Vaporizer

The vaporizer device with a tobacco adapter and detachable cartridge system allows users to combine and customize flavors by connecting multiple cartridges, addressing the limitations of single-cartridge devices.

JP2026522748APending Publication Date: 2026-07-09

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Filing Date
2024-06-10
Publication Date
2026-07-09

AI Technical Summary

Technical Problem

Existing vaporization devices are limited to a single cartridge and do not allow users to combine or customize scents and flavors, requiring cartridge replacement for flavor changes.

Method used

A vaporizer device with a tobacco adapter that includes a detachable cartridge system, allowing multiple cartridges with different flavors or aromas to be connected in series, and a mechanism to combine nicotine-containing vapors with flavored vapors.

Benefits of technology

Enables users to customize vapor flavors by combining multiple cartridges, providing a variety of scent and flavor options without the need for frequent cartridge replacements.

✦ Generated by Eureka AI based on patent content.

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Abstract

The vaporizer is configured to heat tobacco to produce nicotine-containing vapor and comprises a tobacco adapter including a mouthpiece and at least one cartridge containing a vaporizable substance that provides flavor. The cartridge is detachably coupled to the tobacco adapter, thereby enabling the tobacco adapter to receive vapor from the vaporizer and provide the vapor from the vaporizer, along with the nicotine-containing vapor, to the mouthpiece. A method of using the vaporizer is also disclosed.
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Description

Technical Field

[0001] The present invention generally relates to vaporization devices, and more particularly to vaporization devices including a tobacco adapter.

Background Art

[0002] Vaporization devices vaporize substances to produce vapors with desirable scents and flavors. Generally, vaporization devices include a battery, a cartridge containing a vaporizable substance, and a heating element that is powered by the battery and operates to heat and vaporize the substance. Typical vaporization devices include a single cartridge or are configured to receive a single cartridge. If a user prefers different scents and flavors, the cartridge needs to be removed and replaced with another one. Additionally, a user cannot combine scents and flavors with typical single-cartridge vaporization devices.

Summary of the Invention

Means for Solving the Problems

[0003] In a particular example according to the present disclosure, a vaporizer device is configured to heat tobacco to produce nicotine-containing vapors, and includes a tobacco adapter including a mouthpiece and at least one cartridge including a vaporizable material including a flavor. The cartridge is removably coupled to the tobacco adapter, and the tobacco adapter is operable to receive vapors from the vaporizable device and provide the vapors from the vaporizable device, along with the nicotine-containing vapors, to the mouthpiece.

[0004] In a particular example provided herein, the use of the vaporizer includes, among other possible methods, a detachable connection of a cartridge containing a flavored vaporizable substance to a tobacco adapter, supplying thermal energy to the tobacco adapter to generate nicotine-containing vapor, and supplying thermal energy to the cartridge to generate flavored vapor so that flavored vapor and nicotine-containing vapor are supplied together to the mouthpiece. [Brief explanation of the drawing]

[0005] [Figure 1] Figures (A) and (B) show an example of a vaporization apparatus, where (A) is a perspective view of the apparatus and (B) is a side view of the apparatus. [Figure 2] Figures (A) to (E) show examples of battery modules for the vaporizer shown in Figures 1(A) to (B), where (A) is a bottom view of the battery module, (B) is a top view of the battery module, (C) is a side view of the battery module, (D) is a perspective view of the battery module, and (E) is an exploded view of the battery module. Figure (F) shows another example of a battery module. [Figure 3] Figures (A) to (F) show examples of cartridges for the vaporizer shown in Figures 1(A) to (B), where (A) is a top view of the cartridge, (B) is a bottom view of the cartridge, (C) is a side view of the cartridge, (D) to (E) are perspective views of the cartridge, and (F) is an exploded view of the cartridge. Figure (G) shows an example of another cartridge. [Figure 4] (A) is a diagram showing an example of an optional mouthpiece for the vaporizer in Figures 1(A) and 1(B), and (B) is an exploded view of the mouthpiece. (C) is a diagram showing another example of a mouthpiece. [Figure 5] (A) to (C) show examples of cigarette adapters, with (A) to (B) being front and side views of the cigarette adapter, respectively. (C) is an exploded view of the cigarette adapter. [Modes for carrying out the invention]

