Leak detection with oxygen

The invention claimed is: 1. A method for detecting a leak in a test object, said method comprising the following steps: inserting the test object into a test chamber; filling the test object with a test gas; and adjusting a pressure in the test chamber and a pressure in the test object such that the test chamber pressure is lower than the test object pressure, wherein the test chamber contains air and the test object comprises a gas which does not include any oxygen molecules, wherein, in order to detect a leak in the test object, the oxygen proportion of the air in the test chamber is measured with an oxygen sensor, wherein a reduction of the oxygen concentration within the test chamber is used as a measure for a leakage rate, and wherein upon measuring the oxygen proportion, a temporal development of a change in an oxygen partial pressure in the test chamber is measured according to an accumulation approach. 2. The method of claim 1 , wherein the oxygen sensor is a lambda probe. 3. The method of claim 1 , wherein air flows as a carrier gas around the test object in the test chamber and a change in oxygen concentration in the carrier gas is measured according to a carrier gas method. 4. The method of claim 3 , wherein variations in the oxygen proportion in the air flowing around the test object is reduced using a buffer volume and a throttle. 5. The method of claim 1 , wherein a total pressure of the air at the oxygen sensor is maintained stable to lower a detection limit. 6. The method of claim 1 , wherein a quantity of the gas in the test chamber is kept smaller than the gas quantity in the test object. 7. A method for detecting a leak in a test object, said method comprising the following steps: inserting the test object into a test chamber; filling the test object with a test gas; and adjusting a pressure in the test chamber and a pressure in the test object such that the test chamber pressure is lower than the test object pressure, wherein the test chamber comprises a gas which does not include any oxygen molecules and the test object contains air, wherein, for the detection of a leak in the test object, the oxygen proportion in an atmosphere inside the test chamber is measured using an oxygen sensor, wherein an increase in the oxygen concentration within the test chamber is used as a measure for a leakage rate, and wherein upon measuring the oxygen proportion, a temporal development of a change in an oxygen partial pressure in the test chamber is measured according to an accumulation approach. 8. The method of claim 7 , wherein the gas which does not include any oxygen molecules is carbon dioxide. 9. A device for detecting a leak in a test object comprising a gas which does not include any oxygen molecules, the device comprising a test chamber receiving the test object, a gas pump or compressor connected to the test chamber and a gas sensor connected to the test chamber, wherein the gas sensor is an oxygen sensor and the test chamber contains air, wherein a reduction of the oxygen concentration within the test chamber is used as a measure for a leakage rate, and wherein upon measuring the oxygen proportion, a temporal development of a change in an oxygen partial pressure in the test chamber is measured according to an accumulation approach. 10. The device of claim 9 , wherein a gas path between the pump or the compressor and the oxygen sensor comprises a buffer volume for pressure surge damping. 11. The device of claim 10 , wherein the oxygen sensor is located on a first side of the test chamber, and wherein on a second side of the test chamber opposite the first side, the gas path connected to the test chamber comprises an additional oxygen probe. 12. A device for detecting a leak in a test object containing air, the device comprising a test chamber receiving the test object, a gas pump or compressor connected to the test chamber, and a gas sensor connected to the test chamber, wherein the gas sensor is an oxygen sensor, and the test chamber comprises a gas which does not include any oxygen molecules, wherein an increase in the oxygen concentration within the test chamber is used as a measure for a leakage rate, and wherein upon measuring the oxygen proportion, a temporal development of a change in an oxygen partial pressure in the test chamber is measured according to an accumulation approach. 13. The device of claim 12 , wherein a gas path between the pump or the compressor and the oxygen sensor comprises a buffer volume for pressure surge damping. 14. The device of claim 13 , wherein the oxygen sensor is located on a first side of the test chamber, and wherein on a second side of the test chamber opposite the first side, the gas path connected to the test chamber comprises an additional oxygen probe.