Automatic analyzer

The invention claimed is: 1. An automatic analyzer comprising: a carry-in section in which one or more sample containers of a plurality of sample containers containing samples are loaded; an emergency sample container input entrance that is connected to a conveyance line and to which emergency sample containers containing emergency samples are loaded; a sensor configured to detect an input of an emergency sample container to the emergency sample container input entrance; a buffer comprised of a plurality of slots, each slot is configured to hold one or more sample containers off the conveyance line which have been loaded in the carry-in section and conveyed to the buffer from the carry-in section, the plurality of slots configured to hold emergency sample containers input from the emergency sample container input entrance and sample containers input from the carry-in section; a sample analysis section, including a reagent disk, a reaction disk holding a plurality of reaction containers, and a sample dispensing probe configured to suction a sample from a sample container at a suction position and dispense the sample into a first reaction container on the reaction disk; and a control unit with an input and coupled to each of the conveyance line, the sensor, and the sample dispensing probe, wherein the conveyance line is connected to the carry-in section and the buffer and extends from and is configured to carry sample containers from the carry in section and the emergency sample entrance to the buffer and to the sample analysis section and is configured to convey one or more sample containers held in the buffer to the suction position of the sample dispensing probe, and wherein the control unit is programmed to: receive and store an input to change a predetermined number of analysis items of samples permitted to be on the conveyance line, which is based on a sample processing rate of the sample analysis section, receive and store an input to change a predetermined number indicating a number of slots of the buffer used only for emergency sample containers to be input into the emergency sample container input entrance, store a number of analysis items that are to be analyzed for each sample on the conveyance line, control the sample dispensing probe to suction and dispense a sample from a sample container at the suction position a number of times that is in correspondence with the number of analysis items to be analyzed for the sample in the sample container at the suction position, identify, based on the detection of the sensor, an emergency sample container in an emergency rack that has been input into the emergency sample container input entrance, input and store a time slot indicating a period of time during which the control unit determines a current number of analysis items on the conveyance line for which the sample dispensing probe has not suctioned and dispensed a sample from a sample container at the sample suction position, determine whether a current time is within the time slot and upon determining the current time is within the input time slot determine the current number of analysis items on the conveyance line for which the sample dispensing probe has not suctioned and dispensed a sample, determine whether the current number of analysis items on the conveyance line for which the probe has not suctioned and dispensed a sample is less than the predetermined number of analysis items permitted to be on the conveyance line, upon determining the current number of analysis items on the conveyance line for which the probe has not suctioned and dispensed a sample is less than the predetermined number of analysis items permitted to be on the conveyance line, control the conveyance line to convey all of the emergency sample containers held in the slots of the buffer before conveying any other sample container from the buffer to the suction position. 2. The automatic analyzer according to claim 1 , wherein the control unit is programmed to control the conveyance line to convey the emergency sample containers in preference to another sample container that has been loaded in the carry-in section upon receiving, by the control unit, a request to analyze the emergency samples or the sensor detects an input of an emergency sample container. 3. The automatic analyzer according to claim 2 , further comprising: a display, coupled to the control unit, wherein the control unit is programmed to display a predicted time until the emergency samples are suctioned by the sample dispensing probe. 4. An automatic analyzer comprising: a carry-in section in which one or more sample containers of a plurality of sample containers containing samples are loaded; an emergency sample container input entrance that is connected to a conveyance line and to which emergency sample containers containing emergency samples are loaded; and a barcode reader configured to read barcode information upon input of an emergency sample container to the emergency sample container input entrance; a buffer comprised of a plurality of slots, each slot is configured to hold one or more sample containers off the conveyance line which have been loaded in the carry-in section and conveyed to the buffer from the carry-in section, the plurality of slots configured to hold emergency sample containers input from the emergency sample container input entrance and sample containers input from the carry-in section; a sample analysis section, including a reagent disk, a reaction disk holding a plurality of reaction containers, and a sample dispensing probe configured to suction a sample from a sample container at a suction position and dispense the sample into a first reaction container on the reaction disk; and a control unit with an input and coupled to each of the conveyance line, the barcode reader, and the sample dispensing probe, wherein the conveyance line is connected to the carry-in section and the buffer and extends from and is configured to carry sample containers from the carry in section and the emergency sample entrance to the buffer and to the sample analysis section and is configured to convey one or more sample containers held in the buffer to the suction position of the sample dispensing probe, and wherein the control unit is programmed to: receive and store an input to change a predetermined number of analysis items of samples permitted to be on the conveyance line, which is based on a sample processing rate of the sample analysis section, receive and store an input to change a predetermined number indicating a number of slots of the buffer used only for emergency sample containers to be input into the emergency sample container input entrance, store a number of analysis items that are to be analyzed for each sample on the conveyance line, control the sample dispensing probe to suction and dispense a sample from a sample container at the suction position a number of times that is in correspondence with the number of analysis items to be analyzed for the sample in the sample container at the suction position, identify, based on the barcode information read by the barcode reader, an emergency sample container in an emergency rack that has been input into the emergency sample container input entrance, input and store a time slot indicating a period of time during which the control unit determines a current number of analysis items on the conveyance line for which the sample dispensing probe has not suctioned and dispensed a sample from a sample container at the sample suction position, determine whether a current time is within the time slot and upon determining the current time is within the input time slot determine the current number of analysis items on the conveyance line for which the sample dispensing probe has not suctioned and dispensed