 AEROSOL AND CARTRIDGE GENERATION SYSTEM TO STORE A LIQUID AEROSOL FORMING SUBSTRATE
专利摘要:
aerosol generation system with leak prevention. the present invention relates to an aerosol generating system for heating a liquid aerosol-forming substrate. the system includes a liquid storage part (113) for storing the liquid aerosol forming substrate (115) and the leak prevention device configured to prevent or reduce the leakage of the liquid aerosol forming substrate from the water storage part liquid. the leak prevention device may comprise one or more of a porous plug at least partially located within the liquid storage part and a capillary wick (117), and sealing devices between the liquid storage part and an electrical connector of a electric heater (119) 公开号:BR112013013024B1 申请号:R112013013024-5 申请日:2011-12-01 公开日:2020-08-04 发明作者:Michel THORENS;Jean - Marc Flick;Olivier Yves Cochand;Flavien Dubief 申请人:Philip Morris Products S.A; IPC主号:
专利说明:
[0001] The present invention relates to an aerosol generation system. In particular, the present invention relates to an aerosol generating system in which the aerosol-forming substrate is liquid. [0002] WO-A-2009/132793 describes an electrically heated smoke system. A liquid is stored in a liquid storage part, and a capillary wick has a first end that extends into the liquid storage part to come into contact with the liquid inside, and a second end that extends to out of the liquid storage part. A heating element heats the second end of the capillary wick. The heating element is in the form of an electric heating element wound in a spiral in electrical connection with a power supply, and surrounding the second end of the capillary wick. In use, the heating element can be activated by the user to turn on the power supply. Suction in a mouthpiece by the user causes the air to be drawn into the electrically heated smoke system through the capillary wick and heating element and subsequently into the user's mouth. [0003] The prior art aerosol generation systems, including electrically operated smoke systems mentioned above, have several advantages, but there is still an opportunity to improve the design. [0004] According to a first aspect of the invention, an aerosol generating system is provided for heating a liquid aerosol forming substrate, the system comprising: a liquid storage part for storing the liquid aerosol forming substrate; and leak prevention means configured to prevent or reduce leakage of the liquid aerosol-forming substrate from the liquid storage part. [0005] The aerosol generation system is arranged to evaporate the aerosol-forming substrate to form the aerosol. The aerosol generating system can include the aerosol-forming substrate or can be adapted to receive the aerosol-forming substrate. As known to those skilled in the art, an aerosol is a suspension of solid particles or droplets of liquid in a gas, such as air. [0006] An advantage of the invention is that leakage of liquid from the liquid storage part is prevented and at least substantially reduced. Minimization, or preferably prevention, leakage is important to avoid wasting liquid aerosol-forming substrate. Furthermore, leakage of liquid aerosol-forming substrate can create contamination, for example, when different aerosol-forming substrates are used consecutively. In addition, the liquid aerosol forming substrate that has leaked from the liquid storage part can flow out of the aerosol generation system and cause inconvenience to the user. For example, the aerosol generation system can become wet or sticky. [0007] The liquid aerosol-forming substrate preferably has physical properties, for example, boiling point and vapor pressure, suitable for use in the aerosol generation system. If the boiling point is too high, it may not be possible to evaporate the liquid, but if the boiling point is too low, the liquid can evaporate very quickly. The liquid preferably comprises a tobacco containing material comprising volatile tobacco flavored compounds which are released from the liquid upon heating. Alternatively, or in addition, the liquid may comprise a tobacco-free material. The liquid can include water, solvents, ethanol, plant extracts, nicotine solutions and natural or artificial flavorings. Preferably, the liquid further comprises an aerosol former. Examples of suitable aerosol builders are glycerin and propylene glycol. [0008] An advantage of providing a liquid storage part is that the liquid in the liquid storage part is protected against ambient air (since air cannot generally enter the liquid storage part) and in some modalities, light, so that the risk of liquid degradation is significantly reduced. In addition, a high level of hygiene can be maintained. The liquid storage part may not be refillable. Thus, when the liquid in the liquid storage part has been fully used, the aerosol generation system is replaced. The leak prevention device prevents contamination when the liquid storage part is replaced. Alternatively, the liquid storage part can be refillable. In that case, the aerosol generation system can be replaced after a certain number of refills of the liquid storage part. Preferably, the liquid storage part is arranged to hold the liquid for a predetermined number of drinks. [0009] In one embodiment, the leak prevention device comprises a porous plug at least partially located within the liquid storage part. [00010] The provision of a porous plug at least partially within the liquid storage part minimizes the free liquid. This reduces the likelihood that the liquid will leak from the liquid storage part in any way. The porous plug can comprise any suitable material or combination of materials that can retain the liquid aerosol-forming substrate, but is also inert with respect to the liquid aerosol-forming substrate. The particularly preferred material or materials will depend on the physical properties of the liquid aerosol forming substrate. Examples of suitable materials are a capillary material, for example, a foam or foam material, ceramic or graphite based materials in the form of sintered fibers or powders, a foamed metal or plastic material, a fibrous material, for example, made of fibers extruded, such as cellulose acetate, polyester, or bonded polyolefin, polyethylene, terylene or polypropylene fibers, nylon or ceramic fibers. The porous plug can have any suitable shape. More preferably, however, the