KR101362649B1 - Apparatus to inhale aerosol - Google Patents

Abstract

An aerosol inhalation device according to an embodiment of the present invention is an aerosol inhalation device having a atomizer for atomizing the aerosol (aerosol) by heating the solution using the power delivered from the battery received the solution contained in the cartridge, A heating element holder forming an inner space and having a detachable coupling structure; A solution absorbing part disposed in the heating element holder to absorb and store a solution supplied from the cartridge; It may be coupled to the heating element holder to be disposed on at least one side of the solution absorbing portion, a plate-like surface heating element for heating and atomizing the solution of the solution absorbing portion; may include. According to the embodiment of the present invention, the solution absorbed in the solution absorbing portion can be efficiently heated by the surface heating element to generate a sufficient aerosol for the user to feel satisfaction.

Description

Aerosol inhalation device {Apparatus to inhale aerosol}

An aerosol inhalation device is disclosed. More specifically, an aerosol inhalation apparatus is disclosed which can efficiently heat a solution absorbed by a solution absorbing portion by a surface heating element and generate sufficient aerosol for a user to be satisfied.

Recently, aerosol inhalation devices have been developed that utilize an electric heating method to inhale aerosol by vaporizing a solution such as a nicotine solution. In fact, a large number of people are smoking through this device, and the number is increasing.

In other words, the aerosol inhalation device is a spray device for atomizing the liquid containing the concentrate into a vapor (aerosol), the battery for supplying power, the atomizing portion for heating the liquid to vaporize, the liquid storage cartridge containing the liquid, It may consist of a mouthpiece installed adjacent to the cartridge.

By the way, in the aerosol inhalation apparatus which vaporizes a conventional solution and inhales aerosol, the nichrome wire was applied as a heating element provided in the atomization part. In the case of such nichrome wire, the process efficiency was not good and sufficient aerosol could not be generated. Not only burnt taste is felt due to the heat generation characteristics of the wire, but also due to the structural characteristics of the nichrome wire, there is a disadvantage that durability and material stability are not good and replacement is not easy.

Accordingly, there is a need for the development of an aerosol inhalation apparatus having a new structure that can generate sufficient aerosol as well as excellent heat durability and can easily perform replacement work.

An object of the present invention is to provide an aerosol inhalation apparatus capable of efficiently heating a solution absorbed by a solution absorbing portion by a surface heating element to generate a sufficient aerosol for the user to feel satisfaction.

In addition, another object according to an embodiment of the present invention is to provide an aerosol inhalation apparatus which can not only have a simple structure but also easy to assemble and separate, so that the replacement process such as a planar heating element or a solution absorbing part can be performed smoothly. .

In addition, another object according to an embodiment of the present invention is not a structure, such as a conventional nichrome wire, the surface heating element is in contact with the solution absorbing portion is provided with a structure that can implement excellent durability, heavy metal material is not applied to the safety of aerosol It is to provide an aerosol inhalation device that can secure.

An aerosol inhalation device according to an embodiment of the present invention is an aerosol inhalation device having a atomizer for heating the solution to atomize the aerosol (aerosol) by using the power delivered from the battery receives the solution contained in the cartridge, The apparatus may include a heating element holder forming an internal space and having a detachable coupling structure; A solution absorbing part disposed in the heating element holder to absorb and store the solution supplied from the cartridge; And a plate-like planar heating element which is coupled to the heating element holder so as to be disposed on at least one side of the solution absorbing part, and which atomizes the solution by heating the solution of the solution absorbing part. The absorbed solution can be efficiently heated by the surface heating element to generate sufficient aerosol for the user to be satisfied.

The planar heating element may be provided in at least one pair in the heating element holder and disposed to atomize the solution of the solution absorbing part.

The planar heating element is disposed in a pair to be symmetrical to both sides of the solution absorbing portion in the heating element holder, the heating element holder, the first holder in which the solution absorbing portion is built; And a pair of second holders disposed on both sides of the first holder, the pair of planar heating elements disposed in respective inner spaces in surface contact with the solution absorbing part, wherein the first holder and the pair of first The two holders can be detachably coupled.

The first holder has a shape in which outer diameters of both sides of the first holder are smaller than a central portion, and the second holder has an inner diameter corresponding to the outer diameters of both sides of the first holder, and the first holder and the second holder are provided. When the coupling of the planar body may be disposed between and supported between the first holder and the second holder.

