Tube constriction valve

The invention claimed is: 1. A tube constriction valve comprising a valve body ( 1 ) with first and second opposite ends spaced apart in an axial direction and a tube guide extending through the valve body from the first end to the second end, at least one clamping bolt ( 2 ) mounted into an external surface of the valve body ( 1 ) between the first and second ends, the clamping bolt ( 2 ) being configured for movement transverse to the axial direction, so that an end of the clamping bolt ( 2 ) is selectively movable into the tube guide ( 7 ), at least one disk ( 4 ) adjustably mounted on the clamping bolt ( 2 ) external of the valve body ( 1 ) and fixable at selected positions along the clamping bolt ( 2 ) facing the external surface into which the clamping bolt ( 2 ) is mounted and an approximation sensor ( 3 ) mounted to the external surface of the valve body ( 1 ) into which the clamping bolt ( 2 ) is mounted and at a position so that a radial distance from the clamping bolt ( 2 ) to the approximation sensor ( 3 ) is less than a radial distance from the clamping bolt ( 2 ) to an outer periphery of the disk ( 4 ) and so that the approximation sensor ( 3 ) is facing the disk ( 4 ) along a moving direction of the clamping bolt ( 2 ), the approximation sensor being operative for measuring a distance between the approximation sensor ( 3 ) and the disk ( 4 ) at all rotational positions of the clamping bolt ( 2 ) relative to the valve body ( 1 ), the distance defining a position of the end of the clamping bolt ( 2 ) in the tube guide ( 7 ) of the valve body ( 1 ) based on a relative position of the disk ( 4 ) on the clamping bolt ( 2 ) and the distance between the approximation sensor ( 3 ) and the disk ( 4 ). 2. The tube constriction valve of claim 1 , wherein the clamping bolt ( 2 ) is manually actuatable. 3. The tube constriction valve of claim 1 , wherein the clamping bolt ( 2 ) is movable by hydraulics or pneumatics. 4. The tube constriction valve of claim 1 , wherein the clamping bolt ( 2 ) has a thread and the valve body ( 12 ) has a clamping bolt guide ( 2 ′) threadedly engaged with the clamping bolt ( 2 ). 5. The tube constriction valve of claim 1 , wherein at least one bore ( 5 ) is formed in the valve body ( 1 ) and extending transverse to the axial direction, the at least one bore ( 5 ) being configured for fixedly mounting the valve body at a specified position so that the valve body ( 1 ) does not hang loosely on the tube. 6. The tube constriction valve of claim 1 , wherein the disk ( 4 ) is adjustable by means of locknuts ( 6 ) on a thread of the clamping bolt ( 2 ). 7. The tube constriction valve of claim 1 , wherein the valve body ( 1 ) includes a tube insertion slot extending from the first end to the second end and opening into the tube guide to permit insertion of a tube into the tube guide in a direction transverse to the axial direction. 8. The tube constriction valve of claim 1 , wherein the disk ( 4 ) is a metal disk. 9. The tube constriction valve of claim 8 , wherein the approximation sensor ( 3 ) operates in a magnetically inductive manner. 10. The tube constriction valve of claim 9 , further comprising a system controller connected to the approximation sensor ( 3 ) and configured to generate a signal at a specified distance between the disk ( 4 ) and the approximation sensor ( 3 ). 11. The tube constriction valve of claim 8 , wherein the approximation sensor ( 3 ) includes a light diode that outputs an optical signal at a specified distance between the disk ( 4 ) and the approximation sensor ( 3 ).