porous plug substantially fills the cavity of the liquid storage part in order to minimize the free liquid. [00011] The aerosol generating system may additionally comprise a capillary wick for transporting the liquid aerosol-forming substrate from the liquid storage part. [00012] Preferably, the capillary wick is arranged to be in contact with the liquid in the liquid storage part. Preferably, the capillary wick extends into the liquid storage part. In this case, in use, the liquid is transferred from the liquid storage part by the capillary action on the capillary wick. In one embodiment, the liquid at one end of the capillary wick is evaporated to form supersaturated vapor. The supersaturated steam is mixed with and transported in the air flow. During the flow, the vapor condenses to form the aerosol and the aerosol is transported towards a user's mouth. The liquid aerosol-forming substrate has physical properties, including surface tension and viscosity, which allow the liquid to be transported through the capillary wick by capillary action. [00013] The capillary wick may have a fibrous or spongy structure. The capillary wick preferably comprises a bundle of capillaries. For example, the capillary wick may comprise a plurality of fibers or threads or other fine orifice tubes. The fibers or threads can generally be aligned in the longitudinal direction of the aerosol generation system. Alternatively, the capillary wick may comprise sponge or foam-like material, formed into a rod shape. The shape of the rod can extend along the longitudinal direction of the aerosol generation system. The wick structure forms a plurality of holes or small tubes, through which the liquid can be transported by capillary action. The capillary wick can comprise any suitable material or combination of materials. Examples of suitable materials are capillary materials, for example, a sponge or foam material, ceramic or graphite-based materials in the form of sintered fibers or powders, foamed metal or plastic material, a fibrous material, for example, made from rolled fibers or extruded, such as cellulose acetate, polyester or joined polyolefin, polyethylene, terylene or polypropylene fibers, nylon or ceramic fibers. The capillary wick can have any suitable capillarity and porosity to be used with different physical liquid properties. The liquid has physical properties, including, but not limited to viscosity, surface tension, density, thermal conductivity, boiling point and vapor pressure, which allow the liquid to be transported through the capillary device by capillary action. The physical properties of the liquid aerosol-forming substrate can also affect pouring behavior. [00014] In a preferred embodiment, the aerosol generation system comprises a porous plug at least partially located within the liquid storage part and a capillary wick to transport the liquid aerosol forming substrate from the liquid storage part . In that case, the porous plug and the capillary wick may comprise the same or different materials. Preferably, the capillary wick is arranged to extend into the porous plug that is within the liquid storage part. Preferably, the capillary wick extends into substantially the center of the porous plug. The capillary wick and the porous plug are preferably in contact, since they provide a liquid transfer boot. The capillary wick and the porous plug can be provided as a single integral capillary element, partially located within the liquid storage part to retain liquid, and partially extending out of the liquid storage part to carry the aerosol forming substrate liquid by capillary action. Alternatively, the capillary wick and the porous plug can be separated. [00015] If the aerosol generating system comprises a capillary wick, the leak prevention device may comprise sealing devices between the liquid storage part and the capillary wick. Such a sealing device, particularly in combination with a porous plug, provides improved leak prevention. [00016] In one embodiment, the sealing device comprises the sealing material substantially surrounding the capillary wick. Preferably, the capillary wick is located partially within the liquid storage part to contact the liquid in the liquid storage part. In that case, preferably, the sealing device comprises the sealing material at the junction between the liquid storage part and the capillary wick. The sealing device can be in the form of a sealing ring. [00017] The sealing device can be particularly important if a porous plug located at least partially within the liquid storage part is provided and the capillarity of the porous plug is different from the capillarity of the capillary wick. In that case, a capillarity or capillary resistance gradient will form between the porous plug in the liquid storage part and the capillary wick, which can force the liquid to move from the liquid storage part towards the capillary wick. [00018] In a preferred embodiment, the sealing device is created by placing the wick inside an injection mold and injecting a suitable sealing material around the capillary wick. When the capillary wick is located in the liquid storage part, the sealing device is positioned at the junction between the liquid storage part and the capillary wick. [00019] The sealing device preferably seals substantially any space between the liquid storage part and the capillary wick. In this way, if any liquid starts to leak out of the liquid storage part, the sealing device will prevent any liquid, or reduce the amount of liquid that comes out of the liquid storage part and capillary wick. If the sealing device is provided in addition to a porous plug, any liquid that escapes from the porous plug can be contained by the sealing device. [00020] The sealing device can comprise any suitable sealing material or combination of sealing materials. The material can be the same material or a different material than the material of the liquid storage part. [00021] Preferably, the aerosol generation system is electrically operated. The electrically operated aerosol generation system may additionally comprise an electric heater to heat the liquid aerosol-forming substrate. [00022] The electric heater may comprise a single heating element. Alternatively, the electric heater may comprise more than one heating element, for example, two, three, four, five or six or more heating elements. The heating element or heating