HOLDING AND TEMPERATURE REGULATION DEVICE
A portable, handheld, storage device for holding and organizing perishable goods. The storage device includes an upper assembly having a cap connected to a working lid, a main body having a removable insert that can hold perishable goods in the removable insert or within the interior cavity of the main body. The main body is connected to a lower assembly that includes a removable thermal pack and thermal conductor rod. The thermal conductor rod conducts heat through the main body by making contact with an exterior underside of the main body to provide a suitable temperature within an interior of the main body or the removable insert. A removable pack is freezable or can be heated to provide a desired temperature as conducted from a bottom cup holding the removable pack to the interior of the main body and the items stored inside the main body or the removable insert.
This application is a non-provisional application which claims priority to U.S. Provisional Patent Application No. 63/288,205 filed on Dec. 10, 2021, which is incorporated by reference in its entirety.
FIELD OF THE DISCLOSUREThe overall field of this invention generally pertains to a portable, handheld, storage device for storage and temperature regulation of potentially perishable materials and related accessories and, more specifically, to a container for storing and maintaining the temperature of perishable organic material, cartridges, batteries, and other related items.
BACKGROUNDMaintaining the freshness of many types of perishable, organic material requires the perishable, organic material be stored in a cool and dry place, but not made too cold or frozen. However, people often transport perishable, organic material (e.g., cannabis) with them when attending events, going outside, and generally having it on their person. As such, the perishable, organic material can be subjected to variable temperatures and humidities often exceeding those associated with maintaining optimal freshness. When the temperature and/or humidity exceed specified thresholds, perishable, organic material can degrade. For example, cannabis may be subjected to these varying, and potentially higher, temperatures and humidities when transported and/or held for recreational use, thereby degrading freshness, potency, and overall quality. Degradation due to higher temperature and/or humidity can usually be mitigated by storing the perishable, organic material in an area or container with reduced temperature and humidity variation.
Accordingly, several solutions have been implemented to solve problems associated with regulating temperature and humidity when transporting material. These solutions implement different approaches to facilitating a cool and dry atmosphere. However, these solutions often use complicated mechanisms that do not meet the needs for perishable, organic materials, and do not contemplate cooling accessories such as battery and cartridge cooling. The storage device described herein may advantageously address such deficiencies.
SUMMARYA material storing and temperature regulating device is presented herein comprising a cap and a working lid, wherein the cap covers the working lid and includes a functional work surface. The storage device further comprises a main body having an interior cavity, wherein the working lid can detachably attach to a top of the main body, and a removable insert configured to be stored within the interior cavity of the main body, wherein the removable insert is partially enclosed and comprises an interior cavity adapted to hold items. The storage device further comprises a bottom cup coupled to or otherwise attached to a lower end of the main body, wherein the bottom cup further comprises a removable pack adapted to be held with an interior cavity of the bottom cup, wherein the removable pack is adapted to be made cold including frozen or heated, wherein the removable pack comprises a conductor rod opening. The storage device further comprises a conductor rod, wherein the conductor rod is configured to be inserted within the conductor rod opening of the removable pack, wherein the conductor rod is configured to transfer heat from a main body and/or removable insert through the conductor rod to towards a removable pack or from the conductor rod to the main body and/or removable insert to preserve the items at a suitable temperature relative to an ambient temperature of external surroundings to the material storing and temperature regulating device. The removable pack may be a solid object that has a width that is narrower than a width of the bottom cup so as to fit inside of the interior cavity of the bottom cup. In a non-limiting embodiment, the cap is hingedly attached to the working lid, wherein the cap is attached to the working lid facilitating closure of the working lid. In a non-limiting embodiment, the working lid is threaded and configured to threadably attach and detach from the main body. In a non-limiting embodiment, the removable insert comprises a substantially vertical body comprising walls that have a recessed neck area and a cylindrical top surface, and the interior cavity is exposed from either a side or a top of the removable insert. Further, the removable insert may be flexible. In one non-limiting embodiment, the removable insert is made of silicone. In other embodiments, the removable insert is made of an insulating material comprising polystyrenes, polyisocyanurates, and ceramics.
