Method for locating girder of megawatt-grade wind wheel blade

A wind rotor blade, megawatt-level technology, applied in the field of megawatt-level wind rotor blade girder positioning, can solve the problems of large girder positioning deviation and easy displacement of the girder

Inactive Publication Date: 2011-09-07
LIANYUNGANG ZHONGFU LIANZHONG COMPOSITES GRP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For blades with large torsion angle changes, certain difficulties are encountered when placing and positioning the girder, mainly because the girder is easy to shift
Because after the positioning of the girder is completed, the positioning bracket needs to be removed. During the process of laying the core material and inner skin, the girder will slide down and move, which will cause a large deviation in the positioning of the girder.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment Construction

[0020] A method for positioning the girders of megawatt-level wind rotor blades:

[0021] The production of the shells of the blades takes place in SS face moulds and PS face moulds respectively:

[0022] SS surface laying:

[0023] a. Prefabricated main beam

[0024] b. Prefabricated glass fiber reinforced plastic shell plate

[0025] In the blade mold, the straight line from the root of the blade to the tip is the axial direction of the blade, the straight line from the leading edge of the blade mold to the trailing edge of the blade mold is the transverse direction of the blade, and the axial direction and transverse direction of the blade are perpendicular to each other and perpendicular to the blade axis The longitudinal and transverse directions are the longitudinal direction of the blade. The axial direction of the blade and the transverse direction of the blade form the horizontal plane of the blade. The transverse direction of the blade and the longitudinal directio...

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PUM

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Abstract

The invention discloses a method for locating a girder of a megawatt-grade wind wheel blade, comprising the following steps of: a. prefabricating a girder; b. prearranging a shell glass steel shell plate at the position 2-4m away from the tip part in a blade shell mold; c. completing rest layering structure; d. hoisting the girder, using a locating bracket and the shell glass steel shell plate tolocate the girder, and removing the locating bracket after installation is finished; and e. laying rest inner skin, wherein the rest inner skin is laid in the way of being jointed with the inner skinof the shell glass steel shell plate layer by layer, installing a vacuum system, vacuumizing, filling the blade and finally curing. The method is applicable to a blade with large torsional angle and formed by vacuum filling process. After the girder is located and installed, the locating bracket is removed, and the girder does not slide downwards when core material and the inner skin are laid, sothat the locating accuracy of the girder, as well as the strength of the blade and the product quality can be ensured.

Description

technical field [0001] The invention relates to a manufacturing technology of a wind rotor blade, in particular to a beam positioning method of a megawatt wind rotor blade. Background technique [0002] The existing wind rotor blades are generally a blade load-bearing structure formed by bonding two shells and a shear web. The manufacturing steps of the shell are generally first laying the outer skin, laying the bolt reinforcement cloth, placing the prefabricated girders, laying the core material, laying the inner skin, establishing a vacuum infusion system, injecting resin, and pre-curing. [0003] Due to the different types of blades, the torsion angles are also different. For blades with a large change in torsion angle, certain difficulties are encountered when placing and positioning the girders, mainly because the girders are easily displaced. Because the positioning bracket needs to be removed after the positioning of the beam is completed, during the process of layi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C70/34B29L31/08
Inventor 任桂芳乔光辉黄辉秀庄恒东赵磊
Owner LIANYUNGANG ZHONGFU LIANZHONG COMPOSITES GRP
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