A butt connection of divided hollow profile members, which is suitable in particular for rotor blades of wind power installations, comprises a multiplicity of straps which are arranged along the joint and which bridge over same and which are respectively fixed with their ends to one of the profile m
A butt connection of divided hollow profile members, which is suitable in particular for rotor blades of wind power installations, comprises a multiplicity of straps which are arranged along the joint and which bridge over same and which are respectively fixed with their ends to one of the profile members to be connected. In this respect the arrangement is preferably such that one of the two bolts fixing the strap at the ends thereof has a wedge-shaped flattening, by means of which a tensile prestressing can be imparted to the strap.
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The invention claimed is: 1. A blade for a wind turbine, the blade having a hollow profile and having a root portion adjacent to an axis of rotation of the wind turbine and a tip portion spaced away from the axis of rotation, the blade extending from the axis of rotation to the tip portion, the bla
The invention claimed is: 1. A blade for a wind turbine, the blade having a hollow profile and having a root portion adjacent to an axis of rotation of the wind turbine and a tip portion spaced away from the axis of rotation, the blade extending from the axis of rotation to the tip portion, the blade comprising: a first rotor blade part having a first end positioned between the tip portion of the blade and the axis of rotation of the wind turbine and a second end spaced longitudinally along the rotor blade away from the first end, positioned closer to the tip portion of the blade than the first end; a second rotor blade part having a first end abutting with the second end of the first rotor blade part; a plurality of first fixtures coupled to the second end of the first rotor blade part; a plurality of second fixtures coupled to the first end of the second rotor blade part; a plurality of connecting members that respectively extend from a respective first fixture on the first rotor blade part to a respective second fixture on the second rotor blade part, the connecting members having a tensile stress placed thereon to apply compression between the first rotor blade part and the second rotor blade part to form a rotor blade portion composed of the first and second rotor blade parts having a butt joint at which they are held together by the connecting members. 2. The rotor blade according to claim 1 wherein some of the first and second fixtures are on an outside surface of the first and second parts, respectively and some of the first and second fixtures are on an inside surface of the first and second parts, respectively, to provide the connecting members on the outside and on the inside of the blade. 3. The rotor blade according to claim 1 wherein the spacing between adjacent first fixtures is smaller at a curved region near a leading edge of the rotor blade than it is at flat regions near a trailing edge of the rotor blade. 4. The rotor blade according to claim 1 wherein at least one of the first and second fixtures has a flat wedge shaped portion that tapers towards an axis of the fixture such that an end portion of the fixture has a smaller cross section than a center portion of the fixture. 5. The rotor blade according to claim 4 wherein the tensile stress is applied to a connecting member by applying a pressure to the connecting member that forces the connecting member to an area of greater cross section on a fixture. 6. The rotor blade according to claim 1 wherein at least one of the first and second fixtures is rotatable and comprises a pressure portion which is eccentric with respect to an axis of the fixture. 7. The rotor blade according to claim 6 wherein the tensile stress is applied by rotating a fixture so that the pressure portion on the fixture is positioned to increase pressure on the connecting member. 8. A rotor blade for a wind power installation comprising: a first and a second section of the rotor blade connected to each other along a connection edge, each section having a hollow profile; a plurality of first fixtures attached to the first section of the rotor blade near the connection edge, each first fixture having a portion inside a hollow area of the rotor blade and a portion outside of the rotor blade; a plurality of second fixtures attached to the second section of the rotor blade near the connection edge, each second fixture having a portion inside a hollow area of the rotor blade and a portion outside of the rotor blade; and a plurality of connecting members extending across the connection edge to connect respective first fixtures to respective second fixtures, each first fixture being connected to a respective second fixture both by a connection member in the hollow area and by a connection member on the outside of the rotor blade. 9. The rotor blade according to claim 8 wherein at least one of the first and second fixtures has a flat wedge shaped portion that tapers towards an axis of the fixture such that an end portion of the fixture has a smaller cross section than a center portion of the fixture. 10. The rotor blade according to claim 9 wherein a tensile stress is applied to a connecting member by applying a pressure to the connecting member that forces the connecting member to an area of greater cross section on a fixture. 11. The rotor blade according to claim 8 wherein at least one of the first and second fixtures is rotatable and comprises a pressure portion which is eccentric with respect to an axis of the fixture. 12. The rotor blade according to claim 11 wherein a tensile stress is applied to a connecting member by rotating a fixture so that the pressure portion on the fixture is positioned to increase pressure on the connecting member. 