Sensing device and robot manipulator having the same

What is claimed is: 1. A sensing device comprising: a cover having a predetermined shape and configured to cover a body; a force sensor disposed at a position between the body and the cover, and configured to measure a force and a torque applied via the cover at the position; and a force information calculating part configured to obtain an information on the force applied to the cover from data measured by the force sensor, when the force is applied to an arbitrary position of the cover, wherein the force information calculating part is configured to obtain the information of the force applied to the cover, by using an information on the predetermined shape of the cover in addition to the data measured by the force sensor. 2. The sensing device of claim 1 , wherein in the cover, the arbitrary position of the cover is defined by a predetermined expression with respect to the position at which the force sensor is disposed. 3. The sensing device of claim 2 , wherein the force (f) and the torque (q) measured by the force sensor has a geometric locational relation with the applied force (p) and the position (c) of the cover at which the force is applied. 4. The sensing device of claim 2 , wherein the predetermined expression corresponds to the predetermined shape of the cover. 5. The sensing device of claim 4 , wherein the predetermined shape of the cover is a plane shape, and the predetermined expression is a plane function defining an extending plane of the cover. 6. The sensing device of claim 1 , wherein the cover has a rigid material, and the predetermined shape of the cover includes a plane shape, a partial cylindrical shape, a partial spherical shape, or a curved shape. 7. The sensing device of claim 1 , wherein the body is one of a robot, a mobile device, a game device, a display, or a smart device. 8. The sensing device of claim 1 , wherein the force sensor is disposed at each cover. 9. A robot manipulator comprising: a cover having a predetermined shape and configured to cover a body of a robot; a force sensor disposed at a position between the body and the cover, and configured to measure a force and a torque; and a force information calculating part configured to obtain an information on the force applied to an arbitrary position of the cover from data measured by the force sensor and an information on the shape of the cover. 10. The robot manipulator of claim 9 , wherein the force sensor is a 6-axis force sensor configured for measuring forces and torques along three directions perpendicular to one another. 11. The robot manipulator of claim 9 , wherein the body is formed with a plurality of joint links. 12. The robot manipulator of claim 11 , wherein the cover is divided into a plural to cover the joint link, and the force sensor is disposed at each divided cover. 13. The robot manipulator of claim 12 , wherein the cover is divided into the plural along an axis circumferential direction of the joint link. 14. The robot manipulator of claim 9 , wherein a plane surface is formed in an inner surface of the cover to form a contact portion making contact with a horizontal surface of the force sensor. 15. The robot manipulator of claim 9 , wherein the information of the force comprises at least one of magnitude of the force, a direction of the force, or a position of the force. 16. The robot manipulator of claim 9 , wherein the cover has a rigid material, and the force sensor is disposed at each cover. 17. The robot manipulator of claim 9 , further comprising: a joint link configured to form a robot joint; a joint disposed between the joint links adjacent to each other; and an end effector formed at an end of the joint link, wherein the body is the joint link.