CONTAINER COMPRISING VAPORISABLE MATTER FOR USE IN A VAPORISING DEVICE FOR VAPORISING A VAPORISABLE CONSTITUENT THEREOF
A disposable sachet of tobacco for use with a gas powered vaporizing device for vaporizing vaporizable constituents of the tobacco comprises a side wall of an impermeable paper based material and an upstream end cap and a downstream end cap which together define a hollow interior region for the tobacco. The sachet is shaped and sized to releasably and snugly engage a vaporizing chamber of the vaporizing device with a heat transfer member therein extending into the hollow interior region of the sachet. The upstream end cap and the downstream end cap are of a paper based permeable material which are permeable to air and an aerosol of vaporized constituents from the tobacco, respectively, to accommodate air into the hollow interior region of the sachet and the aerosol therefrom.
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This is a continuation of U.S. application Ser. No. 12/439,932 filed Apr. 6, 2009, which is a 371 of PCT/IE2007/000081 filed Sep. 5, 2007, which claims priority from Ireland S2006/0658 filed Sep. 5, 2006, the disclosures of which are incorporated in their entirety.
The present invention relates to a container comprising vaporizable matter for placing in a vaporizing chamber of a vaporizing device for producing an aerosol of a vaporizable constituent of the vaporizable matter, and the invention also relates to a method for vaporizing a vaporizable constituent of vaporizable matter. The invention also relates to a combination of the container and a vaporizing device.
Vaporizing devices for producing an aerosol of a vaporizable constituent of vaporizable matter, such as herbs, plant matter and the like from which aerosols of flavour constituents, medicinal constituents and psychoactive constituents can be produced are known. For example, heating devices for vaporizing vaporizable constituents from tobacco, mullein, passion flower, cloves, yohimbe, mint, tea, eucalyptus, camomile and other such herbs and plant matter are known. Typically, such devices comprise a vaporizing chamber in which the matter to be vaporized is placed, and heat from a heat source, for example, a gas powered heat source or an electrically powered heat source, is transferred to the vaporizing chamber for heating the vaporizable matter contained therein to an appropriate temperature for vaporizing the vaporizable constituent or constituents thereof for in turn forming the aerosol. In general, the vaporizing chamber of such devices are suitable for receiving the matter to be vaporized in loose form, although some heating devices for heating tobacco for vaporizing the vaporizable constituents therein are adapted for receiving the tobacco in the form of a cigarette. Such heating devices heat the vaporizable matter to a temperature below its combustion temperature in order to avoid combustion of the vaporizable matter, but to a temperature which is sufficient to cause desirable constituents in the matter to be vaporized. In devices for vaporizing desirable constituents in tobacco, the tobacco is heated to a temperature generally in the range of 130° C. to 230° C., and while such temperatures are sufficient for vaporizing the desirable vaporizable constituents, they are insufficient to raise the tobacco to its combustion temperature.
One such device for producing an aerosol of a vaporizable constituent of vaporizable matter is disclosed in PCT published Application Specification No. WO 2006/082571 A1. The device of this PCT Application is gas powered and comprises a vaporizing chamber which is formed by a socket portion and a hollow plug portion. Vaporizable matter is placed in the plug portion, which in turn is engaged in the socket portion, and heat is transferred to the vaporizing chamber from a gas powered heat source. An aerosol of air entrained with vapour of the vaporized constituent is drawn from the vaporizing chamber through an aerosol accommodating tube. In general, in such devices the vaporizable matter, the constituent of which is to be vaporized is placed in the vaporizing chamber in loose form. This is inconvenient, and furthermore, can lead to contamination of the combustion chamber by particles of the vaporizable matter adhering to the combustion chamber as well as tarry substances resulting from the vaporization of the vaporizable matter adhering to the combustion chamber.
Additionally, it has been found that when a charge of some vaporizable matters, and in particular tobacco is being vaporized, the level of vapour of the vaporized constituent or constituents in the aerosol varies. In general, the level of such vapours rises from an initial relatively low level to the desirable level over time, and then falls off gradually as the vaporizable matter becomes exhausted. This is undesirable, since in general, it is preferable that the level of the vapour of the vaporized constituent or constituents in the aerosol should be substantially constant during vaporization of a charge of the vaporizable matter.
The present invention is directed towards providing a container of vaporizable matter for use in such vaporizing devices, and in particular, for use in the heating device disclosed in PCT Published Application Specification No. WO 2006/082571 A1, which addresses at least some of the problems of known devices and methods for vaporizing vaporizable matter. The invention is also directed towards a method for producing an aerosol from vaporizable matter which addresses at least some of the problems of known methods and devices, and the invention is also directed towards a combination of the container and a vaporizing device.
According to the invention there is provided a container defining a hollow interior region and having vaporizable matter in the hollow interior region, the container being adapted for locating in a vaporizing chamber of a vaporizing device, and being adapted for facilitating heat transfer from the vaporizing device to the vaporizable matter for producing an aerosol of a vaporizable constituent of the vaporizable matter, the container comprising a first accommodating means for accommodating the carrier fluid into the hollow interior region, and a second accommodating means for accommodating the aerosol of the carrier fluid and vapour of the vaporizable constituent from the hollow interior region.
In one embodiment of the invention the container substantially defines the vaporizing chamber. Preferably, the container is adapted to be a relatively tight fit in the vaporizing chamber for facilitating heat transfer from the vaporizing chamber to the container. Advantageously, the container is adapted to releasably engage the vaporizing chamber.
in one embodiment of the invention the first accommodating means comprises an upstream inlet. Preferably, the upstream inlet is formed by an upstream opening. Advantageously, the first accommodating means comprises a first permeable means located in the upstream inlet.
In another embodiment of the invention the second accommodating means comprises a downstream outlet. Preferably, the downstream outlet is formed by a downstream opening. Advantageously, the second accommodating means comprises a second permeable means located in the downstream outlet.
