How do you use a total station?

How do you use a total station?

Enter the coordinates of your first target building corner. Using the ranging pole, find the correct point for the corner and mark it with a profile peg. If the total station is set up at a proposed corner for the building, you can use the distance measuring and ranging pole to find intermediate points along the wall.

What is the function of the total robot station?

As a single-operator robotic system, robotic total stations reduce the cost of having an additional person on site, improving efficiencies and related costs by freeing up team members who would have otherwise been on site, allowing them to perform other tasks elsewhere.

How accurate is a robotic total station?

Each total station has an electro n i c distance meter (EDM). Through either laser technology or infrared sensors, it can precisely measure the distance fro m the instrument to the target within mil- limeter accuracy. Precision tolerances of 1/1 0 0 foot (less than 1/1 6 inch) in 1000 feet are typical.

How do I set up survey control points?

To Create a Survey Control Point

  1. In Toolspace, on the Survey tab, right-click the Control Points collection.
  2. Enter the point number.
  3. Optionally, enter the point name.
  4. Enter the easting (X-coordinate) of the new control point.
  5. Enter the northing (Y-coordinate) of the new control point.

What is the instrument setup procedure for total station?

Procedure for setting up a tripod & leveling Total Station

  1. Setup tripod. Open up the tripod and extend the legs.
  2. Level the tripod. By changing the length of two legs you used to position the tripod, level the top surface of the tripod using the bulls-eye level.
  3. Attach instrument to tribrac.
  4. Check alignment over point.

How do I survey a total station?

How do I use a total station?

  1. Set the instrument to a known point.
  2. Enter the coordinates of the point.
  3. Turn the total station until the horizontal circle reads zero.
  4. Position the reflector to where it lines up with point P.
  5. Measure the distance (which will be calculated and displayed automatically).

How does a Leica total station work?

A total station consists of a theodolite with a built-in distance meter (distancer), and so it can measure angles and distances at the same time. Leica total stations are supplied with a software package that enables most survey tasks to be carried out easily, quickly and elegantly.

Which total station is best?

Check Out the best Total Stations

  • Leica iCON CC80 Tablet Computer.
  • Leica iCON iCT30 Construction Layout Tool.
  • ICON iCR80 Robotic Construction Total Station.
  • Leica Geosystems iCON iCB70 Manual Construction Total Station.
  • ICON iCR70 Construction Robotic Total Station.
  • Leica iCON iCB50 Manual Construction Total Station.

Which is the best total station?

How much is a robotic total station?

Browse Robotic Total Stations

Min Max
Daily Rental Rate $125 $400
Weekly Rental Rate $500 $1100
Monthly Rental Rate $1575 $3500
Purchase Price $19,995 $65,000

How does a robotic total station work?

Robotic total stations allow the operator to control the instrument from a distance via remote control. This eliminates the need for an assistant staff member as the operator holds the retroreflector and controls the total station from the observed point.

What is total station used for?

A total station (TS) or total station theodolite (TST) is an electronic/optical instrument used for surveying and building construction.

What is an electronic total station?

A total station is an electronic theodolite combined with an electronic distance meter that has an additional internal data storage or external data collector. It works by measuring angles, distance, coordinates and heights.

What is a robotic system?

robotic system. An integrated system of devices that automate production and manufacturing of goods and services Surgery An AI-based surgical assistant system, which processes sensory input from haptic interfaces and/or allows surgeons to act with more accuracy than the unassisted human hand.