elements can be arranged appropriately in order to effectively heat the aerosol forming substrate. [00023] At least one electrical heating element preferably comprises an electrically resistive material. Suitable electrically resistive materials include, but are not limited to: semiconductors such as coated ceramics, electrically "conductive" ceramics (such as, for example, molybdenum disilicide), carbon, graphite, metals, metal alloys and composite materials made of a material ceramic and a metallic material. Such composite materials may comprise coated or uncoated ceramics. Examples of suitable coated ceramics include coated silicon carbides. Examples of suitable metals include titanium, zirconium, tantalum, and platinum group metals. Examples of suitable metal alloys include stainless steel, constantan, alloys containing nickel, cobalt, chromium, aluminum, titanium, zirconium, hafnium, niobium, molybdenum, tantalum, tungsten, brass, gallium, manganese, and iron, and alloy based alloys based on nickel, iron, cobalt, stainless steel, Timetal®, ferro-aluminum alloys and ferro-manganese-aluminum alloys. Timetal® is a registered trademark of Titanium Metals Corporation, 1999 Broadway Suite 4300, Denver, Colorado. In composite materials, the electrically resistive material can optionally be embedded, encapsulated or coated with an insulating material or vice versa, depending on the energy transfer kinetics and necessary external physiochemical properties. The heating element may comprise an etched metallic sheet isolated between two layers of an inert material. In that case, the inert material may comprise Kapton®, polyimide or mica sheet. Kapton® is a registered trademark of E.l. du Pont de Nemours and Company, 1007 market Street, Wilmington, Delaware 19898, United States of America. [00024] Alternatively, at least one electric heating element can comprise an infrared heating element, a photonic source or an induction heating element. [00025] At least one electric heating element can take any suitable shape. For example, at least one electric heating element can take the form of a heating blade. Alternatively, at least one electrical heating element can take the form of a wrap or substrate having different electroconductive parts, or an electrically resistive metal tube. The liquid storage part may incorporate a disposable heating element. Alternatively, one or more heating needles or rods that travel through the liquid aerosol-forming substrate may also be suitable. Alternatively, at least one electric heating element can be a disc heater (end) or a combination of a disc heater with heating needles or rods. Alternatively, at least one electric heating element can comprise a sheet of flexible material. Other alternatives include a heating wire or filament, for example, a Ni-Cr, platinum, tungsten or alloy wire or a heating plate. Optionally, the heating element can be deposited on or on a rigid carrier material. [00026] At least one electric heating element may comprise a heat deposit, or heat reservoir comprising a material capable of absorbing and storing heat and subsequently releasing heat over time to heat the aerosol-forming substrate. The heat deposit can be formed from any suitable material, such as suitable metal or ceramic material. Preferably, the material has a high heating capacity (heat sensitive storage material), or is a material capable of absorbing and subsequently releasing heat through a reversible process, such as a high temperature phase change. Suitable heat-sensitive storage materials include silica gel, alumina, carbon, glass sheet, fiberglass, minerals, a metal or alloy such as aluminum, silver or lead, and a cellulose material such as paper. Other suitable materials that release heat through a reversible phase change include paraffin, sodium acetate, naphthalene, wax, polyethylene oxide, a metal, metal salt, a mixture of eutectic salts or an alloy. [00027] The heat tank or heat reservoir can be arranged so that it is directly in contact with the liquid aerosol forming substrate and can transfer the stored heat directly to the substrate. Alternatively, the heat stored in the heat tank or heat reservoir can be transferred to the aerosol-forming substrate by means of a heat conductor, such as a metal tube. [00028] At least one heating element can heat the aerosol-forming substrate by means of conduction. The heating element can be at least partially in contact with the substrate. Alternatively, the heat from the heating element can be conducted to the substrate by means of a heat conducting element. [00029] Alternatively, at least one heating element can transfer heat to the incoming ambient air that is removed through the aerosol generation system during use, which in turn heats the aerosol-forming substrate by convection. Ambient air can be heated before passing through the aerosol-forming substrate. Alternatively, the ambient air can first be drawn through the liquid substrate and then heated. [00030] In a preferred embodiment, the aerosol generation system comprises an electric heater and a capillary wick. In this embodiment, the capillary wick is preferably arranged to be in contact with the liquid in the liquid storage part. In use, the liquid is transferred from the liquid storage part towards the electric heater by the capillary action on the capillary wick. In one embodiment, the capillary wick has a first end and a second end, the first end extending into the liquid storage part to contact the liquid within it and the electric heater being arranged to heat the liquid at the second end. When the heater is activated, the liquid at the second end of the capillary wick is evaporated by the heater to form supersaturated steam. Supersaturated steam is mixed with and transported in the air stream. During the flow, the vapor condenses to form the aerosol and the aerosol is transported towards a user's mouth. [00031] The liquid storage part, and optionally the capillary wick and the heater, can be removable from the aerosol generation system as a single component. [00032] The aerosol generation system may additionally comprise at least one electrical connector for the heater. In that case, the leak prevention device may comprise sealing means between the liquid storage part and at least one of the electrical connectors. [00033] In one embodiment, the sealing device comprises the sealing material substantially