Wearable chair robot

What is claimed is: 1. A wearable chair robot, comprising: a first link having a first end configured to be hinge-connected to a heel of a user and a second end configured to rotate up and down about the first end distal to a foot of the user, the first link being configured to be supported on a ground with the foot disposed at a lower limit position; a second link having a first end configured to be hinge-connected to the user above the first end of the first link and a second end configured to extend distal to the user; a third link having a first end configured to be hinge-connected to the second end of the link and a second end configured to be hinge-connected to the second end of the first link; and a driving unit having a first end configured to be hinge-connected to the user above the first end of the second link and a second end configured to extend downward and to be hinge-connected to the second end of the first link or the second end of the third link, the driving unit being configured to allow the first link to be supported on the ground or rotated in an upward direction by adjusting a length of the driving unit. 2. The wearable chair robot of claim 1 , further comprising a fourth link positioned parallel to a calf of the user, with one end configured to be hinge-connected to the heel of the user or the first end of the first link and a second end configured to be hinge-connected to the first end of the second link. 3. The wearable chair robot of claim 1 , wherein when the second link is parallel to the ground ahead of the foot of the user, the first end of the second link is further configured such that the hinge-connection between the user and the first end of the second link is fixed. 4. The wearable chair robot of claim 3 , wherein when the length of the driving unit is adjusted after the hinge-connection between the user and the first end of the second link is fixed, the first end of the second link is further configured such that the fixed hinge-connection between the user and the first end of the second link is removed. 5. The wearable chair robot of claim 1 , wherein when the second end of the second link and the first end of the third link have a linear arrangement distal to a user, the second end of the second link is further configured such that the hinge-connection between the second end of the second link and the first end of the third link is fixed. 6. The wearable chair robot of claim 5 , wherein when the length of the driving unit is adjusted after the hinge-connection between the second end of the second link and the first end of the third link is fixed, the second end of the second link is further configured such that the fixed hinge-connection between the second end of the second link and the first end of the third link is removed. 7. The wearable chair robot of claim 1 , wherein when the length of the driving unit is minimized, the second end of the first link is further configured to come in contact with the ground. 8. The wearable chair robot of claim 1 , further comprising: a first support configured to be disposed on a backside of an ankle of the user and having a first end configured to be hinge-connected to the heel of the user and a second end configured to be hinge-connected to the ankle to support the user; a second support configured to be disposed on a backside of a calf of the user and having a first end configured to be hinge-connected to a knee of the user and a second end configured to be hinge-connected to the ankle to support the user; and a third support configured to be disposed on a backside of a thigh of the user and having a first end configured to be hinge-connected to a buttock of the user and a second end configured to be hinge-connected to the knee to support the user. 9. The wearable chair robot of claim 6 , wherein in the driving unit, the first end is further configured to be hinge-connected to a rear side of the third support and the second end is further configured to extend downward and to be hinge-connected to the second end of the first link or the second end of the third link. 10. The wearable chair robot of claim 5 , wherein when the first support, the second support, and the third support are positioned in a linear arrangement, the driving unit is configured such that the length of the driving unit is largest. 11. A wearable chair robot system comprising: a first link having a first end configured to be hinge-connected to a heel of a user and a second end configured to rotate up and down about the first end distal to a foot of the user, the first link being configured to be supported on a ground with the foot at a lower limit position; a second link having a first end configured to be hinge-connected to the user above the first end of the first link and a second end configured to extend distal to the user; a third link having a first end configured to be hinge-connected to the second end of the link and a second end configured to be hinge-connected to the second end of the first link; and a driving unit having a first end configured to be hinge-connected to the user above the first end of the second link and a second end configured to extend downward and to be hinge-connected to the second end of the first link or the second end of the third link, the driving unit configured to allow the first link to be supported on the ground or rotated in an upward direction by adjusting a length of the driving unit. 12. The wearable chair robot system of claim 11 , further comprising: a fourth link configured to be positioned parallel to a calf of the user, with one end configured to be hinge-connected to the heel of the user or the first end of the first link and a second end configured to be hinge-connected to the first end of the second link. 13. A method of controlling wearable chair robot, comprising: vertically rotating up and down a first link having a first end configured to be hinge-connected to a heel of a user and a second end configured to rotate about the first end distal to a foot of the user, the first link being configured to be supported on a ground with the foot disposed at a lower limit position; connecting a second link having a first end configured to be hinge-connected to the user above the first end of the first link and a second end configured to extend distal to the user; connecting a third link having a first end configured to be hinge-connected to the second end of the link and a second end configured to be hinge-connected to the second end of the first link; and adjusting a length of a driving unit having a first end configured to be hinge-connected to the user above the first end of the second link and a second end configured to extend downward and to be hinge-connected to the second end of the first link or the second end of the third link by supporting the first link on the ground or rotating the first link in an upward direction. 14. The method of claim 13 , further comprising: positioning a fourth link parallel to a calf of the user, with one end configured to be hinge-connected to the heel of the user or the first end of the first link and a second end configured to be hinge-connected to the first end of the second link.