HERBAL DECARBOXYLATION AND INFUSION SYSTEM

Abstract

A system for decarboxylating and infusing an organic material includes a decarboxylation and infusion apparatus is provided. The apparatus includes a heated reservoir in operable communication with a user interface whereon a user selects decarboxylation and infusion settings. The heated reservoir has a mixing element to agitate an organic material and solvent disposed therein as well as a filter to filter the organic material following the infusion.

Description

TECHNICAL FIELD

The embodiments presented relate to systems for the automated decarboxylation of organic material and infusing the organic materials in a solvent.

BACKGROUND

The process of infusing solvents such as oils, fats, or alcohols with an organic material has been used to allow for or alter the delivery of organic material to a consumer. It is known that Cannabis contains the medically useful molecules of cannabidiolic acid (CBDA), tetrahydrocannabinolic acid (THCA), and various other similar molecules. These molecules must be decarboxylated to yield Cannabidiol (CBD) and Tetrahydrocannabinol (THC), which are biologically active.

Following decarboxylation, the activated CBD and THC can be infused with a solvent for delivery to the consumer. Common solvents include butter, cooking oils, alcohols, glycerin, and other solvents having similar chemical properties. The infusion process binds the trichomes and plant-based oils into the solvent following a period of time and the introduction of heat and/or pressure.

The process of decarboxylation of Cannabis has historically been performed using essential cookware and kitchen appliances. While some devices have been created to aid in decarboxylation or infusion, the currently available options are messy, odiferous, inflexible, inaccurate, and require multiple pieces of equipment for proper execution.

Many devices in the current arts emit odors produced throughout the decarboxylation and infusion processes. Further, the systems do not have an active cooling element, thus requiring a longer cooling stage during the process. The excess heat may degrade the final product and produce unwanted byproducts.

SUMMARY OF THE INVENTION

The embodiments disclose a system for decarboxylating and infusing an organic material comprising a decarboxylation and infusion apparatus. The apparatus includes a heated reservoir in operable communication with a user interface wherein a user selects from a plurality of predetermined decarboxylation and infusion settings. The heated reservoir has a mixing element to agitate an organic material and solvent disposed of therein. The apparatus provides a means for decarboxylating and infusing organic materials into a biologically active material using a single apparatus and forgoing the need for additional tools and processes.

The apparatus facilitates the activation of molecules via decarboxylation to produce a biologically active infused solvent. The infused solvent can be used as a foodstuff, additive, topical, or other delivery mechanism depending on the molecular configuration, which is then infused into the solvent.

Many decarboxylation and infusion apparatuses in the current arts emit odors from the mixing chamber into the surrounding environment. The embodiments herein provide a fan and vent system which actively eliminates and/or masks odors by transporting air through a filter.

In one aspect, a fan is provided to actively reduce the heat produced during the decarboxylation and infusion processes.

The decarboxylation and infusion apparatus described herein provides a means for a semi-automated system for performing the chemical processes of decarboxylating an organic material and infusing the decarboxylated organic material into a solvent for various applications, including consumption by a human. The apparatus may be provided as a single contained unit within a housing to prevent contamination, or undue transfer of the raw or processes materials.

In one aspect, the user interface is provided on a smart device in wireless communication with the decarboxylation and infusion apparatus.

In another aspect, the infusion setting is comprised of a time setting and a temperature setting allowing the user to control the type of infusion and potency of the final infused solvent product.

In one aspect, the solvent is comprised of at least one of the following: oil, butter, alcohol, or glycerin.

In another aspect, a user performs the steps of disposing an amount of the organic materials into the reservoir of the decarboxylation and infusion apparatus. The reservoir is then sealed, and a decarboxylation option is selected via the user interface. The decarboxylation is started, and once complete, the reservoir is opened, and the solvent is disposed of therein. The reservoir is sealed once more, and the organic material is infused with the solvent following the selection of a time and temperature option. Following the infusion protocol, the organic material is filtered to isolate the infused solvent.

In one aspect, the infused solvent is provided as a foodstuff, a beverage, a tonic, an elixir, a topical, a tincture, a liquid, a gel, or an aerosol.

BRIEF DESCRIPTION OF THE DRAWINGS

A complete understanding of the embodiments and the advantages and features thereof will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:

FIG. 1 illustrates a block diagram of the decarboxylation and infusion apparatus components, according to some embodiments;

FIG. 2 illustrates a flowchart of a method for decarboxylating and infusing an organic material with a solvent using the decarboxylation and infusion apparatus, according to some embodiments;

FIG. 3 illustrates a perspective view of the decarboxylation and infusion apparatus, according to some embodiments;

FIG. 4 illustrates a perspective view of the decarboxylation and infusion apparatus, according to some embodiments; and

FIG. 5 illustrates a cross-section view of the internal components of the decarboxylation and infusion apparatus.