surrounding one or both electrical connectors. The sealing device can be in the form of one or more sealing rings. In one embodiment, the electrical connectors are located outside the liquid storage part. In that case, preferably, the sealing devices comprise sealing material in the contact between the liquid storage part and the electrical connectors. In a preferred embodiment, the sealing device is created by placing each electrical connector inside an injection mold and injecting a suitable sealing material around the connector. [00034] The sealing device substantially prevents the liquid from running down the electrical connectors. In this way, if any liquid starts to leak out of the liquid storage part, the sealing device will prevent any liquid, or reduce the amount of liquid, that flows into the system. If the sealing device between the liquid storage part and at least one of the electrical connectors is provided in addition to the sealing device between the liquid storage part and the capillary wick, any liquid that is not contained by the sealing devices sealing between the liquid storage part and the capillary wick can be contained by the sealing devices between the liquid storage part and the electrical connectors. If the sealing device between the liquid storage part and at least one of the electrical connectors is provided in addition to a porous plug, any liquid that escapes from the porous plug can be contained by the sealing device. [00035] The sealing device can comprise any suitable sealing material. The material can be the same material or a different material than the material of the liquid storage part. [00036] The aerosol generating system may additionally comprise a vaporizer connected to the liquid storage part to evaporate the liquid aerosol forming substrate, and the leak prevention device can be configured to prevent or reduce the leakage of the substrate from aerosol formation of the liquid storage part and the vaporizer. [00037] In a preferred embodiment, the vaporizer comprises the capillary wick for carrying the liquid aerosol-forming substrate of the liquid storage part, the capillary wick having a first end extending into the liquid storage part and a second end opposite the first end, and the electric heater to heat the liquid aerosol-forming substrate at the second end of the capillary wick. However, the invention is not limited to heater evaporators, but can be used in aerosol generating systems in which the resulting steam and aerosol are generated by a mechanical vaporizer, for example, but not limited to a piezo vaporizer or a vaporizer using pressurized liquid. [00038] The aerosol generation system can comprise at least one air intake. The aerosol generation system can comprise at least one air outlet. The aerosol generating system may comprise an aerosol forming chamber between the air inlet and the air outlet in order to define an air flow path from the air inlet to the air outlet through the aerosol forming chamber. , in order to carry the aerosol to the air outlet and into a user’s mouth. The aerosol forming chamber simply assists or facilitates the generation of the aerosol. [00039] The aerosol generation system can be electrically operated and can additionally comprise an electrical energy supply. The aerosol generating system may additionally comprise an electrical circuit assembly. In one embodiment, the electrical circuit assembly comprises a sensor to detect the air flow indicative of a user inhaling on a cigarette. In that case, preferably, the electrical circuit assembly is arranged to provide a pulse of electrical current to the electrical heater when the sensor senses that a user is swallowing. Preferably, the time period of the electric current pulse is predetermined, depending on the amount of liquid desired to be evaporated. The electrical circuit assembly is preferably programmed for this purpose. Alternatively, the electrical circuit assembly may comprise a manually operated switch for a user to initiate a drag. The time period of the electric current pulse is preferably predetermined depending on the amount of liquid desired to be evaporated. The electrical circuit assembly is preferably programmable for this purpose. [00040] Preferably, the aerosol generating system comprises a housing. Preferably, the housing is elongated. If the aerosol generating system includes a capillary wick, the longitudinal axis of the capillary wick and the longitudinal axis of the housing can be substantially parallel. The housing may comprise a casing and a nozzle. In this case, all components can be contained in the wrap or the nozzle. In one embodiment, the housing includes a removable insert comprising the liquid storage part, the capillary wick and the heater. In this embodiment, these parts of the aerosol generation system can be removed from the housing as a single component. This can be useful for replenishing or replacing the liquid storage part, for example. [00041] The housing can comprise any suitable material or combination of materials. Examples of suitable materials include metals, alloys, plastics or composite materials containing one or more of these materials or thermoplastics that are suitable for food or pharmaceutical applications, for example, polypropylene, polyetheretherketone (PEEK) and polyethylene. Preferably, the material is light and not fragile. [00042] In a particularly advantageous embodiment, the aerosol generation system further comprises: a first end having a nozzle; a second end opposite the first end; an electrical power supply and an electrical circuit set arranged at the second end; a capillary wick for carrying the liquid aerosol forming substrate of the liquid storage part, the capillary wick having a first end extending into the liquid storage part and a second end opposite the first ex-tremor; and an electric heater, connected to the electricity supply, to heat the liquid aerosol-forming substrate at the second end of the capillary wick; wherein the liquid storage part, the capillary wick and the electric heater are arranged at the first end of the aerosol generation system. [00043] Preferably, the aerosol generation system is portable. The aerosol generation system can be a smoke system and can be comparable in size to a conventional cigarette or cigar. The smoke system can have a total length between approximately 30 mm and approximately 150 mm. The