Separator for fuel cell including guide pattern and fuel cell stack including the same

What is claimed is: 1. A separator for a fuel cell, comprising: a central part with a rectangular shape; and a surrounding part disposed to surround the central part, wherein: the surrounding part includes an outlet manifold positioned at a pair of corners of the central part, which are opposed to each other, and an inlet manifold positioned along a side of the central part to be adjacent to another corner except for the pair of corners at which the outlet manifold is positioned; and the central part includes a plurality of guide patterns that are spaced apart from each other to guide fluids introduced through the inlet manifold toward the outlet manifold, wherein corners of the central part are defined as a first corner, a second corner, a third corner, and a fourth corner in a clockwise direction; the inlet manifold is provided to be adjacent to the first corner and the third corner, which are opposed to each other in a diagonal line direction, among the corners of the central part; and the outlet manifold is provided to be adjacent to the second corner and the fourth corner among the corners of the central part, the central part includes four sub central parts defined by a first symmetrical line and a second symmetrical line, which connect the corners; and each of the sub central parts is defined as a first region adjacent to the inlet manifold and a second region adjacent to the outlet manifold. 2. The separator for a fuel cell of claim 1 , wherein the plurality of guide patterns include a plurality of sets of blocks that extend in a specific direction and are spaced apart from each other. 3. The separator for a fuel cell of claim 2 , wherein a cross section of the block, taken in a perpendicular direction to a thickness direction of the block, is an oval shape or a rectangular shape. 4. The separator for a fuel cell of claim 1 , wherein: the plurality of guide patterns include a first guide pattern and a second guide pattern; first blocks constituting the first guide pattern have a larger width than second blocks constituting the second guide patterns; and an interval between the first blocks is larger than an interval between the second blocks. 5. The separator for a fuel cell of claim 1 , wherein: the plurality of guide patterns include inflow guide patterns provided in the first region and outflow guide patterns provided in the second region; and the inflow guide patterns and the outflow guide patterns extend in different directions. 6. The separator for a fuel cell of claim 5 , wherein the outflow guide patterns extend in a direction toward the outlet manifold. 7. The separator for a fuel cell of claim 5 , wherein: the plurality of guide patterns include a plurality of sets of blocks that extend in a same direction and are spaced apart from each other; and any one set of the inflow guide patterns extends in parallel to a direction in which another set extends. 8. The separator for a fuel cell of claim 5 , wherein: the inflow guide patterns include a first inflow guide pattern and a second inflow guide pattern; the outflow guide patterns include a first outflow guide pattern and a second outflow guide pattern; and the first inflow guide pattern and the second inflow guide pattern extend in thea same direction, and the first outflow guide pattern and the second outflow guide pattern extend in different directions. 9. The separator for a fuel cell of claim 1 , wherein: the inlet manifolds are four in number and the outlet manifolds are two in number. 10. The separator for a fuel cell of claim 1 , wherein: the plurality of guide patterns include inflow guide patterns provided in the first region and outflow guide patterns provided in the second region; the inflow guide patterns extend toward a boundary between the first region and the second region; and the outflow guide patterns extend toward the outlet manifold. 11. The separator for a fuel cell of claim 10 , wherein: the outlet manifold is provided in plural number to be adjacent to the corners connected by the first symmetrical line; and the inflow guide patterns are disposed in parallel to the second symmetrical line. 12. The separator for a fuel cell of claim 10 , wherein the inflow guide patterns are disposed in parallel to a direction obtained via rotation at a specific angle based on a direction in which the second symmetrical line extends. 13. The separator for a fuel cell of claim 10 , wherein: the inflow guide patterns include a first inflow guide pattern and a second inflow guide pattern; the first inflow guide pattern is disposed adjacent to the second symmetrical line compared with the second inflow guide pattern; and an interval between blocks constituting the second inflow guide pattern is less than an interval between blocks constituting the first inflow guide pattern. 14. The separator for a fuel cell of claim 10 , wherein: the outflow guide patterns include a first outflow guide pattern and a second outflow guide pattern; the first outflow guide pattern is disposed adjacent to the first symmetrical line compared with the second outflow guide pattern; and an interval between the blocks constituting the second outflow guide pattern is less than an interval between the blocks constituting the first outflow guide pattern. 15. A fuel cell stack comprising: a unit cell including an air electrode, an electrolyte, and a fuel electrode; and a separator including a central part with a rectangular shape and a surrounding part disposed to surround the central part, wherein: the unit cell and the separator are each provided in plural number and are alternately stacked; the surrounding part includes an outlet manifold positioned at a pair of corners of the central part, which are opposed to each other, and an inlet manifold positioned along a side of the central part to be adjacent to another corner except for the pair of corners at which the outlet manifold is positioned; and the central part includes a plurality of guide patterns that are spaced apart from each other to guide fluids introduced through the inlet manifold toward the outlet manifold, wherein: the central part includes four sub central parts defined by a first symmetrical line and a second symmetrical line, which connect corners; each of the sub central parts is defined as a first region adjacent to the inlet manifold and a second region adjacent to the outlet manifold; the plurality of guide patterns include inflow guide patterns provided in the first region and outflow guide patterns provided in the second region; and the inflow guide patterns extend toward a boundary between the first region and the second region, and the outflow guide patterns extend toward the outlet manifold. 16. The fuel cell stack of claim 15 , wherein: the inflow guide patterns include a first inflow guide pattern and a second inflow guide pattern, and the outflow guide patterns include a first outflow guide pattern and a second outflow guide pattern; blocks constituting the first inflow guide pattern have a different size from blocks constituting the second inflow guide pattern; and blocks constituting the first outflow guide pattern have a different size from blocks constituting the second outflow guide pattern. 17. The fuel cell stack of claim 16 , wherein the first symmetrical line is an imaginary line connecting the outlet manifolds disposed at the pair of corners; and an interval between the block constituting the first inflow guide pattern is larger than an interval between the blocks constituting the