In the case of paralysis caused by brain diseases and accidents, proper rehabilitation and supplementary systems for daily life are essential. In this study, we designed a system that can enable daily life by supporting the hand of a patient whose function has been lost to paralysis. The hand exoskeleton robot proposed in this study can be transported for the purpose of ADL (activities of daily living). It was designed to focus on the most important assistant for the thumb and index finger. The hand exoskeleton robot proposed in this study enables grasp and pinch motor skills during the human hand operation through the specific mechanism for the segment movement of the human finger simultaneously. Finally, the finger movement trace of the wearer through the vision system is measured, respectively.