CN108378424B - Aerosol generating device and extracting device of aerosol generating rod thereof - Google Patents

Abstract

The invention discloses an aerosol generating device and an extraction device of an aerosol generating rod thereof, wherein the extraction device of the aerosol generating rod comprises a heating module for enabling the aerosol generating rod to generate aerosol and a movable ejection module for ejecting the aerosol generating rod, the heating module is connected with one end of the movable ejection module, the other end of the movable ejection module is used for installing the aerosol generating rod, and after the aerosol generating rod is sucked, a user can eject the sucked aerosol generating rod by only operating the movable ejection module and replace a new aerosol generating rod.

Description

Aerosol generating device and extracting device of aerosol generating rod thereof

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to an aerosol generating device and an extracting device of an aerosol generating rod of the aerosol generating device.

Background

The smoke released by burning and cracking tobacco contains 3800 various known chemical substances which are mostly harmful to human bodies, wherein the majority of the chemical substances comprise carbon monoxide, nicotine, amines, phenols, heavy metal elements and the like, and the smoke generated by burning can cause passive smoking to other people and harm the surrounding environment, so that the smoke control sound rises gradually. Although electronic cigarettes have been developed rapidly in recent years, they have no way to use heating filament to heat and atomize liquid tobacco tar or semisolid tobacco paste, and electronic cigarettes are emerging as smoking cessation products once they are produced, are not tobacco products in the true sense, and cannot meet the pursuit of smokers for tobacco flavor. Research shows that the content of harmful substances in smoke generated by heating and non-burning tobacco is 80% lower than that of the traditional cigarette, so that the treatment mode of heating and non-burning tobacco products is highly emphasized by national tobacco industry governing departments and various tobacco companies in the world.

In the existing aerosol generating device, when the aerosol generating rod (such as a cigarette) is completely sucked, the shell of the aerosol generating device needs to be opened to pour out the exhausted aerosol generating rod, a new aerosol generating rod is installed, and then the shell is covered. This method is time-consuming and labor-consuming, and inconvenient to operate.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the above-mentioned disadvantages of the prior art, the present invention provides an aerosol generating device and an aerosol generating rod extracting device thereof, which can conveniently push out and replace the aerosol generating rod after being sucked.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides an extraction element of aerial fog emergence stick, extraction element is including the module that generates heat that is used for making aerial fog emergence stick take place aerial fog, the ejecting module of activity that is used for pushing out aerial fog emergence stick, the module that generates heat is connected with the one end of the ejecting module of activity, the other end of the ejecting module of activity is used for installing aerial fog emergence stick.

In the device for extracting the aerosol generating rod, the movable ejection module comprises a top plate, an inner sleeve for accommodating the aerosol generating rod and a control mechanism for controlling the top plate to slide on the inner sleeve to eject the aerosol generating rod, the top plate is arranged in the inner sleeve and is connected with the inner sleeve in a sliding manner, and a through hole for inserting the heating module is formed in the top plate; the inner sleeve is connected with the control mechanism.

In the device for extracting the aerosol generating rod, a first boss is arranged on the side wall of the top plate, a linear sliding groove for the first boss to slide is arranged on the inner sleeve, and the first boss is slidably arranged in the linear sliding groove.

In the device for extracting the aerosol generating rod, the first boss is provided with a second boss, the control mechanism comprises an outer sleeve, and the outer sleeve is provided with a sliding groove which is used for enabling the top sheet to slide along the axial direction of the inner sleeve when the second boss slides.

In the device for extracting the aerosol generating rod, the sliding groove is an arc-shaped sliding groove.

In the extraction device of the aerosol generating rod, a second boss is arranged on the first boss, the control mechanism comprises an upper sleeve, an upper rotating piece, a lower rotating piece and a spring, the upper rotating piece is rotatably connected with the lower rotating piece, the heating module is positioned on one side of the lower rotation, and the spring is clamped between the upper sleeve and the top plate.

In the extraction device of the aerosol generating rod, the first boss is connected with the top plate through the elastic part, and the first boss and the second boss are integrally formed.

In the extraction device of the aerosol generation rod, the heating module comprises a base and a heating needle inserted into the aerosol generation rod, the heating needle is arranged on the base, and the heating needle is inserted into the through hole of the top plate.

