This specification relates to a system, apparatus and/or a method for protecting against cross-contamination of products that are stored in a shipping container during transport and/or storage under cryogenic temperatures.
In the health, medical, pharmaceutical and/or life science industry, cleanliness is an important aspect of the industry. In some instances, businesses may require sterilization and/or sanitization of a shipping container prior to the storage and/or transport of the product. In other instances, business may require specific-use shipping containers for the storage and/or transport of the product. These cleanliness and/or specific-use requirements are designed to prevent cross-contamination
Currently, cleaning and sanitizing a dewar that stores a product at cryogenic temperatures uses a multi-step cleaning and sanitization process, which may take up to approximately 4 days to clean, sanitize and/or qualify the dewar for the next use. The multi-step process may include a thermal efficiency test and/or a cleaning process. The current cleaning process may involve warming the dewar and using an alcohol solution to wipe the inside of the dewar. The dewar requires a significant amount of time to warm. Since different materials within the dewar expand and contract at different rates, regular thermal cycling may cause damage to the dewar or the vacuum seal within the dewar and may cause a vacuum failure.
Accordingly, there is a need for a system, apparatus and/or method to protect the product inside the dewar from cross-contamination without warming the dewar.
In general, one aspect of the subject matter described in this specification is embodied in a protective liner that lines a shipping container, such as a dewar. The protective liner is positioned within a shipping container. The protective liner includes one or more tabs positioned on a perimeter of the protective liner, the one or more tabs are configured to interlock with a notch on an inside surface of the shipping container. The protective liner includes a temperature sensor channel on a side of the protective liner. The temperature sensor channel is configured to guide a temperature sensor lead wire.
These and other embodiments may optionally include one or more of the following features. The protective liner may be a thin walled disposable liner that may be placed inside the shipping container prior to shipment. The temperature sensor channel may be configured to protect the temperature sensor lead wire from abrasion when a commodity or product is loaded into or unloaded out of the protective liner. The protective liner may be flexible or collapsible. The one or more tabs may interlock with the notch to prevent accidental removal when loading or unloading the shipping container.
The protective liner may include a base. The base may be positioned at a bottom of the protective liner. The base may have one or more rigid protrusions to form the shape of the protective liner. The base may be configured to interlock with an accessory holder. The accessory holder may be configured to hold one or more accessories.
In another aspect, the subject matter is embodied in a cryogenic storage device. The cryogenic storage device includes a dewar for storing or transporting cryogenic material. The dewar has an inner surface and a notch on the inner surface. The cryogenic storage device includes a protective barrier positioned within the inner surface of the dewar. The protective barrier is configured to prevent contact between cryogenic material stored within the protective barrier and the inner surface of the dewar. The cryogenic storage devices includes an accessory holder positioned within the protective liner. The accessory holder is configured to accommodate multiple accessories.
In another aspect, the subject matter is embodied in a protective barrier. The protective barrier includes a protective liner. The protective liner is positioned within a shipping container and has a base. The protective liner includes one or more container attachment devices. The one or more container attachments devices are positioned on the perimeter of the protective liner. The protective barrier includes one or more accessory attachment devices. The one or more accessory attachment devices are configured to attach an accessory holder.
Other systems, methods, features, and advantages of the present invention will be apparent to one skilled in the art upon examination of the following figures and detailed description. Component parts shown in the drawings are not necessarily to scale, and may be exaggerated to better illustrate the important features of the present invention.
Disclosed herein are systems, devices and/or methods for a protective barrier that withstands cryogenic temperatures and is used to protect against cross-contamination of stored material when re-using a shipping container, such as a dewar. The protective barrier may be a liner, such as a cryoliner, that protects the dewar from contamination by a product or material stored within the protective barrier. The protective barrier prevents cross-contamination of products across different shipments or deliveries.
Other benefits and advantages include increasing asset utilization and inventory flexibility. By protecting the dewar from contamination using the protective barrier, the amount of time necessary to sanitize or clean the dewar prior to re-use is reduced. Typically, a dewar is checked for thermal efficiency and then warmed for cleaning. Once the dewar is cleaned, the liquid nitrogen that cools the dewar is refilled. The use of the protective barrier eliminates or reduces the amount of cleaning time, and thus, reduces the amount of time that the dewar is in maintenance. Thus, the dewar may be put to use more frequently. Moreover, the use of the protective barrier may allow for the re-use of the dewar without the need to warm the dewar for cleaning, and thus, reduce any naturally occurring damage due to thermo-cycling, which reduces the mean time to repair.
