Compression apparatus

What is claimed is: 1 . A compression apparatus comprising: at least one compression unit including an electrolyte membrane, an anode provided on a first principal surface of the electrolyte membrane, a cathode provided on a second principal surface of the electrolyte membrane, an anode separator stacked on the anode, and a cathode separator stacked on the cathode; a voltage applier that applies a voltage between the anode and the cathode; an anode end plate provided on the anode separator located at a first end in a direction of stacking; a cathode end plate provided on the cathode separator located at a second end in the direction of stacking; and first and second plates provided between the cathode end plate and the cathode separator located at the second end, wherein the compression apparatus causes, by using the voltage applier to apply a voltage, protons taken out from an anode fluid that is supplied to the anode to move to the cathode via the electrolyte membrane and produces compressed hydrogen, the first plate has formed therein a first space in which to store a cathode gas containing the compressed hydrogen, and the second plate is provided with a first manifold through which the cathode gas flows and a first communicating path through which to lead, to the first space, the cathode gas having flowed in from the first manifold. 2 . The compression apparatus according to claim 1 , wherein the first plate and the second plate are integrated with each other by surface joining. 3 . The compression apparatus according to claim 1 , further comprising a third plate provided between the anode end plate and the anode separator located at the first end, wherein the third plate has formed therein a second space in which to store a cathode gas containing the compressed hydrogen, and the anode separator located at the first end is provided with a second manifold through which the cathode gas flows and a second communicating path through which to lead, to the second space, the cathode gas having flowed in from the second manifold. 4 . The compression apparatus according to claim 3 , wherein the third plate and the anode separator located at the first end are integrated with each other by surface joining. 5 . The compression apparatus according to claim 3 , wherein the cathode separator has formed therein a third space in which to store a cathode gas containing the compressed hydrogen, the anode separator is provided with a third manifold through which the cathode gas flows and a third communicating path through which to lead, to the third manifold, the cathode gas having flowed in from the third space, the first space, the second space, and the third space are identical in shape to one another, and the first communicating path, the second communicating path, and the third communicating path are identical in shape to one another. 6 . The compression apparatus according to claim 5 , wherein the anode separator and the cathode separator are integrated with each other by surface joining. 7 . The compression apparatus according to claim 5 , wherein the first plate, the second plate, the third plate, the anode separator, and the cathode separator are each constituted by SUS316L. 8 . The compression apparatus according to claim 3 , wherein at least one selected from the group consisting of the first plate, the second plate, the third plate, and the anode separator located at the first end is used also as a current collector. 9 . The compression apparatus according to claim 1 , wherein an insulative elastic body or solid is provided in the first space. 10 . The compression apparatus according to claim 3 , wherein an insulative elastic body or solid is provided in the second space. 11 . The compression apparatus according to claim 3 , wherein an anode fluid flow channel through which the anode fluid flows is provided in a first surface of the anode separator located at the first end opposite to a second surface of the anode separator located at the first end in which the second communicating path is provided, and the anode fluid flow channel is not provided in a surface of the second plate opposite to a surface of the second plate in which the first communicating path is provided. 12 . The compression apparatus according to claim 3 , wherein a cooling flow channel through which a cooling medium flows is provided in a surface of the anode separator located at the first end in which the second communicating path is provided, and the cooling flow channel is not provided in a surface of the second plate in which the first communicating path is provided.