A water quality detection system includes a conveying module, multiple detection test papers, a supply module, a detection module, and a processing unit. The detection test papers are disposed on the conveying module in a continuous arrangement. The conveying module conveys the detection test papers along a conveying path to sequentially pass through a first position and a second position. The supply module supplies liquid to be tested to the detection test papers passing through the first position. The detection module captures a color signal of the detection test papers passing through the second position. The processing unit generates a water quality signal according to the color signal.

An automatic analyzer includes a specimen holding section that holds a specimen container for containing a specimen; a specimen dispensing section that dispenses the specimen from the specimen container into a dilution container; a dilution container holding section that holds the dilution container for containing a diluted specimen, which is the specimen that has been diluted; a diluted specimen dispensing section that dispenses the diluted specimen from the dilution container into a reaction container; and a controlling section that, while the diluted specimen dispensing section dispenses the diluted specimen into the reaction container in accordance with a measurement item, causes the specimen dispensing section to perform a cleaning operation of the specimen dispensing section any number of times by using a cleaning liquid.

According to one embodiment, a droplet dispensing apparatus includes a droplet ejection array having a plurality of nozzles from which droplets can be ejected into a well opening of a microplate plate on a baseplate, a sensor configured to detect a liquid amount in the microplate, and a controller configured to detect that a nozzle in the plurality of nozzles is not discharging during a droplet ejection process based on an initial liquid amount in the microplate as detected by the sensor and a final liquid amount in the microplate as detected by the sensor during a droplet ejection process in which a predetermined number of droplets are to be ejected from the plurality of nozzles into the microplate.

Disclosed is a specimen analyzer comprising: a rack transport part configured to transport a rack accommodating a plurality of specimen containers; an agitating part configured to agitate a specimen in each of the specimen containers; a suction part configured to suction the specimen from the specimen container; a container transport part configured to transport the specimen container between the rack on the rack transport part, the agitating part, and a suction position for specimen suctioning by the suction part; a measurement part configured to measure a measurement sample prepared from the specimen suctioned by the suction part; and a controller configured to control at least the agitating part, the suction part, and the container transport part, wherein the specimen analyzer is configured such that control by the controller causes, during a period from start to end of agitation of one of the specimen containers, at least one of transferring to the suction position, suctioning of a specimen, and returning to the rack to be executed on another one of the specimen containers.

One actuator (a gripper mechanism and reagent bottle lid opening mechanism drive unit 120) drives a gripper mechanism 106 that holds a reagent bottle 10 and a reagent bottle lid opening mechanism 104 that incises a lid of the reagent bottle 10. The gripper mechanism 106 operates to ascend when the reagent bottle lid opening mechanism 104 operates to descend in order to incise the reagent bottle lid 112, and the reagent bottle lid opening mechanism 104 operates to ascend when the gripper mechanism 106 operates to descend in order to hold the reagent bottle 10. The reagent bottle lid opening mechanism 104 and the gripper mechanism 106 operate without interfering with each other's functions.

In medical analysis devices and automatic specimen examination systems, the specimen conveyance mechanism is constituted by a plurality of belt lines. During installation or maintenance of the specimen conveyance mechanism, it is necessary to confirm the existence of steps at the joints of these belt lines and the parallelism of the conveyance line. According to the present invention, it is possible to lighten the burden of this work with a test tube type or conveyance holder type inspection device provided with a sensor and battery for operation. Also, even when an operator cannot visually confirm the conveyance line from outside, it is possible to confirm the state of the conveyance line.

A luminometer apparatus includes, inside a light-shielded room, a container rack loaded with holding containers, a dispensation mechanism that dispenses a liquid, a rotary plate that turns, while holding a plurality of reaction containers which accommodate a mixture liquid of a sample and a luminescent reagent on a concentric annular plate, and is provided with a gap allowing the container rack to pass therethrough between at least a pair of adjacent ones of the reaction containers, and a photodetection unit that performs luminescence measurements. The light-shielded room has an insertion opening having a width allowing for insertion of the container rack and provided to be openable and closable. The rotary plate is provided with a region in which the container rack can be installed inside a region of passage of the reaction containers, when turning, and is provided to be turnable where the light-shielded room is in a closed state.

The present disclosure provides a device and method of operation thereof relating to a manufacturing test block with a plug that has a contaminant within the plug. The manufacturing test block contains a plurality of apertures and a plug with a contaminant within it that is to be sensed by a detector. Specifically, the present disclosure relates to a manufacturing test block that is customizable in shape to a customer's needs that can be placed on a conveyor system in order to test for contaminants within the conveyor line full of packaged products while not interrupting the other packages.

Provided is an automatic analyzer that detects an abnormality of an electrode constituting a stirring mechanism with high accuracy and suppresses decline in processing capability. The automatic analyzer comprises: a sample dispensing mechanism that dispenses a sample into a reaction container; a reagent dispensing mechanism that dispenses a reagent into the reaction container; a stirring mechanism that has an electrode; a reaction disk that rotates and stops the reaction container; and a control unit that, when the reaction container containing a mixture of the sample and the reagent is stopped at a stirring position, applies a voltage to the electrode and irradiates the mixture with ultrasonic waves. The control unit applies a voltage to the electrode and measures an electric impedance when, during operation, the reaction container into which a liquid has been dispensed by the reagent dispensing mechanism in an empty state is stopped at the stirring position.

A sample distribution system having a transport surface and sample container carriers arranged thereupon is disclosed. A dirt detection device for limiting the effect of dirt is provided.