[1]刘兆祺,姜浩志,姚志刚.水压试验机增压器动态性能仿真研究[J].焊管,2019,42(2):47-51.[doi:10.19291/j.cnki.1001-3938.2019.2.008]
 LIU Zhaoqi,JIANG Haozhi,YAO Zhigang.Simulation Research on Dynamic Performance of Hydraulic Tester Supercharger[J].,2019,42(2):47-51.[doi:10.19291/j.cnki.1001-3938.2019.2.008]
点击复制

水压试验机增压器动态性能仿真研究()
分享到:

《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
42
期数:
2019年第2期
页码:
47-51
栏目:
工艺与设备
出版日期:
2019-02-28

文章信息/Info

Title:
Simulation Research on Dynamic Performance of Hydraulic Tester Supercharger
文章编号:
10.19291/j.cnki.1001-3938.2019.2.008
作者:
刘兆祺姜浩志姚志刚
太原重工股份有限公司 技术中心, 太原 030024
Author(s):
LIU Zhaoqi JIANG Haozhi YAO Zhigang
Technology Center, Taiyuan Heavy Industry Co., Ltd., Taiyuan 030024, China
关键词:
水压试验机增压器仿真控制策略动态压力
Keywords:
hydraulic test machine supercharger simulation control strategy dynamic pressure
分类号:
TG438
DOI:
10.19291/j.cnki.1001-3938.2019.2.008
文献标志码:
A
摘要:
为了获取水压试验机增压器动态压力响应特性,为增压器现场应用提供参考,介绍了增压器组成、工作原理,利用ITI-SimulationX仿真软件建立了增压器仿真模型并进行了参数设置,通过设置仿真模型增压器增压过程实时泄漏量,对增压器控制策略可行性进行了验证,同时通过实际生产对仿真结果进行了验证。验证结果显示,仿真试验曲线与实际测量曲线吻合较好,增压器泄漏量变化时,增压缸水腔压力基本保持恒定。研究表明,增压器动态性能仿真模型参数设置合理,控制策略可行,可有效改善系统动态性能。
Abstract:
In order to obtain the dynamic pressure response characteristics of the hydraulic tester supercharger, it provides a reference for the field application of the supercharger, and introduces the composition and working principle of the supercharger. At the same time, the turbocharger simulation model of supercharger was established by ITI-SimulationX simulation software and the parameters were set. The feasibility control of the supercharger was verified by setting the parameters of real-time leakage of the supercharged process of the supercharger in the simulation model. At the same time, the simulation experiment was verified by the actual production test. The results show that the curve of simulation test is in good agreement with the actual measurement curve. When the  leakage value of the supercharger changes, the pressure in the water chamber of the booster cylinder remains basically constant. The results of research shows that the parameters of the supercharger dynamic performance simulation model were reasonable, the control strategy was feasible, and the dynamic performance of the system could be effectively improved.

参考文献/References:

[1] 寇永乐, 李培力, 隋健, 等.往复式增压器在大口径高压水压试管机中的应用[J]. 机械工程与自动化, 2013(6): 172-173.
[2] YU Yongquan,HUANG Ying,MIAO Huaixing, et al. The hydraulic test system of steel pipe controlled by neural fuzzy PID controller[C]//2005 IEEE Conference on Control Applications. Toronto: IEEE, 2005: 266-271.
[3] 吴水康, 徐普跃, 施光林, 等. 钢管水压试验机特性仿真分析[J]. 机床与液压, 2008, 36(12): 166-206.
[4] 吴水康. 水压试验机伺服增压系统数学模型的建立[J]. 流体传动与控制, 2004, 28(3): 20-22.
[5] 胡学发, 赵珍, 王福利, 等. 基于灰度聚类的钢管水压试验机故障诊断[J]. 东北大学学报(自然科学版), 2007, 28(11): 1529-1532.
[6] 胡学发, 赵珍, 王福利, 等. 钢管水压试验机主液压系统建模与仿真[J]. 系统仿真学报, 2008, 20(18): 4994-4997.
[7] 赵珍, 贾明兴, 王福利, 等. 水压试验系统液压泵的建模与故障仿真分析[J]. 系统仿真学报, 2011, 23(4): 803-807.
[8] 曾永龙, 陈奎生. 液压驱动往复增压器射流系统压力流量稳定性分析[J]. 液压与气动, 2015 (5): 130-134.
[9] 张英婵. 大直径直缝焊管用40MN水压试验机组及其流体系统的设计开发[J]. 钢管, 2009, 38(1): 70-73.
[10] 刘艳芳. SimulationX精解与实例[M]. 北京: 机械工业出版社,2010.

相似文献/References:

[1]周秀峰.大直径钢管水压试验机加压水泵及油泵流量设计[J].焊管,2008,31(2):59.[doi:1001-3938(2008)02-0059-04]
 ZHOU Xiu-feng.Design of the Flux of Water Charging Pump and Oil Charging Pump in the Hydrostatic Tester for Big Diameter Welding Pipe[J].,2008,31(2):59.[doi:1001-3938(2008)02-0059-04]
[2]信红波,董林福,刘岩松,等.基于cosmos simulation的水压试验机结构设计与数值模拟[J].焊管,2011,34(1):34.[doi:1001-3938(2011)01-0034-04]
 XIN Hong-bo,DONG Lin-fu,LIU Yan-song,et al.Structure Design and Numerical Simulation of Hydraulic Press Tester Based on the COSMOS Simulation[J].,2011,34(2):34.[doi:1001-3938(2011)01-0034-04]
[3]王 震,王 果,吴 凡,等.55 MPa高压法兰的设计与应用[J].焊管,2011,34(10):37.[doi:1001-3938(2011)10-0037-03]
 WANG Zhen,WANG Guo,WU Fan,et al.Design and Application of High Pressure Flange at 55 MPa[J].,2011,34(2):37.[doi:1001-3938(2011)10-0037-03]
[4]赵 辉,杨 帆,王金亮.ATOS比例溢流阀在钢管水压试验机中的应用[J].焊管,2014,37(7):27.[doi:1001-3938(2014)07-0027-04]
 ZHAO Hui,YANG Fan,WANG Jinliang.Application of ATOS Proportional Relief Valve for Steel Pipe Hydrostatic Tester[J].,2014,37(2):27.[doi:1001-3938(2014)07-0027-04]
[5]丁 超,曾淑斌.水压机梭阀的设计原理和现场应用[J].焊管,2016,39(12):50.[doi:10.19291/j.cnki.1001-3938.2016.12.012]
 DING Chao,ZENG Shubin.Design Principle of Hydraulic Press Shuttle Valve and Field Application[J].,2016,39(2):50.[doi:10.19291/j.cnki.1001-3938.2016.12.012]

备注/Memo

备注/Memo:

收稿日期:2018-05-02

作者简介:刘兆祺(1984—),男,甘肃平凉人,工程师,主要从事流体传动与控制系统的设计、开发与调试工作。

更新日期/Last Update: 2019-03-20