The rotational speed of the drum of an ore mill may be controlled variably over time. By rotating the drum during a first time interval at high speed, especially hard or dense particles are broken up by tumbling. At the same time, the discharge characteristics of the mill are adversely affected. In a subsequent second time interval, the drum is rotated at a slower speed, and the material is discharged more effectively, whereas the tumbling movement inside the mill is not achieved. The combination of said different modes of operation within short time periods in continuous operation may improve both the comminution as a result of a tumbling motion of the material and also the discharge of the ground material. By regulating the rotational speed with different target values within short time windows, different requirements for the movement behavior of the material to be ground and for the discharge characteristics of the ground material can be simultaneously optimized. This may allow a higher throughput for the mill.

A wear indication device comprises an outer body and a sensor configured to detect and indicate wear to the outer body. The outer body exhibits an opening extending at least partially therethrough and comprises a stem region, and a head region integral with the stem region and extending outwardly beyond a lateral periphery of the stem region. The sensor is positioned within the opening and comprises an output device. An assembly, and a method of detecting wear to a component of an assembly are also described.

A monitoring device in the form of a camera in a protective housing is fixed to an outlet assembly of a feed chute and in a particular embodiment to a flange that extends outwardly about an outlet of the outlet assembly. The flange also supports a light also in a protective housing. The feed chute feeds ore into a grinding mill. The housings for the camera and light contain a viewing window which is cleaned by water jets and the window is protected by a visor which can be opened when the interior of the mill is to be recorded. The arrangement allows the interior of the mill to be monitored while the mill is grinding the ore.

The present invention relates to the field of mineral and metallurgical processes, to disintegrating in general and to disintegrating by tumbling mills, and more particularly to a method and arrangement for determining a degree of fullness of a large grinding mill drum, and to a large grinding mill drum. An arrangement for determining a degree of fullness of a grinding mill drum has a sensor arrangement attached to at least one lifting bar bolt of an at least one lifting bar of the grinding mill. The sensor arrangement includes at least one force transducer attached to the at least one lifting bar bolt. With the help of the measurement arrangement, more reliable measurement data can be provided for the determination of the degree of fullness of a grinding mill drum.

An assembly comprises a vessel comprising a shell exhibiting at least one opening extending therethrough, a structure covering an internal surface of the shell, and at least one plug device contacting the shell and the structure. The at least one plug device comprises a rigid body comprising a male connection structure longitudinally extending into the least one opening, and a base structure extending outwardly beyond a lateral periphery of the male connection structure and positioned longitudinally between the structure and the shell. A plug device for a milling application, and a method of plugging a component of an assembly are also described.

The present invention relates to the field of mineral and metallurgical processes, to disintegrating in general and to disintegrating by tumbling mills, and more particularly to a method and arrangement for determining a degree of fullness of a large grinding mill drum, and to a large grinding mill drum. An arrangement for determining a degree of fullness of a grinding mill drum has a sensor arrangement attached to at least one lifting bar bolt of an at least one lifting bar of the grinding mill. The sensor arrangement includes at least one force transducer attached to the at least one lifting bar bolt. With the help of the measurement arrangement, more reliable measurement data can be provided for the determination of the degree of fullness of a grinding mill drum.

A continuous mill, comprising: a casing (1) having a substantially cylindrical shape and rotating about an axis of rotation (X); an inlet opening (2), concentric to the axis of rotation (X); an inlet duct (20), connected to the inlet opening (2); an outlet opening (3), concentric to the axis of rotation (X); an outlet duct (30), connected to the discharge opening (3); a bend (11), arranged along the outlet duct (30), which defines a curve of the outlet duct (30); a regulator (12) associated with the bend (11) and predisposed for varying the position of the bend (11) so as to vary at least the height thereof; a first aeration duct (21), connected to the inlet duct (20), and a second aeration duct (31), connected to the outlet duct (30), wherein the first and second aeration ducts (21, 31) are open to the atmosphere.

A system and method are disclosed for observing a change of mass inside a grinding unit as a part of a grinding process with a storing unit. The change of mass is derived from a mass balance for the grinding unit and a mass balance for the storing unit.

A wear indication device comprises an outer body and a sensor configured to detect and indicate wear to the outer body. The outer body exhibits an opening extending at least partially therethrough and comprises a stem region, and a head region integral with the stem region and extending outwardly beyond a lateral periphery of the stem region. The sensor is positioned within the opening and comprises an output device. An assembly, and a method of detecting wear to a component of an assembly are also described.

Method and apparatus for industrial scale production of a suspension for a battery, wherein an input material is processed via ball milling in a rotating chamber of a device that is effected as a continuous process with a continuously controlled addition of the input material and with a continuously controlled delivery of the processed output material, where state parameters of the input material and process parameters of the manufacturing installation are acquired as first parameters during production of the suspension, results of laboratory analyses about the state or quality of the manufactured suspension are acquired as second parameters in a learning phase during production, the first and the second parameters are used in the learning phase for training a model for predicting the state or quality via machine learning, and where the device is open-loop or closed-loop controlled outside the learning phase via the first parameters and the trained model.