KR102589102B1 - Device for generating aerosol - Google Patents

Abstract

An aerosol generating device is disclosed. The aerosol generating device of the present disclosure includes a pipe having an insertion space that is open on both sides; a cover that closes one open side of the pipe and has a chamber formed therein; a heater that extends long and penetrates the cover, with one side disposed in the insertion space and the other side disposed in the chamber; Additionally, it may include a sealing member filled in the interior of the chamber, and the pipe may be formed integrally with the sealing member.

Description

Aerosol generating device {DEVICE FOR GENERATING AEROSOL}

This disclosure relates to an aerosol generating device.

An aerosol generating device is intended to extract certain components from a medium or material through aerosol. The medium may contain substances of various compositions. Substances included in the medium may be flavor substances of various ingredients. For example, substances included in the medium may include nicotine ingredients, herbal ingredients, and/or coffee ingredients. Recently, much research has been conducted on such aerosol generating devices.

The present disclosure aims to solve the above-described problems and other problems.

Another purpose may be to provide an aerosol generating device that includes a structure for sealing the gap around the heater.

Another purpose may be to prevent thermal deformation of the structure surrounding the heater.

Another purpose may be to stably fix the heater and the structure surrounding the heater and prevent the heater from rotating.

Another purpose may be to prevent disconnection and twisting of the lead wire that applies electricity to the heater.

Another purpose may be to provide an aerosol generating device with a simplified coupling structure around the heater.

According to one aspect of the present disclosure for achieving the above-described object, an aerosol generating device includes: a pipe having an insertion space that is open on both sides; a cover that closes one open side of the pipe and has a chamber formed therein; a heater that extends long and penetrates the cover, with one side disposed in the insertion space and the other side disposed in the chamber; Additionally, it may include a sealing member filled in the interior of the chamber, and the pipe may be formed integrally with the sealing member.

According to at least one of the embodiments of the present disclosure, an aerosol generating device may be provided including a structure for sealing a gap around a heater.

According to at least one of the embodiments of the present disclosure, thermal deformation of the structure surrounding the heater may be prevented.

According to at least one of the embodiments of the present disclosure, the heater and the structure surrounding the heater may be stably fixed and rotation of the heater may be prevented.

According to at least one of the embodiments of the present disclosure, twisting and disconnection of the lead wire that applies electricity to the heater may be prevented.

According to at least one of the embodiments of the present disclosure, an aerosol generating device with a simplified coupling structure around the heater may be provided.

Additional scope of applicability of the present disclosure will become apparent from the detailed description that follows. However, since various changes and modifications within the spirit and scope of the present disclosure may be clearly understood by those skilled in the art, the detailed description and specific embodiments such as preferred embodiments of the present disclosure should be understood as being given only as examples.

1 to 19 are diagrams showing examples of aerosol generating devices according to embodiments of the present disclosure.

Hereinafter, embodiments disclosed in the present specification will be described in detail with reference to the attached drawings. However, identical or similar components will be assigned the same reference numbers regardless of reference numerals, and duplicate descriptions thereof will be omitted.

The suffixes “module” and “part” for components used in the following description are given or used interchangeably only for the ease of preparing the specification, and do not have distinct meanings or roles in themselves.

Additionally, in describing the embodiments disclosed in this specification, if it is determined that detailed descriptions of related known technologies may obscure the gist of the embodiments disclosed in this specification, the detailed descriptions will be omitted. In addition, the attached drawings are only for easy understanding of the embodiments disclosed in this specification, and the technical idea disclosed in this specification is not limited by the attached drawings, and all changes included in the spirit and technical scope of the present disclosure are not limited. , should be understood to include equivalents or substitutes.

Terms containing ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be. On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between.

Singular expressions include plural expressions unless the context clearly dictates otherwise.

Referring to FIG. 1, the heater 10 may be formed to be long in one direction. The heater 10 may have a cylindrical shape. The end of the heater 10 may be sharp. The heater 10 can generate heat by receiving power directly, or can generate heat by induction heating through an induction coil disposed around the heater.

The heater 10 may include a heater body 11. The heater body 11 may extend long in the vertical direction. The heater body 11 may have a cylindrical shape. The heater 10 may be provided with a heater tip 12. The heater tip 12 may be formed at one end of the heater 10. The heater tip 12 may be connected to the heater body 11 at the upper side of the heater body 11. The heater tip 12 may have a shape that gradually narrows toward the top. The heater tip 12 may have a sharp end. A cigarette can be inserted into the heater (10).

The heater 10 may be provided with a flange 13. The flange 13 may be coupled to one side of the heater body 11 or may be formed integrally with it. The flange 13 may be formed adjacent to the lower end of the heater body 11. The heater body 11 may have a shape that penetrates the center of the flange 13. The flange 13 may have a non-circular shape. For example, flange 13 may be square.

The first cover 20 may include a first plate 21 and a first peripheral portion 22. The first plate 21 may form the upper part of the first cover 20. The heater insertion hole 214 may be formed by opening the center of the first plate 21. The first plate 21 may have a flat shape.

The first peripheral portion 22 may extend downward from the first plate 21 . 1 The peripheral portion 22 may be formed integrally with the lower side of the first plate 21 . The first peripheral portion 22 may be recessed inward from the outer peripheral surface of the first plate 21 . One outer peripheral surface of the first peripheral portion 22 may be formed to be flat to form the first flat portion 221. The hook 222 may be formed on one side of the outer peripheral surface of the first peripheral portion 22 or protruding from the first flat portion 221.

Referring to FIG. 2, the first lead wire 161 may be exposed downward from around the lower end 151 of the heater 10. The first lead wire 161 may penetrate the fixing part 152. The first lead wire 161 is electrically connected to the heater 10 and can transmit power to the heater 10. The heater 10 may receive power from the first lead wire 161 and generate heat. The first lead wire 161 may be provided as a pair.