In a non-limiting embodiment, the bottom cup comprises a thread on a top interior rim of the bottom cup. Further, there may be a threaded interface that is connectable to the bottom cup. Further, the bottom cup and the threaded interface may be coupled to a bottom of the main body.
In another aspect, the present description includes a method for using a material storing and temperature regulating device in accordance with one or more non-limiting embodiments. The method may include providing a material storing and temperature regulating device. The method may further include removing the bottom cup and removing the removable pack from the interior cavity of the bottom cup and removing the conductor rod. The method may further include cooling or heating the removable pack for a desired period of time. After the desired period of time has lapsed, the method may include returning the cooled or heated removable pack to the interior cavity of the bottom cap. The method of use may further include returning and inserting the conductor rod to the conductor rod opening of the removable cap and coupling the bottom cup to the main body to reattach the bottom cup with the stored removable cap to the main body. If the removable pack was made cold and/or frozen, then the interior temperature of the main body is lowered including the interior cavity of the main body and/or the removable insert by transferring heat from the main body and/or removable insert through the conductor rod through the removable pack. If the removable pack was heated, the method may include raising the interior temperature of the main body including the interior cavity of the main body and/or the removable insert by transferring heat from the removable pack by virtue of the conductor rod conducting heat from the removable pack to the main body and/or removable insert.
The method may further include adding perishable items to the interior cavity of the removable insert or adding separate containers containing perishable items to the interior cavity of the removable insert. The method may further include removing the removable insert and solely adding perishable items to the interior cavity of the main body without using the removable insert but still being able to heat or cool the perishable items contained within the interior cavity of the main body by virtue of the conductor rod creating a cold or hot temperature by virtue of transferring heat due to the cold or hot temperature of the removable pack.
The method may further include raising the cap to expose the functional working surface of the working lid, wherein neither the cap nor the working lid includes a drink opening. The method may further include threadably unscrewing the working lid from the main body to access the interior cavity of the main body and to access the removable insert.
Other aspects and advantages of the invention will be apparent from the following description and the appended claims.
The present invention will be described by way of exemplary embodiments, but not limitations, illustrated in the accompanying drawings in which like references denote similar elements, and in which:
The present invention facilitates improved, economical, simple, and effective techniques that prolong the integrity of cannabis and other perishable, organic materials (including but not limited to food or drink items) by creating a temperature and humidity controlled atmosphere within a partially enclosed chamber. The present invention provides easily configurable storage capable of accommodating cannabis related or other types of items, including but not limited to, perishable organic goods such as herbal concentrates, food, batteries, etc. Furthermore, the present invention regulates temperatures within a storage chamber, either cooling or heating as appropriate.
Aspects of the invention as disclosed in one or more non-limiting embodiments herein include easy to use, improved, more economical, and effective techniques for keeping materials at or near a desired temperature and/or humidity to maintain freshness, effectiveness, and quality for longer periods of time. Aspects include a device for storing material. Interchangeable packs containing temperature adjusting substances (e.g., for cooling or heating) can be used to maintain a chamber of the device at or near a desired temperature or within a desired temperature range. A desired temperature or temperature range can be higher or lower than the temperature external to the device. The chamber can also be maintained at or near a desired humidity level or within a desired humidity level range. A desired humidity level or temperature humidity level range can be higher or lower than the humidity external to the device.
