Direct acting extensible and retractable arm mechanism, and robot arm provided with direct acting extensible and retractable arm mechanism

The invention claimed is: 1. A multi-joint arm mechanism, comprising: an arm supporting member; a first joint having a first rotational axis parallel to a center axis of the arm supporting member; a second joint having a second rotational axis perpendicular to the center axis of the arm supporting member; and a third joint having a linear extension and retraction axis perpendicular to the second rotational axis, the third joint comprising: a plurality of flat-shaped first structures bendably coupled to one another, the plurality of flat-shaped first structures forming a first string of the first structures; a plurality of second structures having a C-shaped section and bendably coupled to one another at bottom parts of the second structures, the plurality of second structures forming a second string of the second structures, wherein the first string and the second string are linearly stiffened by being in contact with each other and return to a bent state by being separated from each other; a supporting member which supports the stiffened first and second structures in such a manner that the first and second structures are movable forward and backward; and a drive member which sends the stiffened first and second structures forward from the supporting member and draws the stiffened first and second structures back, wherein: the second string is configured to be bent toward the bottom parts and conveyed into the arm supporting member from the supporting member; the first string is configured to be bent in a same direction as the second string, and conveyed into the arm supporting member from the supporting member; the second structures are stored in the arm supporting member; the first structures are stored in the arm supporting member along the second structures; and the plurality of flat-shaped first structures are coupled to one another without interposition of any of the second structures, and the plurality of second structures are coupled to one another without interposition of any of the first structures. 2. The multi-joint arm mechanism of claim 1 , wherein the supporting member comprises a plurality of rollers. 3. The multi-joint arm mechanism of claim 1 , the stiffened first and second structures form a columnar body having a flat surface. 4. The multi-joint arm mechanism of claim 1 , wherein a top first structure of the first structures is coupled to a top second structure of the second structures. 5. The multi-joint arm mechanism of claim 1 , further comprising a separation member which separates the second structures from the first structures behind the supporting member. 6. The multi-joint arm mechanism of claim 1 , wherein a linear gear is formed on inner surfaces of the first structures, the drive member is located behind the roller, and the multi-joint arm mechanism further comprises a drive gear engaged with the linear gear and an actuator which drives the drive gear. 7. The multi-joint arm mechanism of claim 1 , wherein each of the first structures has a same length as each of the second structures. 8. The multi-joint arm mechanism of claim 1 , each of the first structures has a same length as each of the second structures, and a top first structure the first structures is shifted from a top second structure of the second structures. 9. The multi-joint arm mechanism of claim 1 , wherein the first and second structures are provided with engagement parts which engage with each other. 10. A linear extension and retraction mechanism, comprising: a plurality of flat-shaped first structures bendably coupled to one another, the plurality of flat-shaped first structures forming a first string of the first structures; a plurality of second structures having a C-shaped section and bendably coupled to one another at bottom parts of the second structures, the plurality of second structures forming a second string of the second structure, wherein the first structures and the second structures are linearly stiffened by being in contact with each other and return to a bent state by being separated from each other; a supporting member which supports the stiffened first and second structures in such a manner that the first and second structures are movable forward and backward; a drive member which sends the stiffened first and second structures forward from the supporting member and draws the stiffened first and second structures back; and a storage which stores the first and second structures, wherein: the second string is configured to be bent toward the bottom parts and conveyed into the storage from the supporting member; the first string is configured to be bent in a same direction as the second string, and conveyed into the storage from the supporting member; the first structures are stored in the storage along the second structures; and the plurality of flat-shaped first structures are coupled to one another without interposition of any of the second structures, and the plurality of second structures are coupled to one another without interposition of any of the first structures. 11. A robot apparatus comprising a multi-joint arm mechanism, the multi-joint arm mechanism comprising: an arm supporting member; a first joint having a first rotational axis parallel to a center axis of the arm supporting member; a second joint having a second rotational axis perpendicular to the center axis of the arm supporting member; and a third joint having a linear extension and retraction axis perpendicular to the second rotational axis, the third joint comprising: a plurality of flat-shaped first structures bendably coupled to one another, the plurality of flat-shaped first structures forming a first string of the first structures; a plurality of second structures having a C-shaped section and bendably coupled to one another at bottom parts of the second structures, the plurality of second structures forming a second string of the second structure, wherein the first structures and the second structures are linearly stiffened by being in contact with each other and return to a bent state by being separated from each other; a supporting member which supports the stiffened first and second structures in such a manner that the first and second structures are movable forward and backward; and a drive member which sends the stiffened first and second structures forward from the supporting member and draws the stiffened first and second structures back, wherein: the second string is configured to be bent toward the bottom parts and conveyed into the arm supporting member from the supporting member; the first string is configured to be bent in a same direction as the second structures, and conveyed into the arm supporting member from the supporting member; the second structures are stored in the arm supporting member; the first structures are stored in the arm supporting member along the second structures; and the plurality of flat-shaped first structures are coupled to one another without interposition of any of the second structures, and the plurality of second structures are coupled to one another without interposition of any of the first structures.