The second lead wire 162 may be exposed downward from around the lower end 151 of the heater 10. The second lead wire 162 may penetrate the fixing part 152. The heater 10 may be formed in a hollow shape. The sensor 16 (see FIG. 8) may be installed inside the heater 10. The sensor 16 can sense the temperature of the heater 10. The second lead wire 162 is electrically connected to the sensor 16 and can transmit power to the sensor 16. The second lead wire 162 may be provided as a pair. The first lead wire 161 and the second lead wire 162 may be arranged to face each other with respect to the lower end portion 151. The first lead wire 161 and the second lead wire 162 may have different thicknesses.

The fixing part 152 may be formed around the lower end 151 of the heater 10. The fixing part 152 may protrude in a radial outward direction from the outer peripheral surface of the lower end 151 of the heater 10. The fixing part 152 and the lower end 151 may be disposed on the lower side of the flange 13. The fixing portions 152 are provided in plural numbers and may be arranged in the circumferential direction along the outer peripheral surface of the lower portion 151. The fixing part 152 can wrap and secure the first lead wire 161. The fixing part 152 can wrap and secure the second lead wire 162. The number of fixing parts 152 may correspond to the number of first lead wires 161 and second lead wires 162. For example, two first lead wires 161 and two second lead wires 162 may be provided, and the number of fixing parts 152 may be four.

The first space 224 is located below the first plate 21 and may communicate with the heater insertion hole 214. The first plate 21 may cover the upper side of the first space 224. The inner peripheral surface 223 of the first peripheral portion 22 may surround the side portion of the first space 224. The first space 224 may be open downward.

The heater insertion hole 214 may be formed by opening the first plate 21. The heater insertion hole 214 may be in communication with the first space 224. The heater insertion hole 214 may be located above the first space 224. The heater insertion hole 214 may be spaced apart from the first peripheral portion 22. The heater insertion hole 214 may have a circular shape. The heater insertion hole 214 may have a shape corresponding to the cross section of the heater body 11.

The port portion 213 may protrude downward from the first plate 21 around the heater insertion hole 214. The port portion 213 may surround the bottom of the heater insertion hole 214. The port portion 213 may be formed to be inclined upward toward the heater insertion hole 214.

The support bar 225 may protrude from the inner peripheral surface 223 of the first peripheral portion 22 toward the first space 224. The support bar 225 may have a shape extending long in the vertical direction. The support bar 225 may be spaced apart from the heater insertion hole 214. A plurality of support bars 225 may be provided and arranged to be spaced apart from each other in the circumferential direction along the inner peripheral surface 223 of the first peripheral portion 22. For example, the support bars 225 may be provided in at least one pair, and each pair of support bars 225 may be arranged to face each other with respect to the first space 224 .

The support guide 226 may be formed so that the lower end of the support bar 225 is inclined. The support guide 226 may be inclined upward from the bottom of the support bar 225 toward the first space 224.

The hook 222 may be formed to protrude outward from the first flat portion 221. The hook 222 may have a shape that gradually becomes narrower from the top to the bottom. The hook 222 may have a surface inclined outward from the bottom of the first peripheral portion 22 upward. Hooks 222 may be formed in plural numbers. Hooks 222 may be provided in pairs on both sides of the first peripheral portion 22. A pair of hooks 222 may be formed at opposing positions with respect to the first space 224.

Referring to Figures 2 and 3, the heater 10 may be inserted into the heater insertion hole 214. The heater 10 may penetrate the heater insertion hole 214 in the order from the heater tip 12 (see FIG. 1) to the heater body 11. The width w1 of the heater body 11 may be equal to the width w2 of the heater insertion opening 214 or may be slightly larger than the width w2 of the heater insertion opening 214. The heater 10 may be press-fitted so as to fit tightly into the heater insertion hole 214. The port portion 213 can guide the heater 10 to the heater insertion hole 214. The heater 10 may contact the port portion 213 and slide into the heater insertion hole 214. The heater body 11 and the heater tip 12 (see FIG. 1) may be exposed to the upper side of the first cover 20.

When the heater 10 is inserted into the heater insertion hole 214, the flange 13 may be caught on the first plate 21. The flange 13 may be disposed in the first space 224. When the heater 10 penetrates the heater insertion hole 214, the flange 13 slides in contact with the support guide 226 and may be guided into the first space 224. The support bar 225 may support the side portion of the flange 13 disposed in the first space 224. The support bar 225 and the support guide 226 may be arranged along the side of the flange 13. Each of the plurality of support bars 225 can support a plurality of surfaces of the flange 13, respectively. The support bar 225 may space the heater body 11 and the flange 13 from the first peripheral portion 22 to form a gap inside the first space 224.

Accordingly, it may be easy to insert the heater 10 into the first cover 20. Additionally, the heater 10 and the flange 13 may be fixed in position without shaking or rotating in the first space 224.

Referring to Figures 4 and 5, the second cover 30 may include a second plate 31 and a second peripheral portion 32. The second plate 31 may form the lower portion or bottom of the second cover 30. The second plate 31 may have a flat shape. The second plate 31 may have a disk shape.

The second peripheral portion 32 may extend upward from the edge of the second plate 31. The second peripheral portion 32 may be formed integrally with the first plate 31. The first plate 31 may cover the bottom of the second space 34. The inner peripheral surface of the second peripheral portion 32 may surround the side portion of the second space 34. The second space 34 may be open upward. The second peripheral portion 32 may be formed to be larger than the first peripheral portion 22 .

