Measuring method and measuring apparatus for determining a flow rate of a process gas

The invention claimed is: 1. Measuring method for determining a flow rate of a process gas, contained in a gas pressure vessel charged with overpressure, and escaping from the gas pressure vessel with the flow rate, wherein the method including the following steps: exerting a vessel weight force from the gas pressure vessel together with the contained process gas, compensating for the vessel weight force by means of a counterweight force exerted by a counterweight, or the counterweight force by means of the vessel weight force exerted by the counterweight, at least partially to a resultant measured weight force, determining the measured weight force at at least two points in time, and determining the flow rate of the process gas using the measured weight force determined at the at least two points in time. 2. The measuring method of claim 1 , wherein the escaping process gas is supplied to a flow meter, and wherein the determined flow rate of the escaping process gas is used to calibrate the flow meter. 3. A measuring apparatus for determining a flow rate of a process gas, which is contained in a gas pressure vessel when charged with overpressure, and which escapes from the gas pressure vessel with the flow rate, wherein a vessel weight force is exerted from the gas pressure vessel together with the contained process gas, the measuring apparatus comprising: a compensation apparatus; a counterweight connected to the gas pressure vessel via the compensation apparatus and configured to exert a counterweight force; wherein the compensation apparatus is configured so that the vessel weight force compensates for the counterweight force or the counterweight force compensates for the vessel weight force at least in part, to form a resultant measured weight force; a process scale configured to determine the measured weight force at at least two points in time; and an evaluating unit connected to the process scale and configured to determine the flow rate of the process gas using the measured weight force determined at the at least at two points in time. 4. The measuring apparatus of claim 3 , wherein the process scale is connected to the gas pressure vessel and is configured to determine the vessel weight force, and the vessel weight force is compensated for at least in part by the counterweight force, as the measured weight force. 5. The measuring apparatus of claim 3 , wherein the process scale is connected to the counterweight and is configured to determine the counterweight force, and the counterweight force is compensated for at least in part by the vessel weight force, as the measured weight force. 6. The measuring apparatus of claim 3 , wherein the compensation apparatus comprises a connecting element divided into a first side and a second side by a bearing point, and the connecting element is configured to be pivotable about the bearing point, and the gas pressure vessel is connected to the first side and the counterweight is connected to the second side. 7. The measuring apparatus of claim 3 , wherein the gas pressure vessel, the counterweight and the compensation apparatus are configured in such a way that when the gas pressure vessel is empty, the measured weight force corresponds to a mass in the range from 1 g to 2 kg. 8. The measuring apparatus of claim 4 , wherein the compensation apparatus includes a connecting element divided into a first side and a second side by a bearing point, the connecting element configured to be pivoted about the bearing point, and the gas pressure vessel is connected to the first side and the counterweight is connected to the second side. 9. The measuring apparatus of claim 5 , wherein the compensation apparatus includes a connecting element divided into a first side and a second side by a bearing point, the connecting element configured to be pivoted about the bearing point, and the gas pressure vessel is connected to the first side and the counterweight is connected to the second side. 10. The measuring apparatus of claim 4 , wherein the gas pressure vessel, the counterweight and the compensation apparatus are configured in such a way that when the gas pressure vessel is empty, the measured weight force corresponds to a mass in the range from 1 g to 2 kg. 11. The measuring apparatus of claim 5 , wherein the gas pressure vessel, the counterweight and the compensation apparatus are configured in such a way that when the gas pressure vessel is empty, the measured weight force corresponds to a mass in the range from 1 g to 2 kg. 12. The measuring apparatus of claim 7 , wherein the measured weight force corresponds to a mass in the range of 1 g to 200 g. 13. The measuring apparatus of claim 7 , wherein the measured weight force corresponds to a mass in the range of 1 g to 100 g. 14. The measuring apparatus of claim 10 , wherein the measured weight force corresponds to a mass in the range of 1 g to 200 g. 15. The measuring apparatus of claim 10 , wherein the measured weight force corresponds to a mass in the range of 1 g to 100 g. 16. The measuring apparatus of claim 11 , wherein the measured weight force corresponds to a mass in the range of 1 g to 200 g. 17. The measuring apparatus of claim 11 , wherein the measured weight force corresponds to a mass in the range of 1 g to 100 g.