The planar heating element may include a plate-shaped substrate provided in a shape corresponding to an inner space of the heating element holder; A heating material coupled to one surface of the substrate and generating heat for atomizing the solution of the solution absorbing part when power is supplied; And an electrode provided on the substrate to be connected to the heating material and applying power from the battery to the heating material, wherein the planar heating element is disposed in the second holder such that the heating material faces the solution absorbing portion. Can be.

The planar heating element may further include an insulator covering the outer surface of the heating material to prevent the heating material from being exposed to the solution absorbed by the solution absorbing part.

The first holder may be provided with a power connection member electrically contacting the electrode of the planar heating element to apply power from the battery to the electrode.

At least one aerosol passage passage through which the aerosol passes may be provided on an outer circumference of the substrate so that the aerosol generated by heating the planar heating element may be discharged from the heat generating holder.

The at least one aerosol passage passage may be a plurality of aerosol passage passages provided at regular intervals along the outer circumference of the substrate.

A central region of the heating element holder, a portion of the heating element holder connected to the cartridge, the planar heating element, and the solution absorbing part may be formed to penetrate through the heating element holder, the planar heating element, and the solution to move to the solution absorbing part.

The heating element holder may be provided such that a hollow shape thereof has a square cross section, and a total of four planar heating elements arranged in a square shape may be provided in the heating element holder.

The heating element holder is provided in a hollow cylindrical shape, a pair of incision grooves are formed in parallel to each other so that the pair of planar heating elements are inserted and coupled along a longitudinal direction, and the solution absorbing portion is the heating element holder partitioned by the planar heating elements. It can be coupled to the internal space of the.

The heating element holder may be made of a heat resistant material of any one of ceramic, carbon fiber, metal, and plastic, and the substrate may be made of any one of ceramic, glass, and stainless steel.

A control unit may further include controlling a power supply from the battery to the atomizer, wherein the control unit may control power supply from the battery only to the planar heating element selected from the planar heating elements.

On the other hand, the atomizer of the aerosol inhalation device according to an embodiment of the present invention, the heating element holder to form an inner space; A solution absorbing part disposed in an inner space of the heating element holder, in which the solution supplied from the cartridge is absorbed and stored; And a heating element disposed in an inner space of the heating element holder so that the solution absorbing part may be disposed inside, and heating the atomized solution by heating the solution of the solution absorbing part. The heated solution can be efficiently heated by the heating element to generate enough aerosol for the user to feel satisfied.

The heating element may be provided in a hollow cylindrical shape having an inner diameter corresponding to the outer diameter of the solution absorbing part and having an outer diameter corresponding to the inner diameter of the heating element holder.

According to the embodiment of the present invention, the solution absorbed in the solution absorbing portion can be efficiently heated by the surface heating element to generate a sufficient aerosol for the user to feel satisfaction.

In addition, according to the embodiment of the present invention, not only has a simple structure, but also easy to assemble and separate, it is possible to smoothly perform the replacement process of the configuration, such as planar heating element or solution absorbing portion.

In addition, according to an embodiment of the present invention, the planar heating element is not in the same structure as the conventional nichrome wire, the surface contact with the solution absorbing portion can be implemented to implement excellent durability, heavy metal material is not applied to ensure the safety of the aerosol Can be.

FIG. 1A is a diagram illustrating a schematic configuration of an aerosol inhalation apparatus according to a first embodiment of the present invention, and FIG. 1B is a diagram for describing a process in which atomization occurs by some internal components of FIG. 1A.
FIG. 2A is a view illustrating an aerosol inhalation apparatus in which the arrangement of the cartridge and the atomizer is changed in FIG. 1A, and FIG. 2B is a view for explaining a process in which atomization occurs by some internal configuration of FIG. 2A.
Figure 3 is an exploded perspective view of the atomizer of the aerosol inhalation device shown in Figure 1a.
4 is a perspective view of the combination of FIG.
FIG. 5 is a diagram illustrating the planar heating element illustrated in FIG. 3.
FIG. 6 is a view illustrating a state in which an aerosol passage flow path and a central hole are formed in the planar heating element shown in FIG. 5.
7 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the second embodiment of the present invention.
8 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the third embodiment of the present invention.
9 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the fourth embodiment of the present invention.

Hereinafter, configurations and applications according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description forms part of a detailed description of the present invention.

In the following description, well-known functions or constructions are not described in detail for the sake of clarity and conciseness.

