People can damage their medicines by taking them outside in hot or cold weather. On the other hand, some people need to carry their medicines with them wherever they go (even if the weather is extremely hot or cold). Specially constructed storage systems can protect medicines from damage due to hot
People can damage their medicines by taking them outside in hot or cold weather. On the other hand, some people need to carry their medicines with them wherever they go (even if the weather is extremely hot or cold). Specially constructed storage systems can protect medicines from damage due to hot and cold weather without requiring bulky structures or expensive components that consume electricity to regulate temperature.
대표청구항▼
1. A medicine storage system comprising: an insulated container having an opening;a first lid configured to cover the opening;a phase change system located inside the insulated container and comprising a first phase change material having a first melting temperature greater than 40 degrees Fahrenhei
1. A medicine storage system comprising: an insulated container having an opening;a first lid configured to cover the opening;a phase change system located inside the insulated container and comprising a first phase change material having a first melting temperature greater than 40 degrees Fahrenheit and less than 74 degrees Fahrenheit, and a second phase change material having a second melting temperature greater than 74 degrees Fahrenheit and less than 100 degrees Fahrenheit;a medicine storage area located inside the insulated container; anda first retention member located inside the insulated container and configured to prevent the phase change system from blocking access to the medicine storage area, wherein the storage system is configured to provide access for inserting a medicine through the opening and into the medicine storage area. 2. The storage system of claim 1, wherein the phase change system comprises a first tube having the first phase change material and a second tube having the second phase change material. 3. The storage system of claim 2, wherein the insulated container comprises a proximal portion and a distal portion, the distal portion being located farther from the opening than the proximal portion, wherein the first retention member is located inside the insulated container in the distal portion, wherein the first retention member comprises a protrusion between the first tube and the second tube. 4. The storage system of claim 3, wherein the first retention member comprises a cavity, the insulated container comprises a central axis that passes through the cavity, the cavity comprises a portion of the medicine storage area, the protrusion of the first retention member is oriented radially outward relative to the central axis, the first tube is oriented within 30 degrees of parallel to the central axis, and the second tube is oriented within 30 degrees of parallel to the first tube. 5. The storage system of claim 3, further comprising a second retention member located inside the insulated container and configured to prevent the phase change system from blocking access to the medicine storage area, wherein the insulated container comprises a central axis, the second retention member is located inside the insulated container in the proximal portion, and the first and second retention members hold the first and second tubes within 30 degrees of parallel to the central axis. 6. The storage system of claim 2, wherein the insulated container comprises a central axis, the storage system further comprising a plurality of tubes comprising the first tube and the second tube, wherein the plurality of tubes are spaced around an outer perimeter of the medicine storage area such that the plurality of tubes are located radially outward, relative to the central axis, from the medicine storage area. 7. The storage system of claim 6, wherein the first retention member secures the plurality of tubes radially outward from the medicine storage area and radially inward from an inner wall of a vacuum chamber that insulates the insulated container, wherein the first retention member comprises a cavity, the central axis of the insulated container passes through the cavity, the cavity comprises a portion of the medicine storage area, the first tube is oriented within 30 degrees of parallel to the central axis, and the second tube is oriented within 30 degrees of parallel to the first tube. 8. The storage system of claim 7, wherein the first retention member comprises a protrusion oriented radially outward relative to the central axis, wherein the protrusion is located between the first tube and the second tube. 9. The storage system of claim 7, wherein the first retention member comprises a first wall located between the inner wall and the first tube, and the first retention member comprises a second wall located between the first tube and the medicine storage area. 10. The storage system of claim 7, wherein the first retention member comprises a first hoop and a second hoop, wherein the first tube is located at least partially in the first hoop, and the second tube is located at least partially in the second hoop. 11. The storage system of claim 7, wherein the first retention member comprises a maximum diameter measured radially outward relative to the central axis, the opening comprises a minimum diameter measured radially outward relative to the central axis, the maximum diameter of the first retention member being larger than the minimum diameter of the opening, the first retention member is configured to change shape in a reversible manner to reduce the maximum diameter to enable inserting the first retention member through the opening, and the first retention member is configured to return to a shape having the maximum diameter after the first retention member has passed through the opening. 12. The storage system of claim 6, wherein the first tube comprises a first cylindrical portion at least partially filled with the first phase change material, the second tube comprises a second cylindrical portion at least partially filled with the second phase change material, the first tube is oriented parallel to the central axis, and the second tube is oriented parallel to the central axis. 13. The storage system of claim 6, wherein the first tube comprises a maximum thickness measured in a direction radially outward from the central axis of the insulated container, and the first tube comprises a maximum width measured perpendicular to the maximum thickness and perpendicular to the central axis, the maximum width being at least two times larger than the maximum thickness. 14. The storage system of claim 6, wherein the first tube comprises at least one of fins, valleys, and detents configured increase a surface area of the first tube to promote heat transfer, and wherein the first retention member comprises ventilation channels configured to enable airflow between the medicine storage area and the phase change system. 