smoke system can have an outside diameter between approximately 5 mm and approximately 30 mm. [00044] Preferably, the aerosol generation system is an electrically operated smoke system. [00045] According to a second aspect of the invention, a cartridge is provided for storing a liquid aerosol forming substrate, for use with an aerosol generating system to heat the liquid aerosol forming substrate, the cartridge comprising : a container for the storage of the liquid aerosol-forming substrate; and leak prevention means configured to prevent or reduce leakage of the liquid aerosol-forming substrate from the container. The cartridge can be used with the aerosol generating system of the first aspect of the invention. [00046] In one embodiment, the leak prevention device comprises a porous plug at least partially located within the container. The properties of such a porous plug have already been discussed. [00047] The cartridge may additionally comprise a capillary wick for carrying the liquid aerosol-forming substrate of the container. The properties of such a capillary wick have already been discussed. [00048] If the cartridge comprises a capillary wick, the leak prevention device may comprise sealing devices between the container and the capillary wick. The properties of such sealing devices have already been discussed. [00049] The cartridge may additionally comprise an electric heater to heat the liquid aerosol-forming substrate, the electric heater being connectable to an electrical power supply in the aerosol generation system. The properties of such an electric heater have already been discussed. [00050] The cartridge can additionally comprise at least one electrical connector for the heater. In that case, the leak prevention device may comprise sealing devices between the container and at least one of the electrical connectors. The properties of such sealing devices have already been discussed. [00051] The cartridge can additionally comprise a vaporizer connected to the container to evaporate the liquid aerosol forming substrate, and the leak prevention device can be configured to prevent or reduce the leakage of the liquid aerosol forming substrate from the container and the vaporizer. [00052] In a preferred embodiment, the vaporizer comprises the capillary wick for carrying the liquid aerosol-forming substrate of the container, the capillary wick having a first end extending into the container and a second end opposite the first end, and the electric heater to heat the liquid aerosol-forming substrate at the second end of the capillary wick. [00053] The features described with respect to the aspect of the invention may be applicable to another aspect of the invention. [00054] The invention will be further described, by way of example only, with reference to the attached figures, in which: Figure 1 illustrates an example of an aerosol generating system having a liquid storage part; Figure 2 is a perspective view of a liquid storage part according to an embodiment of the invention; Figure 3 is a schematic cross-sectional view of the liquid storage part of Figure 2; Figure 4 is a perspective view of the porous plug shown in Figure 3; Figure 5 is a perspective view of a liquid storage part according to another embodiment of the invention; Figure 6 is a schematic cross-sectional view of the liquid storage part of Figure 5; and Figure 7 is a schematic cross-sectional view of a liquid storage part, for example, along line VII-VII of figure 5. [00055] Figure 1 illustrates an example of an aerosol generation system having a liquid storage part. In figure 1, the system is an electrically operated smoke system. The smoke system 100 of figure 1 comprises a housing 101 having a first end which is the nozzle end 103 and a second end which is the body end 105. At the body end, an electrical power supply is provided in the form of battery 107 and electrical circuit assembly in the form of hardware 109 and swallowing detection system 111. At the end of the nozzle, a liquid storage part 113 in the form of cartridge containing liquid 115, a capillary wick 117 and a heater 119 is provided Note that the heater is only shown schematically in figure 1. In the illustrative embodiment shown in figure 1, one end of capillary wick 117 extends into cartridge 113 and the other end of capillary wick 117 is surrounded by the heater 119. The heater is connected to the electrical circuit assembly via connections 121, which can pass along the outside of the cartridge 113 (not shown in figure 1). Housing 101 also includes an air inlet 123, an air outlet 125 at the nozzle end, and an aerosol forming chamber 127. [00056] In use, the operation is as follows. The liquid 115 is transported by the capillary action of the cartridge 113 from the end of the wick 117 that extends into the cartridge to another end of the wick that is surrounded by the heater 119. When a user pulls the aerosol generating system at the outlet of air 125, the ambient air is passed through the air inlet 123. In the arrangement, illustrated in figure 1, the draft detection system 111 senses the draft and activates heater 119. Battery 107 supplies electricity to heater 119 to heat the end of the wick 117 surrounded by the heater. The liquid at that end of the wick 117 is evaporated by the heater 119 to create supersaturated steam. At the same time, the liquid being evaporated is replaced by more liquid moving along the wick 117 by the capillary action. (This is sometimes referred to as a “pumping action”). The supersaturated steam created is mixed with and transported in the air flow from the air inlet 123. In the aerosol forming chamber 127, the vapor condenses to form an inhalable aerosol, which is transported towards the outlet 125 and into the mouth of user. [00057] In the embodiment illustrated in figure 1, hardware 109 and drag detection system 111 are preferably programmable. Hardware 109 and draft detection system 111 can be used to manage the operation of the aerosol generation system. [00058] Figure 1 illustrates an example of an aerosol generation system according to the present invention. Many other examples are possible, however. The aerosol generation system simply needs to include or receive a liquid aerosol-forming substrate contained in a liquid storage part, and some type of leak prevention device (to be described below with reference to figures 2 to 7) configured to prevent