Capillary connection system

What is claimed is: 1. A socket unit for a capillary connection system for HPLC, the socket unit comprising: a) a housing including a housing outer surface and a housing inner surface defining a housing axial cavity adapted to receive a sealing element of a plug unit; b) a socket connecting mechanism adapted to engage with a corresponding plug connecting mechanism of the plug unit to connect the plug unit and the socket unit together, wherein the socket connecting mechanism is adapted for a predetermined number of discrete connection states between the socket unit and the plug unit; and c) a sealing inlay piece forming a socket floor at an end of the housing axial cavity, the sealing inlay piece adapted to seal and fluidly connect a capillary of the plug unit to another element. 2. The socket unit according to claim 1 , wherein the socket connecting mechanism includes a snap fit connecting mechanism. 3. The socket unit according to claim 1 , wherein the socket connecting mechanism includes a bayonet connecting mechanism. 4. The socket unit according to claim 1 , wherein the socket connecting mechanism comprises at least one socket connecting element, wherein each of the at least one socket connecting element includes: a socket indentation comprising at least one hole in the housing from the housing outer surface to the housing inner surface, the at least one hole having an inner diameter, in which the inner diameter narrows from the housing outer surface towards the housing inner surface; and a snapping element adapted to fit into the socket indentation from the housing outer surface. 5. The socket unit according to claim 4 , wherein the socket connecting mechanism further comprises: at least one holding element adapted to fix the snapping element within the socket indentation on the housing from a side of the housing outer surface. 6. The socket unit according to claim 4 further comprises a sealing surface adapted to seal a front end of a capillary, the sealing surface being perpendicular to a longitudinal axis of the socket unit and wherein the sealing surface is longitudinally displaced from the at least one socket connecting element by a distance in a range of 5 mm to 15 mm. 7. The socket unit according to claim 6 , wherein the distance is in the range of 7 mm to 13 mm. 8. The socket unit according to claim 7 , wherein the distance is in the range of 9 mm to 10 mm. 9. The socket unit according to claim 1 , wherein the sealing inlay piece is adapted to be fitted to the housing, wherein the sealing inlay piece is adapted to fit around the capillary to form a tight and secure seal, wherein the sealing inlay piece comprises an inlay cavity through the sealing inlay piece adapted to serve as a passage for fluid flow. 10. The socket unit according to claim 1 further comprises: a sealing inlay piece, wherein the sealing inlay piece is adapted to be fitted to the housing and to connect a capillary to another apparatus, wherein the sealing inlay piece is adapted to fit flat against a face side of the capillary to form a tight and secure seal, wherein the sealing inlay piece comprises an inlay cavity through the sealing inlay piece adapted to serve as a passage for fluid flow. 11. The socket unit according to claim 1 , wherein the socket connecting mechanism comprises at least one bayonet fit element, wherein each of the at least one bayonet fit element is configured to be fitted with a bayonet cavity of the plug unit. 12. The socket unit according to claim 11 , wherein the bayonet fit element comprises an element selected from a group consisting of a pin, a ball, and a protruding element. 13. The socket unit according to claim 1 , wherein the socket connecting mechanism comprises at least one bayonet cavity, wherein each of the at least one bayonet cavity is configured to be fitted with a bayonet fit element of the plug unit. 14. The socket unit according to claim 13 , wherein the bayonet cavity has a L shape. 15. A plug unit for a capillary connection system for HPLC, the plug unit comprising: a) a capillary; b) a gripping element including a plug connecting mechanism adapted to engage with a corresponding socket connecting mechanism of a socket unit to connect the plug unit and the socket unit together, wherein the plug connecting mechanism is adapted for a predetermined number of discrete connection states between the socket unit and the plug unit; and c) a pushing element fixed to the capillary and adapted to transmit an axial sealing force from the gripping element to the capillary, wherein the gripping element grips the pushing element to allow axial motion between the gripping and pushing elements without disconnecting the gripping and pushing elements. 16. The plug unit according to the claim 15 , wherein the plug connecting mechanism is a snap fit connecting mechanism. 17. The plug unit according to the claim 15 , wherein the plug connecting mechanism is a bayonet connecting mechanism. 18. The plug unit according to the claim 15 , wherein the plug connecting mechanism comprises at least one plug connecting element and wherein the plug connecting element is a plug indentation around an outer circumference of the gripping element. 19. The plug unit according to the claim 15 , wherein the plug connecting mechanism comprises a bayonet mount located on the gripping element and adapted to connect with the socket connecting mechanism. 20. The plug unit according to the claim 15 , wherein the gripping element comprises a forward curved inward end wherein the forward curved inward end is bent in on itself towards an axial cavity of the gripping element and defines an end cavity in the gripping element within which the pushing member moveably extends. 21. The plug unit according to the claim 20 , wherein the pushing element further comprises at least one shoulder adapted to fit within the end cavity of the gripping element and to engage with the forward curved inward end of the gripping element, wherein an engagement between the forward curved inward end of the gripping element and the at least one shoulder of the pushing element is adapted to withstand a separating force of 100 N. 22. The plug unit according to the claim 21 , wherein the at least one shoulder of the pushing element is adapted to withstand the separating force of 500 N. 23. The plug unit according to the claim 21 , wherein the at least one shoulder of the pushing element is adapted to withstand the separating force of 1000 N. 24. The plug unit according to claim 18 further comprising: a forward end and wherein the forward end is longitudinally displaced from the at least one plug connecting element by a distance in a range of 5 mm to 15 mm. 25. The plug unit according to claim 24 , wherein the distance is in the range of 7 mm to 13 mm. 26. The plug unit according to claim 24 , wherein the distance is in the range of 9 mm to 10 mm. 27. The plug unit according to claim 15 , wherein the plug connecting mechanism comprises at least one bayonet fit element, wherein each of the at least one bayonet fit element is configured to be fitted with a bayonet cavity of the socket unit. 28. The plug unit according to claim 27 , wherein the bayonet fit element comprises an element selected from a group consisting of a pin, a ball, and a protruding element. 29. The plug unit according to