Preparative liquid chromatograph

The invention claimed is: 1. A preparative liquid chromatograph comprising: a) a liquid chromatograph including a separating column configured to separate components in a sample and a detector configured to detect components in an eluate from the separating column; b) a plurality of trap columns configured to capture respective target components in the eluate; c) a column switching device configured to switch passages to cause an eluate having passed through the detector to selectively flow into one of the plurality of trap columns; d) a passage switching device disposed in a passage between the detector and the column switching device and configured to switch between a first state in which the eluate flows to the column switching device, and a second state in which the eluate is discharged without flowing to the column switching device; and e) a controller configured to control the passage switching device and the column switching device, for a switching operation of the column switching device, to firstly set the passage switching device in the second state, secondly perform the switching operation of the column switching device, and thirdly reset the passage switching device to the first state, wherein when the controller is configured to set the passage switching device in the second state, the controller is further configured to determine when a start point of a target peak pf a target component of the respective components is detected, and switch the passage switching device to the second state when the controller determines that the start point of the target peak is detected. 2. The preparative liquid chromatograph according to claim 1 , further comprising: f) a drain passage disposed parallel to the plurality of trap columns, wherein the column switching device switches passages to cause the eluate having passed through the detector to selectively flow into one of the plurality of trap columns or the drain passage. 3. The preparative liquid chromatograph according to claim 1 , further comprising: g) a diluent supplier configured to supply a diluent, and h) a column switching device for diluent configured to switch passages to cause the diluent to selectively flow into one of the plurality of trap columns, wherein the passage switching device is disposed in the passage between the detector and the column switching device and in a passage between the diluent supplier and the column switching device for diluent, the passage switching device connects the detector with the column switching device and connects the diluent supplier with the column switching device for diluent in the first state, and wherein the passage switching device connects the detector with a first drain passage and connects the diluent supplier with a second drain passage in the second state. 4. The preparative liquid chromatograph according to claim 1 , wherein the controller is further configured to perform a first operation mode in which the controller controls the passage switching device and the column switching device to perform the switching operation of the column switching device while the passage switching device is in the first state; and a second operation mode in which the controller controls the passage switching device and the column switching device to firstly set the passage switching device in the second state, secondly perform the switching operation of the column switching device, and thirdly reset the passage switching device to the first state, and wherein the preparative liquid chromatograph further comprises: i) a setting device configured to allow a user to select between the first operation mode and the second operation mode in advance when collecting a target component in the sample. 5. The preparative liquid chromatograph according to claim 1 , wherein when the controller is configured to perform the switching operation of the column switching device, the controller is further configured to operate the column switching device to select a predetermined trap column of the plurality of trap columns. 6. The preparative liquid chromatograph according to claim 5 , wherein when the controller is configured to reset the passage switching device to the first state, the controller is further configured to switch the passage switching device to the first state upon arrival of a part of the eluate at the start point of the target peak at the passage switching device. 7. The preparative liquid chromatograph according to claim 6 , wherein the controller is further configured to determine when an end point of the target peak of the target component of the respective target components is detected, and switch the passage switching device to the second state upon arrival of a part of the eluate at the end point of the target peak at the column switching device. 8. A preparative separation/purification system comprising: a preparative liquid chromatograph configured to capture a plurality of target components separated by a separating column in individual trap columns; an elution solvent supplying device configured to supply an elution solvent to an entrance of a trap column capturing a target component; and a collecting device configured to collect a target component caused to flow out of an exit of the trap column by supply of the elution solvent, wherein the preparative liquid chromatograph comprises: a liquid chromatograph including a separating column configured to separate components in a sample and a detector configured to detect components in an eluate from the separating column; a plurality of trap columns configured to capture respective target components in the eluate; a column switching device configured to switch passages to cause an eluate having passed through the detector to selectively flow into one of the plurality of trap columns; a passage switching device disposed in a passage between the detector and the column switching device and configured to switch between a first state in which the eluate flows to the column switching device, and a second state in which the eluate is discharged without flowing to the column switching device; and a controller configured to control the passage switching device and the column switching device, for a switching operation of the column switching device, to firstly set the passage switching device in the second state, secondly perform the switching operation of the column switching device, and thirdly reset the passage switching device to the first state, wherein when the controller is configured to set the passage switching device in the second state, the controller is further configured to determine when a start point of a target peak of a target component of the respective target components is detected, and switch the passage switching device to the second state when the controller determines that the start point of the target peak is detected. 9. The preparative separation/purification system according to claim 8 , wherein when the controller is configured to perform the switching operation of the column switching device, the controller is further configured to operate the column switching device to select a predetermined trap column of the plurality of trap columns. 10. The preparative separation/purification system according to claim 9 , wherein when the controller is configured to reset the passage switching device to the first state, the controller is further configured to switch the passage switching device to the first state upon arrival of a part of the eluate at the start point of the target peak at the passage switching device. 11. The preparative separation/purification system according to claim 10 , wherein the controller is