The present disclosure relates to a rotatable tube rack holder for a tube rack rotator device, comprising: one or more plate(s) extending radially from an axis of rotation; one or more compartment(s) for tightly holding one or more tube rack(s) configured to hold a plurality of tubes, said compartment(s) is/are attached to at least one side of said plate(s); and one locking mechanism for each of said compartment and configured such that when said tube rack(s) holding a plurality of said tubes is/are placed inside said compartment, said tubes are restricted from moving in a direction perpendicular to said plate.

An analyzer system includes a cartridge configured to receive a sample. The cartridge has a plurality of chambers for isolating a target analyte of the sample and collecting a quantity of a first label that is proportional to a quantity of the target analyte in the sample. The system includes an analyzer with a first electromagnetic radiation source a first detector and a controller. The first electromagnetic radiation source is configured to provide electromagnetic radiation to form an interrogation space within a detection chamber of the cartridge. The first detector is configured to detect electromagnetic radiation emitted in the interrogation space by the first label if the first label is present in the interrogation space. The controller is configured to identify the presence of the target analyte in the sample based on electromagnetic radiation detected by the first detector.

The present invention relates to an apparatus (100) for producing a driving force for stirring samples, in particular samples for laboratory operations such as, for example, liquids, liquids with solid samples contained therein or solid samples, said apparatus comprising a sample holder (200) for receiving at least one sample vessel (220) for samples and a bar element (300), which extends along a longitudinal axis (LA) and which is connected to the sample holder (200), wherein the bar element (300) comprises a coupling portion (310) for detachably coupling the bar element (300) to an operating unit (800), a fastening portion (320) for fastening the sample holder (200) to the bar element (300) and for positioning the sample holder (200) along the longitudinal axis (LA) in defined fashion, and a magnetic stirring portion (330), wherein the bar element (300) is embodied in such a way that a magnetic field that rotates relative to the sample holder (200) about the longitudinal axis (LA) can be produced by means of the magnetic stirring portion (330). The invention further relates to system (700) comprising an operating unit (800) and the apparatus (100) according to the invention, which are detachably coupled by way of the coupling portion (310). The invention further relates to a process for stirring samples in sample vessels by means of the system (700).

The present invention relates to an apparatus (100) for producing a driving force for stirring samples, in particular samples for laboratory operations such as, for example, liquids, liquids with solid samples contained therein or solid samples, said apparatus comprising a sample holder (200) for receiving at least one sample vessel (220) for samples and a bar element (300), which extends along a longitudinal axis (LA) and which is connected to the sample holder (200), wherein the bar element (300) comprises a coupling portion (310) for detachably coupling the bar element (300) to an operating unit (800), a fastening portion (320) for fastening the sample holder (200) to the bar element (300) and for positioning the sample holder (200) along the longitudinal axis (LA) in defined fashion, and a magnetic stirring portion (330), wherein the bar element (300) is embodied in such a way that a magnetic field that rotates relative to the sample holder (200) about the longitudinal axis (LA) can be produced by means of the magnetic stirring portion (330). The invention further relates to system (700) comprising an operating unit (800) and the apparatus (100) according to the invention, which are detachably coupled by way of the coupling portion (310). The invention further relates to a process for stirring samples in sample vessels by means of the system (700).

An automatic plant for preparing paints includes an automatic stock configured to contain a plurality of closed containers with different formats, an automatic process line comprising a plurality of operating stations, robotic unit movable between the various stations of the automatic process line to pick up each container in an inlet station and transfer it in succession from each station to the next station, the robotic unit having an adjustable gripping member configured for gripping containers with at least two different sizes, and a control unit configured to receive paint orders including information relating to the format of the containers and the color of the paint requested by the buyer.

An automatic plant for preparing paints includes an automatic stock configured to contain a plurality of closed containers with different formats, an automatic process line comprising a plurality of operating stations, robotic unit movable between the various stations of the automatic process line to pick up each container in an inlet station and transfer it in succession from each station to the next station, the robotic unit having an adjustable gripping member configured for gripping containers with at least two different sizes, and a control unit configured to receive paint orders including information relating to the format of the containers and the color of the paint requested by the buyer.

A novel canister storage system, mixing system, canister assembly, dispensing system, and tracking system. In one or more embodiments, the systems are used for storing, mixing and dispensing fluids. In one application, the fluid includes one or more paint toners.

A novel canister storage system, mixing system, canister assembly, dispensing system, and tracking system. In one or more embodiments, the systems are used for storing, mixing and dispensing fluids. In one application, the fluid includes one or more paint toners.

An automatic plant for preparing paints includes an automatic stock configured to contain a plurality of closed containers with different formats, an automatic process line comprising a plurality of operating stations, robotic unit movable between the various stations of the automatic process line to pick up each container in an inlet station and transfer it in succession from each station to the next station, the robotic unit having an adjustable gripping member configured for gripping containers with at least two different sizes, and a control unit configured to receive paint orders including information relating to the format of the containers and the color of the paint requested by the buyer.

Systems, methods and apparatuses to make nail polish are disclosed. In one aspect, embodiments of the present disclosure include an apparatus, which may be implemented on a system, to make nail polish from one or more ink colors. The apparatus can include an ink retention unit configured to hold or store one or more ink storage containers and/or an ink deposit component and mechanically coupled to the ink retention unit. In one embodiment, the ink deposit component includes an actuator to control or regulate ink that is released from the ink retention unit. In addition, a nail polish holder area under the ink deposit component can be configured to receive the ink released from the ink deposit component