Electrochemical hydrogen pump

1 . An electrochemical hydrogen pump comprising: at least one single battery cell including an anode separator, an anode diffusion layer, an anode electrode layer, an electrolyte membrane, a cathode electrode layer, a cathode diffusion layer, and a cathode separator; and an anode side member and a cathode side member provided to sandwich the at least one single battery cell, wherein a pressure space is provided at a position where the anode diffusion layer and the cathode diffusion layer are sandwiched, and wherein the pressure space includes an anode pressure space provided in the anode side member, and a cathode pressure space provided in the cathode side member. 2 . The electrochemical hydrogen pump according to claim 1 , further comprising a power source connecting member configured to be connected to a power source between the at least one single battery cell and at least one of the anode side member and the cathode side member, and wherein the pressure space is located outside the power source connecting member in a stacking direction of the at least one single battery cell. 3 . The electrochemical hydrogen pump according to claim 1 , wherein the pressure space is communicated with the cathode manifold through a first introduction path; and wherein the cathode electrode layer is communicated with the cathode manifold through the second introduction path. 4 . The electrochemical hydrogen pump according to claim 3 , wherein the pressure space has a cylindrical shape whose central axis is parallel to a stacking direction of the at least one single battery cell; and wherein the pressure space is surrounded by a seal having a same central axis as the central axis of the pressure space. 5 . The electrochemical hydrogen pump according to claim 4 , wherein the first introduction path and the second introduction path are surrounded by a seal whose central axis is parallel to the central axis of the pressure space. 6 . The electrochemical hydrogen pump according to claim 5 , wherein a first figure obtained by projecting the seal that surrounds the pressure space and the seal that surrounds the first introduction path on one flat surface perpendicular to the stacking direction is congruent with a second figure obtained by projecting a seal that surrounds the cathode electrode layer and the seal that surrounds the second introduction path on the flat surface. 7 . The electrochemical hydrogen pump according to claim 5 , wherein a third figure obtained by projecting the seal that surrounds the pressure space and the seal that surrounds the first introduction path on one flat surface perpendicular to the stacking direction is larger in area than a fourth figure obtained by projecting a seal that surrounds the cathode electrode layer and the seal that surrounds the second introduction path on the flat surface; and wherein the fourth figure is included in the third figure. 8 . The electrochemical hydrogen pump according to claim 5 , wherein a fifth figure obtained by projecting the seal that surrounds the first introduction path and the seal that surrounds the second introduction path on one flat surface perpendicular to the stacking direction when each of the first introduction path and the second introduction path is provided in a shape of a plurality of steps is smaller in area than a sixth figure obtained by projecting the seal that surrounds the first introduction path and the seal that surrounds the second introduction path on the flat surface when each of the first introduction path and the second introduction path is provided in a shape of a single step. 9 . The electrochemical hydrogen pump according to claim 3 , wherein the anode pressure space includes: a first space part formed to include the cathode diffusion layer as viewed in the stacking direction, and a second space part communicated with the first space part and the cathode manifold and formed to include the second introduction path as viewed in the stacking direction at a position where the second space part does not at least partly overlap the first space part as viewed in a direction perpendicular to the stacking direction; and wherein the cathode pressure space includes: a third space part formed to include the cathode diffusion layer as viewed in the stacking direction, and a fourth space part communicated with the third space part and the cathode manifold and formed to include the second introduction path as viewed in the stacking direction at a position where the fourth space part does not at least partly overlap the third space part as viewed in the direction perpendicular to the stacking direction. 10 . The electrochemical hydrogen pump according to claim 3 , wherein the anode pressure space includes: a first space part formed to include the cathode diffusion layer as viewed in the stacking direction, a second space part communicated with the first space part and formed to include a part of the second introduction path as viewed in the stacking direction at a position where the second space part does not at least partly overlap the first space part as viewed in the direction perpendicular to the stacking direction, and a fifth space part communicated with the second space part and the cathode manifold and formed to include a part of the second introduction path as viewed in the stacking direction at a position where the fifth space part does not at least partly overlap the second space part as viewed in the direction perpendicular to the stacking direction; wherein the cathode pressure space includes: a third space part formed to include the cathode diffusion layer as viewed in the stacking direction, a fourth space part communicated with the third space part and formed to include a part of the second introduction path as viewed in the stacking direction at a position where the fourth space part does not at least partly overlap the third space part as viewed in the direction perpendicular to the stacking direction, and a sixth space part communicated with the fourth space part and the cathode manifold and formed to include a part of the second introduction path as viewed in the stacking direction at a position where the sixth space part does not at least partly overlap the fourth space part as viewed in the direction perpendicular to the stacking direction, wherein as viewed in the stacking direction, an entirety of the second introduction path is included in at least one of the second space part and the fifth space part; and wherein as viewed in the stacking direction, the entirety of the second introduction path is included in at least one of the fourth space part and the sixth space part.