstract

Disclosed is a multi-purpose and multi-functional integrated electronic cigarette which can be also used as a vapor suctioning device. The electronic cigarette comprises: a suctioning unit; an atomizer structure; a liquid storing unit; a switch; and a battery. The atomizer structure comprises: a wick which has a cylindrical shape, wherein a part of the wick in an axis direction, which is parallel to a length direction of the cylindrical shape is inserted in the liquid storing unit; a heating unit which is disposed at the top end of the wick and atomizes a liquid supplied from the wick; and a suctioned liquid air adjusting device which includes a hollow and cylindrical air feeding pipe horizontally disposed in an axis direction of the wick, wherein a part of the air feeding pipe is inserted in the liquid storing unit, and the quantity of air fed into the liquid storing unit from the opposite side of the part inserted in the liquid storing unit is adjusted, so that the air is supplied into the liquid storing unit. Multi-purpose functional devices are prepared to deliver double and triple functions as auxiliary devices for related devices, so that the functional structure of the devices is highly integrated.

Description

[0001] INTEGRATED TYPE ELECTRONIC CIGARETTE [0002]

More particularly, the present invention relates to an electronic cigarette, and more particularly, to a cigarette having a versatile function while enhancing the function of the original electronic cigarette and simultaneously integrating functions by performing redundancy between functions, , And an electronic cigarette having an improved design width.

Electronic cigarette is an electronic device that sucks vaporized smoke by atomizing nicotine by heating the liquid phase with heat.

Such electronic cigarettes generally include an electronic cigarette body; battery; Wherein the cartridge is a portion storing the liquid of the electronic cigarette, and the atomizer is a portion connected to the cartridge to heat the liquid phase of the cartridge to atomize.

In general, a heating part of a atomizer uses a nichrome wire which is an electrothermal coil to generate heat well, and various wicks are used as a supplying body for directly supplying a liquid phase to the heating part.

 The cartridge stores the liquid phase, and the liquid phase is stored in a tank-like manner or in a member such as a cotton pad, or in a storage container type in which ink is stored in the pen.

This conventional electronic cigarette function is focused on a function device which simply fires liquid in the liquid phase and it is difficult to improve the function of the device itself or to improve the function of the device by the lack of understanding of the boiling point of the liquid liquid composition and the heat- In addition, the use of electronic cigarette devices has been limited to a limited extent, and there has been a limitation in expanding a variety of uses through a respiratory apparatus, such as inhalation of various fragrances, inhalation of health supplements, and inhalation of medicines using the nicotine liquid .

On the other hand, in the conventional electronic cigarette, the liquid phase is atomized, the heating liquid such as the heating wire is wrapped around the liquid supply core, the liquid phase is heated by the instantaneous heating, and then the direct air is drawn in through the heating portion in one direction. And adopts a general method. This is because the electronic cigarette machine is merely functioning only in its original basic function of heating the liquid phase and boiling it in a high temperature and unilaterally vaporizing it. The electronic cigarette machine has its own function Which is not able to achieve the qualitative upgrading of the technology.

The limitation of the liquid vaporization method using only the exothermic heat of the present electronic cigarette device itself is that the incomplete atomization of liquid phase due to the high temperature heating which can not be controlled at 950 degrees of the heating element superheater (the liquid phase is completely vaporized and vaporized (The phenomenon of scattering a large amount of liquid phase by splashing a large amount of liquid phase without being able to reach the state) and heterogeneous (liquid phases of various components are different from each other in boiling point, The phenomenon of being sprayed without being boiled properly due to the sudden boiling of other low-liquid components). The artifacts are limited in the expression of the taste, and only the function of the electronic cigarette is low.

In recent years, in order to overcome the limitation of taste expressing function in a device with a liquid composition, carbon dioxide and water are added to the liquid phase to improve a cooling sensation and a feeling of hitting by carbon dioxide, However, the fact that the amount of liquid required per one inhalation of electronic cigarette is only 6 ~ 12 μl, and that the cooling sensation or stimulation in the oral cavity of carbon dioxide is caused by the foam bubble for the carbon dioxide emission in the liquid state Considering the fact that the carbon dioxide added to a small amount of liquid phase for one atomization is not vaporized by the high temperature of the heat generating portion and it is impossible to exhibit any function or effect of the carbon dioxide originally, , Gap gap for increase of impact feeling, volatile fragrance such as emulsified aryl and shinigreen Taste representation of the electronic cigarette with a liquid composition, rather it is, such as to limit a lift generating poisons the perfume with a lower boiling point and combustion temperature.

Meanwhile, the conventional electronic cigarette can not control the generation of poisonous substances due to the liquid combustion due to the high temperature heating, and the environment such as acetaldehyde, formaldehyde, The safety of the use of the device due to the generation and contamination of hormones can not be guaranteed.

In order to cope with toxic substances generated when using the electronic cigarette device, some of the conventional devices attempt to remove the toxic substances generated when the electronic cigarette is used by installing a filter containing a male member, Is a liquid that is a vapor. When vapor passes through a filter and touches a purifying material in order to purify the vapor, the vapor of glycerine-based vapor is easily adsorbed by the purifying material and not the toxic substance is filtered, There is a problem in that the function of the electronic cigarette machine is remarkably lowered.

In recent years, attempts have been made to provide an additional function to electronic cigarettes. For example, as an example of an anion effect by attaching an anion generating material such as activated carbon, which is not an anion generator, Patent No. 10-1250017 entitled " Suction device and anion generating member applied to the suction device ". In this patent, 2,000,000 equivalent anions are distributed per 1 cm 2 within 1 m of radius (for example, distribution of negative ions is possible only when negative ions are generated by the electronic anion generator). However, the generation of negative ions is insignificant The generation effect becomes meaningless.

Another attempt to provide an additional function to electronic cigarettes is to use electronic cigarette devices as the nicotine of electronic cigarettes and to heat the solid flavors to burn them and inhale them, The risk of poisonous substances generated during combustion is further increased, which significantly hinders the safety of the apparatus.

In recent years, a function of controlling the degree of liquid atomization by varying the electric power supplied to the heat generating portion of the electronic cigarette atomizer structure has been added. However, this is because unilateral power change This is rather a complication of the apparatus and increases the production cost of the apparatus, which is not a qualitative but rather a formal function improvement, which hinders the economic and functional efficiency of the electronic cigarette machine .

As a conventional technique having a function of controlling the degree of liquid atomization, Korean Patent Registration No. 10-1256914 "Liquefied Vaporization Suction Apparatus" has been invented. However, this patent discloses that a porous liquid derivative ) Is inserted into the liquid container to supply the liquid to the external heat generating part, while performing a main liquid supply function by using an electric pump, which is a separate liquid supply device, so as to control the operation of the pump to supply the liquid supply amount to the heat generating part The control is performed in accordance with the amount of power to be supplied.

