The present disclosure generally relates to storing perishable contents such as herbs. More particularly, but not exclusively, the present disclosure relates to a container for storing perishable contents, a method of making this container and a method of storing perishable contents.
Containers for perishable goods including herbs such as cannabis are well known and widely available. Currently, these containers are produced by blow molding thermoplastic materials such as High-density polyethylene (HDPE), Polyethylene terephthalate (PET), Polyvinyl chloride type I (PVC-1) and the like. Blow molding is used to make discontinuous hollow bodies such as bottles, containers, and vials. This technology allows to unmold parts with angles that would not otherwise be possible to unmold with art injection molding process. The walls of the containers provided by this technology are relatively thick. Cracks and small holes in the container walls allow for airborne moisture to enter the container. Water vapor may also enter the container walls through diffusion. Water vapor decreases the life cycle of perishable goods such as herbs including cannabis thereby decreasing the freshness period thereof.
An object of the present disclosure is to provide a container for storing perishable contents such as herbs.
An object of the present disclosure is to provide a method of making a container for storing perishable contents such as herbs.
An object of the present disclosure is to provide a method of storing perishable contents such as herbs.
An object of the present disclosure is to provide a container assembly.
In accordance with an aspect of the present disclosure, there is provided a container for storing perishable contents comprising an inner storage chamber for receiving the perishable contents therein, the inner storage chamber defining top and bottom ends and comprising a floor at the bottom end thereof, an inner wall extending from the floor towards an opening at the top end thereof, the floor and the inner wall defining a storage cavity therebetween; and an outer wall covering the inner wall and downwardly extending from a junction therewith at or near the top end of the storage chamber towards a bottom edge thereof at or near the bottom end of the storage chamber, the outer wall and the inner wall being spaced apart so as to define an air channel therebetween for receiving air, the bottom edge of the outer wall and the floor of the storage chamber defining an opening therebetween leading to the air channel; wherein the air channel provides for allowing a layer of air between the outer wall and inner wall to act as insulation for the perishable contents. In an embodiment, the container further comprises interconnectors between the outer wall and inner wall. In an embodiment, the container further comprises a spout at the top end of storage defining the opening leasing to the storage cavity.
In an embodiment, the container further comprises interconnectors between the outer wall and inner wall. In an embodiment, each interconnector extends along a length of the outer wall and comprises an upper part thereof connected to the inner wall and a lower part thereof that is not connected tot the inner wall. In an embodiment, the interconnectors are spaced apart.
In an embodiment, the container further comprises a spout at the top end of storage defining the opening leading to the storage cavity. In an embodiment, the opening is releasably sealable by a closure cover.
In an embodiment, the air channel size expands along the length of the inner storage chamber from a position near or at the junction to a position near or at the bottom edge thereof at or near the bottom end of the storage chamber. In an embodiment, the air channel size retracts along the length of the inner storage chamber from a position near or at the junction to a position near or at the bottom edge thereof at or near the bottom end of the storage chamber. In an embodiment, the air channel size is similar along the length of the inner storage chamber from a position near or at the junction to a position near or at the bottom edge thereof at or near the bottom end of the storage chamber.
In accordance with an aspect of the present disclosure, there is provided a method of making a container for perishable contents, the method comprising: providing an inner storage chamber for receiving the perishable contents therein, the inner storage chamber defining top and bottom ends and comprising a floor at the bottom end thereof, an inner wall extending from the floor towards an opening at the top end thereof, the floor and the inner wall defining a storage cavity therebetween; and providing an outer wall covering the inner wall and downwardly extending from a junction therewith the at or near the top end of the storage chamber towards a bottom edge thereof at or near the bottom end of the storage chamber, the outer wall and the inner wall being spaced apart so as to define an air channel therebetween for receiving air, the bottom edge of the outer wall and the floor of the storage chamber defining an opening therebetween leading to the air channel.
In accordance with an aspect of the present disclosure, there is provided a method of storing perishable contents, the method comprising; storing the perishable contents within an inner storage chamber comprising an inner wall extending from a floor and defining a storage cavity therebetween; and providing a layer of air between the inner wall and an outer wall covering the inner wall and being spaced therefrom to provide an air channel therebetween for receiving air, the air acting as insulation for the perishable contents; and allowing air to enter the air channel via an opening defined between a bottom edge of the outer wall and the floor.
The layer of air between the outer and inner wall of the container provides for a layer of air insulation for the perishable contents within the storage chamber thereby reducing the water vapor transmission ratio and increasing the freshness time period of the perishable contents. The double spaced walls structure with air channel therebetween provides for reducing costs and manufacturing time of the containers herein.