FIG. 1A is a diagram illustrating a schematic configuration of an aerosol inhalation apparatus according to a first embodiment of the present invention, and FIG. 1B is a diagram for describing a process in which atomization occurs by some internal components of FIG. 1A.

As shown in these figures, the aerosol inhalation device 100 according to an embodiment of the present invention, the main body 110 having a battery, the atomizer 150, the cartridge 120 and the mouthpiece 130 Include.

First, although not shown, the main body 110 of the present embodiment may be equipped with a battery in an inner space thereof, a light emitting diode in a distal end thereof, and an electronic chip in an inner space thereof, that is, the present embodiment. An example control unit may be mounted, and a detection switch for detecting suction may be mounted. Here, the battery may be a rechargeable lithium polymer or lithium ion battery.

According to this configuration, when a user smokes, a detection switch and a button detect the same, and based on the detection information, the battery turns on the light emitting diode or drives the atomizer 150 to be described later and stored in the cartridge 120. Allow solution to atomize. As will be described later, the power of the battery is transferred to the atomizer 150 under the control of the controller to generate heat from the atomizer 150 in proportion to the amount of power applied, and the solution is atomized by the generated heat to generate the aerosol 101. Can be.

On the other hand, the cartridge 120 of the present embodiment is a portion containing the solution in the inner receiving space, the accommodated solution may be supplied into the atomizer 150 along a predetermined flow path. Here, it is obvious that the cartridge 120 may not only contain a solution containing nicotine, such as a nicotine solution, but also contain a solution, such as water, or a fragrance containing perfume.

In addition, the mouthpiece 130 is a configuration in which a person directly sucks the mouth and may be detachably coupled to the rear end of the cartridge 120 as illustrated in FIG. 1A. The aerosol 101 generated by atomization of the solution by driving the atomizer 150 to be described later may pass by the user through the mouthpiece 130 after passing the flow path formed in the cartridge 120.

Meanwhile, as illustrated in FIGS. 2A and 2B, the aerosol inhalation apparatus 100a may be configured by changing the positions of the atomizer 150a and the cartridge 120a.

FIG. 2A is a view illustrating an aerosol inhalation apparatus in which the arrangement of the cartridge and the atomizer is changed in FIG. 1A, and FIG. 2B is a view for explaining a process in which atomization occurs by some internal configuration of FIG. 2A.

As shown in these figures, the cartridge 120a containing the solution may be disposed between the main body 110a and the atomizer 150a, and the solution may be supplied directly from the cartridge 120a to the atomizer 150a. Can be.

On the other hand, as described above, the aerosol suction device (100, 100a) of the present embodiment is provided with atomizers 150, 150a for atomizing the solution stored in the cartridge (120, 120a), Figures 1a and The configuration of the atomizer 150 of the aerosol inhalation apparatus shown in 1b will be described in detail with reference to the drawings.

Figure 3 is an exploded perspective view of the atomizer of the aerosol inhalation device shown in Figure 1a, Figure 4 is a combined perspective view of Figure 3, Figure 5 is a view showing the planar heating element shown in Figure 3, Figure 6 is Figure 5 2 is a diagram illustrating a state in which an aerosol passage flow path and a central hole are formed in the planar heating element shown in FIG.

As shown in these figures, the atomizer 150 of the present embodiment, the heating element holder 130 to form an internal space, and the solution disposed in the heating element holder 160 and supplied from the cartridge 120 is absorbed It is disposed on both sides of the solution absorbing unit 170 and the solution absorbing unit 170 to be stored in the heating element holder 160, the solution absorbed by the solution absorbing unit 170 by heating the aerosol 101 (see Fig. 1a) It may include a pair of planar heating element 180 to be atomized. In this case, the planar heating element 180 is formed in a rough disc shape so as to substantially correspond to the solution absorbing unit 170, and has a structure capable of heating the entire area of the solution absorbing unit 170.

By this configuration, not only can the durability of the atomizer 150 be improved, but also the heat transfer efficiency to the solution absorbing unit 170 is high, so that a sufficient aerosol 10 can be generated that can be satisfied by the user. By having a possible structure, the replacement process can also be easily performed.

Referring to each configuration, first, the heating element holder 160 of the present embodiment, as shown in Figure 3 and 4, has a hollow shape in the longitudinal direction of the aerosol inhalation device 100 and absorb the solution in the interior space A first holder 161 in which the unit 170 is disposed, a solution absorbing unit 170 detachably coupled to both sides of the first holder 161, and disposed in the first holder 161 in each inner space; It may include a pair of second holder 165 in which the planar heating element 180 corresponding to the surface is disposed.