This patent, however, is an inventor of a controllable liquid supply regulator that is uncontrollable due to a lack of understanding of the underlying liquid supply system. This is because, as with the core function of all the existing electronic cigarettes, the absorption of the liquid phase due to the osmotic action of the core itself, as long as the liquid medium derivative which is the medium for supplying the liquid to the heat generating portion, that is, the porous medium capable of inhaling liquid osmosis, The liquid phase is automatically supplied to the exothermic vaporizing unit without pumping operation of the electric motor and the hydraulic pump by simultaneous introduction of air into the liquid cylinder for equilibrating the pressure in the liquid cylinder. , The control of the liquid supply by this pump operation is left to the control, while the liquid supply operation by the osmotic action of the uncontrollable core itself is left unattended.

Even with the dual control method of tightening the wick, which is a liquid delivery medium, the precision of the liquid supply control is further reduced, and furthermore, the complicated double three-layer control device must be layered for one control. It will only cause serious problems that hinder the integration of the economics and the structure of the device, in principle of control function operation, which seriously hampers process inefficiency and manufacturing economics.

In order to solve the problems of the prior art, the present inventors have conducted various studies to solve the problems of the prior art, and have diversified the use of the electronic cigarette device itself, while diversifying the use of the electronic cigarette device itself, To develop a new invention electronic cigarette that maximizes the efficiency and efficiency of the device integrating various functions of the device and maximizes the safety and economical efficiency so that the design of the small slim device can be realized.

According to the present invention, Atomizer structure; Liquid storage; switch; And a battery, wherein the atomizer structure comprises a cylindrical wick, wherein a portion of the wick in the axial direction parallel to the longitudinal direction of the cylinder is inserted into the liquid reservoir portion Wick; A heating unit disposed at an upper end of the wick to atomize a liquid phase supplied from the wick; And a hollow cylindrical air inlet pipe disposed in parallel with an axial direction of the wick, wherein a portion of the air inlet pipe is inserted into the liquid storage portion and is disposed in the liquid storage portion, And a liquid inhalation air conditioning device for adjusting the amount of air introduced into the liquid storage part and supplying the adjusted amount of air into the liquid storage part.

For example, the wick and the heat generating portion may be made of a metal net which is rolled up into a roll shape and a part of the roll shape in the axial direction is inserted into the liquid storage portion, and the upper end of the roll is curled so as to have an elliptical shape A first electrode and a second electrode are provided on an upper end of the scroll, and an upper end of the scroll rolled in an elliptical shape may be the heat generating part.

Wherein the liquid intake air control device comprises: the air inlet pipe; And an air hole opening / closing valve coupled to an upper end of the air inlet pipe, wherein air inlets arranged along an axial direction of the air inlet pipe are formed at an upper end of the air inlet pipe to which the opening / closing valve is coupled, An air outlet port is formed at a lower end of the inflow pipe so that air introduced into the air inflow pipe through the air inflow ports is discharged into the liquid storage section. The on / off valve is raised and lowered in the upper end of the air inflow pipe, And opens and closes a part of the air inlets in accordance with a descending height.

(+) Power source or (-) power source is applied from the battery located below the liquid storage unit, and the metal net surrounds the circumferential surface of the air inflow pipe, An electrode provided at a portion opposed to the circumferential surface of the inflow pipe is in contact with the air inflow pipe.

In order to completely atomize the supplied liquid, the supply amount of the liquid is adjusted by the liquid-phase intake air control device so as to be able to contact with the battery, and the variable power corresponding to the supplied amount of liquid is delivered to the heat- Power control device.

The power regulator includes a variable resistor, the battery is rotatably coupled below the liquid reservoir, and the battery rotates to regulate the regulated power according to the position at which one terminal of the battery contacts the variable resistor And supplies it to the heating unit.

Wherein the power regulating unit includes a power regulating terminal unit having a first switch contact terminal on one side and the variable resistor on the opposite side of the first switch contact terminal, A power supply terminal portion which is disposed in the liquid storage portion so as to face the power regulation terminal portion and which is connected to the air inlet pipe is installed in the liquid storage portion, Wherein the power supply terminal portion includes a second switch contact terminal opposed to the first switch contact terminal and the switch is disposed between the first switch contact terminal and the second switch contact terminal, And when the battery is brought into contact with the second switch contact terminal, power is applied to the battery .

For example, the power control terminal unit may include a circular plate portion; And a first switch contact terminal extending bending from the circular plate portion and located opposite to the circular plate portion, the circular plate portion including terminal grooves arranged along the circumferential direction of the circular plate portion, Wherein the variable resistor is located in other terminal grooves except for one of the terminal grooves located at the outermost of the terminal grooves, the terminal of the battery contacts the terminal grooves, The electronic cigarette may be turned off when the terminal cigarette comes into contact with the terminal groove which is not positioned.

Wherein the atomizer structure includes a radiator housing accommodating the heating portion and a wick, and the suction portion includes a first sliding tube inserted in the inside of the atomizer housing so as to be slidable along the axial direction of the atomizer housing, .

The atomizer structure may further include an electronic anion outlet disposed inside the first sliding tube and positioned above the air inlet tube and discharging the anion toward the upper end of the first sliding tube.

The electronic negative ion discharge unit may include: a cylindrical housing provided inside the atomizer housing; A valve connecting ring mounted on one side of the housing; A housing cap mounted on the opposite side of the portion where the valve connection ring is located to seal the inside of the housing; An anion generator disposed between the valve connection ring and the housing stopper and received in the housing; And an anion discharge pipe inserted in the center of the housing stopper and discharging anions generated in the negative ion generator toward an upper end of the first sliding pipe.

Closing valve is screwed to the upper end of the air inlet pipe and the valve connecting ring is connected to the opening and closing valve while the upper end portion of the opening and closing valve is wrapped around the valve opening ring and the circumferential direction of the housing stopper And a plurality of insertion projections are formed at a lower end portion of the first sliding tube to be inserted into the sliding tube connecting groove. In this case, the first sliding tube The plurality of insertion protrusions are inserted into the plurality of sliding tube connecting grooves, and when the first sliding tube is turned clockwise and counterclockwise along the circumferential direction of the housing, the housing rotates, And the on / off valve is moved in the axial direction of the air inflow pipe And it is lowered.

Wherein the atomizer structure is disposed in the periphery of the heat generating portion and has an outside for discharging the vaporized vapor in a direction parallel to and in a direction parallel to the liquid supply direction or in a direction parallel to the suction direction of the vaporizing vapor through the suction portion, And an air inflow inducing unit for inflowing the air around the heat generating unit to enhance liquid atomization.

