In the transporting or shipment of temperature sensitive materials or items such as blood, plasma, vaccines and certain drugs, it is known to use insulated containers which include heating and/or cooling means as disclosed, for example in U.S. Pat. No. 7,913,511, entitled “Cargo Container for Transporting Temperature Sensitive Items”, and issued Mar. 29, 2011; in U.S. Pat. No. 5,950,450, entitled “Containment System for Transporting and Storing Temperature-Sensitive Materials”, and issued Sep. 14, 1999; in U.S. Pat. No. 5,943,876, entitled “Insulating Vacuum Panel, Use of Such Panel as Insulating Media and Insulated Containers Employing Such Panel”, and issued Aug. 31, 1999; in U.S. Pat. No. 5,483,799, entitled “Temperature Regulated Specimen Transporter”, and issued Jan. 16, 1996; and in U.S. Pat. No. 5,603,220, entitled “Electronically Controlled Container for Storing Temperature Sensitive Material”, and issued Feb. 18, 1997; the disclosures of which are incorporated by reference herein. When it is desirable to transport or ship a larger volume of temperature sensitive items, it is desirable to provide a cargo container which is adapted to receive a pallet supporting the temperature sensitive items and which also includes cooling and/or heating means for maintaining the temperature sensitive items within a close predetermined temperature range. Such cargo containers are disclosed, for example, in U.S. Pat. No. 5,187,947, entitled “Wheel Type Freezer and Method for Rapid, Low Temperature Freezing”, and issued Feb. 23, 1993; and U.S. Pat. No. 6,860,115, entitled “Air-Cargo Container, a Refrigerator Unit for an Air-Cargo Container and a Manufacturing Method of an Air-Cargo Container”, and issued Mar. 1, 2005; and in a publication of applicants entitled AcuTemp™ Thermal Pallet Shipper; the disclosures of which are incorporated by reference herein. A Temperature-Controlled, Pallet-Sized Shipping Container is also disclosed in U.S. Pat. Pub. No. 2004/0226309, published Nov. 18, 2004, and the disclosure of which is herein incorporated by reference. This published application claims the benefit of U.S. Provisional Pat. Appl′n. No. 60/447,987, filed Feb. 17, 2003, and the disclosure of which is incorporated by reference herein.
The temperature sensitive materials or items may be wrapped in a support material during shipment. Such support material may be used to keep the temperature sensitive materials or items on the pallets during shipment. Nevertheless, the support material does not typically provide adequate insulation, and the temperature sensitive materials or items may take on the ambient temperature of the cargo container. The temperature of the cargo unit can significantly fluctuate due to the higher temperatures during the day and the lower temperatures at night or as a result of differing temperatures of various locations and/or elevations during transport and distribution. As a result, the temperature sensitive materials or items are exposed to the fluctuating temperatures of the cargo container, which can adversely affect the temperature sensitive materials or items during storage, transport, and/or distribution. It may therefore be desirable to provide a support material comprising phase-changing materials (“PCM”) to thereby maintain a more constant temperature within the temperature sensitive materials or items.
A PCM is a substance with a high heat of fusion which, by melting and solidifying at a particular temperature, is capable of storing and releasing significant amounts of energy while maintaining a nearly constant temperature. Heat is absorbed or released as the PCM changes from solid to liquid and vice versa; thus, PCMs are classified as latent heat storage units. In particular, when an external temperature rises, heat is absorbed by the PCM as the PCM changes from solid to liquid to thereby have a cooling effect upon items close to or contacting the PCM; whereas when the external temperature drops, heat is released by the PCM as the PCM changes from liquid to solid to thereby have a heating effect upon items close to or contacting the PCM. The internal temperature of the PCM, however, remains nearly constant as the PCM changes from solid to liquid and vice versa, which is useful for keeping temperature sensitive materials or items at a uniform temperature. A user may “condition” a PCM by heating, cooling, and/or freezing the PCM prior to use to thereby place the PCM in a condition to absorb or release heat at a predetermined/estimated temperature. Some commonly used PCMs include: salt hydrates, paraffin wax, fatty acids, and esters.
PCM packs are generally packaged in individual rigid plastic bottles or flexible plastic pouches. The rigid plastic bottles and flexible plastic pouches typically have no secondary layer of protection and may crack, tear, or become worn upon repeated use thereby causing leakage of the PCM. Therefore, in any cargo container adapted to receive one or more pallets of temperature sensitive materials or items, it may be desirable to provide PCM packs that are durable enough to withstand the inherent hazards of use such as rips, tears, abrasions, etc. It may also be desirable to provide features that allow for simple and efficient packing and/or orientation of the PCM packs within the cargo container. Furthermore, when rigid plastic bottles and/or flexible plastic pouches are used, these types of PCM packs typically require a large quantity of individual packs in order to achieve sufficient product coverage within the cargo container. Thus it may further be desirable to provide features that allow for sufficient coverage of the temperature sensitive materials or items within the cargo container while using the least number of PCM packs possible.
