Automated bolt tensioning robot

The invention claimed is: 1. An automated bolt tensioner, comprising: a first unit configured to be releasably secured to a first subset of existing bolt connections of a further assembly, wherein the first unit includes a hollow, internally threaded attachment that threadably attaches the first unit to external threads of a stud protrusion of the existing bolt connections; a second unit configured to tighten a second subset of the existing bolt connections of the further assembly; and a slide arm connecting the second unit to the first unit, wherein the first unit and the second unit are each movable so that the automated bolt tensioner can automatically advance to adjacent existing bolt connections adjacent to the first subset and/or to the second subset of existing bolt connections. 2. The automated bolt tensioner of claim 1 , wherein the attachment includes an extension that couples to a stud protrusion adjacent the first existing bolt connection. 3. The automated bolt tensioner of claim 1 , wherein the second unit includes a tensioner for tensioning the existing bolt connections, a tensioner threader for threading the tensioner onto a stud protrusion of the existing bolt connections, and a torque application device for applying torque to a nut of the existing bolt connections after a bolt has been tensioned by the tensioner. 4. The automated bolt tensioner according to claim 1 , wherein the first unit includes a Z axis slide permitting a vertical movement of the second unit and the first unit. 5. The automated bolt tensioner according to claim 1 , further comprising one or more sensors configured to detect obstacles along a travel path of the automated bolt tensioner as the automated bolt tensioner automatically advances to adjacent existing bolt connections. 6. The automated bolt tensioner according to claim 5 , wherein the one or more or sensors include an infrared sensor and/or a camera positioned on the second unit. 7. The automated bolt tensioner according to claim 1 , further comprising a control unit configured to control a movement of the first unit and the second unit, wherein the control unit is contained within a housing attached to the first unit, wherein the control unit includes at least one RFID antenna for emitting an electromagnetic field to energize a RFID tag associated with each of the existing bolt connections, further wherein data received from the energized RFID tag is used to analyze whether the existing bolt connection have loosened over time. 8. The automated bolt tensioner according to claim 1 , wherein the existing bolt connections are located on an operational wind turbine. 9. The automated bolt tensioner according to claim 1 , wherein the slide arm is curved, wherein the slide arm has a curvature that corresponds to a curvature of the existing bolt connections on a wind turbine component of the wind turbine. 10. A method of automatically tightening existing bolt connections on a wind turbine tower with the automatic bolt tensioner according to claim 1 . 11. The automatic bolt tensioner according to claim 1 , wherein the automatic bolt tensioner is an autonomous bolt tensioner. 12. An automatic bolt tensioner, comprising: a first leg including a hollow, internally threaded attachment for threading the first leg onto external threads of a first existing bolt connection of a further assembly; a second leg including a bolt tensioning assembly for tightening a second existing bolt connection of the further assembly; and a slide arm connecting the first leg and the second leg, wherein actuation of the slide arm permits movement of the second leg with respect to the first leg to automatically advance the second leg to a third existing bolt connection for tightening the third existing bolt connection, while the first leg remains threadably attached to the first existing bolt connection. 13. The automatic bolt tensioner of claim 12 , wherein actuation of the slide arm permits movement of the first leg with respect to the second leg to automatically advance the first leg to another existing bolt connection in a direction towards the second leg, while the second leg remains in contact with the third bolt connection. 14. The automatic bolt tensioner of claim 12 , further comprising a Z axis actuator that permits a vertical movement of the second leg from a position above the second bolt connection to a position of contact with the second bolt connection. 15. The automatic bolt tensioner of claim 14 , wherein actuation of the Z axis actuator permits a vertical movement of the first leg from a position above the first bolt connection to a position of contact with the first bolt connection. 16. The automatic bolt tensioner according to claim 12 , wherein the bolt tensioning assembly includes a tensioner for tensioning the existing bolt connections, a tensioner threader for threading the tensioner onto a stud protrusion of existing bolt connections, and a torque application device for applying torque to a nut of the existing bolt connections after a bolt has been tensioned by the tensioner. 17. The automatic bolt tensioner according to claim 12 , wherein the automatic bolt tensioner is an autonomous bolt tensioner. 18. An automated bolt tensioner, comprising: a first unit configured to be releasably secured to a first subset of existing bolt connections of a further assembly, wherein the first unit includes an attachment that attaches the first unit to the existing bolt connections; a second unit configured to tighten a second subset of the existing bolt connections of the further assembly; a slide arm connecting the second unit to the first unit, wherein the first unit and the second unit are each movable so that the automated bolt tensioner can automatically advance to adjacent existing bolt connections adjacent to the first subset and/or to the second subset of existing bolt connections; and a control unit configured to control a movement of the first unit and the second unit, wherein the control unit is contained within a housing attached to the first unit, wherein the control unit includes at least one RFID antenna for emitting an electromagnetic field to energize a RFID tag associated with each of the existing bolt connections, further wherein data received from the energized RFID tag is used to analyze whether the existing bolt connection have loosened over time.