The depression 314 may be formed by the second plate 31 being depressed downward. The depression 314 may be formed in a shape corresponding to the lower end 151 and the fixing part 152 of the heater 10. The lower end 151 and the fixing part 152 of the heater 10 may be inserted into and seated in the recessed part 314.

The cover wire holes 3610 and 3620 may be formed by opening the second plate 31 in the depression 314. The cover wire holes 3610 and 3620 may communicate with the second space 34. The first cover wire hole 3610 may be formed at a position corresponding to the first lead wire 161. The first lead wire 161 may pass through the first cover wire hole 3610. The second cover wire hole 3620 may be formed at a position corresponding to the second lead wire 162. The second lead wire 162 may pass through the second cover wire hole 3620. The first cover wire hole 3610 and the second cover wire hole 3620 may have different diameters.

The hook hole 322 may be formed by opening the second peripheral portion 32. The hook hole 322 may be formed at a position corresponding to the hook 222. The hook holes 322 may be formed in plural numbers. The hook holes 322 may be formed in a pair on both sides of the second peripheral portion 32. A pair of hook holes 322 may be disposed at opposing positions with respect to the second space 34 . The hook hole 322 may communicate with the second space 34.

The second flat portion 3231 and the hook guide portion 3232 may be formed on the inner peripheral surface of the second peripheral portion 32 around the hook hole 322. The hook guide portion 3232 may be formed on the upper side of the hook hole 322. The hook guide portion 3232 may be formed to be inclined toward the second space 34 from the upper side toward the lower side. The hook guide portion 3232 may be connected to the second flat portion 3231. The second flat portion 3231 may surround the hook hole 322.

The inlet hole 324 may be formed by opening the second peripheral portion 32. The inlet hole 324 may be formed around the hook hole 322. The inlet hole 324 may be in communication with the second space 34.

The positioning protrusions 35 and 36 may protrude downward from the lower part of the second plate 31. The positioning protrusions 35 and 36 may have a shape that gradually becomes narrower as it moves downward. The first positioning protrusion 35 and the second positioning protrusion 36 may have different shapes. The first positioning protrusion 35 and the second positioning protrusion 36 may be disposed at positions opposite to each other. The first positioning protrusion 35 and the second positioning protrusion 36 may face each other.

The positioning pin 313 may protrude downward from the lower part of the second plate 31. The positioning pins 313 may be provided in plural numbers. The positioning pin 313 may have a cylindrical shape with rounded ends.

4 to 6, the first cover 20 and the second cover 30 may be combined. The first peripheral portion 22 may be inserted into the second space 34 . The second peripheral portion 32 may surround the first peripheral portion 22 inserted into the second space 34 . The first plate 21 may cover the upper side of the second space 34.

When the first peripheral portion 22 is inserted into the second space 34, the hook 222 is inserted into the hook hole 322 to fasten the first cover 20 and the second cover 30. . The hook 222 can sequentially slide on the hook guide portion 3232 and the second flat portion 3231 and be inserted into the hook hole 322. The first flat portion 221 slides sequentially on the hook guide portion 3232 and the second flat portion 3231, and the first flat portion 221 may face the second flat portion 3231. The first flat portion 221 may contact or be in close contact with the second flat portion 3231.

When the first cover 20 and the second cover 30 are combined, the first space 224 and the second space 34 may be in communication. The second space 34 may be located lower than the first space 224 . The first space 224 and the second space 34 may include overlapping areas. The space where the first space 224 and the second space 34 are connected can be defined as a chamber (C, see FIG. 8). The chamber C may be surrounded by a first cover 20 and a second cover 30. The first plate 21 may cover the upper part of the chamber (C). The second plate 31 may cover the lower part of the chamber (C). The first peripheral portion 22 may cover a portion of the sides of the chamber C. The first peripheral portion 22 may cover only a portion of the side portion of the second space 34 .

The inlet hole 324 formed by opening the second peripheral portion 32 may be in communication with the chamber C. The chamber C may be exposed to the outside through the inlet hole 324. A portion of the hook hole 322 may communicate with the chamber (C). The chamber C may be exposed to the outside through the hook hole 322.

When the first cover 20 and the second cover 30 are combined, the flange 13 can be placed inside the chamber C. The lower end 151 and the fixing part 152 of the heater 10 may be inserted into the recessed part 314 and supported by the second plate 31. The first lead wire 161 may pass through the first cover wire hole 3610 and be exposed to the lower side of the second plate 31. The second lead wire 162 may pass through the second cover wire hole 3620 and be exposed to the lower side of the second plate 31 .

The first positioning protrusion 35 may be spaced inward from the edge of the second plate 31 to form a spaced portion 315. The second positioning protrusion 36 may be spaced inward from the edge of the second plate 31 to form a spaced portion 315. When the first positioning protrusion 35 and the second positioning protrusion 36 are inserted into the mold, the spacing portion 315 secures a tolerance margin, thereby ensuring manufacturing stability.

The first positioning protrusion 35 may include a first tip portion 351. The first positioning protrusion 35 may include a first inclined portion 352. The first positioning protrusion 35 may include an extension portion 353. The first positioning protrusion 35 may include a first rounded portion 354.

The first tip portion 351 may be formed at the end of the first positioning protrusion 35. The first inclined portion 352 may obliquely extend from the first tip portion 351 toward the second plate 31 and outward of the first tip portion 351 . The first inclined portion 352 may be inclined to gradually become narrower toward the first tip portion 351. The first inclined portions 352 may be provided as a pair and extend to both sides of the first tip portion 351. The first extension portion 353 may be bent and extended from the first inclined portion 352 toward the second plate 31 . The first extension portion 353 may extend in the vertical direction. The first rounded portion 354 may extend roundly outward from the first extension portion 353 toward the second plate 31 . The first rounded portion 354 may be connected to the second plate 31.

