Learn more

PRIKOT ALEXANDER

Overview
  • Total Patents
    16
About

PRIKOT ALEXANDER has a total of 16 patent applications. Its first patent ever was published in 2001. It filed its patents most often in Germany. Its main competitors in its focus markets engines, pumps and turbines, environmental technology and mechanical elements are CHUNG CHUN-NENG, GLOBAL ENERGY CO LTD and SEVEN STARS WORLDWIDE LTD.

Patent filings in countries

World map showing PRIKOT ALEXANDERs patent filings in countries
# Country Total Patents
#1 Germany 16

Patent filings per year

Chart showing PRIKOT ALEXANDERs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Prikot Alexander 16

Latest patents

Publication Filing date Title
DE102006054258A1 Wind power plant for utilizing wind energy, has vertical wind rotor axis and rotor blade-frame or macro grating and macro grating has stopper- and damping devices or locking damper for rotor blade
DE102006015561A1 Vertical axis wind turbine, has wind rotor including two concentric rings connected by spokes, central rotating part holding mountpiece of spokes, and upper central ring or rotating core firmly connected with support ring
DE102005047622A1 Wind turbine electrical generator sets are powered by stored compressed air obtained under storm conditions
DE102005046524A1 Wind power plants for using wind energy e.g. vertical axis wind power plants has rotor blade, each of which are connected with two locking dampers whereby rotor blade, rotates about local vertical or diagonal axis
DE102005045248A1 Wheel in particular for use under heavy load, comprises additional smaller friction bearings and master friction bearing
DE102005045037A1 Vertical axis wind mill, has two rotor blades that are connected with locking dampers, where one rotor blade with massive larger part corresponds to complementary rotor blade with smaller part
DE102005044106A1 Rolling bearing for shaft has like poles of magnets opposite each other and spherical concavity of one magnet corresponding to spherical convexity of other
DE102005043444A1 Wind power plant has at least one macro-ring and at least three rotor blade carriers fixed to macro-ring, wherein each rotor blade carrier has number of rotor blades with horizontal and/or vertical and/or inclined local axes
DE102005011501A1 Wind power plant has vertical reinforcement rib, provided in each rotor blade carrier, which is approximately as wide at the top as vertical bar of rotor blade carrier whereby bottom is much broader than the top
DE102004061369A1 Vertical axis wind turbine, has wind rotor with blade supports, which are fixed to one another by central cylinder and extensions, which are made of transparent carcass structures, and another rotor made of lighter material
DE102004042205A1 Wind power plant, has scroller connected with lower attaching ring or window edge of rotor discus by rollers or anti-friction bearing, and central fixing anti-friction bearing provided, if central circular window is necessary in discus
DE102004024752A1 Vertical axle wind power installation for converting wind power into energy comprises rotor blades each installed in a cell of a support made from a macro-grid
DE102004001573A1 Vertical axis wind turbine has an upright array of rotor blades each located within a cell forming part of a grid
DE10332678A1 Vertical axis wind-powered energy generation plant has each wind turbine rotor blade divided into small and large sections on opposite sides of local horizontal axis
DE10310227A1 Vertical axis wind turbine for power generation has blades formed of hinged foil sails behind flexible grid
DE10104427A1 Chip housing has substrate provided with termination layer having thin ceramic plate with fine conductor paths and elastic wire insulation plate wound with projecting conductor wires