Battery cell including gas discharging portion

What is claimed is: 1. A battery cell comprising: an electrode assembly; a battery case accommodating the electrode assembly and an electrolyte; and a gas discharging portion disposed between the electrode assembly and the battery case, and opening and closing a flow path based on pressure within the battery case, wherein the battery case is a flexible pouch type, and has a sealing portion formed by sealing at least a portion of edges of the battery case, wherein the gas discharging portion includes: a body portion fixedly coupled to and positioned in the sealing portion; a moving member being moved in the flow path; a plurality of elastic members respectively elastically supporting the moving member; and a plurality of support members respectively disposed between the moving member and the elastic member, not closing the flow path and in point contact with the moving member to prevent a contact point between the moving member and the support member from being lifted, wherein the body portion has a rectangular parallelepiped shape, and has wide surfaces of the rectangular parallelepiped respectively bonded to the sealing portions, wherein the moving member, the plurality of elastic members, and the plurality of support members are disposed in the rectangular parallelepiped space of the body portion, wherein the body portion has a shape in which a length in a first direction is longer than a length in a second direction, wherein the first direction is a length direction of the sealing portion, wherein the second direction is a thickness direction of the sealing portion, wherein the moving member has one surface in contact with the plurality of support members and having an elliptical shape, and wherein the plurality of support members are distributed in a plurality of directions with respect to the one surface of the moving member to support the moving member in balance. 2. The battery cell of claim 1 , wherein the flow path includes: a second flow path on which the moving member, the plurality of elastic members and the plurality of support members are disposed; a first flow path connected to the second flow path, at least a portion of which is disposed in the battery case; and a third flow path connected to the second flow path, at least a portion of which is externally exposed from the battery case. 3. The battery cell of claim 2 , wherein the moving member is moved in the second flow path to open or close the connection between the first flow path and the second flow path. 4. The battery cell of claim 3 , wherein the second flow path is the rectangular parallelepiped space. 5. The battery cell of claim 4 , wherein the moving member has a cross-sectional area reduced toward the first flow path. 6. The battery cell of claim 2 , wherein the moving member has the cross-sectional area smaller than a cross-sectional area of the second flow path and greater than respective cross-sectional areas of the first flow path and the third flow path. 7. The battery cell of claim 4 , wherein the support member has a spherical shape, and the elastic member is a coil spring. 8. The battery cell of claim 2 , wherein the body portion includes the second flow path formed therein; wherein the gas discharging portion further includes: a pipe-shaped inlet portion connected to one side of the body portion, and including the first flow path formed therein; and a discharging portion connected to the other side of the body portion, and including the third flow path formed therein. 9. The battery cell of claim 8 , wherein the gas discharging portion further includes an extension portion extended from the body portion in the first direction of the body portion. 10. The battery cell of claim 9 , wherein the extension portion has a thickness lowering in a direction away from the body portion. 11. The battery cell of claim 10 , wherein the extension portion is bonded to the battery case.