Packaging of polycrystalline silicon

What is claimed is: 1. A process for packaging polycrystalline silicon in the form of chunks, comprising the following steps: providing polycrystalline silicon in a metering system; filling polycrystalline silicon from the metering system, which removes fines by way of screening, into a plastic bag arranged below the metering system; wherein a weight of the plastic bag and the polycrystalline silicon is determined while the filling step occurs, and the filling step is ended after a target weight is reached; wherein a fall height of the polycrystalline silicon from the metering system into the plastic bag is kept at less than 450 mm by use of at least one clamp apparatus pressing the plastic bag from outside the plastic bag during at least a portion of the filling step; and wherein the clamp apparatus is configured such that the plastic bag is compressed during the filling step, as a result of which a cross-sectional opening of the plastic bag through which the polycrystalline silicone flows is at first reduced and then released in a controlled manner. 2. The process as claimed in claim 1 , wherein the metering system comprises a coarse metering channel for coarse chunks and a fine metering channel for fine chunks. 3. The process as claimed in claim 1 , wherein several clamp apparatuses are provided over a length of the plastic bag, and are gradually released with increasing filling of the plastic bag. 4. The process as claimed in claim 1 , wherein the polycrystalline silicon is filled into the plastic bag via an inlet funnel. 5. The process as claimed in claim 1 , wherein damping and storage elements are pivoted into a stream of polysilicon between the metering system and the plastic bag, are filled with chunks and are emptied and removed again after a particular fill level of the plastic bag. 6. The process as claimed in claim 1 , wherein a fall height of the polycrystalline silicon from the metering system into the plastic bag is kept at less than 300 mm by use of at least one clamp apparatus over the entire filling step. 7. A process according to claim 1 , wherein said clamp apparatus is at a location that permits polycrystalline silicon to be held in said plastic bag above said location while preventing said polycrystalline silicon from moving from above said location to below said location, said process further comprising the step of stopping said pressing of the clamp apparatus so that said polycrystalline moves from above said location to below said location. 8. A process according to claim 1 , wherein during said filling step and prior to reaching said target weight, said weight of said plastic bag and said polycrystalline film is measured while said weight is changing. 9. A process for packaging polycrystalline silicon by a step of filling polycrystalline into a plastic bag, using at least one clamp apparatus which presses on the plastic bag from outside the plastic bag such that the plastic bag is compressed laterally by a clamp at a particular point, such that the cross-section thereof is reduced there and polycrystalline silicon to be introduced in a vertical direction can only get as far as the particular point in the plastic bag, it being possible to fully or partly release said clamp, such that the cross-section of the plastic bag increases again at the particular point and the polycrystalline silicon can move further downward in the plastic bag in vertical direction from the particular point; wherein a weight of the plastic bag and the polycrystalline silicon is determined while the filling step occurs, and the filling step is ended after a target weight is reached; and wherein the clamp apparatus is configured such that the plastic bag is compressed during the filling step, as a result of which a cross-sectional opening of the plastic bag through which the polycrystalline silicone flows is at first reduced and then released in a controlled manner. 10. The process as claimed in claim 9 , wherein several clamp apparatuses are provided over a length of the plastic bag, and are gradually released with increasing filling of the plastic bag. 11. The process as claimed in claim 10 , wherein the polycrystalline silicon is filled into the plastic bag via an inlet funnel. 12. The process as claimed in claim 11 , wherein damping and storage elements are pivoted into a stream of polysilicon between the metering system and the plastic bag, are filled with chunks and are emptied and removed again after a particular fill level of the plastic bag. 13. The process as claimed in claim 9 , wherein a fall height of the polycrystalline silicon from the metering system into the plastic bag is kept at less than 300 mm by use of at least one clamp apparatus over the entire filling step. 14. A process according to claim 9 , wherein said clamp is at a location that permits polycrystalline silicon to be held in said plastic bag above said location while preventing said polycrystalline silicon from moving from above said location to below said location, said process further comprising the step of stopping said pressing of the clamp apparatus so that said polycrystalline moves from above said location to below said location. 15. A process according to claim 9 , wherein during said filling step and prior to reaching said target weight, said weight of said plastic bag and said polycrystalline film is measured while said weight is changing.