None.
The disclosure relates to the field of consumable cannabis delivery devices, and more particularly to a delivery device for smokable cannabis and a manufacturing method for same.
In the field of consumable cannabis, many states have passed legislation legalizing use of such cannabis for both medical and recreational usage. Pending legislation in additional states may greatly affect the current landscape of cannabis usage, as more people may be introduced to the use of cannabis either as a recreational endeavor or as a treatment for a plurality of medical issues and diseases. While the uses of medical cannabis and recreational cannabis appear to differ, there is a similarity in delivery of both medical and recreational cannabis to the consumer. Consumable cannabis; be it smoked, vaporized, or consumed in some other form, may not come from the same batch of cannabis or even the same manufacturing method, resulting in possible distinguishable differences between batches of consumable cannabis.
What is needed, is a means to provide a delivery device for a batch of smokable cannabis and to provide a manufacturing method for identical batches of smokable cannabis, so that any differences between batches are either nearly eliminated or nearly indistinguishable from one another.
Accordingly, the inventor has conceived and reduced to practice, in a preferred embodiment of the invention, a manufacturing method for consistent batches of consumable cannabis to be smoked in a delivery device (generally resembling a hollowed-out cylindrical-type shape; however, it should be appreciated that other final delivery device shapes may be used according to a desired arrangement or use case of the invention). Accordingly, in this manufacturing method, batches of flowers and leaves from one or more cultivars of cannabis, may be shredded and sterilized for an initial test to determine concentration of desired active compounds per batch sample. These batch samples may then be combined together(according to specific proportions as required for a targeted therapeutic outcome) to create a specific active compound profile, such that the finished product retains a desired potency effect that is consistent across multiple batches. Blended batches may be tested a second time for confirmation of correct active compound profiles; if a discrepancy occurs, blends may be reformulated and sent through testing procedures until desired profiles are reached. Once desired potency of active compound profiles are reached; the batch is manufactured into a smokable cannabis form, packaged and labeled, and finally distributed to consumers.
According to a preferred embodiment, a method for manufacturing smokable cannabis of a consistently defined active compound composition, has been devised and reduced to practice. This method comprises a plurality of cannabis plants and cannabis cultivars; cannabis cultivars contain concentrations of active compounds and are differentiated into two groups of cultivars: each first cannabis cultivar contains an active compound profile that differs from each second cannabis cultivar active compound profiles. This method also comprises a shredding device configured to reduce cannabis plant materials to a reproducible range of mesh dimensions, a mixing device configured to combine specific amounts of the reduced cannabis material from each plurality of cannabis cultivars, and a loading device configured to load a measured quantity of the combined cannabis material into a some-able delivery device. This method for manufacturing smokable cannabis with an active compound comprises the steps of: harvesting flowers and leaves from a plurality of cannabis plants and cannabis cultivars, shredding the flowers and leaves to a mesh size able to be loaded into a cylindrical delivery device, combining specific amounts of cannabis plant material from one or more cannabis strains to produce a batch sample with a specific active compound, and loading the batch sample into a cylindrical smokable device to be distributed to consumers for use.
Further, according to another preferred embodiment of the invention, a method for manufacturing a defined active compound profile has been developed and reduced to practice. Active cannabis compounds are chosen from a set of delta-9-tetrahydrocannabinol, cannabidiol, cannabichromene, cannabinol, cannabigerol, tetrahydrocannabivarin, cannabidivarin, delta-8-tetrahydrocannabinol, delta-9-tetrahydrocannabinol, and tetrahydrocannabinolic acid. Active cannabis compounds are chosen from a set comprising β-myrcene, α-pinene, ocimene, terpineol, β-caryophyllene, linalool, limonene, terpinolene, valencene, geraniol, phellandrene, carene, terpinene, fenchol, borneol, bisabolol, phytol, camphene, sabinene, camphor, isoborneol, menthol, cedrene, nerolidol, guaiol, isopulegol, geranyl, acetate, cymene, eucalyptol, and pulegone. A measured quantity of at least one exogenous active cannabis compound is added to at least one mixture of cannabis plant materials.