In another embodiment of the invention the container extends between an upstream end and a downstream end, the first accommodating means being located adjacent the upstream end and the second accommodating means being located adjacent the downstream end. Preferably, the outer transverse cross-sectional area of the container intermediate the upstream and downstream ends thereof is substantially similar to the inner transverse cross-sectional area of the vaporizing chamber. Advantageously, the outer transverse cross-sectional area of the container intermediate the upstream and downstream ends thereof is just less than the inner transverse cross-sectional area of the vaporizing chamber.
In one embodiment of the invention the container comprises a side wall which defines the hollow interior region, the side wall extending between the upstream end and the downstream end. Preferably, the side wall defines the upstream opening adjacent the upstream end, and the downstream opening adjacent the downstream end. Advantageously, the upstream opening is closed by an upstream end cap. Ideally, the upstream end cap comprises the first accommodating means.
In another embodiment of the invention the upstream end cap is formed by the first permeable means.
In a further embodiment of the invention the downstream opening is closed by a downstream end cap. Preferably, the downstream end cap comprises the second accommodating means. Advantageously, the downstream end cap is formed by the second permeable means.
In another embodiment of the invention the side wall is of a heat conducting material.
In a further embodiment of the invention the side wall is of a paper based material.
In a still further embodiment of the invention the side wall is of cardboard material.
Alternatively, the side wall is of a foil material. Preferably, the side wall is of a metal foil.
In one embodiment of the invention a portion of the container is impermeable to the aerosol. Preferably, the portion of the container which is impermeable to the aerosol is also impermeable to the carrier fluid. Advantageously, the impermeable portion of the container is located intermediate the first accommodating means and the second accommodating means. Ideally, the side wall forms the impermeable portion of the container.
In an alternative embodiment of the invention the side wall is of a gauze material. Preferably, the side wall is of a gauze of metal material.
In another embodiment of the invention the side wall of the container is adapted for engaging the vaporizing chamber. Preferably, the side wall of the container is adapted for engaging a corresponding side wall of the vaporizing chamber.
Advantageously, the side wall of the container is adapted for engaging the corresponding side wail of the vaporizing chamber with a heat transfer fit. Ideally, the side wall of the container is adapted for slideably engaging the corresponding side wall of the vaporizing chamber.
In one embodiment of the invention the side wail is of cylindrical construction.
In a further embodiment of the invention the second accommodating means comprises an outlet tube extending from the container.
In one embodiment of the invention the second permeable means is located adjacent the outlet tube. Preferably, the second permeable means is located in the outlet tube. Advantageously, the second permeable means is in the form of a plug.
Advantageously, the outlet tube terminates in a mouthpiece. Preferably, a heat sink means is located in the outlet tube. Ideally, the heat sink means is located in the outlet tube intermediate the second permeable means and the mouthpiece.
In one embodiment of the invention the outlet tube is of transverse cross-section which is substantially similar to the transverse cross-section of the container.
In another embodiment of the invention the outlet tube is of circular transverse cross-section. In a further embodiment of the invention the outlet tube is of diameter which is similar to the diameter of the side wall of the container.
Ideally, the container is adapted for engaging the vaporizing chamber with the outlet tube extending therefrom to provide access to the mouthpiece.
In one embodiment of the invention the downstream end cap is of an impermeable material, and defines an outlet opening. Preferably, the outlet tube extends from the downstream end cap and communicates with the hollow interior region of the container through the outlet opening in the downstream end cap.
In a further embodiment of the invention the second permeable means is located adjacent the outlet opening in the downstream end cap.
In a further embodiment of the invention the container is adapted for accommodating a heat transfer member of the vaporizing chamber into the hollow interior region of the container for transferring heat to the vaporizable matter contained therein. Preferably, the upstream end of the container is adapted for accommodating the heat transfer member into the hollow interior region thereof. Advantageously, the upstream end cap is adapted for accommodating the heat transfer member into the hollow interior region.
In one embodiment of the invention a heat transfer member accommodating slit is formed in the container for accommodating the heat transfer member therethrough to the hollow interior region thereof. Preferably, the heat transfer accommodating slit is formed in the upstream end cap. Advantageously, the heat transfer member accommodating slit is formed in the first permeable means.
In another embodiment of the invention the first permeable means comprises a first permeable material which is permeable to the carrier fluid.
In another embodiment of the invention the first permeable material is a paper based material.
In a further embodiment of the invention the first permeable material is a gauze. Preferably, the first permeable material is a gauze of a metal material.
In a further embodiment of the invention the first permeable material is perforated.
In another embodiment of the invention the second permeable means comprises a second permeable material which is permeable to the aerosol of the carrier fluid and the vapour of the vaporizable constituent. Preferably, the second permeable material is a paper based material.
Alternatively, the second permeable material is a gauze. Preferably, the second permeable material is a gauze of a metal material.
In another embodiment of the invention the second permeable material is perforated.
In a still further embodiment of the invention the second permeable means comprises a filter medium. Preferably, the filter medium of the second permeable means is adapted for substantially inhibiting the passage of undesirable vapours from the aerosol passing therethrough. Advantageously, the filter medium of the second permeable means is adapted for substantially inhibiting the passage of tar and other undesirable fluids passing therethrough.
Preferably, the vaporizable matter contained in the hollow interior region of the container is in particulate form. Advantageously, the vaporizable matter contained in the hollow interior region is of particle size of maximum dimensions in the range of 50 microns to 5 mm. Advantageously, the vaporizable matter is in strip form. Ideally, the strips of the vaporizable matter are of maximum transverse dimensions in the range of 50 microns to 5 mm. Preferably, the strips of the vaporizable matter are of length in the range of 5 mm to 40 mm.
in one embodiment of the invention the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different strip sizes, and the strip sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
In another embodiment of the invention the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different particle sizes and different strip sizes, and the particle sizes and the strip sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
In a still further embodiment of the invention the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different particle sizes, and the particle sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
In a still further embodiment of the invention the vaporizable matter contained in the hollow interior region of the container is selected from one or more of the following:
In one embodiment of the invention the vaporizable matter contained in the hollow interior region of the container is tobacco.