As shown in
In a non-limiting embodiment, the cap 114 is hingedly connected at 121 as shown in in the
Removable insert 103 is housed within main body 101 in
Hinge 121 is formed by the connection between lower receiver 115 and upper receiver 116 as shown in
As shown in
Turning to
Working lid 112 is intended to provide a working surface for user to position one or more perishable goods or items stored either within the interior cavity 804 (e.g., as shown in
The working lid 112 may include one or more receptacles 502a, 502b, 502c, 502d, and 502e as shown in a non-limiting example in
As such, the different diameters and sizes of the receptacles 502a-502e in the working lid 112 may vary to accommodate holding cannabis cartridges and/or vape pens of varying sizes which should preferably be kept upright which the receptacles 502a-502e in the working lid 112 are adapted to allow such cartridges to remain in an upright position on top of the working lid 112. The user may place the cartridges in the receptacles 502a-502e as needed after extracting a desired amount of cannabis that may be stored within an interior 804 of the main body 101 and/or within an interior 704 of the removable insert 103. The cap 114 is configured to close over the top surface of the working lid 112. The bottom surface of the working lid 112 includes a bottom rim 120 as shown in
In a non-limiting embodiment, neither the cap 114 nor the working lid 112 is a drinking lid. Rather, the cap 114 serves as a protective cover to the working lid 112, and the working lid 112 provides a functional work surface that includes receptacles 502a-502e which can hold various items that fit within those receptacles and/or the indented center groove on the top surface of the working lid 112.
As shown in
As shown in
The width W1 of the removable insert 103 may be narrower than the width of the main body 101 so as to be able to fit the removable insert 103 within the interior cavity 804 of the main body 101 (e.g., as shown in
Turning to
In a non-limiting embodiment, the bottom surface 802 fits into the interior cavity 904 of the threaded interface 108 as shown in the exploded view of
In a non-limiting embodiment, conductor rod 107 mechanically connects removable pack 102 to a portion of the removable insert 103. Conductor rod 107 acts as a thermal conductor to transfer the temperature of the removable pack 102 to the main body 101 and/or the removable insert 103. The conductor rod 107 acts as a thermal conductor and attempts to create an equilibrium between the temperature of the removable pack 102 and the temperature of the main body 101 that the conductor rod 107 is touching. More specifically, the conductor rod 107 transfers heat between removable insert 103 and the frozen temperature or the hot temperature of the removable pack 102 depending on whether the removable pack 102 is at a freezing cold temperature or a very high heat temperature. The transfer of heat compensates for a difference between a temperature within the partially enclosed chamber 704 of the removable insert 103, and/or the interior cavity 804 of the main body 101, and another temperature of the removable pack 102. The transfer of heat also maintains partially enclosed chamber 704 of the removable insert, and/or the interior cavity 804 of the main body 101 at a reduced temperature relative to a further ambient temperature external to the storage device 100 so as to keep the contents of the main body 101 cooler if the removable pack 102 retains a very cold temperature or warmer if the removable pack 102 retains a very hot temperature.
Notably, a user may want the goods contained within the interior cavity 804 of the main body 101 and/or within the interior cavity 704 of the removable insert 103 to remain at a lower temperature than the ambient outside temperature to preserve the integrity of the perishable goods that may be transported inside the main body 101 and/or the removable insert 103 of the storage device 100. For example, with respect to cannabis, it is preferable that cannabis is stored at 63 degrees Fahrenheit or below so as to preserve its freshness. If the temperature of the interior cavity 804 of the main body 101, and/or the temperature of the interior cavity 704 of the removable insert 103 exceeds 63, any cannabis stored therein may begin to deteriorate at an exponential rate as the temperature increases. Accordingly, it is desirable to the user that the temperature of the interior cavity 804 of the main body 101 and the interior cavity 704 of the removable insert 103 be ideally at least 63 degrees or less when the removable pack 102 is inserted within the bottom cup 104 and the conductor rod 107 located within the opening 1102 (e.g., as shown in
Accordingly, the removable pack 102 may be frozen and kept in the freezer so as to impart coldness to the storage device 100 or the removable pack 102 may be heated in a microwave or other heating element so as to impart heat to the contents stored within the storage device 100.
