Sheet folding device and method, and box-making machine

The invention claimed is: 1. A sheet folding device comprising: forming belts which are disposed on both sides in a transfer direction of a corrugated fiberboard and move to a center side in a width direction of the corrugated fiberboard toward a downstream side in the transfer direction of the corrugated fiberboard so as to press and bend both end portions of the corrugated fiberboard in the width direction from outside; and forming rollers which are disposed on the center side in the width direction of the corrugated fiberboard from the forming belts on both sides in the transfer direction of the corrugated fiberboard and come into contact with inner sides of both bending portions of the corrugated fiberboard in the width direction, wherein the forming rollers are disposed on an upstream side in the transfer direction of the corrugated fiberboard from a 90° bending position of the corrugated fiberboard, and wherein the forming roller includes a protrusion portion in which an intermediate portion in a thickness direction of the forming roller protrudes outward in a radial direction of the forming roller, an inner peripheral surface on a center side in the width direction of the corrugated fiberboard from the protrusion portion, and an outer peripheral surface on an end side in the width direction of the corrugated fiberboard from the protrusion portion, and wherein the forming rollers include rollers having an asymmetrical contact surface contacting the corrugated fiberboard, with respect to a plane which is perpendicular to a rotation axis direction of the forming roller and intersects an outermost portion of the protrusion portion in the radial direction. 2. The sheet folding device according to claim 1 , wherein in a state that the forming rollers support the bending portions, the forming belts press the corrugated fiberboard at an area outside the bending portions in the width direction of the corrugated fiberboard. 3. The sheet folding device according to claim 1 , wherein upstream-side folding rails are disposed on both sides in the transfer direction of the corrugated fiberboard along the transfer direction of the corrugated fiberboard on the upstream side in the transfer direction of the corrugated fiberboard from the forming rollers. 4. The sheet folding device according to claim 1 , wherein downstream-side folding rails are disposed on both sides in the transfer direction of the corrugated fiberboard along the transfer direction of the corrugated fiberboard on the downstream side in the transfer direction of the corrugated fiberboard from the forming rollers. 5. The sheet folding device according to claim 1 , wherein the forming rollers have a protrusion shape in which the intermediate portion in the thickness direction of the forming roller protrudes outward in the radial direction of the forming roller, and impression rollers respectively facing the forming rollers in the radial direction and each having an outer peripheral surface which is flat in the radial direction are disposed. 6. The sheet folding device according to claim 5 , wherein several forming rollers and several impression rollers are disposed along the transfer direction of the corrugated fiberboard and are disposed to be gradually inclined toward the downstream side in the transfer direction of the corrugated fiberboard. 7. The sheet folding device according to claim 1 , wherein the forming rollers include a forming roller for a single-layer corrugated fiberboard in which a waveform portion is a single layer and a forming roller for a multi-layer corrugated fiberboard in which a waveform portion is a multi layer, and a movement unit which moves the forming roller for the single-layer corrugated fiberboard and the forming roller for the multi-layer corrugated fiberboard to a processing position and a retreat position is provided. 8. A box making machine comprising: a sheet feeding section which supplies a corrugated fiberboard; a printing section which performs printing on the corrugated fiberboard; a slotter creaser section which performs creasing line processing and slicing on the printed corrugated fiberboard; a folding section which includes the sheet folding device according to claim 1 ; and a counter-ejector section which stacks flat corrugated boxes while counting the flat corrugated boxes and thereafter, discharges the flat corrugated boxes every predetermined number. 9. The sheet folding device according to claim 1 , wherein shapes of the forming rollers change as the forming rollers are located more toward the downstream side of the sheet folding device. 10. The sheet folding device according to claim 1 , wherein an angle of the inner peripheral surface with respect to the rotation axis direction of the forming roller is larger than an angle of the outer peripheral surface with respect to the rotation axis direction, and the angle of the outer peripheral surface decreases as the forming rollers are located more toward the downstream side of the sheet folding device. 11. A sheet folding method comprising: a step of bending both end portions in a width direction of the corrugated fiberboard up to before 90° by a forming belt in a state where a bending position of a transferred corrugated fiberboard is supported by forming rollers; and a step of bending the both end portions in the width direction of the corrugated fiberboard up to 180° by the forming belt in a state where the bending position of the transferred corrugated fiberboard is supported by a guide plate, wherein the forming roller includes a protrusion portion in which an intermediate portion in a thickness direction of the forming roller protrudes outward in a radial direction of the forming roller, an inner peripheral surface on a center side in the width direction of the corrugated fiberboard from the protrusion portion, and an outer peripheral surface on an end side in the width direction of the corrugated fiberboard from the protrusion portion, and wherein the forming rollers include rollers having an asymmetrical contact surface, with respect to a plane which is perpendicular to a rotation axis direction of the forming roller and intersects an outermost portion of the protrusion portion in the radial direction.