Substitution of the kinematic mode for dynamic one at hydrodynamic leveling

Q4 Earth and Planetary Sciences Geodeziya i Kartografiya Pub Date : 2023-06-20 DOI:10.22389/0016-7126-2023-995-5-2-8
H. Petrosyan, P. Hambardzumyan, A. Tsaturyan, G.P. Nalbandyan
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Abstract

The relevance and role of automatic monitoring systems for buildings-and-structures’ foundations sediments, deformations, technological equipment, etc. at preventing emergencies and elimination of man-made disasters constantly increases. In geodetic instrumentation in this field, the most easily automated method is hydrostatic leveling, where we use the characteristics of the liquids always settling at the same level in communicating vessels, and the distance is measured from the edge of the sensor’s vessel to the surface of the aqua. In order to simplify the process of this measurement, a new method was developed, where the level in all receptacle sensors rises evenly until it contacts the fixed electrodes instead of mechanical moving the contact electrode. The authors present the theoretical and experimental results of the hydrodynamic leveling system further improvement. In particular, it is proposed that instead of uniformly raising the leveling tank and creating a liquid rush under the influence of which a stationary movement is created, this pressure in relation to its level in the sensors is installed in a stationary tank in advance, equipping its solenoid valve, which opens when measurements are started.
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水动力调平中运动模式对动力模式的替代
建筑物和构筑物基础沉积物、变形、技术设备等自动监测系统在预防紧急情况和消除人为灾害方面的相关性和作用不断增强。在该领域的大地测量仪器中,最容易自动化的方法是静水水准测量,在静水水准测量中,我们使用在通信容器中始终处于同一水平的液体的特性,并测量从传感器容器边缘到水面的距离。为了简化测量过程,开发了一种新方法,即所有插座传感器中的液位均匀上升,直到它接触固定电极,而不是机械移动接触电极。作者介绍了进一步改进的水动力水准测量系统的理论和实验结果。特别是,有人提出,不是均匀地升高调平箱并在其影响下产生液体冲击,而是将传感器中与液位相关的压力预先安装在固定箱中,配备其电磁阀,该电磁阀在测量开始时打开。
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来源期刊
Geodeziya i Kartografiya
Geodeziya i Kartografiya Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
0.60
自引率
0.00%
发文量
73
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