Overcharge protection device for a battery module

The invention claimed is: 1. A battery module, comprising: a housing; and a plurality of battery cells disposed in the housing, wherein each of the plurality of battery cells comprises a positive terminal, a negative terminal, an overcharge protection assembly, and a casing comprising an electrically conductive material; wherein the overcharge protection assembly comprises a vent, a first spring component, a second spring component, and an insulative component, wherein the first spring component is electrically coupled to the positive terminal, the second spring component is electrically coupled to the negative terminal, the insulative component is disposed between the first spring component and a conductive piece and between the second spring component and the conductive piece, and the vent is configured to drive the insulative component from between the first spring component and the conductive piece and drive the insulative component from between the second spring component and the conductive piece, such that the first spring component and the second spring component each electrically contact the conductive piece, when a pressure in the casing exceeds a threshold value. 2. The battery module of claim 1 , wherein the casing comprises the conductive piece. 3. The battery module of claim 1 , wherein at least one of the first spring component and the second spring component are integrated into a bus bar configured to couple a first battery cell of the plurality of battery cells to a second battery cell of the plurality of battery cells. 4. The battery module of claim 3 , wherein the bus bar is coupled to a positive terminal of the first battery cell of the plurality of battery cells and to a negative terminal of the second battery cell of the plurality of battery cells. 5. The battery module of claim 3 , wherein the bus bar is coupled to a positive terminal of the first battery cell of the plurality of battery cells and to a positive terminal of the second battery cell of the plurality of battery cells. 6. The battery module of claim 1 , wherein the insulative component comprises a first slot configured to be positioned between the first spring component and the conductive piece and a second slot configured to be positioned between the second spring component and the conductive piece. 7. The battery module of claim 6 , comprising a separate carrier coupled to the casing, and wherein the insulative component is disposed in the separate carrier. 8. The battery module of claim 7 , wherein the separate carrier comprises a narrow section configured to receive the insulative component, and wherein the insulative component comprises a width that is narrower than a width of the casing. 9. The battery module of claim 1 , wherein the insulative component comprises plastic, ceramic, rubber, nylon, or any combination thereof. 10. The battery module of claim 1 , wherein the insulative component comprises an insulative bistable beam, a first insulative member, and a second insulative member, the insulative bistable beam is configured to be stable in a first position and a second position, the first insulative member is configured to be positioned between the first spring component and the conductive piece when the insulative bistable beam is in the first position, and the second insulative member is configured to be positioned between the second spring component and the conductive piece when the insulative bistable beam is in the first position. 11. The battery module of claim 10 , wherein the first insulative member is coupled to the insulative bistable beam via a first groove and the second insulative member is coupled to the insulative bistable beam via a second groove. 12. The battery module of claim 11 , wherein the insulative bistable beam is configured to pull the first insulative member from between the first spring component and the conductive piece and to pull the second insulative member from between the second spring component and the conductive piece when the insulative bistable beam moves from the first position to the second position. 13. The battery module of claim 1 , comprising a first terminal pad and a second terminal pad. 14. The battery module of claim 13 , wherein a first end of the first terminal pad is directly coupled to the positive terminal and a second end of the first terminal pad is directly coupled to the first spring component, and wherein a third end of the second terminal pad is directly coupled to the negative terminal and a fourth end of the second terminal pad is directly coupled to the second spring component. 15. A lithium ion battery cell, comprising: a positive terminal; a negative terminal; a casing having an electrically conductive material; and an overcharge protection assembly comprising a vent flap, a first conductive component, a second conductive component, and an insulating component; wherein the vent flap is configured to transition from an open position to a closed position, the first conductive component is electrically coupled to the positive terminal, the second conductive component is electrically coupled to the negative terminal, the insulating component is positioned between the first conductive component and the casing and between the second conductive component and the casing when the vent flap is in the closed position, and the vent flap is configured to drive the insulating component from between the first conductive component and the casing and to drive the insulating component from between the second conductive component and the casing when the vent flap moves from the closed position to the open position, and the first and second conductive components contact the casing when the vent flap is in the open position. 16. The lithium ion battery cell of claim 15 , wherein the vent flap comprises an indented seam in a center of the vent flap, and wherein the indented seam is configured to break when a pressure in the casing reaches a threshold value. 17. The lithium ion battery cell of claim 15 , wherein the vent flap comprises an indented portion on a perimeter of the vent flap, and wherein the indented portion is configured to break when a pressure in the casing reaches a threshold value. 18. The lithium ion battery cell of claim 15 , wherein the first conductive component is coupled to the positive terminal and the second conductive component is coupled to the negative terminal via a weld. 19. The lithium ion battery cell of claim 15 , wherein the first conductive component is coupled to the positive terminal and the second conductive component is coupled to the negative terminal via a fastener.