US2008006629A1PendingUtilityA1
Thermal Energy Storage System
Est. expirySep 6, 2022(expired)· nominal 20-yr term from priority
B65D 81/3844B65D 21/0233B65D 81/382
56
PatentIndex Score
0
Cited by
0
References
0
Claims
Abstract
A thermal energy storage container/bottle.
Claims
exact text as granted — not AI-modified1 . A thermal energy storage bottle, comprising:
a first panel defining a recess for receiving a consumable beveragge; a second panel, offset from the first panel, having a peripheral edge connected to the first panel to form a container compartment generally coextensive with the second panel, the first and second panels being formed by a polymer and being nondetachably fixed to each other, wherein at least a portion of the second panel is translucent; and a thermal energy storage material sealed within the container compartment, wherein the thermal energy storage material has a color so that the translucent portion of the second panel generally has the color of the thermal energy storage material.
2 . The thermal energy storage bottle of claim 1 , wherein the second panel includes a sealed tube located in a recessed portion.
3 . The thermal energy storage bottle of claim 1 , wherein the peripheral edge of the second panel is sealed to a peripheral collar of the first panel.
4 . The thermal energy storage bottle of claim 3 , wherein the thermal energy storage bottle includes a beverage in the recess.
5 . The thermal energy storage bottle of claim 1 , wherein the thermal energy storage material is a gel.
6 . The thermal energy storage bottle of claim 1 , wherein the orthogonal distance between the first and second panels varies within the container compartment.
7 . A thermal energy storage bottle, comprising:
a first panel defining a recess for receiving a consumable beverage; a second panel, offset from the first panel, having a peripheral edge connected to the first panel to form a container compartment generally coextensive with the second panel, the second panel defining a hole, the first and second panels being formed by a polymer and being nondetachably fixed to each other, wherein at least a portion of the second panel is translucent; and a tube surrounding the hole and projecting away from the container compartment, the tube forming a conduit to allow the insertion of a thermal energy storage material into the container compartment, the tube being permanently closed after the tube is sealed.
8 . The thermal energy storage bottle of claim 7 , wherein the peripheral edge of the second panel is sealed to a peripheral, collar of the first panel.
9 . The thermal energy storage bottle of claim 7 , wherein the thermal energy storage bottle includes a beverage in the recess.
10 . The thermal energy storage bottle of claim 7 , wherein the thermal energy storage material is a gel.
11 . The thermal energy storage bottle of claim 7 , wherein the orthogonal distance between the first and second panels varies within the container compartment.
12 . A method of making a thermal energy storage bottle, comprising:
providing first and second panels, the second panel being offset from the first panel, the second panel having a peripheral edge connected to the first panel to form a container compartment generally coextensive with the second panel, the first and second panels being formed by a polymer, wherein at least a portion of the second panel is translucent, the second panel further defining a hole and including a tube surrounding the hole and projecting away from the container compartment, the tube forming a conduit to allow the insertion of a thermal energy storage material into the container compartment; sealing the first and second panels to each other; inserting a thermal energy storage material into the container compartment through the tube, the thermal energy storage material being colored; and permanently closing the tube to seal the container compartment, wherein the translucent portion of the second panel generally has the color of the thermal energy storage material.
13 . The method of claim 12 , wherein the step of closing the tube further comprises heat sealing the tube.
14 . The method of claim 12 , wherein the step of closing the tube further comprises sonic welding the tube.
15 . The method of claim 12 , wherein the orthogonal distance between the first and second panels varies within the container compartment.
16 . A thermal energy storage bottle, comprising:
a first panel having a first panel sidewall, a first panel bottom portion, and a first panel transition area therebetween, the first panel transition area having a generally smooth curvilinear shape, the first panel forming a recess adapted for holding a consumable beverage; a second panel, offset from the first panel, having a peripheral edge connected to the first panel to form a container compartment generally coextensive with the second panel, the second panel having a second panel sidewall, a second panel bottom portion, and a second panel transition area therebetween, the second panel transition area having a generally rectilinear shape, the first and second panels forming at least a part of a bottle body; a lid positioned on the bottle body; and a thermal energy storage material located within the container compartment, wherein the generally rectilinear shape of the second panel transition area maximizes the volume of the container compartment and the generally smooth curvilinear shape of the first panel transition area facilitates the flow of the thermal energy storage material during filling of the container compartment.
17 . The thermal energy storage bottle of claim 16 , wherein between sixty (60%) percent and eighty (80%) percent of the container compartment is filled with thermal energy storage material.
18 . A thermal energy storage bottle, comprising:
a first panel having a first panel sidewall, a first panel bottom portion, and a first panel transition area therebetween, the first panel transition area having a generally smooth curvilinear shape, the first panel forming a recess adapted to receive a consumable beverage; a second panel, offset from the first panel, having a peripheral edge connected to the first panel to form a container compartment generally coextensive with the second panel, the second panel having a second panel sidewall, a second panel bottom portion, and a second panel transition area therebetween, the second panel transition area having a generally rectilinear shape, the second panel defining a hole, the first and second panels forming at least a portion of a bottle body; a lid positioned on the bottle body; and a tube surrounding the hole and projecting away from the container compartment, the tube forming a conduit to allow the insertion of a thermal energy storage material into the container compartment, the tube being configured to be permanently closed after the tube is sealed, wherein the generally rectilinear shape of the second panel transition area maximizes the volume of the container compartment and the generally smooth curvilinear shape of the first panel transition area facilitates the flow of the thermal energy storage material during filling of the container compartment.
19 . The thermal energy storage bottle of claim 18 , wherein between sixty (60%) percent and eighty (80%) percent of the container compartment is filled with thermal energy storage material.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.