Fodder mixing wagon with a mixing container and at least one mixing member arranged rotatable therein for fodder components and a sensor system arranged to co-rotate on the mixing member for examining at least one of the fodder components and/or a fodder mixture formed therefrom. A data transmission system with a transmitter a receiver which are associated with one another in a co-rotating and not co-rotating arrangement for wireless data transmission to and/or from the sensor system; and/or an electrical generator for supplying power to the sensor system. The transmitter and receiver are arranged such that the wireless data transmission is within the mixing container; and the generator is arranged on the stator side to co-rotate with the mixing member and on the rotor side is coupled not to co-rotate. Data transmission is provided with a low transmission power. Inductive data and power transmission may be used.

Systems for filling and dispensing free-flowing contents into and out of a container, the container comprising: a top and a bottom, a plurality of vertical walls extending between the bottom and the top, an ice portal disposed in the top, the ice portal having a removable cap for filling an ice chamber with ice, a removable container cap, a tube vertically disposed in the container cap, the tube extending between a beverage bag and a gate valve above the container cap, an air hose disposed in the container cap parallel with the tube, an air bag attached to a bottom end of the air hose, the air bag being adjacent to the beverage bag, such that a volume between the bags and an interior of the plurality of vertical walls is the ice chamber, and a beverage flow portal protruding longitudinally from a side of the gate valve.

An improved flow rate metering device that provides for the mixing and dispensing of two or more fluids to form final mixture, for example, for automatic washing of cars and trucks. More specifically, the invention is a system that mixes and ejects chemicals, creating a very precise mixture of one or more chemicals with a dilutant, such as water. The device also has the capability of monitoring an entire chemical dilution and release system, comprising multiple chemicals, and using software to document past and current usage rates, along with predicting future usage rates based upon both past usage rates and environmental conditions.

An apparatus for and method of enabling enhanced, selective agitation of liquid containing a solid-phase reagent. The apparatus includes at least one liquid-bearing container, a circular tray, and a motor. The liquid-bearing container(s) includes at least one internal baffle that imparts turbulent agitation to the liquid when flowing from one end of the container to an opposite end. The circular tray is adapted for selective rotation about a vertical axis of rotation. The rotary circular tray assembly includes container-receiving stations that selectively retain a respective liquid-bearing container in an inclined or pitched orientation with respect to a horizontal plane. The motor creates centrifugal force, which causes liquid in the container(s) to travel from the first end of the container to the second end of the container via the internal baffle(s), agitating the liquid and the solid-phase portions of the reagent. When gravitational force exceeds the centrifugal force, liquid in the container(s) travels from the second end of the container to the first end of the container via the internal baffle(s), again agitating the liquid and the solid-phase portions of the reagent.

Disclosed is a container for transporting a biopharmaceutical fluid, the container including a leak-tight wall having an outer portion and an inner portion, the outer portion and the inner portion delimiting between them an intermediate space that may be inflated under pressure with an inflation gas, the container being adapted to be alternately in: a non-inflated state in which the container is empty of pressurized inflation gas; an inflated state in which the wall of the container is inflated and delimits an internal cavity adapted to contain the biopharmaceutical fluid. The wall includes a peripheral lateral wall around the internal cavity, the peripheral lateral wall being completely rigid or semi-rigid when the container is in the inflated state so as to ensure a protection of the biopharmaceutical fluid.

A device for pouring a liquid coming from a container provided with a neck includes a housing provided with a system for securing to the container; a tube that is able to inserted into the neck, this tube defining a pouring duct; a pump including: a compressor provided with at least one air inlet, with an air outlet and with a mobile assembly that is able to bring the air inlet and the air outlet into fluidic communication, and an electric motor coupled to the mobile assembly; an injector which is connected to the air outlet of the compressor by way of an upstream end and opens into the centre of the pouring duct by way of a downstream end.

Mixing group for mixing two compounds to obtain a mixture, such as bone cement or an acrylic resin or a hydraulic cement, including: a first component having a substantially tubular body and delimiting a first housing zone of a first compound to be mixed, the first component having a first end as well as a second end, a second component with substantially tubular body and delimiting a second housing zone, the second component having a third end as well as a fourth end, the second component being set to contain a second compound to be mixed or a vial for containing a second compound to be mixed, the first housing zone being in fluid communication with the second housing zone, so as to allow the passage of the second compound from the second housing zone to the first housing zone.

An automated frothing assembly. The automated frothing assembly has a wand module that includes an elongate member having an inlet, one or more outlets, and a fluid passageway extending between and in fluid communication with the inlet and the plurality of outlets. At least one of the one or more outlets extends parallel to a vertical plane that includes the centerline of the elongate member and at an acute angle relative to a horizontal plane that is perpendicular to both the vertical plane and the centerline of the elongate member. The assembly further includes an actuator configured to be operatively coupled to the wand module and to drive the movement of at least a portion of the wand module along an axis, and an electronic controller configured to be electrically coupled to the actuator and to control the operation of the actuator to control the movement of the wand module.

A liquid mixing system includes a support housing at least partially bounding a compartment. A mount is secured to the support housing. A drive motor assembly is configured to engage a drive shaft for moving the drive shaft within the compartment of the support housing. A four bar linkage system extends between the mount and the drive motor assembly, the four bar linkage system being movable between a first position wherein the drive motor assembly is disposed at a first elevation and a second position wherein the drive motor assembly is disposed at a second elevation that is different from the first elevation.

A method for extracting resins and oils from a plant includes: 1) tumbling, inside a container at a temperature of at most 50 degrees Fahrenheit with a tumbler, plant fibers having one or more portions that contain resins and/or oils; 2) colliding the tumbler with the plant fibers to release the one or more portions that contain resins and/or oils from the remainder of the plant fibers; and 3) segregating the one or more portions that contain resins and/or oils from the remainder of the plant fibers.