What Is Volume Level Measurement?

3D degree scanners or quantity measurement technology is an Israeli innovation designated to assess the volume of different substances. It's founded on acoustical signal that penetrates debris and also steps the substance, whether solid or powder, by simply sending a signal and estimating how much time it return to the device.

One of the challenges of large scale production in various industries such as cement, food, chemicals, plastics and others is correctly assessing the inventory in order to handle properly the full production process.

There are many types of silos and additional storage containers of different shapes and sizes that differ in many standard features such as particle size, particle type, dielectric constants and more. The conditions within the storage containers and silos create the measurement process hard as they are dusty, have irregular surfaces anomalies and therefore are subject to unbalanced filling and draining.



Load Cells Existing Technologies and Their Drawbacks:

The most important three technologies until recently for measuring the degree of solid substances inside silos and other containers measure the material only at the same point of their surface thus fail to provide adequately accurate measure of the average level of the material. Another tech in this subject subtracts the weight of an empty container from a packed container. The main shortcoming of the technology is that it is costly and needs a built in load cells in the silo.

The 3D degree scanner delivers a different solution. The technology relies on reduced frequency echoes that measure the entire surface of the content and not only one random point. The scanner not only measures the degree of the content but also the quantity and mass of this material. The system uses an array of beam-former that deliver low frequency pulses from the fabric of the container. The signal is examined from the device and produces 3-dimensional picture of this substance surface exhibited on a distant screen.
11.05.2018 22:49:27
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