Fuel cell module

The invention claimed is: 1. A fuel cell module comprising: a fuel cell stack formed by stacking a plurality of fuel cells for generating electricity by electrochemical reactions of a fuel gas and an oxygen-containing gas; a reformer for reforming a mixed gas of water vapor and a raw fuel chiefly containing hydrocarbon to produce the fuel gas supplied to the fuel cell stack; an evaporator for evaporating water, and supplying the water vapor to the reformer; a heat exchanger for raising a temperature of the oxygen-containing gas by heat exchange with a combustion gas, and supplying the oxygen-containing gas to the fuel cell stack; an exhaust gas combustor for combusting the fuel gas discharged from the fuel cell stack as a fuel exhaust gas and the oxygen-containing gas discharged from the fuel cell stack as an oxygen-containing exhaust gas to produce the combustion gas; and a start-up combustor for combusting the raw fuel and the oxygen-containing gas to produce the combustion gas, wherein the fuel cell module includes: a first area where the exhaust gas combustor and the start-up combustor are provided; an annular second area around the first area and where the reformer and the evaporator are provided; an annular third area around the second area and where the heat exchanger is provided, and wherein a stress relaxing portion for relaxing heat stress is provided at least along a border between the first area and the second area, along a border between the second area and the third area, or along an outermost circumferential portion of the third area. 2. The fuel cell module according to claim 1 , wherein the reformer includes an annular mixed gas supply chamber to which the mixed gas is supplied, an annular fuel gas discharge chamber to which the produced fuel gas is discharged, a plurality of reforming pipes each having one end connected to the mixed gas supply chamber, and another end connected to the fuel gas discharge chamber, and a combustion gas channel for supplying the combustion gas to spaces between the reforming pipes; the evaporator includes an annular water supply chamber to which the water is supplied, an annular water vapor discharge chamber to which the water vapor is discharged, a plurality of evaporation pipes each having one end connected to the water supply chamber, and another end connected to the water vapor discharge chamber, and a combustion gas channel for supplying the combustion gas to spaces between the evaporation pipes; and the heat exchanger includes an annular oxygen-containing gas supply chamber to which the oxygen-containing gas is supplied, an annular oxygen-containing gas discharge chamber to which the heated oxygen-containing gas is discharged, a plurality of heat exchange pipes each having one end connected to the oxygen-containing gas supply chamber, and another end connected to the oxygen-containing gas discharge chamber, and a combustion gas channel for supplying the combustion gas to spaces between the heat exchange pipes. 3. The fuel cell module according to claim 2 , wherein the fuel gas discharge chamber and the water vapor discharge chamber are provided in a double deck manner, and the fuel gas discharge chamber is provided on an inner side with respect to the water vapor discharge chamber; and the mixed gas supply chamber and the water supply chamber are provided in a double deck manner, and the mixed gas supply chamber is provided on an inner side with respect to the water supply chamber. 4. The fuel cell module according to claim 2 , wherein each of the mixed gas supply chamber and the fuel gas discharge chamber is formed between an inner ring into which ends of the reforming pipes are inserted and an outer ring spaced away from the inner ring; each of the water supply chamber and the water vapor discharge chamber is formed between an inner ring into which ends of the evaporation pipes are inserted and an outer ring spaced away from the inner ring; and each of the oxygen-containing gas supply chamber and the oxygen-containing gas discharge chamber is formed between an inner ring into which ends of the heat exchange pipes are inserted and an outer ring spaced away from the inner ring. 5. The fuel cell module according to claim 4 , wherein the stress relaxing portion is provided on the inner ring and the outer ring of at least one of the fuel gas discharge chamber, the oxygen-containing gas discharge chamber, and the water vapor discharge chamber. 6. The fuel cell module according to claim 4 , wherein the stress relaxing portion is provided on the inner ring and the outer ring of at least one of the mixed gas supply chamber, the water supply chamber, and the oxygen-containing gas supply chamber. 7. The fuel cell module according to claim 4 , wherein the stress relaxing portion is made of a curved portion provided on at least any of inner circumferential portions and outer circumferential portions of the inner ring and the outer ring. 8. The fuel cell module according to claim 2 , wherein the fuel gas discharge chamber, the water vapor discharge chamber, and the oxygen-containing gas discharge chamber are provided at one end side adjacent to the fuel cell stack; and the mixed gas supply chamber, the water supply chamber, and the oxygen-containing gas supply chamber are provided at another end side distant from the fuel cell stack. 9. The fuel cell module according to claim 1 , wherein the fuel cell module is a solid oxide fuel cell module.