Pinch clamp devices, methods, and systems

The invention claimed is: 1. A tube clamp for closing a flexible tube by applying a pinching force to walls of the flexible tube, the tube clamp comprising: a housing connected to a circular flange, the circular flange including a tubular wall surrounding a central bore and including at least one slot in the tubular wall sized to accept the flexible tube; a pinching element positioned inside the central bore and being rotatable about a central axis of the circular flange a coupling block that includes a cam; at least one cam pin protruding from the pinching element and cooperating with the cam to induce rotating motion of the pinching element; at least one support shaft extending from the housing parallel to the central axis; and a biasing spring that exerts a biasing force on the pinching element, wherein the coupling block includes a shaft bore sized to accept the at least one support shaft, the coupling block is configured to slide parallel to the central axis along the at least one support shaft without rotation around the central axis, the pinching element includes a pinching projection consisting of a single rotary pinch lobe, the pinching element passes through a hole in the housing and is connected to a motor that is configured to apply a force that causes rotation of the pinching element within the hole in the housing, the biasing force urges the single rotary pinch lobe to at least partially obstruct the slot, the pinching element includes a spring pin extending out of the pinching element perpendicularly to the central axis, and the biasing spring presses against the spring pin to exert a rotational force on the pinching element. 2. The tube clamp according to claim 1 , wherein the cam has a channel with an open end and a closed end, and the cam pin moves through the channel from the open end to the closed end. 3. The tube clamp according to claim 2 , wherein the slot has a floor and two opposed sides defining a U-shape, and the single rotary pinch lobe and at least one of the two opposed sides are aligned such that the single rotary pinch lobe does not obstruct the slot when the cam pin is at the closed end of the channel. 4. The tube clamp according to claim 2 , wherein the slot has a floor and two opposed sides defining a U-shape, and the single rotary pinch lobe narrows an opening defined by the single rotary pinch lobe and at least one of the two opposed sides when the cam pin is not at the closed end of the channel. 5. The tube clamp according to claim 2 , wherein the slot has a floor and two opposed sides defining a U-shape, and the single rotary pinch lobe at least partially obstructs the slot when the cam pin is at the open end of the channel. 6. The tube clamp according to claim 5 , wherein the single rotary pinch lobe pinches the flexible tube against at least one of the two opposed sides and closes off fluid flow through the flexible tube. 7. The tube clamp according to claim 1 , wherein the force exerted by the motor counteracts the biasing force to rotate the single rotary pinch lobe away from a side of the slot. 8. The tube clamp according to claim 1 , wherein the motor is a linear motor. 9. The tube clamp according to claim 1 , wherein the motor is a stepper motor. 10. The tube clamp according to claim 9 , further comprising: a screw drive that translates rotation of the stepper motor into a linear movement of the cam. 11. The tube clamp according to claim 1 , wherein the single rotary pinch lobe has a D-shaped cross-sectional shape defined by a partial circle and a chord connecting two points on the partial circle. 12. The tube clamp according to claim 11 , wherein the partial circle has a radius substantially the same as an inner radius of the tubular wall. 13. The tube clamp according to claim 1 , wherein the single rotary pinch lobe has two pinching edges configured to move relative to the at least one slot in the tubular wall, and the rotation of the pinching element within the hole in the housing causes the single rotary pinch lobe to apply the pinching force on the flexible tube with only one of the two pinching edges. 14. The tube clamp according to claim 1 , wherein the at least one support shaft includes two support shafts, and the two support shafts are positioned on two opposite sides of the central axis.