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A platform for research: civil engineering, architecture and urbanism
Offshore wind power foundation platform and negative pressure cylinder
The invention relates to the technical field of offshore wind power engineering, in particular to an offshore wind power foundation platform and a negative pressure cylinder. The offshore wind power foundation platform comprises a supporting pile, a cylinder body and a partition plate; two axial ends of the cylinder body are opened; the partition plate is embedded in the cylinder body in a sealed mode and arranged at the end close to the axial direction of the cylinder body, and the supporting pile is connected to the partition plate; a plurality of first reinforcing pieces are evenly arranged on the inner side wall of the cylinder body in the circumferential direction of the cylinder body, the first reinforcing pieces extend in the axial direction of the cylinder body, a plurality of second reinforcing pieces arranged in the axial direction of the cylinder body are arranged on the surface of the partition plate, and the second reinforcing pieces extend in the direction from the radial inner side to the radial outer side of the cylinder body and are fixedly connected with the cylinder body. The bending resistance of the cylinder body is enhanced, so that the buckling resistance and the structural stability of the cylinder body are improved; besides, on one hand, the structural stability of the partition plate is improved, and on the other hand, the connection reliability between the partition plate and the cylinder body is improved; and the material consumption is reduced, and the manufacturing cost is reduced.
本发明涉及海上风电工程技术领域,尤其涉及一种海洋风电基础平台及其负压筒,包括支撑桩;筒体,其轴向两端开口;隔板,其密封嵌设于筒体内且设置于靠近筒体轴向的一端,支撑桩连接于隔板上;其中,筒体内侧壁沿其周向均匀布置有若干数量的第一加强件,第一加强件沿筒体的轴向方向延伸,隔板表面布置有若干沿筒体轴向布置的第二加强件,第二加强件沿筒体的径向内侧向外侧方向延伸且与筒体固定连接。本发明增强筒体的抗弯性能,从而提高筒体抵抗屈曲的能力以及结构的稳定性;另外,一方面,提高隔板的结构稳定系,另一方面,提高隔板与筒体连接的可靠程度;降低材料的消耗,降低制造的成本。
Offshore wind power foundation platform and negative pressure cylinder
The invention relates to the technical field of offshore wind power engineering, in particular to an offshore wind power foundation platform and a negative pressure cylinder. The offshore wind power foundation platform comprises a supporting pile, a cylinder body and a partition plate; two axial ends of the cylinder body are opened; the partition plate is embedded in the cylinder body in a sealed mode and arranged at the end close to the axial direction of the cylinder body, and the supporting pile is connected to the partition plate; a plurality of first reinforcing pieces are evenly arranged on the inner side wall of the cylinder body in the circumferential direction of the cylinder body, the first reinforcing pieces extend in the axial direction of the cylinder body, a plurality of second reinforcing pieces arranged in the axial direction of the cylinder body are arranged on the surface of the partition plate, and the second reinforcing pieces extend in the direction from the radial inner side to the radial outer side of the cylinder body and are fixedly connected with the cylinder body. The bending resistance of the cylinder body is enhanced, so that the buckling resistance and the structural stability of the cylinder body are improved; besides, on one hand, the structural stability of the partition plate is improved, and on the other hand, the connection reliability between the partition plate and the cylinder body is improved; and the material consumption is reduced, and the manufacturing cost is reduced.
本发明涉及海上风电工程技术领域,尤其涉及一种海洋风电基础平台及其负压筒,包括支撑桩;筒体,其轴向两端开口;隔板,其密封嵌设于筒体内且设置于靠近筒体轴向的一端,支撑桩连接于隔板上;其中,筒体内侧壁沿其周向均匀布置有若干数量的第一加强件,第一加强件沿筒体的轴向方向延伸,隔板表面布置有若干沿筒体轴向布置的第二加强件,第二加强件沿筒体的径向内侧向外侧方向延伸且与筒体固定连接。本发明增强筒体的抗弯性能,从而提高筒体抵抗屈曲的能力以及结构的稳定性;另外,一方面,提高隔板的结构稳定系,另一方面,提高隔板与筒体连接的可靠程度;降低材料的消耗,降低制造的成本。
Offshore wind power foundation platform and negative pressure cylinder
一种海洋风电基础平台及其负压筒
ZHU RONGHUA (author) / TIAN ZHENYA (author) / ZHANG MEIYANG (author) / SUN XIANG (author) / HU BIN (author) / XU QINGFU (author)
2021-04-13
Patent
Electronic Resource
Chinese
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