Fuel reformer and fuel cell

The invention claimed is: 1. A fuel reformer producing a reformed gas by catalysis by using a fuel gas, the fuel reformer comprising: a body portion in which a tubular combustion chamber extending between a first end and a second end is provided; a combustion nozzle located closer to the first end of the combustion chamber and generating a flame by injecting a combustion gas; an exhausting pipe located closer to the second end and exhausting an exhaust gas generated in the combustion chamber; a gas distribution gap isolated from an inner portion of the combustion chamber and provided along an outer shell of the combustion chamber; an outer reforming portion formed by filling the gas distribution gap with a reforming catalyst; a fuel gas introduction pipe located upstream of the outer reforming portion, introducing a fuel gas to the gas distribution gap, and including an end provided with an inlet discharging the fuel gas; and a reformed gas exhaust pipe located downstream of the outer reforming portion and exhausting a reformed gas from the gas distribution gap, wherein: in the inner portion of the combustion chamber, provided is a columnar protruding portion: including an inner space isolated from the combustion chamber, separated from the outer reforming portion with a gap interposed therebetween so as to communicate with the fuel gas introduction pipe and the gas distribution gap, and protruding from the second end side toward the combustion nozzle, the fuel gas introduction pipe is inserted into a protrusion portion provided in the inner space of the columnar protruding portion and filled with the reforming catalyst, and the fuel gas introduction pipe is configured to discharge the fuel gas from the inlet of which an opening is buried in the reforming catalyst to the protrusion portion of the columnar protruding portion. 2. The fuel reformer of claim 1 , wherein: a columnar reforming portion is formed by filling the inner space of the columnar protruding portion with a reforming catalyst. 3. The fuel reformer of claim 1 , wherein: a head of the columnar protruding portion faces an end of the combustion nozzle with a combustion space interposed therebetween. 4. The fuel reformer of claim 3 , further comprising: a regulating portion provided near the combustion nozzle and regulating a flame extending from the combustion nozzle toward the head of the columnar protruding portion; and an opening portion injecting the combustion gas from the combustion nozzle toward a surrounding area thereof. 5. The fuel reformer of claim 1 , wherein: a heat transfer member having a thermal conductivity is fitted into the gap between the outer reforming portion and the columnar protruding portion in a manner that allows air to pass through the gap between the outer reforming portion and the columnar protruding portion. 6. A fuel cell, comprising: the fuel reformer of claim 1 ; and a power generation cell, wherein: a gas produced in the fuel reformer is supplied to the power generation cell. 7. The fuel cell of claim 6 , wherein: a columnar reforming portion is formed by filling the inner space of the columnar protruding portion with a reforming catalyst. 8. The fuel cell of claim 6 , wherein: a head of the columnar protruding portion faces an end of the combustion nozzle with a combustion space interposed therebetween. 9. The fuel cell of claim 8 , wherein the fuel reformer further comprises: a regulating portion provided near the combustion nozzle and regulating a flame extending from the combustion nozzle toward the head of the columnar protruding portion; and an opening portion injecting the combustion gas from the combustion nozzle toward a surrounding area thereof. 10. The fuel cell of claim 6 , wherein: a heat transfer member having a thermal conductivity is fitted into the gap between the outer reforming portion and the columnar protruding portion in a manner that allows air to pass through the gap between the outer reforming portion and the columnar protruding portion. 11. The fuel cell of claim 7 , wherein: a head of the columnar protruding portion faces an end of the combustion nozzle with a combustion space interposed therebetween. 12. The fuel cell of claim 7 , wherein: a heat transfer member having a thermal conductivity is fitted into the gap between the outer reforming portion and the columnar protruding portion in a manner that allows air to pass through the gap between the outer reforming portion and the columnar protruding portion. 13. The fuel reformer of claim 2 , wherein: a head of the columnar protruding portion faces an end of the combustion nozzle with a combustion space interposed therebetween. 14. The fuel reformer of claim 2 , wherein: a heat transfer member having a thermal conductivity is fitted into the gap between the outer reforming portion and the columnar protruding portion in a manner that allows air to pass through the gap between the outer reforming portion and the columnar protruding portion.