In a further embodiment of the invention the container is in the form of a sachet adapted for engagement in a plug portion of the vaporizing chamber with the plug portion of the vaporizing chamber in engagement with the vaporizing chamber.
Additionally the invention provides a method for vaporizing a vaporizable constituent of vaporizable matter to form an aerosol, the method comprising placing the vaporizable matter in a hollow interior region of a container comprising a first accommodating means for accommodating a carrier fluid into the hollow interior region and a second accommodating means for accommodating the aerosol from the hollow interior region, placing the container in a vaporizing chamber of a vaporizing device, heating the container and the vaporizable matter therein to a temperature at which the vaporizable constituent vaporizes, and drawing a carrier fluid into the hollow interior region of the container through the first accommodating means and through the hollow interior region for entraining vapour of the vaporized constituent in the carrier fluid to form the aerosol and drawing the aerosol through the second accommodating means.
In one embodiment of the invention the temperature to which the vaporizable matter within the container is heated is varied for maintaining the level of the vaporizable constituent substantially constant in the aerosol over a time period from the time the vaporizable matter is raised to a temperature sufficient for vaporizing the vaporizable constituent until substantially all the vapour has been evaporated from the vaporizable constituent.
The invention also provides a vaporizing device comprising a vaporizing chamber and a heat source for heating the vaporizing chamber, and a container according to the invention located in the vaporizing chamber, the vaporizing chamber having a carrier fluid inlet for facilitating drawing of a carrier fluid into the hollow interior region of the container through the first permeable means for entraining vapour of a vaporizable constituent of the vaporizable matter in the carrier fluid to form an aerosol of the carrier fluid and the vapour of the vaporizable constituent, so that the aerosol can be drawn from the hollow interior region of the container through the second permeable means.
The advantages of the invention are many. By virtue of the fact that the vaporizable matter is provided in a container which is suitable for locating in a vaporizing chamber of a vaporizing device, the vaporizable matter contained in the container can be factory selected and thus selected under controlled conditions and factory packed into the container also under controlled conditions. Thus the consistency and/or blending and other properties of the vaporizable matter, such as moisture content, weight and the proportions of other ingredients and additives to the vaporizable matter in the container can be accurately controlled under factory conditions. Accordingly, the consistency and blend as well as such other properties of the vaporizable matter can be selected and controlled so that the level of the vapour of the vaporizable constituent or constituents in the aerosol remains substantially constant during vaporization of the vaporizable matter.
A further advantage of providing the vaporizable matter in a container which is suitable for locating in a vaporizing chamber of a heating device is that the vaporizable matter does not come into direct contact with the vaporizing chamber, and thus, the risk of contamination, soiling or otherwise damaging the vaporizing chamber is avoided.
By providing a first permeable means which is permeable to the carrier fluid and a second permeable means which is permeable to the aerosol, namely, the carrier fluid with the vapour of the vaporizable constituent contained therein, more accurate control of the amount and quality of the carrier fluid being drawn into the hollow interior region of the container can be achieved. Furthermore, by providing the second permeable means for accommodating the aerosol from the hollow interior region of the container permits the rate and quality of the aerosol being drawn from the hollow interior region of the container to be also more accurately controlled. Indeed, where the second permeable means is provided by a filter, the passage of undesirable constituents in the aerosol through the filter can be substantially inhibited, and thus removed from the aerosol, thereby providing a relatively pure aerosol uncontaminated by undesirable vapours from other vaporizable constituents of the vaporizable matter. By controlling the rate at which the carrier fluid is drawn into the hollow interior region of the container and the rate at which the aerosol is being drawn out of the hollow interior region, more accurate control of the level of the vaporized constituent or constituents in the aerosol can be achieved.
Furthermore, by appropriately selecting the first and second permeable means, the pressure drop which is required to be applied by a user during drawing on the mouthpiece in order to draw the aerosol from the hollow interior region of the container can be minimised.
Additionally, by factory controlling the content of the vaporizable matter in the container, and factory packing of the vaporizable matter into the container, the level of the vaporized constituent or constituents can be readily controlled, and thus, the level of vapour of the vaporizable constituent or constituents in the aerosol during production of the aerosol can be readily controlled.
By producing the vaporizable matter as a blend of matter of particles of different sizes, and/or strips of different sizes, so that the surface area of the vaporizable matter is maximised, more accurate control of the level of the vaporized constituent or constituents in the aerosol during production of the aerosol can be achieved. In particular, by providing the vaporizable matter as a blend of particles of different sizes of maximum dimensions within a range of 50 microns and 5 mm, and furthermore, by providing some or all of the particles in the form of strips of maximum transverse cross-sectional dimensions in the range of 50 microns to 5 mm and of length in the range of 5 mm to 40 mm, it has been found that particularly accurate control of the level of the vapour of the vaporizable constituent or constituents in the aerosol during production of the aerosol can be controlled within relatively tight limits, and in particular, the level of the vapour of the vaporizable constituent or constituents in the aerosol can be maintained substantially constant during vaporization of a charge of the vaporizable matter in the container during production of the aerosol therefrom.
