Assembling method for fuel cell stack and stacking apparatus

What is claimed is: 1 . An assembling method for a fuel cell stack, comprising stacking alternately a unitized electrode assembly having an electrolyte membrane and an electrode, and a separator in a predetermined region to form a cell stacked body, wherein each of the unitized electrode assembly and the separator is a stack element, and the stacking includes: transporting the stack element above the predetermined region while sucking the stack element by a suction portion: descending the stack element while positioning the stack element along a guide member extending upward around the predetermined region; and releasing a suction by the suction portion when a lower surface of the stack element abuts on an upper surface of another stack element having been stacked in the predetermined region. 2 . The assembling method according to claim 1 , wherein the stacking further includes moving an upper guide support portion and a lower guide support portion provided movably between a first position holding the guide member and a second position separated from the guide member, in accordance with a descent position of the stack element during the descending, and the moving includes moving the upper guide support portion to the second position and the lower guide support portion to the first position until the stack element descends to a predetermined position between the upper guide support portion and the lower guide support portion, and moving the upper guide support portion to the first position and the lower guide support portion to the second position when the stack element descends to the predetermined position. 3 . The assembling method according to claim 1 , wherein the descending includes descending the stack element, while supporting the suction portion at a base portion moving in accordance with driving of an actuator through an elastic body contractible in an up-down direction. 4 . The assembling method according to claim 1 , further comprising joining the unitized electrode assembly and the separator in advance to form a unit cell, wherein the stacking includes sucking the unit cell by the suction portion. 5 . A stacking apparatus configured to form a stacked body by stacking a stack element in a predetermined region, the stacking apparatus comprising: a movable part provided vertically movably and including a suction portion configured to suck the stack element; a guide member extended upward around the predetermined region to regulate a position of an edge portion of the stack element when the movable part descends; an actuator ascending and descending the movable part; and an electronic control unit configured to control the suction portion and the actuator, wherein the electronic control unit is configured to control the actuator so as to move the movable part to a target position where a lower surface of the stack element abuts on an upper surface of another stack element having been stacked in the predetermined region, and to control the suction portion so as to release sucking of the stack element when the movable part reaches the target position. 6 . The stacking apparatus according to claim 5 , wherein the actuator is a first actuator, the stacking apparatus further comprises: an upper guide support portion and a lower guide support portion provided movably between a first position holding the guide member and a second position separated from the guide member; a second actuator driving the upper guide support portion and the lower guide support portion; and a position detection portion detecting a descent position of the stack element, the electronic control unit is configured to further control the second actuator so as to move the upper guide support portion to the second position and the lower guide support portion to the first position until the descent position of the stack element detected by the position detection portion reaches a predetermined position between the upper guide support portion and the lower guide support portion, and to move the upper guide support portion to the first position and the lower guide support portion to the second position when the descent position reaches the predetermined position. 7 . The stacking apparatus according to claim 5 , wherein the movable part further includes a base portion ascending and descending in accordance with driving of the actuator, and a support portion supporting the suction portion from the base portion through an elastic body in a movable manner in an up-down direction relative to the base portion. 8 . The stacking apparatus according to claim 5 , further comprising a tubular body having a distal end face extending on an identical plane to a suction surface of the suction portion to surround the suction portion. 9 . The stacking apparatus according to claim 5 , wherein the suction portion includes a first pair of suction portions and a second pair of suction portions, the guide member includes a pair of guide members regulating a position of a first edge portion on a first end side of the stack element and a position of a second edge portion on a second end side of the stack element, the first pair of suction portions are provided so that suction surfaces of the first pair of suction portions face an upper surface of the first edge portion, and the second pair of suction portions are provided so that suction surfaces of the second pair of suction portions face an upper surface of the second edge portion. 10 . The stacking apparatus according to claim 6 , wherein each of the upper guide support portion and the lower guide support portion includes a pair of openable levers closing at the first position so as to grip an outer peripheral surface of the guide member and opening at the second position so as to separate from the outer peripheral surface.