The second positioning protrusion 36 may include a second tip portion 361. The second positioning protrusion 36 may include a second inclined portion 362. The second positioning protrusion 36 may include an extension portion 353. The second positioning protrusion 36 may include a second rounded portion 364.

The second tip portion 361 may be formed at the end of the second positioning protrusion 36. The second inclined portion 362 may obliquely extend from the second tip portion 361 toward the second plate 31 and outward of the second tip portion 361 . The second inclined portion 362 may be inclined to gradually become narrower toward the second tip portion 361. The second inclined portions 362 may be provided as a pair and extend to both sides of the second tip portion 361. The second extension portion 363 may be bent and extended from the second inclined portion 362 toward the second plate 31 . The second extension portion 363 may extend in the vertical direction. The second rounded portion 364 may extend roundly outward from the second extension portion 363 toward the second plate 31 . The second rounded portion 364 may be connected to the second plate 31.

The first positioning protrusion 35 and the second positioning protrusion 36 may have different shapes. The first positioning protrusion 35 and the second positioning protrusion 36 may have different heights. For example, the height H2 of the second positioning protrusion 36 may be higher than the height H2 of the first positioning protrusion 35 (see FIG. 7). The first tip portion 351 and the second tip portion 361 may have different widths or sizes. The first inclined portion 352 and the second inclined portion 362 may have different extended lengths. The first extension part 353 and the second extension part 363 may have different extended lengths. Alternatively, the first positioning protrusion 35 and the second positioning protrusion 36 may be disposed in a position where they do not face each other or do not face each other.

Accordingly, the first positioning protrusion 35 and the second positioning protrusion 36 are inserted into the groove formed in the mold, and the second cover 30 and the first cover 20 and heater 10 coupled thereto are inserted into the mold. It can be easily placed in the correct position (see Figure 10). Additionally, in the process of injecting the molten injection product 100a into the mold (see FIG. 11), the first rounded portion 354 can reduce damage to the part.

The second plate 31 may not cover the lower side of the inlet hole 324. The inlet hole 324 may be opened downward. The second plate 31 may be recessed in a radial inward direction from the second peripheral portion 32 where the inlet hole 324 is formed, and may be spaced radially inwardly from the lower portion of the inlet hole 324. The lower portion 321 of the second peripheral portion 32 located between the inlet holes 324 may be referred to as a recess portion 321. The recessed portion 321 may be exposed downward by recessing an edge of the second plate 31 in a radial inward direction.

Accordingly, when injecting the molten injection product 100a into the mold, the injection product can easily flow into the interior of the chamber C through the inlet hole 324 and the hook hole 322 ( 7 and 11).

Hereinafter, the structure in which the heater 10, the first cover 20, and the second cover 30 are combined may be referred to as a heater assembly (HA).

Referring to FIG. 7, the first injection product 100a flows into or is injected into the interior of the covers 20 and 30 through the inlet hole 324 and/or the hook hole 322, thereby filling the interior of the chamber C. You can. The first injection product 100a is in a molten state and may be introduced or injected into the interior of the covers 20 and 30 and then solidified and hardened inside the chamber C. The first injection molded product 100a can fill all gaps that occur at the joint area between the covers 20 and 30 and the heater 10.

Referring to FIGS. 8 and 9 , the first cover 20 may be placed on or coupled to the second cover 30 . The hook 222 may be inserted into the hook hole 322 and caught on the second peripheral portion 32. The hook 222 may restrict the first cover 20 from being separated upward from the second cover 30 .

The first plate 21 may cover the upper side of the second peripheral portion 32. The first plate 21 may be in close contact with the upper side of the second peripheral portion 32 . The first plate 21 may cover the upper side of the chamber (C). The first plate 21 is caught on the upper side of the second peripheral portion 32, and the first peripheral portion 22 can be inserted into the second space 34. The first peripheral portion 22 may be disposed inside the second peripheral portion 32 . The outer peripheral surface of the second peripheral portion 22 may be surrounded by the second peripheral portion 32 . The lower portion of the first peripheral portion 22 may be spaced upward from the second plate 31 .

The heater body 11 may pass through the insertion hole 214 (see FIG. 1) of the first plate 21 and be press-fitted into the first plate 21. The flange 13 may be disposed in the first space 224. The flange 13 may be supported or fixed by the support bar 225. The flange 13 may be spaced apart from the first peripheral portion 22 by the support bar 225. The flange 13 may be spaced apart from the first peripheral portion 22 and the first plate 21 to form a gap in the first space 224 . The flange 13 may be spaced upward from the second plate 31. The lower end 151 and the fixing part 152 of the heater 10 may be supported or fixed by the first plate 31.

The sensor 16 can sense the temperature of the heater 10. The sensor 16 may be installed inside the heater 10. The heater 10 is formed in a hollow shape, and the sensor 16 can be inserted into the heater 10. The sensor 16 may be formed to be long in one direction and disposed along the longitudinal direction of the heater body 11. The sensor 16 is electrically connected to the second lead wire 162 and can receive power. The heater 10 is electrically connected to the first lead wire 161 and can receive power.

Accordingly, the first cover 20 and the second cover 30 are stably coupled to each other, and a chamber C can be formed therein. In addition, before injecting the injection product 100a (see FIG. 11) into the chamber C, the movement of the heater 10 is prevented or minimized within the covers 20 and 30, and the heater 10 is elongated toward the upper side. can be placed. Additionally, the first lead wire 161 and the second lead wire 162 can be prevented from contacting each other, twisting each other, or being disconnected.

Referring to FIGS. 10 and 11 , the heater assembly (HA) may be inserted into the first mold 200 and the second mold 300. The upper part of the heater assembly (HA) may be inserted into the first mold 200. The lower part of the heater assembly (HA) may be inserted into the second mold 300. The first mold 200 and the second mold 300 may be vertically coupled to each other. The first mold 200 and the second mold 300 may be coupled to each other to form a space within which the heater assembly (HA) can be placed.