In the device for extracting the aerosol generating rod, the control mechanism comprises a sliding block, a pushing block, an upper sleeve and a pushing rod for controlling the pushing block to move along the radial direction of the outer sleeve so that the top sheet slides along the axial direction of the inner sleeve, the pushing block and the sliding block are both provided with sliding surfaces capable of sliding relatively, one end of the pushing rod is arranged on the pushing block, the other end of the pushing rod extends out of the outer side of the upper sleeve, and the upper sleeve is connected with the inner sleeve.

The gas mist generating device comprises an electric heating type gas mist generating system and the extracting device of the gas mist generating rod, wherein the electric heating type gas mist generating system is electrically connected with a heating module of the extracting device.

Compared with the prior art, the aerosol generating device and the extraction device of the aerosol generating rod thereof provided by the invention have the advantages that the extraction device of the aerosol generating rod comprises the heating module for enabling the aerosol generating rod to generate aerosol and the movable ejection module for ejecting the aerosol generating rod, the heating module is connected with one end of the movable ejection module, the other end of the movable ejection module is used for installing the aerosol generating rod, after the aerosol generating rod is sucked, a user can eject the sucked aerosol generating rod by only operating the movable ejection module, and the aerosol generating rod is replaced by a new aerosol generating rod, so that the operation is simple and convenient, the aerosol generating device can be repeatedly used, the consumption cost of consumers is reduced, and meanwhile, the environment pollution is avoided.

Drawings

Figure 1 is a schematic exploded view of a first preferred embodiment of an extraction device for an aerosol generating stick according to the present invention.

Figure 2 is an assembled schematic view of a first preferred embodiment of an extraction device for an aerosol generating stick of the present invention.

Figure 3 is a schematic exploded view of a second preferred embodiment of an extraction device for an aerosol generating stick of the present invention.

Figure 4 is a schematic cross-sectional view of a third preferred embodiment of an extraction device for an aerosol generating stick of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Referring to fig. 1 and 2, a first preferred embodiment of the present invention provides an extracting device for an aerosol generating rod, the extracting device includes a heating module 1 for making the aerosol generating rod 100 generate aerosol, and a movable ejection module 2 for ejecting the aerosol generating rod 100, the heating module 1 is connected to one end of the movable ejection module 2, the other end of the movable ejection module 2 is used for mounting the aerosol generating rod 100, after the aerosol generating rod 100 is completely sucked, a user only needs to operate the movable ejection module 2 to eject the sucked aerosol generating rod 100 and replace the new aerosol generating rod 100.

Specifically, the movable ejection module 2 includes a top plate 21, an inner sleeve 3 for accommodating the aerosol generating rod 100, and a control mechanism 4 for controlling the top plate 21 to slide on the inner sleeve 3 to eject the aerosol generating rod 100. The top sheet 21 is arranged in the inner sleeve 3 and is connected with the inner sleeve 3 in a sliding way, and the control mechanism 4 controls the top sheet 21 to slide in the inner sleeve 3, so that the top sheet 21 can smoothly eject the aerosol generating rod 100.

The top sheet 21 is provided with a through hole (not shown in the figure) for inserting the heating module 1, the heating module 1 penetrates through the top sheet 21 and is inserted into the aerosol generating rod 100, the aerosol generating rod 100 generates aerosol in a heating mode so as to meet the pursuit of a smoker for tobacco flavor, the inner sleeve 3 is connected with the control mechanism 4, one end of the inner sleeve 3 is connected with the control mechanism 4, and the other end of the inner sleeve 3 is used for installing the aerosol generating rod 100.

More specifically, the side wall of the top plate 21 is provided with a first boss 211, the inner sleeve 3 is provided with a linear sliding groove 31 for the first boss 211 to slide, the first boss 211 is slidably installed in the linear sliding groove 31, and the linear sliding groove 31 and the first boss 211 are matched to slide to play a guiding role, so that the top plate 21 can smoothly eject the aerosol generating rod 100.