In accordance with an aspect of the present disclosure, there is provided a container assembly for perishable contents including rolled smokable cylinders of burnable material, the assembly comprising: at least one pair of a first and second containers being adjacent to each other, each of the first and the second containers comprising respective closed ends and respective open ends and defining respective and separate storage chambers for storing therein the perishable contents; and a connector interposed and connected to the first and second connectors for connecting the first and second containers; wherein the closed end of the first container is adjacent to the open end of the second container and the open end of the first container is adjacent the closed end of the second container; wherein the first and second containers are offset relative to each other providing for the open end of the first container to be positioned outwardly relative to the closed end of the second container and for the open end of the second container to be positioned outwardly relative to the closed end of the first container.
In an embodiment, each of the first and second containers comprises a removable enclosure cover for sealing thereof, wherein the relative offset provides a clearance for the removable enclosure cover.
In an embodiment, the connector between the at least one pair of first and second containers is made of rigid material. In an embodiment, the connector between the at least one pair of first and second containers is made of flexible material. In an embodiment, the connector between the at least one pair of first and second containers is integral to the first and second containers. In an embodiment, the connector between the at least one pair of first and second containers is removably mountable to the first and second containers. In an embodiment, the connector between the at least one pair of first and second containers comprises an air channel therethrough.
In an embodiment, the container assembly comprises a plurality of the pair of first and second containers.
In accordance with an aspect of the present disclosure, there is provided a container kit comprising the container of hereinabove described and the container assembly hereinabove described.
In an embodiment, the perishable contents comprise herbs. In an embodiment, the herbs comprise cannabis.
Other objects, advantages and features of the present disclosure will become more apparent upon reading of the following non-restrictive description of illustrative embodiments thereof, given by way of example only with reference to the accompanying drawings.
In the appended drawings:
Generally stated and in accordance with an aspect of the present disclosure, there is provided a container for storing perishable contents such as herbs including cannabis. The container comprises an inner storage chamber for receiving the perishable contents therein. The inner storage chamber defines top and bottom ends thereof. The inner storage chamber comprises a floor at the bottom end thereof and an inner wall extending from the floor towards an opening at the top end thereof. The floor arid the inner wall define a storage cavity therebetween. An outer wall covers the inner wall and downwardly extends from a junction therewith at or near the top end of the storage chamber towards its bottom edge tat or near the bottom end of the storage chamber. The outer wall and the inner wall are spaced apart and define an air channel therebetween for receiving air. The bottom edge of the outer wail and the floor the storage chamber define an opening therebetween leading to the air channel. The air channel provides for allowing a layer of air between the outer wall and inner wall to act as insulation for the perishable contents. In an embodiment, the container further comprises interconnectors between the outer wall and inner wall. In an embodiment, the container further comprises a spout at the top end of storage defining the opening leasing to the storage cavity.
With reference to
The container 10 a main container section 12 and a spout 14. The main container section 12 upwardly extends from the bottom end 16 of the container 10 which engages a surface and is contiguous with spout 12 forming a shoulder 18 at a junction 20 thereof. The spout 14 circumscribes an opening 22 at the top end 24 of the container. The opening 22 leads to the internal storage cavity 26 of the container 10 for storing perishable contents such as herbs including cannabis for example. The spout 14 includes external threads 27 for releasable mutual interference engagement with covers including complementary threads (as discussed further below).
The main container section 12 comprises a pair of concentric and spaced apart inner and outer walls, 28 and 30, defining an air channel 32 therebetween. The walls 28 and 30 merge at a top end 20 thereof defined by the shoulder 18 and define an opening 34 therebetween at the bottom end 16 of the container 12. A plurality of spaced apart interconnectors or ribs 36 positioned within the air channel adjoin the inner and outer walls 28 and 20 at spaced apart respective contact points 37′ and 37″ therebetween.
The inner wall 28 upwardly extends from a floor 38 which together form the inner storage chamber 40 that defines the internal storage cavity 26. The storage chamber 40 has a top end that is contiguous with the spout 14 and thus the top end 14 of the container 10 is the end thereof. The floor 38 of the storage chamber 40 defines the bottom end 16 thereof. The inner wall 28 and the floor 38 define contiguous inner surface 42 which forms the boundary of the storage cavity 26. The inner wall 28 defines an outer surface 44 and the floor 38 defines an outer floor wall surface 46. Surfaces 44 and 46 merge at junction edge 48. The floor wall surface 46 engages the surfaces on which the container 10 is positioned.