The second mold 300 may be provided with mold grooves 335 and 336. The mold grooves 335 and 336 may be formed by a portion of the second mold 300 being depressed downward. The mold grooves 335 and 336 may be opened upward. The positioning protrusions (35, 36) can be slid and inserted into the mold grooves (335, 336). The first positioning protrusion 35 may be inserted into the first mold groove 335. The second positioning protrusion 36 may be inserted into the second mold groove 336.

The second mold 300 may be provided with a mold wire hole 316. The mold wire hole 316 may be formed by opening the second mold 300. The mold wire hole 316 may be formed between the first mold groove 335 and the second mold groove 336. There may be a plurality of mold wire holes 316. The number of mold wire holes 316 may correspond to the number of first lead wires 161 and second lead wires 162. The first lead wire 161 and the second lead wire 162 may pass through the mold wire hole 316 and be exposed to the outside of the second mold 300.

The first mold groove 335 and the second mold groove 336 may have different shapes. The first mold groove 335 may have a shape corresponding to the first positioning protrusion 35. The second mold groove 336 may have a shape corresponding to the second positioning protrusion 36. The first positioning protrusion 35 may not be completely inserted into the second mold groove 336. The second positioning protrusion 36 may not be completely inserted into the first mold groove 335. The spaced portion 315 may be caught or supported by the second mold 300 around the mold grooves 335 and 336. The positioning pin 313 may be inserted into the hole formed in the second mold 300 to guide the placement of the heater assembly (HA).

Accordingly, the heater assembly (HA) can be easily inserted or placed into the second mold 200. With respect to the housing 40 (see FIG. 14) and the aerosol generating device, the positions where the first lead wire 161 and the second lead wire 162 are disposed can be determined. Additionally, it is possible to prevent the first lead wire 161 and the second lead wire 162 from contacting, twisting, or disconnecting each other.

The heater body 11 may be inserted into or supported in the first mold 200. The first mold 200 may be provided with a heater hole 210. The heater body 11 may be inserted into the heater hole 210 or may penetrate the heater hole 210. The first cover 20 may be supported on the first mold 200. The second cover 30 may be supported on the second mold 300.

When the first mold 200 and the second mold 300 are contacted or combined, passages 101, 102, and 103 may be formed between the first mold 200 and the second mold 300. Passages 101, 102, and 103 may be connected to the heater assembly (HA). Passages 101, 102, and 103 may be connected to the chamber C.

The first passage 101 may be formed between the first mold 200 and the second mold 300. The first passage 101 may be formed to be long up and down. The first passage 101 may be formed in a cylindrical shape. The heater assembly (HA) may be disposed at the lower part of the first passage (101). The lower part of the first passage 101 may surround the sides of the first cover 20 and the second cover 30.

The first passage 101 may communicate with the chamber C through the inlet hole 324 (see FIG. 7). The first passage 101 may communicate with the chamber C through the hook hole 222 (see FIG. 7). The recess portion 321 may be in contact with the first passage 101 (see FIG. 6). The recess portion 321 may be spaced apart from the second mold 200 to form a gap.

The first passage 101 may communicate with the locking groove 105. The locking groove 105 may extend along the top edge of the first cover 20. The locking groove 105 may extend in the circumferential direction. The locking groove 105 may be in contact with the upper edge of the first cover 20.

The second passage 102 may extend outward from the top of the first passage 101. The third passage 103 may extend downward from the end of the second passage 102. The third passage 103 may be spaced apart from the first passage 101. The third passage 103 may surround the side of the first passage 101.

At least one of the first mold 200 and the second mold 300 may include an injection re-injection hole 204. The injection re-injection hole 204 may be in communication with the passages 101, 102, and 103. For example, the injection re-injection hole 204 may be in communication with the second passage 102.

The above-described first mold 200 and second mold 300 are examples, and the mold has a space inside which the heater assembly (HA) can be inserted or placed, and passages 101, 102, and 103. It is sufficient to form one, and there are no restrictions on the number, shape, or direction of connection.

Referring to FIGS. 11 to 14 , the housing 40 may be formed within the molds 200 and 300 through insert injection molding. The sealing member 134 may be insert-molded into the chamber (C) of the heater assembly (HA). The sealing member 134 may be insert-injected into gaps between components of the heater assembly (HA). The heater assembly (HA) and the housing 40 may be coupled to each other through insert injection. The housing 40 may be integrally connected to the sealing member 134 that is insert-molded into the heater assembly (HA).

The first injection product 100a may be injected into the molds 200 and 300 through the injection re-injection hole 204. The first injection product 100a may be injected into the injection material injection hole 204 and flow into the passages 101, 102, and 103. The first injection product 100a may be melted and in a liquid state. The first injection molded product 100a may be filled in the passages 101, 102, and 103.

The first injection product 100a flowing into the first passage 101 may flow into the chamber C. The first injection product 100a may flow into the chamber C from the first passage 101 through the inlet hole 324 (see FIG. 7). The first injection product 100a may flow into the chamber C from the first passage 101 through the hook hole 322. The first injection molded product 100a introduced into the chamber C can fill the gaps between the components of the heater assembly HA. The first injection product 100a may flow into the catching groove 105 from the first passage 101.

The first injection-molded product 100a in a molten state may be hardened to become the second injection-molded product 100. After forming the second injection molded product 100 through insert injection, the mold is removed, and the positioning protrusions 35 and 36 can be removed.

