Manifold, cell stack device, and electrochemical cell

The invention claimed is: 1. A manifold for supplying gas to an electrochemical cell, the electrochemical cell including first and second gas channels extending from a base end portion to a leading end portion of the electrochemical cell and communicating with each other at the leading end portion, the manifold comprising: a first manifold main body including a first gas chamber, the first gas chamber being configured to communicate with the first gas channel, the first manifold main body including a first top plate, a first bottom plate and a first side plate, the first top plate including a first through hole for permitting communication between the first gas channel and the first gas chamber; and a second manifold main body including a second gas chamber, the second gas chamber being configured to communicate with the second gas channel, the second manifold main body being disposed in the first manifold main body, the second manifold main body including a second top plate, a second bottom plate and a second side plate, the second top plate including a second through hole for permitting communication between the second gas channel and the second gas chamber, the first bottom plate of the first manifold main body and the second bottom plate of the second manifold main body being spaced from one another and being disposed in facing relation with one another. 2. The manifold according to claim 1 , wherein the second top plate is constituted by a part of the first top plate. 3. The manifold according to claim 1 , wherein the first side plate and the second side plate are spaced from each other. 4. The manifold according to claim 1 , wherein: the manifold is configured to supply gas to a plurality of the electrochemical cells; the first manifold main body and the second manifold main body extend along an arrangement direction of the electrochemical cells; and the first manifold main body has two end portions spaced from one another in a width direction of the manifold, and the second manifold main body is disposed in the first manifold main body closer to one of the end portions of the first manifold main body. 5. The manifold according to claim 1 , wherein: the manifold is configured to supply gas to a plurality of the electrochemical cells; the first manifold main body and the second manifold main body extend along an arrangement direction of the electrochemical cells; and the second manifold main body is disposed in a central portion of the first manifold main body in a width direction of the manifold. 6. The manifold according to claim 1 , further comprising: a second gas pipe passing through the first manifold main body, the second gas pipe being attached to the second manifold main body; and a second gas seal portion sealing the gap between the first manifold main body and the second gas pipe, the second gas seal portion being disposed on an outer surface of the first manifold main body. 7. A cell stack device comprising: an electrochemical cell; and the manifold according to claim 1 , the manifold supporting a base end portion of the electrochemical celli; the electrochemical cell including at least one first gas channel and at least one second gas channel, the at least one first gas channel communicating with the first gas chamber, the at least one first gas channel extending from the base end portion to a leading end portion of the electrochemical cell, the at least one second gas channel communicating with the second gas chamber, the at least one second gas channel extending from the base end portion to the leading end portion of the electrochemical cell, the at least one second gas channel communicating with the at least one first gas channel in the leading end portion of the electrochemical cell. 8. An electrochemical cell comprising: a leading end portion, a base end portion, two end portions spaced from one another in a width direction of the electrochemical cell and a central portion; a supporting substrate; at least one power generating element portion disposed on the supporting substrate; a plurality of first gas channels extending from the base end portion to the leading end portion in the supporting substrate, the first gas channels being disposed at each of the two end portions of the electrochemical cell; and at least one second gas channel extending from the base end portion to the leading end portion in the supporting substrate, the at least one second gas channel communicating with the plurality of first gas channels at the leading end portion, the at least one second gas channel being disposed in the central portion and between the first gas channels disposed at the two end portions. 9. The electrochemical cell according to claim 8 , wherein the at least one second gas channel comprises a plurality of second gas channels, and a total value of flow channel cross-sectional areas of the plurality of first gas channels is larger than a total value of flow channel cross-sectional areas of the plurality of second gas channels. 10. The electrochemical cell according to claim 9 , wherein the flow channel cross-sectional area of each of the plurality of first gas channels is larger than the flow channel cross-sectional area of each of the plurality of second gas channels. 11. The electrochemical cell according to claim 9 , wherein a number of the plurality of first gas channels is larger than a number of the plurality of second gas channels. 12. The electrochemical cell according to claim 8 , wherein the at least one second gas channel comprises a plurality of second gas channels, and a total value of flow channel cross-sectional areas of the plurality of first gas channels is smaller than a total value of flow channel cross-sectional areas of the plurality of second gas channels. 13. The electrochemical cell according to claim 12 , wherein the flow channel cross-sectional area of each of the plurality of first gas channels is smaller than the flow channel cross-sectional area of each of the plurality of second gas channels. 14. The electrochemical cell according to claim 12 , wherein a number of the plurality of first gas channels is smaller than a number of the plurality of second gas channels. 15. The electrochemical cell according to claim 8 , wherein a pitch between adjacent ones of the first gas channels and the second gas channels is larger than a pitch between adjacent ones of the first gas channels.