Rotation adjustment apparatus and method of controlling rotary apparatus

What is claimed is: 1. A rotation adjustment apparatus, comprising: a motion assisting wearing device including a trunk member adapted to be worn on a part near a shoulder of a wearer; an upper arm member which is coupled to the trunk member via a shoulder joint mechanism having two rotation axes and adapted to be worn on an upper arm of the wearer; and a forearm member which is coupled to the upper arm member via an elbow joint mechanism and the forearm member having two rotation axes and adapted to be worn on a forearm of the wearer, the motion assisting wearing device providing a rotational movement of the upper arm member with respect to the trunk member and a rotational movement of the forearm member with respect to the upper arm member; and a first locking mechanism restraining the rotational movement of the upper arm member and a second locking mechanism restraining the rotational movement of the forearm member when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and when a biosignal issued from the wearer exceeds a predetermined level and is detected; the first locking mechanism and the second locking mechanism being independently operated, the first locking mechanism and the second locking mechanism including a first plate and a second plate rotatably mounted on the first plate, the second plate having a plurality of recesses spaced about a periphery of the second plate, and the first plate including pins moving into and out of the plurality of recesses to lock the first plate and the second plate together when the load exceeds the predetermined threshold value and the biosignal exceeds the predetermined level. 2. A rotation adjustment apparatus, comprising: a motion assisting wearing device including a trunk member adapted to be worn on a part near a shoulder of a wearer; an upper arm member which is coupled to the trunk member via a shoulder joint mechanism having two rotation axes and adapted to be worn on an upper arm of the wearer; and a forearm member which is coupled to the upper arm member via an elbow joint mechanism and the forearm member having two rotation axes and adapted to be worn on a forearm of the wearer, the motion assisting wearing device providing a rotational movement of the upper arm member with respect to the trunk member and a rotational movement of the forearm member with respect to the upper arm member; and a first locking mechanism restraining the rotational movement of the upper arm member and a second locking mechanism restraining the rotational movement of the forearm member when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and when a predetermined command signal is detected, the first locking mechanism and the second locking mechanism being independently operated; wherein the command signal is an operation signal generated as a result of a wearer's or another operator's operation of an operation unit, the first locking mechanism and the second locking mechanism including a first plate and a second plate rotatably mounted on the first plate, the second plate having a plurality of recesses spaced about a periphery of the second plate, and the first plate including pins moving into and out of the plurality of recesses to lock the first plate and the second plate together when the load exceeds the predetermined threshold value and the biosignal exceeds the predetermined level. 3. A method of controlling a motion assisting wearing device including a trunk member adapted to be worn on a part near a shoulder of a wearer; an upper arm member which is coupled to the trunk member via a shoulder joint mechanism having at least one rotation axis and adapted to be worn on an upper arm of the wearer; and a forearm member which is coupled to the upper arm member via an elbow joint mechanism having at least one rotation axis and adapted to be worn on a forearm of the wearer, the motion assisting wearing device providing a rotational movement of the upper arm member with respect to the trunk member and a rotational movement of the forearm member with respect to the upper arm member, the method comprising: a rotation locking step restraining at least one of the rotational movement of the upper arm member and the rotational movement of the forearm member, when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and a biosignal which exceeds a predetermined level issued from the wearer is detected, wherein the rotation locking step being performed by a first locking mechanism restraining the rotational movement of the upper arm member and a second locking mechanism restraining the rotational movement of the forearm member when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and when a biosignal issued from the wearer exceeds a predetermined level and is detected; the first locking mechanism and the second locking mechanism being independently operated, the first locking mechanism and the second locking mechanism including a first plate and a second plate rotatably mounted on the first plate, the second plate having a plurality of recesses spaced about a periphery of the second plate, and the first plate including pins moving into and out of the plurality of recesses to lock the first plate and the second plate together when the load exceeds the predetermined threshold value and the biosignal exceeds the predetermined level. 4. A method of controlling a motion assisting wearing device including a trunk member adapted to be worn on a part near a shoulder of a wearer; an upper arm member which is coupled to the trunk member via a shoulder joint mechanism having at least one rotation axis and adapted to be worn on an upper arm of the wearer; and a forearm member which is coupled to the upper arm member via an elbow joint mechanism having at least one rotation axis and adapted to be worn on a forearm of the wearer, the motion assisting wearing device providing a rotational movement of the upper arm member with respect to the trunk member and a rotational movement of the forearm member with respect to the trunk member and a rotational movement of the forearm member with respect to the upper arm member, the method comprising; a rotation locking step restraining at least one of the rotational movement of the upper arm member and the rotational movement of the forearm member, when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and a predetermined command signal is detected, wherein the command signal is an operation signal generated as a result of a wearer's or another operator's operation of an operation unit, wherein the rotation locking step being performed by a first locking mechanism restraining the rotational movement of the upper arm member and a second locking mechanism restraining the rotational movement of the forearm member when a load applied on the motion assisting wearing device exceeds a predetermined threshold value and when the command signal is detected; the first locking mechanism and the second locking mechanism being independently operated, the first locking mechanism and the second locking mechanism including a first plate and a second plate rotatably mounted on the first plate, the second plate having a plurality of recesses spaced about a periphery of the second plate, and the first plate including pins moving into and out of the plurality of recesses to lock the first plate and the second plate together when the load exceeds the predetermined threshold value and the command signal is generated.