Wherein the air induction induction unit comprises: an air induction ceramic cap coupled to the periphery of the air inlet pipe and surrounding the heat generating unit; A first air hole formed on one side of the atomizer housing so as to be positioned above the heat generator; And a second air hole formed on the other side of the atomizer housing so as to be positioned below the heat generating portion, wherein external air flows in a direction opposite to the liquid supply direction through the first air hole, And the ceramic cap covers the first air hole and the second air hole in a state surrounding the heat generating part, so that the first air hole So that the air introduced through the second air holes can flow only toward the lower side of the heat generating portion.

And a second sliding tube surrounding the atomizer housing and having an upper end connected to an upper end of the first sliding tube and slidable along an axial direction of the atomizer housing, And the first sliding tube is lifted together with the second sliding tube when the second sliding tube is lifted along the axial direction of the atomizer housing, The second sliding tube may be lowered along the axial direction of the atomizer housing so as to be spaced apart from the first sliding tube.

And a perfume enhancer installed inside the upper end of the first sliding tube to mix external perfume into the vaporized vapor discharged through the first sliding tube.

Wherein the fragrance enhancer comprises: a body portion having a receiving space and inserted into the first sliding tube; Fragrance storage members accommodated in the accommodation space and storing fragrance; And a stopper portion coupled to the main body portion and covering the accommodating space, wherein a perfume discharge pipe communicating with the inside of the first sliding pipe is formed at the center of the main body portion, and the accommodating space is formed along the circumferential direction of the perfume discharge pipe And a perfume outlet communicating with the accommodation space is formed in a circumferential direction of the perfume discharge tube.

The fragrance pack may include a replaceable fragrance pack and a solid foamed foil that is fumigated to discharge the foaming gas. The fragrance pack may be used to enhance the taste and feel of the vaporized vapor, to enhance the health of the user, For the additional supply of external perfumes which are not included in the perfume inhalation and therapeutic fragrances and respiratory inhalation of the oral inhalation drugs or in the composition of the vaporized fumes, in particular for enhancing the sensation of the feeling, sinigrin, piperine, And a flavor and olfactory stimulant additive such as chavicine, emulsified aryl (onion, persimmon, garlic spicy ingredient), capsaicin, etc., and the solid foam preparation generates carbon dioxide and moisture in the fragrance pack composition And a variety of minerals such as vitamins that have a refreshing taste and nutritional function, and the like, Wherein the surface of the main body portion facing the electronic negative ion discharge portion is communicated with the inside of the first sliding tube and is located in the axial direction of the perfume discharge pipe A steam inlet is formed through the steam inlet, and the steam is introduced through the steam inlet to perform the solid fog-defined fumigation process.

1 is a view for explaining an electronic cigarette according to an embodiment of the present invention.
Fig. 2 is an enlarged view of a part of the electronic cigarette shown in Fig.
Fig. 3 is an enlarged view of another portion of the electronic cigarette shown in Fig.
FIG. 4 illustrates the air inlet pipe and the on-off valve shown in FIG.
Fig. 5 illustrates the ceramic cap shown in Fig.
FIG. 6 illustrates the power regulation terminal shown in FIG.
FIG. 7 illustrates an installation structure of the battery shown in FIG.
8 is a partially enlarged view showing a state in which the first sliding tube shown in Fig. 1 is lifted.

Hereinafter, an electronic cigarette according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the dimensions of the structures are enlarged to illustrate the present invention in order to clarify the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a part or a combination thereof is described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Fig. 1 is a view for explaining an electronic cigarette according to an embodiment of the present invention, Fig. 2 is an enlarged view of a part of the electronic cigarette shown in Fig. 1, As shown in FIG.

1 to 3, an electronic cigarette according to an embodiment of the present invention includes a suction unit; Atomizer structure; Liquid storage portion 700; A switch 900; And a battery 1000.

The atomizer structure atomizes the liquid phase stored in the liquid phase storage portion 700 to generate vaporized vapor, and includes a wick 130 and a heating portion 120 for this purpose.

The wick 130 is a portion for supplying the liquid phase in the liquid phase storage portion 700. To this end, the wick 130, for example, is cylindrical and a portion of the wick 130 in the axial direction parallel to the longitudinal direction of the cylindrical shape is inserted into the liquid reservoir 700.

 The heating unit 120 is a portion that generates heat by atomizing the liquid phase supplied from the wick 130. To this end, the heat generating unit 120 is positioned on the opposite side of the portion of the wick 130 which is inserted into the liquid-storing unit 700 to atomize the liquid phase supplied from the wick 130.

The wick 130 and the heat generating unit 120 may be formed independently of one another or may be integrally formed. In the case of the independent form, the wick 130 may be made of natural fibers or synthetic fibers, and the heat generating portion 120 may be located at the upper end of the wick 130 and wrap around the wick 130. In the case of integral type, the wick 130 and the heat generating part 120 may be formed of a metal net. In the case of the metal mesh, the metal mesh is rolled into a roll shape and a part of the roll-shaped axial direction can be inserted into the liquid storage portion 700. And the upper end of the scroll may be thicker than the bottom of the upper end and may be curved to have an elliptical shape in cross-section. When the upper end of the scroll is elliptically curled, it does not loosen easily compared to the circular shape. Therefore, it is easy to install in the structure of the atomizer.

A first electrode (not shown) and a second electrode (not shown) are provided at the upper end of the roll, and the first electrode may be a negative (-) electrode located inside the scroll. (+) Electrode. The upper end of this scroll constitutes the heat generating portion 120. The bottom of the top of the scroll forms a wick 130.

Meanwhile, the heat generating unit 120 may be surrounded by the crucible 140 to facilitate the maintenance of the exothermic temperature. At this time, the second electrode may be in contact with a (+) pole power jack (not shown) provided in the crucible 140.

The heating portion 120 and the wick 130 and the crucible 140 are accommodated in the atomizer housing 110. The atomizer housing (110) is a housing coupled to the liquid reservoir (). The furnace housing 110 is connected to the positive power supply of the battery and the crucible 140 is connected to the furnace housing 110 to supply positive power. At this time, the power source connection between the crucible 140 and the atomizer housing 110 is performed by the bimetal 150.

The bimetal 150 may include a first metal plate and a second metal plate. For example, the first metal plate may be a metal plate having a high thermal expansion coefficient, and the second metal plate may be a metal plate having a thermal expansion coefficient lower than that of the first metal plate. . Therefore, when the bending occurrence temperature (the temperature at which the metal plate starts to expand) is applied to the first metal plate having a high thermal expansion coefficient, the first metal plate is warped toward the second metal plate having a relatively low thermal expansion coefficient.

