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 is to provide a non-electric portable blood tube mixer comprising a frame and a slide. The frame includes an entry opening at a relatively high position of the frame and an outlet opening at a relatively low position of the frame. The slide is provided in the frame and includes an inclined-plate assembly consisting of plated that are vertically spaced from one another and are arranged in a zigzag manner, and the slide has two ends that are respectively connected to the entry opening and the outlet opening, thus allowing the tube to roll along the slide from a relatively high position of the frame to a relatively low position of the frame.

A mixing device is provided with rotating platform and circumferential guide for quickly and effectively stirring the contents of disposable paper and plastic cups of varying sizes without direct contact with the food beverage contents.

This disclosure is a system for heating a sample, e.g. a biological material, in a vessel. The system can include a heating device configured to transmit energy to the vessel and a base moveably coupled to the heating device. The system can also include a processor configured to receive an input associated with a target temperature, and transmit a signal to controllably move the heating device relative to the base for a time period, wherein the time period is determined based on the target temperature and content volume.

A spray can mixer system includes a spray can mixer assembly having a drive shaft, a sleeve having an inner volume, a base, and a securer. The sleeve is configured to receive an aerosol can. The securer is located at an open end of the sleeve and is configured to secure the aerosol can within the inner volume of the sleeve. The drive shaft is mounted to the base and is configured to be received by a drill to permit rotating and mixing contents of the aerosol can.

A mixing apparatus includes a motor. A first plate is connected to the motor. The first plate includes a spiral groove. A second plate is disposed on the first plate. The second plate includes a first surface and a second surface opposite to the first surface. The second plate is disposed on the first plate. A plurality of clamping posts is disposed on the second plate. Each of the plurality of clamping posts is connected to the spiral groove through the second surface of the second plate, and the plurality of clamping posts is configured to guide and secure a vessel to a center of the first surface of the second plate, by rotating the first and second plates with respect to each other. A content of the vessel is mixed by rotating the first plate, the second plate, and the vessel about their respective centers.

A spray can mixer system includes a spray can mixer assembly having a drive shaft, a sleeve having an inner volume, a base, and a securer. The sleeve is configured to receive an aerosol can. The securer is located at an open end of the sleeve and is configured to secure the aerosol can within the inner volume of the sleeve. The drive shaft is mounted to the base and is configured to be received by a drill to permit rotating and mixing contents of the aerosol can.

A biological production system includes a mixing vessel and an agitation device. The mixing vessel includes an outer housing, an internal mixing structure, and a reaction chamber. The mixing vessel is configured to provide low shear agitation to materials in the reaction chamber in response to force from the agitation device.

A biological production system includes a mixing vessel and an agitation device. The mixing vessel includes an outer housing, an internal mixing structure, and a reaction chamber. The mixing vessel is configured to provide low shear agitation to materials in the reaction chamber in response to force from the agitation device.

The present invention is to provide a non-electric portable blood tube mixer comprising a frame and a slide. The frame includes an entry opening at a relatively high position of the frame and an outlet opening at a relatively low position of the frame. The slide is provided in the frame and includes an inclined-plate assembly consisting of plated that are vertically spaced from one another and are arranged in a zigzag manner, and the slide has two ends that are respectively connected to the entry opening and the outlet opening, thus allowing the tube to roll along the slide from a relatively high position of the frame to a relatively low position of the frame.