Gas sensor

I claim: 1. A gas sensor, comprising: a first gas-detection element having a first oscillator, as well as a first gas-adsorption film which is provided on the first oscillator and made of a copolymer constituted by two or more fluorine resins including vinylidene fluoride resin and trifluoroethylene, wherein a resonance frequency of the first oscillator is changed when the first gas-adsorption film adsorbs gas; a second gas-detection element having a second oscillator, as well as a second gas-adsorption film which is provided on the second oscillator and made of a copolymer constituted by two or more fluorine resins including vinylidene fluoride resin and trifluoroethylene, wherein a blending ratio of the two or more fluorine resins used for the second gas-detection film is different from that used for the first gas-detection film in a manner that the second gas-adsorption film has gas-adsorption characteristics different from those of the first gas-adsorption film wherein a resonance frequency of the second oscillator is changed when the second gas-adsorption film adsorbs gas; and a detection circuitry that detects resonance frequencies of the first and second gas-detection elements. 2. A gas sensor according to claim 1 , further comprising: a third gas-detection element having a third oscillator, as well as a third adsorption film which is provided on the third oscillator and which contains a cyanine pigment wherein a resonance frequency of the third oscillator is changed when the third gas-adsorption film adsorbs gas. 3. A gas sensor according to claim 1 , wherein: the first gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin and trifluoroethylene; and the second gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene. 4. A gas sensor according to claim 2 , wherein: the first gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin and trifluoroethylene; and the second gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene. 5. A gas sensor according to claim 3 , further comprising: a fourth gas-detection element having a fourth oscillator, as well as a fourth gas-adsorption film which is provided on the fourth oscillator and made of a copolymer constituted by vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene at a blending ratio different from that used for the second gas-adsorption film, and which has gas-adsorption characteristics different from those of the first gas-adsorption film and those of the second gas-adsorption film wherein a resonance frequency of the fourth oscillator is changed when the fourth gas-adsorption film adsorbs gas. 6. A gas sensor according to claim 4 , further comprising: a fourth gas-detection element having a fourth oscillator, as well as a fourth gas-adsorption film which is provided on the fourth oscillator and made of a copolymer constituted by vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene at a blending ratio different from that used for the second gas-adsorption film, and which has gas-adsorption characteristics different from those of the first gas-adsorption film and those of the second gas-adsorption film wherein a resonance frequency of the fourth oscillator is changed when the fourth gas-adsorption film adsorbs gas. 7. A gas sensor according to claim 1 , wherein: the first gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene; and the second gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene at a blending ratio different from that used for the first gas-adsorption film. 8. A gas sensor according to claim 2 , wherein: the first gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene; and the second gas-adsorption film is made of a copolymer constituted by the vinylidene fluoride resin, chlorotrifluoroethylene resin, and trifluoroethylene at a blending ratio different from that used for the first gas-adsorption film. 9. A gas sensor according to claim 1 , further comprising: a chamber that houses the respective gas detection elements; and a computing unit that calculates changes in resonance frequencies of the respective gas detection elements from the detected resonance frequencies, and then specifies a gas inside the chamber based on calculated results. 10. A gas sensor according to claim 1 , wherein a thickness of the first gas-adsorption film and a thickness of the second gas-adsorption film are set differently wherein the resonance frequencies of the films are changed, to values of a same order of magnitude per unit surface area of each film when the films adsorb acetone. 11. A gas sensor according to claim 1 , wherein a film formation area of the first gas-adsorption film and a film formation area of the second gas-adsorption film are substantially the same. 12. A gas sensor according to claim 1 , further comprising a reference gas detection element on which no gas-adsorption film is provided.