[0006] Figures 1A and 1B show an example of a vaporizer 100. The vaporizer includes a battery module 200 and one or more cartridges 300. In some examples, the battery module and / or cartridges 300 may be housed in a common housing. In the example in Figures 1A and 1B, there are three cartridges 300a / 300b / 300c, but more or fewer cartridges may be used. The vaporizer 100 can be used to vaporize a substance to produce an aroma or flavor. In the latter case, the vaporizer 100 may optionally further include a mouthpiece 400. In the former case, the vaporizer may include means for releasing / dispersing the vaporized aroma substance, such as a fan or nozzle (not shown). Vaporizable substances are well known in the art and include, for example, oily compositions, organic solids and liquids.

[0007] One or more cartridges 300 may contain vaporizable substances with different flavors / aromas / active ingredients. This allows the user to customize the flavor / aroma / effect of the vapor produced by the vaporizer. For example, a user can select a first cartridge 300a with strawberry flavor, a second cartridge 300b with kiwi flavor, and a third cartridge 300c with pineapple flavor, and using them together will provide strawberry / kiwi / pineapple flavored vapor. As another example, a user can select a first cartridge 300a with rose scent and a second cartridge 300b with lavender scent to provide rose / lavender scented vapor. A user can also replace one of the first and second cartridges 300a / 300b with a third cartridge 300c with lemon scent to provide rose / lemon or lavender / lemon scented vapor. A user can also choose to use a single cartridge 300a or multiple cartridges 300a / 300b / 300c with different flavors / aromas / active ingredients.

[0008] Figures 2A-2E show an example of a battery module 200. Figure 2A is a bottom view of the battery module 200. Figure 2B is a top view of the battery module 200. Figure 2C is a side view of the battery module 200. Figure 2D is a perspective view of the battery module 200. Figure 2E is an exploded view of the battery module 200. The battery module 200 includes a housing 202, which in turn includes side walls 204 and a bottom wall 206. In one example, the side wall 204 includes an opening 203, and the bottom wall 206 includes a tab 207 configured to be received in the opening 203 and connect the side wall 204 and the bottom wall 206, as is best seen in Figure 2E. In a particular example, the side wall 204 is made of aluminum and the bottom wall 206 is made of plastic.

[0009] The support structure 208 is located on the side wall 202 and engages with the bottom wall 206. In one example, the support structure 208 may be made of plastic. The support structure 208 helps protect the other sides of the battery module 200 when the side wall 204 is made of a relatively soft material. In the most common example shown in Figure 2D, the side wall 204 protrudes from the support structure 208 to form a pocket P configured to accommodate the stepped portion S of the cartridge 300, which will be described in more detail below.

[0010] The battery cell 210 is located on the support structure 208. Any known battery cell 210 can be used. In a particular example, the battery cell 210 is an 1100mAh battery. In one example, the battery cell 210 is a rechargeable battery such as a polymer lithium battery, and the bottom wall 206 includes a charging port 212 on which a charger (not shown) can be attached to charge the battery cell 210, as is well known. Any known charging port 212, such as a USB Type-C port, can be used. The bottom wall 206 may also include an on / off switch 213 that switches the vaporizer 100 on and off in conjunction with the battery cell 210 and / or PCB 214 (described later).

[0011] In some examples, the battery module 200 includes a printed circuit board (PCB) 214 with a display 216 (best shown in Figure 2B). The PCB 214 interacts with the battery cells 210 and the display 216 to display information such as the remaining charge in the battery cells 210. Such a system, including the battery cells 210, an on / off switch 213, the PCB 214, and the display 216, is well known in the art and will not be described further here. In some examples, the PCB 214 is housed in a set of rails 215 within a support structure 208.

[0012] The battery module 200 also includes two electrodes 218 for transferring energy from the battery cells 210 to one or more cartridges 300, which will be described in detail below. The electrodes 218 interact with the terminals of the battery cells 210, as is well known in the art. In one example, the electrodes 218 are copper electrodes.