Additionally, the protective barrier may have an accessory holder. The accessory holder may hold various types of accessories used in transport of the product. This facilities the transport and storage of the product.
The protective barrier 100 may be flexible and/or collapsible. The protective barrier 100 may be able to withstand cryogenic temperatures, such that when placed within a cryogenic shipping container, the protective barrier 100 does not become too brittle. In one aspect of the protective barrier 100, the protective barrier 100 may have various components that interlock and/or interface with a dewar 200, an accessory holder 300 or a temperature sensor lead wire.
In one aspect of the invention, the protective barrier 100 may include or be formed from a liner 102, a protective covering or other layer of material that is positioned on an inner side or surface of an inner vessel of the dewar. The protective barrier 100 includes a liner 102, one or more container attachment devices 104 and one or more accessory attachment devices 106. The protective barrier 100 may include one or more temperature sensor channels 108 and/or an accessory holder 300, as shown in
The liner 102 may be a thin walled disposable liner that is placed inside the dewar prior to shipment. The liner 102 may be single-use, which allows the liner 102 to be disposed of after use. The liner 102 may be sterilized or otherwise cleaned before use and/or may have a layer of chemical, such as an anti-microbial agent, applied on the liner to assist with sterilization. This ensures a clean environment that has not come into contact with any products that could contaminate the new product being placed within the liner 102. After use, the liner 102 may disposed of and a new liner may be placed inside the dewar. Thus, the packer or shipper does not need to clean the dewar, and instead, may simply replace the disposable liner 102 and insert the new product prior to shipment. This reduces the amount of time that the dewar is unable to be used to transport and/or ship products, commodities and other materials. Moreover, the dewar does not need to be warmed to be cleaned, which reduces damage to the dewar.
In one aspect, the liner 102 may be made from a flexible material, such as polyethylene terephthalate (PETG), polyethylene or other plastic or plastic resin, at room temperature that is able to withstand cryogenic temperatures. The liner 102 may be collapsible and be easily conformable around an object or product that is inserted into an opening of the liner 102. When being transported within the dewar at cryogenic temperatures, the liner 102 may become more rigid. The liner 102 may be shaped as a cylinder, rectangle or other polygonal shape and have an opening that allows insertion of the product into the liner 102. The liner 102 may be shaped to correspond with a shape of a payload space of the dewar or other shipping container in which the liner is inserted to protect. In some implementations, the liner 102 may be made from a thin-walled steel material or other material with as low of a thermoconductivity coefficient as possible so that the liner 102 is not heat conductive.
The liner 102 may have a base 112 that has one or more protrusions 110. The base 112 may be positioned at the bottom of the liner 102. The one or more protrusions 110 may provide rigidity to form the shape of the liner 102. For example, the one or more protrusions 110 may be rigid and be shaped in concentric circles to form the circular shape of the base 112 and the overall cylindrical shape of the liner 102.
The protective barrier 100 includes one or more container attachment devices 104. In one aspect, a container attachment device may be a connector, a groove, a tab, a lip, a notch, a dimple or other indentation, fastener or protrusion that locks, interlocks, connects or otherwise attaches with a corresponding barrier attachment device 202 on the dewar 200, as shown in
For example, one or more tabs or dimples may be positioned along a middle portion of the liner 102. The one or more tabs or dimples may be positioned to form a row along the circumference or perimeter of the liner 102 and may be midway on the liner 102 to interlock, connect, attach or otherwise snap into a transition area or other corresponding barrier attachment device 202 on the dewar 200. The transition area or other corresponding barrier attachment device on the dewar may be positioned between the neck tube and the payload area of the dewar. In another example, the one or more tabs or dimples may be positioned at the top of the liner 102 and interlock, connect, attach or otherwise snap into a transition area or other corresponding barrier attachment device within the neck or top of the dewar.
The protective barrier 100 may have multiple rows of the one or more container attachment devices 104 that interlock, connect or otherwise attach with a corresponding barrier attachment device 202 on the dewar 200. For example, a first row of the one or more tabs or dimples may be positioned midway on the liner 102 and a second row may be positioned at the top of the liner 102. The first row of the one or more tabs or dimples may snap into a transition area that is midway between the neck tube and the payload area of the dewar 200, and the second row of the one or more tabs or dimples may snap into another transition area that is within the neck or top of the dewar 200. Different liners having different sizes or shapes may have different container attachment devices 104, which correspondingly interlock, attach, connect or otherwise fasten to different barrier attachment devices 202. Different container attachment devices 104 may be positioned on a single liner 102.