The invention will be more clearly understood from the following description of some preferred embodiments thereof, which are given by way of example only, with reference to the accompanying drawings, in which:
Referring to the drawings and initially to
Referring in particular to
The vaporizing chamber 15 comprises a socket portion 16 which is formed by a cylindrical socket side wall 17 extending downstream from the exhaust gas chamber 13 and a hollow plug portion 18 which is formed by a cylindrical plug side wall 20 is which extends from a downstream end cap 21. The plug portion 18 is of a suitable heat conducting metal, and is releasably engageable in the socket portion, and the plug side wall 20 engages the socket side wall 17 with a snug sliding fit for facilitating heat transfer from the socket side wall 17 to the plug side wall 20. The plug side wall 20 and the downstream end cap 21 define a hollow interior region 22, which when the plug portion 18 is located in the socket portion 16 forms the vaporizing chamber 15. An upstream end of the plug side wall 20 defines an open mouth 24 to the hollow interior region 22, and a transversely extending end wall 23 in the socket portion 16 closes the open mouth 24 when the plug portion 18 is fully engaged in the socket portion 16.
Heat is transferred by conduction through the main housing 9 from the combustion chamber 10, the exhaust gas chamber 13, the socket side wall 17 and the plug side wall 20 into the vaporizing chamber 15 for vaporizing vaporizable matter located in the hollow interior region 22 of the plug portion 18. Additional heat is also transferred from the exhaust gas chamber 13 through a heat transfer member 25 of a suitable heat conducting metal material which extends centrally into the socket portion 16 from the exhaust gas chamber 13, and in turn into the hollow interior region 22 of the plug portion 18 when the plug portion 18 is engaged in the socket portion 16. The heat transfer member 25 terminates in a pointed tip 26 for engaging and piercing the sachet 1 as will be described in more detail below.
An outlet opening 28 in the downstream end cap 21 of the plug portion 18 accommodates the aerosol from the vaporizing chamber 15 into an outlet tube 29 which accommodates the aerosol to a mouthpiece 30 through which the aerosol is drawn into the mouth of a subject and inhaled. A heat sink element 31 is located in the outlet tube 29 for cooling the aerosol and condensing tarry constituents entrained therein prior to being drawn through the mouthpiece 30. An air inlet port 32 into the main housing 9 and air accommodating openings 33 in the end wall 23 accommodate air into the vaporizing chamber 15. In this embodiment of the invention air is a carrier fluid in which vapours vaporized from the vaporizable constituents of the vaporizable matter in the vaporizing chamber 15 are entrained for producing the aerosol.
Fuel gas, in this embodiment of the invention a mixture of butane and propane in liquid form, in which the butane predominates is stored in a rechargeable reservoir 34 in the casing 6 and is delivered through an isolating switch 35 and a pressure regulator (not shown) from the reservoir 34 through a supply pipe 36 to a temperature responsive safety isolating valve 37. The fuel gas from the temperature responsive safety isolating valve 37 is supplied to a temperature responsive control valve 38 for controlling the supply of fuel gas to the combustion chamber 10, for in turn controlling the temperature of the vaporizing chamber 15. The fuel gas from the temperature responsive control valve 38 is mixed with air in a venturi mixer 39, and the fuel gas/air mixture from the venturi mixer 39 is delivered into the combustion chamber 10 where it is converted to heat by the gas catalytic combustion element 12. A detailed description of the vaporizing device 5 and its operation is given in published PCT Application Specification No. WO 2006/082571 A1
Referring now to
In this embodiment of the invention the first and second permeable membranes 51 and 54 of the upstream and downstream end caps 49 and 53, respectively, are of similar permeable materials. Both are of a porous paper material of thickness of the order of 100 microns formed of fibres of approximately 10 microns diameter. The paper material of the upstream and downstream end caps 49 and 53 is of porosity to be sufficiently permeable to air and to the aerosol, while at the same time retaining the tobacco 2 within the hollow interior region 46 of the sachet 1 for preventing particles of tobacco 2 and contaminants, such as tar and the like contaminating the vaporizing chamber 15.
The paper material of the upstream and downstream end caps 49 and 53 is relatively easily pierceable, so that when the sachet 1 is located in the hollow interior region 22 of the plug portion 18 and the plug portion 18 is being engaged in the socket portion 16 of the vaporizing device 1, the upstream end cap 49 is readily easily pierced by the heat transfer member 25, so that in use the heat transfer member 25 extends into the hollow interior region 46 of the sachet 1 for directly transferring heat into the tobacco 2. The paper material of the upstream and downstream end caps 49 and 53 is also of the type which effectively self-seals, so that once pierced by the heat transfer member 25, the paper material of the upstream end cap 49 self-seals around the heat transfer member 25, thereby preventing loss of particles of tobacco 2 and other contaminants from the hollow interior region 46 of the sachet 1. The sealing action of the paper material of the upstream end cap 49 on the heat transfer member 25 also has a cleansing action on the heat transfer member 25 as the sachet 1 is being disengaged from the heat transfer member 25, thereby removing tobacco particles and tarry contaminants from the heat transfer member 25.
The sachet 1 substantially defines the internal volume of the vaporizing chamber 15 of the vaporizing device 5, and the side wall 45 of the sachet 1 is of outer diameter just less than the internal diameter of the plug side wall 20 of the plug portion 18, and is of length substantially similar to the length of the plug side wall 20 from the downstream end cap 21 to the open mouth 24. Thus, the sachet 1 forms a releasable, relatively snug, tight fit in the hollow interior region 22 of the plug portion 18, so that when the plug portion 18 is fully engaged in the socket portion 16, heat is efficiently transferred from the socket side wall 17 through the plug side wall 20 and the side wall 45 of the sachet 1 to the tobacco 2.
