Magnetostrictive static level is a high-precision liquid level measuring instrument based on the principle of magnetostriction. It mainly consists of a high-precision magnetostrictive liquid level gauge, storage tank, liquid level float, exhaust valve, leveling bracket, and water pipe components. This instrument monitors building displacement by measuring the relative elevation changes between two or more points. The application of magnetostrictive static level is very extensive in building displacement monitoring. Due to its non-contact measurement method, high precision, high stability, high reliability, and long service life, magnetostrictive static level can monitor the settlement and deformation of various parts of buildings for a long time, providing important guarantees for building safety.
Specifically, magnetostrictive static level instruments can be connected to each other through liquid pipes to form a measurement system. The magnetic float of the sensor changes synchronously with the liquid level, and the changing liquid level is measured by a magnetostrictive sensor. By calculation, the settlement of each measuring point can be obtained. This measurement method not only has high accuracy, but also enables simultaneous measurement at multiple points, greatly improving monitoring efficiency.
In practical applications, magnetostrictive static level can be applied to various construction projects, such as dams, high-rise buildings, nuclear power plants, water conservancy hubs, rock masses, pipelines, roadbeds, cuttings, bridges, tunnels, subways, large storage tanks, and other structures for automatic monitoring of uneven settlement. By monitoring the settlement and deformation of buildings in real-time, potential safety hazards can be identified and addressed in a timely manner, ensuring the safe operation of the building.
In summary, the application of magnetostrictive static level in building displacement monitoring is of great significance and provides strong technical support for building safety. In practical applications, it is necessary to select suitable models and specifications of magnetostrictive static level according to the actual engineering situation and measurement accuracy requirements, and take appropriate protective measures to ensure the accuracy and reliability of measurement results.