The outer wall 30 defines a bottom edge 50 that also engages the surfaces on which the container 10 is positioned. The opening 34 leading to the air channel 32 is defined between the edges 48 and 50 or generally between the floor 38 and the edge 50. The outer wall 30 defines an inner surface 52 which interfaces with the outer surface 44 of the inner wall 28. Surfaces 44 and 52 merge at junction 20 and define the boundary of the air channel 32. The outer wall 30 defines an outer surface 54 which is the outer surface of the main container section 12.
The ribs 36 are wing like structures with lager upper parts 36A which extend between the surfaces 44 and 52 including at the junction 20 thereof and receding lower parts 36B which are not connected to surface 44 but only along surface 52 defining a free vertically extending edge 55 that recedes further away (in a diagonal fashion) from surface 44 as part 36B extend towards bottom edge 50. Likewise, the wall 28 is tapered as it extends from the extension towards the floor 38. Each wing like rib 36 defines opposite faces 56A and 56B. Thus, the air channel 32 has empty section 58 between the ribs 36 and a contiguous pathway 60 beneath the upper parts 36B. The ribs 36 also define respective bottom rib edge 51 at or near bottom edge 50.
The foregoing structure provides for a pair of thinner walls 28 and 30 which are provided with additional sturdiness by the interconnecting ribs 36. The foregoing structure allows for a cleaner, faster, and more stable injection moulding process. Thus, a higher number of containers can be produced at a higher rate. structure injection molding process in order to make the present container 10.
Moreover, the air channel 32 provided by the spaced apart walls 28 and 30 improves the freshness and shelf life of herbs contained with the storage chamber 40. Indeed, the air channel 32 protects the contents inside the container 10 from external environment factors. Although several external factors can affect the freshness of the contents in the container 10 and thereby the maximum lifespan of these contents, water vapour is usually the main source that can affect the life and freshness of the herbs. Water vapour infiltration is usually caused by airborne moisture and diffusion. Indeed, air passing through each small hole or crack within the wall of a container contains moisture (i.e. water vapour) that seeps into the container and cannot escape coming into contact with the herbs.
Diffusion is caused by a difference in moisture on either side of the container (external or internal); water vapour simply passes through the container wall. Some materials may have more airtight properties than others, but no material is 100% water-vapour tight.
The air channel 32 defined by the spaced apart walls 28 and 30 having an opening 34 at one end and being closed at the junction 20 limits airborne moisture from entering the storage chamber and diffusion between the storage cavity 26 and the air channel 32 or the ambient environment. The present structure adds a layer of air to the container 10. Indeed, the air channel 32 is usually partially (but not hermetically) sealed when the container is on a surface and the opening 34 is closed. This added layer acts as an insulator between the inner and outer walls 28 and 30 thus reducing the water vapor transmission ratio and lengthening the life cycle of the herbs which increases the freshness time period.
Turning now to
The containers for perishable goods herein can be provided in a variety of different sizes, configurations and dimensions as can be contemplated by the skilled artisan. For example,
The container 70 is a narrow longitudinal cylinder body 72 having a closed end 74 and open opposite end 76 defining an opening 78 (see
Providing separate chambers 82′ and 82″ sealed from each other allow to maintain greater freshness of the material therein. Moreover, a partially smoked cigarette can be re-inserted in its chamber to be smoked later without contacting other cigarettes.
As shown in
In an embodiment, the connectors 88, 88i, 88ii, 88iii, and 88iv are solid bodies integrated to the containers they join together. In another embodiment, the connectors comprise air channels. In yet another embodiment, these connectors are malleable or flexible to allow the user to bend the area defined by a connector. In another embodiment, the connectors are separate body portions for selectively and releasabley interconnecting a pair of containers together.
The various features described herein can be combined in a variety of ways within the context of the present disclosure so as to provide still other embodiments. As such, the embodiments are not mutually exclusive. Moreover, the embodiments discussed herein need not include all of the features and elements illustrated and/or described and thus partial combinations of features can also be contemplated. Furthermore, embodiments with less features than those described can also be contemplated. It is to be understood that the present disclosure is not limited in its application to the details of construction and parts illustrated in the accompanying drawings and described hereinabove. The disclosure is capable of other embodiments and of being practiced in various ways. It is also to be understood that the phraseology or terminology used herein is for the purpose of description and not limitation. Hence, although the present disclosure has been provided hereinabove by way of non-restrictive illustrative embodiments thereof, it can be modified, without departing from the scope, spirit and nature thereof and of the appended claims.
The present application claims priority on U.S. Provisional Application Ser. No. 63/020,253 filed on May 5, 2020 and incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2021/000041 | 5/5/2021 | WO |
Number | Date | Country | |
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63020253 | May 2020 | US |