Sample analyzer

What is claimed is: 1. A sample analyzer comprising: a sample dispenser configured to dispense a sample into a reaction container; a sample transporter configured to sequentially transport a plurality of samples along a transporting path; a first processing station configured to perform a separating operation in which a target analyte in the sample is separated from other spurious contents in the reaction container, wherein the first processing station including (a) a first plurality of ports each configured to receive a sample and execute the separating operation on the received sample, the first plurality of ports being each identifiable by an incremental number, and (b) a first transferring section configured to load and unload the sample between the sample transporter and one of the ports in the first processing station; a measuring section configured to analyze the separated target analyte in the sample; and a controller programmed to execute sample processing operations on each of the plurality of samples sequentially at successive regular time intervals each represented by an operation count incremental at the regular time interval, the sample processing operations including: (i) dispensing, by the sample dispenser, one of the plurality of samples into the reaction container; (ii) transporting, by the sample transporter, the dispensed sample to the processing station along the transporting path; (iii) loading, by the first transferring section, the transported sample from the sample transporter onto one of the ports in the first processing station; (iv) separating the target analyte in the loaded sample at the one port in the first processing station; (v) unloading, by the transferring section, the separated target analyte from the one port in the first processing station onto the sample transporter after completing the separating operation on the sample at the one port in the first processing station; (vi) transporting, by the sample transporter, with the separated target analyte to the measuring section along the transporting path; and (vii) analyzing the separated target analyte by the measuring section, wherein the controller is further programmed to: for each of the plurality of samples, execute scheduling of the sample processing operations in which the controller generates incremental start counts and incremental first port identification numbers in pairs and assigns the pairs of generated start counts and first port identification numbers sequentially to each of the plurality of samples so that each sample in the plurality of samples has a start count and a first port identification number both incremental from one sample to a next sample; proceed with the sample processing operations on a sample in the plurality of samples from a count of the operation count equal to the start count assigned to the sample, wherein the sample processing operations for the sample advance, starting from the start count assigned to the sample, from one operation to a next operation in synchronism with an increment of the operation count, and at a scheduled count of the operation count incremented from the start count assigned to the sample, the sample is delivered to one of the ports in the first processing station identified by the first port identification number assigned to the sample; determine whether a trouble has occurred with respect to any one of the ports in the first processing station; in response to a determination that a trouble has occurred with respect to one of the ports in the first processing station, modify the scheduling of the sample processing operations for the plurality of samples yet to proceed with the sample processing operations such that if the first port identification number generated for one of the samples in the plurality of samples yet to be processed identifies the troubled port in the first processing station, increment the start count and first port identification number generated in pair for the sample with the identified trouble port in the first processing station and all subsequent samples in the plurality of samples and assign the incremented start count and incremented first port identification number to the sample with the identified trouble port in the first processing station and all subsequent samples in the plurality of samples; and continue to proceed with the sample processing operations on the remaining samples in the plurality of samples by starting the sample processing operation on each of the remaining samples, including determining whether a trouble has occurred with respect to any one of the ports in the first processing station, when the operation count is equal to the start count assigned to each sample, wherein the sample processing operations for the sample advance, starting from the start count assigned to the sample, from one operation to a next operation in synchronism with an increment of the operation count, and at a scheduled count of the operation count incremented from the start count assigned to the sample, the sample is delivered to one of the ports in the first processing station identified by the first port identification number assigned to the sample. 2. The sample analyzer according to claim 1 , wherein if a number of the ports in the first processing station is equal to n, and if a number of troubled ports in the first processing station is equal to m, an operation rate of the sample analyzer is represented by (n−m)/n. 3. The sample analyzer according to claim 1 , further comprising a first reagent dispenser configured to dispense a reagent in a reaction container that has already been dispensed with a sample and is being transported to the first processing station. 4. The sample analyzer according to claim 3 , further comprising a second reagent dispenser configured to dispense a second reagent in a reaction container that is unloaded from the first processing station to the sample transporter. 5. The sample analyzer according to claim 1 , wherein it is determined, when some of the sample processing operations are already performed on a sample, that a trouble has occurred with respect to one of the ports in the first processing station, the controller is programmed to cancel a reminder of the sample processing operations to be performed on the sample and operate the sample transporter to transport the sample through an end of the transporting path. 6. The sample analyzer according to claim 1 , wherein the sample transporter includes a rotation table configured to hold a plurality of the samples in a circular manner, and the rotation table rotates to transport the samples. 7. The sample analyzer according to claim 1 , further comprising: a container supply section configured to sequentially supply the reaction containers to the sample dispenser; and a catcher configured to set one reaction container at a time containing a sample dispensed therein to the sample transporter. 8. The sample analyzer according to claim 7 , further comprising a third reagent dispenser configured to dispense a third reagent in the reaction container that is supplied by the container supply section. 9. The sample analyzer according to claim 1 , wherein when a trouble occurs with respect to all of the ports in the first processing station, the controller is programmed to stop the sample dispenser from dispensing a sample. 10. The sample analyzer according to claim 1 , further comprising a second processing station configured to perform a separating operation in which a target analyte in the sample is separated from other spurious contents in the reaction container, wherein the second processing station including (a) a second plurality of ports each configured to