Sensor and measurement method for measuring hydrogen content in metal melt

What is claimed is: 1. A sensor for measuring hydrogen content in metal melt, comprising: a solid proton conductor element, a reference electrode, a quasi-electrode to be measured, a reference substance, a through pipe and an insulating ceramic adhesive; wherein the through pipe and the solid proton conductor element are connected through the insulating ceramic adhesive to form an inner space, the surface located in the space, of the solid proton conductor element, is an inner surface, and the surface exposed outside, of the solid proton conductor element, is an outer surface; the reference electrode is coated to the inner surface of the solid proton conductor element, and the quasi-electrode to be measured is the outer surface of the solid proton conductor element; the quasi-electrode to be measured is in contact with the metal melt during hydrogen measurement, and the contact surface forms the electrode to be measured; and the reference substance is gas-phase reference substance, liquid-phase reference substance or solid-phase reference substance, is placed in the inner space and is in contact with the reference electrode; and wherein the sensor further comprises a gas guide pipe and a tee fitting, and when the reference substance is gas-phase reference substance, the tee fitting is connected with an upper part of the through pipe, the gas guide pipe is inserted into the inner space through the tee fitting and is connected to the reference electrode, and when a bottom end of the gas guide pipe directly faces to the reference electrode and the solid proton conductor element, the bottom end of the gas guide pipe is a blind end, a side opening of the gas guide pipe acts as a gas outlet. 2. The sensor for measuring hydrogen content in metal melt according to claim 1 , wherein the sensor further comprises a reference electrode cable, and when the reference substance is gas-phase reference substance, the reference electrode cable is inserted into the through pipe through the tee fitting, is connected with the reference electrode and is externally connected to a measuring circuit, and the reference electrode cable is metal platinum, gold, silver, nickel-chromium alloy, iron-chromium-aluminum alloy or stainless steel. 3. The sensor for measuring hydrogen content in metal melt according to claim 1 wherein the solid proton conductor element has a tubular, spherical, flaky, discoid, cubic or cylindrical structure and is made of a perovskite or complex perovskite structure material. 4. The sensor for measuring hydrogen content in metal melt according to claim 1 , wherein a material of the reference electrode is silver, platinum or gold. 5. The sensor for measuring hydrogen content in metal melt according to claim 1 , wherein a material of the insulating ceramic adhesive is an alumina-based material. 6. The sensor for measuring hydrogen content in metal melt according to claim 1 , wherein when the reference substance is gas-phase reference substance, liquid-phase reference substance or solid-phase reference substance, the gas-phase reference substance comprises hydrogen and argon calibration gas mixtures, hydrogen and nitrogen calibration gas mixtures, hydrogen and helium calibration gas mixtures, water vapor and oxygen calibration gas mixtures or ammonia and nitrogen calibration gas mixtures, which is doped or undoped with one or more inert gases, the liquid-phase reference substance comprises lithium and lithium hydride two-phase mixture, and the solid-phase reference substance comprises yttrium hydrogen solid solution, titanium hydrogen solid solution, zirconium hydrogen solid solution or scandium hydrogen solid solution. 7. A method for measuring hydrogen content in metal melt by using the sensor for measuring hydrogen content in metal melt according to claim 1 , the method comprising the following steps of: (1) inserting the sensor and a corrosion-resistant electrode into the metal melt, and making sure that the solid proton conductor element is fully immersed into the metal melt, the quasi-electrode to be measured is in direct contact with the metal melt and the contact surface is the electrode to be measured; (2) connecting a potentiometer and the gas guide pipe to the corrosion-resistant electrode, and measuring a potential difference between the reference electrode and the electrode to be measured, wherein the gas guide pipe is metal, when the reference substance is gas-phase reference substance, the tee fitting is connected with an upper part of the through pipe, the gas guide pipe is inserted into the inner space through the tee fitting and is connected to the reference electrode, and when a bottom end of the gas guide pipe directly faces to the reference electrode and the solid proton conductor element, the bottom end of the gas guide pipe is a blind end, a side opening of the gas guide pipe acts as a gas outlet; and (3) calculating the hydrogen content S of the metal melt according to the measured potential difference, a temperature of the metal melt and a saturated solubility of hydrogen in the metal melt. 8. A sensor for measuring hydrogen content in metal melt, comprising: a solid proton conductor element, a reference electrode, a quasi-electrode to be measured, a reference substance, a through pipe and an insulating ceramic adhesive; wherein the through pipe and the solid proton conductor element are connected through the insulating ceramic adhesive to faun an inner space, the surface located in the space, of the solid proton conductor element, is an inner surface, and the surface exposed outside, of the solid proton conductor element, is an outer surface; the reference electrode is coated to the inner surface of the solid proton conductor element, and the quasi-electrode to be measured is the outer surface of the solid proton conductor element; the quasi-electrode to be measured is in contact with the metal melt during hydrogen measurement, and the contact surface forms the electrode to be measured; and the reference substance is gas-phase reference substance, liquid-phase reference substance or solid-phase reference substance, is placed in the inner space and is in contact with the reference electrode; and wherein the sensor comprises a reference electrode cable, wherein when the reference substance is liquid-phase reference substance or solid-phase reference substance, the reference electrode cable penetrates through the insulating ceramic adhesive, is connected with the reference electrode and is externally connected to a measuring circuit, and the reference electrode cable is metal platinum, gold, silver, nickel-chromium alloy, iron-chromium-aluminum alloy or stainless steel. 9. The sensor for measuring hydrogen content in metal melt according to claim 8 , wherein when the reference substance is liquid-phase reference substance or solid-phase reference substance, the sensor further comprises an inert material of Al 2 O 3 , YSZ or Y 2 O 3 ; and the inert material is stuffed between the reference substance and the insulating ceramic adhesive. 10. The sensor for measuring hydrogen content in metal melt according to claim 8 , wherein the solid proton conductor element has a tubular, spherical, flaky, discoid, cubic or cylindrical structure and is made of a perovskite or complex perovskite structure material. 11. The sensor for measuring hydrogen content in metal melt according to claim 8 , wherein a material of the reference electrode is silver, platinum or gold. 12. The sensor for measuring hydrogen content in metal melt according to claim 8 , wherein a material of the insulating ceramic adhesive is an alumina-based material. 13. The sensor for measuring hydrogen