or reduce leakage of the liquid aerosol-forming substrate from the liquid storage part. For example, the system does not need to be electrically operated. For example, the system does not have to be a smoke system. In addition, the system may not include a heater, in which case another device may be included to evaporate the liquid aerosol-forming substrate. For example, a draft detection system does not need to be provided. In fact, the system can operate by manual activation, for example, the user operating a switch when a draft is given. For example, the general shape and size of the accommodation can be changed. In addition, the system may not include a capillary wick. In that case, the system may include another liquid delivery mechanism for evaporation. [00059] However, in a preferred embodiment, the system includes a capillary wick for transporting liquid from the liquid storage part. The capillary wick can be made from a variety of porous or capillary materials and preferably has a known predefined capillarity. Examples include ceramic or graphite based materials in the form of sintered fibers or powders. Wicks of different porosities can be used to accommodate different physical properties of the liquid such as density, viscosity, surface tension and vapor pressure. The wick should be adequate so that the required amount of liquid can be distributed to the heater. [00060] As discussed above, according to the invention, the aerosol generation system includes leak prevention devices configured to prevent or reduce leakage of the liquid aerosol forming substrate from the liquid storage part. Various modalities of the invention, including leak prevention devices, will now be described with reference to figures 2 to 7. The modalities are based on the example illustrated in figure 1, although they are applicable to other modalities of the aerosol generation system. Note that figure 1 and figures 2 to 7 are schematic in nature. In particular, the illustrated components are not to scale individually or with respect to each other. [00061] Figure 2 is a perspective view of the liquid storage part 113, capillary wick 117 and heater 119, for inclusion in an aerosol generation system according to an embodiment of the invention. In figure 2, heater 119 is in the form of a heating coil surrounding and supporting capillary wick 117. The electrical connection blades 201 connect to each end of the heating coil. Connecting blades 201 run along the outside of the liquid storage portion in grooves 203. [00062] Figure 3 is a schematic cross section of the liquid storage part 113 and capillary wick 117 of figure 2. (The heater 119 and the electrical connection blades 201 are not illustrated in figure 3 for the sake of clarity). As can be seen in figure 3, the liquid storage part 113 contains a porous plug 301. The porous plug 301 is arranged to hold the liquid in the liquid storage part 113. In this way, a porous plug reduces the likelihood that the liquid leaking from the liquid storage part. It also improves the transfer of liquid to the capillary wick, thereby minimizing waste of liquid, particularly since the liquid in the liquid storage part is fully used and the liquid storage part empties. [00063] The porous plug comprises any material that is suitable for retaining the liquid. Examples of suitable materials are a capillary material, for example, a sponge or foam material, a foamed metal or plastic material, a fibrous material, for example, made from rolled or extruded fibers, such as cellulose acetate, polyester, or polyolefin bonded, polyethylene, terylene or polypropylene fibers, nylon or ceramic fibers. [00064] Figure 4 is a perspective view of a porous plug 301. In this embodiment, the porous plug 301 is in the shape of a cylindrical tube. The external dimension D of the plug is substantially equal to the internal dimension (not shown) of the liquid storage part. D is chosen so that the porous plug substantially fills the liquid storage part. This minimizes the amount of free liquid, which can prevent leakage and improve the transfer of the liquid to the capillary wick. However, the porous plug does not need to fit substantially in the liquid storage part. For example, the porous plug may be shorter or narrower than the liquid storage portion. [00065] In this embodiment, the internal dimension d of the plug is substantially equal to the diameter of the capillary wick 117, so that the capillary wick 117 can be positioned within the porous tubular plug with a reasonably tight fit. This is advantageous, since the porous plug is then in contact with the capillary wick, which allows a good transfer of liquid from the porous plug to the capillary wick. However, this need not be the case and the internal dimension d of the porous plug may be larger than the diameter of the capillary wick. The capillary wick preferably extends to the bottom of the liquid storage part, although this need not be the case. Furthermore, the porous plug preferably extends to the bottom of the liquid storage part, although this need not be the case. [00066] The provision of a porous plug, as illustrated in figures 3 and 4, reduces the probability of leakage of the liquid storage part, by absorbing free liquid. That is, the amount of liquid that is flowing freely is minimized so that leakage is prevented or at least reduced. Additionally, the porous plug can reduce liquid waste since substantially all of the liquid, even at the bottom of the liquid storage part, can be retained by the porous plug and transferred to the capillary wick. [00067] In this way, the porous plug reduces the chance of liquid leaking from the liquid storage part. However, in case the liquid aerosol forming substrate nevertheless leaks from the liquid storage part, additional mechanisms for preventing leakage can be provided. These will be described with reference to figures 5, 6 and 7. The leak prevention device illustrated in figures 5, 6 and 7 can also be supplied separately from a porous plug. [00068] Figure 5 is a perspective view similar to figure 2. Figure 5 is a perspective view of the liquid storage part 113, capillary wick 117 and heater 119, for inclusion in an aerosol generation system. according to a second embodiment of the invention. As in figure 2, in figure 5, heater 119 is in the form of a heating coil surrounding and supporting capillary wick 117. The electrical connection