As shown in FIG. 3, the first holder 161 communicates in the direction of the second holder 165, and a solution absorbing part 170 is disposed therein, and the shape of the solution absorbing part 170 and the internal space. Substantially corresponds. That is, the solution absorbing part 170 corresponding to the hollow inner space formed in the first holder 161 is disposed in the first holder 161, and thus the solution absorbing part 170 with respect to the first holder 161. ) Can be firmly located.

The second holder 165 may be coupled to both sides of the first holder 161, and the planar heating element 180 may be disposed in the inner space. However, the support jaw 166 supporting the planar heating element 180 is provided inside the second holder 165 so that the planar heating element 180 is not separated from the first holder 161. The planar heating element 180 may be firmly supported therein. The inner diameter of the second holder 165 substantially corresponds to the outer diameter of the planar heating element 180, and thus, when the first holder 161 and the second holder 165 are coupled to each other, the planar heating element 180 is formed in the heating element holder 160. Can maintain its position firmly.

On the other hand, the second holder 165 may be combined with the body and the cartridge described above. 1B and 3, the second holder 165 (see FIG. 3) on the left side of the second holder 165 has a coupling hole 167 detachably coupled to the main body 110 in this embodiment. The second holder 165 on the right side has a coupling hole 168 formed to be coupled to the cartridge 120 with the inclusion therebetween.

By this coupling structure, the atomizer 150 of the present embodiment can be easily separated from the main body 110 and the cartridge 120 when replacement or maintenance is required.

The first holder 161 and the second holder 165 also have a detachable coupling structure. Therefore, when replacement of the solution absorbing part 170 or the planar heating element 180 disposed in the heating element holder 160 may be easily performed, the replacement operation may be easily performed.

In this case, a screw structure may be applied as a coupling structure of the first holder 161 and the second holder 165. Referring to FIG. 3, the inner diameter of the first holder 161 may be smaller than that of the center portion, and the inner diameter of the second holder 165 may correspond to the outer diameter of both sides of the first holder 161. In this case, male threads (not shown) are formed at both sides of the first holder 161, and female threads (not shown) are formed at the inner side of the second holder 165, so that the first holder 161 and the second part are formed. Holder 165 may be screwed.

However, the coupling structure of the first holder 161 and the second holder 165 is not limited thereto, and if the structure is detachable, other methods may be applied.

The first holder 161 and the second holder 165 described above may be made of, for example, a heat resistant material such as ceramic, carbon fiber, metal, or plastic. Therefore, even if heat is generated by the planar heating element 180 in the first holder 161 and the second holder 165, the first holder 161 and the second holder 165 are not excessively heated due to heat resistance, and therefore The user can be prevented from being injured by heat.

On the other hand, the solution absorbing unit 170 of the present embodiment, as shown in Figures 3 and 4, is provided inside the first holder 161 to absorb the solution supplied from the cartridge 120. The solution absorbing unit 170 may be made of a metal foam having good absorption rate or a heat resistant fiber material so as to absorb the solution well, but is not limited thereto.

The solution absorbing unit 170 has an absorption hole 171 penetrating along the longitudinal direction of the aerosol suction device 100 so that the solution can be well supplied from the cartridge 120, so that the solution supplied from the cartridge 120 is a solution. Radiating spreads from the central portion of the absorber 170 in the radial direction can be absorbed.

On the other hand, the planar heating element 180 of the present embodiment can improve the atomization efficiency of the solution absorbing portion 170 by uniformly transferring heat to the solution absorbing portion 170 on both sides of the solution absorbing portion 170, and thus sufficient Aerosol 101 can be generated to improve the user's smoking satisfaction.

Referring to the configuration, the planar heating element 180 of the present embodiment, as shown in Figs. 3 to 6, the plate-like substrate 181 is provided in a shape corresponding to the internal space of the second holder 165. And a heating material 182 that is coupled to one surface of the substrate 181 and generates heat when power is supplied from the battery, and is provided on the substrate 181 to be connected to the heating material 182 to supply power to the heating material 182. An insulator 184 (not shown in FIG. 3) covering the outer surface of the heating material 182 to prevent the pair of electrodes 183 to be applied and the heating material 182 from being exposed to the solution of the solution absorbing part 170. ) May be included.

