| 1. | Optimal design of networks in hydraulic manifold blocks 液压集成块孔道网络优化设计 |
| 2. | On the solidworks - based virtual design integrated hydraulic manifold blocks 的液压集成块虚拟设计 |
| 3. | Research on an interactive software for hydraulic manifold block 面向液压集成块设计的交互式软件开发研究 |
| 4. | Hole information models and surface information models of manifold blocks of hydraulic systems and transformation methods of the models are analyzed in detail 详细分析了集成块孔道和集成块表面的信息化模型及其变换方法。 |
| 5. | Based on this method , design the system oil circuit and constant - pressure hydraulic power station as well as the hydraulic manifold block , measuring platform , electrical cabinet and reclaiming oil tank 在此油源方案的基础上,设计出测量系统油路、油源泵站系统,同时进行了液压集成块、测量台架、电气控制柜和漏油回收油箱的设计。 |
| 6. | The parameterization models of integrated blocks not only provide the convenience for the optimization design and the computer - aided drawing , but also have laid the foundation for the realization of digital manufacture and the information management of manifold blocks 所建立的信息化与参数化模型不仅为集成块的优化设计和计算机辅助绘图提供了方便,也为实现集成块的数字化制造和信息化管理奠定了基础。 |
| 7. | To solve the combinatorial optimization problem of outer layout and inner connection integrated schemes in the design of hydraulic manifold blocks ( hmb ) , an intelligent virtual design method was proposed with combining modern intelligent optimization methods with virtual design technology 摘要为解决液压集成块设计中外部布局和内部布孔集成的组合优化问题,提出了一种融合现代智能优化方法和虚拟设计技术的智能虚拟设计方法。 |
| 8. | The paper proposes conception of information models and parameterization models which are composed of characterization matrixes of 6 - surfaces of manifold block of hydraulic systems , derives checking and calculating conditions of holes opening or breaking on the basis of geometric features of manifold blocks 摘要提出了由集成块6个表面的描述矩阵组成的信息化模型和参数化模型的概念,基于集成块的几何特点导出了孔道通断检验计算条件。 |
| 9. | As the key component of ihs , hydraulic manifold block ( hmb ) is still difficult to be designed in nowadays factories . one reason for that is the complexity of this problem , which mainly consists of outer layout and inner connection problems 一方面原因在于该问题的复杂性,其设计内容包括外部布局和内部布孔的集成方案制定;另一方面原因是目前的cad技术未能有效地应用到集成块设计的核心环节中,还没有真正减轻设计者智力劳动强度和非智力劳动量。 |