[0013] The battery module 200 also includes one or more connectors 220 configured to engage with the cartridge 300. In one example, the connector 220 includes tabs extending from the housing sidewall 204 or the support structure 208. In the examples shown in Figures 2A–E (best shown in Figure 2E), the support structure 208 includes one or more tabs 220a configured to connect with the cartridge 300. The connector 220 may also include one or more magnets 220b, such as neodymium-based magnets, configured to contact the magnets in the cartridge 300.

[0014] In one example, the battery module 200 includes one or more seals to restrict the airflow through the battery module 200 and thereby guide air through one or more cartridges 300. The one or more seals may be made of rigid or semi-rigid plastic or a flexible plastic such as silicone. In a specific example shown in Figures 2A-E (most commonly seen in Figures 2D-E), the battery module 200 includes a seal 222a located between the battery cell 210 and the housing bottom wall 206, and additional seals 222b / 222c located inside the housing 202.

[0015] In one example, the battery module 200 also includes a microphone 224. The microphone is configured to emit a low battery sound, for example, according to instructions on PCB 214. The use of the microphone in combination with PCB 214 in this manner is well known and will not be described further herein.

[0016] Figure 2F shows another example of a battery module 200'. The illustrative battery module 200' in Figure 2F can be used in place of the battery module 200 described above, along with any of the other components of the vaporizer 100 described herein. The illustrative battery module 200' is similar to the battery module 200, but certain features are described in detail below. It should be understood that any feature of the battery module 200 can be used with the battery module 200', and vice versa.

[0017] In this example, the battery module 200' includes a housing 202', which includes a base 204' and a side wall 206'. In this example, the base 204' includes a bottom wall. The base 204' also includes an angled step 204a that connects to the bottom edge 206a of the side wall 206'. The support structure 208' is positioned on the side wall 206'. In this example, the support structure 208' is a generally flat structure having a shape that generally conforms to the installation area of ​​the base 204'. In a particular example, the support structure 208' includes a tab 209a configured to be accommodated in an opening 209b of the base 204' in order to connect the support structure 208' to the base 204'.

[0018] The battery module 200' also includes the battery cell 210.

[0019] PCB 214' is housed in the base 204'. In this example, PCB 214' has a periphery that follows the installation area on the base 204'. The battery module 210 is positioned between PCB 214' and the support structure 208'. PCB 214' may include a display 216.

[0020] In some examples, one or more seals 222a' / 222b' are placed between the PCB 214' and the base 204'. Similarly, one or more seals 222c' / 222d' are placed between the support structure 208' and the battery cell 210 / side wall 206', respectively. An optional air regulating valve 223 may also be placed between the PCB 214' and the base 204'. The air regulating valve 223 controls the airflow through the vaporizer 100.

[0021] The battery module 200' also includes a connector 220, such as a magnet, for connecting the battery module 200' to the cartridge 300 / 300', as described herein.

[0022] The battery module 200’ also includes electrodes 218’ that transfer energy from the battery cells 210 to one or more cartridges 300 / 300’ as detailed below. The electrodes 218’ interact with the terminals of the battery cells 210 as is well known in the art. In the example of FIG. 2F, three electrodes 218’ are included, but the number of electrodes 218’ can be more or less than this. In this example, the electrodes 218’ are supported in an opening 219 of the support structure 208’. In this example, the electrodes 218’ are spring electrodes, but it should be understood that copper electrodes can also be used.

[0023] Next, referring to FIGS. 3A - F, the cartridge 300 will be described. FIG. 3A shows a top view of the cartridge 300. FIG. 3B shows a bottom view of the cartridge. FIG. 3C shows a side view of the cartridge. FIGS. 3D - E show perspective views of the cartridge. FIG. 3F shows an exploded view of the cartridge. The cartridge 300 includes a housing 302 having side walls 304, a bottom wall 306, and a top wall 308. In a particular example, the side walls 304 and the bottom wall 306 are made of rigid or semi - rigid plastic, and the top wall 308 is made of flexible silicone. In this example, the top wall 308 provides a seal to facilitate the flow of air through the vaporizable material within the cartridge 300, which will be described in detail below.

[0024] In one example, the cartridge 300 includes a step S between the bottom wall 306 and the side walls 304, whereby the bottom of the cartridge 300 has a smaller diameter than the rest of the cartridge 300. The smaller - diameter bottom is configured to be received in the pocket P of the battery module 200 as described above. At the same time, the side walls 304 project from the top wall 308 to form a pocket P similar to the pocket P of the battery module 200 (best shown in FIG. 3E). Thus, a first cartridge 300a can accommodate the smaller - diameter portion of a second cartridge 300b, and as shown in FIGS. 1A - B, multiple cartridges can be used in series.

