Separator, and fuel cell stack comprising the same

The invention claimed is: 1. A separator comprising: a plurality of convex portions and a plurality of concave portions which are sequentially provided along a first direction; and a plurality of partitions connecting each convex portion with an adjacent one of the concave portions, wherein first openings are each provided on a top surface of the respective convex portion, the first openings are provided at predetermined intervals along a second direction orthogonal to the first direction, wherein the first openings of two adjacent convex portions along the first direction are each provided so as not to be positioned coaxially based on a virtual first line parallel to the first direction, wherein each first opening is formed to have a length along the first direction larger than a width along the second direction, wherein each first opening is formed over the respective top surface and a partial area of the partition of the respective convex portion, wherein the separator further comprises second openings extending only from a bottom surface of the respective concave portion into an intermediate portion of the respective partition, and wherein the second openings of two adjacent concave portions along the first direction are each provided so as not to be positioned coaxially based on the virtual first line parallel to the first direction. 2. The separator according to claim 1 , wherein each top surface is formed as a flat surface. 3. The separator according to claim 1 , wherein the bottom surface of each concave portion is formed as a flat surface. 4. The separator according to claim 1 , wherein each second opening is formed to have a length along the first direction larger than a width along the second direction. 5. The separator according to claim 1 , wherein two second openings of the second openings in three adjacent concave portions are provided to be positioned coaxially based on the virtual first line parallel to the first direction. 6. The separator according to claim 3 , wherein each partition is inclined at a predetermined angle with respect to the bottom surface of the respective concave portion and the top surface of the respective concave portion. 7. The separator according to claim 6 , wherein each bottom surface is parallel to each top surface. 8. A separator comprising: a plurality of convex portions and a plurality of concave portions which are sequentially provided along a first direction, wherein first openings are each provided on a top surface of the respective convex portion, the first openings are provided at predetermined intervals along a second direction orthogonal to the first direction, at least one convex portion comprises a partition connected to an adjacent concave portion and a top surface connected to the partition, at least one concave portion comprises a partition connected to an adjacent convex portion and a bottom surface connected to the partition, the top surface and the bottom surface are each inclined at a predetermined angle with respect to the partitions, the first openings of two adjacent convex portions are each provided so as not to be positioned coaxially based on a virtual first line parallel to the first direction, each first opening is formed to have a length along the first direction larger than a width along the second direction, and the respective first opening is formed over the top surface of the at least one convex portion and a partial area of the partition of the at least one convex portion, wherein the separator further comprises at least one second opening extending only from a bottom surface of the respective concave portion into an intermediate portion the respective partition, and wherein the second openings of two adjacent concave portions along the first direction are each provided so as not to be positioned coaxially based on the virtual first line parallel to the first direction. 9. A fuel cell stack, comprising: a membrane-electrode assembly; a gas diffusion layer provided on one side of the membrane-electrode assembly; and a separator disposed so that at least some regions of the separator are in contact with the gas diffusion layer, wherein the separator comprises a plurality of convex portions in contact with the gas diffusion layer and a plurality of concave portions which are not in contact with the gas diffusion layer, wherein the convex portions and the concave portions are successively provided along a first direction in sequence, wherein first openings are each provided on a respective top surface of a respective convex portion, the first openings are provided at predetermined intervals along a second direction orthogonal to the first direction, wherein the first openings of two adjacent convex portions are each provided so as not to be positioned coaxially based on a virtual first line parallel to the first direction, wherein each first opening is formed to have a length along the first direction larger than a width along the second direction, wherein each first opening is formed over the respective top surface of the respective convex portion and a partial area of a respective partition of the convex portion, wherein the separator further comprises: a plurality of partitions connecting each convex portion with each adjacent concave portion; and second openings extending only from a bottom surface of the respective concave portion into an intermediate portion the respective partition, and wherein the second openings of two adjacent concave portions along the first direction are each provided so as not to be positioned coaxially based on the virtual first line parallel to the first direction. 10. The fuel cell stack according to claim 9 , wherein the fuel cell stack is provided so that a reaction gas is supplied to the separator along the first direction. 11. The fuel cell stack according to claim 9 , wherein the fuel cell stack is provided so that the convex portions are inclined toward the first direction.