Method and device for the sterile connection of pipes

The invention claimed is: 1. A method of making and opening a sterile connection between ends of two thermoplastic tubing segments comprising: heating the ends of each segment to a temperature above the melting point of the thermoplastic material without using a cutting tool; bringing the heated ends of the tubing segments into face to face contact and allowing material of the ends to fuse together to form a head-bonded connection between the tubing segments, which connection includes a closure of thermoplastic material, formed during the heat-bonding closing flow between the tubing segments; and applying external pressure to the connection site to open the closure to allow flow between the tubing segments. 2. The method of claim 1 including applying external pressure until be closure is opened. 3. The method of claim 2 including determining if the correct tubing segments are connected before applying pressure to the connection site to open the closure. 4. The method of claim 1 in which light pressure is applied to the connection site. 5. The method of claim 1 in which the pressure is manually applied. 6. A method for the sterile connection of tubes, said method comprising: providing a first tube and a second tube, clamping the first tube between two clamping devices associated with the first tube and clamping the second tube between a two clamping devices associated with the second tube, heating a first separating region of the first tube located between the clamping devices associated with the first tube without using a cutting tool between such clamping devices and heating a second separating region of the second tube located between the second clamping devices associated with the second tube without using a cutting tool between such clamping devices; mechanically separating the first tube by exerting a first force onto the first tube without the use of a cutting tool between the clamping devices associated with the first tube such that the first tube is separated in the first heated separating region into a first tube portion and a second tube portion and mechanically separating the second tube by exerting a second force onto the second tube without the use of a cutting tool between the clamping devices associated with the second tube such that the second tube is separated in the second heated separating region into a third tube portion and a fourth tube portion; and producing mechanical contact, after the mechanical separation of the first tube and the mechanical separation of the second tube, between a first end of the first tube portion and a second end of the third tube portion, wherein the mechanical contact is produced such that the first end and the second end, as a result of the heating, still have such a temperature when they come into mechanical contact with one another that they form an integrally-bonded connection site with one another without additional heating after the mechanical separation of the first tube and the mechanical separation of the second tube, and applying external pressure to the connection site to allow flow between the first tube and the second tube. 7. The method as claimed in claim 6 , wherein the first force for separating the first tube is generated by a rotation and/or a translation of part of the first tube and the second force for separating the second tube is generated by a rotation and/or a translation of part of the second tube. 8. The method as claimed in claim 6 , wherein the mechanical contact is produced such that the first end and the second end, when they come into mechanical contact with one another, each have a temperature that is greater than the melting point of the material of the first tube portion and the third tube portion, respectively. 9. The method as claimed in claim 6 wherein the interval between a moment of mechanical contact and separation of the first tube and the second tube is at most 0.1 seconds. 10. The method as claimed in claim 6 , wherein the production of the mechanical contact between the first end of the first tube portion and the second end of the third tube portion comprises a rotation of at least part of the first tube portion and/or a rotation of at least part of the second tube portion. 11. The method as claimed in claim 10 , wherein the first tube portion and/or the third tube portion is/are rotated about an axis of rotation that runs at least approximately perpendicularly to a plane along which the first tube portion extends at least in part. 12. The method of claim 6 wherein mechanically separating the first tube and the second tube includes exerting a tensile force onto the first tube and the second tube. 13. The method of claim 12 wherein exerting the tensile force onto the first tube and the second tube includes applying the tensile force to the first heated separating region and the second heated separating region, respectively. 14. The method of claim 12 wherein mechanically separating the first tube and the second tube further includes exerting a shear force onto the first tube and the second tube. 15. The method of claim 6 wherein mechanically separating the first tube and the second tube includes tearing the first tube and the second tube in the first heated separating region and the second heated separating region, respectively. 16. The method of claim 6 wherein the interval between a moment of mechanical contact and the separation of the first tube and second tube is at most 0.05 seconds. 17. The method of claim 6 including applying external pressure until the closure is opened. 18. The method of claim 7 including determining if the correct tubing segments are connected before applying pressure to the connection site to open the closure. 19. The method of claim 6 in which light pressure is applied to the connection site. 20. The method of claim 6 in which the pressure is manually applied.