In some implementations, the one or more container attachment devices 104 may be formed from an epoxy, an epoxy resin or other adhesive. For example, the epoxy resin may adhere to and harden onto the liner 102, and then, may be inserted into, snapped into or otherwise fastened to a barrier attachment device 202.
The protective barrier 100 may include one or more temperature sensor channels 108, clearance channel, or other crevice or recess for allowing a temperature sensor lead wire to run along the liner 102. The one or more temperature sensor channels may be positioned on an outer surface of the liner 102 and run longitudinally along the length or height of the liner 102. The one or more temperature sensor channels 108 allow for the temperature sensor lead wires to be installed. When inserted within the one or more temperature sensor channels 108, the temperature sensor lead wires may be flush with the outer surface of the liner 102, such that the temperature sensor lead wires do not protrude from the outer surface of the liner 102. This protects the temperature sensor lead wires from abrasion during loading and unloading of the product or commodity stored within the dewar 200.
The protective barrier 100 may include one or more accessory attachment devices 106. The one or more accessory attachment devices 106 may be a connector, a groove, a tab, a lip, a notch, a dimple or other indentation, fastener or protrusion that locks, interlocks, connects or otherwise attaches with an accessory holder 300, as shown in
In some implementations, the one or more barrier attachment devices 202 may be a fastener or other connector. The one or more barrier attachment devices 202 may be a female connector when the corresponding container attachment device 104 is a male connector or a male connector when the container attachment device 104 is a female connector.
The one or more barrier attachment devices 202 may be positioned along the inner circumference of the inner vessel 204 of the dewar 200. The one or more barrier attachment devices 202 may be positioned at various heights within the inner vessel 204. For example, the one or more barrier attachment devices 202 may be positioned within a portion of the neck of the inner vessel 204, such as at the top of the neck, midway down the neck or near the payload area of the dewar 200. In another example, the one or more barrier attachment devices 202 may be positioned midway up the payload area of the dewar 200. The position of the one or more barrier attachment devices 202 correspond to a position of the one or more container attachment devices 104.
The one or more nested features 306a-c may have one or more slots 304, which hold an inserted accessory. The accessory holder 300 may hold multiple accessories of varying types within the one or more nested features 306a-c. The multiple accessories may be used in the transportation and/or storage of the products or commodities stored within the dewar 200 when inserted. For example, the accessory holder 300 may hold one or more criovial racks, one or more blood cassette racks, one or more blood cassettes and/or a combination of different types of accessories
The one or more slots 304 that hold the different accessories may be shaped as a circle, a square, a rectangle or other polygon. For example, a blood cassette could go into a narrow rectangular slot and a criovial rack may be inserted into a square slot. In some implementations, a single slot may accommodate multiple different accessories based on an orientation of the different accessories.
The accessory holder 300 may have a base connector 310, such as a lip, a tab, a connector, a notch or other base connector that interfaces with the one or more accessory attachment devices 106 of the liner 102. A lip, for example, may engage, slip, slide underneath, or otherwise interface with a crevice, a recess, or a channel formed by a dimple or other accessory attachment device 106 and snap into, engage with or fasten to the accessory attachment device 106. For example, the lip of the accessory holder 300 may slide into a recess, crevice or other transition area formed by the one or more dimples or tabs to interconnect the accessory holder 300 with the liner 102, as shown in
The accessory holder 300 may have one or more channels 308 that conform to the one or more temperature sensor channels 108 of the liner 102. The one or more channels 308 may be positioned along the circumference of the outer surface of the accessory holder 300. The one or more channels 308 may extend longitudinally along the circumference of the outer surface and in parallel with the one or more temperature sensor channels 108. The one or more channels 308 may be a recess, an indentation or other channel within the outer surface of the accessory holder 300 and conform in shape to the one or more temperature sensor channels 108 of the liner 102. This allows a temperature sensor wire that runs along the temperature sensor channel 108 to be flush with the surface of the liner 102, when inserted or placed into the temperature sensor channel 108.
Exemplary embodiments of the methods/systems have been disclosed in an illustrative style. Accordingly, the terminology employed throughout should be read in a non-limiting manner. Although minor modifications to the teachings herein will occur to those well versed in the art, it shall be understood that what is intended to be circumscribed within the scope of the patent warranted hereon are all such embodiments that reasonably fall within the scope of the advancement to the art hereby contributed, and that that scope shall not be restricted, except in light of the appended claims and their equivalents.
This application claims priority to and the benefit of U.S. Provisional Patent Application No. 62/686,410 titled “CRYOLINER,” filed on Jun. 18, 2018, and the entirety of which is hereby incorporated by reference herein.
Number | Date | Country | |
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62686410 | Jun 2018 | US |