DETAILED DESCRIPTION

The specific details of the single embodiment or variety of embodiments described herein are set forth in this application. Any specific details of the embodiments are used for demonstration purposes only, and no unnecessary limitation or inferences are to be understood therefrom. It is noted that the embodiments reside primarily in combinations of components related to the system and method of use thereof.

The present embodiments are based in part upon extraction procedures and delivery approaches that allow selective utilization of various cannabinoid molecules and terpenes from the Cannabis plant. These various cannabinoid compounds are designed to selectively affect various cannabinoid receptors in the nervous system, immune system, and other tissues. The extract is an oil-based or solvent-based plant product that contains inactive and active compounds contained in the Cannabis plant such as cannabinoids, terpenes, and/or flavonoids. Compositions of the invention and methods of extraction disclosed herein provide an extract with specific physiological properties that are mediated through separate pathways and receptors, which provide numerous benefits and advantages.

The extracts and/or delivery methods of the embodiments allow a wide range of prevention, treatment, and management options for patients. In some aspects, the delivery methods of the invention allow for employing micro-dosing with a stacking method of cannabinoid administration week-by-week until a certain saturation point, which is based on the response, weight, and monthly-quarterly test results. One skilled in the arts will readily understand the variety of product configurations and delivery mechanisms that may be produced using the embodiments.

It has been found that the age of the Cannabis plant material in addition to the temperature in which it is stored and processed is critical. Importantly, for an extract to produce psychoactive properties or other significant properties found as a result of the consumption of decarboxylated molecules, the Cannabis plant material is heated above 160° F.

Further the embodiments provided herein relate to a decarboxylation and infusion apparatus to produce an infused solvent. The apparatus decarboxylates organic material such as Cannabis to activate molecules contained in the plant material. In one example, the apparatus is used to decarboxylate Cannabidiolic acid (CBDA) and Tetrahydrocannabinolic acid (THCA) into Cannabidiol (CBD) and Tetrahydrocannabinol (THC). One skilled in the arts will appreciate that various molecules contained in Cannabis will readily undergo similar decarboxylation.

To facilitate decarboxylation, the apparatus is comprised of a heating element that can be selectively programmed to heat a reservoir containing the organic material to a specific temperature or temperature range. The heating element is further utilized to facilitate the infusion of the decarboxylated molecules into a solvent. It is known that infusion of molecules, including CDB and/or THC, is accomplished in a solvent such as cooking oils, glycerin, butter, or alcohol.

In some embodiments, the apparatus is in operable communication with a computing device that allows the user to control the function and operational settings of the apparatus during use. A mobile app may be downloaded to the computing device having a processor configured to perform instructions stored in a database. The database can include operational settings such as decarboxylation and infusions times, temperatures, pressures, agitation cycles, and protocols.

In some embodiments, the database may include a list of decarboxylation and infusion protocols for various recipes. Each recipe may be specific to one or more molecules, one or more organic materials, one or more solvents, and combinations thereof. Selecting a recipe may cause the apparatus to autonomously execute the instructions thereof.

In reference to FIG. 1, the system 10 for decarboxylating and infusing organic materials includes a decarboxylation and infusion apparatus controller 100 configured to produce a usable infused product which may be ingested or otherwise delivered to the user. The apparatus controller 100 may operate without the use of auxiliary tools or appliances. The apparatus controller 100 is in operable communication with a timer 110, alert system 120, heating element 130, and mixing element 140, which are programmable to carry out procedures for decarboxylating and infusing organic materials. The heating element 130 provides heat to a reservoir wherein the organic material is decarboxylated and infused. The mixing element 140 is provided within the reservoir to agitate the organic material and promote uniform heating during decarboxylation and infusion protocols. A memory 150 stores operational settings for the apparatus controller 100 for various organic materials and infused solvent products that can be created. Each operational setting is selectable using a user interface 160 provided on the apparatus 100 or a computing device 170 in communication with the user. Network 180 transmits and receives data to and from the computing device 170 and database 190 to the apparatus controller 100.

In some embodiments, instructions for operational settings are stored in the database, which can include hardware components or cloud-based data storage. The computing device displays selectable options to the user, which are transmitted via the network to operate the apparatus.

In some embodiments, the alert system alerts the user using the apparatus and/or the computing device upon completion of the decarboxylation and infusion protocols. Alerts can include any audio or visual means known in the arts.

