Cassette with infusion set containing anti-freeflow ball valve for peristaltic infusion pump

The invention is claimed as follows: 1. A method of controlling fluid flow in a flexible tube, the method comprising: providing a cassette for being connected to a pumping device, wherein the cassette comprises a housing having a constrictor, the flexible tube attached to the housing and positioned through the constrictor such that an inner diameter (ID) of the flexible tube is reduced, and a ball positioned inside the flexible tube; occluding fluid flow through the flexible tube by positioning the ball within the flexible tube at an upstream side of the constrictor when the flexible tube is positioned through the constructor; and passing fluid through the flexible tube by mechanically dislodging the ball to move the ball within the flexible tube in a direction along a main extension direction of the flexible tube, wherein, when the ball is not dislodged, the ball sealingly seats against the flexible tube at the constrictor to prevent fluid flow through the flexible tube. 2. The method of claim 1 , wherein the ball is dislodged when the cassette is positioned inside the pumping device. 3. The method of claim 1 , wherein a dislodging mechanism is attached to the cassette and is configured to dislodge the ball when the cassette is positioned inside the pumping device. 4. The method of claim 3 , wherein the ball and the flexible tube are configured such that the ball can reseat itself upon removal of the dislodging mechanism when fluid pressure acts on the ball. 5. A cassette for being connected to a pumping device, the cassette comprising: a housing comprising a constrictor; a flexible tube attached to the housing and positioned through the constrictor such that an inner diameter (ID) of the flexible tube is reduced; a ball positioned inside the flexible tube at an upstream side of the constrictor, the ball being sized such that the ball is larger than the reduced inner diameter (ID) of the flexible tube at the constrictor such that the ball can prevent the fluid from flowing through the flexible tube when the flexible tube is positioned through the constrictor; and a dislodging mechanism configured to mechanically dislodge the ball to move the ball in a direction along a main extension direction of the flexible tube to allow the fluid to flow through the flexible tube, wherein, when the dislodging mechanism does not dislodge the ball, the ball is configured to sealingly seat against the flexible tube at the constrictor to prevent fluid flow through the flexible tube. 6. The cassette of claim 5 , wherein the constrictor is configured to prevent the ball from moving through the tube at a location proximate the constrictor. 7. The cassette of claim 5 , wherein the tube comprises a first end attached to an inlet port and a second end attached to an outlet port. 8. The cassette of claim 5 , wherein an inlet port is sized to prevent the ball from entering the inlet port. 9. The cassette of claim 5 , wherein the ball is configured to squeeze a portion of the flexible tube against the constrictor when a fluid pressure acts on the ball such that the ball seats in a sealing position against the flexible tube at the constrictor. 10. The cassette of claim 9 , wherein the dislodging mechanism is arranged to push on an outer surface of the flexible tube to dislocate the ball by moving the ball out of the sealing position. 11. The cassette of claim 5 , wherein the ball is configured such that a sealing force of the ball increases proportionally to the fluid pressure acting on the ball. 12. The cassette of claim 5 , wherein the dislodging mechanism is configured to mechanically dislodge the ball when the cassette is connected to the pumping device. 13. The cassette of claim 5 , wherein the dislodging mechanism is configured to align with the constrictor. 14. The cassette of claim 5 , wherein the dislodging mechanism comprises a plate configured to extend at least partially across the flexible tube and along a plane perpendicular to the main extension direction of the flexible tube. 15. A cassette assembly for cooperating with a pumping device, the cassette assembly comprising: a housing comprising a constrictor; a flexible tube attached to the housing and positioned through the constrictor such that an inner diameter of the flexible tube is reduced; a ball positioned inside the flexible tube at an upstream side of the constrictor, the ball being sized such that the ball is larger than the reduced inner diameter of the flexible tube at the constrictor such that the ball prevents the fluid from flowing through the flexible tube when the flexible tube is positioned through the constrictor; and a dislodging mechanism configured to mechanically dislodge the ball to move the ball in a direction along a main extension direction of the flexible tube to allow the fluid to flow through the flexible tube, wherein, when the dislodging mechanism does not dislodge the ball, the ball is configured to sealingly seat against the flexible tube at the constrictor to prevent fluid flow through the flexible tube. 16. The cassette assembly of claim 15 , wherein the ball is configured to squeeze a portion of the flexible tube against the constrictor when a fluid pressure acts on the ball such that the ball seats in a sealing position against the flexible tube at the constrictor. 17. The cassette assembly of claim 15 , wherein the dislodging mechanism is configured to align with the constrictor. 18. The cassette assembly of claim 15 , wherein the dislodging mechanism comprises a plate configured to extend at least partially across the flexible tube and along a plane perpendicular to the main extension direction of the flexible tube.