Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Suspension bridge cable clamp with inner hole bending along with main cable and machining method of suspension bridge cable clamp
The invention discloses a suspension bridge cable clamp with an inner hole bent along with a main cable and a machining method of the suspension bridge cable clamp, and belongs to the technical field of suspension bridge cable clamp structures. The structure comprises a half cable clamp I and a half cable clamp II, an inner hole used for assembling and clamping a main cable is formed after the half cable clamp I and the half cable clamp II are assembled, the center line of the inner hole is of an arc-shaped bent structure in the length direction of the inner hole, the main cable is of an arc shape under the downward pulling acting force of a sling, and the arc-shaped structure of the cable clamp is matched with the arc shape of the main cable; the cable clamp solves the problems that in actual application of a traditional cable clamp structure, a cable clamp inner hole is linear and cannot make good contact with an arc-shaped main cable, and the cable clamp and the main cable deform, the cable clamp can be effectively and comprehensively attached to the outer surface of the main cable when clamping the main cable through the arc-shaped assembly inner hole, and the cable clamp is not prone to deformation. The problem of overlarge local stress or stress concentration of the cable clamp structure caused by overlarge deformation of the cable clamp and the main cable can be avoided, and the service life of the whole structure is effectively prolonged.
本发明公开了一种内孔随主缆弯曲的悬索桥索夹及其加工方法,属于悬索桥索夹结构技术领域;该结构包括半索夹Ⅰ和半索夹Ⅱ,所述半索夹Ⅰ与半索夹Ⅱ装配后具有用于装配夹紧主缆的内孔,内孔中心线沿内孔的长度方向呈弧形弯曲结构,主缆在吊索下拉作用力下呈弧形,所述索夹弧形结构与主缆的弧形相匹配;本发明解决了传统索夹结构在实际应用中索夹内孔呈直线型与弧形主缆不能较好的接触,索夹和主缆产生变形的问题,通过装配内孔为弧形,能够有效的使索夹在夹持主缆时能够全面贴合主缆的外表面,能够避免索夹及主缆的变形过大而造成索夹结构局部应力过大或者应力集中的问题,有效的提高了整个结构的使用寿命。
Suspension bridge cable clamp with inner hole bending along with main cable and machining method of suspension bridge cable clamp
The invention discloses a suspension bridge cable clamp with an inner hole bent along with a main cable and a machining method of the suspension bridge cable clamp, and belongs to the technical field of suspension bridge cable clamp structures. The structure comprises a half cable clamp I and a half cable clamp II, an inner hole used for assembling and clamping a main cable is formed after the half cable clamp I and the half cable clamp II are assembled, the center line of the inner hole is of an arc-shaped bent structure in the length direction of the inner hole, the main cable is of an arc shape under the downward pulling acting force of a sling, and the arc-shaped structure of the cable clamp is matched with the arc shape of the main cable; the cable clamp solves the problems that in actual application of a traditional cable clamp structure, a cable clamp inner hole is linear and cannot make good contact with an arc-shaped main cable, and the cable clamp and the main cable deform, the cable clamp can be effectively and comprehensively attached to the outer surface of the main cable when clamping the main cable through the arc-shaped assembly inner hole, and the cable clamp is not prone to deformation. The problem of overlarge local stress or stress concentration of the cable clamp structure caused by overlarge deformation of the cable clamp and the main cable can be avoided, and the service life of the whole structure is effectively prolonged.
本发明公开了一种内孔随主缆弯曲的悬索桥索夹及其加工方法,属于悬索桥索夹结构技术领域;该结构包括半索夹Ⅰ和半索夹Ⅱ,所述半索夹Ⅰ与半索夹Ⅱ装配后具有用于装配夹紧主缆的内孔,内孔中心线沿内孔的长度方向呈弧形弯曲结构,主缆在吊索下拉作用力下呈弧形,所述索夹弧形结构与主缆的弧形相匹配;本发明解决了传统索夹结构在实际应用中索夹内孔呈直线型与弧形主缆不能较好的接触,索夹和主缆产生变形的问题,通过装配内孔为弧形,能够有效的使索夹在夹持主缆时能够全面贴合主缆的外表面,能够避免索夹及主缆的变形过大而造成索夹结构局部应力过大或者应力集中的问题,有效的提高了整个结构的使用寿命。
Suspension bridge cable clamp with inner hole bending along with main cable and machining method of suspension bridge cable clamp
一种内孔随主缆弯曲的悬索桥索夹及其加工方法
HUANG ANMING (Autor:in) / MA JIAN (Autor:in) / LIU BIN (Autor:in) / CHEN LONG (Autor:in) / ZHANG XU (Autor:in)
17.06.2022
Patent
Elektronische Ressource
Chinesisch
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