According to this configuration of the bimetal 150, when the temperature of the heat generating portion 120 rises and the raised temperature of the heat generating portion 120 reaches the bending occurrence temperature of the first metal plate, the first metal plate expands, As shown in Fig. As a result, the second metal plate on which the warping is generated is pushed in the direction away from the second electrode tube by the first metal plate, and one surface of the second metal plate contacting the second electrode tube is separated from the non- . Therefore, when the temperature of the heat generating portion 120 reaches the bend generating temperature corresponding to the thermal expansion coefficient of the first metal plate, the power supplied to the heat generating portion 120 is shut off, and the temperature of the heat generating portion 120 is further raised I never do that. Therefore, a critical temperature value at which the heat generation temperature of the heat generating unit 120 is limited is set, and the critical temperature value is set at the bending occurrence temperature of the metal plate having a large thermal expansion coefficient.

The suction unit includes a first sliding tube 210 inserted into the inner wall of the atomizer housing 110 so as to be slidable along the axial direction of the atomizer housing 110. The first sliding tube 210 may be formed, for example, in a cylindrical shape.

The first sliding tube 210 is accommodated in the atomizer housing 110 and protected from the outside when the atomizer vapor is not sucked. When the atomizer vapor is to be sucked, the first sliding tube 210 is drawn out of the atomizer housing 110, It is used for inhalation.

The steam inhaler and the electronic cigarette of the present invention are used as a basic structure of the atomizer structure for atomizing the liquid phase to generate the atomized vapor and to provide a new liquid phase different from the conventional electronic cigarette for enhancing the taste expression of the atomized vapor The configuration of the atomization type and the atomized vapor suction type, and the configuration capable of controlling the supply power.

The present invention provides a new liquid atomizing method and an atomized vapor sucking method which are differentiated from conventional electronic cigarettes, including: a liquid intake air adjusting device 300; Anion discharge unit 400; An air inflow inducing part 500; And a perfume enhancer (600).

The liquid intake air control device controls the supply amount of the liquid phase supplied to the heat generating part 120. To this end, the liquid intake air conditioning apparatus includes an air inlet pipe 310 and an opening / closing valve 320. FIG. 4 illustrates the air inlet pipe and the on-off valve shown in FIG.

The air inlet pipe 310 is inserted into the liquid storage portion 700 through a central portion of the wick 130 and the heat generating portion 120 so that the wick 130 and the heat generating portion 120 are inserted into the liquid storing portion 700, (700). At this time, the first electrode of the heat generating unit 120 is connected to the liquid storage unit 700, and a part of the end inserted into the liquid storage unit 700 is connected to the battery so that the negative power is applied. The configuration in which the air inlet pipe 310 is electrically connected to the battery will be described in detail below. The opposite side of the portion inserted into the liquid storage portion 700 is located above the heat generating portion 120.

The air inlet pipe 310 is provided with air inlets 310a arranged at the upper end of the air inlet pipe 310 along the axial direction of the air inlet pipe 310 to adjust the supply amount of the liquid phase, The lower end of the air inflow pipe 310 inserted into the storage unit 700 is provided with an air discharge port for discharging the air introduced into the air inflow pipe 310 through the air inflow ports 310a into the liquid storage unit 700, (310b) are formed. This air inlet pipe 310 is illustrated in FIG.

The opening / closing valve 320 is coupled to the upper end of the air inlet pipe 310 and ascends and descends within the upper end of the air inlet pipe 310. For this purpose, for example, the on-off valve 320 may be screwed into the inside of the upper end of the air inflow pipe 310. In this case, the opening / closing valve 320 may be rotated up and down in the clockwise and counterclockwise directions within the upper end of the air inlet pipe 310. The construction for raising and lowering the opening and closing valve 320 will be described in detail below. The opening / closing valve 320 opens / closes a part of the air inlets 310a according to the height of the opening / closing valve 320. The amount of air introduced through the air inlets 310a and the amount of air discharged into the liquid storage part 700 through the air outlet 310b are controlled so that the liquid stored in the liquid storage part 700 The degree of equilibrium of the atmospheric pressure in the liquid storage portion 700 generated according to the amount of the liquid supplied to the heat generating portion 120 is controlled so that the liquid amount supplied to the heat generating portion 120 is controlled. This opening / closing valve 320 is illustrated in Fig.

The negative ion discharging portion 400 discharges negative ions toward the suction portion. The negative ion outlet portion 400 is located above the air inlet pipe 310 and includes a housing 410, a valve connecting ring 420, a housing cap 430, an anion generator 440, and an anion outlet pipe 450 .

The housing 410 is provided inside the atomizer housing 110 and may be formed into a cylindrical shape.

The valve connection ring 420 is connected to the on-off valve 320 in the housing 410 while the valve connection ring 420 surrounds the upper end of the on- do. That is, the on-off valve 320 is fixed to the valve connecting ring 420.

The housing cap 430 is mounted on the opposite side of the portion where the valve connecting ring 420 is located in the housing 410 to seal the inside of the housing 410.

The negative ion generator 440 is disposed in the housing 410 between the valve connection ring 420 and the housing stopper 430. The negative ion generator 440 generates anions and emits negative ions toward the inlets. The power supply to the negative ion generator 440 may be achieved by providing a first power source terminal on one side of the negative ion generator 440 facing the upper surface of the opening and closing valve 320, The second power source terminal may be provided on the other surface of the generator 440 to supply power. The power supply to the first power source terminal and the second power source terminal can be powered by configuring the power source of the battery so that the power is applied to the open / close valve 320 and the non-power source housing 110, There is no particular restriction.

The negative ion discharge pipe 450 is inserted into the center of the housing stopper 430 and faces the suction unit so that the negative ions generated by the negative ion generator 440 are discharged toward the suction unit, that is, toward the upper end of the first sliding pipe 210.

The electronic anion discharging unit 400 generates a large amount of practical anions and emits various health promoting effects to the electronic cigarette users basically by the negative ion effect. By adding the function of removing harmful poison such as acetaldehyde and formaldehyde which are generated and environmental hormone, it is possible to dramatically improve the safety of the apparatus. When the mist vapor mixed with the anion is inhaled into the oral cavity and the lung, In addition to keeping the cleanliness of the user, it also improves the sensation of refreshing by reducing the thick taste of glycerin, which causes the mist of liquid in the expression of taste. In particular, the anion mixed in the steam of vapor removes viruses and germs, It is effective in protecting the health of the user. Therefore, it is a breakthrough device to enhance the utilization of electronic cigarette machine and to enhance the function of electronic cigarette machine itself.

In order to operate the on-off valve 320 of the liquid inhalation air conditioner 300 described above, the second sliding tube 220 is provided, and the housing 410 of the electronic anion outlet 400 includes a plurality of And a plurality of insertion protrusions 211 are formed at a lower end of the first sliding tube 210. [

The second sliding tube 220 surrounds the atomizer housing 110 and the upper end of the second sliding tube 220 is connected to the upper end of the first sliding tube 210. A first flange portion 212 is formed at the upper end of the first sliding tube 210 and a second flange portion 212 is formed at the upper end of the first sliding tube 210. In order to connect the upper ends of the second sliding tube 220 and the first sliding tube 210, The protrusions 221 protruding toward the inner surface of the second sliding tube 220 may be formed at the lower end of the second sliding tube 220 .

In this case, the projections 221 of the second sliding tube 220 which is normally in a state where the first sliding tube 210 is accommodated in the atomizer housing 110 are inserted into the insertion grooves 212a of the first sliding tube 210 The first sliding tube 210 and the second sliding tube 220 are moved by the protrusions 221 and the insertion grooves 212a when the second sliding tube 220 is lifted, The first sliding tube 210 is lifted up along the second sliding tube 220 which is lifted up as shown in FIG.

The plurality of insertion protrusions 211 at the lower end of the first sliding tube 210 are inserted into the plurality of sliding tube connecting grooves 411 of the housing 410 of the electronic negative ion discharging part 400, .

In this state, if the second sliding tube 220 is held in the clockwise and counterclockwise direction by holding the second sliding tube 220, the first sliding tube 210 is rotated together with the second sliding tube 220, Since the sliding tube 210 is connected to the housing 410 of the negative ion discharging unit 400, the housing 410 is also rotated together with the second sliding tube 220, whereby the valve connecting ring 420 of the housing 410 Closing valve 320 is rotated clockwise and counterclockwise.

The opening / closing valve 320, which is rotated clockwise and counterclockwise, is tightened or loosened by a screw thread formed in the upper end of the air inlet pipe 310, And the air inlets 310a formed in the upper end of the air inlet pipe 310 are partially opened and closed by this process. Accordingly, the amount of air supplied into the liquid storage portion 700 is regulated, thereby regulating the supply amount of the liquid phase supplied to the heat generating portion 120.

The air inflow inducing part 500 is provided around the heat generating part 120 and is disposed in a direction parallel to and in a direction parallel to the liquid supply direction or in a direction parallel to the suction direction of the mist vapor through the suction part, So that external air for the discharge of the liquid is introduced into the vicinity of the heat generating portion 120 to enhance liquid atomization.

The air inflow inducing part 500 includes a ceramic cap 510; A first air hole 513; And a second air hole 514.

Fig. 5 illustrates the ceramic cap shown in Fig. Referring to FIG. 5, the ceramic cap 510 is coupled to the periphery of the air inlet pipe 310, and is positioned at an upper portion of the heat generating unit 120 and surrounds the heat generating unit 120. For example, the ceramic cap 510 includes a plate portion 511 having a diameter corresponding to the inner diameter of the air inlet pipe 310, and a heat generating portion 120 And an air barrier wall 512 extending perpendicularly to the air barrier wall 512. The plate portion 511 may be coupled to the air inlet pipe 310 and the air blocking wall 512 may be positioned to surround the heat generating portion 120. At this time, the air blocking wall 512 is spaced apart from the inner surface of the atomizer housing 110 by a certain distance, and the air blocking wall 512 cuts off the space between the first air hole 513 and the second air hole 514 .

The first air hole 513 is formed on one side of the atomizer housing 110 and is located on the upper side of the heat generating portion 120. External air flows into the upper portion of the heat generating unit 120 through the first air hole 513. The direction in which the external air flows into the upper portion of the heat generating portion 120 is the reverse direction of the liquid supply direction.

The second air hole 514 is formed on the other side of the non-irradiation apparatus housing 110 and is positioned below the heat generating unit 120. Outside air flows into the lower portion of the heat generating unit 120 through the second air holes 514. The direction in which the external air flows into the lower portion of the heat generating portion 120 is a direction parallel to the liquid supply direction.

The external air introduced through the first air hole 513 and the second air hole 514 is separated from the first air hole 513 and the second air hole 513 by the air blocking wall 512 of the ceramic cap 510 514 are blocked, so that they do not immediately mix with each other as they flow toward the heat generating part 120, and they always contact the heat generating part 120 first.

That is, when the first sliding tube 210 is drawn out from the inside of the atomizer housing 110 to suck the mist vapor, the outside air flows through the first air hole 513 and the second air hole 514, (120).

External air introduced through the first air hole 513 collides with the surface of the plate portion 511 of the ceramic cap 510 and then moves toward the heat generating portion 120. In this process, The large vapor particles in the incompletely atomized liquid phase which are heated by the heating unit 120 and scattered in a direction parallel to the liquid supply direction are reduced again to the heating unit 120 and reheated in the heating unit 120 to be completely atomized. At the same time, the outside air moving toward the heat generating part 120 pushes the vapor, which has been completely atomized, toward the opposite direction of the liquid supply direction.

The external air flowing in the direction parallel to the liquid supply direction through the second air hole 514 moves toward the heat generating portion 120 and is opposed to the external air moving in the direction opposite to the liquid supplying direction, To suppress scattering of incomplete atomized steam.

By this process, only the completely atomized steam is discharged toward the suction portion. The fully atomized vapor travels through the space between the air barrier wall 512 and the inner surface of the atomizer housing 110 toward the intake.

On the other hand, the atomization enhancing air inlet 111 is formed in the atomizer housing 110 to enhance atomization when the fully atomized steam is discharged. The aeration enhancing air inlet 111 is formed above the ceramic cap 510.

The outer air introduced through the atomization-enhancing air inlet 111 is mixed with the steam that is completely atomized when the steam is moved toward the suction portion, thereby enhancing the atomization. The atomization-enhanced steam is supplied to the atomizer housing 110 Is moved toward the upper part of the negative ion discharging part 400 through the housing 410 of the negative ion discharging part 400 or the mist vapor passage 112 formed between the first sliding tube 210 and the negative ion discharging part 400 Is mixed with the negative ions generated and discharged from the negative ion generator 440 and then moved toward the upper end of the first sliding tube 210. [

The perfume enhancer 600 is installed inside the upper end of the first sliding tube 210. Accordingly, the mist vapor that is moved toward the upper end of the first sliding tube 210 passes through the perfume enhancer 600, and the perfume enhancer 600 is connected to the outside of the atomized vapor discharged through the first sliding tube 210 Mix fragrance. The perfume enhancer 600 includes a body portion 610; Perfume storage members (621, 622); And a stopper portion 630.