The first boss 211 is provided with a second boss 212, the control mechanism 4 comprises an outer sleeve 41, the outer sleeve 41 is provided with a sliding groove 42 for enabling the top sheet 21 to slide along the axial direction of the inner sleeve 3 when the second boss 212 slides, and the sliding direction of the first boss 211 is controlled by the second boss 212. Furthermore, a decorative sleeve can be added on the outer sleeve 41, the second boss 212 is connected with the decorative sleeve, so that the second boss 212 and the sliding groove are not exposed, the product is more attractive, and the top plate can slide only by rotating the decorative sleeve during operation. Preferably, the number of the first bosses 211, the second bosses 212, the linear sliding grooves 31, and the sliding grooves 42 is two, and the two bosses are symmetrically disposed.

Specifically, the sliding groove 42 is an arc-shaped sliding groove, and extends from one end of the inner sleeve to the middle of the inner sleeve on the outer wall of the inner sleeve, and the top plate 21 is converted into vertical motion through the matching of the sliding groove 42 and the second boss 212 and the linear sliding groove 31 and the first boss 211, so that the aerosol generating rod 100 is ejected out, the aerosol generating rod 100 cannot rotate when being pushed out, the aerosol generating rod 100 is broken and loosened, and the influence on the next use of the aerosol generating device is avoided.

For better sliding and guiding during sliding, the second boss 212 may be a short cylinder, the first boss 211 may be a square column, and the first boss 211 and the second boss 212 are integrally formed to increase the strength thereof.

Referring to fig. 1 and 2, the first boss 211 is connected to the top plate 21 by an elastic member (not shown), and the first boss 211 and the second boss 212 are integrally formed. When the cap is mounted, the elastic member is contracted by pressing the first boss 211, so that the top sheet 21 is fitted into the inner tube 3. After the top plate 21 and the linear sliding groove 31 of the inner sleeve 3 are assembled, the elastic element is reset to extend the first protrusion and the second protrusion 212 and is inserted into the linear sliding groove 31 and the sliding groove, so that the top plate 21 is prevented from sliding out of or falling off from the linear sliding groove 31, and the use of the product is further prevented from being influenced.

The heating module 1 comprises a base 11 and a heating needle 12 inserted into the aerosol generating rod 100, wherein the heating needle 12 is arranged on the base 11, and the base 11 is connected with a power supply and control system of the aerosol generating device. The heating needle 12 is inserted into the through hole of the top sheet 21, and is inserted into the top sheet 21 through the heating needle 12. The length of the heating needle 12 is larger than the thickness of the top plate 21, so that the heating needle 12 can be inserted into the gas generating rod after penetrating through the top plate 21, and the purpose of heating the gas generating rod is achieved.

The second preferred embodiment of the present invention provides an extracting apparatus, which is different from the first preferred embodiment in the structure of the control mechanism. Referring to fig. 3, the first boss 211 may also be provided with a second boss 212. The control mechanism 4 includes an upper sleeve 51, an upper rotating member 53, a lower rotating member 52 and a spring 54, the upper rotating member 53 is rotatably connected with the lower rotating member 52, the heat generating module 1 is located at one side of the lower rotation, the spring 54 is clamped between the top of the inner sleeve 3 and the top plate 21, specifically, between the top of the inner sleeve 3 and the second boss 212, and the spring 54 can be compressed by the second boss 212 to be conveniently reset, so that the top plate 21 is stable in the moving process.

In this embodiment, the upper sleeve 51 is connected to the lower rotating member 52, the upper rotating member 53 is relatively fixed, when the upper sleeve 51 rotates, the lower rotating member 52 is driven to rotate, and the lower rotating member 52 is spirally coupled to the upper rotating member 53, so that the upper rotating member 53 moves vertically and axially upward while rotating, thereby pushing the second boss 212 and the top plate 21 to move upward along the linear groove of the inner sleeve 3, and pushing the aerosol generating rod 100 away from the heating pin 12 and the inner sleeve 3. Another method of this embodiment is that the upper sleeve 51 is connected to the upper rotating member 53, the lower rotating member 52 is connected to the base and fixed relatively, when the upper sleeve 51 rotates, the upper rotating member 53 is driven to rotate, and the lower rotating member 52 is combined with the upper rotating member 53 in a spiral manner, so that the upper rotating member 53 moves upward in a vertical axial direction while rotating, thereby pushing the second boss 212 and the top plate 21 to move upward along the linear groove of the inner sleeve 3, and pushing the aerosol generating rod 100 away from the heating pin 12 and the inner sleeve 3.