The first injection-molded product 100a injected into the passages 101, 102, and 103 in the molds 200 and 300 may be hardened to form the second injection-molded product 100. The housing 40 may be composed of the second injection-molded product 100 formed by curing the first injection-molded product 100a. The first injection molded product 100a introduced into the chamber C may be cured to fill the gaps between the components of the heater assembly HA to form the second injection molded product 100. The second injection molded product 100 inserted into the chamber C and/or the gap between components of the heater assembly HA around the chamber C may be referred to as a sealing member 134.

The sealing member 134 may be composed of the second injection molded product 100. The sealing member 134 may be insert-molded into the chamber (C). The sealing member 134 may fill the chamber C. The sealing member 134 may be insert-molded into the first space 224. The sealing member 134 may be insert-molded into the second space 34. The sealing member 134 may be insert-molded between the heater insertion hole 214 (see FIG. 1) and the heater body 11. The sealing member 134 may be insert-molded into the cover wire holes (3610, 3620, see FIG. 4). The sealing member 134 may be insert-molded into the recessed portion 314 (see FIG. 4). The sealing member 134 may be insert-molded between the gap between the first cover 20 and the second cover 30. The flange 13 may be surrounded and fixed by a sealing member 134.

The housing 40 is formed through insert injection and may be composed of the second injection molded product 100. The housing 40 may be provided with a pipe 41. The housing 40 may be provided with an outer wall 42. The housing 40 may be provided with an upper wall 43. The housing 40 may be provided with a locking portion 415. The housing 40 may be provided with a pipe bottom 411.

The pipe 41 may be composed of a second injection-molded product 100 formed by curing the first injection-molded product 100a introduced into the first passage 101. The pipe 41 may have a cylindrical shape. The pipe 41 may form an insertion space 44 with openings on both sides thereof. The insertion space 44 may have a cylindrical shape. The insertion space 44 may be formed to be long up and down. The upper side of the insertion space 44 may be in communication with the outside. The lower side of the insertion space 44 may be covered by covers 20 and 30.

The pipe 41 may be insert-injected and combined with the heater assembly (HA). The heater assembly (HA) may block the lower part of the pipe 41. The first plate 21 may be disposed between the insertion space 44 and the first space 224. The first plate 21 may separate the insertion space 44 and the first space 224.

The pipe 41 may be insert-molded together with the sealing member 134. The pipe 41 may be integrally formed by being connected to the sealing member 134 in the heater assembly (HA). The pipe 41 and the sealing member 134 may be integrally connected to each other through the inlet hole 324. The pipe 41 and the sealing member 134 may be integrally connected to each other through the hook hole 322.

The heater body 11 and the heater tip 12 may be placed in the insertion space 44. The cigarette is inserted into the insertion space 44, and the lower part may be penetrated by the heater 10. The heater 10 generates heat and can heat the cigarette. The first lead wire 161 and the second lead wire 162 may be exposed to the lower part of the pipe 41.

The locking portion 415 may be composed of a second injection-molded product 100 formed by curing the first injection-molded product 100a introduced into the locking groove 105. The catching portion 415 may be formed integrally with the pipe 41. The catching portion 415 may protrude in a radial inward direction from the inner peripheral surface of the pipe 41. The catching portion 415 may cover and support the upper edge of the first plate 21. The catching portion 415 may extend in the circumferential direction along the upper edge of the first plate 21. The stopping portion 415 may restrict the heater assembly (HA) from moving upward.

The pipe bottom 411 may be composed of a second injection-molded product 100 formed by hardening the first injection-molded product 100a introduced into the first passage 101 around the recess portion 321 (see FIG. 6). . The pipe bottom 411 may be formed at the lower part of the pipe 41. The pipe bottom 411 may cover the recess portion 321 (see FIG. 6). The pipe bottom 411 is in contact with the recess portion 321 and can support the lower part of the second cover 30. The pipe bottom 411 may restrict the heater assembly (HA) from moving downward.

The upper wall 43 may extend outward from the top of the pipe 41. The upper wall 43 may be composed of a second injection-molded product 100 formed by curing the first injection-molded product 100a introduced into the second passage 102. The upper wall 43 may constitute the upper part of the housing 40.

The outer wall 42 may extend downward from the end of the upper wall 43. The outer wall 42 may be composed of a second injection-molded product 100 formed by curing the first injection-molded product 100a introduced into the third passage 103. The outer wall 42 may constitute the external side of the housing 40. The outer wall 42 may be spaced outwardly from the pipe 41. The space 46 may be formed between the pipe 41 and the outer wall 42.

Accordingly, the gap between the components of the heater assembly (HA) can be completely filled. Additionally, the gap between the housing 40 and the heater assembly (HA) can be completely filled. Additionally, it is possible to prevent foreign substances such as liquid from leaking through gaps around the heater 10.

Additionally, the heater assembly (HA) can be stably fixed or supported on the housing 40. In addition, it is possible to prevent problems in which the positions of the first lead wire 161 and the second lead wire 162 are twisted or disconnected.

Additionally, the assembly process of the heater assembly (HA) can be simplified. Additionally, the joining process of the heater assembly (HA) and the housing 40 can be further simplified.

Referring to FIG. 15, the first cover 20' may include a column 23. The column 23 may be formed to protrude downward from the lower portion of the first peripheral portion 22. Columns 23 may be provided as a pair. A pair of columns 23 may be arranged to face each other in the first space 224 . A pair of columns 23 may face each other. The first cover 20' may be provided with a positioning groove 234. The positioning groove 234 may be formed by the column 23 being depressed upward. The positioning groove 234 may be opened downward. A pair of positioning grooves 234 may be formed in each pair of columns 23. The shape of the pair of positioning grooves 234 may be different from each other. The top of the column 23 may have a rounded shape toward the positioning groove 234.

