|本期目录/Table of Contents|

[1]魏丽君※,唐冬梅.静力水准仪测量精度的影响因素实验研究[J].工业仪表与自动化装置,2022,(06):3-8.[doi:10.19950/j.cnki.cn61-1121/th.2022.06.001]
 WEI Lijun,Tang Dongmei.Experimental study on the factors affecting the measurement accuracy of static leveling instrument[J].Industrial Instrumentation & Automation,2022,(06):3-8.[doi:10.19950/j.cnki.cn61-1121/th.2022.06.001]
点击复制

静力水准仪测量精度的影响因素实验研究

《工业仪表与自动化装置》[ISSN:1000-0682/CN:61-1121/TH]

卷:
期数:
2022年06期
页码:
3-8
栏目:
出版日期:
2022-12-15

文章信息/Info

Title:
Experimental study on the factors affecting the measurement accuracy of static leveling instrument
文章编号:
1000-0682(2022)06-0000-00
作者:
魏丽君12※唐冬梅3
1.中南大学 自动化学院,湖南 长沙 410001;
2.湖南铁道职业技术学院,湖南 株洲 412001;3.湖南机电职业技术学院,湖南 长沙 410151
Author(s):
WEI Lijun 1、2※Tang Dongmei3
1.School of automation, Central South University,Hunan Changsha 410001,China;?div>2.Hunan Railway Professional Technology College, Hunan Zhuzhou 412001,China;3. Hunan Mechanical Electrical Polytechnic College, Hunan Changsha 410151,China
关键词:
静力水准仪测量精度温度补偿振动误差影响实验研究
Keywords:
static leveling instrument measurement accuracy temperature compensation influence of vibration error experimental study.
分类号:
TN791
DOI:
10.19950/j.cnki.cn61-1121/th.2022.06.001
文献标志码:
A
摘要:
针对当前静力水准仪液管因环境振动、温度变化等因素,导致静力水准仪测量误差增大,测量稳定性差、数据无法使用等问题,以液压式静力水准仪为研究对象,分析在施工时受到环境振动和温度变化导致的测量误差,通过搭建水准仪试验平台,完成了不同频率、不同幅值的振动误差影响试验和40组静力水准仪温度实验,并通过单峰函数InvspoLy拟合,得到了改进的温度补偿公式,通过验证,改进后的静力水准仪在0 mm~1000 mm测量范围内测量精度≤±0.05%FS;沉降值误差明显降低,仿真效果与测试结果一致,验证了其有效性。
Abstract:
In view of the problems such as the increase of the measurement error of the static level, the poor measurement stability and the unavailability of data caused by the environmental vibration and temperature change of the current static level liquid pipe, taking the hydraulic static level as the research object, this paper analyzes the measurement error caused by the environmental vibration and temperature change during the construction, and completes the measurement of different frequencies The vibration error influence test of different amplitudes and 40 groups of static level temperature experiments are carried out, and the improved temperature compensation formula is obtained by fitting the unimodal function invspoly. Through verification, the measurement accuracy of the improved static level is ≤± 0.05% FS in the measurement range of 0mm ~ 1000mm; The error of settlement value is significantly reduced, and the simulation effect is consistent with the test results, which verifies its effectiveness.

参考文献/References:

[1]陈果,李波,吴琪.环境温度对压差式静力水准仪测试精度影响试验研究[J].南京工业大学学报(自然科学版),2022,44(01):92-99.

[2]陈龙浩,郭广礼,朱晓峻,等.液体静力水准仪变形监测精度分析[J].煤矿安全,2015,46(03):201-204.
[3]魏静,魏平,李德桥.基于GPRS的沉降远程监控系统开发研究[J].土木工程学报,2015,48(S2):332-336.
[4]张强,何晓业,唐郑,等.用于粒子加速器位置监测的静力水准系统与线位置探测器的比对研究[J].原子能科学技术,2017,51(08):1532-1536.
[5]徐熊,余光华,张宇,等.基于LTE Cat-1的无线静力水准仪系统设计[J].大地测量与地球动力学,2022,42(01):104-110.
[6]焦阳,林龙镔.基于光纤光栅静力水准仪开发的沉降监测系统[J].福建建材,2021(09):18-20+80.
[7]刘新宇,王勇,唐超.静力水准自动化测量技术应用于地铁隧道结构监测[J].测绘通报,2021(08):69-73.
[8]刘志鹏.一种静力水准数据处理及评定方法[J].现代制造技术与装备,2021,57(05):165-166.
[9]温贤培.基于液压静力水准仪的综合管廊沉降监测方法研究[J].自动化与仪器仪表,2021(04):182-185.
[10]尹小波, 一种具有排气、防振功能的紧凑型静力水准仪云端实时监测系统. 湖南省,中大检测,2021-03-13.
[11]王明洁,徐金顺,李健.静力水准自动化监测系统在高拱坝运行监测应用[J].云南水力发电,2020,36(05):25-29.
[12]张拥军,杨璐,王梦麒,等.一种基于压力源的压差式静力水准仪校准装置[J].计量技术,2020(06):12-15+7.
[13]何欣.基于光纤光栅静力水准传感器的管道变形监测技术[J].山西建筑,2020,46(09):139-140.
[14]陈鹏,戴玉堂,张东生,等.光纤光栅静力水准仪设计[J].自动化仪表,2018,39(05):69-73.

相似文献/References:

[1]张 曼,周 宁,田渭蓉,等.电流互感器容量与变比对测量精度的影响分析[J].工业仪表与自动化装置,2020,(05):90.[doi:1000-0682(2020)05-0000-00]
 ZHANG Man,ZHOU Ning,TIAN Weirong XU Jin,et al.Current transformer capacity and the variable ratio on the measuring accuracy analysis[J].Industrial Instrumentation & Automation,2020,(06):90.[doi:1000-0682(2020)05-0000-00]
[2]雷丽江,卢欣春,李学胜,等.高精度小量程静力水准仪的设计与应用[J].工业仪表与自动化装置,2023,(01):40.[doi:10.19950/j.cnki.cn61-1121/th.2023.01.008]
 LEI Lijiang,LU Xinchun,LI Xuesheng,et al.Design and application of small range static level with high precision[J].Industrial Instrumentation & Automation,2023,(06):40.[doi:10.19950/j.cnki.cn61-1121/th.2023.01.008]

备注/Memo

备注/Memo:
收稿日期:2022-07-21
作者简介:魏丽君(1983),男,汉族,硕士,副教授,中南大学国内访问学者,主要研究方向为智能仪器仪表、自动化控制。
更新日期/Last Update: 1900-01-01