What One Should Know About A Slope Indicator

By Karen Wood

Slope indicators are pieces of equipment applied in the measurement of angles of slope, depression, or elevation on an item with regard to the pull of gravity. Slope indicator is also known by several other names including tilt meter, level gauge, level meter, slope gauge, declinometer, gradiometer, and gradient meter among many others. There are many different types of this device in use today.

The use of inclinometers involves measuring both negative and positive slopes. Positive slopes are those where observers look upwards at objects while in negative slopes, observers look downwards. Units of measurement in most inclinometers are three and they include topo, percent, and degrees. Astrolabes are certain types of tilt gauges that were used in the Renaissance years.

The Renaissance was the period in which astrolabes were used widely. They helped in navigation and identification of astronomical objects. Better technology allowed better gadgets to be produced leading to a decline in the use of astrolabes. Tilt meters in use today are very sophisticated and functional. Turn coordinators, which are incorporated in most aircrafts are sometimes called tilt gauges.

High levels of accuracy have been able to be achieved in these devices because of application of technology in their manufacture. Sensors in modern electronic level gauges allow them to reach output resolutions of 0.0001 degrees and more. Factors such as technology and angle range determine the accuracy in a device. Some devices that incorporate lower technologies only reach maximum accuracy levels of 0.01 degrees. Absolute accuracy in a sensor results from combinations of different factors. Some of the factors are hysteresis, repeatability, zero offset, sensor linearity, sensitivity, and temperature.

Accuracy in electronic level meters can vary a lot. The variance in accuracy is usually dependent on the model of device being used and the situation under which it is being used. The accuracy range usually falls within the range of 0.01 to positive or negative 2 degrees. Accuracy is usually confined to the linearity specification of the sensor under room ambient conditions.

There are many applications in which level gauges find use. Typically, they are used by engineering in the monitoring of subsurface deformations and movements. They come in handy in detecting zones of movement for the purpose of establishing consistency or acceleration in movement. During and after impoundments, the gadgets verify upstream slopes, dam abutments, and stability of dams.

Two basic components are found on modern inclinometers, the inclinometer measurement system and the inclinometer casing. Access for subsurface measurements is provided by the inclinometer casing. Casings have grooves for controlling orientation of the sensor on devices and offering a uniform surface for measurements to be taken. Casings may be embedded in fill, installed in boreholes, cast into concrete, buried in trenches, or attached to structures.

In-place measurement system and portable measurement system are the two primary kinds of inclinometers in existence today. Portable measurements systems are designed to be carried to various places of application as opposed to in-place measurement systems which are installed permanently. In-place systems allow for continuous monitoring of a place for safety purposes or construction control.

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