Liquid chromatography system for sample loading with a trap column

What is claimed is: 1. A liquid chromatography system comprising: A) a separation column; B) a trap column; C) a first switching valve; wherein the first switching valve is adapted to include a first switching position to bring a sample into the trap column in a first flow direction; wherein the first switching valve is adapted to include a second switching position to fluidly connect the trap column with the separation column and to provide a flow of a fluid from the trap column to the separation column in a second flow direction, in which the second flow direction is opposite to the first flow direction; and wherein the first switching valve is adapted to include a third switching position to fluidly connecting the trap column with the separation column and provide a flow of the fluid from the trap column to the separation column in the first flow direction. 2. The system according to claim 1 , wherein the first switching valve comprises a plurality of ports and a plurality of connecting elements configured to changeably connect to the plurality of ports of the first switching valve, wherein the plurality of ports include at least a first port, a second port, a third port, and a fourth port and the plurality of connecting elements include at least a first connecting element and a second connecting element, wherein the first port of the first switching valve is adapted to be directly fluidly connected to one of the second port, the third port, and the fourth port of the first switching valve. 3. The system according to claim 2 further comprising: D) an analytical pump adapted to generate an analytical flow in the system; E) a metering device adapted to bring the sample into the trap column in the first switching position; F) a needle adapted to retrieve the sample; G) a seat adapted to receive the needle, wherein the first switching position of the first switching valve includes: a) the needle located in the seat fluidly connected with the trap column via the second ports, the third port, and the first connecting element; and b) the metering device fluidly connected with the needle via a tubing; and c) the analytical pump fluidly connected with the separation column via the first port and the fourth port and the second connecting element. 4. The system according to claim 3 , wherein the plurality of ports of the first switching valve further includes a fifth port, wherein in the second switching position of the first switching valve, the analytical pump is fluidly connected with the trap column via the first port, the fifth port, and the second connecting element; and the separation column is fluidly connected with the trap column via the third port, the fourth port, and the first connecting element. 5. The system according to claim 4 , wherein in the third switching position of the first switching valve, the analytical pump is fluidly connected with the trap column via the first port, the third port, and the second connecting element; and the separation column is fluidly connected with the trap column via the fifth port, the fourth port, and the first connecting element. 6. The system according to claim 5 further comprising: H) a second switching valve fluidly connected with the first switching valve via a first connecting line and a second connecting line; I) a waste reservoir; wherein the system is adapted to include a configuration wherein the waste reservoir is fluidly connected with the trap column via the second switching valve and the second connecting line, wherein the first switching valve is further adapted to include a fourth switching position, wherein in the fourth switching position, the analytical pump is fluidly connected with the waste reservoir via the second switching valve and the second connecting line. 7. The system according to claim 6 , wherein the second port of the first switching valve is directly fluidly connected to the seat and to the first connecting line; the third port and the fifth port of the first switching valve are directly fluidly connected to the trap column; the fourth port of the first switching valve is directly fluidly connected to the separation column; the first port of the first switching valve is directly fluidly connected to the analytical pump; and wherein the plurality of ports of the first switching valve further includes a sixth port, the sixth port is directly fluidly connected to the second connecting line. 8. The system according to claim 7 , wherein the second switching valve comprises a plurality of ports and a plurality of connecting elements configured to changeably connect to the plurality of ports of the second switching valve, wherein the plurality of ports include at least a seventh port, an eighth port, a ninth port, and a tenth port, the seventh port of the second switching valve is directly fluidly connected to the waste reservoir, the eighth port of the second switching valve is directly fluidly connected to the second connecting line, the ninth port of the second switching valve is directly fluidly connected to a first solvent reservoir, and the tenth port of the second switching valve is directly fluidly connected to the first connecting line. 9. The system according to claim 3 , wherein the metering device is adapted to pressurize the trap column to a pressure of at least 100 bar. 10. The system according to claim 3 , wherein the metering device is adapted to pressurize the trap column to a pressure of at least 1000 bar. 11. The system according to claim 3 , wherein the metering device is adapted to pressurize the trap column to a pressure of at least 1500 bar. 12. The system according to claim 3 , wherein the metering device is adapted to pressurize the trap column to a pressure ranging from 100 bar to 1500 bar. 13. A method of separating a sample with a liquid chromatography system, the method comprising: providing a first switching valve including at least three distinct switching positions, a trap column, and a separation column, the at least three distinct switching positions comprise a first switching position, a second switching position, and a third switching position; switching to the first switching position and then flowing the sample into the trap column in a first flow direction; switching to the second switching position and then connecting the trap column with the separation column and flowing the sample from the trap column to the separation column in a second flow direction, in which the second flow direction is opposite to the first flow direction; and switching to the third switching position and then connecting the trap column with the separation column and flowing the sample from the trap column to the separation column in the first flow direction. 14. The method according to claim 13 , wherein the liquid chromatography system comprises an analytical pump adapted to provide an analytical flow, wherein the method further comprises: providing a fluid connection between the trap column and the analytical pump, wherein the fluid connection between the trap column and the analytical pump is provided simultaneously with providing a fluid connection between the trap column and the separation column. 15. The method according to claim 14 , wherein the liquid chromatography system further comprises a metering device and wherein the metering device pressurizes the trap column.