Patent ID: 11876199
Assignee: LG ENERGY SOLUTION, LTD.
Field: Electrical machinery, apparatus, energy (Electrical engineering)
Classification: CPC H  Y | IPC H

Claim 0:
1. A battery module, comprising:
at least one battery cell extending along an axis between opposing first and second sides of the at least one battery cell, the at least one battery cell including a first electrode lead positioned on the first side and a second electrode lead positioned on the second side;
a bus bar assembly including a first bus bar assembly portion connected to the first electrode lead and a second bus bar assembly portion connected to the second electrode lead, such that the first and second bus bar assembly portions are positioned along the opposing first and second sides of the at least one battery cell, respectively;
a pair of heatsinks each having an internal channel configured to allow a coolant to flow therethrough, the pair of heatsinks including a lower heatsink and an upper heatsink, the lower heatsink configured to extend along a lower side of the at least one battery cell, and the upper heatsink disposed opposite to the lower heatsink and configured to extend along an upper side of the at least one battery cell; and
a pair of cooling plates connected to the pair of heatsinks and oriented orthogonally thereto, the pair of cooling plates including a first cooling plate arranged in direct contact with the first bus bar assembly portion of the bus bar assembly and a second cooling plate arranged in direct contact with the second bus bar assembly portion of the bus bar assembly, the first cooling plate extending along a first plane orthogonal to the axis of the at least one battery cell and the second cooling plate extending along a second plane orthogonal to the axis of the at least one battery cell;
wherein the first cooling plate includes a first perimeter tube extending within the first plane and encircling at least a portion of the first cooling plate, the first perimeter tube communicating with both of the upper and lower heatsinks, and wherein the second cooling plate includes a second perimeter tube extending within the second plane and encircling at least a portion of the second cooling plate, the second perimeter tube communicating with both of the upper and lower heatsinks;
wherein the first and second perimeter tubes each include:
a tube body encircling the at least a portion of the respective first and second cooling plate, the tube body having an inner channel;
a single coolant supply tube for each of the first and second perimeter tubes, the single coolant supply tube of each of the first and second perimeter tubes connecting the respective tube body to the lower heatsink to supply a coolant to the tube body; and
a single coolant discharge tube for each of the first and second perimeter tubes, the single coolant discharge tube of each of the first and second perimeter tubes connecting the respective tube body to the upper heatsink so that the coolant in the tube body can be discharged to the at least one upper heatsink; and

wherein the tube body of each of the first and second perimeter tubes follows a single path extending along a perimeter of the respective first and second cooling plate from the respective single coolant supply tube to the respective single coolant discharge tube, and wherein a thickness of each of the first and second cooling plates in a dimension extending along the axis of the at least one battery cell is greater than a width of the inner channel of the respective first and second perimeter tubes in the dimension, such that the inner channel of the first perimeter tube is received within an interior of the first cooling plate between opposing exterior surfaces of the first cooling plate along the axis, and such that the inner channel of the second perimeter tube is received within an interior of the second cooling plate between opposing exterior surfaces of the second cooling plate along the axis.