Patent application number | Description | Published |
20140103756 | SELF-SUPPORTING HOUSING OF A DYNAMOELECTRIC MACHINE - A self-supporting housing of a laminated core of a stator in a dynamoelectric machine has a laminated core section surrounding the laminated core which is formed by axially stacked sheets and includes at least one pressure plate on its faces. The inside of the laminated core section is designed such that a laminated core having a basic shape of an octagonal cross-section can be accommodated in the laminated core section, wherein shorter sides and longer sides of the laminated core alternate in the peripheral direction; at least one connecting section in the axial extension of the laminated core section to dispose additional elements and/or devices on the housing. Contact zones are provided on the inside of the laminated core section to dispose and secure the laminated core in such a way that a gap is formed between the contact zones. | 04-17-2014 |
20140117797 | DYNAMOELECTRIC MACHINE COMPRISING A SELF-SUPPORTING HOUSING - A dynamo-electric machine includes a self-supporting housing that has a laminated core section and at least one connecting section in the axial extension of the laminated core section. The laminated core section accommodates and secures, and at least sectionally surrounds all sides of, a laminated core of a stator. The individual sheets of the laminated core have a basic outer shape with an especially octagonal cross-section, a stator bore surrounded by radially arranged grooves which are evenly distributed along the circumference of the stator bore, a yoke back that radially adjoins the grooves and extends equidistantly from the stator bore, and axial cavities in the sheet, in regions between the yoke, back and the basic outer shape of the sheets. | 05-01-2014 |
20140123760 | APPARATUS AND METHOD FOR MONITORING THE STATE OF A ROLLER BEARING - A method and an apparatus are disclosed for monitoring the state of a roller bearing. The apparatus includes a vibration sensor, configured to detect vibrations which occur during operation of the bearing, and to generate a first signal as a function of the detected vibrations. A diagnosis electronics system is configured to output an item of information about a state of the bearing on the basis of the first signal and at least one limit value stored in the diagnosis electronics system. A sound emission sensor is provided, configured to pick up noises, produced in the event of plastic deformation of the bearing at least in regions. A second signal is then transmitted to the diagnosis electronics system, taking into account the picked-up noises. | 05-08-2014 |