The main body portion 610 has a receiving space 611 and is inserted into the first sliding tube 210. A perfume outlet pipe 612 communicating with the inside of the first sliding tube 210 is formed at the center of the main body 610. The accommodation space 611 is formed around the perfume discharge pipe 612 and the perfume discharge ports 612a arranged along the circumferential direction of the perfume discharge pipe 612 are formed on the perfume discharge pipe 612.

The fragrance storage members 621 and 622 include a replaceable fragrance pack 621 and a solid foam collector 622 that is fumigated to discharge the foam gas. For example, the solid foam 622 may be located below the fragrance pack 621 in the receiving space 611 and the fragrance pack 621 may be located above the solid foam 622. In this case, the perfume discharge ports 612a are formed to penetrate the perfume discharge pipe 612 so as to face the area where the fragrance pack 621 is located, and the foam discharge port 612a for discharging the foamed gas from the solid foamed core 622 612b are formed to penetrate the perfume outlet tube 612 so as to face the area where the solid foamed core 622 is located. Therefore, the fragrance volatilized in the fragrance pack 621 is discharged through the perfume discharge pipe 612, and the foam gas from the solid foam 622 is discharged through the foam gas outlet 612b.

The surface of the main body portion 610 facing the negative ion discharge portion 400 is communicated with the inside of the first sliding tube 210 and is disposed in the axial direction of the perfume discharge pipe 612 A penetrated steam inlet 612c is formed. The vaporized vapor is introduced through the steam inlet 612c, whereby fuming of the solid foam 622 is possible.

The fragrance pack 621 is a volatile product in which most of the fragrance volatilizes even at a temperature of 10 ° C or more and contains volatile fragrance in the liquid component so that even when the fragrance is not heated at high temperature, A volatile flavor added to a liquid composition of a conventional electronic cigarette, which is capable of burning spices with a heating furnace, rather low temperature boiling, and a burning temperature to generate poisons, Fragrance packs for various purposes such as fragrances for health promotion, fragrances for therapeutic purposes, or fragrances for enjoying flavor can be used and can be used in consideration of a combination of liquid phases to be used. In order to enhance the feel of the vapor of the vapor, the fragrance pack 621 may include, for example, sinigrin, piperine, chavicine, emulsified aryl (such as onion, ), Capsaicin, and the like.

The solid foamed tablet 622 may be made of, for example, carbon dioxide which is fumed by the inhalation vapor sprayed into the mouth and mixed with foam, sodium hydrogen carbonate which generates water, and various additives (for example, vitamins Various minerals), additives such as sinigrin, piperine, chavicine, emulsifying ally (hot ingredient such as onion, persimmon and garlic) and capsaicin which stimulate taste and smell It may be solid or solid.

Meanwhile, the perfume discharge pipe 612 of the main body 610 is formed larger than the diameter of the anion discharge pipe 450. The anion discharge pipe 450 is inserted into the perfume discharge pipe 612 while the first sliding pipe 210 is lowered to the inside of the atomizer housing 110. At this time, And the foam gas outlet 612b are sealed from the outside of the accommodation space 611 by the negative ion discharge pipe 450. Accordingly, when the first sliding tube 210 is lowered into the atomizer housing 110, fragrance and foaming gas are discharged from the fragrance pack 621 and the solid foam 622 to the outside of the accommodation space 611 The fragrance discharge pipe 612 is separated from the anion discharge pipe 450 so that fragrance and foaming gas are discharged from the fragrant pack 621 and the solid foamed foam 622, ≪ / RTI > Thus, when the user tries to suck the vaporized steam by raising the first sliding tube 210, it is possible to inhale the vaporized vapor mixed with the perfume and the foaming gas.

In order to adjust the supply power for enhancing the taste expression of the vaporized vapor, the supply amount is controlled by the liquid intake air control device 300, and the variable power corresponding to the liquid supply amount is supplied to the heating unit And a power supply terminal unit 1010 is installed in the liquid storage unit 700 for power connection between the power control unit 800 and the heat generating unit 120 do. The power supply terminal portion 1010 is connected to an end of a portion of the air inflow pipe 310 inserted into the liquid storage portion 700.

The power regulator 800 includes a power regulating terminal portion 810 and a variable resistor 820.

FIG. 6 illustrates the power regulation terminal shown in FIG. 6, the power regulating terminal portion 810 includes a circular plate portion 811 and a first switch (not shown) extending from the circular plate portion 811 and extending above the circular plate portion 811, And a contact terminal 812. In this case, the circular plate portion 811 is opposed to the battery 1000, and the first switch contact terminal 812 can be opposed to the space where the switch 900 is located.

In addition, the circular plate portion 811 may include a plurality of terminal grooves 811a arranged along the circumferential direction, and the variable resistors 820 may be positioned in the plurality of terminal grooves 811a. In this case, the plurality of terminal grooves 811a are in contact with the power source terminal 1001 provided in the battery 1000. [

FIG. 7 illustrates an installation structure of the battery shown in FIG.

Meanwhile, the battery 1000 is rotatably coupled under the liquid reservoir 700. 7, an insertion groove 711 is formed along the axial direction of the housing 710 at the lower end of the housing 710 forming the liquid storage 700, and the insertion groove 711 A sliding groove 712 is formed along the circumferential direction of the housing 710 in which the liquid storage portion 700 is formed around the insertion groove 711 as a reference. A battery fastening protrusion 1002 is formed in a portion of the battery 1000 adjacent to the power terminal 1001. The battery fastening protrusion 1002 is inserted into the insertion groove 711 and then inserted into the sliding groove 712. [ And the battery 1000 can be rotatably coupled to the lower end of the housing 710 forming the liquid storage part 700. [

The battery 1000 rotatably coupled to the lower portion of the liquid storage portion 700 rotates while the battery fastening protrusion 1002 slides into the sliding groove 712 and thereby the power terminal The power terminal 1001 is selectively in contact with the plurality of terminal grooves 811a of the power control terminal portion 810 and the power terminal 1001 is in contact with the variable resistor 820 located in the plurality of terminal grooves 811a, The power supplied to the heat generating unit 120 is adjusted according to the position.

The power supplied to the heat generating unit 120 can be adjusted by controlling the power supply terminal 1001 of the battery 1000 in a terminal groove 811a 'where the variable resistor 820 shown in FIG. 6 is not located The power of the electronic cigarette is set to be off and the power of the electronic cigarette is still kept in the off state even if the switch 900 is pressed at this time.