The accompanying drawings illustrate several embodiments of the invention and, together with the description, serve to explain the principles of the invention according to the embodiments. It will be appreciated by one skilled in the art that the particular embodiments illustrated in the drawings are merely exemplary, and are not to be considered as limiting of the scope of the invention or the claims herein in any way.
The inventor has conceived, and reduced to practice, a method for manufacturing smokable cannabis with a defined active compound composition and a smokable cannabis delivery device.
One or more different inventions may be described in the present application. Further, for one or more of the inventions described herein, numerous alternative embodiments may be described; it should be understood that these are presented for illustrative purposes only. The described embodiments are not intended to be limiting in any sense. One or more of the inventions may be widely applicable to numerous embodiments, as is readily apparent from the disclosure. In general, embodiments are described in sufficient detail to enable those skilled in the art to practice one or more of the inventions, and it is to be understood that other embodiments may be utilized and that structural, compound constituent, constituent compound ratio, constituent compound isomer, constituent compound concentration and other changes may be made without departing from the scope of the particular inventions. When an active compound with multiple isomers is cited, it is to be understood that a mixture containing equal concentrations of those isomers is in use unless otherwise specified. Accordingly, those skilled in the art will recognize that one or more of the inventions may be practiced with various modifications and alterations. Particular features of one or more of the inventions may be described with reference to one or more particular embodiments or figures that form a part of the present disclosure, and in which are shown, by way of illustration, specific embodiments of one or more of the inventions. It should be understood, however, that such features are not limited to usage in the one or more particular embodiments or figures with reference to which they are described. The present disclosure is neither a literal description of all embodiments of one or more of the inventions nor a listing of features of one or more of the inventions that must be present in all embodiments.
Headings of sections provided in this patent application and the title of this patent application are for convenience only, and are not to be taken as limiting the disclosure in any way.
When a single device or article is described, it will be readily apparent that more than one device or article may be used in place of a single device or article. Similarly, where more than one device or article is described, it will be readily apparent that a single device or article may be used in place of the more than one device or article.
Techniques and mechanisms described or referenced herein will sometimes be described in singular form for clarity. However, it should be noted that particular embodiments include multiple iterations of a technique or multiple manifestations of a mechanism unless noted otherwise. Process descriptions or blocks in figures should be understood as representing modules, or segments which include one or more executable actions for implementing specific functions or steps in the process. Alternate implementations are included within the scope of embodiments of the present invention in which, for example, functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those having ordinary skill in the art.
While strictly illegal in all states until recently, cannabis, more commonly known as marijuana since the mid-1930s, has been extensively cultivated throughout the world for centuries and secretly cultivated within the United States and elsewhere where the plant and its products are illegal to the point where there are tens if not hundreds of cultivars or strains which comprise differing levels of the many active compounds that give cannabis its wide range of sought after effects. A family of active compounds that are specific to cannabis and its close relative plant species is the cannabinoids of which nearly 70 have been identified that have overlapping but different effect profiles. Perhaps best known and present at high but varying concentration in cannabis strains are delta-9-tetrahydrocannabinol (THC) which may vary from approximately 27% to as low as 0.1% (wt/total isolate wt. Steep Hill Labs/steephill.com) depending on the cannabis strain and which is the psychoactive agent responsible for cannabis' ability to alter mood, to give the impression of altered consciousness and to cause feelings of euphoria which people consider the “cannabis high.” Another cannabinoid, cannabidiol (CBD) may vary depending on the strain from approximately 30% to as low as 0.02% and to which the calming, contentment, “stoned feeling” effects of certain cannabis strains is attributed. A third major cannabinoid, cannabinol (CBN) is found in stored, dried cannabis and may also be a thermal breakdown product of THC. CBN is therefore usually found in higher concentrations in smoke or vaporization delivery methods. It is strongly sedative and again may add the “stoned,” inactive, reputation of some cannabis users. A second family of active compounds, the terpenes, are a very large family of aromatic branched hydrocarbons that are produced by a wide variety of plant species and are among the active ingredients of essential oils created from them. Different cannabis strains produce widely different terpenes and their derivative terpenoids at widely different levels that may range from 0% to 5% wt/wt and which may give different cannabis strains their unique odors. Some of the Terpenes' impact on cannabis effects include potentiating the effects of specific cannabinoids such as THC and having weak sedative, anti-anxiety and pain-reducing properties of their own.
