JP2009063449A5 - - Google Patents

Claims (8)

A liquid to be dispensed is aspirated from any one of a plurality of liquid containers each containing a liquid via a dispensing nozzle, and the aspirated liquid to be dispensed is placed outside the closed area. A dispensing method for discharging from the nozzle at a discharge position located at
Dispensing wherein the nozzle when moving to the discharge position after attracting the dispensing target liquid, the tip of the nozzle, characterized in that it passes between the plurality of liquid containers. The tip of the nozzle passes through a position lower than the upper ends of the plurality of liquid containers when the nozzle sucks the liquid to be dispensed and then moves to the discharge position. The dispensing method described. In an automatic analyzer that analyzes a sample component by reacting a sample with a reagent and optically measuring the result of the reaction, the sample is dispensed from any one of a plurality of sample containers each containing a sample. A sample dispensing method of an automatic analyzer that sucks a sample to be dispensed through a sample nozzle and discharges the sucked sample to be dispensed from the sample nozzle at a predetermined sample discharge position,
When the sample nozzle is moved to the sample discharge position after suction the sample of the dispensing target, the tip of the sample nozzle, the automatic analyzer, characterized in that passing between said plurality of sample containers Sample dispensing method. The tip of the sample nozzle passes through a position lower than the upper ends of the plurality of liquid containers when the sample nozzle sucks the sample to be dispensed and then moves to the sample discharge position. Item 4. A sample dispensing method for an automatic analyzer according to Item 3. An automatic analyzer that analyzes a component of the sample by reacting the sample with a reagent and optically measuring the result of the reaction,
A sample container holder for holding a plurality of sample containers each containing a sample;
A sample dispenser having a sample nozzle for dispensing a sample, sucking a sample to be dispensed by using the sample nozzle, and discharging the sucked sample to be dispensed from the sample nozzle at a predetermined sample discharge position Ordering means;
When the sample nozzle is moved to the sample discharge position after suction the sample of the dispensing target, the tip of the sample nozzle, and a control means for controlling passing between said plurality of sample containers An automatic analyzer characterized by that. The control means includes
When the sample nozzle sucks the sample to be dispensed and then moves to the sample discharge position, control is performed such that the tip of the sample nozzle passes a position lower than the upper ends of the plurality of liquid containers. The automatic analyzer according to claim 5. A reagent container holder for holding a plurality of reagent containers each containing a reagent; and
A reagent dispenser having a reagent nozzle for dispensing a reagent, sucking a reagent to be dispensed by using the reagent nozzle, and discharging the aspirated reagent to be dispensed from the reagent nozzle at a predetermined reagent discharge position And further includes an ordering means,
The control means includes
Wherein said reagent nozzle when moving to the reagent discharge position after suction the reagent of the dispensing target, the tip of the reagent nozzle, and performing control to pass between the plurality of reagent containers Item 7. The automatic analyzer according to item 6 . The control means includes
When the reagent nozzle sucks the reagent to be dispensed and moves to the reagent discharge position, control is performed such that the tip of the reagent nozzle passes through a position lower than the upper ends of the plurality of liquid containers. The automatic analyzer according to claim 7.