A feed mixer truck for mixing feed and for discharging mixed feed into an elongated feed bunk. The engine of the truck is mechanically connected to three hydraulic pumps which are hydraulically connected to a hydraulic motor for driving the drive wheels of the truck, which are hydraulically connected to a hydraulic motor for operating the feed mixer augers, and which are hydraulically connected to a hydraulic motor which operates a feed discharge assembly. A control is electrically connected to the motors to control the operation thereof.

A mixer (1) comprises a drum (2) having at least one inlet (6) and one outlet (7). The mixer (1) furthermore comprises a drive (3) and a stirring shaft (4), which is arranged in the drum (2) and is coupled to the drive (3). Furthermore, the mixer (1) comprises a conveying device (5), which is arranged in the drum (2) and which is arranged on one and the same axis as the stirring shaft (4).

A device is described that can accept two or more components for mixing and preparing a composition within the device. Once mixed and prepared, the device can deliver the composition to a surgical site. The composition can be a putty-like material that sets over time at the surgical site, such as a hemostatic device or a device for sealing a hole or cavity in bone.

A mixer for ceramic feedstock pellets with a tank, a mixing shaft, and a heat exchanger including a cooler for the cooling of the content of this tank is provided. A controller controls the heat exchanger which includes a heater arranged to heat the content of this tank to a temperature comprised between a lower temperature (TINF) and a higher temperature (TSUP) stored in a memory for a specific mixture, and the heater exchanges energy with a heat exchange and mixing temperature maintenance circuit, external to this tank, and wherein the thermal inertia of this circuit is higher than that of this fully loaded tank. The invention also concerns a method for mixing raw material for powder metallurgy, implementing a specific injection molding composition and a specific binder.

A device for carrying out mechanical, chemical, and/or thermal processes in a housing (3), comprising mixing and cleaning elements (5) on at least two shafts (1, 2), the mixing and cleaning elements (5) on the shafts (1, 2) meshing with each other and being equipped with disk elements that include kneading bars. The number of disk elements including kneading bars is adjusted to the speed ratio between the shafts.

A pothole filling method and apparatus with a separate liquid asphalt tank, aggregate hopper, and activator container, and having and using one or more of the following features: 1. Compressed air to deliver the liquid asphalt component from the liquid asphalt tank to the mixing head; 2. A swivel between extender delivery conduits, with an internal sleeve for guiding aggregate and protecting the swivel bearings; 3. A water cleaning system being switchable between a clean out line connected directly to a mixing/delivery unit or to the liquid asphalt delivery line, which cleans the delivery line as well as the mixing/delivery unit; 4. A mixer/delivery unit clean out is provided, wherein the unit is operated at increased speed a short time after the unit stops operating; 5. Compressed air bubbler or an air driven stirrer for mixing the liquid component. 6. A generally vertically oriented funnel shaped activator holder with a generally vertically oriented motorized auger extending to a delivery tube, to deliver activator to a mixing/delivery unit.

A blending and dispensing appliance is provided which includes a blending container, a housing having a recess for supporting the blending container, an ice-shaving unit, and an agitator to agitate shaved ice and other beverage ingredients in the blending container. A conduit is disposed on an outer sidewall of the blending container and fluidly connected to the blending container. An auger is disposed in the conduit and is rotated within the conduit when a dispensing arm is depressed. The rotating auger extrudes blended contents through the conduit from the blending container to a dispensing spout. A motorized base containing both an agitator and an auger motor selectively provide rotary power to the agitator and auger, respectively. A control system is provided for controlling the operation of the ice-shaving motor, the agitator, and the agitator so that the contents placed into the beverage container are blended to a desired consistency.

Mixing kneader (1) for carrying out a continuous extraction in which, with the aid of an extractant, at least one component is released from an extraction material, the mixing kneader (1) comprising a working space (2), at least one shaft (14) extending in the working space (2), the at least one shaft (14) comprising shaft superstructures (11, 12, 29) in the form of kneading elements, wherein the shaft superstructures (11, 12, 29) of the at least one shaft (14) are configured to mesh during operation with the shaft superstructures (11, 12, 29) of at least one second shaft (14) or with stationary kneading elements (17) present in the mixing kneader (1), a first feed device (4) for feeding the extraction material into the mixing kneader (1), and a first discharge device (3) which lies substantially opposite the first feed device (4) and discharges the extraction residue, is intended to be characterized by a second feed device (6) for feeding the extractant, wherein this second feed device (6) is arranged substantially opposite the first feed device (4), further characterized by a second discharge device (5) for discharging the extract solution, wherein the second discharge device (5) is arranged substantially opposite the first discharge device (3), wherein the second discharge device (5) comprises a device for mechanical separation.

Mixer for ceramic feedstock pellets with a tank, a mixing means, and heat exchange means including cooling means for the cooling of the content of this tank.

Control means control the heat exchange means which include heating means arranged to heat the content of this tank to a temperature comprised between a lower temperature (TINF) and a higher temperature (TSUP) stored in a memory for a specific mixture, and the heating means exchange energy with a heat exchange and mixing temperature maintenance circuit, external to this tank, and wherein the thermal inertia of this circuit is higher than that of this fully loaded tank.

The invention also concerns a method for mixing raw material for powder metallurgy, implementing a specific injection moulding composition and a specific binder.

A Mortar Delivery System is described. The Mortar Delivery System provides precise control of the delivery and application of mortar in addition to the mixing and tempering of mortar. Such control eliminates the use of a hand trowel in brick, block and stone laying applications. Sensing and control are integrated with the Mortar Delivery System to make it an important element of a robotic brick laying system. The Mortar Delivery System contains sensors to measure mortar viscosity and workability, mortar flow rate, and mortar nozzle pressure. The data from the Mortar Delivery System sensors can be used to change the rotational speed of the shear blades, change the amount of water being used for mixing or tempering, and change the delivery speed of the mortar. Such changes result in precise control of mortar that is in turn suitable for automated or semi-automated building processes.