blades 201 connect at each end of the heating coil. Connecting blades 201 run along the outside of the liquid storage portion in grooves 203. [00069] Figure 6 is a schematic cross section of the liquid storage part 113 and capillary wick 117 of figure 5. (Heater 119 and electrical connection blades 201 are not illustrated in figure 6 for reasons of clarity). As can be seen in figures 5 and 6, leakage prevention device in the form of seal 501 is additionally provided. [00070] In the embodiment illustrated in figures 5 and 6, the seal 501 comprises the sealing material at the junction between the liquid storage part 113 and the capillary wick 117. The seal 501 can be formed in any suitable way. For example, the seal can be applied in liquid form during the assembly of the liquid storage part and capillary wick. Alternatively, the seal can be applied in the form of a solid ring separated from the sealing material (similar to an O-ring) fitting tightly over the capillary wick. In a preferred embodiment, the seal can be created by placing the wick inside an injection mold and injecting a suitable sealing material around the capillary wick. (This is sometimes called “overmoulding”). Then, the capillary wick can be located in the liquid storage part so that the seal is positioned at the junction between the liquid storage part and the capillary wick. [00071] The seal 501 seals or substantially blocks any space between the liquid storage part 113 and the capillary wick 117. Note that the electrical connection blades 201 are preferably located outside the seal 501, as shown in figure 5. However, connection blades 201 can alternatively be located inside seal 501 or pass directly through seal 501. That way, if any liquid starts to leak out of the liquid storage part, seal 501 will prevent the liquid from flowing. into the system and potentially out of the nozzle. The seal 501 shown in figures 5 and 6 can be provided in addition to or as an alternative to the porous plug illustrated in figures 2, 3 and 4. [00072] Seal 501 can comprise any suitable seal material. Preferably, the sealing material is soft, flexible, elastic and liquid-proof. Suitable examples are any elastomer, plastic or rubber. The material of the seal 501 can be the same material as the material of the liquid storage part 113. Alternatively, the seal 501 can comprise a different material. Seal 501 may additionally comprise capillary material to retain any liquid that is collected. [00073] Figure 7 is a schematic cross-sectional view of a liquid storage part, for example, along line VII-VII in figure 5. The embodiment illustrated in figure 7 is slightly different from that illustrated in figure 5. Figure 7 illustrates the shoulder part of the liquid storage part 113. The capillary wick 117 is shown positioned in the liquid storage part 117. The heater 119 and the electrically connected blades 201 are not illustrated for the sake of clarity. As in figure 5, in figure 7, the electrical connection blades run along the outside of the liquid storage part in grooves 203. However, in the embodiment of figure 7, the electrical connection blades extend through openings 701 in the wrap the liquid storage part. In figure 7, the leak prevention device is provided in the form of seals 703. [00074] The seals 703 comprise sealing material between the liquid storage part 113 and the electrical connection blades 201. In particular, the electrical connection blades each pass through an opening in the envelope of the storage part of liquid and sealing material is provided at each opening, to surround the electrical connection blade passing through the opening. Seals 703 can be formed in any shape. For example, the seals can be applied in liquid form during the assembly of the liquid storage part, capillary wick and heater. Alternatively, the seals can be applied in the form of solid rings of sealing material by fitting tightly over each electrical connection blade, before the blades are attached to the liquid storage part. Alternatively, seals can be created by placing each electrical connection blade inside an injection mold and injecting a suitable sealing material around the blade. (This is sometimes referred to as “overmoulding”). Then, the electrical connection blades can be positioned in the liquid storage part so that the seals are positioned around the openings. [00075] In the form of figure 7, the seals substantially surround the blades of electrical connection. It is possible, however, that seals 703 are provided even if the electrical connection blades do not extend through the openings in the wrap of the liquid storage part. For example, if the electrical connection blades simply run in the grooves (for example, as in figure 5), the sealing material can be provided between the blade and the liquid storage part. The sealing material may or may not substantially surround the blade. [00076] Thus, if any liquid aerosol forming substrate starts to leak out of the liquid storage part or out of the capillary wick in the heater region, and run down through the electrical connection blades, seals 703 will prevent the liquid to flow into the system and potentially out of the nozzle. The seals 703 shown in figure 7 can be provided in addition to or as an alternative to the porous plug shown in figures 2, 3 and 4 and the seal 501 shown in figures 5 and 6. Additionally, only one seal needs to be provided. [00077] Each seal 703 can comprise any suitable seal material. The material can be the same material as the material of the liquid storage part 113. Alternatively, the seals 703 can comprise a different material. If seal 501 is also provided, seals 501 and 703 can comprise the same or different materials. If two seals 703 are provided, the two seals 703 can comprise the same or different materials. Seal 501 can additionally comprise capillary material to retain any liquid that is collected. Seals 703 may comprise plastic sheet or film material or layers composed of plastics and metal. [00078] Thus, according to the invention, the aerosol generation system includes leak prevention devices to prevent or at least reduce the leakage of the liquid aerosol forming substrate from the liquid storage part. The modalities of the leak prevention device have been described with reference to figures 2 to 7. Characteristics described in relation to one modality may also be applicable to another modality.
