Tube catcher for a hot forming machine and hot forming machine

What is claimed is: 1. A tube catcher for a hot forming machine, comprising: a foot for mounting the tube catcher in the hot forming machine; an upper contact surface for catching a glass tube as the glass tube falls along a falling direction into the hot forming machine; and a damping element arranged below the upper contact surface in such a way that it allows the upper contact surface to elastically recede in a direction of the falling direction of the glass tube, wherein the damping element comprises a compressible chamber which can be filled with a gas. 2. The tube catcher of claim 1 , further comprising a pressure control device connected to the compressible chamber. 3. The tube catcher of claim 1 , further comprising an outlet channel connected to the compressible chamber. 4. The tube catcher of claim 1 , further comprising a magnet adapted to fix the upper contact surface in a compressed state of the compressible chamber. 5. The tube catcher of claim 1 , wherein, when the compressible chamber is in a compressed state, the upper contact surface is fixed in the hot forming machine such that it is further movable at least in the direction of the falling direction of the glass tube. 6. A hot forming machine with a tube catcher according to claim 1 . 7. The hot forming machine of claim 6 , further comprising: a rotatably arranged preloading rim with a plurality of radially symmetrically arranged loading positions, wherein each of the plurality of radially symmetrically arranged loading positions holds a vertically standing glass tube; a plurality of individually openable rotatably mounted plates, one for each of the plurality of radially symmetrically arranged loading positions; and an actuating slider associated with the tube catcher in the hot forming machine, wherein the actuating slider opens the plurality of individually openable rotatably mounted plates of one of the plurality of radially symmetrically arranged loading positions, when the glass tube in the one of the plurality of radially symmetrically arranged loading positions, in a given angular position of the preloading rim, is aligned with the upper contact surface of the tube catcher. 8. The hot forming machine of claim 7 , wherein the each of the plurality of individually openable rotatably mounted plates comprises a holding plate pivotable under an opening and the actuating slider has a movement that pivots the holding plate away under the opening. 9. The hot forming machine of claim 7 , wherein the preloading rim has a number of preloading positions for respectively holding an additional glass tube, wherein the number of preloading positions corresponds to a number of the plurality of radially symmetrically arranged loading positions, and each of the plurality of radially symmetrically arranged loading positions has a corresponding preloading position, and the hot forming machine further comprises; a pushing slider that pushes a glass tube held in a preloading position at a given angular position of the preloading rim into a corresponding radially symmetrically arranged loading position associated with the corresponding preloading position, and the pushing slider is upstream of the actuating slider in a direction of rotation of the preloading rim. 10. The hot forming machine of claim 9 , further comprising a second actuating slider adapted to close the plurality of individually openable rotatably mounted plates holding device at a given angular position of the preloading rim, wherein the second actuating slider is between the actuating slider and the pushing slider in the direction of rotation of the preloading rim. 11. A method for catching a glass tube in a hot forming machine with the tube catcher of claim 1 , comprising the steps of: arranging the upper contact surface and the damping element so that it allows the upper contact surface to elastically recede in the direction of the falling direction of the glass tube, below the glass tube; filling the compressible chamber in the damping element with the gas; and dropping the glass tube. 12. The method of claim 11 , wherein the filling step comprises adjusting a predetermined pressure in the compressible chamber, which is determined from the weight of the glass tube. 13. The method of claim 11 , further comprising the steps of: catching the glass tube on the upper contact surface; and after the catching step, causing gas to flow out of the compressible chamber. 14. The method of claim 11 , further comprising the steps of: catching the glass tube on the upper contact surface; and after the catching step, fixing the upper contact surface in a compressed state of the compressible chamber. 15. The method according to claim 14 , wherein the fixing step is carried out with a magnet. 16. The method according to claim 11 , further comprising the step of catching the glass tube on the upper contact surface, wherein, when the compressible chamber is in a compressed state, the upper contact surface elastically recedes further at least in the direction of the falling direction of the glass tube after the glass tube has been caught on the upper contact surface, and wherein the glass tube is fixed beforehand by a holding chuck.