When the above-mentioned two movements occur, the spring 54 is compressed by the second boss 212 moving upward, and the upper rotary member 53 is easily returned after controlling the top plate 21 to push out the aerosol-generating rod 100. In this structure, the upper sleeve 51 may be connected to the upper rotating member 53 or the lower rotating member 52 as a decorative sleeve, so that the product is more beautiful. Specifically, the joint surface of the upper rotating member 53 and the lower rotating member 52 is an oblique arc surface, and is similar to a structure of screw rotation.

The third preferred embodiment of the present invention provides an extracting apparatus, which is different from the first preferred embodiment in the structure of the control mechanism. Referring to fig. 4, the control mechanism 4 includes a sliding block 61, a pushing block 62, an upper sleeve 64, and a pushing rod 63 for controlling the pushing block 62 to move along the upper sleeve 64 in a radial direction and making the top plate 21 slide along the inner sleeve 3 in an axial direction. The upper sleeve 64 is connected with the inner sleeve 3, and the pushing block 62 and the sliding block 61 both have sliding surfaces which can slide relatively, and the sliding surfaces are mutually matched inclined surfaces. An elastic compression member 65 (such as a spring) is disposed between the inner sleeve 3 and the heat generating module 1, a through hole is formed in the middle of the elastic compression member 65, and the heat generating module 1 is located in the elastic compression member 65 and does not contact with the elastic compression member 65.

In this embodiment, one end of the pushing rod 63 is disposed on the pushing block 62, the other end of the pushing rod 63 extends outside the upper sleeve 64, and both the pushing block 62 and the sliding block 61 are disposed in a triangular shape. The pushing block 62 is kept stationary relative to the axial direction of the upper sleeve 64 during movement, and when the pushing rod 63 is pressed down during operation, the pushing block 62 is translated rightward, the sliding block 61 moves upward under the pressure of the pushing block 62, and the elastic compression member 65 is compressed to move the top plate 21 upward to eject the aerosol generating rod 100. When the push rod 63 is not pressed, the elastic element is reset to enable the sliding block 61 to have downward force so as to reset the push block 62 and the top plate 21, or the push rod 63 can be manually pulled back to enable the force of the lower push rod 63 to disappear so as to reset the push block 62 and the top plate 21

Furthermore, decorative sleeves can be arranged on the upper sleeve 64 and the inner sleeve 3, so that the product is more attractive.

Furthermore, sliding grooves (or sliding rails) are disposed on two sides of the upper sleeve 64, and sliding rails (or sliding grooves) are correspondingly disposed on an outer wall of the pushing block 62 to assist the sliding block 61 to move upwards, and also play a role in positioning during sliding, so that the pushing block 62 can only move in a horizontal direction. The structure of the drawer is similar to the sliding structure of a furniture drawer. Accordingly, the slide block 61 and the upper sleeve 64 may be provided with the same slide guide structure as the slide block 62 so that the slide block 61 can move only up and down.

The inner wall of the upper sleeve 64 may be configured to be flat (i.e., the interior of the upper sleeve 64 is a cylindrical space) to facilitate the above-mentioned engagement between the sliding slot and the sliding rail, and the outer shape of the upper sleeve 64 may be configured to be cylindrical, elliptic cylindrical or other shapes.

In the extraction device provided by the invention, in the first control mechanism 4, when the top plate 21 pushes the aerosol generating rod 100 upwards under force, the heating module 1 does not move along with the top plate 21; in the second control mechanism 4, the top plate 21 smoothly ejects the aerosol generating rod 100, and then is returned by the reverse rotation 41 and the drive 212. In the third control mechanism 4, after the top plate 21 smoothly ejects the gas mist generating rod 100, the elastic compression member or the push lever returns the top plate 21. When the aerosol generating rod 100 is pushed out, the top plate moves up and down, the base 11 and the heating needle 12 do not move, and the exhausted aerosol generating rod 100 is prevented from loosening.