[0025] Cartridge 300 also contains a vaporizable substance disposed within housing 302. In one example, the vaporizable substance is dispersed in a liquid absorbed by a wick 310. Wick 310 includes an opening 312 configured to house a heating element, which will be described in more detail below. In other examples, the vaporizable substance may be provided in other forms. Wick 310 may be constructed of an absorbent material such as cotton, like polypropylene or polyethylene or a combination thereof.

[0026] Cartridge 300 includes a first set of electrodes 314a configured to interact with electrodes 218 within battery module 200 to transfer energy in the form of thermal energy from battery module 200 to the vaporizable substance within cartridge 300. The interaction includes direct contact. A heating element 316, such as a coil, is configured to receive heat from electrodes 314a. In one example, heating element 316 is a nichrome coil.

[0027] Cartridge 300 also includes a second set of electrodes 314b configured to transfer thermal energy received at the first set of electrodes 314a in the first cartridge 300a / 300b / 300c to another cartridge 300a / 300b / 300c connected to the first cartridge 300a / 300b / 300c, as shown in FIGS. 1A - B. In this way, a plurality of cartridges 300a / 300b / 300c can be connected in series to a common battery module 200, thereby allowing for customization of flavor / aroma / active ingredients as described above. Electrodes 314a / 314b may be the same or different. In one example, electrodes 314a / 314b are copper electrodes. One or both of the first and second sets of electrodes 314a / 314b may be copper coil electrodes.

[0028] When a wick 310 is used, the heating element 316 is configured to be at least partially housed in the opening 312 of the wick 310. Otherwise, the heating element 316 is positioned adjacent to the vaporized material in the cartridge 300 to heat the vaporized material. In one example, the heating element 316 is at least partially housed in a protective tube 318, such as a fiberglass tube, which prevents the wick 310 from coming into direct contact with the heating element 316 and minimizes the possibility of the wick 310 overheating and burning or charring.

[0029] In one example, the cartridge 300 includes a seal 318 positioned between the bottom wall 306 and the wick 310. The seal 318 facilitates the flow of air through the wick 310 and the vaporized material within it.

[0030] In one example, cartridge 300 includes a connector 320 configured to engage with another cartridge 300 and / or battery module 200. For example, the connector 320 includes one or more magnets 320a, such as neodymium magnets, which are capable of interacting with a magnet 220b in the battery module 200 to connect the battery module 200 to cartridge 300. The magnets 320a may be configured to interact with magnets 320a in other cartridges 300. In some examples, the connector 320 also includes an opening 320b configured to receive a tab 220a in the aforementioned battery module 200. In some examples, the connector 320 includes a tab 320c. The tab 320c is configured to contact a mouthpiece 400, which is described below. The tab 320c is housed in the opening 320b of another cartridge 300 to connect multiple cartridges 300a / 300b / 300c to each other.

[0031] In some examples, the cartridge 300 includes a PCB 322 with a display 324 (best shown in Figure 3A) configured to display information such as the amount of vaporized material remaining in the cartridge 300. The PCB 322 is housed in a pair of rails 305 on the housing side wall 304.

[0032] In some examples, the cartridge 300 includes a cotton pad 326 on its upper wall 308 to absorb any vaporized material that may be released from the cartridge 300 during use.

[0033] In some examples, the cartridge 300 may include a button 328. The button 328 is operable to affect the power / voltage received by the heating element 316 via the first set of electrodes 314a, as described above. The button 328 is then operable to increase the amount of flavor / aroma / active ingredients provided to the user by the cartridge 300, since the amount of power / voltage received by the heating element 316 directly relates to the amount of flavor / aroma / active ingredients provided to the user. In other words, the more power / voltage supplied to the heating element 316, the more flavor / aroma / active ingredients are vaporized by the heating element 316, and the more flavor / aroma / active ingredients are provided to the user. Thus, by pressing the button 328, the user can select one of several cartridges 300 to highlight while using the vaporizer 100.

