Thermal conductivity detector and gas chromatograph

What is claimed is: 1 . A thermal conductivity detector comprising: a cell member provided with a cell space including a fluid inlet and a fluid outlet; a temperature sensing element, accommodated inside the cell space, whose electrical resistance is changed according to thermal conductivity of a fluid flowing through the cell space; a detection circuit for detecting a change in the electrical resistance of the temperature sensing element; a buffer space connected to the fluid outlet of the cell space and having a cross-sectional area that is greater than a cross-sectional area of the fluid outlet; and a discharge channel connected to a fluid outlet of the buffer space and having a cross-sectional area that is smaller than the cross-sectional area of the buffer space. 2 . The thermal conductivity detector according to claim 1 , wherein the fluid outlet of the cell space and the buffer space are connected by a connection tube having a cross-sectional area that is smaller than the cross-sectional area of the buffer space. 3 . The thermal conductivity detector according to claim 2 , wherein the cell space is formed from a sample-side cell space and a reference-side cell space that are separated from each other, each of the sample-side cell space and the reference-side cell space including a fluid inlet and a fluid outlet, wherein the temperature sensing element is formed from a temperature sensing element that is accommodated in the sample-side cell space and a temperature sensing element that is accommodated in the reference-side cell space, and wherein the connection tube is formed from two connection tubes of a sample-side connection tube connecting the sample-side cell space and the buffer space and a reference-side connection tube connecting the reference-side cell space and the buffer space. 4 . The thermal conductivity detector according to claim 2 , wherein the cell space is formed from a sample-side cell space and a reference-side cell space that are separated from each other, each of the sample-side cell space and the reference-side cell space including a fluid inlet and a fluid outlet, wherein the temperature sensing element is formed from a temperature sensing element that is accommodated in the sample-side cell space and a temperature sensing element that is accommodated in the reference-side cell space, and wherein the connection tube is formed from a sample-side connection tube connected to the fluid outlet of the sample-side cell space and a reference-side connection tube connected to the fluid outlet of the reference-side cell space, the connection tubes being connected to the buffer space as one connection tube. 5 . The thermal conductivity detector according to claim 2 , wherein the cell space is a single cell space, and wherein the connection tube is one connection tube. 6 . A gas chromatograph for supplying carrier gas to a column through a sample introduction section, and detecting, by a thermal conductivity detector, a gas component that has been separated by and that has flowed out from the column, wherein the thermal conductivity detector comprising: a cell member provided with a cell space including a fluid inlet and a fluid outlet; a temperature sensing element, accommodated inside the cell space, whose electrical resistance is changed according to thermal conductivity of a fluid flowing through the cell space; a detection circuit for detecting a change in the electrical resistance of the temperature sensing element; a buffer space connected to the fluid outlet of the cell space and having a cross-sectional area that is greater than a cross-sectional area of the fluid outlet; and a discharge channel connected to a fluid outlet of the buffer space and having a cross-sectional area that is smaller than the cross-sectional area of the buffer space. 7 . The gas chromatograph according to claim 6 , wherein the fluid outlet of the cell space and the buffer space are connected by a connection tube having a cross-sectional area that is smaller than the cross-sectional area of the buffer space. 8 . The gas chromatograph according to claim 7 , wherein the cell space is formed from a sample-side cell space and a reference-side cell space that are separated from each other, each of the sample-side cell space and the reference-side cell space including a fluid inlet and a fluid outlet, wherein the temperature sensing element is formed from a temperature sensing element that is accommodated in the sample-side cell space and a temperature sensing element that is accommodated in the reference-side cell space, and wherein the connection tube is formed from two connection tubes of a sample-side connection tube connecting the sample-side cell space and the buffer space and a reference-side connection tube connecting the reference-side cell space and the buffer space. 9 . The gas chromatograph according to claim 7 , wherein the cell space is formed from a sample-side cell space and a reference-side cell space that are separated from each other, each of the sample-side cell space and the reference-side cell space including a fluid inlet and a fluid outlet, wherein the temperature sensing element is formed from a temperature sensing element that is accommodated in the sample-side cell space and a temperature sensing element that is accommodated in the reference-side cell space, and wherein the connection tube is formed from a sample-side connection tube connected to the fluid outlet of the sample-side cell space and a reference-side connection tube connected to the fluid outlet of the reference-side cell space, the connection tubes being connected to the buffer space as one connection tube. 10 . The gas chromatograph according to claim 7 , wherein the cell space is a single cell space, and wherein the connection tube is one connection tube.