How to build a swages rock drilling carriage

The swages drill carriage is the backbone of the robotic drilling process.

The idea is to make sure that the drilling is done correctly.

The robotic arm will then make the proper adjustment to the drilling groove.

If the drillers drilling is too deep, the swages arm will tilt too much and then the drill will slip.

The swag will also tilt back and forth as the drill passes through the groove.

Once the drill is made, the arm will rotate to position the drill to the desired depth, then rotate the drill and drill through the drilling cavity to adjust the drilling depth and angle.

Swag will then rotate its head back and forward and make the adjustment as needed.

The whole process takes less than a minute, making the robot more cost-effective than conventional drilling machines.

Swag also has an onboard computer that monitors the drilling progress, allowing the robot to perform multiple drilling operations in the same day.

A camera and sensors help the swag track its drill while it’s in motion.

The robot can also be programmed to drill in specific shapes or locations.

This way, swag can drill in a precise location with a precision that no other robotic drilling system can match.

The swag robot was first demonstrated in 2015, but was never able to reach a successful drilling surface.

That’s partly because the swags robotic arm was too heavy for the drill shafts that it would have to support, and partly because swag was not designed to be able to withstand the stress of being on a metal platform that is not designed for robotic drilling.

In 2016, a company called B-Roc Robotics announced that it had developed a robotic drilling robot called the SWAG-A, which was designed to drill a 10-inch diameter hole and a 6-inch wide groove in an area of 10 square meters (3,600 square feet).

This means that the SWEG-A can drill a hole larger than a large refrigerator and still get it done.

But now, the company has created a new version of the swaggart that can drill more holes in a wider range of sizes, but it has some key differences.

The SWAG was designed for drilling in specific shape and location, but is now designed to do the job in a wide range of shapes.

B-Roch Robotics is the first to offer the SWG-A in two versions.

The first, called the STRAKE-A is designed to fill a 10.5-square-meter (26.4 square feet) area with a 4.5 centimeters diameter hole.

The second, called STRAX-A , is designed for a 5-square meter (18.2 square feet)-wide hole.

If you were to drill out a 5.5×6.5 square-meter-wide hole and it was drilled out in a 5x6x6 square-foot hole, it would take an average of 2.4 hours to drill it out.

The STRAK-A will drill out 5.1×6-square meters (21.8 square feet), while the STX-C will drill 3.3x6square meters.

The new version is expected to have a cost of around $100,000, which is not cheap.

But B-RoRob Robotics claims the SWGG-A could be used to drill holes up to 10.7×6 meters (32.6 square feet); this is a much bigger hole than the one the SWIG-A was able to drill.