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Room 110, 1st Floor, Workshop 3, Oulong Technology Park, No.1 Jinma Road, Yuqing Community, Xincheng Street, Weifang High tech Zone, Shandong Province
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Shandong Boke Instrument Co., Ltd
Dam seepage pressure monitoring
NegotiableUpdate on 03/04
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Overview
Monitoring dam seepage pressure is one of the core tasks to ensure dam safety. It measures pore water pressure in real-time by installing high-precision osmometers such as vibrating string and piezoresistive gauges at different parts of the dam, such as the dam body, foundation, and cross-strait junctions. These data can intuitively reflect the seepage state of the dam, helping to determine whether there are hidden dangers such as leakage channels and piping.
Product Details
Dam seepage pressure monitoringIt is one of the core tasks to ensure the safety of dams. It measures pore water pressure in real-time by installing high-precision osmometers such as vibrating string and piezoresistive gauges at different parts of the dam, such as the dam body, foundation, and cross-strait junctions. These data can intuitively reflect the seepage state of the dam, helping to determine whether there are hidden dangers such as leakage channels and piping.
Dam seepage pressure monitoringThe seepage monitoring system mainly consists of on-site detection equipment, remote monitoring equipment, and other components.
On site testing equipment: composed of measuring weirs, triangular weirs, etc., responsible for measuring the seepage flow data of the reservoir and monitoring the flow rate on site.
Remote monitoring equipment: i.e. remote monitoring terminal, responsible for collecting data information detected by on-site detection equipment and transmitting the on-site information to the monitoring center through wireless transmission.
Introduction
The water measuring weir adopts magnetostrictive sensors for liquid level measurement, which have the characteristics of high resolution, good stability, reliable performance, fast response speed, linear measurement, no wear and tear, and long working life. The water head on the weir is measured by a measuring weir, and the flow rate is calculated based on empirical formulas for weir channels (triangular weir, trapezoidal weir, rectangular weir, etc.).
Structure and Principle
The water measuring weir is composed of a magnetic rod, a floating ball, a measuring circuit, and a stainless steel casing. When the water level in the weir tank changes, it will drive the floating ball to produce a liquid level difference. The upper computer uses the current liquid level to subtract the calibrated base value to obtain the actual water level on the weir, and then calculates the flow rate based on the type of weir tank.
Product Features
High precision and high resolution
Good stability and fast response speed
● Small temperature drift
Standard MODBUS protocol with strong applicability
Specifications and Parameters
| measurement range | 0~600mm |
| sensitivity | 0.01mm |
| measurement accuracy | ≤0.1%F.S |
| Working Voltage | DC12V( 0.5W@12V ) |
| output signal | RS485 MODBUS protocol |
| Protection level | IP67 |
| Shell material | 304 stainless steel |
| Overall dimensions | Φ89×850mm |
