A bridge crane reliability optimization design method

An optimized design and reliability technology, applied in design optimization/simulation, calculation, special data processing applications, etc., can solve problems such as uncertain and accurate probability data, difficult to obtain, unreliable, etc., to overcome low iteration rate and improve convergence Rate and convergence accuracy, the effect of overcoming errors

Inactive Publication Date: 2019-04-09
ZHUZHOU TIANQIAO CRANE
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Problems solved by technology

Small errors in probability data can lead to large errors in structural reliability calculations
It shows that when there is not enough data information to describe the probability model, under the subjective assumption, the result of probability reliability calculation is unreliable
Moreover, in fact, in many cases, it is not easy to obtain accurate probability data of uncertain parameters (such as load)
But the magnitude or bounds of the parameter uncertainty are easy to determine

Method used

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Embodiment 1

[0060] This embodiment provides a non-probabilistic reliability optimization design method for structural system intervals, which relates to reliability optimization of metal structures of mechanical equipment, especially metal structures of cranes.

[0061] This embodiment provides a reliability optimization design method for bridge cranes, the steps of which are as follows:

[0062] S1. Define the uncertain structural parameters in the crane, and describe the uncertain parameters as interval variables;

[0063] S2. Establish the limit state function according to the structural failure form, and use the Vpasolve function inside MATLAB to solve the reliability index in the optimization model based on the interval analysis method;

[0064] S3. Introduce a non-probabilistic reliability index, and establish a non-probabilistic reliability optimization design model with a given required reliability index as a constraint:

[0065] S4. Using the improved moth flame algorithm to s...

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Abstract

The invention discloses a bridge crane reliability optimization design method which comprises the following steps: S1, defining uncertain structure parameters in a crane, and describing the uncertainparameters as interval variables; S2, establishing a limit state function according to the structural failure form, and solving a reliability index in the optimization model by adopting a Vparalove function in MATLAB based on an interval analysis method; S3, introducing a non-probabilistic reliability index, and establishing a non-probabilistic reliability optimization design model by taking a given required reliability index as a constraint condition; S4, solving an optimization problem;. According to the method, the reliability index can be effectively, quickly and accurately solved; Secondly, the common defects of low iteration rate, low optimization precision, large storage space and the like of an optimization algorithm in the actual solving process are considered; On the basis of researching a traditional moth flame algorithm, the method is effectively improved, and the convergence rate and the convergence precision of the outer layer optimizer are remarkably improved. And the method has an important value in structural reliability optimization design in engineering practice.

Description

technical field [0001] The present invention relates to the technical field of bridge cranes, more specifically, to a reliability optimization design method for bridge cranes Background technique [0002] With the rapid development of the domestic economy, scientific and technological innovation has become a key factor in promoting economic development. The development trends of large-scale, high-speed, specialized, intelligent, and lightweight lifting equipment have been recognized by the industry. Lightweight lifting equipment can not only reduce the production cost of lifting equipment products, but also reduce the function of lifting equipment. consumption, and can reduce the investment of manufacturers. Due to many factors such as the complex working environment of the crane, the variable load, and the direct or indirect contact of multiple mechanisms and components with the staff, the potential danger of the crane during use is exacerbated. The occurrence of hoisting...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/20
Inventor 黄双云吕方赵会娟刘德春黄昌胜彭芸李忠为陈铁军张华龙杨驰名陈欢韦金今胡馨丹
Owner ZHUZHOU TIANQIAO CRANE
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