Sampler for liquid chromatography

What is claimed is: 1. A sampler for liquid chromatography, the sampler comprising: (A) an injection valve, the injection valve includes: a first port, a second port, a third port, a fourth port, and a fifth port, wherein (i) the first port is configured to be connected to a pump; (ii) the second port configured to be connected to a chromatography column; (iii) the third port is connected to a sample loop; (iv) the fourth port is configured to discharge fluid at a low pressure to waste; and (v) a fifth port is connected to the sample loop; (B) a sample delivery device connected to the sample loop; (C) the sample loop connected to the injection valve, the sample loop including: (a) a first sample loop part, in which a first end of the first sample loop part is connected to the fifth port and a second end of the first sample loop part is connected to the sample delivery device; and (b) a second sample loop part, in which a first end of the second sample loop part is connected to the third port and a second end of the second sample loop part is connected to the sample delivery device, in which the injection valve is configured to include a 1st position, a 2nd position, and an 3rd position, (A1) in the 1st position of the injection valve, the first port and the second port are connected to one another such that this connection does not have a dead volume, and the third port and the fourth port are connected to one another; (A2) in the 2nd position of the injection valve, the first port and the second port are connected to one another such that this connection does have the dead volume, and the third port and the fifth port both do not have a connection to either of the first port or the second port; and (A3) in the 3rd position of the injection valve the first port and the fifth port are connected to one another, and the second port and the third port are connected to one another such that this connection does not have a dead volume. 2. The sampler of claim 1 , wherein in the 3rd position of the injection valve, the first port and the fifth port are connected to one another such that this connection does not have a dead volume. 3. The sampler of claim 1 , wherein the injection valve further includes: a stator, in which the stator comprises the first port, the second port, the third port, the fourth port, and the fifth port, and a rotor, in which a face surface of the rotor is configured to be rotated against a face surface of the stator, the rotor comprises a first groove and a second groove, in which the first groove is configured to connect to two of the ports, and in which the second groove is configured to connect to a different two of the ports. 4. The sampler of claim 3 , wherein the ports comprised by the stator are either connected in a pressure-tight fashion or shut off in pressure-tight fashion based on a rotational position of the rotor relative to the stator. 5. The sampler of claim 3 , wherein in the 1st position of the injection valve, the first groove connects the first port and the second port such that the first groove does not have a dead volume, and the second groove connects the third port and the fourth port. 6. The sampler of claim 3 , wherein in the 2nd position of the injection valve, the first groove connects the first port and the second port such that the first groove does have the dead volume, and the second groove does not connect the third port and the fourth port. 7. The sampler of claim 3 , wherein in the 3rd position of the injection valve, the first groove connects the first port and the fifth port, and the second groove connects the second port and the third port such that the second groove does not have a dead volume. 8. The sampler of claim 7 , wherein in the 3rd position of the injection valve, the first groove connects the first port and the fifth port such that the first groove does not have a dead volume. 9. The sampler as claimed in claim 3 , wherein the stator consists of the first port, the second port, the third port, the fourth port, and the fifth port. 10. The sampler as claimed in claim 3 , wherein the first groove is of a hook-shaped form and the second groove is of an arcuate form. 11. The sampler as claimed in claim 10 , wherein the rotor has at most two grooves, in which the two grooves consist of the first groove and the second groove. 12. The sampler as claimed in claim 10 , wherein the hook-shaped form is configured to maintain a connection between the second port and the first port during a change from the 1st position to the 2nd position. 13. The sampler of claim 1 , in which the second sample loop part is configured to be in a divided state where the second sample loop part is divided into a drawing-in part and a supply part, in which the drawing-in part is connected to the sample delivery device, and in the divided state, an end of the drawing-in part is configured to draw in a sample fluid, in which the second sample loop part is also configured to be in a connected state where the drawing-in part and the supply part are connected, in the connected state, the supply part is configured to supply the sample fluid in a direction of the second sample loop port. 14. The sampler of claim 1 further comprising: (D) the pump connected to the first port; and (E) the chromatography column connected to the second port. 15. The sampler of claim 1 , in which the injection valve is also configured to include additional positions, the additional positions selected from the group consisting of (A4) a 4th position, in which the fifth port is connected to the fourth port via the second groove, and the first port is connected to the third port via the first groove, (A5) a 5th position, in which the first port is connected to the fourth port via the first groove, and (A6) a 6th position in which the first port is connected to the third port via the first groove, and the fifth port is sealingly closed. 16. The sampler as claimed in claim 15 , wherein, in the 4th position, the second port is sealingly closed, and, in the 5th position, the third port is sealingly closed and the fifth port is connected to the second port. 17. The sampler as claimed in claim 15 , wherein the injection valve has at most six different switching positions, in which the six different switching positions consist of the 1st position, the 2nd position, the 3rd position, the 4th position, the 5th position, and the 6th position. 18. The sampler as claimed in claim 1 , in which in the 2nd position, the third port and the fifth port both do not have a connection to the other ports. 19. The sampler as claimed in claim 1 , wherein the first port is spaced apart from the second port, from the third port, from the fourth port, and from the fifth port by in each case a substantially same distance. 20. The sampler as claimed in claim 1 wherein the third port and the fifth port are situated on opposite sides with respect to the first port, and the third port and the fifth port are both spaced apart from the fourth port and from the second port by in each case a substantially same distance. 21. The sampler as claimed in claim 1 further comprising a control unit configured to actuate the injection valve and the sample delivery device. 22. The sampler as claimed in claim 21 , wherein the sample delivery device includes a movable element, the movable element is guided in a sealed fashion in a pump volume of the sample delivery device, in which th