It is noted that in an alternative non-limiting embodiment, removable pack 102 contains a freezable substance such as but not limited to water, polymer, cellulose, refrigerant gel, or another type of freezable substance. Furthermore, in another aspect of the storage device 100, the removable pack 102 may contain a separately heatable substance. Heatable substance may create heat including use of chemical reactions, thermal mass storage (e.g., temperature adjustable foam), and electronic heat generation. In one or more non-limiting embodiments, conductor rod 107 mechanically connects removable pack 102 to the main body 101 that houses the removable insert 103. Conductor rod 107 transfers heat or cold provided by the removable pack 102, including by the freezable substance or heatable substance. The transfer of cold or heat from the re movable pack 102 via the conductor rod 107 may act to compensates for a difference between a temperature within the partially enclosed chamber 704 of the removable insert 103, the interior cavity 804 of the main body 101, and another temperature of the removable pack 102. The transfer of the thermal capabilities of the removal pack 102 also maintains and regulates the temperatures of the interior cavity 804 of the main body 101 and the interior cavity 704 of the removable insert 103 at an increased or decreased temperature relative to a further ambient temperature external to the storage device 100.
Notably, conductor rod 107 sits above and in contact with removable pack 102 and conductor rod 107 sits below and in contact with removable insert 103. Conductor rod 107 facilitates heat transfer between removable pack 102 and removable insert 103. Furthermore, removable insert 103 facilitates heat transfer to partially enclosed chamber 704. Main body 101 includes vacuum double wall 122 mitigating heat transfer between the main body 101 and its interior cavity 804, the removable insert 103 and its partially enclosed chamber 704, and the external environment.
Advantageously, where the removable insert 103 can be replaced, the storage device 100 can maintain chamber 704 at or near a desired temperature or temperature range with minimal interruption. Additionally, the removability of numerous components of device 100 serves to allow for effective cleaning of each component. Furthermore, removable insert 103 may be made of insulative materials to further improve the efficacy of the thermal regulation of the device 100. By supplying a relatively constant thermal transfer, the device 100 preserves the quality, freshness, and effectiveness of the materials that it contains. Such contained materials should not be construed to only be organic, perishable materials. The device 100 may serve to store all manner of things both liquid or not, organic or not, and perishable or not. Nothing in this application should be construed as limiting the applicability of device 100. Additionally, device 100 may also be used for heating purposes and thus should not be construed as being limited.
In order to use the storage device 100 according to one or more non-limiting embodiments, the user may unfasten and/or lift or otherwise remove the cap 114 and working lid 112 from the main body 101. As shown in the Figures and described above, in one or more non-limiting embodiments, the working lid can be threadably unscrewed from the main body 101. Removing the hingedly connected cap 114 and working lid 112 from the main body 101, the user gains access to the interior cavity 804 of the main body 101 and/or to the removable insert 103 which is stored and kept within the interior cavity 804 of the main body 101. If the user wants to keep the removable insert 103, the user may choose to add any perishable goods directly into the interior cavity 704 of the removable insert 103 by placing or otherwise positioning the goods inside the interior cavity 704 of the removable insert 103. Alternatively, the user may add goods to one or more containers, such as containers 712a, 712b as shown in
Next, or at any point in time, the user may need to add either a cold or hot removable pack 102 and conductor rod 107 assembled together (e.g., as shown in
In one or more non-limiting embodiments, the top surface 1002 of the conductor rod 107 makes contact with the flat underside of the bottom surface 802 of the main body 101. Thus, the conductor rod 107 is able to conduct the heat of the removable pack 102 to the main body 101 via actual heat transfer from the metal of the conductor rod 107 to the metal body of the main body 101 or vice versa and in turn, affect the internal temperature of an interior of the main body 101 to be either colder or hotter as needed to reach a suitable temperature. If for example, the temperature of the main body 101 and/or the removable insert 103 is hotter than the temperature of a cooler conductor rod 107 receiving the cold temperature of a cold removable pack 102, then the excess heat from the main body 101 and/or removable insert 103 will transfer towards the conductor rod 107, thereby cooling down the interior temperature of the main body 101 and the removable insert 103. However, if the conductor rod 107 is hot due to the higher temperature of the removable pack 102 being heated, then the heat from the hotter removable pack 102 transfers towards the conductor rod 107 towards the main body 101 and/or the removable insert 103 stored therein.
