Displacement mechanism for a remotely operated vehicle

What is claimed is: 1. A displacement mechanism for actuating wheels of a remotely operated vehicle, the displacement mechanism comprising: a motor configured to actuate a drive crank; a coupler link connected to the drive crank on a first side and a lift rocker on a second side; a displacement link connected to the lift rocker; and a displacement plate connected to the displacement link and having a plurality of wheels provided thereon, wherein the drive crank, the coupler link, the lift rocker, the displacement link, and the displacement plate are each respectively connected with pivot connections such that actuation of the motor actuates the displacement plate between a raised position and a lowered position, and wherein the lift rocker is configured with a pivot point arranged in a body of the lift rocker such that the lift rocker, the pivot connection between the displacement link and the lift rocker, and the pivot connection between the lift rocker and the coupler link each rotate around the pivot point when the motor is actuated. 2. The displacement mechanism according to claim 1 , wherein the coupler link has an arcuate shape. 3. The displacement mechanism according to claim 2 , wherein the drive crank, the lift rocker, and the displacement link form a four-bar linkage. 4. The displacement mechanism according to claim 2 , wherein, in the raised position, the coupler link straddles the pivot connection between the displacement link and the lift rocker such that the pivot connection between the coupler link and the drive crank is disposed on an opposite side of the displacement link from the pivot connection between the coupler link and the lift rocker. 5. The displacement mechanism according to claim 2 , wherein, in the lowered position, the coupler link straddles a fixed connection between the drive crank and the motor such that the pivot connection between the coupler link and the drive crank is disposed on an opposite side of the fixed connection from the pivot connection between the coupler link and the lift rocker. 6. The displacement mechanism according to claim 1 , wherein, in the lowered position, the pivot connection between the displacement link and the lift rocker aligns with a center line of the displacement plate. 7. The displacement mechanism according to claim 1 , wherein a distance between the pivot point of the lift rocker and the pivot connection of the displacement link and the lift rocker is shorter than a distance between the pivot point of the lift rocker and the pivot connection of the coupler link and the lift rocker. 8. The displacement mechanism according to claim 1 , wherein the drive crank is arranged to move through an angle greater than 180 degrees between the raised position and the lowered position. 9. The displacement mechanism according to claim 1 , wherein the drive crank stops against a lower stop when the displacement mechanism is in the lowered position. 10. The displacement mechanism according to claim 1 , wherein the drive crank stops against an upper stop when the displacement mechanism is in the raised position. 11. The displacement mechanism according to claim 1 , wherein the drive crank is configured with a mechanical interface shaped corresponding to a tool that mechanically actuates the motor. 12. A remotely operated vehicle comprising: a displacement mechanism comprising: a motor configured to actuate a drive crank; a coupler link connected to the drive crank on a first side and a lift rocker on a second side; a displacement link connected to the lift rocker; and a first displacement plate connected to the displacement link and having a first plurality of wheels provided thereon, wherein the drive crank, the coupler link, the lift rocker, the displacement link, and the first displacement plate are each respectively connected with pivot connections such that actuation of the motor actuates the first displacement plate between a raised position and a lowered position, and wherein the lift rocker is configured with a pivot point arranged in a body of the lift rocker such that the lift rocker, the pivot connection between the displacement link and the lift rocker, and the pivot connection between the lift rocker and the coupler link each rotate around the pivot point when the motor is actuated, a lift shaft configured to couple the lift rocker of the displacement mechanism to a second rocker disposed on an opposite side of the remotely operated vehicle, wherein the second rocker is connected to a second displacement plate provided with a second plurality of wheels thereon, and actuation of the lift rocker is transmitted to the second displacement plate via the lift shaft and the second rocker. 13. The remotely operated vehicle of claim 12 , wherein the lift rocker is rigidly fixed to the lift shaft such that the lift shaft is rotated by the lift rocker. 14. The remotely operated vehicle of claim 12 , wherein the pivot point of the lift rocker is formed at a connection between the lift rocker and the lift shaft. 15. The remotely operated vehicle of claim 12 , wherein the first displacement plate is connected to an upper frame of the remotely operated vehicle via a linear bearing such that the first displacement plate is only actuated in a vertical direction. 16. A method for actuating wheels of a remotely operated vehicle, the method comprising: actuating a drive crank that is connected, by a pivot connection, to a coupler link, thereby displacing the coupler link, rotating a lift rocker with the displacement of the coupler link, actuating a displacement link with the rotation of the lift rocker, and actuating a displacement plate comprising a plurality of wheels with the actuation of the displacement link, thereby actuating the displacement plate between a raised position and a lowered position, wherein the lift rocker is configured with a pivot point such that rotating the lift rocker causes the lift rocker, the pivot connection between the displacement link and the lift rocker, and the pivot connection between the lift rocker and the coupler link to each rotate around the pivot point when a motor is actuated. 17. The method according to claim 16 , further comprising straddling the pivot connection between the displacement link and the lift rocker with the coupler link such that the pivot connection between the coupler link and the drive crank is disposed on an opposite side of the displacement link from the pivot connection between the coupler link and the lift rocker in the raised position. 18. The method according to claim 16 , further comprising straddling a fixed connection between the drive crank and the motor such that the pivot connection between the coupler link and the drive crank is disposed on an opposite side of the fixed connection from the pivot connection between the coupler link and the lift rocker in the lowered position. 19. The method according to claim 16 , further comprising stopping the drive crank against a lower stop when the displacement plate is in the lowered position and stopping the drive crank against an upper stop when the displacement plate is in the raised position. 20. The method according to claim 16 , wherein the displacement plate is only actuated in a vertical direction.