Movement system configured for moving a payload

The invention claimed is: 1. A movement system configured for moving a payload, the movement system comprising: a bridge crane configured for movement along an X axis; a trolley movably attached to the bridge crane and configured for movement along a Y axis, in perpendicular relationship to the X axis; a movement device depending from the trolley along a Z axis, wherein the movement device includes: a first four-bar mechanism and a second four-bar mechanism which is operatively connected to and is suspended from the first four-bar mechanism; wherein each of the first and second four-bar mechanisms has a pair of kinematic links and a pair of base links; wherein the pair of kinematic links extend in spaced and parallel relationship to one another; wherein the pair of base links extend in spaced and parallel relationship to one another and are pivotally and directly connected to ends of the pair of kinematic links to form a plurality of joints therebetween, wherein the plurality of joints includes only a first, second, third, and fourth joint therebetween; wherein the pair of kinematic links and the corresponding pair of base links form a parallelogram; wherein the first joint of the first four-bar mechanism and the third joint of the second four-bar mechanism each define a respective first axis; wherein the second joint of the first four-bar mechanism and the fourth joint of the second four-bar mechanism each define a respective second axis; wherein the third joint of the first four-bar mechanism and the first joint of the second four-bar mechanism each define a respective third axis; wherein the fourth joint of the first four-bar mechanism and the second joint of the second four-bar mechanism each define a respective fourth axis; wherein the first, second, third, and fourth axis of the first four-bar mechanism extend in parallel relationship to one another and the first, second, third, and fourth axes of the second four-bar mechanism extend in parallel relationship to one another; wherein the kinematic links are rotatable about the respective first, second, third, and fourth axis, while the kinematic links remain in spaced and parallel relationship to one another, such that the pair of kinematic links and the corresponding pair of base links continuously form the shape of a parallelogram; wherein each of the first, second, third, and fourth axes of the first four-bar mechanism is disposed in perpendicular relationship to each of the first, second, third, and fourth axes of the second four-bar mechanism; a sensor operatively attached to one of the joints of one of the first and second four-bar mechanisms; wherein the sensor is configured to measure an angle of rotation of the respective kinematic link about the respective axis. 2. A movement system, as set forth in claim 1 , wherein the movement device further includes a cart operatively connected to the trolley and the bridge crane; wherein the cart is configured to move at least one of the trolley and the bridge crane along the corresponding X axis and Y axis, as a function of the measured angle of rotation of the respective kinematic link about the respective axis. 3. A movement system, as set forth in claim 2 , further comprising a controller operatively connected between the sensor and the cart; wherein the controller is configured to receive a signal from the sensor indicating the measured angle of rotation of the respective link and, in turn, send a signal to the cart to move the cart along the corresponding X axis and the Y axis. 4. A movement system, as set forth in claim 3 , wherein the sensor includes: a pair of encoders operatively connected to one of the joints of each of the first and second four-bar mechanisms; and a pair of sensors operatively connected to one of the joints of each of the first and second four-bar mechanisms; wherein the sensor and the encoder corresponding to the respective first and second four-bar mechanisms are configured to provide a signal to the controller corresponding to the angle of rotation of the respective kinematic links. 5. A movement system, as set forth in claim 4 , wherein the sensors are Hall effect sensors. 6. A movement system, as set forth in claim 1 , wherein the movement device further includes a pair of tubes extending from the second four-bar mechanism, along the Y axis; wherein the pair of tubes are configured for supporting a payload, offset from the Z axis. 7. A movement system, as set forth in claim 6 , wherein the movement device further includes: an articulated joint extending from at least one of the pair of tubes such that the articulated joint is offset from the Z axis; and an attachment point extending from the articulated joint such that the attachment point is configured for supporting the payload. 8. A movement device depending from a trolley along a Z axis and configured for moving along at least one of an X axis and a Y axis, wherein the movement device includes: a first four-bar mechanism and a second four-bar mechanism which is operatively connected to and is suspended from the first four-bar mechanism; wherein each of the first and second four-bar mechanisms has a pair of kinematic links and a pair of base links; wherein the pair of kinematic links extend in spaced and parallel relationship to one another; wherein the pair of base links extend in spaced and parallel relationship to one another and are pivotally and directly connected to ends of the pair of kinematic links to form a plurality of joints therebetween, wherein the plurality of joints includes only a first, second, third, and fourth joint therebetween; wherein the pair of kinematic links and the corresponding pair of base links form a parallelogram; wherein the first joint of the first four-bar mechanism and the third joint of the second four-bar mechanism each define a first axis; wherein the second joint of the first four-bar mechanism and the fourth joint of the second four-bar mechanism each define a second axis; wherein the third joint of the first four-bar mechanism and the first joint of the second four-bar mechanism each define a third axis; wherein the fourth joint of the first four-bar mechanism and the second joint of the second four-bar mechanism each define a fourth axis; wherein the first, second, third, and fourth axes of the first four-bar mechanism extend in parallel relationship to one another and the first, second, third, and fourth axes of the second four-bar mechanism extend in parallel relationship to one another; wherein the kinematic links are rotatable about the respective first, second, third, and fourth axes, while the kinematic links remain in spaced and parallel relationship to one another, such that the pair of kinematic links and the corresponding pair of base links continuously form the shape of a parallelogram; wherein each of the first, second, third, and fourth axes of the first four-bar mechanism is disposed in perpendicular relationship to each of the first, second, third, and fourth axes of the second four-bar mechanism; a sensor operatively attached to one of the joints of one of the first and second four-bar mechanisms; wherein the sensor is configured to measure an angle of rotation of the respective kinematic link about the respective axis. 9. A movement system, as set forth in claim 8 , wherein the movement device further includes a cart configured to be connected to the trolley; wherein the cart is configured to move at least one of the trolley and a bridge crane along the corresponding X axis and Y axis, as a function of the measured angle of rotation of the respective kinematic link about the respective axis. 10. A movement system, a