Accordingly, the storage device 100 may act as a single unit, insulated, transportable, storage unit that can act as a cooler to the perishable items held within the storage device 100 or as a heating unit to keep the perishable items held inside at a heated temperature if so desired. Accordingly, the present description provides for various embodiments for the device 100 utilizing a removable pack 102 with thermal capabilities. The storage device 100 as presented herein in one or more non-limiting embodiments may be a type of beneficial article which elevates an end user's experience as well as provides storage solutions for transportation of perishable goods. The storage device 100 provided herein is able to keep perishable goods in a controlled environment to retain their intrinsic value, which is an advantage over standard food containers which are not suitable to withstand influence from the temperature of the ambident environment and the result is the premature spoilage or loss of value of the perishable goods. There are many uses and advantages offered for the device 100 as described above in one or more non-limiting embodiments in the present description.
In this Detailed Description, and the claims below, and in the accompanying drawings, reference may be made to particular features of the invention. It may be understood that the disclosure of the invention in this specification includes all possible combinations of such particular features. For example, where a particular feature may be disclosed in the context of a particular aspect or embodiment of the invention, or a particular claim, that feature can also be used, to the extent possible, in combination with and/or in the context of other particular aspects and embodiments of the invention, and in the invention generally.
Where reference may be made herein to a method comprising two or more defined acts, the defined acts can be carried out in any order or simultaneously (except where the context excludes that possibility), and the method can include one or more other acts which are carried out before any of the defined acts, between two of the defined acts, or after all the defined acts (except where the context excludes that possibility).
“Exemplary” may be used herein to mean “serving as an example, instance, or illustration.” Any aspect described in this document as “exemplary” may not necessarily be construed as preferred or advantageous over other aspects.
Throughout the drawings, like reference characters are used to designate like elements. As used herein, the term “coupled” or “coupling” may indicate a connection. The connection may be a direct or an indirect (e.g., mechanical) connection between one or more items. Further, the term “set” as used herein may denote one or more of any items, so a “set of items” may indicate the presence of only one item or may indicate more items. Thus, the term “set” may be equivalent to “one or more” as used herein.
The corresponding structures, materials, acts, and equivalents of any means or step plus function elements in the claims below are intended to include any structure, material, or act for performing the function in combination with other claimed elements as specifically claimed. The description of the present invention has been presented for purposes of illustration and description but is not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the invention.
The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated. The present invention, according to one or more embodiments described in the present description, may be practiced with modification and alteration within the spirit and scope of the appended claims. Thus, the description is to be regarded as illustrative instead of restrictive of the present invention.
Claims
1. A material storing and temperature regulating device comprising:
- a cap;
- a working lid, wherein the cap covers the working lid and includes a functional work surface;
- a main body having an interior cavity, wherein the working lid can detachably attach to a top of the main body;
- a removable insert configured to be stored within the interior cavity of the main body, wherein the removable insert is partially enclosed and comprises an interior cavity adapted to hold items;
- a bottom cup coupled to or otherwise attached to a lower end of the main body, wherein the bottom cup further comprises: a removable pack adapted to be held within an interior cavity of the bottom cup, wherein the removable pack is adapted to be made cold including frozen or heated, wherein the removable pack comprises a conductor rod opening; a conductor rod, wherein the conductor rod is configured to be inserted within the conductor rod opening of the removable pack, wherein the conductor rod is configured to transfer heat to preserve the items at a suitable temperature relative to an ambient temperature of external surroundings to the material storing and temperature regulating device.
2. The material storing and temperature regulating device of claim 1, wherein the removable pack has a width that is narrower than a width of the bottom cup so as to fit inside of the interior cavity of the bottom cup.
3. The material storing and temperature regulating device of claim 1, wherein the cap is hingedly attached to the working lid, wherein the cap is attached to the working lid facilitating closure of the working lid.
