So you want to buy a device to measure angles, such as in geometrical figures. You are a scientist or you work in construction and want to know about the best inclinometers for sale. Maybe you are building a wall, paving a highway, or erecting a satellite dish. Perhaps you are constructing a race track. No matter. You understand how an angle is formed between two lines, rays or planes and how space is measured in degrees, as occurs with two intersecting geometric figures. You are ready to survey the field and make an informed decision.
The device is part of the metric system and as such it operates on a universal principle that can be understood anywhere in the world. To have a variety of data would cause enormous confusion. Thus the instrument has been limited to a basic type that measures angles from 0 to 360 degrees. You need to do this to measure lengths and heights.
Some of the units tilt. You need to know what you want and why you are going to use it. Features should be apparent and usage clear. You get what you pay for as they say. Compare models and ask for help if necessary before you buy.
In general, you should be looking for resolution and accuracy, the nature of the parts, the range of measurement, and the casing and sealing. Functionality is of the essence as is sensor technology. Don't forget about interference. As a point of fact, with tilt meters, the resolution and accuracy are similar. It all depends on the job at hand which type you will find most beneficial. Great resolution (in the range of 0.0001) come at a price but may be well worth the additional expense.
Factors come into play when talking about accuracy. You must look at hysteresis, zero offset, sensitivity, sensor linearity, and temperature drifts among other things. Sounds technical and it is. These tools are not for the novice! If you measure slopes, you must have an understanding of the way that horizon forms the basis for determining angular tilt.
Measurement accuracy reflects advances in technology, particularly in regard to the sensor. This is where one tool may be distinguished from another. To find out, check the range of tilt angle and the number of axes. The newer technology deals with the gas bubble in the liquid, the pendulum, the electrolytic and capacitive factors, and the accelerometer.
Last but not least, there is the matter of the casing which is a special purpose pipe useful in installation. It has its purpose such as helping with conformation to the ground and controlling the probe's orientation. There are internal grooves for this. Casings deal with probe access and help the tool obtain subsurface measurements.
Looking deeper into the casing, at the time of purchase, have a look at its diameter and the shape of the groove. Also note the coupling style. There are a variety of models from QC, standard, EPIC, and CPI to shear wire. Of note, the most common is the QC because of its precision. As such, it is highly sought after for most uses.
The device is part of the metric system and as such it operates on a universal principle that can be understood anywhere in the world. To have a variety of data would cause enormous confusion. Thus the instrument has been limited to a basic type that measures angles from 0 to 360 degrees. You need to do this to measure lengths and heights.
Some of the units tilt. You need to know what you want and why you are going to use it. Features should be apparent and usage clear. You get what you pay for as they say. Compare models and ask for help if necessary before you buy.
In general, you should be looking for resolution and accuracy, the nature of the parts, the range of measurement, and the casing and sealing. Functionality is of the essence as is sensor technology. Don't forget about interference. As a point of fact, with tilt meters, the resolution and accuracy are similar. It all depends on the job at hand which type you will find most beneficial. Great resolution (in the range of 0.0001) come at a price but may be well worth the additional expense.
Factors come into play when talking about accuracy. You must look at hysteresis, zero offset, sensitivity, sensor linearity, and temperature drifts among other things. Sounds technical and it is. These tools are not for the novice! If you measure slopes, you must have an understanding of the way that horizon forms the basis for determining angular tilt.
Measurement accuracy reflects advances in technology, particularly in regard to the sensor. This is where one tool may be distinguished from another. To find out, check the range of tilt angle and the number of axes. The newer technology deals with the gas bubble in the liquid, the pendulum, the electrolytic and capacitive factors, and the accelerometer.
Last but not least, there is the matter of the casing which is a special purpose pipe useful in installation. It has its purpose such as helping with conformation to the ground and controlling the probe's orientation. There are internal grooves for this. Casings deal with probe access and help the tool obtain subsurface measurements.
Looking deeper into the casing, at the time of purchase, have a look at its diameter and the shape of the groove. Also note the coupling style. There are a variety of models from QC, standard, EPIC, and CPI to shear wire. Of note, the most common is the QC because of its precision. As such, it is highly sought after for most uses.
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