[0034] Figure 3G shows an example of another cartridge 300'. The example cartridge 300' in Figure 3G can be used in place of the cartridge 300 described herein, along with any of the other components of the vaporizer 100 described herein. The example cartridge 300' is similar to cartridge 300, but certain features are described in detail below. It should be understood that any feature of cartridge 300 can be used with cartridge 300', and vice versa.

[0035] The cartridge 300' includes a housing 302' which includes a bottom wall 306' and a side wall 304'. The side wall 304' includes a top wall 308'. The core 310 is placed inside the core housing 311, which is then placed inside the housing 302'. In this example, seals 318' are placed between the core 310 / core housing 311 and the bottom wall 306', and between the core 310 / core housing 311 and the side wall 304', respectively. In some examples, the seals 318' may be silicone seals.

[0036] Cartridge 300' also includes PCB 314. In this example, PCB 314 is supported by an opening 306a' in the bottom wall 306'.

[0037] Cartridge 300' also includes a pair of electrodes 314a' configured to interact with electrodes 218 / 218' in battery modules 200 / 200' to transfer energy in the form of thermal energy from battery modules 200 / 200' to vaporized material in cartridge 300 / 300'. In this example, the pair of electrodes 314a' has three electrodes, but the number of electrodes may be greater or less. In this example, the electrodes are spring electrodes, but copper electrodes / copper coil electrodes may be used. In this example, the electrodes are supported by openings 306b' in the bottom wall 306'. Electrodes 314a' are operable to transfer energy to other cartridges, similar to the second pair of electrodes 314b in cartridge 300 described above, although in other examples, another pair of electrodes may be used in cartridge 300', similar to cartridge 300' described above.

[0038] The cartridge 300 also includes a heating element 316'. In one example, the heating element 316' may be at least partially housed in the core housing 311 and extend through the openings of one or both seals 318'.

[0039] Cartridge 300' also includes a connector 320', such as a magnet, for connecting to another cartridge 300 / 300' and / or battery module 200 / 200'.

[0040] In some examples, cartridge 300' may include button 328.

[0041] In some examples, the cartridge 300' includes a PCB 314, a button 328, and / or one or more LED lights 330 associated with a battery module 200 / 200', as is well known in the art. When the button 328 is pressed, one or both of the LED lights 330 can be activated via the PCB 314 to provide a display to the user. In other examples, more or fewer LED lights 300 may be used.

[0042] The LED lights 330 can also provide other indications to the user. For example, one or both of the LED lights 300 can light up in a color such as green to indicate that the vaporizer 100 is on. Another example is that one or both of the LED lights 330 can light up in a first color to indicate that the battery cell 210 is charging, and light up in a different color to indicate that the battery cell 210 is fully charged. Yet another color, such as red, can be used to indicate that the battery cell 210 needs charging. In one example, flashing can also be used as an indicator. For example, a flashing red light can indicate a malfunction in the vaporizer 100.

[0043] In another example where more LED lights 330 are used, such as four lights, the lights can also flash in sequence to indicate a specific number. For example, the lights could flash in a specific order, such as 1-2-3-4, with each LED light 300 corresponding to a number to indicate the first number, and then flash in a different order, such as 4-3-2-1, to indicate the second number. The lights can also be used in combination to indicate the battery power. For example, if two of the four lights are lit, it indicates that the battery cell 210 is half charged.

[0044] Next, an optional mouthpiece 400 will be described with reference to Figures 4A-B. The optional mouthpiece 400 includes an upper part 402 and an outlet 404 extending from the upper part 402. The mouthpiece 400 may also include a filter piece 406 made of a paper-like material such as a polypropylene or polyethylene-based material for filtering the output from one or more cartridges 300. The mouthpiece 400 also includes a silicone plug 408 at the outlet 404, which improves user comfort when using the mouthpiece 400. The mouthpiece also includes a connector 410 configured to connect the mouthpiece to the cartridge 300. For example, the connector 410 may include a magnet 410a, such as a neodymium magnet, configured to interact with the magnet 320a in the cartridge 300. The connector 410 may also include an opening 410b configured to receive the tab 320c of the aforementioned cartridge 300.

