Liquid supply apparatus and liquid ejection apparatus with contactless detection of liquid remaining amount

What is claimed is: 1. A liquid supply apparatus including a supply passage for supplying a liquid stored in a liquid storage section to a liquid ejection head, comprising: a gas liquid separation chamber configured to separate a gas contained in the liquid, wherein pressure applied to the gas varies according to an amount of the liquid remaining in the liquid storage section or in the supply passage; a pressure detecting unit configured to detect the pressure of the gas in the gas liquid separation chamber; and a determination unit configured to determine the amount of the liquid in the liquid storage section based on a detection result by the pressure detecting unit. 2. The liquid supply apparatus according to claim 1 , wherein: the supply passage is structured to apply negative pressure to the liquid to be supplied to the liquid ejection head; the gas liquid separation chamber is set inside the supply passage; and the pressure applied to the gas in the gas liquid separation chamber is negative pressure. 3. The liquid supply apparatus according to claim 1 , further comprising: a gas chamber; an opening and closing unit configured to open and to close a communication passage between the gas liquid separation chamber and the gas chamber; and a pressure regulation unit configured to regulate the pressure in the gas chamber. 4. The liquid supply apparatus according to claim 3 , further comprising: a control unit configured to use the pressure regulation unit to adjust the pressure in the gas chamber to a predetermined pressure and then operate the opening and closing unit to open the communication passage. 5. The liquid supply apparatus according to claim 4 , wherein: the supply passage includes a horizontally extending portion and a vertically extending portion; and the negative pressure of the gas in the gas liquid separation chamber varies according to a moving position of a bottom end of the liquid in the supply passage. 6. The liquid supply apparatus according to claim 5 , wherein the determination unit determines that the liquid storage section does not store ink when the negative pressure of the gas in the gas liquid separation chamber produces a predetermined change. 7. The liquid supply apparatus according to claim 6 , wherein: the gas chamber is a buffer capable of storing pressure to be introduced into the liquid ejection head. 8. The liquid supply apparatus according to claim 7 , wherein: the supply passage includes a plurality of supply passages that are provided to correspond to a plurality of sets of the liquid storage sections and the liquid ejection heads; the gas liquid separation chamber includes a plurality of gas liquid separation chambers that are set to correspond to a plurality of sets of the liquid storage sections, the liquid ejection heads and the supply passages; and the gas chamber communicates selectively with each of the plurality of gas liquid separation chambers. 9. The liquid supply apparatus according to claim 1 , wherein: the gas liquid separation chamber is set inside the supply passage; and the pressure applied to the gas in the gas liquid separation chamber decreases as a liquid level in the liquid storage section lowers. 10. The liquid supply apparatus according to claim 1 , wherein the pressure detecting unit has a gas chamber communicating with the gas liquid separation chamber in such a manner that a pressure of gas in the gas chamber varies according to the pressure of the gas in the gas liquid separation chamber; and wherein the determination unit determines the amount of the liquid in the liquid storage section based on pressure in the gas chamber. 11. A liquid ejection apparatus comprising a liquid ejection head and a liquid supply apparatus including a supply passage for supplying liquid to the liquid ejection head, wherein the liquid supply apparatus comprises: a liquid storage section; a gas liquid separation chamber configured to separate a gas contained in the liquid, wherein pressure applied to the gas varies according to an amount of the liquid remaining in the liquid storage section or in the supply passage; a pressure detecting unit configured to detect the pressure of the gas in the gas liquid separation chamber; and a determination unit configured to determine the amount of the liquid in the liquid storage section based on a detection result by the pressure detecting unit. 12. The liquid ejection apparatus according to claim 11 , further comprising: a gas chamber communicating with the gas liquid separation chamber in such a manner that a pressure of gas in the gas chamber varies according to the pressure of the gas in the gas liquid separation chamber; and wherein the pressure detecting unit detects a pressure in the gas chamber. 13. An inkjet printing apparatus comprising an inkjet print head and an ink supply apparatus including a supply passage for supplying ink to the inkjet print head, wherein the ink supply apparatus comprises: an ink reservoir section; a gas liquid separation chamber configured to separate a gas contained in the liquid, wherein pressure applied to the gas varies according to an amount of the ink remaining in the ink reservoir section or in the supply passage; a pressure detecting unit configured to detect the pressure of the gas in the gas liquid separation chamber; and a determination unit configured to determine the amount of the ink in the ink reservoir section based on a detection result by the pressure detecting unit. 14. The inkjet printing apparatus according to claim 13 , further comprising: a gas chamber communicating with the gas liquid separation chamber in such a manner that a pressure of gas in the gas chamber varies according to the pressure of the gas in the gas liquid separation chamber; and wherein the pressure detecting unit detects a pressure in the gas chamber. 15. A liquid supply apparatus including a supply passage for supplying a liquid stored in a liquid storage section to a liquid ejection head, comprising: a gas liquid separation chamber configured to separate a gas contained in the liquid, wherein a pressure applied to the gas corresponds to a hydraulic head difference between the liquid surface in the liquid storage section and liquid surface in the gas liquid separation chamber; a pressure detecting unit configured to detect the pressure of the gas in the gas liquid separation chamber; and a determination unit configured to determine the amount of the liquid in the liquid storage section based on a detection result by the pressure detecting unit.