Technology advances every day, making it easy to get lost in today’s overgrown market. This is especially true for any surveyor looking for the proper tool that will help them see what is below ground. Are you seeking a conductive or non-conductive material? Not sure where to start your search? Visit www.precision-um.ie for more advice. How does this work exactly?
The GPR system fires a pulse of energy directly in the ground and then waits for sound waves to bounce back. These pulses are reflected off an object, meaning that it can be detected from below surfaces like water or concrete floors. Reflected waves will give information about what materials these objects contain, as well as their depth on average.
Who Is It Designed For?
The RD1100 is a multipurpose machine that can be used in utilities but also has applications for forensics, agriculture, and much more.
Where Can It Be Used?
The all-terrain, durable design means it can be used on any type of terrain. The large wheels that are available for rough surfaces allow you to take it anywhere!
How Is It Transported?
The de-assembled, portable unit is 22 kg. As such it is a light piece of industrial equipment. It can be assembled with no specialist tools or equipment and folds down into a compact space for storage when not in use.
How Is Data Saved?
The system is a one-touch way to document surveys. Images are saved on CF cards so they can be transferred easily and quickly onto PCs for editing.
In a Nutshell
Conventional tracing-location methods that use traditional electromagnetic technology can be limited since there’s a need for them to induct their signals. On the other hand, an increased usage rate of polyethylene gas, fiber optic cables and water services mean that those older methods are no longer able to identify every underground utility fully. Alternatively, a GPR survey is intended to detect and then image subsurface pipes, both metallic as well as non-metallic. This is an unintrusive and non-destructive kind of survey that makes use of electromagnetic radar pulses in the radio spectrum in order to first determine and then record structures that are underneath the ground. This is a very reliable method and one of the safer ways possible for the mapping of drainage, fiber optics, water pipes, and other utility infrastructure. GPR technology can generate underground maps which then get translated into three-dimensional drawings and images when the information gets transferred to the right CAD specialist. Such drawings then get used in the planning stages of active utility projects in order to determine where underground services may or may not be placed.
Perhaps the most appealing feature of using GPR surveying for utility and construction professionals is that roads, footways, and ground surfaces don’t have to get excavated. The adoption of GPR methodology prevents any needless disturbance or digging. Consider a gas distributor who is installing pipes along a main roadway. Using the right GPR survey early on can mean identifying underground structures and utilities so that contractors only wind up digging in assigned areas where is there is actually room for their gas pipes to get laid safely and properly.