The substrate 181 of the present embodiment is provided in a disc shape, and may be made of a material such as ceramic, glass, or stainless steel. The substrate 181 is mounted with a plate-shaped heating material 182 for generating heat. In addition, the heating material 182 may be provided with a pair of electrodes 183 for applying power to the heating material 182 to supply power from the battery to the heating material 182.

In detail, as illustrated in FIG. 4, when the first holder 161 and the second holder 165 are coupled, the surface of the power supply member 163 of the first holder 165 is electrically connected to the battery. The electrodes of the heating element 180 are in contact with each other, and when the power is applied from the battery to the atomizer 150 by the above-described controller, the heating material (163) and the heating material (via the electrode 183) are passed through the battery. Power is applied to the 182 to supply heat from the heating material 182 to the solution absorbing unit 170.

Here, the control unit may not only control the heat generation degree of the pair of planar heating elements 180, but also generate heat only the selected planar heating elements 180, thereby varying the degree of heat transfer to the solution absorbing unit 170. The amount of aerosol delivered to the user may be adjusted by adjusting the atomization of the solution of the solution absorbing unit 170.

In addition, as shown in FIG. 4, the insulator 184 of the present embodiment may prevent the heating material 182 from directly contacting the solution absorbing part 170 by covering the heating material 182. Therefore, the heating material 182 may be prevented from being damaged by the solution, and thus the use period of the heating material 182 may be extended.

As such, the heating material 182 of the planar heating element 180 can prevent heat loss from being generated as in the related art by performing heat transfer to the entire area of the solution absorbing unit 170, and thus, the entire area of the solution absorbing unit 170. Can induce atomization over and thus generate sufficient aerosol to improve the user's smoking satisfaction.

Meanwhile, the planar heating element 180 basically has a shape as shown in FIG. 5, but the substrate and the planar heating element 180 may be transformed into other shapes for supplying a solution and discharging the generated aerosol 101.

For example, in the present exemplary embodiment, since the planar heating element 180 on the left side faces the main body 110 based on FIG. 3, the planar heating element 180 has the shape of FIG. 5 (the left planar heating element 180 of FIG. 3). 6), but the planar heating element 180 on the right side is connected to the cartridge 120 and the ejected aerosol 101 must be discharged (the shape of the planar heating element 180 on the right side of FIG. 3). Can be prepared as.

That is, a moving hole 185 is formed in the central region of the substrate 181 and the planar heating element 180 so that the solution flows from the cartridge 120 and is provided to the solution absorbing unit 170. On the outer circumference, a plurality of aerosol passage passages 186 through which the aerosol 101 generated may pass may be formed.

Here, the plurality of aerosol passage flow path 186 is formed regularly along the circumferential direction of the substrate 181 except for the outer periphery of the substrate 181 on which the electrode 183 is mounted, as shown in FIG. As a result, the aerosol 101 may be provided to the user through the flow path (not shown) and the mouthpiece 130 formed in the cartridge 120 through the plurality of regularly formed aerosol flow passage 186.

On the other hand, for example, the cartridge 120a for supplying a solution to the tip of the atomizer 150a, such as the aerosol suction device 100a of Figure 2a is coupled to the mouthpiece 130a is coupled to the rear end of the atomizer 150a In this case, the shape of the planar heating element 180 may vary.

In the case of the planar heating element 180 facing the cartridge 120a, since a solution must be supplied from the cartridge 120, a moving hole 185 may be formed in the center of the substrate 181 and the heating material 182 (but, The aerosol passage flow path is not formed), and in the case of the planar heating element 180 facing the mouthpiece 130a, the aerosol 101a generated toward the mouthpiece 130a should be discharged so that the aerosol passage flow path is regularly formed along the outer circumference of the substrate 181. An aerosol passage flow path 186 may be formed (however, the movement hole may be formed or may not be formed).

As such, the planar heating element may have a slightly different processing shape depending on the arrangement structure of the atomizer 150 in the aerosol suction device 100, but the planar heating element 180 may be easily processed to facilitate application of the planar heating element 180. There is an advantage.

As described above, according to the first exemplary embodiment of the present invention, the solution absorbed by the solution absorbing unit 170 may be efficiently heated by the planar heating element 180 to provide sufficient aerosol 101 for the user to feel satisfaction. In addition, the atomizer 150 not only has a simple structure, but also easy to assemble and separate, so that the replacement process such as the surface heating element 180 or the solution absorbing unit 170 can be performed smoothly. There is this.

In addition, the planar heating element 180 is provided in a plate shape instead of the structure of the conventional nichrome wire, and thus, excellent durability can be realized, and heavy metal material is not applied, thereby ensuring safety of suction.

