Field flow fractionation device

The invention claimed is: 1. A field-flow fractionation device comprising: a separation channel provided with an inlet port at one end and an outlet port at another end thereof, the channel forming a space through which a carrier fluid is to flow; a carrier fluid supplier which supplies the carrier fluid to the separation channel via the inlet port; a separation membrane which blocks particles to be separated from passing therethrough while passing the carrier fluid therethrough, the membrane forming a wall surface defining the separation channel; a waste liquid chamber which forms a space in which the carrier fluid having passed in the separation channel through the separation membrane flows, the waste liquid chamber having a discharge port for discharging the carrier fluid having passed through the separation membrane to the outside; a cross-flow flow rate adjuster connected to the discharge port, the cross-flow flow rate adjuster configured to adjust a flow rate of a cross flow formed by the carrier fluid passing through the separation membrane from the separation channel by adjusting a flow rate of the carrier fluid discharged from the waste liquid chamber via the discharge port to a preset flow rate; and a carrier fluid adder which adds another flow of the carrier fluid to a flow of the carrier fluid having passed through the separation membrane at a carrier fluid adding position set on an upstream of the cross-flow flow rate adjuster so that the flow rate of the carrier fluid flowing into the cross-flow flow rate adjuster becomes larger than the flow rate of the carrier fluid having passed through the separation membrane. 2. The field-flow fractionation device according to claim 1 , wherein the carrier fluid adding position is set between the discharge port and the cross-flow flow rate adjuster. 3. The field-flow fractionation device according to claim 1 , wherein the carrier fluid adding position is set to a position opposite to the discharge port in the waste liquid chamber. 4. The field-flow fractionation device according to claim 1 , further comprising a focus flow forming part which is connected to a carrier fluid supply position different from the inlet port of the separation channel, and supplies the carrier fluid to the separation channel at a predetermined timing to form a flow of the carrier fluid, opposite to a flow of the carrier fluid from the inlet port, in the separation channel, wherein the focus flow forming part acts as the carrier fluid adder, and the field-flow fractionation device is configured so that, at a timing different from a timing of supplying the carrier fluid from the carrier fluid supply position to the separation channel, a flow of the carrier fluid supplied by the focus flow forming part is added, at the carrier fluid adding position, to the flow of the carrier fluid having passed through the separation membrane. 5. The field-flow fractionation device according to claim 4 , wherein the focus flow forming part includes a liquid feed pump for feeding the carrier fluid, the liquid feed pump is connected to the carrier fluid supply position and the carrier fluid adding position via a flow path switching valve, and the carrier fluid fed by the liquid feed pump is supplied either the carrier fluid supply position or the carrier fluid adding position selectively by switching the flow path switching valve. 6. The field-flow fractionation device according to claim 1 , wherein the cross-flow flow rate adjuster is a mass flow controller. 7. The field flow fractionation device according to claim 1 , wherein the carrier fluid adding position is set between the separation membrane and the cross-flow flow rate adjuster in a direction of the flow of the carrier fluid having passed through the separation membrane.