A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Ultra-high performance concrete photovoltaic tubular pile
The invention provides an ultra-high-performance concrete photovoltaic tubular pile which comprises a pile body, the pile body is made of ultra-high-performance concrete, and a plurality of convex rings are arranged on the outer wall of the pile body and distributed in the axial direction of the pile body. The ultra-high performance concrete serves as a main body material of the photovoltaic pipe pile, the ultra-high performance concrete provides very high compressive strength and tensile strength, the use requirements of hoisting, transporting and constructing of the photovoltaic pipe pile can be met, a reinforcement cage does not need to be arranged in the pile body, and raw materials are saved; the pile body is provided with the convex ring in the axial direction, hoisting, transportation and construction of the photovoltaic pipe pile are facilitated, the convex ring structure can improve the compression resistance, the pulling resistance and the horizontal force resistance of the pile body, when the pile body is subjected to vertical force and horizontal force, the force is dispersed to the pile body through the convex ring, the stress of the pile body is more uniform, the coastal mud flat soil is soft, and the service life of the photovoltaic pipe pile is prolonged. And the convex rings can also reduce the settlement and soil squeezing effect of the pile body.
本发明提供了一种超高性能混凝光伏管桩,包括桩体,所述桩体的材料为超高性能混凝土,所述桩体的外壁上设置有多个凸环,多个所述凸环沿所述桩体的轴向分布。本发明以超高性能混凝土作为光伏管桩主体材料,超高性能混凝土提供了很高的抗压强度和抗拉强度,能够满足光伏管桩起吊、运输和施工的使用要求,桩体内不要设置钢筋笼,节省了原材料使用;桩体沿轴向方向设置有凸环,方便光伏管桩的起吊、运输和施工,凸环结构能够提高桩体的抗压、抗拔和抗水平力,桩体受到竖向力和水平力时,力经凸环分散到桩体,使得桩体的受力更为平均,沿海滩涂土质偏软,凸环还能够减小桩体的沉降和挤土效应。
Ultra-high performance concrete photovoltaic tubular pile
The invention provides an ultra-high-performance concrete photovoltaic tubular pile which comprises a pile body, the pile body is made of ultra-high-performance concrete, and a plurality of convex rings are arranged on the outer wall of the pile body and distributed in the axial direction of the pile body. The ultra-high performance concrete serves as a main body material of the photovoltaic pipe pile, the ultra-high performance concrete provides very high compressive strength and tensile strength, the use requirements of hoisting, transporting and constructing of the photovoltaic pipe pile can be met, a reinforcement cage does not need to be arranged in the pile body, and raw materials are saved; the pile body is provided with the convex ring in the axial direction, hoisting, transportation and construction of the photovoltaic pipe pile are facilitated, the convex ring structure can improve the compression resistance, the pulling resistance and the horizontal force resistance of the pile body, when the pile body is subjected to vertical force and horizontal force, the force is dispersed to the pile body through the convex ring, the stress of the pile body is more uniform, the coastal mud flat soil is soft, and the service life of the photovoltaic pipe pile is prolonged. And the convex rings can also reduce the settlement and soil squeezing effect of the pile body.
本发明提供了一种超高性能混凝光伏管桩,包括桩体,所述桩体的材料为超高性能混凝土,所述桩体的外壁上设置有多个凸环,多个所述凸环沿所述桩体的轴向分布。本发明以超高性能混凝土作为光伏管桩主体材料,超高性能混凝土提供了很高的抗压强度和抗拉强度,能够满足光伏管桩起吊、运输和施工的使用要求,桩体内不要设置钢筋笼,节省了原材料使用;桩体沿轴向方向设置有凸环,方便光伏管桩的起吊、运输和施工,凸环结构能够提高桩体的抗压、抗拔和抗水平力,桩体受到竖向力和水平力时,力经凸环分散到桩体,使得桩体的受力更为平均,沿海滩涂土质偏软,凸环还能够减小桩体的沉降和挤土效应。
Ultra-high performance concrete photovoltaic tubular pile
一种超高性能混凝土光伏管桩
WANG YU (author) / ZHANG FANGFANG (author) / YU KENING (author) / ZHANG RIHONG (author) / QIU FENGLEI (author)
2022-06-03
Patent
Electronic Resource
Chinese
IPC:
E02D
FOUNDATIONS
,
Gründungen
/
C04B
Kalk
,
LIME
/
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen