	US 11,715,963 B1
	Battery storage container and wellness system
Thomas H. Hays, Rockville, MD (US); Jessica E. Schwartz, Brookeville, MD (US); Gerard G. Back, Davidsonville, MD (US); Peter J. Disimile, Cincinnati, OH (US); Earl W. Armstrong, Washington, DC (US); Adam C. Dolezal, Silver Spring, MD (US); Evan T. Rule, Burtonsville, MD (US); Dennis P. Thompson, Jr., Greenbelt, MD (US); and Ian E. Therrien, North Kingstown, RI (US)
Assigned to The United States of America, as represented by the Secretary of the Navy, Washington, DC (US)
Filed by United States of America as Represented by the Secretary of the Navy, Arlington, VA (US)
Filed on Apr. 29, 2021, as Appl. No. 17/244,872.
Claims priority of provisional application 63/017,149, filed on Apr. 29, 2020.
Int. Cl. H02J 7/00 (2006.01); H01M 10/44 (2006.01); A62C 3/16 (2006.01); H01M 50/209 (2021.01); A62C 35/02 (2006.01); A62C 3/07 (2006.01)

CPC H02J 7/0042 (2013.01) [A62C 3/16 (2013.01); A62C 35/023 (2013.01); H01M 10/441 (2013.01); H01M 50/209 (2021.01); A62C 3/07 (2013.01); H01M 2220/20 (2013.01)]

4 Claims

1. A battery storage container and wellness system comprising:

a rectanguloid container having a first side and a second side, with a plurality of battery storage compartments at the first side, and a plurality of battery storage compartments at the second side, the rectanguloid container having a machine area between the first side and the second side, the machine area providing an extended gap between the plurality of battery storage compartments at the first side and the plurality of battery storage compartments at the second side, wherein each of the battery storage compartments in the plurality of battery storage compartments at the first side and the plurality of battery storage compartments at the second side is stacked in columns having at least an upper compartment area and a lower compartment area, wherein an air gap between adjacent columns prevents spreading of fire from one column to another column, and wherein each of the battery storage compartments is rectanguloid and comprises

a top portion, a bottom portion, a front portion, a back portion, and first and second side portions,

a door at the front portion for placing and removing batteries,

a charging circuit and an associated charger port for charging batteries therein, and

a sensor for detecting fires within the battery storage compartment;

a plumbing arrangement comprising

at least two supply containers having fire mitigating fluid therein, wherein each of the at least two supply containers are pressurized for disbursing the fire mitigating fluid to any of the battery storage compartments in the plurality of battery storage compartments at the first side and the plurality of battery storage compartments at the second side,

a plurality of dedicated lines located primarily in the machine area, extending from the supply containers to each of the battery storage compartments, wherein respective dedicated lines extend through a topmost part of the back portion of each of the battery storage compartments, and

one or more valves for directing the fire mitigating fluid from the at least two pressurized supply containers to desired battery storage compartment;

an exhaust arrangement located primarily in the machine area, the exhaust arrangement comprising

an upper plenum arrangement, and

a lower plenum arrangement, wherein each of the upper plenum arrangement and the lower plenum arrangement comprises,

a plurality of exhaust vents, with one of the plurality of vents in each battery storage compartment in the plurality of battery storage compartments at the first side and the plurality of battery storage compartments at the second side,

a check valve associated with each exhaust vent for directing combustion gasses and particles out of battery storage compartment,

a plurality of ducts, with one of the plurality of ducts at the back portion of each battery storage compartment and associated with one of the exhaust vents and the check valve for feeding the combustion gasses and particles, and

a plenum to which each of the plurality of ducts is connected, for receiving combustion gasses and particles fed from the ducts, and for feeding the combustion gasses and particles to an external ventilation system;

a power supply to supply power to each charging circuit in each of the battery storage compartments of the plurality of compartments at the first side and the Plurality of battery storage compartments at the second side;

a sensor system comprising the plurality of sensors in each of the battery storage compartments;

a control system comprising

a controller electronically attached to each of the sensor system, plumbing arrangement, and the exhaust arrangement, wherein when one or more sensors of the sensor system detects a fire, the controller initiates the plumbing arrangement to deliver the fire mitigating fluid to at least one battery storage compartment experiencing fire events, and shuts off power to the charging circuits in the at least one battery storage compartment experiencing fire events, and wherein the check valve in the at least one battery storage compartment experiencing fire events exhausts combustion gasses and particles to a respective upper or lower plenum.