FIG. 2 illustrates a method of use 200 of the apparatus. In step 210, the user disposed of organic materials into the reservoir of the decarboxylation and infusion apparatus 100. In step 220, the reservoir is sealed, and the user selects a suitable decarboxylation protocol using a user interface in step 230. The decarboxylation protocol may be altered depending on the organic material used and molecule to be decarboxylated. Following the decarboxylation protocol in step 240, the reservoir is opened, and a solvent is provided in step 250. In step 260, the reservoir is sealed, and the organic material is infused with the solvent to produce an infused solvent product. In step 270, the organic material is filtered to isolate the infused solvent, which can then be added to a foodstuff, beverage, topical, or another delivery mechanism.

In some embodiments, the user may select for isolation of one or more molecules by selecting an infusion pressure, an infusion temperature, one or more solvents, and infusion time. For example, the user can select to infuse CBD into the solvent without THC to reduce the psychoactive effects of the infused solvent.

FIG. 3 and FIG. 4 illustrate the decarboxylation and infusion apparatus 300 comprising a housing 305 having controls 310, 315, 320 (collectively referred to as “controls”), and interface 325. Each of the controls permits the user to interact with the interface 325 to select various functionalities and operational parameters of the decarboxylation and infusion apparatus 300 to effectively decarboxylate and/or infuse or otherwise prepare the organic material.

FIG. 5 illustrates a cross-section view of the decarboxylation and infusion apparatus 300 to show the housing 305 and the internal components thereof. A mixing element 505 is provided within a heated reservoir 510 to agitate organic material and a solvent disposed of therein. One skilled in the arts will readily understand that the organic material and solvent may change depending on the application of the product. A fan 530 is positioned within the housing 305 to aid in heat dissipation following the decarboxylation and infusion processes. The heat dispersion may aid in maintaining the quality by preventing degradation of the final product. Further, the fan 530 may aid in the removal and/or the redirection of odors produced throughout the process. The fan 530 is in communication with a vent 540 to permit the egress of air.

In some embodiments, the fan 530 is in operable communication with the controller 100 to provide operational controls to the fan 530 during cooling and deodorization. In such, the user may select a fan speed, deodorization settings, fan timing, and other controls to suitably cool the mixing chamber and deodorize air emitted from the vent 540.

In some embodiments, the vent 540 may include a filter such as carbon (charcoal) filtration, or similar filtration means to remove odors from the expelled air. The vent 540 may include one or more air expulsion elements, including auxiliary fans, to direct air from the mixing chamber through the vent 540 wherein the odor is neutralized, removed, or masked to prevent the odors within the mixing chamber from being emitted into the surrounding environment.

In some embodiments, the heated reservoir is at least partially surrounded or encapsulated by an insulative layer to thermally isolate the heated reservoir and the product therein within the apparatus from the environment and its ambient heating conditions as well as to evenly distribute the heat. An airtight lid may be provided to prevent oxygen from entering mixing chamber during the decarboxylation and infusion processes, minimize evaporation, and reduce odors.

The housing may be constructed of a variety of materials which are suitable, including, but not limited to, plastic, glass, silicone, food-grade butyl rubber, latex, aliphatic polyesters, natural rubber, metal, metal foils, polytetrafluoroethylene, biopolymers such as liquid wood, modified casein, polyhydroxyalkanoate polyesters, including polyhydroxybutrate, polyhydroxyvalerate, polylactic acid, starch-based polyesters, keratin processed with methyl acrylate, hemp polymers, hemp plastic, hemp composite polymers, and combinations thereof.

In some embodiments, the decarboxylation and infusion apparatus described herein provides a means for a semi-automated system for performing the chemical processes of decarboxylating an organic material and infusing the decarboxylated organic material into a solvent for various applications, including consumption by a human. The apparatus may be provided as a single contained unit within a housing to prevent contamination, or undue transfer of the raw or processes materials.

The housing may be provided in various configurations to provide a single containerized heated reservoir and mixing chamber and mixing element to decarboxylate an organic material and infuse the organic material with a solvent. The infused solvent may then be extracted from the housing and packaged or otherwise processed into a final product.

The preferable heat-cooking steps may comprise only one dry heat cooking step, multiple dry heat-cooking steps, and/or dry heat-cooking step(s) with blended herbs, chemicals, and flavorings.

Many different embodiments have been disclosed herein, in connection with the above description. It will be understood that it would be unduly repetitious and obfuscating to literally describe every combination and subcombination of these embodiments. Accordingly, all embodiments can be combined in any way and/or combination, and the present specification, shall be construed to constitute a complete written description of all combinations and subcombinations of the embodiments described herein, and of the manner and process of making and using them, and shall support claims to any such combination or subcombination.

It will be appreciated by persons skilled in the art that the present embodiment is not limited to what has been particularly described hereinabove. A variety of modifications and variations are possible in light of the above teachings without departing from the following claims.

