In view of the problems such as backward production mode,poor quality stability,high safety risk and incomplete control system during erection of the reinforcement framework of simply-supported box girders for high-sp...In view of the problems such as backward production mode,poor quality stability,high safety risk and incomplete control system during erection of the reinforcement framework of simply-supported box girders for high-speed railway(HSR),and in combination with the key points and main challenges in the reinforcement framework construction of Guangzhou-Zhanjiang HSR,the overall technical route for the intelligent manufacturing of reinforcement framework of simply-supported box girders is put forward.The component design of reinforcement framework of simply supported box girder is carried out based on BIM,and the feasibility of the scheme is verified through segment assembly test.The assembly techniques are studied in combination with the mesh design scheme to achieve rapid forming of the reinforcement framework.R&D of automatic processing equipment for components,material transshipment equipment,automatic hoisting equipment and technological equipment for assembly clamping fixture are carried out to realize the overall design of equipment production line.An intelligent control system is developed for the whole-process intelligent construction of reinforcement framework to realize the full life-cycle applications for the workshop production and visual management including intelligent layout and quality traceability.The research results systematically optimize and innovate the assembly and forming technologies of reinforcement framework in the prefabrication beam yard of high-speed railway,realize the component processing,automatic assembly and information technology management,improve the construction quality,efficiency and information technology level of intelligent manufacturing of reinforcement framework of railway prefabricated beam as a whole,and reduce the construction cost of the project.The research has realized a major breakthrough in the construction technology of railway prefabricated box girders,which has the extensive technical and market promotion values.展开更多
During assembly process,the miniature part needs to be fixed in its assembly position.In some occasions where adhesive is used,the joining force is not established due to the adhesive curing process,in that case the l...During assembly process,the miniature part needs to be fixed in its assembly position.In some occasions where adhesive is used,the joining force is not established due to the adhesive curing process,in that case the locking of parts is required.Manual locking is difficult to meet the increasing demand for mass production.To solve this problem and realize fully automatic assembly,a novel gripper module was designed and corresponding locking method was proposed.Thanks to the functional integration,the gripper module is capable of manipulating and locking the part.This module is integrated into the assembly system and plays a crucial role in automatic assembly.The locking method for automatic assembly is based on the integration of the part picking up and the locking unit releasing.After being placed accurately at its desired position,the miniature part can be automatically locked by releasing the locking unit.The innovative structure and mechanism of the gripper module convert the spring force into the locking force of the miniature part,ensuring non-rigid locking and suitable small locking force.Locking principle,flexibility and limitations of the proposed method were clarified in detail.Moreover,an effective compensation strategy was used to achieve accurate and stable pickup of the part,which increased the reliability of the assembly process.During automatic locking,the disturbances to the part due to the eccentric load were analyzed.The effectiveness of the gripper module and proposed method was verified by experiment.Experimental results indicated that the modular system integrated with the gripper module could meet the requirements of fully automatic assembly.Manual locking is replaced by automatic locking,and workers are liberated from tedious manual operations.The improvement of automation level enables assembly equipment to be applied to mass production scenarios.展开更多
The multibody system transfer matrix method(MSTMM),a novel dynamics approach developed during the past three decades,has several advantages compared to conventional dynamics methods.Some of these advantages include av...The multibody system transfer matrix method(MSTMM),a novel dynamics approach developed during the past three decades,has several advantages compared to conventional dynamics methods.Some of these advantages include avoiding global dynamics equations with a system inertia matrix,utilizing low‐order matrices independent of system degree of freedom,high computational speed,and simplicity of computer implementation.MSTMM has been widely used in computer modeling,simulations,and performance evaluation of approximately 150 different complex mechanical systems.In this paper,the following aspects regarding MSTMM are reviewed:basic theory,algorithms,simulation and design software,and applications.Future research directions and generalization to more applications in various fields of science,technology,and engineering are discussed.展开更多
