The invention relates to a device (12) for mixing/dosing liquid coating materials, in particular for use in a coating system (10) for spectacle lenses, said device having at least a first and a second storage container (14-24) for liquid starting materials, a conveying device (26) for sucking in and expelling liquids, a mixing container (28), and a liquid outlet (30) for mixed/dosed liquid coating materials. In between there is a multi-way valve (32), which can be switched into different valve positions and is constructed to produce one of the following connections (a, b, c, d) and in the process to disconnect the other connections: (a) connection between the first storage container and the conveying device, (b) connection between the second storage container and the conveying device, (c) connection between the conveying device and the mixing container, and (d) connection between the conveying device and the liquid outlet.

Custom formulation systems include a user input device and a dispenser having a cabinet, a bead assembly, a fluid formulation assembly, and a mixing area. The bead assembly dispenses a plurality of beads containing a first cosmetic formulation, and is one of a plurality of bead assemblies located within the cabinet. The plurality of bead assemblies has a vertically organized configuration. The fluid formulation assembly is configured to dispense a second cosmetic formulation in flowable fluid form, and is one of a plurality of fluid formulation assemblies located within the cabinet. The mixing area is located within the cabinet and configured to receive at least one bead from the bead assembly and the second cosmetic formulation in flowable fluid form from the fluid formulation assembly. The vertically organized bead assemblies, the fluid formulation assemblies, and the mixing area are positioned adjacent to a first side of the cabinet.

A fluid formulation assembly for a formulation dispenser includes a fluid container configured to store a volume of fluid cosmetic formulation, a drive assembly operatively connectable to the fluid container and configured to dispense the fluid cosmetic formulation, and a carriage that receives the fluid container and is configured to interface with the drive assembly. The fluid container is removably attachable with the carriage without tools and at least one of the drive assembly or the carriage is removably attachable with the cosmetic formulation dispenser.

Custom formulation systems include a user input device and a dispenser having a cabinet, a bead assembly, a fluid formulation assembly, and a mixing area. The bead assembly dispenses a plurality of beads containing a first cosmetic formulation, and is one of a plurality of bead assemblies located within the cabinet. The plurality of bead assemblies has a vertically organized configuration. The fluid formulation assembly is configured to dispense a second cosmetic formulation in flowable fluid form, and is one of a plurality of fluid formulation assemblies located within the cabinet. The mixing area is located within the cabinet and configured to receive at least one bead from the bead assembly and the second cosmetic formulation in flowable fluid form from the fluid formulation assembly. The vertically organized bead assemblies, the fluid formulation assemblies, and the mixing area are positioned adjacent to a first side of the cabinet.

An automatic charging and mixing device for an ointment is provided, comprising a box body, and a platform provided with a rotating seat. The center of the rotating seat is provided with a through hole. The interior of the box body is provided with a stepping motor, and the stepping motor matches the through hole through a coupler. A plurality of feed ports and a plurality of material feeding assemblies are provided on the platform at intervals circumferentially with the through hole as the circle center. The material feeding assembly comprises a telescopic cylinder, a plunger pump, a limiting rod, and a lifting assembly. The device is used to prepare the ointment by placing all raw materials into a mixing drum in sequence according to a set time and sequence

A pump for high viscosity materials is mounted on a rectangular frame that fits through a standard doorway. Quick detach latches allow removal of the grate, the hopper or the console, including the control box, from the frame for safer and lighter transportation of the pump. Extendable handles facilitate lifting, moving, and storing the pump. Pivotable wheels with locking mechanisms allows the pump to be moved in any direction by a single user.

The present invention provides a turntable color machine includes a rack, a controller is arranged on the rack, a wheel-type turntable that rotates vertically is arranged on the rack, a plurality of color paste bags are arranged on the wheel-type turntable, the color paste bags are evenly arranged along the circumference of the wheel-type turntable, the color paste bags are connected with a piston pump that is driven by a lifting mechanism to perform constant volume injection via a valve body, and a material receiving device that moves up and down is arranged at the middle of the wheel-type turntable. The piston pump is connected with the color paste bags to achieve volume injection, the wheel-type turntable drives the color paste bags to perform a circular motion, so that the color paste in the color paste bags are turned up and down to achieve an even mixing effect, no stirring device needs to be added, so that the manufacturing cost is reduced, the plunger valves are arranged in the color paste bags, the air in the color paste bags is extracted through the air suction cylinder to ensure that there is no air in the color paste bags, to prevent the color paste from deteriorating and to prolong the service life of the color paste.

A method for producing a suspension, wherein plant parts are comminuted in portions and mixed with water so that the water and the plant parts form the suspension, and a pomace remaining from the plant parts is separated from the suspension. A device for producing a suspension, the device including a mixing chamber and a mixing element in the mixing chamber for mixing a portion of comminuted plant parts with water so that the water and the plant parts form the suspension, and an outlet on the mixing chamber for letting the suspension out of the mixing chamber so that a pomace remaining from the plant parts is retained in the mixing chamber. In order to accelerate production, the plant parts are mashed to a pulp while the water is pressed at a positive pressure through the pulp and through a filter which retains the pomace.

The present invention relates to methods and systems for producing a foamed adhesive. A method for foaming an adhesive includes feeding an adhesive from a supply storage tank to a pump, conveying the adhesive outputted by the pump through an adhesive flow meter, injecting an air into the adhesive once the adhesive travels through the adhesive flow meter, feeding a mixture of the adhesive and air to a static mixer, mixing the mixture homogeneously with the static mixer such that the adhesive is foamed, and transporting the foamed adhesive to a product storage tank.

A dispensing system includes a container containing a flowable base formulation to be dispensed, an additive mixing device, and an actuable pump engine which draws the flowable base formulation from the container and pumps it through the mixing device. The additive mixing device includes a body with an internal cavity, an additive ingredient within the cavity, and a flow path/mixing chamber between an input and an output. With each pump of the device the additive ingredient is introduced into, and mixed with, a flow of the base formulation traveling through the mixing device. Multiple additive mixing devices may be interchangeable for different formulations, and the mixing devices may be refillable.