权利要求:
Claims (15) [0001] 1. Aerosol generating system (100) for heating a liquid aerosol forming substrate, the system comprising: a liquid storage part (113) for storing the liquid aerosol forming substrate (115); a capillary wick (117) for transporting the liquid aerosol-forming substrate from the liquid storage part; characterized by the fact that the system further comprises: a leak prevention device comprising a sealing device between the liquid storage part and the capillary wick, configured to prevent or reduce the leakage of the liquid aerosol forming substrate from the storage part of liquid, wherein the sealing device comprises a sealing ring (501). [0002] Aerosol generation system according to claim 1, characterized in that the leak prevention device additionally comprises a porous plug (301) at least partially located within the liquid storage part (113). [0003] 3. Aerosol generation system, according to claim 1 or 2, characterized by the fact that the capillary wick (117) is partially located within the liquid storage part (113) to come in contact with the liquid (115 ) in the liquid storage part. [0004] Aerosol generation system according to claim 3, characterized by the fact that the sealing ring (501) is positioned at the junction between the liquid storage part (113) and the capillary wick (117). [0005] 5. Aerosol generation system according to any one of the preceding claims, characterized by the fact that the aerosol generation system is electrically operated and additionally comprises an electric heater (119) to heat the liquid aerosol forming substrate ( 115). [0006] 6. Aerosol generation system according to claim 5, characterized by the fact that it additionally comprises at least one electrical connector (201) for the heater (119), and in which the leak prevention device comprises sealing devices ( 703) between the liquid storage part and at least one of the electrical connectors (201). [0007] 7. Aerosol generation system according to any one of the preceding claims, characterized by the fact that it additionally comprises a vaporizer connected to the liquid storage part (113) to evaporate the liquid aerosol forming substrate (115), and in that the leak prevention device is configured to prevent or reduce the leakage of the liquid aerosol forming substrate (115) from the liquid storage part (113) and vaporizer. [0008] Aerosol generation system (100) according to any one of claims 5, 6 or 7, characterized by the fact that the capillary wick (117) has a first end extending into the liquid storage part and a second end opposite the first end; wherein the electric heater (119) is for heating the liquid aerosol-forming substrate at the second end of the capillary wick (117), and the system (100) further comprising: a first end (103) having a nozzle; a second end (105) opposite the first end; and an electrical power supply (107) and an electrical circuit assembly (109) disposed on the second end (105), in which the electric heater (119) is connected to the electrical power supply (107), in which the liquid storage, the capillary wick and the electric heater are arranged at the first end (103) of the aerosol generation system. [0009] 9. Cartridge (113) for storing a liquid aerosol forming substrate (115), for use with an aerosol generating system (100) for heating the liquid aerosol forming substrate, the cartridge comprising: a container for storage the liquid aerosol-forming substrate (115); a capillary wick (119) for transporting the liquid aerosol forming substrate from the container, characterized by the fact that the cartridge still comprises: a leak prevention device comprising sealing devices between the container and the capillary wick, configured to prevent or reduce the leakage of the liquid aerosol-forming substrate from the container, wherein the sealing device comprises a sealing ring (501). [0010] 10. Cartridge according to claim 9, characterized by the fact that the leak prevention device further comprises a porous plug (301) located at least partially within the container. [0011] 11. Cartridge according to claim 9 or 10, characterized by the fact that the capillary wick (117) is located partially within the container to come into contact with the liquid in the container. [0012] 12. Cartridge according to claim 11, characterized by the fact that the sealing ring (501) is positioned at the junction between the container and the capillary wick (117). [0013] 13. Cartridge according to any one of claims 9 to 12, characterized by the fact that it additionally comprises an electric heater (119) to heat the liquid aerosol forming substrate (115), the electric heater being connectable to a power supply (107) in the aerosol generation system (100). [0014] 14. Cartridge according to claim 13, characterized by the fact that it additionally comprises at least one electrical connector (201) for the heater, and in which the leak prevention device comprises sealing devices (703) between the container and the least one of the electrical connectors. [0015] 15. Cartridge according to any one of claims 9 to 14, characterized in that it additionally comprises a vaporizer connected to the container to evaporate the liquid aerosol forming substrate (115), and in which the leak prevention device is configured to prevent or reduce leakage of the liquid aerosol-forming substrate from the container and vaporizer
类似技术:
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同族专利:
公开号 | 公开日 EA201390817A1|2014-01-30| KR101921347B1|2018-11-22| CA2819145A1|2012-06-07| AU2011334907A1|2013-06-06| WO2012072762A1|2012-06-07| EP2460424A1|2012-06-06| EP3912491A3|2021-12-08| CN103237470B|2017-12-22| HUE045127T2|2019-12-30| BR112013013024A2|2016-08-09| US9844234B2|2017-12-19| NZ610907A|2015-03-27| ES2882924T3|2021-12-03| IL226425A|2017-10-31| PL3586658T3|2021-12-20| EP2645890A1|2013-10-09| HUE055061T2|2021-10-28| MX351533B|2017-10-18| EA025829B1|2017-02-28| EP3586658A1|2020-01-01| JP6022471B2|2016-11-09| ES2746215T3|2020-03-05| IL226425D0|2013-07-31| UA109556C2|2015-09-10| CA2819145C|2018-11-20| PL2645890T3|2020-04-30| AU2011334907B2|2016-11-17| EP3912491A2|2021-11-24| EP3586658B1|2021-07-14| JP2013545473A|2013-12-26| CO6741194A2|2013-08-30| US20130306065A1|2013-11-21| MX2013006205A|2013-07-29| KR20130139298A|2013-12-20| CN103237470A|2013-08-07| SG190746A1|2013-07-31| EP2645890B1|2019-08-21| MY175116A|2020-06-09| ZA201303601B|2014-04-30|
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法律状态:
2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]| 2019-08-06| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]| 2020-05-12| B09A| Decision: intention to grant [chapter 9.1 patent gazette]| 2020-08-04| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 01/12/2011, OBSERVADAS AS CONDICOES LEGAIS. |
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申请号 | 申请日 | 专利标题 EP10252050.9|2010-12-03| EP10252050A|EP2460424A1|2010-12-03|2010-12-03|An aerosol generating system with leakage prevention| PCT/EP2011/071553|WO2012072762A1|2010-12-03|2011-12-01|An aerosol generating system with leakage prevention| 相关专利
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