Dynamic optimization design method of quay crane

A quay crane and design method technology, which is applied in the research field of dynamic theory and method, can solve the problems of accelerated hoisting and running, unsatisfactory improvement of actual efficiency, and increased amplitude, etc., achieves good contrast and improves quay cranes. Dynamic characteristics, fast descent effect

Inactive Publication Date: 2014-07-02
SHANGHAI MARITIME UNIVERSITY
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  • Claims
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Problems solved by technology

The forward reach and lifting height are increased, and the speed of lifting and running is accelerated, which leads to the exposure of the dynamic performance of the whole machine. The amplitude of the machine operation is increased, which brings more difficulties to the box, and the actual efficiency is not ideal.

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  • Dynamic optimization design method of quay crane
  • Dynamic optimization design method of quay crane
  • Dynamic optimization design method of quay crane

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Embodiment Construction

[0034] Specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0035] Such as figure 1 As shown, the present invention discloses a dynamic optimization design method for a quay crane, the method includes the following steps:

[0036] Step 1. Determine the structural size of the quay crane. In the early stage of the design of a quay bridge, the user puts forward the requirements of gauge, outreach, lifting weight, lifting height, back extension, base distance, clearance height under the connecting beam, clear width inside the door frame, and total width of the quay bridge. Based on this, the main structure parameters can be determined. In the early stage of the specific design of the structural size parameters of the quay crane, the cross-sectional size of many components cannot be determined, but according to the gauge, overhang, lifting weight, lifting height, back reach, base distance, clearance height ...

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Abstract

The invention discloses a dynamic optimization design method of a quay crane. The method includes the steps that a simple model of the quay crane is established, and the stress, the rigidity and the dynamic characteristics of the structure of the quay crane are preliminarily analyzed and adjusted; the simple model of the quay crane is dynamically loaded, and the design variables influencing the dynamic characteristics of the quay crane are optimized and modified through a genetic method or an inexact search method based on a gradient method so that the waggle of the structure of the quay crane in the running direction of a trolley can be reduced. According to the dynamic optimization design method of the quay crane, the inexact search method based on the gradient method and the genetic method are comprehensively applied, and the advantages of the two methods are played; the descent speed of the inexact search method based on the gradient method is high, and thus the inexact search method based on the gradient method is often used for a relative small amount of optimization and analysis of the design variables; the genetic method does not have specific requirements for the optimization model and is not prone to being caught in a local optimal solution, and thus the genetic method is often used for optimization and analysis of large structures; the convectional dynamic optimization requirements of the quay crane can be taken into consideration through combination of the inexact search method based on the gradient method and the genetic method.

Description

technical field [0001] The invention relates to the technical field of dynamic theory and method research, in particular to a dynamic optimization design method for a quay crane. Background technique [0002] With the expansion of the logistics scale and the large-scale container transport ships (which have reached 18,000 containers), for international terminals, the residence time of international liners is limited, and the challenge brought by the large-scale ship type is that the loading and unloading efficiency needs to be increased by 5 to 6 times . Although our manufacturer has made great efforts, such as changes in the operation methods such as double spreaders, double trolleys, and triple spreaders, the machinery itself has not changed much, and the further improvement of loading and unloading efficiency has encountered a bottleneck. The reason is that the loading and unloading quay cranes are arranged one-dimensionally on the wharf, and the shoreline is of limited ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50G06N3/12
Inventor 董达善滕媛媛刘龙梅潇杨宇华乔榛刘海洋甘茂椿
Owner SHANGHAI MARITIME UNIVERSITY
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