The tobacco 2 in this embodiment of the invention is in both particulate form and strip form and comprises a blend of tobacco particles and strips of different sizes. The particles of the different particle size in the blend of particle sizes are of size such that the maximum dimension of the particles is in a range from 50 microns to 5 mm. The strips of the different sizes are of length in the range of 5 mm to 40 mm and of maximum transverse cross-sectional dimensions in the range of 50 microns to 5 mm. The different sizes of the particles and strips of the blend of particles and strips of the tobacco 2 are selected to optimise the surface area of the particles and strips consistent with vaporizing the vaporizable constituents of the tobacco 2, so that the level of vapour of the vaporized constituents in the aerosol is substantially constant from the time the tobacco 2 has been brought up to the vaporization temperature of the vaporizable constituents to be vaporized until those vaporizable constituents in the tobacco 2 have been exhausted. It has been found that by providing the tobacco in particulate form and strip form, and of particles of different sizes appropriately sized and with the maximum dimensions of the particles within the range of 50 microns to 2 mm and with the strips of different sizes and appropriately sized of lengths in the range of 5 mm to 40 mm and of maximum transverse cross-sectional dimensions in the range of 50 microns to 5 mm, enhances the rate of vaporization of the vaporizable matter, particularly at the initial stages after the tobacco has been brought up to the vaporization temperature of the vaporizable constituents to be vaporized. Additionally, by so providing the tobacco 2 of such particle and strip sizes, vapours are more efficiently released from the vaporizable constituent, and thus a relatively sharp cut-off of the evaporation of the vapours of the vaporizable constituents of the tobacco 2 occurs as the vaporizable constituents are being exhausted. This, thus, provides an aerosol which is more consistent over the period during which the vaporizable constituents of the tobacco 2 in the sachet 1 are being vaporized, and in particular, assists in maintaining the level of the vapours of the vaporizable constituents in the aerosol substantially constant from the time the tobacco 2 is brought up to the vaporization temperature until substantially all of the vaporizable constituents to be vaporized.
In use, the sachet 1 pre-packed with the tobacco 2 is placed in the hollow interior region 22 of the plug portion 18 with the downstream end cap 53 of the sachet 1 abutting the downstream end cap 21 of the plug portion 18. The plug portion 18 is then engaged in the socket portion 16 of the vaporizing device 5, and is urged fully home into the socket portion 16 with the upstream end cap 49 of the sachet 1 abutting the upstream end wall 23 of the socket portion 16. As the plug portion 18 is being urged into the socket portion 16, the upstream end cap 49 of the sachet 1 is pierced by the pointed tip 26 of the heat transfer member 25, and further urging of the plug portion 18 into the socket portion 16 urges the heat transfer member 25 into the hollow interior region 46 of the sachet 1 for transferring heat directly to the tobacco 2.
With the plug portion 18 of the vaporizing chamber 15 engaged in the socket portion 16, the vaporizing device 5 is operated for delivering fuel gas/air mixture into the combustion chamber 10 where the fuel gas/air mixture is initially ignited to burn in a flame to raise the gas catalytic combustion element 12 to its ignition temperature. Thereafter, the gas catalytic combustion element 12 converts the fuel gas/air mixture to heat. In this embodiment of the invention the temperature responsive control valve 38 is preset to control the temperature of the main housing 9 of the vaporizing device 5 at a temperature so that the temperature within the vaporizing chamber 15 and in turn the temperature of the tobacco 2 is maintained at a temperature of approximately 160° C., which is the optimum temperature for vaporizing the desirable vaporizable constituents in the tobacco.
Once the tobacco 2 in the sachet 1 in the combustion chamber 15 has been brought up to the vaporizing temperature of 160° C., the vaporizable constituents of the tobacco 2 commence to vaporize. By drawing on the mouthpiece 30 of the vaporizing device 5, air is drawn into the vaporizing chamber 15 and in turn into the hollow interior region 46 of the sachet 1 through the upstream end cap 49. Vapours of the vaporized constituents are entrained in the air in the hollow interior region 46 to form the aerosol. The aerosol is drawn through the outlet opening 28 in the downstream end cap 21 of the plug portion 18 and in turn into the outlet tube 29 and through the mouthpiece 30. The aerosol is cooled as it passes over the heat sink 31 in the outlet tube 29, and tarry substances in the aerosol condense onto the heat sink 31.
In practice, it is envisaged that the vaporizing chamber 15 and the sachet 1 will be of size suitable for containing a sufficient quantity of tobacco 2 to produce between six and twelve puffs.
When the tobacco 2 in the sachet 1 is spent, the sachet is removed from the combustion chamber 15, and is replaced with a fresh sachet 1 of tobacco 2.
Referring now to
Otherwise, the sachet 60 and its use in the vaporizing device 5 is similar to that already described with reference to the sachet 1.
Referring now to
The main difference between the sachet 65 and the sachet 1 is in the side wall 45 thereof. The side wall 45 is of similar material to the side wall 45 of the sachet 1, as are the upstream and downstream end caps 49 and 53 thereof of a similar material to that of the upstream and downstream end caps 45 and 53 of the sachet 1. However, in this embodiment of the invention the side wall 45 is shaped at 66 to form longitudinally extending recesses 67 for accommodating heat exchange projections extending from the plug side wall 20 of the plug portion 18 into the hollow interior region 22 thereof for enhancing heat transfer from the plug portion 18 to the sachet 65 and in turn to the tobacco 2 therein. The heat exchange projections on the plug side wall 20 for engaging the shaped portions 66 of the sachet 65 are not illustrated, however, their construction and shape is complementary to the shape of the recesses 67 of the sachet 65, and will be readily apparent to those skilled in the art.
Otherwise the sachet 65 and its use in conjunction with the vaporizing device 5 is similar to the sachet 1 already described.
Referring now to
Otherwise, the sachet 70 and its use in the vaporizing device 5 is similar to the sachet 1.
However, it is envisaged that in certain cases the internal diameter of the heat transfer element 71 may be just greater than the outer diameter of the heat transfer member 25, and the vaporizing device would be provided with the heat transfer member 25, so that the heat transfer element 71 would be a snug sliding lit on the heat transfer member 25 for transferring heat from the heat transfer member 25 to the heat transfer element 71, and in turn to the tobacco 2.