In this state, when the battery 1000 is rotated so that the power supply terminal 1001 moves out of the terminal groove 811a 'and selectively moves into the terminal grooves 811a where the variable resistor 820 is located, the variable resistor 820 The power supply terminal 1001 of the battery 1000 may be placed in the terminal groove 811a 'where the variable resistor 820 is not located, The electronic cigarette is kept in an off state even if the switch 900 is pushed down when carrying the electronic cigarette in a pocket or the like, so that a safety accident caused by the heat generation of the heat generating part 120 can be prevented in advance.

The power supply terminal portion 1010 in the liquid storage portion 700 includes the second switch contact terminal 1011 and the second switch contact terminal 1011 is located opposite the first switch contact terminal 812. [

In this structure, the switch 900 can be coupled to the housing 710 that forms the liquid storage portion 700 so as to be positioned between the first switch contact terminal 812 and the second switch contact terminal 1011, When the switch 900 is pressed toward the first switch contact terminal 812 and the second switch contact terminal 1011, the switch 900 contacts the first switch contact terminal 812 and the second switch contact terminal 1011, The power of the battery 1000 may be applied to the heat generating unit 120 and the variable power may be applied to the heat generating unit 120 by the variable resistor 820. [

For example, depending on the degree of depression of the switch 900, the power of the battery 1000 may be supplied to the heat generating unit 120 for a certain period of time or continuously. When the switch 900 is pressed lightly, When the switch 900 is kept pressed and held in contact with the upper end of the terminal 812 and the second switch contact terminal 1011, the power is connected. When the switch 900 is strongly pressed and then slightly released, The switch 900 can be connected to the lower end of the first switch contact terminal 812 and the second switch contact terminal 1011 so that the switch 900 can be continuously connected to the lower terminal without being restored. In order to shut off the power supply, if the switch 900 is pressed hard and then released, the power is restored to its original state and the power can be shut off. This form is the same as the principle of a ballpoint pen, for example. To this end, the switch 900 may be equipped with a spring for restoring the switch 900 after the switch 900 is pressed.

The battery 1000 may be provided with a power supply terminal 1003 which is disposed at the periphery of a portion of the housing 710 that forms the liquid storage 700. The additional power supply terminal 1003 may be a liquid May be contacted within the housing 710 forming the storage 700.

Here, the power supplied from the power terminal 1001 of the battery 1000 to the heating unit 120 through the power control terminal unit 810, the power supply terminal 1010, and the air inflow pipe 310 is a (- And includes a housing 710 for forming a liquid storage 700 from the additional power supply terminal 1003, a atomizer housing 110 connected to the liquid storage 700, a bimetal 150 and a crucible 140, The power source applied to the heat generating unit 120 may be a (+) power source.

Through the structure in which the regulated power supply through the power regulator 800 and the power regulator 800 is transmitted to the heat generating unit 120, the heat generating unit 120 generates the power consumption corresponding to the supplied amount of the liquid phase The liquid can be completely atomized with the electric power regulated by the electric power.

The power supplied to the heat generating unit 120 is regulated by using the battery 1000 itself as a power control lever serving as a dual function device and turning the power to control the power supply terminal 1001 Is in contact with the plurality of terminal grooves 811a.

The electronic cigarette according to an embodiment of the present invention includes a distribution structure of a smooth anion distribution through the electronic electronic anion outlet and a structure for mixing various flavors of ingredients beneficial to the human body in the vaporizing vapor through the perfume enhancer, As the use of the electronic cigarette is diversified and the use of the electronic cigarette device is diversified, the function of the electronic cigarette is enhanced.

In addition, the supply amount of the liquid phase is controlled through the liquid intake air control device and the electric power control device, and as a result, the production amount of the vaporized vapor is controlled, and the power proportional to the supplied amount of the liquid phase is supplied to form liquid phase mist. There is an advantage that it is possible to firmly realize ideal atomization which is atomization and uniform atomization.

Further, in order to realize more ideal atomization, external air supplied to the heat generating portion is introduced and guided in a direction opposite to the liquid supply direction and the liquid supply direction to suppress scattering to the periphery of the heat generating portion, reheating the incomplete atomized vapor to atomize There is an advantage that more ideal liquid phase complete atomization and homogeneous atomization can be realized.

In addition, the design of the electronic cigarette is simplified because the battery itself can function as a function of the switch and a power control lever by omitting the design of a complicated PCB to supply power proportional to the adjusted supply amount of the liquid phase, There is an advantage that the economical efficiency due to the production of cigarettes is maximized.

In addition, since the electronic cigarette has a structure in which devices for multi-function of the electronic cigarette can be integrated in a narrow space of the housings constituting the electronic cigarette, it is possible to manufacture a multi-functional but slim electronic cigarette, There is an advantage that a multifunctional electronic cigarette can be produced without impairing the convenience of using the electronic cigarette.

Claims (18)

