In a method for discharging components that are mixed in a centrifugal mixer, a mixing cup is provided that is closed by a piston and that is subsequently pivoted.

At a device for treating a product in a receiving trough (1) which has at least one opening (5) for receiving the product, the treatment of the product is to take place by inner and outer blades (9, 8) which are arranged in the receiving trough (1) and can be driven separately by drives (14; 16). The drive (14) for the at least one inner blade (9) should be located on the same side of the receiving trough (1) as the drive (16) for the at least one outer blade (8).

The manufacturing apparatus includes a first capsule containing a first formulation; a second capsule containing a second formulation; a receiving device configured to receive the first and second capsules; a mixing machine including a receiving housing configured to receive the receiving device equipped with the first and second capsules, and a control unit configured to control the operation of the mixing machine; and a detection device configured to detect the presence of the receiving device in the receiving housing.

An apparatus for preparing foam or blended media can include a pitcher with a blending mechanism and a blending motor. The blending motor can be configured to actuate the blending mechanism. The pitcher can be configured to receive ingredients therein and the blending mechanism can be configured to blend the ingredients to produce the foam or the blended media. The apparatus can include a base with a rinsing feature configured to spray a liquid into an interior of the pitcher. The apparatus can include one or more pivot arms coupled to the pitcher and the base. The one or more pivot arms can be configured to actuate rotation of the pitcher.

Blending apparatuses and related methods and computer program products are disclosed. In an aspect, blending apparatuses and related methods and computer program products of the present disclosure may include at least one energy source associated with the blending apparatuses such that at least one energy source may be used to provide at least one portion of the energy required for a given blending apparatus to function, thereby reducing or eliminating need for a separate energy source to power the blending apparatus, which reduces the overall spatial footprint required by the blending apparatus and other device(s) associated therewith. Energy generated by the at least one energy source may also be used to power one or more additional devices. Blending apparatuses of the present disclosure may additionally comprise at least one control station that allows one or more users to monitor, adjust, control, interact with the blending apparatuses, thereby increasing efficiency.

One aspect relates to a bone cement applicator having a cartridge with an interior, a cartridge head with a delivery opening, a mixing member which is movable in the interior with a mixing rod. A delivery plunger is arranged in the cartridge and is mounted in the interior and is pressable in the direction of the delivery opening. The delivery plunger rests with an outer cylindrical circumferential surface against an inner wall of the cartridge. A clamping element is arranged on the inner wall of the cartridge in the region of a back side of the interior. The clamping element projects out of the inner wall of the cartridge. The cylindrical circumferential surface of the delivery plunger is resiliently deformable by the clamping element in the direction of a central cylinder axis, such that the delivery plunger is clampable in place with the at least one clamping element on the back side of the cartridge.

Systems and methods are described for supplying a rinsing liquid including ultrapure water and an ammonia gas. The system includes an ultrapure water source and a gas mixture source in fluid communication with a contactor. The gas mixture includes ammonia gas and a carrier gas. The system includes a control unit configured to adjust a flow rate of the ultrapure water source such that an operational pressure of the contactor remains below a pressure threshold. The system includes a compressor configured to remove a residual transfer gas out of the contactor. The contactor generates a rinsing liquid having ultrapure water and a concentration of the ammonia gas dissolved therein. The system includes a pump in fluid communication between the contactor and an outlet. The pump is configured to deliver the rinsing liquid having a gaseous partial pressure below the pressure threshold at the outlet.

A slurry mixing device includes an installation frame, a slurry mixing tank, a slurry feeding tank, a cooling mechanism and a slurry discharging mechanism. The slurry feeding tank is movably arranged under the slurry mixing tank, the cooling mechanism and the slurry discharging mechanism. A mass scale is arranged under the slurry feeding tank. A stirring cavity is formed in the slurry mixing tank, and a stirring paddle is arranged in the stirring cavity. A stirring motor is arranged on the slurry mixing tank. An outlet is arranged on the bottom of the stirring cavity. An oil bath cavity is formed between the slurry mixing tank and the stirring cavity. The cooling mechanism includes a lifting cylinder and a lifting base. The lifting base is provided with a rotating paddle and a rotating motor. The lifting cylinder is arranged on the installation frame.

A device and method for producing a bone cement paste from a monomer liquid and a cement powder, wherein the device comprises a cartridge with a cylindrical interior chamber for mixing the parent components, whereby the interior chamber of the cartridge is closed on the front side up to a delivery opening for expelling the bone cement paste from the interior chamber, a delivery plunger which is arranged in the interior chamber of the cartridge and which is supported in a linearly movable manner in the direction of the delivery opening, the cement powder, which is arranged in the interior chamber of the cartridge between the delivery opening and the delivery plunger, a monomer receptacle with an interior chamber in which a monomer liquid container containing the monomer liquid is contained, whereby in the monomer receptacle, a conveying plunger is arranged movable in the longitudinal direction of the monomer receptacle, a compressed gas connection, whereby the conveying plunger is arranged between the monomer liquid container and the compressed gas connection or the compressed gas line in the monomer receptacle.

A production apparatus includes a receiving device designed to receive a first and a second capsule containing a first and a second formulation, respectively, the receiving device being designed to be in an open position in which the first and the second capsule can be introduced into the receiving device and a closed position in which the receiving device holds the first and second capsules in position, the receiving device further being designed in such a way that when the receiving device holding the first and second capsules is moved from the open position to the closed position, the first and second capsules are connected; the apparatus further includes a mixing machine designed to receive the receiving device holding the first and second capsules, and to mix the first and second formulations contained in the first and second capsules such as to obtain the composition.