초록 ▼

An electricity storage device includes: a plurality of batteries juxtaposed in a first direction, each battery having on a first side a gas discharge valve that discharges a gas produced inside the battery; and a cooling path formed between the plurality of batteries that face each other in the firs

An electricity storage device includes: a plurality of batteries juxtaposed in a first direction, each battery having on a first side a gas discharge valve that discharges a gas produced inside the battery; and a cooling path formed between the plurality of batteries that face each other in the first direction, constructed to convey a coolant that cools the batteries, and an intake opening for taking in the coolant on a second side that is an opposite side to the first side in a second direction orthogonal to the first direction and a discharge opening for discharging the coolant taken in on at least one of sides in a third direction orthogonal to the second direction and to the first direction.

대표청구항 ▼

1. An electricity storage device comprising: a plurality of batteries juxtaposed in a first direction to form a battery stack, each battery having a gas discharge valve on a first side, the gas discharge valve being configured to discharge a gas produced inside the battery, the first side being one

1. An electricity storage device comprising: a plurality of batteries juxtaposed in a first direction to form a battery stack, each battery having a gas discharge valve on a first side, the gas discharge valve being configured to discharge a gas produced inside the battery, the first side being one side of a second direction, and the second direction being orthogonal to the first direction; anda cooling path placed between the plurality of batteries that face each other in the first direction, a coolant that cools the batteries flowing through the cooling path, and the cooling path having:an intake opening configured to take in the coolant to the cooling path, the intake opening being provided on a second side that is an opposite side to the first side;a discharge opening configured to discharge the coolant, the discharge opening being provided on at least one of a third side or a fourth side, the third side and the fourth side being both sides of a third direction, the third direction being orthogonal to the second direction and to the first direction; anda smoke discharge path provided on the first side of the plurality of batteries, the smoke discharge path configured to discharge the gas discharged from the gas discharge valve to an outside of the battery stack in the first direction without flowing in the cooling path,wherein the cooling path is partitioned from the smoke discharge path to prevent communication between the cooling path and the smoke discharge path, whereinthe discharge opening is provided on each of the third side and the fourth side,the cooling path has a T shape in a section orthogonal to the first direction, andthe cooling path includes:a first path portion that extends from the intake opening toward the first side and then extends toward the third side; anda second path portion that extends from the intake opening toward the first side and then extends toward the fourth side. 2. The electricity storage device according to claim 1, wherein a sectional area of the intake opening is smaller than a sum of a sectional area of the discharge opening on the third side and a sectional area of the discharge opening on the fourth side. 3. The electricity storage device according to claim 1, wherein a sectional area of the intake opening is smaller than a sectional area of the discharge opening. 4. The electricity storage device according to claim 1, further comprising: a partition plate provided between the plurality of batteries in the first direction, the partition plate having a rib,wherein the cooling path is at least partially defined by the rib. 5. The electricity storage device according to claim 4, wherein the rib extends from the second side to the first side in the second direction and turns into the third direction. 6. The electricity storage device according to claim 1, further comprising: a plurality of partition plates provided between the plurality of batteries in the first direction, each partition plate having connecting portions, the connecting portions protruding at the second side in the second direction, and the connecting portions extending in two rows in the first direction;a cover member disposed on the second side of the plurality of batteries; anda supply path configured to supply the coolant to the cooling path, the supply path being at least partially defined by the cover member and the connecting portions of the partition plates. 7. The electricity storage device according to claim 6, wherein the cover member is made of metal. 8. The electricity storage device according to claim 1, further comprising: a plurality of partition plates provided between the plurality of batteries in the first direction, each partition plate having connecting portions, the connecting portions protruding at the first side in the second direction, and the connecting portions extending in two rows in the first direction;a cover member disposed on the first side of the plurality of batteries;a pair of end plates disposed on both sides of the plurality of batteries in the first direction;an arresting member having two ends coupled to the pair of end plates, the arresting member extends in the first direction at the first side of the plurality of batteries, and the arresting member being configured to provide arresting force in the first direction to the plurality of batteries; andwherein the smoke discharge path being at least partially defined by the cover member and the connecting portions,wherein the connecting portions define, inside the connecting portions, hollow portions that extend in the first direction; andthe arresting member extends in at least one of the hollow portions.