Referring now to
In this embodiment of the invention the second permeable means is provided by a filter 85 of a filter medium which is formed into a plug which is engaged in the outlet tube 76 adjacent the outlet opening 84 in the downstream end cap 83. The material of the filter 94 is of a material suitable for substantially inhibiting the passage of tarry substances and undesirable vapours in the aerosol therethrough.
A heat sink element 86 similar to the heat sink element 31 of the vaporizing device 5 is located in the outlet tube 76 intermediate the filter 85 and the mouthpiece 77.
In use, since the container 75 replaces the plug portion 18 of the vaporizing device 5, the plug portion and the outlet tube 29 are no longer required, and may be dispensed with. Thus, with the container 75 engaged and fully home in the socket portion 16 of the vaporizing device 5, the vaporizing device 5 is ready for use. With the temperature of the tobacco 2 in the container 75 raised to approximately 195° C. by the vaporizing device 5, a subject draws on the mouthpiece 77 of the outlet tube 76, thereby drawing an aerosol of the vapours of the vaporizable constituents of the tobacco 2 from the hollow interior region 79 of the container 75 through the outlet tube 76, and in turn through the mouthpiece 77. Air is drawn into the hollow interior region 79 of the container 75 through the air accommodating openings 33 in the upstream end wall 23 and in turn through the upstream end cap 81. The vaporized constituents are entrained in the air as it is being drawn through the hollow interior region 79 to form the aerosol, and tarry substances and other undesirable vaporized constituents are filtered from the aerosol as it is drawn through the filter 85.
Otherwise, the container 75 and its use in conjunction with the vaporizing device 5 is similar to that of the sachet 1.
Referring now to
A downstream opening 95 defined by the side wall 91 at a downstream end 96 accommodates the aerosol from the hollow interior region 92. An outlet tube 97 extends from the side wall 91 at the downstream end 96 thereof for accommodating the aerosol from the hollow interior region 92, and in this embodiment of the invention the outlet tube 95 is formed by a filter accommodating cylindrical side wall 98 of a relatively stiff paper material which is suitable for withstanding moisture from the mouth of a user. The diameter of the filter accommodating side wall 98 is substantially similar to the diameter of the side wall 91, and the filter accommodating side wall 98 overlaps the side wall 91 at the downstream end 96 thereof, where it is secured to the side wall 91 by a suitable adhesive.
In this embodiment of the invention the second permeable means is provided by a filter 99 which is located within the filter accommodating side wall 98 and extends through the filter accommodating side wall 98 from the downstream opening 95 defined by the side wall 91. The filter 99 is of similar material to the filter 85 of the container 75. In effect, the container 90 according to this embodiment of the invention is in the form of a stubby cigarette which is closed at its upstream end by the upstream end cap 93.
In use, as discussed above, the plug portion 18 of the vaporizing device 5 is not required. The container 90 with the tobacco 2 therein is engaged in the vaporizing chamber 15 defined by the socket portion 16 by sliding the side wall 91 into the vaporizing chamber 15 with the side wall 91 in relatively tight sliding engagement with the side wall 17 of the socket portion 16. The container 90 is urged into the vaporizing chamber 15 until it is fully home in the vaporizing chamber 15, and typically, when the container 90 is fully home in the vaporizing chamber 15, the filter accommodating side wall 98 adjacent the downstream end of the side wall 91 abuts the socket side wall 17 of the socket portion 16 of the vaporizing device. As the container 90 is being inserted into the vaporizing chamber 15, the upstream end cap 93 is pierced by the pointed tip 26 of the heat transfer member 25, and further urging of the container 96 into the vaporizing chamber 15 causes the heat transfer member 25 to extend into the hollow interior region 92 of the container 90 for engaging and transferring heat to the tobacco 2 therein.
The vaporizing device is operated to raise the temperature within the vaporizing chamber 15 and in turn the temperature of the tobacco 2 to the desired vaporizing temperature of 160° C. A user then places the lips of his or her mouth around the filter accommodating side wall 98 and draws the aerosol from the hollow interior region 92 through the filter 99. When the tobacco 2 in the container 90 has been exhausted, the container 90 is replaced with a fresh container 90 in the vaporizing chamber 15.
Referring now to
Referring now to
Where sachets and containers similar to the sachets and containers described herein are to be provided for use with the socket portion 16 illustrated in
While the downstream end caps of some of the sachets have been described as being of a paper based material, which is permeable to the aerosol, it is envisaged in certain cases that the downstream end caps may be of a filter material for filtering out undesirable constituents, vaporized or otherwise, which would be entrained in the aerosol, for example, for filtering out tarry substances and other undesirable constituents. Such filter material may, but not necessarily, be of material similar to the filter 85 of the container 75. Where the downstream end cap is provided of a filter material, it is envisaged that the downstream end cap will be in the form of a cylindrical plug, which would be engaged in the downstream opening defined by the side wall of the sachets, in order to provide sufficient filtering of the aerosol. Such a filter could be of the type provided on a filter tipped cigarette.
While not illustrated, it is envisaged that the sachets may be provided with a tab adjacent the downstream end thereof for facilitating removal of a spent sachet from the vaporizing chamber.
While the sachets and containers have been described as containing tobacco, the sachets and containers may be provided with any other vaporizable matter, which includes one or more vaporizable constituents which are to be vaporized.
While the sachets and containers according to the invention have been described for use with a gas powered heating device, it is envisaged that the sachets may be provided for use in conjunction with a heating device heated by any other suitable heating source, for example, by an electrically powered heating source or the like.