15. The storage system of claim 2, further comprising the medicine located in the medicine storage area, wherein the insulated container comprises a first central axis, the first tube comprises a second central axis, and the second tube comprises a third central axis, the first retention member orients the second and third central axes within 30 degrees of parallel to the first central axis of the insulated container, andthe second and third central axes are located radially outward relative to the first central axis of the insulated container. 16. The storage system of claim 15, wherein the first tube comprises a cross section that is perpendicular to the second central axis, the cross section having three outermost points that form a triangle, wherein walls of the first tube that connect the three outermost points are at least one of straight and curved. 17. The storage system of claim 1, wherein the phase change system comprises a first container having the first phase change material and a second container having the second phase change material, wherein the first retention member comprises a tube located inside the insulated container such that the tube is in fluid communication with the opening, wherein the storage system is configured to enable inserting the medicine through the opening and into the tube, the tube extending from a distal portion of the insulated container to a proximal portion of the insulated container,wherein the first and second containers are located between an inner wall of the insulated container and an outer wall of the tube,the storage system further comprising a plurality of containers at least partially filled with at least one of the first phase change material and the second phase change material, wherein the plurality of containers are not coupled to each other such that the plurality of containers are movable within an area between the inner wall of the insulated container and the outer wall of the tube. 18. A medicine storage system comprising: an insulated container;a medicine storage area located inside the insulated container;a phase change system located inside the insulated container, wherein the phase change system comprises a first phase change material and a second phase change material, the first phase change material having a first melting temperature greater than 40 degrees Fahrenheit and less than 74 degrees Fahrenheit, and the second phase change material having a second melting temperature greater than 74 degrees Fahrenheit and less than 100 degrees Fahrenheit; anda thermometer configured to measure a temperature of an interior area of the insulated container. 19. The storage system of claim 18, further comprising a computing system having a speaker, wherein the computing system is configured to emit an audio indicator in response to the temperature falling below a predetermined minimum temperature threshold. 20. The storage system of claim 18, further comprising an opening configured to provide access to the medicine storage area and a lid configured to cover the opening, wherein the lid comprises the thermometer and a display configured to show the temperature. 21. The storage system of claim 18, further comprising a wireless communication system communicatively coupled with a remote computing device. 22. The storage system of claim 21, further comprising a first wireless communication sent from the medicine storage system to the remote computing device in response to the temperature of the interior area falling below a predetermined minimum temperature threshold. 23. The storage system of claim 22, further comprising a second wireless communication sent from the medicine storage system to the remote computing device in response to the temperature of the interior area rising above a predetermined maximum temperature threshold. 24. The storage system of claim 21, further comprising a first wireless communication sent from the medicine storage system to the remote computing device in response to at least one of falling below a first predetermined amount of time until the temperature is predicted to fall below a predetermined minimum temperature threshold and falling below a second predetermined amount of time until the temperature is predicted to rise above a predetermined maximum temperature threshold. 25. The storage system of claim 18, further comprising a computing system having at least one of a light, an electronic display, and a mechanical display, wherein the computing system is configured to emit a visual indicator in response to at least one of the temperature falling below a predetermined minimum temperature threshold, the temperature rising above a predetermined maximum temperature threshold, falling below a first predetermined amount of time until the temperature is predicted to fall below the predetermined minimum temperature threshold, and falling below a second predetermined amount of time until the temperature is predicted to rise above the predetermined maximum temperature threshold. 26. The storage system of claim 20, wherein the lid comprises an inward portion and an outward portion, the inward portion being located closer to the medicine storage area than the outward portion, and wherein a portion of the thermometer is coupled to the inward portion of the lid such that the portion of the thermometer is configured to sense the temperature of the interior area. 27. The storage system of claim 26, wherein the display is located on an outward facing side of the lid such that the display is configured to show the temperature when the lid is screwed onto the insulated container. 28. The storage system of claim 20, wherein the thermometer and the display are electrically coupled to a computing system configured to enable the storage system to measure the temperature and show the temperature on the display. 29. The storage system of claim 28, wherein the computing system comprises a wireless communication system configured to be communicatively coupled with a remote computing device to send the temperature to the remote computing device. 30. A medicine storage system comprising: an insulated container;a medicine storage area located inside the insulated container; anda phase change system located inside the insulated container, wherein the phase change system comprises a first tube having a first phase change material and a second tube having a second phase change material, the first phase change material having a first melting temperature greater than 40 degrees Fahrenheit and less than 74 degrees Fahrenheit, and the second phase change material having a second melting temperature greater than 74 degrees Fahrenheit and less than 100 degrees Fahrenheit. 31. The storage system of claim 30, wherein the insulated container comprises a central axis, the first tube is oriented within 30 degrees of parallel to the central axis, and the second tube is oriented within 30 degrees of parallel to the first tube. 32. The storage system of claim 30, further comprising medicine located in the medicine storage area, wherein the first tube is located outside of the second tube, the second tube is located outside of the first tube, and the first tube comprises a first central axis that runs through at least a majority of a phase change material chamber of the first tube.
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