Preferably, the present invention also provides a gas mist generating device (not shown in the figures) comprising an electrically heated gas mist generating system and an extracting device of the gas mist generating rod 100, wherein the electrically heated gas mist generating system is electrically connected with the heating module 1 of the extracting device, and the extracted gas mist generating rod 100 is pushed out by the extracting device of the gas mist generating rod 100, so that the gas mist generating device can be reused.

Compared with the prior art, it has following beneficial effect: the extraction device of the aerosol generating rod comprises a heating module used for enabling the aerosol generating rod to generate aerosol and a movable ejection module used for pushing the aerosol generating rod out, wherein the heating module is connected with one end of the movable ejection module, the other end of the movable ejection module is used for installing the aerosol generating rod, and after the aerosol generating rod is sucked, a user can push out the sucked aerosol generating rod only by operating the movable ejection module and replacing a new aerosol generating rod.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (5)

1. The extraction device of the aerosol generating rod is characterized by comprising a heating module and a movable ejection module, wherein the heating module is used for enabling the aerosol generating rod to generate aerosol, the movable ejection module is used for ejecting the aerosol generating rod, the heating module is connected with one end of the movable ejection module, and the other end of the movable ejection module is used for mounting the aerosol generating rod; the movable ejection module comprises a top plate, an inner sleeve for accommodating the aerosol generating rod and a control mechanism for controlling the top plate to slide on the inner sleeve to eject the aerosol generating rod, the top plate is arranged in the inner sleeve and is slidably connected with the inner sleeve, and a through hole for the insertion of the heating module is formed in the top plate; the inner sleeve is connected with the control mechanism; the side wall of the top sheet is provided with a first boss, the inner sleeve is provided with a linear sliding groove for the first boss to slide, and the first boss can be slidably arranged in the linear sliding groove; the first boss is provided with a second boss, the control mechanism comprises an outer sleeve, and the outer sleeve is provided with a sliding groove for enabling the top sheet to slide along the axial direction of the inner sleeve when the second boss slides; the first boss is connected with the top plate through an elastic piece, and the first boss and the second boss are integrally formed; the outer sleeve is provided with a decorative sleeve, the second boss is connected with the decorative sleeve, and the top plate can slide by rotating the decorative sleeve.

2. An extraction device according to claim 1, wherein the slide groove is an arcuate slide groove.

3. The aerosol generating rod extracting device according to claim 1, wherein the heating module comprises a base and a heating needle inserted into the aerosol generating rod, the heating needle is disposed on the base, and the heating needle is inserted into the through hole of the top plate.

4. The extraction device of the aerosol generating rod is characterized by comprising a heating module and a movable ejection module, wherein the heating module is used for enabling the aerosol generating rod to generate aerosol, the movable ejection module is used for ejecting the aerosol generating rod, the heating module is connected with one end of the movable ejection module, and the other end of the movable ejection module is used for mounting the aerosol generating rod; the movable ejection module comprises a top plate, an inner sleeve for accommodating the aerosol generating rod and a control mechanism for controlling the top plate to slide on the inner sleeve to eject the aerosol generating rod, the top plate is arranged in the inner sleeve and is slidably connected with the inner sleeve, and a through hole for the insertion of the heating module is formed in the top plate; the inner sleeve is connected with the control mechanism; the side wall of the top sheet is provided with a first boss, the inner sleeve is provided with a linear sliding groove for the first boss to slide, and the first boss can be slidably arranged in the linear sliding groove; the first boss is provided with a second boss, the control mechanism comprises an upper sleeve, an upper rotating part, a lower rotating part and a spring, the upper rotating part is rotatably connected with the lower rotating part, the heating module is positioned on one side of the lower rotation, the spring is clamped between the upper sleeve and the top plate, the first boss is connected with the top plate through an elastic part, and the first boss and the second boss are integrally formed; the upper sleeve is used as a decorative sleeve and is connected with the upper rotating part or the lower rotating part, the combined surface of the upper rotating part and the lower rotating part is an inclined arc surface, and when the upper sleeve rotates, the upper rotating part or the lower rotating part is driven to rotate, so that the second boss and the top sheet are pushed to move upwards along the linear sliding groove of the inner sleeve.

5. An aerosol-generating device comprising an electrically heated aerosol-generating system and an extraction device according to any of claims 1 to 4, the electrically heated aerosol-generating system being electrically connected to a heat-generating module of the extraction device.

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