Sample injector for liquid chromatography, particularly for high performance liquid chromatography

The invention claimed is: 1. A method of injecting a sample into a chromatography column of a liquid chromatography system, the method comprising: isolating a sample loop of the liquid chromatography system from a high-pressure fluidic path of the liquid chromatography system in fluid communication with the chromatography column of the liquid chromatography system, wherein the high-pressure fluidic path is at a pump pressure, wherein the sample loop is in fluid communication with an injection valve of the liquid chromatography system and the sample loop comprises a sample conveying device for loading the sample on the sample loop and the isolating of the sample loop comprises placing an injection valve in a PRESSURE COMPENSATION position, wherein the sample conveying device comprises a pump volume and a plunger, in which the plunger is guided in the pump volume; calculating a distance for a movement of the plunger within the pump volume from a first position to a second position to increase a pressure in the sample loop from an atmospheric pressure to the pump pressure based on a) a compressibility of a fluid in the sample conveying device and the sample loop and b) the pump pressure; and loading the sample on the sample loop; with the sample loaded on the sample loop and with the sample loop remaining isolated from the high-pressure fluidic path, decreasing the pump volume of the sample conveying device to increase the pressure in the sample loop from the atmospheric pressure to correspond to the pump pressure of the high-pressure fluidic path, wherein the decreasing of the pump volume includes forwarding the plunger within the pump volume by the calculated distance from the first position to the second position; and connecting the sample loop to the high-pressure fluidic path so that the pump pressure from a high-pressure pump is applied to the sample loop to cause the sample in the sample loop to flow from the sample loop through a portion of the high-pressure fluidic path to the chromatography column. 2. The method of claim 1 , in which the calculating of the distance for the movement of the plunger within the pump volume from the first position to the second position to increase the pressure in the sample loop from the atmospheric pressure to the pump pressure is further based on c) an elasticity of the sample loop. 3. The method of claim 1 , in which the sample loop includes a first connecting piece and a second connecting piece, in which the first connecting piece is connected to a first sample loop port of the injection valve and to the sample conveying device, in which the second connecting piece is connected to the second sample loop port of the injection valve and to the sample conveying device, in which the second connecting piece includes an intake segment and a feed segment, in which the intake segment and the feed segment are configured to be separated. 4. The method of claim 1 , in which the sample conveying device and the sample loop are in fluid communication in each position of the injection valve. 5. The method of claim 1 , wherein at the PRESSURE COMPENSATION position, i) first and second sample loop ports of the injection valve are closed so as to facilitate a pressurization of the sample loop, and ii) first and second high-pressure ports of the injection valve are connected so as to operatively connect a high-pressure pump in fluid communication with the high-pressure fluidic path to the chromatography column, the method further comprising: determining the compressibility of the fluid with the high-pressure pump. 6. The method of claim 1 further including: isolating the sample loop from the high-pressure fluidic path of the liquid chromatography system after the sample has flowed into the high-pressure fluidic path; and increasing the pump volume of the sample conveying device to reduce the pressure in the sample loop to the atmospheric pressure. 7. The method of claim 1 wherein the plunger is connected to a drive device which is operable to move the plunger within the pump volume, and the method further comprises: measuring a force exerted upon the plunger by the drive device. 8. The method of claim 2 , in which the compressibility of the fluid and the elasticity of the sample loop are stored in a control unit of the liquid chromatography system. 9. The method of claim 1 , in which the sample conveying device further comprises a syringe, in which the syringe contains the pump volume. 10. A method of injecting a sample into a chromatography column of a liquid chromatography system, the liquid chromatography system comprising the chromatography column and an injection valve, the method comprising: isolating a sample loop of the liquid chromatography system from a high-pressure fluidic path in fluid communication with the chromatography column, wherein the high-pressure fluidic path is at a pump pressure, wherein the sample loop is in fluid communication with the injection valve and the sample loop comprises a sample conveying device for loading the sample on the sample loop, and the isolating of the sample loop comprises placing the injection valve in a PRESSURE COMPENSATION position, wherein the sample conveying device comprises a pump volume and a plunger, in which the plunger is guided in the pump volume; calculating a distance for a movement of the plunger within the pump volume from a first position to a second position to increase a pressure in the sample loop from an atmospheric pressure to the pump pressure based on a) a compressibility of a fluid in the sample conveying device and the sample loop, b) the pump pressure, and c) an elasticity of the sample loop; loading the sample on the sample loop; with the sample loaded on the sample loop and with the sample loop remaining isolated from the high-pressure fluidic path, forwarding the plunger within the pump volume by the calculated distance for the movement of the plunger within the pump volume from the first position to the second position to increase the pressure in the sample loop from the atmospheric pressure to the pump pressure, wherein the sample conveying device and the sample loop are in fluid communication in each position of the injection valve; and connecting the sample loop to the high-pressure fluidic path so that the pump pressure from a high-pressure pump is applied to the sample loop to cause the sample in the sample loop to flow from the sample loop through a portion of the high-pressure fluidic path to the chromatography column. 11. The method of claim 10 , in which the sample loop includes a first connecting piece and a second connecting piece, in which the first connecting piece is connected to the first sample loop port of the injection valve and to the sample conveying device, in which the second connecting piece is connected to the second sample loop port of the injection valve and to the sample conveying device, in which the second connecting piece includes an intake segment and a feed segment, in which the intake segment and the feed segment are configured to be separated. 12. The method of claim 10 , in which the sample conveying device further comprises a syringe, in which the syringe contains the pump volume. 13. A sample injector configured to load a sample into a sample loop at an atmospheric pressure and then to increase a pressure in the sample loop to a pump pressure, the sample injector comprising: a) an injection valve configured to have a LOAD position, a PRESSURE COMPENSATION position, and an INJECT position, the injection valve comprising: i) a first sample loop port; and ii) a second sample loop port; b) a sample conveying device