Claims

1. A system for decarboxylating and infusing an organic material, the system comprising: a decarboxylation and infusion apparatus including a heated reservoir in operable communication with a user interface whereon a user selects decarboxylation and infusion settings, the heated reservoir including a mixing element to agitate an organic material and solvent disposed therein; anda fan to actively cool the heated reservoir, the fan in communication with a vent having a filter, the vent to expel and deodorize air emitted therefrom.

2. The system of claim 1, wherein the user interface is provided on a smart device in wireless communication with the decarboxylation and infusion apparatus.

3. The system of claim 1, wherein infusion setting is comprised of a time setting and a temperature setting.

4. The system of claim 1, wherein the solvent is comprised of at least one of the following: an oil, a butter, an alcohol, or a glycerin.

5. The system of claim 1, wherein a user performs the steps of: disposing an amount of the organic materials into the reservoir of the decarboxylation and infusion apparatus;sealing the reservoir;selecting a decarboxylation option via the user interface;selecting a start option via the user interface;decarboxylating, via the decarboxylation and infusion apparatus, the organic material;opening the reservoir and providing an amount of the solvent to the reservoir;sealing the reservoir and selecting an infusion setting via the user interface;infusing, via the decarboxylation and infusion apparatus, the organic material with the solvent to produce an infused solvent; andremoving the reservoir and filtering the material to isolate the infused solvent.

6. The system of claim 5, wherein the infused solvent is food-safe.

7. The system of claim 6, wherein the infused solvent is provided as: a foodstuff, a beverage, a tonic, an elixir, a topical, a tincture, a liquid, a gel, or an aerosol.

8. A system for decarboxylating and infusing an organic material, the system comprising: a decarboxylation and infusion apparatus including a heated reservoir in operable communication with a user interface whereon a user selects decarboxylation and infusion settings, the heated reservoir including a mixing element to agitate an organic material and solvent disposed therein;a user interface provided on the decarboxylation and infusion apparatus to permit the user to select from a plurality of decarboxylation and infusion settings provided on a user interface on a housing of the decarboxylation and infusion apparatus; anda fan to actively cool the heated reservoir, the fan in communication with a vent having a filter, the vent to expel and deodorize air emitted therefrom.

9. The system of claim 8, wherein the user interface is provided on a smart device in wireless communication with the decarboxylation and infusion apparatus.

10. The system of claim 8, wherein infusion setting is comprised of a time setting and a temperature setting.

11. The system of claim 8, wherein the solvent is comprised of at least one of the following: an oil, a butter, an alcohol, or a glycerin.

12. The system of claim 8, wherein a user performs the steps of: disposing an amount of the organic materials into the reservoir of the decarboxylation and infusion apparatus;sealing the reservoir;selecting a decarboxylation option via the user interface;selecting a start option via the user interface;decarboxylating, via the decarboxylation and infusion apparatus, the organic material;opening the reservoir and providing an amount of the solvent to the reservoir;sealing the reservoir and selecting an infusion setting via the user interface;infusing, via the decarboxylation and infusion apparatus, the organic material with the solvent to produce an infused solvent; andremoving the reservoir and filtering the material to isolate the infused solvent.

13. The system of claim 12, wherein the infused solvent is food-safe.

14. The system of claim 13, wherein the infused solvent is provided as: a foodstuff, a beverage, a tonic, an elixir, a topical, a tincture, a liquid, a gel, or an aerosol.

15. A method for decarboxylating and infusing an organic material, the method comprising the steps of: disposing an amount of one or more organic materials into a reservoir of a decarboxylation and infusion apparatus;sealing the reservoir;selecting a decarboxylation option via a user interface;selecting a start option via the user interface;decarboxylating, via the decarboxylation and infusion apparatus, the organic material;opening the reservoir and providing an amount of a solvent to the reservoir;sealing the reservoir and selecting an infusion setting via the user interface;infusing, via the decarboxylation and infusion apparatus, the organic material with the solvent to produce an infused solvent;deodorizing air emitted from the mixing chamber via a fan and a vent; andremoving the reservoir and filtering the material to isolate the infused solvent.

16. The method of claim 15, wherein the user interface is provided on a smart device in wireless communication with the decarboxylation and infusion apparatus.

17. The method of claim 15, wherein infusion setting is comprised of time and temperature settings.

18. The method of claim 15, wherein the solvent is comprised of at least one of the following: an oil, a butter, an alcohol, or a glycerin.

19. The method of claim 15, wherein the reservoir is comprised of a mixing element to agitate the organic material during infusion to distribute the organic material and heat.

20. The method of claim 15, wherein the infused solvent is provided as: a foodstuff, a beverage, a tonic, an elixir, a topical, a tincture, a liquid, a gel, or an aerosol.