Infrared gas analysis device, and method for using same

The invention claimed is: 1. An infrared gas analysis device comprising: a measurement cell to allow a sample gas containing a component to be measured to flow therethrough; a comparison cell including a reference gas; a pair of light sources provided in one end side of the measurement cell and the comparison cell, the measurement cell and the comparison cell being irradiated with an infrared ray from one and the other of the light sources, respectively; and a detection unit provided in another end side of the measurement cell and the comparison cell to detect the component to be measured by using infrared rays output from the measurement cell and the comparison cell, wherein the detection unit encapsulating a gas for detection consisting of a component, which is different from the component to be measured, having an infrared absorption band at least at a part of wavenumbers in infrared absorption bands of the component to be measured, and the detection unit comprises a first chamber, a second chamber, and a membrane separating the first chamber and the second chamber whereby the membrane is configured to move based on a temperature difference between the first chamber and second chamber. 2. The infrared gas analysis device according to claim 1 , wherein an inner space of the detection unit to encapsulate the gas for detection is separated into the first chamber, which is in a side of the measurement cell, and the second chamber, which in a side of the comparison cell, and the detection unit detects the component to be measured on a basis of the temperature difference between the first chamber and the second chamber. 3. The infrared gas analysis device according to claim 2 , wherein the component to be measured is a nitrite ester, and the gas for detection contains ammonia. 4. The infrared gas analysis device according to claim 3 , for online analysis for a production device for a nitrite ester. 5. The infrared gas analysis device according to claim 2 , wherein the detection unit has a signal processing unit and a computing unit, the signal processing unit outputs the concentration of the gas for detection on the basis of the temperature difference between the first chamber and the second chamber, and the computing unit calculates the concentration of the component to be measured by correcting the concentration of the gas for detection output from the signal for detection. 6. The infrared gas analysis device according to claim 2 , wherein the membrane comprises an insulating polymer film on which an electro-conductive film of metal is formed. 7. The infrared gas analysis device according to claim 1 , wherein the component to be measured is a nitrite ester, and the gas for detection contains ammonia. 8. The infrared gas analysis device according to claim 7 , for online analysis for a production device for a nitrite ester. 9. A method for using an infrared gas analysis device, the method comprising: irradiating: (1) a measurement cell that allows a sample gas containing nitrite ester to be measured to flow therethrough, and (2) a comparison cell including a reference gas with an infrared ray from a pair of light sources provided in one end side of the measurement cell and the comparison cell while the sample gas is flowing through the measurement cell; and detecting the nitrite ester on a basis of temperature change of a gas including ammonia for detection encapsulated in a detection unit, which is provided in another end side of the measurement cell and the comparison cell, wherein the temperature change is caused by infrared rays entering the detection unit from the measurement cell and the comparison cell, and the gas for detection has an infrared absorption band at least at a part of wavenumbers in infrared absorption bands of the component to be measured. 10. The method according to claim 9 , wherein the detection unit is separated in a first chamber and a second chamber by a membrane that is configured to move based on the temperature change between the first chamber and second chamber, and the detecting is performed by detecting that a membrane has moved because of the temperature change. 11. The method according to claim 10 , wherein the membrane comprises an insulating polymer film on which an electro-conductive film of metal is formed.