The first cover 20' may be provided with support bars 225 and 227. The first support bar 225 and the second support bar 227 may protrude from the inner peripheral surface 223 of the first peripheral portion 22 toward the first space 224. The first support bar 225 and the second support bar 227 may have a shape extending long in the vertical direction. The first support bars 225 may be arranged to face each other in the first space 224 . The second support bars 227 may be arranged to face each other in the first space 224 . The first support bar 225 and the second support bar 227 may be alternately arranged in the circumferential direction. The second support bar 227 may be formed to be inclined. The second support bar 227 may be inclined upward toward the first space 224 from the bottom of the support bar 227.

15 and 16, when the heater 10 penetrates the heater insertion hole 214, the flange 13 slides in contact with the support guide 226 and the second support bar 227, and the first You may be guided to space 224. The first support bar 225 and the second support bar 227 may support the side portion of the flange 13 disposed in the first space 224. The first support bar 225 and the second support bar 227 may space the flange 13 from the first peripheral portion 22 to form a gap inside the first space 224.

Referring to Figures 16 and 17, the second cover 30' may be provided with a column hole 317. The column hole 317 may be formed by opening the second plate 31. The column hole 317 may be opened in a shape corresponding to the column 23. When the first cover 20' and the second cover 30' are combined, the column 23 can be inserted into the column hole 317. The column 23 may pass through the column hole 317, and the positioning groove 234 may be exposed to the outside of the second plate 31.

Referring to FIGS. 17 and 18 , the positioning protrusion formed on the mold is inserted into the positioning groove 234 to guide the placement of the heater assembly (HA) with respect to the mold. The end of the column 23 is rounded so that the protrusion formed on the mold slides and can be inserted into the positioning groove 234.

Accordingly, after insert injection is completed, there is no need to remove the positioning protrusion from the heater assembly (HA), making the manufacturing method simpler and leaving no marks.

Referring to FIG. 19, the heater 10 can be press-fitted into the first cover 20 (S1). Thereafter, the heater assembly (HA) can be formed by combining the first cover 20 and the second cover 30 into which the heater 10 is press-fitted (S2). Afterwards, the heater assembly (HA) can be inserted into the mold (S3). Thereafter, the molten injection product can be injected into the mold into which the heater assembly (HA) is inserted (S4). Thereafter, the injection product is solidified and hardened, and then the mold is removed to form the housing 40 combined with the heater assembly (HA) (S5). The method of manufacturing an aerosol generating device according to the present disclosure may include at least one of the steps S1 to S5.

1 to 19, according to one aspect of the present disclosure, an aerosol generating device includes a pipe 41 having an insertion space 44 open on both sides; Covers (20, 30) that close one open side of the pipe (41) and have a chamber (C) formed therein; a heater (10) that extends long and penetrates the covers (20, 30), with one side disposed in the insertion space (44) and the other side disposed in the chamber (C); In addition, it includes a sealing member 134 filled in the interior of the chamber C, and the pipe 41 may be formed integrally with the sealing member 134.

According to another aspect of the present disclosure, one side of the covers 20 and 30 is open and communicates with the chamber C, and the sealing member 134 and the pipe 41 are integrally connected. It may be provided with at least one inlet hole 324.

According to another aspect of the present disclosure, the covers 20 and 30 are opened to form a heater insertion hole 214 through which the heater 10 passes, and face the insertion space 44, A first cover 20 surrounding the first space 224 on one side of the chamber C; And it may include a second cover 30 that is coupled to the first cover 20 and surrounds the second space 34 on the other side of the chamber C.

In addition, according to another aspect of the present disclosure, the first cover 20 is disposed between the insertion space 44 and the first space 224 to form a space between the insertion space 44 and the first space 224. A first plate (21) separating the space (224) and having the heater insertion hole (214) formed thereon; And it may include a first peripheral portion 22 that extends from the first plate 21, surrounds the side of the first space 224, and is open to the second space 34.

According to another aspect of the present disclosure, the first cover 20 protrudes from the first peripheral portion 22 into the first space 224 to support the side of the heater 10. , includes a support bar 225 that separates the heater 10 from the first peripheral portion 22 to form a gap in the first space 224, and the sealing member 134 includes the first space 224. The heater 10 can be fixed by filling the gap formed in the space 224.

According to another aspect of the present disclosure, the first cover 20 is formed to be inclined at an end of the support bar 225, and the heater 10 slides to connect the heater 10 to the heater 10. A support guide 226 that guides the insertion hole 214 may be provided.

In addition, according to another aspect of the present disclosure, the support bars 225 are provided in plural numbers and are arranged to be spaced apart along the inner peripheral surface of the first peripheral portion 22, and the aerosol generating device includes the heater ( It protrudes outward from the other side of 10), is supported by the plurality of support bars 225, and may further include a flange 13 having a non-circular shape.

According to another aspect of the present disclosure, the second cover 30 includes a second plate 31 that covers the second space 34 and supports the other end of the heater 10; And it may include a second peripheral portion 32 extending from the second plate 31 and surrounding the side of the second space 34.

According to another aspect of the present disclosure, the second peripheral portion 32 has an inlet hole 324 that is open and communicates with the second space 34, and has an inner peripheral surface of the pipe 41. The pipe 41 may be integrally connected to the sealing member 134 inside the chamber C through the inlet hole 324.

Additionally, according to another aspect of the present disclosure, the first cover 20 and the second cover 30 may be coupled in a snap-fit manner.

According to another aspect of the present disclosure, the aerosol generating device includes a hook hole 322 formed by opening the second cover 30; And it may further include a hook 222 that protrudes from the first cover 20 and is inserted into the hook hole 322 to fasten the first cover 20 and the second cover 30. .