4. The material storing and temperature regulating device of claim 1, wherein the working lid is threaded and configured to threadably attach and detach from the main body.
5. The material storing and temperature regulating device of claim 1, wherein the removable insert comprises a substantially vertical body comprising walls that have a recessed neck area and a cylindrical top surface, and the interior cavity is exposed from either a side or a top of the removable insert.
6. The material storing and temperature regulating device of claim 1, wherein the removable insert is flexible.
7. The material storing and temperature regulating device of claim 6, wherein the removable insert is made of silicone.
8. The material storing and temperature regulating device of claim 1, wherein the removable insert is made of an insulating material comprising polystyrenes, polyisocyanurates, and ceramics
9. The material storing and temperature regulating device of claim 1, wherein the bottom cup comprises a thread on a top interior rim of the bottom cup.
10. The material storing and temperature regulating device of claim 9, wherein the material storing and temperature regulating device further comprises a threaded interface that is connectable to the bottom cup.
11. The material storing and temperature regulating device of claim 10, wherein the bottom cup and the threaded interface are coupled to a bottom of the main body.
12. A method of using a material storing and temperature regulating device, comprising:
- providing a material storing and temperature regulating device, the material storing and temperature regulating device comprising: a cap; a working lid, wherein the cap covers the working lid and includes a functional work surface; a main body having an interior cavity, wherein the working lid can detachably attach to a top of the main body; a removable insert configured to be stored within the interior cavity of the main body, wherein the removable insert is partially enclosed and comprises an interior cavity adapted to hold items; a bottom cup coupled to or otherwise attached to a lower end of the main body, wherein the bottom cup further comprises: a removable pack adapted to be held within an interior cavity of the bottom cup, wherein the removable pack is adapted to be made cold including frozen or heated, wherein the removable pack comprises a conductor rod opening; a conductor rod, wherein the conductor rod is configured to be inserted within the conductor rod opening of the removable pack, wherein the conductor rod transfers heat to preserve the items at a suitable temperature relative to an ambient temperature of external surroundings to the material storing and temperature regulating device;
- removing the bottom cup;
- removing the removable pack from the interior cavity of the bottom cup and removing the conductor rod;
- cooling or heating the removable pack for a desired period of time;
- after the desired period of time has lapsed, returning the cooled or heated removable pack to the interior cavity of the bottom cap;
- returning and inserting the conductor rod to the conductor rod opening of the removable cap;
- coupling the bottom cup to the main body;
- if the removable pack was made cold and/or frozen, lowering an interior temperature of the main body including the interior cavity of the main body and/or the removable insert by transferring heat from the main body through the conductor rod to the bottom cup housing the removable pack; and
- if the removable pack was heated, raising the interior temperature of the main body including the interior cavity of the main body and/or the removable insert by transferring the heat from the removable pack by virtue of the conductor rod transferring heat from the removable pack to the main body.
13. The method of claim 12, further comprising adding perishable items to the interior cavity of the removable insert.
14. The method of claim 12, further comprising, adding separate containers containing perishable items to the interior cavity of the removable insert.
15. The method of claim 12, further comprising, removing the removable insert and adding perishable items to the interior cavity of the main body.
16. The method of claim 12, further comprising, raising the cap to expose the functional working surface of the working lid.
17. The method of claim 12, wherein neither the cap nor the working lid includes a drink opening.
18. The method of claim 12, further comprising, unscrewing the working lid from the main body to access the interior cavity of the main body and to access the removable insert.
19. The method of claim 12, wherein the removable insert comprises a substantially vertical body comprising walls that have a recessed neck area and a cylindrical top surface, and the interior cavity is exposed from either a side or a top of the removable insert.
20. The method of claim 19, wherein the removable insert is made of silicone.
Type: Application
Filed: Dec 12, 2022
Publication Date: Jun 15, 2023
Inventor: Parker Sullivan (Napa, CA)
Application Number: 18/079,343