Abstract: This cooling box for storing a reagent and the like in a cold state, becomes a cantilever structure where, when a slide rail (104) is disposed outside a cooling space, an installation part (102) is held only by a drawer door (103). When a heavy article is placed or the like, the installation part is deformed and broken. This cooing box comprises a sliding member holder (106) provided with sliding members (200) each including a compression coil spring (202) which is an elastic body inside a heat insulating box body (101). When a reagent container (301) is installed in the installation part (102) and drawn out, the installation part and the sliding members slide in contact with each other. When a load exceeding the weight of an installed article is applied to the installation part, the installation part and the sliding member holder come into surface contact with each other. Thus, deformation and breakage of the installation part can be prevented.

Abstract: The purpose of the present invention is to provide a nucleic acid analyzer which prevents an increase in reagent consumption caused by a branched channel structure and on which multiple kinds of substrates having different channel numbers can be mounted. The nucleic acid analyzer according to the present invention is provided with a first substrate that comprises an inlet section connected to an introduction path, a first outlet section connected to a first discharge path, a second outlet section connected to a second discharge path, a first channel guiding a reagent from the inlet section to the first outlet section, a second channel guiding the reagent from the inlet section to the second outlet section, and a branching section branching, from the inlet section, into the first and second channels, wherein the first and second channels are connected to each other exclusively at the branching portion.

Abstract: In dispenser-type reagent dispensing, because a reagent is transferred through a piping flow path to a prescribed position and dispensed, some of the reagents may remain in the piping flow path and reagent crystallization may consequently occur in the piping flow path. Thus, crystallization prevention for the entire piping flow path must be taken into consideration. Provided is a dispensing device that comprises a reagent suction pipe for sucking in a reagent from a reagent vessel, a liquid transfer mechanism for transferring the reagent, a nozzle for discharging the reagent, and a reagent discharge pipe that is connected to the reagent container and a port that can be connected to the nozzle. The dispensing device is characterized in that the reagent is dispensed from the nozzle into a reaction vessel and when the reagent is not being dispensed, the nozzle and the port are connected and the reagent is circulated.

Abstract: In dispenser-type reagent dispensing, because a reagent is transferred through a piping flow path to a prescribed position and dispensed, some of the reagents may remain in the piping flow path and reagent crystallization may consequently occur in the piping flow path. Thus, crystallization prevention for the entire piping flow path must be taken into consideration. Provided is a dispensing device that comprises a reagent suction pipe for sucking in a reagent from a reagent vessel, a liquid transfer mechanism for transferring the reagent, a nozzle for discharging the reagent, and a reagent discharge pipe that is connected to the reagent container and a port that can be connected to the nozzle. The dispensing device is characterized in that the reagent is dispensed from the nozzle into a reaction vessel and when the reagent is not being dispensed, the nozzle and the port are connected and the reagent is circulated.

Abstract: A dispensing device and an analyzer capable of improving dispensing accuracy as well as improving jamming detection accuracy can be realized by having a short distance between a syringe and a suction tip. The dispensing device 10 includes an upper fixed unit 10A, a lower movable unit 10B which is connected to the upper fixed unit 10A, the movable unit being relatively movable with respect to the upper fixed unit 10A, and a Z-axis movement mechanism 55Z which moves the upper fixed unit to and fro. A syringe 4 and a plunger 13 are held by the upper fixed unit 10A. A tip nozzle 8 is attached to the lower movable unit 10B. An interior space of the syringe 4 and an interior space of the tip nozzle 8 are connected with each other by a connection tube 1 having flexibility.

Abstract: Provided are a dispensing device and an analyzer capable of improving dispensing accuracy as well as improving jamming detection accuracy by realizing a short distance between a syringe and a suction tip. The dispensing device 10 comprises an upper fixed unit 10A, a lower movable unit 10B which is connected to the upper fixed unit 10A, the movable unit being relatively movable with respect to the upper fixed unit 10A, and a Z-axis movement mechanism 55Z which moves the upper fixed unit to and fro. A syringe 4 and a plunger 13 are held by the upper fixed unit 10A. A tip nozzle 8 is attached to the lower movable unit 10B. Interior space of the syringe 4 and interior space of the tip nozzle 8 are connected with each other by a connection tube 1 having flexibility.