It is the differences in the levels and types of both cannabinoids and terpenes, as well as the presence of less-prevalent compounds such as flavonoids, that imbue cannabis strains with a wide range of medically and recreationally desirable effects. Accordingly, various aspects of the invention described herein assay and blend cannabis raw material to control the in toto effects of each identically-typed smokable device in a set and the in toto effects of identically-typed smokable devices between batches.
Cannabinoids, terpenes and flavonoids employed in aspects are to be assumed isolated and purified by previously-published means best suited for that active compound, which may include (but are not limited to) column chromatography, gas chromatography, supercritical fluid extraction, either with or without additional, modifying solvents, as well as other methods known to those skilled in the art.
When single cannabinoids, multiple cannabinoid mixtures, cannabinoid-terpene mixtures, cannabinoid-terpene-flavonoid mixtures, terpene, multiple terpene mixtures, and terpene-flavonoid mixtures are listed in aspects, are to be assumed administered by methods previously cited to both retain the stability of all active compounds cited in a formulation and to deliver all active compounds within the formulation in a manner of optimal bioavailability and bioactivity of each active compound. These delivery methods may comprise, but are not limited to smoking cannabis biomatter infused with a known amount of the formulation, inhalation of vapor comprising the formulation, and administration of sublingual tinctures of the formulation as well as other administrative methods known to be applicable to those with ordinary skill in the art.
It will be readily apparent that more than one method of active compound assay may be used for assay of a single formulation cited in an aspect and that any method of assay that maintains both constituent active compound stability and high bioavailability of each active compound while maintaining relevance to concentrations expected present within the intended method of administration, smoking, may be employed for a cited formulation.
Plant material 115, 135 from cultivars 105, 125 may then be combined into calculated ratio-based batches 150 of material to achieve target concentrations of specific active cannabis compounds based upon component make-up of cultivars 105, 125. In the instance where desired active cannabis compounds and/or desired concentration of active cannabis compounds are not found, a pre-existing solution 170 of desired and purified active compound composed of a known concentration may be added to material batches 150 prior to analysis 195. Detailed composition of active compounds within material batches 150 may be identified using analysis 195 methods of isolation and assay. Material batches 150 may also be analyzed for microbial contamination within acceptable standards 190. Once passing all analyses 190, 195, material batches 150 may be manually or mechanically loaded into a hollowed-out cylindrical-type shape delivery device 180a, 180b composed of hemp paper or other substance (it should be appreciated that other devices may be used such as but not limited to; devices composed of plastic or metal, devices comprising filters or tipping paper, or other devices known to those skilled in the art according to a desired use basis of the invention). Once material batches 150 are loaded into delivery device 180a, 180b, devices 180a, 180b are then toasted from 180° F. to 220° F. for 3 to 15 minutes. Finished product may then be labeled, packaged, and distributed.
In various embodiments, functionality for implementing systems or methods of the present invention may be distributed among any number of manufacture stations or devices. For example, various harvesting devices, processing devices, such as shredders, tube loaders and packagers may be employed for performing various functions in connection with the present invention, and such modules may be variously implemented within a configuration which combines multiple functions or performs each function within distinct components.
The skilled person will be aware of a range of possible modifications of the various embodiments described above. Accordingly, the present invention is defined by the claims and their equivalents.
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Number | Date | Country | |
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20180352849 A1 | Dec 2018 | US |