Learn more

WERNER MOEBIUS ENGINEERING GMBH

Overview
  • Total Patents
    22
About

WERNER MOEBIUS ENGINEERING GMBH has a total of 22 patent applications. Its first patent ever was published in 2010. It filed its patents most often in Germany. Its main competitors in its focus markets civil engineering, engines, pumps and turbines and environmental technology are CRRC WIND POWER (SHANDONG) CO LTD, ESTEYCO S A P and BARD HOLDING GMBH.

Patent filings in countries

World map showing WERNER MOEBIUS ENGINEERING GMBHs patent filings in countries
# Country Total Patents
#1 Germany 22

Patent filings per year

Chart showing WERNER MOEBIUS ENGINEERING GMBHs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Moebius Werner 16
#2 Moebius Werner Dipl Ing 5
#3 Kanand Anton 2

Latest patents

Publication Filing date Title
DE102012022164A1 Structural system for diverting vertical and horizontal loads from elongated building areas to less stable ground, has soil columns, which are covered with geotextile material and form multiple linked systems by connecting elements
DE102012020052B3 Wind turbine installed in offshore, has tower which is rotatably arranged by vertical pivoting extension arms, so that height adjustment of rotors is performed, and outer ring is rotated with horizontal arms
DE102012018653A1 Method for establishing gravity foundation for offshore-wind power plant, involves lowering heavy weight body in shallow form into sea base by fluidization and lateral pushing of ground below base of heavy weight body
DE102012016692A1 Method for installation of heavyweight foundation system for off-shore wind energy plant, involves countersinking base body into seabed, and temporarily preloading foundation by ballast bodies engaged at foundation in limited manner
DE102012010347A1 Formation system for offshore-wind power plant, has heavy weight base plate which has through opening in center and vertical passage, in which pipe supports of frame are embedded, where pipe supports carry platform at lower end
DE102012102821A1 Device for aligning off-shore wind-power plant utilized for converting wind energy into electrical power to supply into electricity main, has element arranged on another element and tiltably formed by rotating elements against each other
DE102012004980A1 Method for stabilizing subsoil of road and building, for use in removal of e.g. building load in stable region, involves compressing and moving jacket tube to floor material installation site, while holding sheath at lower end of soil
DE102011120378A1 Off-shore wind-power plant for being installed at bottom of sea, has nacelle located with rotor and anchoring unit on swimming foundation, which is formed as annular body that is integrally assembled or formed from prefabricated segments
DE102011119452A1 Installation system for offshore wind turbine, has platform for tower of wind turbine, which is connected to foundation structure, and is provided with four legs fixed to upper ends of supports
DE102011111036A1 Method for introducing foundation pipe into seabed during establishment of offshore wind power plant, involves loosening soil using drilling tool with drill rod in foundation pipe through operation of vibrator
DE102011109251A1 Catamaran pontoon used for foundation construction of offshore wind turbine, has ventilating portion to provide ventilation to interior and pressure generating portion to generate negative pressure in suction element
DE102011108794A1 Wind turbine
DE102011102546A1 Foundation for off-shore wind energy plant, has body designed as annular body, and shaft designed as lattice construction, where body has passages that are opened toward sole of body and chambers for collecting sand
DE102011102551A1 Method for installing gravity foundation for offshore arrangement, particularly wind energy plant, involves transporting foundation body in floating manner to installation location
DE102011015881A1 Crane, particularly boom crane, crawler crane or ship crane, for lifting load over head part of its cantilever for buildings-, bridges- and plant construction, has load retaining device connected with load lifting device on support device
DE102011012450A1 Method for installing heavyweight foundation system for offshore-wind energy plant, involves prestressing heavyweight foundation in laterally limited manner by ballast bodies before tower and/or housing of tower is mounted
DE102011012451A1 Heavy weight foundation for off-shore wind turbine, has concrete or steel structure that is provided with base, side walls and ceiling, where shaft for tower of wind turbine is arranged on ceiling
DE102011012452A1 Wind energy plant has lifting device that is connected to housing via bearing to conversely move machine housing at lower position of tower to specified final height
DE102011011925A1 Wind energy plant installed in e.g. ship, has electrical generators that are driven by vertical shaft of wind rotor, and rotary bearing that is provided for rotatably mounting horizontal bridge around vertical axles of tower
DE102010046732A1 Method for installing heavy-weight foundation for wind turbine, involves partially or completely sinking base part into bottom of sea by fluidizing and suctioning off of bottom by suction and pressure pumps underneath sole of base part