13. A butt joint for connecting a first and a second section of a rotor blade of a wind power installation, the first and second section being connected along a connection edge and having a hollow profile, the butt joint comprising: a plurality of first fixtures attached to the first section of the rotor blade and arranged adjacent the connection edge, each first fixture having a portion within the hollow profile and a portion outside of the rotor blade; a plurality of second fixtures attached to the second section of the rotor blade and arranged adjacent the connection edge, each second fixture having a portion within the hollow profile and a portion outside of the rotor blade; a plurality of connecting members each connecting a first fixture to a second fixture and extending across the connection edge, each first fixture being connected to a respective second fixture both by a connection member in the hollow area and by a connection member on the outside of the rotor blade. 14. The butt joint according to claim 13 wherein at least one of the first and second fixtures has a flat wedge shaped portion that tapers towards an axis of the fixture such that an end portion of the fixture has a smaller cross section than a center portion of the fixture. 15. The butt joint according to claim 14 wherein a tensile stress is applied to a connecting member by applying a pressure to the connecting member that forces the connecting member to an area of greater cross section on a fixture. 16. The butt joint according to claim 13 wherein at least one of the first and second fixtures is rotatable and comprises a pressure portion which is eccentric with respect to an axis of the fixture. 17. The butt joint according to claim 16 wherein a tensile stress is applied to a connecting member by rotating a fixture so that the pressure portion on the fixture is positioned to increase pressure on the connecting member. 18. A method for connecting a first and a second section of a rotor blade for a wind power installation to each other, each section having a hollow region, the method comprising: attaching a plurality of first fixtures near a connecting edge of the first section of the rotor blade, the first fixtures having a portion outside of the rotor blade and a portion in a hollow region of the rotor blade; attaching a plurality of second fixtures near a connecting edge of the second section of the rotor blade, the second fixtures having a portion outside of the rotor blade and a portion in a hollow region of the rotor blade; positioning the connecting edge of the first section adjacent to the connecting edge of the second section; connecting respective first fixtures to respective second fixtures with connecting members that extend across the connecting edges between the first and second fixtures; and placing a tensile stress on the connecting members to apply a compression of the first and second members together. 19. A method for connecting a first and a second section of a rotor blade for a wind power installation to each other, each section having a hollow profile, the method comprising: attaching a plurality of first fixtures near a connecting edge of the first section; attaching a plurality of second fixtures near a connecting edge of the second section; positioning the connecting edge of the first section adjacent to the connecting edge of the second section; connecting respective first fixtures to respective second fixtures with connecting members that extend across the connecting edges between the first and second fixtures; and placing a tensile stress on the connecting members to apply a compression of the first and second members together, at least one of the first and second fixtures having a flat wedge shaped portion that tapers towards an axis of the fixture such that an end portion of the fixture has a smaller cross section than a center portion of the fixture. 20. The method according to claim 19 wherein the step of placing tensile stress on the connecting members comprises: applying a pressure to the connecting members that forces the connecting members to an area of greater cross section on a fixture. 21. A method for connecting a first and a second section of a rotor blade for a wind power installation to each other, each section having a hollow profile, the method comprising: attaching a plurality of first fixtures near a connecting edge of the first section; attaching a plurality of second fixtures near a connecting edge of the second section; positioning the connecting edge of the first section adjacent to the connecting edge of the second section; connecting respective first fixtures to respective second fixtures with connecting members that extend across the connecting edges between the first and second fixtures; and placing a tensile stress on the connecting members to apply a compression of the first and second members together, at least one of the first and second fixtures being rotatable and comprising a pressure portion which is eccentric with respect to an axis of the fixture. 22. The method according to claim 21 wherein the step of placing tensile stress on the connecting members comprises: rotating a fixture so that the pressure portion on the fixture is positioned to increase pressure on the connecting member. 23. The method according to claim 18 wherein each fixture has an end thereof in the hollow portion of the rotor blade, the respective first and second fixtures being connected to each other both by a connecting member in the hollow portion of the rotor blade and by a connecting member on an outside portion of the rotor blade.
Loock Ralf,DEX ; Kaufl Theo,DEX ; Schramm Herbert,DEX, Core shroud, in particular for cladding a reactor core in a boiling-water nuclear reactor and a method for repairing a c.
Offer Henry P. (Los Gatos CA) Grycko Lawrence M. (Lockport IL) Erbes John G. (Mt. View CA) Charnley James E. (Nevada City CA) Jensen Grant C. (Morgan Hill CA), Reactor core shroud repair with welded brackets.
Doellinger Rolf (Fischbachau DEX) Schindler Rudolf (Ottobrunn DEX) Franz Dieter (Jettenbach DEX), Rotor blade comprising a plurality of individual sections.
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