[0045] During operation, the user applies suction to the mouthpiece 400 via the outlet 404, drawing air through one or more cartridges 300a / 300b / 300c. The battery module 200 heats the vaporizable substance in the heating element 316 to vaporize it. The vaporized substance enters the person's mouth along with the air. If multiple cartridges 300a / 300b / 300c are used, the air contains a mixture of vaporized substances from each cartridge 300a / 300b / 300c. In other examples where the mouthpiece 400 is not used, other means of drawing air through the cartridges, such as the fan or nozzle described above, can be used.

[0046] Figure 4C shows an example of another mouthpiece 400'. Mouthpiece 400' is similar to mouthpiece 400' except that the outlet 404 is centrally located relative to the rest of mouthpiece 400, whereas in mouthpiece 400' the outlet 404 is offset from the center.

[0047] Figures 5A-C show the tobacco adapter 500. Figures 5A-B show the front and side views of the tobacco adapter 500, and Figure 5C shows an exploded view of the tobacco adapter 5C. The tobacco adapter can be used as a vaporizer with one or more cartridges 300 / 300' and battery modules 200 / 200'. In certain examples, the tobacco adapter 500 is configured to be used with at least one, or in further examples at least two, cartridges 300 / 300' detachably coupled to the vaporizer.

[0048] The cigarette adapter 500 includes a housing 502 having a bottom 504 and side walls 506, and in some examples, both the bottom 504 and side walls 506 are made of plastic. The cigarette adapter 500 also includes a support structure 508a / 508b which is located within the housing 502 and is configured to hold other components in place.

[0049] The tobacco adapter 500 also includes a battery cell 510 similar to the battery cell 210 described above. The battery cell 510 supplies power to the heating element 516, which will be described later.

[0050] The cigarette adapter 500 also includes a cup 512 positioned within the housing 502 and configured to receive the distal end of a cigarette 514. The cup 512 may be a plastic cup. In some examples, the distal end of the cigarette 514 also passes through an opening 503 in the housing 502 when it is housed in the cup 512.

[0051] The heating element 516 is positioned near the cup 512 and is configured to heat the tobacco 514 by transferring heat via power from the battery cell 510. Powering the heating element 516 using the battery 510 is well known in the art, but as an example, as described above, energy can be transferred from the battery 510 to the heating element 516 using electrodes. The heating element 516 heats the tobacco more gently rather than burning or igniting it to produce nicotine-containing vapor.

[0052] The tobacco adapter also includes a PCB 518 configured to interact with a battery cell 510, a heating element 516, and / or a button 524 (described later), similar to the PCBs 214 / 314 described above.

[0053] The cigarette adapter 500 may also include one or more seals 520 for restricting the airflow through the battery module 200 and thereby guiding the air through one or more cartridges 300 / 300'. In the example of Figure 5C, a first seal 520a is associated with the bottom wall 504 and a second seal 502b is associated with the side wall 506. The second seal 520b includes an opening 521 configured to receive the distal end of a cigarette 514.

[0054] The cigarette adapter 500 also includes a button 524 having the function of any of the buttons described above.

[0055] The cigarette adapter 500 also includes a mouthpiece 400 / 400'. While the example in Figure 5C shows a mouthpiece like mouthpiece 400', it should be understood that mouthpiece 400 can also be used. The outlet 404 is configured to receive the proximal end of the cigarette 514.

[0056] The tobacco adapter 500 also includes a tube 522. The tube 522 is a conduit for vapor from one or more cartridges 300 / 300' to flow into the mouthpiece 400 / 400'. In this way, the nicotine-containing vapor from the tobacco 514 and the vapor from one or more cartridges 300 / 300' are mixed and delivered to the user at the mouthpiece 400 / 400'. In certain examples, the vapor from cartridges 300 / 300' provides a flavor that is mixed with the nicotine-containing vapor.

[0057] The tobacco adapter 500 also includes connectors such as a magnet 526 for connecting the tobacco adapter to the cartridge 300 / 300' and mouthpiece 400 / 400'.

[0058] The operation of the tobacco adapter 500 is similar to that of the vaporizer 100. When the user inhales air through the mouthpiece, the user inhales a combination of vapor from one or more cartridges 300 / 300' and tobacco 514.

