Tunnel boring device, and control method therefor

The invention claimed is: 1. A tunnel boring device, comprising: a forward section having a plurality of cutters at an excavation-side surface; a rear section disposed to a rear side of the forward section and having grippers for obtaining counterforce during excavation; a parallel link mechanism including a plurality of thrust jacks that are disposed in parallel between the forward section and the rear section and link the forward section and the rear section together, the parallel link mechanism being configured to change a position and orientation of the forward section with respect to the rear section; an input component configured to receive a control input related to a movement direction of the forward section from an operator; a computer configured to compute a position of an articulation point on the basis of the control input received by the input component, positions of a center line and a center point of the rear section, and a position of a center point of the forward section, the articulation point being a hypothetical point disposed between the forward section and the rear section; and a jack controller configured to control a stroke of each of the plurality of thrust jacks included in the parallel link mechanism so that the forward section moves forward along a curve generated from the positions of the center point of the rear section, the articulation point, and the center point of the forward section. 2. The tunnel boring device according to claim 1 , wherein the jack controller controls the plurality of thrust jacks so that excavation is performed along a desired radius of curvature R set on the basis of the control input when the input component receives the control input from the operator. 3. The tunnel boring device according to claim 2 , wherein the jack controller controls an attitude of the forward section three-dimensionally. 4. The tunnel boring device according to claim 2 , further comprising a plurality of stroke sensors that are provided to the plurality of thrust jacks to sense an attitude of the forward section with respect to the rear section. 5. The tunnel boring device according to claim 2 , wherein the input component is a touch panel type of monitor. 6. The tunnel boring device according to claim 5 , wherein the monitor has a plurality of directional keys for setting a movement direction of the forward section, and a display component configured to display an amount of deviation between the current position and the target position. 7. The tunnel boring device according to claim 1 , wherein the jack controller controls an attitude of the forward section three-dimensionally. 8. The tunnel boring device according to claim 1 , further comprising a plurality of stroke sensors that are provided to the plurality of thrust jacks to sense an attitude of the forward section with respect to the rear section. 9. The tunnel boring device according to Claim 1 , wherein the input component is a touch panel type of monitor. 10. The tunnel boring device according to claim 9 , wherein the monitor has a plurality of directional keys for setting a movement direction of the forward section, and a display component configured to display an amount of deviation between the current position and the target position. 11. A method for controlling a tunnel boring device comprising a forward section, a rear section disposed to a rear of the forward section, and a parallel link mechanism including a plurality of thrust jacks that are disposed in parallel between the forward section and the rear section, the method comprising the steps of: receiving a control input related to a movement direction of the forward section from an operator; computing a position of an articulation point on the basis of positions of a center line and a center point of the rear section and a center point of the forward section, the articulation point being a hypothetical point disposed between the forward section and the rear section; and controlling a stroke of the thrust jacks included in the parallel link mechanism so that the forward section moves forward along a curve generated from the positions of the center point of the rear section, the articulation point, and the center point of the forward section. 12. A method for controlling a tunnel boring device comprising a rear section and a forward section having a cutter head and linked to the rear section to allow a relative position and orientation of the forward section with respect to the rear section to be changed, the method comprising the steps of: finding a position of the forward section with respect to a position of the rear section; computing a position of an articulation point, which is an intersection between a center line of the forward section and a center line of the rear section; generating a curve that smoothly connects a position of the forward section, a position of the articulation point, and a position of the rear section; and moving the forward section with respect to the rear section along the curve.