Patent application number | Description | Published |
20090261190 | SAFETY SYSTEMS FOR ROLLER MILLS - A drive systems for a roller mill is provided. To ensure the continuous availability of the mill, more than two drives are provided, wherein the at least two drives are capable of achieving the full grinding capacity of the roller mill. | 10-22-2009 |
20090314866 | ROLLER MILL - A roller mill is provided that includes a housing, a grinding plate with a drive, and grinding rollers which roll down on the grinding plate, wherein rockers and rocker axes are provided for each grinding roller, as well as tensioning devices having hydraulic cylinders for pressing the grinding rollers onto the grinding plate. A swivel device having a swivel axis is provided for each grinding roller. The hydraulic cylinders are capable of swiveling the grinding rollers out of the housing. The grinding rollers are mounted next to the mill housing on consoles, and the hydraulic cylinders are located next to the consoles. | 12-24-2009 |
20110068203 | ROLLER GRINDING MILL - A roller grinding mill is provided that includes a grinding plate, grinding rollers, and at least two drives acting upon the grinding plate, and to a method for operating such a roller grinding mill. At least one grinding roller and substantially simultaneously at least one matching drive can be disengaged during operation. Thus only small radial forces are created that effect the radial bearing of the grinding plate. | 03-24-2011 |
Patent application number | Description | Published |
20090199703 | POSITIONER FOR DOUBLE-ACTING PNEUMATIC ACTUATOR, DOUBLE-ACTING PNEUMATIC ACTUATOR AND METHOD FOR OPERATING THE DOUBLE-ACTING PNEUMATIC ACTUATOR - In a positioner for a double-acting pneumatic actuator having first and second pneumatically loadable working chambers as well as a movable working part which is shiftable for an actuating movement at a pressure difference in the first and second working chambers, the positioner comprises first and second pneumatic control signals output to the first and second working chambers, respectively. At least one adjusting device for adjusting the first pneumatic control signal for the first working chamber is provided. The adjusting device is designed such that the adjustment of the first control signal according to a control leaves the second control signal unaffected. In a method for operating the double-acting pneumatic actuator, an average pressure value of the first and the second working chambers is determined in a fully regulated state of the actuator. For increasing or reducing respectively a stiffness of the actuator, the average pressure value of the working chambers is increased or decreased, respectively. | 08-13-2009 |
20110146799 | METHOD AND SYSTEM FOR CONTROLLING A PROCESS FLUID STREAM AND POSITIONER - In a method or system for controlling a process fluid stream within an industrial process plant, a pump is provided in series with a control valve having an associated positioner to control the fluid stream. A required fluid passage quantity for the process fluid stream is set by positioning the control valve with the positioner into a respective valve position and capturing an actual position of the valve. A physically sensible actual property value related to passage of the process fluid through the control valve is determined. The actual property value as well as the actual valve position are evaluated by an evaluation routine with respect to a predetermined optimization parameter specific to the valve with its associated positioner. If a deviation occurs from the optimization parameter, a pump drive value for the pump and control valve position drive value for the valve positioner are tuned to each other in such a way that the optimization parameter is approached. | 06-23-2011 |
20120001103 | CONTROL DEVICE - In a control device for a technical processing plant, a pneumatically driven actuator having an actuator stem is provided together with a valve operated by the actuator, the valve having a valve stem. A valve element is attached to the valve stem. A stem connector connects the two stems to each other for a forced transmission of axial actuating movements and for modifying an axial distance between adjacent ends of the valve stem and the actuator stem to adjust a total axial length of the two stems. The stem connector comprises two half-shells connected to each other, and two positioning devices are provided for a friction-locking coupling of the half-shells to the respective ends. At least one of the positioning devices is designed to modify an axial attachment position of the half-shells along one of the stems. | 01-05-2012 |