[0059] It should be understood that even if not shown in Figure 5C, the tobacco module 500 may include any of the above functions, including LED lights, a charging port, etc. For example, as shown in Figure 5B, the tobacco module includes four LED lights 330 and an on / off switch.

[0060] Having sufficiently described at least one embodiment of the present invention, other equivalent or alternative designs according to the present invention will become apparent to those skilled in the art. While the embodiments of the present invention disclosed herein constitute currently preferred embodiments, many other embodiments are also possible. This specification is not intended to refer to all possible equivalent or derived forms of the present invention. The terms used herein are not limiting but merely descriptive, and it should be understood that various modifications can be made without departing from the spirit or scope of the invention.

Claims

1. It is configured to heat tobacco to produce nicotine-containing vapor, and includes a tobacco adapter with a mouthpiece, At least one cartridge containing a vaporizing substance that includes flavor, Equipped with, A vaporizer in which the cartridge is detachably connected to the tobacco adapter, thereby enabling the tobacco adapter to receive vapor from the vaporizer and to provide the vapor from the vaporizer together with the nicotine-containing vapor to the mouthpiece.

2. The vaporization apparatus according to claim 1, characterized in that the vaporizable substance is in the liquid absorbed into the wick.

3. The vaporizer according to claim 1, characterized in that at least one cartridge is detachably connected to the tobacco adapter by at least one magnet.

4. The vaporizer according to claim 1, wherein the at least one cartridge is a first cartridge, the flavor is a first flavor, and the vaporizer further comprises a second cartridge detachably connected to the first cartridge, thereby enabling a tube to receive vapor from the second cartridge.

5. The vaporizer according to claim 1, characterized in that the second cartridge comprises a vaporizable substance containing a second flavor.

6. The vaporizer according to claim 1, characterized in that the first flavor is different from the second flavor.

7. The vaporizer according to claim 1, characterized in that the second cartridge is detachably connected to the first cartridge by at least one magnet.

8. The vaporizer according to claim 7, further comprising a battery module that is detachably connected to the second cartridge and is operable to supply power to the first and second cartridges.

9. The vaporizer according to claim 1, further comprising a battery module capable of supplying power to at least one of the cartridges.

10. The vaporizer according to claim 1, characterized in that the battery module is detachably connected to the at least one cartridge.

11. A cartridge containing a flavored vaporizing substance is detachably connected to the tobacco adapter. Thermal energy is supplied to the tobacco adapter to generate nicotine-containing vapor, The flavored vapor is generated by supplying thermal energy to the cartridge so that the flavored vapor and the nicotine-containing vapor are supplied together to the mouthpiece. A method for using a vaporizer equipped with the following features.

12. The method of using the vaporizer according to claim 11, characterized in that the thermal energy is supplied from the battery cell in the tobacco adapter to the tobacco adapter.

13. The method of using the vaporizer according to claim 11, characterized in that the thermal energy is supplied to the cartridge from a battery module detachably connected to the cartridge.

14. The cartridge is the first cartridge, and the flavor is the first flavor. A second cartridge containing a vaporizing substance having a second flavor is removably connected to the first cartridge. The second cartridge is supplied with thermal energy to generate flavored vapor from the second cartridge so that the flavored vapor from the second cartridge, the flavored vapor from the first cartridge, and the nicotine-containing vapor are supplied together to the mouthpiece. A method of using the vaporizer according to claim 11, further comprising the above.

15. The method of using the vaporizer according to claim 14, characterized in that the second flavor is different from the first flavor.

16. Replace one of the first and second cartridges with the third cartridge. Thermal energy is supplied to the third cartridge so that the flavored vapor from the third cartridge, the flavored vapor from the first cartridge, and the nicotine-containing vapor are supplied together to the mouthpiece. A method of using the vaporizer according to claim 15, further comprising the above.

17. The method of using the vaporizer according to claim 14, characterized in that the second cartridge is detachably connected to the first cartridge by at least one magnet.

18. The method of using the vaporizer according to claim 11, characterized in that the cartridge is detachably connected to the tobacco adapter by at least one magnet.

19. A method of using the vaporizer according to claim 11, characterized in that the tobacco is not burned.

20. The method of using the vaporizer according to claim 11, characterized in that the vaporizable substance is in the liquid absorbed into the wick.