PCM packs that are required to maintain product temperatures within an upper and lower temperature limit will generally include at least two PCMs with different melting and/or boiling points. A first PCM pack will be conditioned in a solid state and will thaw during use to prevent temperatures from exceeding the high end of the temperature range. A second PCM pack will be conditioned in a liquid state and will freeze during use to prevent temperatures from exceeding the low end of the temperature range. For example, a first PCM pack having a freeze point of 0° C. (32° F.) may be conditioned at −20° C. (−4° F.) such that the first PCM pack is in a solid state prior to use in a 2-8° C. (35.6-46.4° F.) environment, while a second PCM pack having a freeze point of 3° C. (37.4° F.) may be conditioned at 5° C. (41° F.) such that the second PCM pack is in a liquid state prior to use in the 2-8° C. (35.6-46.4° F.) environment. A pouch may be provided that is designed to receive multiple PCM packs in those instances where a single conditioning temperature will result in a solid state for a first PCM pack and a liquid state for a second PCM pack. For example, a first PCM pack with a freeze point of 3° C. (37.4° F.) and a second PCM pack with a freeze point of 18° C. (64.4° F.) may be concurrently conditioned at 5° C. (41° F.) prior to use in a 2-25° C. (35.6-77° F.) environment such that the first PCM pack is in a liquid state and such that the second PCM pack is in a solid state.
A belt has one or more pouches comprising a durable material (e.g. nylon, etc.) and is operable to be filled with one or more PCM packs. In one embodiment, the belt comprises one long pouch operable to be filled with a plurality of PCM packs. In another embodiment, the belt comprises a plurality of pouches operable to each be filled with a single PCM pack. The pouches of the above-mentioned belts may include a flap operable to cover a respective opening of each pouch to thereby prevent intentional and/or unintentional removal of a respective PCM pack positioned therein. Such a flap may be selectively opened and closed or fixedly secured to a respective pouch to cover and/or uncover an opening of the pouch. For instance, the flap may be sewn to cover the opening of the pouch after the PCM pack is inserted therein; on the other hand, the flap may selectively cover or uncover the opening of the pouch after the PCM pack is inserted therein via Velcro, a zipper, a button(s), etc. Other features and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
While the specification concludes with claims which particularly point out and distinctly claim this technology, it is believed this technology will be better understood from the following description of certain examples taken in conjunction with the accompanying drawings, in which like reference numerals identify the same elements and in which:
The drawings are not intended to be limiting in any way, and it is contemplated that various embodiments of the technology may be carried out in a variety of other ways, including those not necessarily depicted in the drawings. The accompanying drawings incorporated in and forming a part of the specification illustrate several aspects of the present technology, and together with the description serve to explain the principles of the technology; it being understood, however, that this technology is not limited to the precise arrangements shown.
The following description of certain examples of the technology should not be used to limit its scope. Other examples, features, aspects, embodiments, and advantages of the technology will become apparent to those skilled in the art from the following description. As will be realized, the technology described herein is capable of other different and obvious aspects, all without departing from the technology. Accordingly, the drawings and descriptions should be regarded as illustrative in nature and not restrictive.
It is further understood that any one or more of the teachings, expressions, embodiments, examples, etc. described herein may be combined with any one or more of the other teachings, expressions, embodiments, examples, etc. that are described herein. The following-described teachings, expressions, embodiments, examples, etc. should therefore not be viewed in isolation relative to each other. Various suitable ways in which the teachings herein may be combined will be readily apparent to those of ordinary skill in the art in view of the teachings herein. Such modifications and variations are intended to be included within the scope of the claims.
I. Exemplary Temperature-Controlled Cargo Container
Container assembly (10) of the present example comprises an insulated container (20), a plurality of first PCM packs (40), a plurality of second PCM packs (50), and an insulated cover (60). Container (20) of the present example is insulated using vacuum insulated panel (“VIP”), but may be insulated using any appropriate material. Container (20) of the present example comprises a rectangular-shaped body (22), a lid (26), a padded shoulder strap (28), a plurality of handles (30, 32), and a pouch (34). Body (22) defines a rectangular-shaped hollow interior (24). Lid (26) is hingedly secured to a sidewall of body (22) such that lid (26) is pivotable between a closed position and an open position to thereby selectively cover and/or uncover hollow interior (24) of body (22). Body (22) and lid (26) of container (20) include a zipper (23) configured to secure lid (26) in the closed position. It should be understood, however, that body (22) and lid (26) of container (20) may include any other appropriate type of locking feature(s) configured to secure lid (26) in the closed position. For instance, body (22) and lid (26) may, alternatively or in addition to zipper (23), include Velcro, a plurality of buttons, etc.
