Multi-axis rotary shaft link device

What is claimed is: 1. A multi-axis rotary shaft link device at least comprising: an assembly of a first link device and a second link device, the first link device including a first shaft, a transmission unit disposed on the first shaft, a second shaft in parallel to the first shaft and a reaction unit disposed on the second shaft, at least one link unit in the form of a plate-shaped body being disposed between the transmission unit of the first shaft and the reaction unit of the second shaft, two ends of the link unit being formed with driving sections respectively engaged with the transmission unit of the first shaft and the reaction unit of the second shaft, whereby the first and second shafts synchronously rotate, the second link device being identical to the first link device in structure, the second link device including a third shaft, a transmission unit disposed on the third shaft, a fourth shaft in parallel to the third shaft and a reaction unit disposed on the fourth shaft, at least one link unit in the form of a plate-shaped body being disposed between the transmission unit of the third shaft and the reaction unit of the fourth shaft, two ends of the link unit being formed with driving sections respectively engaged with the transmission unit of the third shaft and the reaction unit of the fourth shaft, whereby the third and fourth shafts synchronously rotate, each of the first, second, third and fourth shafts having a pivoted section and an assembled section; and a driven module having an internal upper shaft hole and an internal lower shaft hole, the second and third shafts being respectively assembled in the internal upper and lower shaft holes of the driven module, whereby the multi-axis rotary shaft link device freely rotates around multiple rotational centers. 2. The multi-axis rotary shaft link device as claimed in claim 1 , wherein the driven module is a sleeve structure, the internal upper and lower shaft holes being respectively formed with circular cross-sectional sections and noncircular cross-sectional sections, a tail end section of the pivoted section of each of the first, second, third and fourth shafts being formed with a noncircular cross-sectional structure, the tail end section of the second shaft being inserted in the noncircular cross-sectional section of the internal upper shaft hole of the driven module, the tail end section of the third shaft being inserted in the noncircular cross-sectional section of the internal lower shaft hole of the driven module. 3. The multi-axis rotary shaft link device as claimed in claim 2 , wherein the driven module is disposed in a third link device, the third link device being identical to the first link device in structure, the third link device including a fifth shaft having a transmission unit and a sixth shaft having a reaction unit, at least one link unit in the form of a plate-shaped body being disposed between the transmission unit of the fifth shaft and the reaction unit of the sixth shaft, two ends of the link unit being formed with driving sections respectively engaged with the transmission unit of the fifth shaft and the reaction unit of the sixth shaft, whereby the fifth and sixth shafts synchronously rotate, each of the fifth and sixth shafts having a pivoted section and an assembled section, a tail end section of the pivoted section of each of the fifth and sixth shafts being formed with a noncircular cross-sectional structure, the first and second link devices being respectively assembled with a torque module and a driven module, the third link device being also assembled with a torque module, the torque module and driven module of the first link device being assembled with the assembled sections of the first and second shafts, the torque module and driven module of the second link device being assembled with the assembled sections of the third and fourth shafts, the torque module and driven module of the third link device being assembled with the assembled sections of the fifth and sixth shafts. 4. The multi-axis rotary shaft link device as claimed in claim 2 , wherein the transmission unit of the first shaft is disposed between the pivoted section and assembled section of the first shaft, the transmission unit of the third shaft being disposed between the pivoted section and assembled section of the third shaft, the reaction unit of the second shaft being disposed between the pivoted section and assembled section of the second shaft, the reaction unit of the fourth shaft being disposed between the pivoted section and assembled section of the fourth shaft, the transmission units and the reaction units being gear structures, the driving sections of the link unit being formed at the two ends thereof as a row of tooth structures, a support section protruding from at least one side of the link unit or the link unit being formed with an assembling hole for assembling with a support section, restriction plates being disposed on at least one side of the transmission unit of the first shaft and at least one side of the reaction unit of the second shaft, two ends of each restriction plate being formed with shaft holes for pivotally connecting with the first and second shafts respectively, a middle section of the restriction plate being formed with a rail normal to an axis of the restriction plate, the rail serving to receive the support section of the link unit, whereby the support section and the link unit are permitted to reciprocally move along the rail, restriction plates being disposed on at least one side of the transmission unit of the third shaft and at least one side of the reaction unit of the fourth shaft, two ends of each restriction plate being formed with shaft holes for pivotally connecting with the third and fourth shafts respectively, a middle section of the restriction plate being formed with a rail normal to an axis of the restriction plate, the rail serving to receive the support section of the link unit, whereby the support section and the link unit are permitted to reciprocally move along the rail. 5. The multi-axis rotary shaft link device as claimed in claim 2 , wherein the first and second shafts and the link unit of the first link device are together enclosed in an interior space of a case, the case having an opening in communication with the interior space, the other side of the case being formed with an upper shaft hole and a lower shaft opposite to the opening for pivotally connecting with the pivoted sections of the first and second shafts respectively, the third and fourth shafts and the link unit of the second link device being together enclosed in an interior space of another case, the other case having an opening in communication with the interior space, the other side of the other case being formed with an upper shaft hole and a lower shaft opposite to the opening for pivotally connecting with the pivoted sections of the third and fourth shafts respectively. 6. The multi-axis rotary shaft link device as claimed in claim 1 , wherein the driven module is disposed in a third link device, the third link device being identical to the first link device in structure, the third link device including a fifth shaft having a transmission unit and a sixth shaft having a reaction unit, at least one link unit in the form of a plate-shaped body being disposed between the transmission unit of the fifth shaft and the reaction unit of the sixth shaft, two ends of the link unit being formed with driving sections respectively engaged with the transmission unit of the fifth shaft and the reaction unit of the sixth shaft, whereby the fifth and sixth shafts synchronously rotate, each of the fifth and sixth shafts having a pivoted section and an assembled section, a tail end section of the pivoted section of each of the fifth and sixth shafts