Thermal conductivity detector and gas chromatograph including same

I claim: 1. A thermal conductivity detector for a gas chromatograph, comprising: a casing; a thermal insulator attached to the casing; a flow path comprising a first portion stored in the casing and a second portion positioned outside the thermal insulator and farther downstream than the first portion such that the flow path leads a sample gas to an exhaust port of the second portion; a heat generator stored in the first portion of the flow path such that the heat generator detects thermal conductivity of the sample gas; and a temperature retainer attached to the second portion of the flow path such that the temperature retainer is not attached to the first portion stored in the casing. 2. The thermal conductivity detector according to claim 1 , wherein the thermal insulator is attached to the casing such that a temperature of the sample gas that passes through the second portion does not decrease to a temperature equal to or lower than a liquefaction temperature of the sample gas. 3. The thermal conductivity detector according to claim 1 , wherein the temperature retainer includes glass wool. 4. The thermal conductivity detector according to claim 1 , wherein the temperature retainer includes a thermal insulator insulates the sample gas from outside the casing. 5. The thermal conductivity detector according to claim 1 , wherein the temperature retainer includes a temperature adjustor that adjusts the temperature of the sample gas. 6. A gas chromatograph, comprising: a sample vaporizer that produces a sample gas by vaporizing a sample; a column that separates the sample gas produced by the sample vaporizer into components; and the thermal conductivity detector of claim 1 , wherein the thermal conductivity detector detects thermal conductivity of each component of the sample gas separated by the column. 7. The thermal conductivity detector according to claim 2 , wherein the temperature retainer includes glass wool. 8. The thermal conductivity detector according to claim 2 , wherein the thermal insulator insulates the sample gas from outside the casing. 9. The thermal conductivity detector according to claim 2 , wherein the temperature retainer includes a temperature adjustor that adjusts the temperature of the sample gas. 10. A gas chromatograph, comprising: a sample vaporizer that produces a sample gas by vaporizing a sample; a column that separates the sample gas produced by the sample vaporizer into components; and the thermal conductivity detector of claim 2 , wherein the thermal conductivity detector detects thermal conductivity of each component of the sample gas separated by the column. 11. A gas chromatograph, comprising: a sample vaporizer that produces a sample gas by vaporizing a sample; a column that separates the sample gas produced by the sample vaporizer into components; and the thermal conductivity detector of claim 3 , wherein the thermal conductivity detector detects thermal conductivity of each component of the sample gas separated by the column. 12. The thermal conductivity detector according to claim 3 , wherein the temperature retainer includes a temperature adjustor that adjusts the temperature of the sample gas. 13. The thermal conductivity detector according to claim 1 , further comprising: a heating device positioned in the casing such that the heating device keeps a space in the casing at a temperature substantially equal to a temperature in a vaporization chamber of a sample vaporizer or a temperature in a column oven, wherein the temperature retainer formed on the casing and the second portion of the flow path such that a temperature of the sample gas passing through the second portion does not decrease to a temperature equal to or lower than a liquefaction temperature of the sample gas. 14. The thermal conductivity detector according to claim 13 , wherein the thermal insulator is attached to the casing such that a temperature of the sample gas that passes through the second portion does not decrease to a temperature equal to or lower than a liquefaction temperature of the sample gas. 15. The thermal conductivity detector according to claim 13 , wherein the temperature retainer includes glass wool. 16. The thermal conductivity detector according to claim 13 , wherein the thermal insulator insulates the sample gas from outside of the casing. 17. The thermal conductivity detector according to claim 13 , wherein the temperature retainer includes a temperature adjustor that adjusts the temperature of the sample gas. 18. A gas chromatograph, comprising: a sample vaporizer that produces a sample gas by vaporizing a sample; a column that separates the sample gas produced by the sample vaporizer into components; and the thermal conductivity detector of claim 13 , wherein the thermal conductivity detector detects thermal conductivity of each component of the sample gas separated by the column. 19. A thermal conductivity detector for a gas chromatograph, comprising: a flow path that has a first portion, and a second portion located at a position farther downstream than the first portion, and leads a sample gas to an exhaust port of the second portion through the first and second portions; a casing that stores the first portion of the flow path; and a heat generator that is stored in the first portion of the flow path to detect thermal conductivity of the sample gas, wherein at least one portion including a downstream end of the second portion of the flow path is provided to be attachable to and detachable from another portion of the flow path. 20. A gas chromatograph, comprising: a sample vaporizer that produces a sample gas by vaporizing a sample; a column that separates the sample gas produced by the sample vaporizer into components; and the thermal conductivity detector of claim 19 , wherein the thermal conductivity detector detects thermal conductivity of each component of the sample gas separated by the column.