Load Cell & Torque Sensors
The whole point of having a load cell & torque sensor is to be able to weigh your loads sufficiently and accurately, so when they are not giving us the accuracy that we expect, it leaves us wondering just what could be affecting the accuracy of our equipment. Well, there are a number of reasons as to why your torque sensor cell & torque sensors are not providing the high level of accuracy that you would expect, with each of them being listed below.
The Accuracy of the Load Cell & Torque Sensors
The very first thing you should be doing when you are chasing accurate weighing accuracy is to select a top quality load cell & torque sensors manufacturer. While all manufacturers will proclaim that their products offer high levels of accuracy, only the top brands will usually be able to deliver the best accuracy.
A good load cell and its torque sensors will generally have good response times (how quickly they give an accurate reading), will not react to much to temperature changes in the environment, will not suffer with creep (a change in the reading after 2-3 minutes of being stationary), and will have very low ‘nonrepeatability’ (differences in the readings for the same load after repeated loadings).
Factors with the Load
The accuracy of a load cell & indicator reading can be affected by how the load is placed on the weighing system. To ensure an accurate reading, the load has to be applied to each cell properly and as specified by the manufacturer.
If a load has been applied poorly, such as the load being twisted, the cell and weighing system will only throw up inaccurate results. To ensure complete accuracy when weighing, the load has to be placed in such a way that are supporting all of the weight proportionally.
Another reason as to why accuracy might be affected on a load cell & torque sensor is the many outside forces that could be slightly altering the weight force. Wind, shock loading, vibration, and changes in temperature can all have an effect on the true accuracy of a reading.
A cross-wind can have an effect that the load feels lighter than it actually is while shock is the process of putting on more load weight than what the weight capacity of the cells are. Vibrations from other nearby machines can also cause fluctuations in a weight whilst temperature changes in the environment can cause materials in the load to either expand or contract.
The final way in which the accuracy of the weight of a load could be affected is through interference with the signal transmission. The load cell electrical signal can be suffer with interference from radio frequencies, electromechanical interference, and even moisture in the air can cause interference to the electrical signal.