BATTERY MODULE OF HIGH COOLING EFFICIENCY
First Claim
1. A battery module, comprising:
- a plurality of unit cells stacked proximate to one another, the plurality of unit cells defining flow channels therebetween, each unit cell of the plurality of unit cells being longitudinally positioned at a first predetermined angle between 3 and 15 degrees relative to a first wall of an input port for a respective flow channel, and each unit cell of the plurality of unit cells being further longitudinally positioned at a second predetermined angle 3 and 15 degrees relative to a second wall of an outlet port for the respective flow channel, the first and second walls being parallel to one another; and
a cooling system that routes a coolant through the flow channels between the plurality of unit cells such that the coolant contacts the plurality of unit cells to cool the plurality of unit cells.
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Accused Products
Abstract
Disclosed herein is a battery module including a plurality of unit cells stacked one on another. The battery module has a cooling system that accomplishes contact type cooling by a coolant flowing through gaps (flow channels) defined between the unit cells, and the flow channels defined between the unit cells are at a predetermined angle to the flowing direction of the coolant at inlet ports of the flow channels. The contact rate of the coolant to the unit cells in the battery module is increased and a large number of turbulent flows are created by the changing the flow channel through which the coolant flows. Consequently, the occurrence of the velocity gradient of the coolant in the flow channel defined between the unit cells is prevented, and therefore, the cooling efficiency of the battery module is improved.
59 Citations
13 Claims
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1. A battery module, comprising:
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a plurality of unit cells stacked proximate to one another, the plurality of unit cells defining flow channels therebetween, each unit cell of the plurality of unit cells being longitudinally positioned at a first predetermined angle between 3 and 15 degrees relative to a first wall of an input port for a respective flow channel, and each unit cell of the plurality of unit cells being further longitudinally positioned at a second predetermined angle 3 and 15 degrees relative to a second wall of an outlet port for the respective flow channel, the first and second walls being parallel to one another; and a cooling system that routes a coolant through the flow channels between the plurality of unit cells such that the coolant contacts the plurality of unit cells to cool the plurality of unit cells. - View Dependent Claims (2, 3, 4, 5, 6, 11)
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7. A battery module comprising:
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first and second frame members; a first unit cell disposed between the first and second frame members and supported by the first and second frame members; third and fourth frame members, the third frame member being disposed on the second frame member; a second unit cell disposed between the third and fourth frame members and supported by the third and fourth frame members; the first and second unit cells having a flow channel defined therebetween, the first and second unit cells being longitudinally positioned at a first predetermined angle between 3 and 15 degrees relative to an input port defined by the second and third frame members, and the first and second unit cells being further longitudinally positioned at a second predetermined angle between 3 and 15 degrees relative to an outlet port defined by the second and third frame members, the inlet port extending in a direction parallel to a direction in which the outlet port extends; and a cooling system that routes coolant through the input port and the flow channel such that the coolant contacts the first and second unit cells to cool the first and second unit cells. - View Dependent Claims (8, 9, 10, 12, 13)
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Specification