文摘In view of the problems such as backward production mode,poor quality stability,high safety risk and incomplete control system during erection of the reinforcement framework of simply-supported box girders for high-speed railway(HSR),and in combination with the key points and main challenges in the reinforcement framework construction of Guangzhou-Zhanjiang HSR,the overall technical route for the intelligent manufacturing of reinforcement framework of simply-supported box girders is put forward.The component design of reinforcement framework of simply supported box girder is carried out based on BIM,and the feasibility of the scheme is verified through segment assembly test.The assembly techniques are studied in combination with the mesh design scheme to achieve rapid forming of the reinforcement framework.R&D of automatic processing equipment for components,material transshipment equipment,automatic hoisting equipment and technological equipment for assembly clamping fixture are carried out to realize the overall design of equipment production line.An intelligent control system is developed for the whole-process intelligent construction of reinforcement framework to realize the full life-cycle applications for the workshop production and visual management including intelligent layout and quality traceability.The research results systematically optimize and innovate the assembly and forming technologies of reinforcement framework in the prefabrication beam yard of high-speed railway,realize the component processing,automatic assembly and information technology management,improve the construction quality,efficiency and information technology level of intelligent manufacturing of reinforcement framework of railway prefabricated beam as a whole,and reduce the construction cost of the project.The research has realized a major breakthrough in the construction technology of railway prefabricated box girders,which has the extensive technical and market promotion values.
基金supported by LiaoNing Revitalization Talent Program(Grant No.2002020)the Major Project of Basic Scientific Research of Chinese Ministry(Grant No.JCYK2016205A003).
文摘During assembly process,the miniature part needs to be fixed in its assembly position.In some occasions where adhesive is used,the joining force is not established due to the adhesive curing process,in that case the locking of parts is required.Manual locking is difficult to meet the increasing demand for mass production.To solve this problem and realize fully automatic assembly,a novel gripper module was designed and corresponding locking method was proposed.Thanks to the functional integration,the gripper module is capable of manipulating and locking the part.This module is integrated into the assembly system and plays a crucial role in automatic assembly.The locking method for automatic assembly is based on the integration of the part picking up and the locking unit releasing.After being placed accurately at its desired position,the miniature part can be automatically locked by releasing the locking unit.The innovative structure and mechanism of the gripper module convert the spring force into the locking force of the miniature part,ensuring non-rigid locking and suitable small locking force.Locking principle,flexibility and limitations of the proposed method were clarified in detail.Moreover,an effective compensation strategy was used to achieve accurate and stable pickup of the part,which increased the reliability of the assembly process.During automatic locking,the disturbances to the part due to the eccentric load were analyzed.The effectiveness of the gripper module and proposed method was verified by experiment.Experimental results indicated that the modular system integrated with the gripper module could meet the requirements of fully automatic assembly.Manual locking is replaced by automatic locking,and workers are liberated from tedious manual operations.The improvement of automation level enables assembly equipment to be applied to mass production scenarios.
基金National Program on Key Basic Research Project of China,Grant/Award Number:613308Science Challenge Project,Grant/Award Number:TZ2016006‐0104+3 种基金Natural Science Foundation of China Government,Grant/Award Number:11472135supported by the National Program on Key Basic Research Project of China(973 Program,No.613308)the Science Challenge Project(No.TZ2016006‐0104)the Natural Science Foundation of China Government(No.11472135).
文摘The multibody system transfer matrix method(MSTMM),a novel dynamics approach developed during the past three decades,has several advantages compared to conventional dynamics methods.Some of these advantages include avoiding global dynamics equations with a system inertia matrix,utilizing low‐order matrices independent of system degree of freedom,high computational speed,and simplicity of computer implementation.MSTMM has been widely used in computer modeling,simulations,and performance evaluation of approximately 150 different complex mechanical systems.In this paper,the following aspects regarding MSTMM are reviewed:basic theory,algorithms,simulation and design software,and applications.Future research directions and generalization to more applications in various fields of science,technology,and engineering are discussed.