A suction portion; Atomizer structure; Liquid storage; switch; And an integrated vapor inhaler and electronic cigarette comprising a battery,
Wherein the atomizer structure comprises:
A core in the form of a cylinder having a portion of an axial direction of the core parallel to the longitudinal direction of the cylinder inserted in the liquid storage portion;
A heating unit disposed at an upper end of the wick to atomize a liquid phase supplied from the wick; And
Wherein a portion of the air inlet pipe is inserted into the liquid storage portion and is disposed in the liquid storage portion from the opposite side of the portion inserted in the liquid storage portion, And a liquid intake air control device for regulating and supplying an amount of liquid supplied to the heat generating part by adjusting the amount of air introduced into the storing part,
Wherein the liquid intake air control device comprises:
The air inlet pipe; And
And an air hole opening / closing valve coupled to an upper end of the air inlet pipe,
Wherein air inlets arranged along an axial direction of the air inlet pipe are formed at an upper end of the air inlet pipe to which the opening / closing valve is coupled,
An air discharge port is formed at a lower end of the air inlet pipe so that air introduced into the air inlet pipe through the air inlet ports is discharged into the liquid storage section,
Wherein the open / close valve opens / closes a part of the air inlets in accordance with the height of the air inlets up and down,
Steam inhaler and electronic cigarette. delete delete delete delete The method according to claim 1,
Further comprising a variable resistor as a power regulation device,
Wherein the battery is coupled to the liquid storage portion by a rotatable lever function,
The battery is rotated to supply a regulated electric power according to a position where one terminal of the battery contacts the variable resistor to the heat generating unit and to perform a volumetric adjustment with a function of fixedly turning on / ≪ / RTI >
Steam inhaler and electronic cigarette. The method according to claim 6,
Wherein the power regulating device includes a power regulating terminal portion,
Wherein the power control terminal unit has a first switch contact terminal on one side and the variable resistor on the opposite side of the first switch contact terminal,
A part of the power regulation terminal part in which the variable resistor is located is opposed to a terminal of the battery so that the variable resistor is in contact with the terminal of the battery,
And a power supply terminal portion disposed in the liquid storage portion so as to face the power regulation terminal portion and connected to the air inlet pipe,
Wherein the power supply terminal portion includes a second switch contact terminal facing the first switch contact terminal,
Wherein the switch is disposed between the first switch contact terminal and the second switch contact terminal, and when the switch contacts the first switch contact terminal and the second switch contact terminal, And a second electrode,
Steam inhaler and electronic cigarette. The method according to claim 1,
Wherein the atomizer structure includes a radiator housing housing the heating portion and the wick,
Wherein the suction unit includes a first sliding tube inserted into the housing of the atomizer to be slidable along an axial direction of the atomizer housing,
Steam inhaler and electronic cigarette. 9. The method of claim 8,
Wherein the atomizer structure comprises:
Further comprising an electronic negative ion discharging unit housed inside the first sliding tube and positioned above the air inlet tube and discharging negative ions toward the upper end of the first sliding tube.
Steam inhaler and electronic cigarette. 10. The method of claim 9,
The electronic negative ion discharger includes:
A cylindrical housing provided inside the atomizer housing;
A valve connecting ring mounted on one side of the housing;
A housing cap mounted on the opposite side of the portion where the valve connection ring is located to seal the inside of the housing;
An anion generator disposed between the valve connection ring and the housing stopper and received in the housing; And
And an anion outlet pipe inserted in the center of the housing stopper and discharging the anion generated by the anion generator toward the upper end of the first sliding tube.
Steam inhaler and electronic cigarette. 11. The method of claim 10,
Wherein the opening / closing valve is screwed to an upper end portion of the air inlet pipe,
Wherein the valve connection ring is connected to the on-off valve in a state of wrapping an upper end portion of the on-
A plurality of sliding tube connecting grooves arranged at regular intervals along the circumferential direction of the housing stopper are formed at the upper end of the housing,
Wherein a plurality of insertion protrusions are formed in a lower end portion of the first sliding tube to be inserted into the sliding tube connection groove,
In this case, when the first sliding tube is lifted, the plurality of insertion protrusions are inserted into the plurality of sliding tube connecting grooves, and when the first sliding tube is turned clockwise and counterclockwise along the circumferential direction of the housing, Wherein the housing is rotated and the opening and closing valve is rotated by the rotating housing so that the opening and closing valve is raised and lowered along the axial direction of the air inflow pipe.
Steam inhaler and electronic cigarette. 9. The method of claim 8,
Wherein the atomizer structure comprises:
And an outer air for discharging the vaporized vapor is provided in the vicinity of the heat generating portion in a direction parallel to and in the opposite direction to the liquid supply direction or in a direction parallel to the suction direction of the vaporized vapor through the suction portion, Further comprising: an air inflow inducing unit for inflowing the liquid phase mist to the outside,
Steam inhaler and electronic cigarette. 13. The method of claim 12,
The air inflow induction unit includes:
An air induction ceramic cap coupled to the periphery of the air inlet pipe and surrounding the heat generating portion;
A first air hole formed on one side of the atomizer housing so as to be positioned above the heat generator; And
And a second air hole formed on the other side of the atomizer housing so as to be positioned below the heat generating portion,
External air flows in a direction opposite to the liquid supply direction through the first air hole,
External air flows in a direction parallel to the liquid supply direction through the second air hole,
The ceramic cap interrupts the first air hole and the second air hole while surrounding the heat generating portion so as to allow the air introduced through the first air hole to flow only toward the upper side of the heat generating portion, 2 air flows through the air holes only toward the lower side of the heat generating portion,
Steam inhaler and electronic cigarette. 9. The method of claim 8,
And a second sliding tube surrounding the atomizer housing and having an upper end connected to an upper end of the first sliding tube and slidable along an axial direction of the atomizer housing,
The upper end of the second sliding tube is attached to and detached from the upper end of the first sliding tube,
When the second sliding tube is lifted along the axial direction of the atomizer housing, the first sliding tube is lifted together with the second sliding tube, and when the atomizing steam is sucked through the first sliding tube, Is capable of being lowered along an axial direction of the atomizer housing to be spaced apart from the first sliding tube.
Steam inhaler and electronic cigarette. 11. The method of claim 10,
Further comprising a perfume enhancer provided inside the upper end of the first sliding tube for mixing external perfume into the vapor stream discharged through the first sliding tube.
Steam inhaler and electronic cigarette. 16. The method of claim 15,
The perfume-
A main body having a receiving space and inserted into the first sliding tube;
Fragrance storage members accommodated in the accommodation space and storing fragrance; And
And a cap portion coupled to the body portion to cover the accommodation space,
A perfume discharge pipe communicating with the inside of the first sliding tube is formed at the center of the main body part,
Wherein the accommodation space is formed along the circumferential direction of the perfume discharge pipe,
And a perfume outlet communicating with the accommodation space is formed in the circumferential direction of the perfume discharge tube.
Steam inhaler and electronic cigarette. 17. The method of claim 16,
Wherein the fragrance storage members comprise a replaceable fragrance pack and a solid foamed foam that is fumed and discharges the foamed gas,
The fragrance pack is used for enhancing taste and feeling of feeling of vaporized vapor and for promoting health of the user, for perfume inhalation and treatment for flavor, respiratory inhalation of drug for oral inhalation, For an additional supply of external flavorings, the taste sensation such as sinigrin, piperine and chavicine, emulsified ally (onion, onion, garlic hot ingredient), capsaicin And a smell stimulant additive,
The above-mentioned solid foamed preparation contains various kinds of additives such as carbon dioxide and sodium bicarbonate which generate carbon dioxide and moisture in the fragrant pack composition, various minerals such as vitamins which have a refreshing taste and nutritional function,
Wherein the solid foam is located below the perfume pack in the body,
The steam inlet port communicating with the inside of the first sliding pipe and penetrating in the axial direction of the perfume discharge pipe is formed on the surface of the main body portion facing the electromagnetic anion outlet portion for the solid foam definition fumigation, Characterized in that the vaporization of the vapor is introduced through the vaporization zone,
Steam inhaler and electronic cigarette. 8. The method of claim 7,
The power control terminal unit includes:
A circular plate portion; And
And a first switch contact terminal extending from the circular plate portion and extending from the circular plate portion,
Wherein the circular plate portion includes terminal grooves arranged along the circumferential direction of the circular plate portion,
Wherein the variable resistor is located in other terminal grooves except one of the terminal grooves located at the outermost of the terminal grooves,
Wherein the terminal of the battery contacts the terminal grooves and the power of the electronic cigarette is turned off when the terminal of the battery contacts the terminal groove where the variable resistor is not located.
Steam inhaler and electronic cigarette.

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