While the sachets and container have been described as being of cylindrical shape, the sachets and container may be of any other suitable or desirable shape. While it is desirable that the sachet should define the interior of the vaporizing chamber, this is not essential. However, it is desirable that there should be a relationship between the sachet and the interior of the vaporizing chamber to optimise the amount of air drawn through the sachet and in turn through the tobacco in order to produce a desirable aerosol of the vaporized constituents.
Additionally, it will be appreciated that the upstream and downstream end caps which form the first and second permeable means, respectively, may be permeable to other fluids, including vapours, gases and the like besides the carrier fluid, which in general will be air, and the aerosol.
While the sachets and container have been described as being of specific types of materials, the sachets and container may be of any other suitable materials, and the materials of the first and second permeable means may be of any suitable material which would permit air to be drawn into the hollow interior region of the sachet, and the aerosol to be drawn therefrom. Indeed, in some embodiments of the invention it is envisaged that the side wall of the sachet may be of a wire gauze material, while the upstream and downstream end caps may be of a suitable paper or other such permeable material. Needless to say, the first and second permeable materials may be the same or different. It is also envisaged that the materials of the first and second permeable means and the side wall may be similar materials.
Additionally, in some embodiments of the invention it is envisaged that the vaporizing device may be adapted for facilitating altering of the temperature of the device for varying the temperature of the tobacco in the sachet for assisting in maintaining the level of vaporized matter substantially constant in the aerosol from the time the tobacco has been brought up to the vaporizing temperature until the tobacco or other vaporizable matter has been exhausted.
It will be appreciated that while the vaporizing device has been described as maintaining the temperature of the tobacco at 160′C for vaporizing the vaporizable constituents, this temperature may vary, depending on the type of tobacco used. It will also be appreciated that where the vaporizable matter is vaporizable matter other than tobacco, the vaporizing device will be operated for maintaining the temperature of the vaporizable matter at an appropriate temperature for vaporizing the vaporizable constituents therein. For example, it is envisaged that where the vaporizable matter is camomile, a suitable vaporizing temperature would be of the order of 195° C.
Claims
1. A container defining a hollow interior region and having vaporizable matter in the hollow interior region, the container being adapted for locating in a vaporizing chamber of a vaporizing device, and being adapted for facilitating heat transfer from the vaporizing device to the vaporizable matter for producing an aerosol of a vaporizable constituent of the vaporizable matter, the container comprising a first accommodating means for accommodating the carrier fluid into the hollow interior region, and a second accommodating means for accommodating the aerosol of the carrier fluid and vapour of the vaporizable constituent from the hollow interior region.
2. A container as claimed in claim 2 in which the container substantially defines the vaporizing chamber, and preferably, the container is adapted to be a relatively tight fit in the vaporizing chamber for facilitating heat transfer from the vaporizing chamber to the container, and preferably, the container is adapted to releasably engage the vaporizing chamber, and advantageously, the first
- accommodating means comprises an upstream inlet, and preferably, the upstream inlet is formed by an upstream opening, and advantageously, the first accommodating means comprises a first permeable means located in the upstream inlet, and preferably, the second accommodating means comprises a downstream outlet, and preferably, the downstream outlet is formed by a downstream opening, and advantageously, the second accommodating means comprises a second permeable means located in the downstream outlet.
3. A container as claimed in claim 1 in which the container extends between an upstream end and a downstream end, the first accommodating means being located adjacent the upstream end and the second accommodating means being located adjacent the downstream end, and preferably, the outer transverse cross-sectional area of the container intermediate the upstream and downstream ends thereof is substantially similar to the inner transverse cross-sectional area of the vaporizing chamber, and advantageously, the outer transverse cross-sectional area of the container intermediate the upstream and downstream ends thereof is just less than the inner transverse cross-sectional area of the vaporizing chamber, and preferably, the container comprises a side wall which defines the hollow interior region, the side wall extending between the upstream end and the downstream end, and preferably, the side wall defines the upstream opening adjacent the upstream end, and the downstream opening adjacent the downstream end, and advantageously, the upstream opening is closed by an upstream end cap, and preferably, the upstream end cap comprises the first accommodating means, and advantageously, the upstream end cap is formed by the first permeable means, and preferably, the downstream opening is closed by a downstream end cap, and preferably, the downstream end cap comprises the second accommodating means, and advantageously, the downstream end cap is formed by the second permeable means.
4. A container as claimed in claim 3 in which the side wall is of a heat conducting material, and preferably, the side wall is of a paper based material, and advantageously, the side wall is of cardboard material, and preferably, the side wall is of a foil material, and advantageously, the side wall is of a metal foil, and
- preferably, a portion of the container is impermeable to the aerosol, and preferably, the portion of the container which is impermeable to the aerosol is also impermeable to the carrier fluid, and advantageously, the impermeable portion of the container is located intermediate the first accommodating means and the second accommodating means, and preferably, the side wall forms the impermeable portion of the container, and advantageously, the side wall is of a gauze material, and preferably, the side wall is of a gauze of metal material, and advantageously, the side wall of the container is adapted for engaging the vaporizing chamber, and preferably, the side wall of the container is adapted for engaging a corresponding side wall of the vaporizing chamber, and advantageously, the side wall of the container is adapted for engaging the corresponding side wall of the vaporizing chamber with a heat transfer fit, and preferably, the side wall of the container is adapted for slideably engaging the corresponding side wall of the vaporizing chamber, and advantageously, the side wall is of cylindrical construction.
5. A container as claimed in claim 3 in which the second accommodating means comprises an outlet tube extending from the container, and preferably, the second permeable means is located adjacent the outlet tube, and preferably, the second permeable means is located in the outlet tube, and advantageously, the second permeable means is in the form of a plug.