Meanwhile, hereinafter, the atomizer of the aerosol inhalation apparatus according to the second embodiment of the present invention will be described in detail, and description thereof will be omitted for parts substantially the same as the atomizer of the first embodiment described above.

7 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the second embodiment of the present invention.

As shown therein, in the atomizer 250 of the present embodiment, unlike the atomizer 160 of the first embodiment (refer to FIG. 3), a total of four planar heating elements 280 each having a rectangular shape may have a heating element holder. 260 is provided to have a square shape, and thus the heating element holder 260 also has a hollow inner space having a square cross section for coupling the planar heating element 280. In addition, a solution absorbing part 270 in which a solution is absorbed and stored is disposed inside the planar heating elements 280.

Therefore, since the surface heating element 280 is heated at four sides of the solution absorbing part 270 absorbing the solution, the heat transfer efficiency to the solution absorbing part 270 is high, thereby generating an aerosol that can be satisfied by the user. In addition, the replacement process can be easily performed by having a structure that can be assembled and detached.

However, in total, the four planar heating elements 280 may be selectively heated. That is, as described above, only the surface heating element 280 selected by the control of the controller may be heated, and thus the amount of aerosol generated may be adjusted.

Meanwhile, hereinafter, the atomizer of the aerosol inhalation apparatus according to the third embodiment of the present invention will be described in detail, and description thereof will be omitted for parts substantially the same as the atomizer of the aforementioned embodiments.

8 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the third embodiment of the present invention.

As shown therein, the atomizer 350 of the present embodiment includes a heating element holder 360 having an inner space provided in a hollow cylindrical shape. In the heating element holder 360, a pair of incision grooves 361 are formed in parallel to each other along the longitudinal direction, and a pair of planar heating elements 380 are detachably coupled to the pair of incision grooves 361. Can be.

A pair of planar heating elements 380 are coupled to the heating element holder 360 so that the inner space of the heating element holder 360 may be divided into three spaces, which absorb the solution from the cartridge 320. The solution absorbing part 370 may be built in. Therefore, when the planar heating element 380 is heated, heat transfer is efficiently performed to the solution absorbing part 370, thereby generating an aerosol that can be satisfied by the user. In addition, the replacement process is also easily performed by having an assembly and detachable structure. can do.

Meanwhile, hereinafter, the atomizer of the aerosol inhalation apparatus according to the fourth embodiment of the present invention will be described in detail, and description thereof will be omitted for parts substantially the same as the atomizer of the aforementioned embodiments.

9 is a schematic perspective view of the atomizer of the aerosol inhalation apparatus according to the fourth embodiment of the present invention.

As shown therein, the atomizer 450 of the aerosol inhalation apparatus according to the present embodiment includes a heating element 480 having a hollow cylindrical shape different from the planar heating elements 180, 280, and 380 of the above-described embodiments. do. The heating element 480 may be provided in a hollow cylindrical shape to have an outer diameter corresponding to the inner diameter of the heating element holder 460 and to have an inner diameter corresponding to the inner diameter of the solution absorbing part 470. Accordingly, the heating element 480 may be coupled to the heating element holder 460, and the cylindrical solution absorbing portion 470 may be coupled thereto.

By such a configuration, the entire outer surface of the solution absorbing portion 470 and the heating element 480 may be in surface contact with each other, so that heat transfer from the heating element 480 to the solution absorbing portion 470 may be efficiently performed. Can be generated sufficiently.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: Aerosol suction device 110: Body
120: cartridge 130: mouthpiece
150: atomizer 160: heating element holder
161: first holder 165: second holder
170: solution absorbing portion 180: planar heating element
181: substrate 182: heating material
183 electrode 184 insulator
186: aerosol passage flow path

Claims (2)

An aerosol inhalation apparatus having a atomizer for receiving a solution contained in a cartridge and heating the solution using an electric power delivered from a battery to atomize the aerosol.
The machine-
A heating element holder forming an inner space;
A solution absorbing part disposed in an inner space of the heating element holder, in which the solution supplied from the cartridge is absorbed and stored; And
And a heating element disposed in an inner space of the heating element holder such that the solution absorbing part is disposed inside, and heating and atomizing the solution of the solution absorbing part.
The heating element has an inner diameter corresponding to the outer diameter of the solution absorbing portion and is provided in a hollow cylindrical shape having an outer diameter corresponding to the inner diameter of the heating element holder. delete

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