There is a related application filed on even date herewith and including common subject matter. This related application is now hereby incorporated by reference herein in its entirety. This related application has been filed as Ser. No. 16/413,804.
The present invention relates in general to a system and apparatus for holding one or more vials of a fluid that is to be protected. The present invention also relates to a system for holding a plurality of vials of a fluid that consists of a biological substance for the purpose of maintaining a predetermined temperature of the biological substance over a predetermined amount of time.
The traditional technique for maintaining the temperature of a biological payload employs only convection. This comes about because the function of holding the vials and the cooling/temperature control are two distinct components. For example, one traditional technique employs a paperboard vial tray placed on the top of a block of ice inside of a conventional Styrofoam cooler. Another technique may employ the use of dry ice. In either case the vials do not make contact with the cooling agent and the void space within the cooler simply functions as a convection chamber.
Accordingly, it is an object of the present invention to provide an improved system and apparatus for holding vials of a biological substance or the like for maintaining a predetermined temperature of the biological substance.
Another object of the present invention is to provide a temperature controlled vial rack disposed within an insulator and in which there is virtually no functional void space. This improves the efficiency of the temperature suppressive material as there is direct contact with the payload in the vials.
Still another object of the present invention is to provide an improved system and apparatus for holding a plurality of vials and in which the overall package size is substantially reduced by at least 50 percent. This is possible in accordance with the present invention by combining the functions of the vial holder with the temperature control substance.
To accomplish the foregoing and other objects, features and advantages of the present invention there is provided an apparatus for holding one or more vials of a fluid that is to be protected. The apparatus is comprised of an insulator housing that includes separate housing halves that, when joined together, form an internal space and a recess, a two piece carrier that is disposed within the recess formed by the separate housing halves, and a one piece vial rack supported by the two piece carrier. The one piece vial rack has a plurality of vial passages each for accommodating an elongated vial that contains a biological substance.
In accordance with other aspects of the present invention:
wherein each insulator housing half is comprised of an insulator base and an insulator lid that are commonly sealed about respective base and lid edges;
wherein each insulator base has an interlocking surface oppositely disposed to the insulator lid, and the respective interlocking surfaces, when the housing halves are joined, are interlocked to maintain the housing halves in place;
including a foam insulating material that is disposed in the internal space provided between the separate housing halves;
wherein the interlocking surfaces include a tongue and groove engagement surface;
wherein the tongue and groove both have interlocking surfaces that alternate along a length of each so that a segment of a groove terminates followed by a segment of a tongue thereafter and in line;
wherein the two piece carrier is comprised of separate carrier halves each having an inner space and a cavity so that when the separate carrier halves are joined the combined cavities of the separate carrier halves are constructed and arranged to receive the one piece vial rack therein;
including a temperature suppressive material that is disposed in the inner space provided between the separate carrier halves;
wherein each insulator housing half is comprised of an insulator base and an insulator lid that are commonly sealed about respective base and lid edges, wherein each insulator base has an interlocking surface oppositely disposed to the insulator lid, and the respective interlocking surfaces, when the housing halves are joined, are interlocked to maintain the housing halves in place, and including a foam insulating material that is disposed in the internal space provided between the separate housing halves;
wherein the interlocking surfaces include a tongue and groove engagement surface;
wherein the tongue and groove both have interlocking surfaces that alternate along a length of each so that a segment of a groove terminates followed by a segment of a tongue thereafter and in line;
wherein the one piece vial rack is comprised of like rack halves that come together to form the plurality of vial passages;
wherein each rack half forms half of each vial passage;
wherein the vial rack has opposed sides and a first set of vial passages of the plurality of vial passages are formed in one of the opposed sides and a second set of vial passages of the plurality of vial passages are formed in another of the opposed sides; wherein each vial is elongated in shape and has a length less than the length of an accommodating vial passage;
including matching glue channels in the respective rack halves;
wherein the matching glue channels are disposed separate from the vial passages;
wherein the rack halves from an internal void area and including temperature suppressive material that fills the internal void area between the rack halves;
wherein the one piece vial rack is comprised of like rack halves that come together to form the plurality of vial passages, and that define therebetween an internal void area; and
including a temperature suppressive material that fills the internal void area between the rack halves.
It should be understood that the drawings are provided for the purpose of illustration only and are not intended to define the limits of the disclosure. The foregoing and other objects and advantages of the embodiments described herein will become apparent with reference to the following detailed description when taken in conjunction with the accompanying drawings in which:
The temperature control system of the present invention may be considered as comprised of three basic components including an insulator 1, a carrier 6 and a vial rack 7. For the insulator, reference may be made to
The insulator 1 may be formed of the separate insulator base 2 and insulator lid 3 and may be constructed of a relatively hard plastic material. The two piece carrier 6 is illustrated as comprised of a clear plastic material that is to be filled with a suppressive material. The vial rack 7 is also illustrated as constructed of a clear plastic material and likewise supports therein a suppressive material. A suppressive gel material maintains an innate melting/freeze point specific to payload requirements, which retards change of phase and, therefore, temperature decay in accordance with Newton's Law of Cooling.
The insulator 1 is comprised of an insulator base 2 and an insulator lid 3. The internal foam material 5 is preferably a high R value urethane foam. This two piece insulator, such as illustrated in
The carrier 6 is a thermal formed tray filled with a temperature suppressive material such as material 8A depicted in the cross-sectional view of
The suppressive material may be used both within the carrier as within the vial rack and is illustrated as such in the cross-sectional view of
As illustrated in the drawings, the vial rack 7 consists of two thermal formed halves or shells 7A and 7B such as illustrated in
The temperature suppressive material 8B (see
As indicated previously,
Regarding the carrier 6, reference may be made to
The vial rack itself is illustrated, for example, in
In use the vials are first inserted into the passages 30 of the vial rack. Next the rack is then surrounded by the carrier halves to provide a compact structure with little or no internal spaces, such as shown in
The following is a table illustrating at least some of the reference numbers that are used in the drawings.
Having now described a limited number of embodiments of the present invention, it should now be apparent to those skilled in the art that numerous other embodiments and modifications thereof are contemplated as falling within the scope of the present invention, as defined by the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
3848766 | Gantt | Nov 1974 | A |
4628705 | Nave | Dec 1986 | A |
20040200232 | Gano, III | Oct 2004 | A1 |
20180282049 | Tumber | Oct 2018 | A1 |
Number | Date | Country |
---|---|---|
WO-2013096710 | Jun 2013 | WO |