6. A container as claimed in claim 5 in which the outlet tube terminates in a mouthpiece.
7. A container as claimed in claim 5 in which a heat sink means is located in the outlet tube.
8. A container as claimed in claim 7 in which the heat sink means is located in the outlet tube intermediate the second permeable means and the mouthpiece, and advantageously, the outlet tube is of transverse cross-section which is substantially similar to the transverse cross-section of the container, and preferably, the outlet tube is of circular transverse cross-section, and
- advantageously, the outlet tube is of diameter which is similar to the diameter of the side wall of the container, and preferably, the container is adapted for engaging the vaporizing chamber with the outlet tube extending therefrom to provide access to the mouthpiece, and advantageously, the downstream end cap is of an impermeable material, and defines an outlet opening, and preferably, the outlet tube extends from the downstream end cap and communicates with the hollow interior region of the container through the outlet opening in the downstream end cap, and advantageously, the second permeable means is located adjacent the outlet opening in the downstream end cap.
9. A container as claimed in claim 1 in which the container is adapted for accommodating a heat transfer member of the vaporizing chamber into the hollow interior region of the container for transferring heat to the vaporizable matter contained therein.
10. A container as claimed in claim 9 in which the upstream end of the container is adapted for accommodating the heat transfer member into the hollow interior region thereof, and advantageously, the upstream end cap is adapted for accommodating the heat transfer member into the hollow interior region, and preferably, a heat transfer member accommodating slit is formed in the container for accommodating the heat transfer member therethrough to the hollow interior region thereof, and advantageously, the heat transfer accommodating slit is formed in the upstream end cap, and preferably, the heat transfer member accommodating slit is formed in the first permeable means.
11. A container as claimed in claim 1 in which the first permeable means comprises a first permeable material which is permeable to the carrier fluid, and preferably, the first permeable material is a paper based material, and advantageously, the first permeable material is a gauze, and preferably, the first permeable material is a gauze of a metal material, and advantageously, the first permeable material is perforated, and preferably, the second permeable means comprises a second permeable material which is permeable to the aerosol of the carrier fluid and the vapour of the vaporizable constituent, and preferably, the second permeable material is a paper based material, and advantageously, the second permeable material is a gauze, and preferably, the second permeable material is a gauze of a metal material, and advantageously, the second permeable material is perforated.
12. A container as claimed in claim 1 in which the second permeable means comprises a filter medium, and preferably, the filter medium of the second permeable means is adapted for substantially inhibiting the passage of undesirable vapours from the aerosol passing therethrough, and preferably, the filter medium of the second permeable means is adapted for substantially inhibiting the passage of tar and other undesirable fluids passing therethrough.
13. A container as claimed in claim 1 in which the vaporizable matter contained in the hollow interior region of the container is in particulate form, and preferably, the vaporizable matter contained in the hollow interior region is of particle size of maximum dimensions in the range of 50 microns to 5 mm, and advantageously, the vaporizable matter is in strip form, and preferably, the strips of the vaporizable matter are of maximum transverse dimensions in the range of 50 microns to 5 mm, and advantageously, the strips of the vaporizable matter are of length in the range of 5 mm to 40 mm.
14. A container as claimed in claim 13 in which the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different strip sizes, and the strip sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
15. A container as claimed in claim 13 in which the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different particle sizes and different strip sizes, and the particle sizes and the strip sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
16. A container as claimed in claim 13 in which the vaporizable matter contained in the hollow interior region comprises a blend of vaporizable matter of different particle sizes, and the particle sizes of the blend of the vaporizable matter are selected for maintaining the level of vapour of the vaporizable constituent in the aerosol substantially constant over the time period during which the vaporizable matter is being heated from the time the vaporizable matter is raised to a temperature suitable for vaporizing the constituent until substantially all of the vapour has been evaporated from the vaporizable constituent.
17. A container as claimed in claim 1 in which the vaporizable matter contained in the hollow interior region of the container is selected from one or more of the following: plant matter herbs tobacco mullein passion flower cloves yohimbe mint tea eucalyptus camomile.
18. A container as claimed in claim 1 in which the vaporizable matter contained in the hollow interior region of the container is tobacco, and preferably, the container is in the form of a sachet adapted for engagement in a plug portion of the vaporizing chamber with the plug portion of the vaporizing chamber in engagement with the vaporizing chamber.
19. A method for vaporizing a vaporizable constituent of vaporizable matter to form an aerosol, the method comprising placing the vaporizable matter in a hollow interior region of a container comprising a first accommodating means for accommodating a carrier fluid into the hollow interior region and a second accommodating means for accommodating the aerosol from the hollow interior region, placing the container in a vaporizing chamber of a vaporizing device, heating the container and the vaporizable matter therein to a temperature at which the vaporizable constituent vaporizes, and drawing a carrier fluid into the hollow interior region of the container through the first accommodating means and through the hollow interior region for entraining vapour of the vaporized constituent in the carrier fluid to form the aerosol and drawing the aerosol through the second accommodating means.
20. A vaporizing device comprising a vaporizing chamber and a heat source for heating the vaporizing chamber, and a container as claimed in claim 1 located in the vaporizing chamber, the vaporizing chamber having a carrier fluid inlet for facilitating drawing of a carrier fluid into the hollow interior region of the container through the first permeable means for entraining vapour of a vaporizable constituent of the vaporizable matter in the carrier fluid to form an aerosol of the carrier fluid and the vapour of the vaporizable constituent, so that the aerosol can be drawn from the hollow interior region of the container through the second permeable means.
Type: Application
Filed: Mar 29, 2012
Publication Date: Oct 4, 2012
Applicant: OGLESBY & BUTLER RESEARCH & DEVELOPMENT LIMITED (Carlow)
Inventors: Alfred Peter OGLESBY (Carlingford), John Joseph STOREY (Portlaoise)
Application Number: 13/433,828
International Classification: A24F 47/00 (20060101); A24D 3/04 (20060101);