In addition, according to another aspect of the present disclosure, the hook hole 322 is in communication with the chamber C, and the sealing member is provided between the hook 222 coupled to the hook hole 322. A gap may be formed in which 134 and the pipe 41 are integrally connected.

According to another aspect of the present disclosure, the aerosol generating device is formed integrally with the pipe 41 and protrudes inward from the inner peripheral surface of the pipe 41 toward the insertion space 44, A locking portion 415 covering the upper edge of the covers 20 and 30 may be further included.

According to another aspect of the present disclosure, the covers 20 and 30 protrude downward and are inserted into grooves formed in the mold during insert injection, so that the covers 20 and 30 are positioned within the mold. It may be provided with positioning protrusions (35, 36) to guide placement.

Also, according to another aspect of the present disclosure, the positioning protrusions 35 and 36 are provided in plural numbers and may have different shapes.

Also, according to another aspect of the present disclosure, the positioning protrusions 35 and 36 may have a shape that gradually narrows downward.

In addition, according to another aspect of the present disclosure, the covers 20 and 30 are recessed upward from the lower portion of the covers 20 and 30 and open downward, and during insert injection, the protrusions formed in the mold are inserted. It may include a positioning groove 234 that guides the placement of the covers 20 and 30.

Any or other embodiments of the present disclosure described above are not exclusive or distinct from each other. Certain embodiments or other embodiments of the present disclosure described above may have their respective components or functions combined or combined (Certain embodiments or other embodiments of the disclosure described above are not mutually exclusive or distinct from each other. Any or all elements of the embodiments of the disclosure described above may be combined with another or combined with each other in configuration or function).

For example, this means that configuration A described in a particular embodiment and/or drawing may be combined with configuration B described in other embodiments and/or drawings. In other words, even if the combination between configurations is not directly explained, this means that the combination is possible except in cases where the combination is described as impossible (For example, a configuration "A" described in one embodiment of the disclosure and the drawings and a configuration "B" described in another embodiment of the disclosure and the drawings may be combined with each other. Namely, although the combination between the configurations is not directly described, the combination is possible except in the case where it is described that the combination is impossible).

The above detailed description should not be construed as restrictive in any respect and should be considered illustrative. The scope of the present invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included within the scope of the present invention (Although embodiments have been described with reference to a number of illustrative embodiments Thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the scope of the principles of this disclosure.More particularly, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art).

Claims (17)

A pipe having an insertion space open on both sides;
a cover that closes one open side of the pipe and has a chamber formed therein;
a heater that extends long and penetrates the cover, with one side disposed in the insertion space and the other side disposed in the chamber; and,
Includes a sealing member filled in the interior of the chamber,
The pipe is,
An aerosol generating device formed integrally with the sealing member. According to claim 1,
The cover is,
An aerosol generating device that is open on one side and communicates with the chamber, and has at least one inlet hole through which the sealing member and the pipe are integrally connected. According to claim 1,
The cover is,
a first cover that is open to form a heater insertion hole through which the heater passes, faces the insertion space, and surrounds a first space on one side of the chamber; and
An aerosol generating device comprising a second cover coupled to the first cover and surrounding a second space on the other side of the chamber. According to clause 3,
The first cover is,
a first plate disposed between the insertion space and the first space to separate the insertion space from the first space, and on which the heater insertion opening is formed; and
An aerosol generating device comprising a first peripheral portion extending from the first plate to surround a side of the first space and open to the second space. According to clause 4,
The first cover is,
A support bar protrudes from the first circumference into the first space to support a side of the heater, and separates the heater from the first circumference to form a gap in the first space,
The sealing member is,
An aerosol generating device that fills the gap formed in the first space and fixes the heater. According to clause 5,
The first cover is,
An aerosol generating device comprising a support guide that is inclined at an end of the support bar and slides the heater to guide the heater to the heater insertion port. According to clause 5,
The support bar is,
It is provided in plural numbers and is spaced apart along the inner peripheral surface of the first peripheral portion,
The aerosol generating device further includes a flange that protrudes outward from the other side of the heater, is supported on the plurality of support bars, and has a non-circular shape. According to clause 3,
The second cover is,
a second plate covering the second space and supporting the other end of the heater; and
An aerosol generating device comprising a second peripheral portion extending from the second plate and surrounding a side of the second space. According to clause 8,
The second peripheral portion,
It has an inflow hole that is open and communicates with the second space, and is in close contact with the inner peripheral surface of the pipe,
The pipe is,
An aerosol generating device integrally connected to the sealing member inside the chamber through the inlet hole. According to clause 3,
An aerosol generating device wherein the first cover and the second cover are coupled in a snap-fit manner. According to claim 10,
a hook hole formed by opening the second cover; and
The aerosol generating device further includes a hook that protrudes from the first cover and is inserted into the hook hole to fasten the first cover and the second cover. According to claim 11,
The hook hole is,
An aerosol generating device in which a gap is formed between the hook connected to the hook hole and in communication with the chamber, where the sealing member and the pipe are integrally connected. According to claim 1,
The aerosol generating device is formed integrally with the pipe, protrudes inward from the inner peripheral surface of the pipe toward the insertion space, and further includes a locking portion covering an upper edge of the cover. According to claim 1,
The cover is,
An aerosol generating device that protrudes downward and includes a positioning protrusion that is inserted into a groove formed in the mold during insert injection and guides the placement of the cover within the mold. According to claim 14,
The positioning protrusion is,
An aerosol generating device is provided in plural and has different shapes. According to claim 14,
The positioning protrusion is,
An aerosol generating device with a shape that gradually narrows toward the bottom. According to claim 1,
The cover is,
An aerosol generating device that is recessed upward from the bottom of the cover and opens downward, and includes a positioning groove into which a protrusion formed in the mold is inserted to guide the arrangement of the cover during insert injection.

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