Padded shoulder strap (28) is pivotably coupled to an exterior surface of body (22) of container (20). Shoulder strap (28) may be adjustable and may further be detachable from body (22) of container (20). Handles (30, 32) of the present example are secured to an exterior surface of lid (26) and an exterior surface of body (22) respectively. Pouch (34) of the present example is formed on an exterior surface of body (22). Pouch (34) defines a hollow interior and includes a lid (36) hingedly secured to an exterior surface of body (22) such that lid (36) is pivotable between a closed position and an open position to thereby selectively cover and/or uncover the hollow interior of pouch (34).
It should be understood that any of the components of container (20) discussed above, e.g. body (22), lid (26), etc., may comprise a waterproof material. For instance, body (22) and lid (26) may comprise nylon among other appropriate materials. It should also be understood that container (20) may include any or all the features discussed above and may further include any appropriate features configured to provide for efficient transportation. For instance, container (20) may include a pair of wheels and an extendable handle to thereby allow container (20) to operate substantially similar to a rolling suitcase. Furthermore, container (20) may include straps to allow for container (20) to be secured to a rolling cart (not shown).
The plurality of first PCM packs (40) are positioned within hollow interior (24) of body (22) of container (20) about an interior surface of hollow interior (24) to thereby control a temperature of cargo (70) positioned within hollow interior (24). First PCM packs (40) of the present example comprise a flexible film material filled with a freezable-liquid substance having a high heat of fusion capable of storing and releasing large amounts of energy. First PCM packs (40) are frozen prior to being positioned within container (20) to thereby have a thermal controlling effect upon cargo (70) positioned within hollow interior (24). It will be understood from the discussion below that first PCM packs (40) provide a cooling effect upon cargo (70) positioned within hollow interior (24) through a solid-liquid phase change to thereby prevent the temperature of cargo (70) from exceeding an upper temperature limit. As explained above, first PCM packs (40) are frozen prior to use and may thaw during use within container (20) to prevent the temperature of cargo (70) from exceeding a high end of a required temperature range.
The plurality of second PCM packs (50) are positioned within hollow interior (24) of body (22) of container (20) about an interior surface of first PCM packs (40) within hollow interior (24) to thereby control the temperature of cargo (70) positioned within hollow interior (24). Second PCM packs (50) of the present example comprise a flexible film material filled with a liquid substance having a high heat of fusion capable of storing and releasing large amounts of energy. Second PCM packs (50) are configured to be refrigerated prior to being positioned within container (20) to thereby have a thermal controlling effect upon cargo (70) positioned within hollow interior (24). It will be understood from the discussion below that second PCM packs (50) provide a heating effect upon cargo (70) positioned within hollow interior (24) through a liquid-solid phase change to thereby prevent the temperature of cargo (70) from dropping below a lower temperature limit. As mentioned above, second PCM packs (50) are refrigerated prior to use and may freeze during use within container (20) to prevent the temperature of cargo (70) from exceeding a low end of a required temperature range.
As will be discussed in more detail below, with first PCM packs (40) and second PCM packs (50) disposed within hollow interior (24) of body (22) of container (20), first PCM packs (40) and second PCM packs (50) define a rectangular-shaped cavity (27) within hollow interior (24) into which cargo (70) is disposed. With cargo (70) disposed within cavity (27) defined by first PCM packs (40) and second PCM packs (50), cover (60) is positioned within hollow interior (24) atop first PCM packs (40), second PCM packs (50), and cargo (70). Cover (60) of the present example is sized such that cover (60) may be positioned within hollow interior (24) in a substantially horizontal position. Cover (60) of the present example is further sized such that with cover (60) in the substantially horizontal position, cover (60) substantially covers an entire width and length of hollow interior (24). Cover (60) of the present example is insulated using VIP, but may be insulated using any appropriate material.
II. Exemplary Temperature-Controlled Cargo Container Having PCM Belts
As mentioned above, first PCM packs (40) and second PCM packs (50) of container assembly (10) each comprise a flexible film material filled with a liquid substance. It will be appreciated that the film material of first PCM packs (40) and second PCM packs (50) may become worn and rip or tear upon rough or repeated use thereby causing leakage of the liquid substance contained therein. It should therefore be understood that it may be desirable to provide features that improve the durability of first PCM packs (40) and second PCM packs (50) such that first PCM packs (40) and second PCM packs (50) may withstand the inherent hazards of repeated use.
