Injector with fluid supply and mobile phase discharge

The invention claimed is: 1. An injector for injecting a fluidic sample into a mobile phase in a sample separation apparatus, the injector comprising: a main flow path configured to be coupled between a fluid drive and a sample separation device, wherein the fluid drive is configured to drive the mobile phase, and the sample separation device is configured to separate the fluidic sample that is injected into the mobile phase; a discharge device comprising a pump configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path; and a supply device configured to supply an amount of the fluidic sample and/or a solvent into the main flow path, wherein the discharged amount and the supplied amount compensate each other at least partially. 2. The injector according to claim 1 , comprising at least one of the following features: wherein the supply device and the discharge device are configured such that the supplied amount and the discharged amount differ from each other by less than 30%; wherein the supply device and the discharge device are configured such that the supplied amount and the discharged amount differ from each other by less than 10%; wherein the supply device and the discharge device are configured such that the supplied amount and the discharged amount are substantially equal; wherein a flow rate of the discharged mobile phase corresponds to a flow rate of the supplied fluidic sample and/or of the supplied solvent; wherein the supply device and the discharge device are arranged to perform the supplying of the fluidic sample and/or of the solvent and the discharging of the mobile phase such that the flow rate in the main flow path remains substantially unchanged; wherein the supply device and the discharge device are configured to perform the supplying of the fluidic sample and/or of the solvent and the discharging of the mobile phase such that a flow rate downstream of the supply device and a flow rate upstream of the discharge device substantially equal; wherein the supply device and the discharge device are configured to perform the supplying of the fluidic sample and/or of the solvent and the discharging of the mobile phase in a synchronized manner; wherein the supply device and the discharge device are configured to perform the suppling of the fluidic sample and/or of the solvent and the discharging of the mobile phase simultaneously; wherein the main flow path is configured to be fluidically coupled between the fluid drive and the sample separation device such that a flow between the fluid drive and the sample separation device is maintained uninterruptedly during operation of the sample separation device; wherein the main flow path is configured to be fluidically coupled between the fluid drive and the sample separation device such that a flow between the fluid drive and the sample separation device is maintained uninterruptedly upon feeding the fluidic sample and/or the solvent into the main flow path. 3. The injector according to claim 1 , comprising a fluidic combination point in the main flow path, at which the supplied fluidic sample and/or the supplied solvent on the one hand and mobile phase driven by the fluid drive on the other hand are combined upon supplying as fluidic flows. 4. The injector according to claim 3 , comprising a fluidic branch point in the main flow path, at which the mobile phase is at least partially discharged from the main flow path. 5. The injector according to claim 4 , comprising at least one of the following features: wherein the fluidic branch point is located upstream of the fluidic combination point; wherein the fluidic branch point and the fluidic combination point are arranged relative to each other such that fluid does not pass by the branch point after passing the combination point. 6. The injector according to claim 1 , comprising at least one pump configured to supply the fluidic sample and/or the solvent. 7. The injector according to claim 6 , comprising at least one of the following features: wherein the at least one pump is the pump configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path, and is configured to simultaneously effect the supplying of the fluidic sample and/or of the solvent and the discharging of the mobile phase; comprising a first pump and a second pump, wherein the first pump is the at least one pump configured to supply the fluidic sample and/or the solvent, and the second pump is the pump configured to configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path; comprising a first pump and a second pump, wherein the first pump is the at least one pump configured to supply the fluidic sample and/or the solvent, and the second pump is the pump configured to configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path, and wherein the first pump and the second pump are operatively coupled to each other; comprising a first pump and a second pump, wherein the first pump is the at least one pump configured to supply the fluidic sample and/or the solvent, and the second pump is the pump configured to configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path, and wherein the first pump and the second pump are synchronized with each other; comprising a first pump and a second pump, wherein the first pump is the at least one pump configured to supply the fluidic sample and/or the solvent, and the second pump is the pump configured to configured to provide an actively controlled discharge of an amount of the mobile phase from the main flow path, and wherein the first pump and the second pump are operable with a fixed phase relationship to each other; wherein the at least one pump is configured to be operable without interruption over an arbitrary number of cycles. 8. The injector according to claim 1 , comprising at least one of the following features: the injector is configured to perform a predetermined mixing or dilution of the fluidic sample and/or of the solvent with the mobile phase; the injector is configured to perform a dilution of the fluidic sample and/or of the solvent with the mobile phase at a set feed rate; wherein the discharge device is formed in addition to and/or separately from and/or not in the main flow path; wherein the supply device is formed in addition to and/or separately from and/or not in the main flow path; wherein the main flow path contains neither the discharge device nor the supply device; comprising a fluidic discharge flow path which branches off and leads away from the main flow path at a fluidic branch point; comprising a fluidic supply flow path which, at a fluidic combination point, leads into the main flow path. 9. A sample separation apparatus for separating a fluidic sample, the sample separation apparatus comprising: the injector according to claim 1 ; the fluid drive of claim 1 , wherein the fluid drive is coupled to the main flow path; and the sample separation device of claim 1 , wherein the sample separation device is coupled to the main flow path. 10. The sample separation apparatus according to claim 9 , further comprising at least one of the following features: the sample separation device is configured as one of a preparative sample separation device or an analytical sample separation device; the sample separation device is configured as a chromatographic separation device; the sample separation apparatus is configured to analyze at least one physical, chemical and/or biological parameter of at least