Fuel cell with elastic member

What is claimed is: 1. A fuel cell, comprising: a cell stack in which a plurality of unit cells are stacked in a first direction; an end-plate disposed on each of opposite side ends of the cell stack; and an elastic member overlapped with an area of the cell stack in which condensate water remains in the first direction, at least a portion of the elastic member being disposed in the end-plate, wherein the end-plate includes: a body having a bottom surface, a top surface opposite to the bottom surface in a second direction which is a direction perpendicular to the first direction, and an inner lateral surface connecting the bottom surface and the top surface and facing the cell stack; wherein a single recess is disposed in the inner lateral surface and the single recess is offset from a center of the inner lateral surface such that the single recess is disposed at a position which is closer to the bottom surface of the body than the top surface of the body; and wherein the elastic member is disposed in the single recess. 2. The fuel cell according to claim 1 , wherein the end-plate further includes a collector plate disposed between the cell stack and the inner lateral surface of the body that faces the stack, wherein the elastic member is spaced apart from the collector plate. 3. The fuel cell according to claim 2 , wherein the elastic member has the same repulsive force as a pressure applied to the inner lateral surface of the body by expansion force of the condensate water. 4. The fuel cell according to claim 3 , wherein the repulsive force of the elastic member ranges from about 0.8 Mpa to 1.2 Mpa. 5. The fuel cell according to claim 3 , wherein the elastic member has an elastic modulus that causes the repulsive force to be less than about 1.5 Mpa when a displacement of the inner lateral surface by the expansion force is about 1 mm. 6. The fuel cell according to claim 2 , wherein each of the unit cells includes: a membrane electrode assembly including a fuel electrode, an air electrode, and a polymer electrolyte membrane disposed between the fuel electrode and the air electrode; a gas diffusion layer disposed on either side of the membrane electrode assembly; and a separation plate disposed at an outer side of the gas diffusion layers. 7. The fuel cell according to claim 6 , further comprising: a stopper disposed between the collector plate and the elastic member. 8. The fuel cell according to claim 7 , wherein each of the unit cells further includes a gasket disposed between the separation plate and the gas diffusion layer, and wherein the stopper is disposed to overlap the gasket in the first direction. 9. The fuel cell according to claim 6 , wherein the inner lateral surface is formed of a first area having the single recess disposed therein and a second area which is closer to the top surface of the body, and a first length of the first area in the second direction corresponds to a length from a bottom surface of the separation plate to a first point that is one third of an overall height of the separation plate, and a second length of the second area in the second direction corresponds to a length from the first point to a top surface of the separation plate. 10. The fuel cell according to claim 1 , wherein the inner lateral surface is formed of a first area having the single recess disposed therein and a second area which is closer to the top surface of the body, and the first area has a first length that is equal to or less than a second length of the second area in the second direction. 11. The fuel cell according to claim 10 , wherein the first length corresponds to a length from the bottom surface of the body to a first point that is one third of an overall height of the body, and wherein the second length corresponds to a length from the first point to the top surface of the body. 12. The fuel cell according to claim 1 , wherein the elastic member includes a plurality of springs stacked in the second direction and spaced apart from each other. 13. The fuel cell according to claim 12 , wherein the inner lateral surface is formed of a first area having the single recess disposed therein and a second area which is closer to the top surface of the body, and the respective springs has elastic force to cause the first area and the second area to have the same initial pressure in an initial state in which the condensate water does not expand. 14. The fuel cell according to claim 12 , wherein the respective springs are reduced in elastic force with increasing distance from a bottom surface of the body. 15. The fuel cell according to claim 12 , wherein the springs have the same elastic force per unit length, and wherein the further the respective springs are disposed from the bottom surface of the body, the shorter length the respective springs have. 16. The fuel cell according to claim 1 , wherein the elastic member includes: a first elastic member disposed inside the end-plate disposed on a first side end among the opposite side ends of the cell stack; and a second elastic member disposed inside the end-plate disposed on a second side end among the opposite side ends of the cell stack. 17. The fuel cell according to claim 16 , wherein an elastic force of the first elastic member is different from an elastic force of the second elastic member. 18. The fuel cell according to claim 17 , wherein a reactant gas is introduced or discharged via the first side among the opposite side ends of the cell stack, and the elastic force of the first elastic member is greater than the elastic forced of the second elastic member. 19. The fuel cell according to claim 16 , wherein the first elastic member and the second elastic member have a symmetrical cross-sectional shape in the first direction with respect to the center of the cell stack.