Although belt assembly (100) of the present example comprises four pouches (110, 112, 114, 116), it should be understood that belt assembly (100) may comprise any appropriate number of pouches. For instance,
As shown in
In those versions of belt assembly (100) having a single PCM pack (40, 50) within each pouch (110, 112, 114, 116), it should be understood that multiple belt assemblies (100A, 100B) may be placed within hollow interior (24) of container (20) with each belt assembly (100) housing a different type of PCM pack (40, 50). For instance, as shown in
From the discussion above, it should be understood that when container assembly (10) is assembled, belt assembly (100B) having second PCM packs (50) disposed therein, is configured to prevent the temperature of cargo (70) from exceeding a low end of a required temperature range. It should also be understood that when container assembly (10) is assembled, belt assembly (100A) having first PCM packs (40) disposed therein, is configured to prevent the temperature of cargo (70) from exceeding a high end of a required temperature range. It should be appreciated, however, that in those versions of belt assembly (100) wherein PCM packs (40, 50) are conditioned at the same initial temperature, a first PCM pack (40) and a second PCM pack (50) may be positioned within each pouch (110, 112, 114, 116) of belt assembly (100) such that a single belt assembly (100) may be used in place of belt assemblies (100A, 100B) discussed above. PCM packs (40, 50) may be oriented within each pouch (110, 112, 114, 116) such that second PCM packs (50) are located closer than first PCM packs (40) to cargo (70) or alternatively such that first PCM packs (40) are located closer than second PCM packs (50) to cargo (70) as discussed above with reference to the orientation of belt assemblies (100A, 100B), and may be configured to prevent the temperature of cargo (70) from exceeding a low end and/or a high end of a required temperature range.
It should be appreciated that, although container assembly (10) is described as having first PCM packs (40) and second PCM packs (50) to thereby maintain the temperature of cargo (70) between an upper and lower temperature limit, container assembly (10) may have only first PCM packs (40) to thereby prevent cargo (70) from exceeding the upper temperature limit or only second PCM packs (50) to thereby prevent cargo (70) from dropping below the lower temperature limit.
Belt assemblies (100A, 100B) may be color-coded or marked to provide for simple and efficient packaging of belt assemblies (100A, 100B) within container (20). For instance, particular belt assemblies (100A, 100B) may be color-coded to correlate with first PCM packs (40) and/or second PCM packs (50). Additionally or alternatively, particular belt assemblies (100A, 100B) may be marked with “Refrigerated PCM Packs” for those belt assemblies (100B) having second PCM packs (50) and with “Frozen PCM Packs” for those belt assemblies (100A) having first PCM packs (40). The material of belt assemblies (100, 200) may be configured to provide for the printing of proper conditioning instructions thereon to provide for simple and efficient conditioning of PCM packs (40, 50). For instance, belt assemblies (100, 200) may comprise the instructions, for example, “Freeze for 12 Hours Prior to Use”.
Additionally or alternatively, PCM packs (40, 50) may be color-coded or marked to provide for simple and efficient packaging of PCM packs (40, 50) within each pouch (110, 112, 114, 116) of belt assemblies (100A, 100B). For instance, PCM packs (40, 50) may be color-coded and/or may be marked with “Refrigerated PCM Packs” for second PCM packs (50) or with “Frozen PCM Packs” for first PCM packs (40). The flexible film material of PCM packs (40, 50) may be configured to provide for the printing of proper conditioning instructions thereon to provide for simple and efficient conditioning of PCM packs (40, 50). For instance, first PCM packs (50) may comprise the instructions “Freeze for 12 Hours Prior to Use”.
It should be appreciated from the discussion above that belt assemblies (100, 200) provide for reduced handling of PCM packs (40, 50) when assembling container assembly (10) and/or conditioning PCM packs (40, 50) prior to use. Furthermore, it should be understood that belt assemblies (100, 200) may be folded to provide for efficient storage in a refrigerator or freezer during non-use.
Although PCM packs (40, 50) are discussed above as cooling cargo (70), it should be understood that PCM packs (40, 50) may be used to provide heat to cargo (70).
Table 1 below contains data correlating with the chart of
Table 2 below contains data correlating with the chart of
Table 3 below contains data correlating with the chart of
Table 4 below contains data correlating with the chart of
Having shown and described various embodiments of the present invention, further adaptations of the methods and systems described herein may be accomplished by appropriate modifications by one of ordinary skill in the art without departing from the scope of the present invention. Several of such potential modifications have been mentioned, and others will be apparent to those skilled in the art. For instance, the examples, embodiments, geometries, materials, dimensions, ratios, steps, and the like discussed above are illustrative and are not required. Accordingly, the scope of the present invention should be considered in terms of the following claims and is understood not to be limited to the details of structure and operation shown and described in the specification and drawings.
This application claims priority to U.S. Provisional Pat. Appl′n. No. 61/766,802, entitled “Phase Change Material (PCM) Belts,” filed Feb. 20, 2013, the disclosure of which is incorporated by reference herein.
Number | Date | Country | |
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61766802 | Feb 2013 | US |