斜缸斜盘柱塞泵参数化设计
发布时间:2018-07-23 19:45
【摘要】:斜缸斜盘柱塞泵是轴向柱塞泵的一种,与普通的轴向柱塞泵相比,在结构上泵柱塞轴线不是与缸体中心线平行,而是形成了一定的锥角。斜缸斜盘柱塞泵除了具有普通轴向柱塞泵的优点外,其这种结构有利于增大泵的几何排量以及降低配流面的pv(p为压力,v为线速度)值,同时有助于提高泵的工作时的额定转速。 文中通过对斜缸斜盘柱塞泵理论的研究,结合生产厂家实际生产中的设计、制造经验,利用Automation Gateway插件作为桥梁,基于Pro/ENGINEER进行参数化设计。设计出一套集计算、设计、分析及建模为一体的斜缸斜盘柱塞泵参数化设计系统,并且使该系统主要实现如下的功能: (1)斜缸斜盘柱塞泵的理论数据计算及查询; (2)斜缸斜盘柱塞泵的整体设计及检验; (3)主要零件的参数化设计; (4)主要零部件的有限元分析; 对斜缸斜盘柱塞泵的主要零件进行理论计算,确定其各个尺寸之间的约束关系,并将其转化为Pro/ENGINEER内部参数,进行参数化设计。利用VB制做操作界面,与Automation Gateway软件相连接,调用Pro/ENGINEER内部函数对系统进行集成。用户可以利用该系统快速的设计出新的柱塞泵,同时也可以对一些已有泵的尺寸进行查询、分析、改进等。 通过参数化设计系统的建立,将参数化设计合理的应用到整个设计过程中,便于修改和计算。可以有效的缩短设计时间,提高生产率。对于柱塞泵结构和性能的改进有重要意义。
[Abstract]:The inclined cylinder plunger pump is a kind of axial piston pump. Compared with the ordinary axial piston pump, the piston axis of the pump is not parallel to the center line of the cylinder body, but forms a certain cone angle. In addition to the advantages of the conventional axial piston pump, this kind of structure is beneficial to increase the geometric displacement of the pump and to reduce the pv (p value of the flow distribution surface, which is the pressure v as the linear velocity, and also helps to increase the rated speed of the pump. In this paper, through the research on the theory of oblique cylinder inclined disk piston pump, combined with the design and manufacturing experience of the manufacturer in actual production, the parametric design based on Pro/ENGINEER is carried out by using Automation Gateway plug-in as a bridge. A parameterized design system of inclined disk piston pump is designed, which integrates calculation, design, analysis and modeling, and the main functions of the system are as follows: (1) theoretical data calculation and query of inclined cylinder piston pump; (2) integral design and inspection of oblique cylinder inclined disk piston pump; (3) parametric design of main parts; (4) finite element analysis of main parts; In this paper, the main parts of inclined cylinder piston pump are calculated theoretically, and the constraint relations between different dimensions are determined, and the parameters are transformed into Pro/ENGINEER internal parameters for parameterized design. VB is used to make the operating interface, which is connected with the Automation Gateway software, and the system is integrated by calling the Pro/ENGINEER inner function. The new piston pump can be designed quickly by the system, and the size of some existing pumps can be queried, analyzed, improved and so on. Through the establishment of the parameterized design system, the parameterized design is reasonably applied to the whole design process, which is easy to modify and calculate. Can effectively shorten the design time, improve productivity. It is of great significance to improve the structure and performance of piston pump.
【学位授予单位】:安徽理工大学
【学位级别】:硕士
【学位授予年份】:2011
【分类号】:TH322
本文编号:2140454
[Abstract]:The inclined cylinder plunger pump is a kind of axial piston pump. Compared with the ordinary axial piston pump, the piston axis of the pump is not parallel to the center line of the cylinder body, but forms a certain cone angle. In addition to the advantages of the conventional axial piston pump, this kind of structure is beneficial to increase the geometric displacement of the pump and to reduce the pv (p value of the flow distribution surface, which is the pressure v as the linear velocity, and also helps to increase the rated speed of the pump. In this paper, through the research on the theory of oblique cylinder inclined disk piston pump, combined with the design and manufacturing experience of the manufacturer in actual production, the parametric design based on Pro/ENGINEER is carried out by using Automation Gateway plug-in as a bridge. A parameterized design system of inclined disk piston pump is designed, which integrates calculation, design, analysis and modeling, and the main functions of the system are as follows: (1) theoretical data calculation and query of inclined cylinder piston pump; (2) integral design and inspection of oblique cylinder inclined disk piston pump; (3) parametric design of main parts; (4) finite element analysis of main parts; In this paper, the main parts of inclined cylinder piston pump are calculated theoretically, and the constraint relations between different dimensions are determined, and the parameters are transformed into Pro/ENGINEER internal parameters for parameterized design. VB is used to make the operating interface, which is connected with the Automation Gateway software, and the system is integrated by calling the Pro/ENGINEER inner function. The new piston pump can be designed quickly by the system, and the size of some existing pumps can be queried, analyzed, improved and so on. Through the establishment of the parameterized design system, the parameterized design is reasonably applied to the whole design process, which is easy to modify and calculate. Can effectively shorten the design time, improve productivity. It is of great significance to improve the structure and performance of piston pump.
【学位授予单位】:安徽理工大学
【学位级别】:硕士
【学位授予年份】:2011
【分类号】:TH322
【引证文献】
相关硕士学位论文 前1条
1 刘建利;双离合器式变速器的参数化优化与研究[D];西北农林科技大学;2012年
,本文编号:2140454
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