A resin pelletizer apparatus (100) is provided with: a die (6) that has a die surface (61) having a die hole (63) formed therein; a rotary blade (21) that cuts a resin extruded from the die hole (63) into a pellet shape in water when being rotated on the die surface (61) in the water; a sensor (150) that detects elastic waves generated by the rotary blade (21) during the rotation on the die surface (61); and a determination unit (121) that monitors the output value of the sensor (150) and determines that an abnormality has occurred when the output value of the sensor (150) is outside a predetermined range (R).

A resin pelletizer apparatus (100) is provided with: a die (6) that has a die surface (61) having a die hole (63) formed therein; a rotary blade (21) that cuts a resin extruded from the die hole (63) into a pellet shape in water when being rotated on the die surface (61) in the water; a sensor (150) that detects elastic waves generated by the rotary blade (21) during the rotation on the die surface (61); and a determination unit (121) that monitors the output value of the sensor (150) and determines that an abnormality has occurred when the output value of the sensor (150) is outside a predetermined range (R).

A sheet processing apparatus includes a conveyance unit that conveys a sheet, a processing unit that performs processing on the sheet conveyed by the conveyance unit, and a controller that controls the conveyance unit and the processing unit. The processing unit includes a cutting unit capable of cutting the sheet along a cutting line, a holding unit that is configured to be movable between a holding position and a release position and that is disposed such that a holding line, which is formed on the sheet when the sheet is held, is substantially parallel to the cutting line, and an angle adjuster capable of adjusting an angle of the cutting unit and the holding unit with respect to a conveying direction.

A sheet processing apparatus includes a conveyance unit that conveys a sheet, a processing unit that performs processing on the sheet conveyed by the conveyance unit, and a controller that controls the conveyance unit and the processing unit. The processing unit includes a cutting unit capable of cutting the sheet along a cutting line, a holding unit that is configured to be movable between a holding position and a release position and that is disposed such that a holding line, which is formed on the sheet when the sheet is held, is substantially parallel to the cutting line, and an angle adjuster capable of adjusting an angle of the cutting unit and the holding unit with respect to a conveying direction.

Methods of separating discrete articles from continuous webs are disclosed. The methods use a separation assembly. The present disclosure further includes a cutting assembly and a pair of cutting rolls for use in the separation assembly.

Methods of separating discrete articles from continuous webs are disclosed. The methods use a separation assembly. The present disclosure further includes a cutting assembly and a pair of cutting rolls for use in the separation assembly.

A tubular product manufacturing apparatus successively delivers an injection molded tubular shaped body in the delivery direction. The manufacturing apparatus detects a defect on the surface of the molded body passing through the detection position in the delivery direction. The manufacturing apparatus separates a tubular product from the molded body. When a portion having a predetermined length in the molded body passes the detection position without detecting a defect, the manufacturing apparatus separates a tubular product from the molded body, which contains the portion having the predetermined length. When a defect is detected before a portion having the predetermined length in the molded body BT passes through the detection position, the manufacturing apparatus separates the defective tubular product from the molded body. The length of the defective tubular product is shorter than a good product length which is the length of the tubular product including the portion of the predetermined length.

In accordance with one embodiment, a paper processing apparatus comprises a perforation unit configured to include a rotary blade for perforating conveyed paper in a direction parallel to a conveyance direction and be capable of moving the rotary blade in a direction orthogonal to a conveyance path of the paper; a skew detection section configured at the upstream side of the perforation unit to detect the skew of the paper; a skew correction mechanism configured to incline the perforation unit and the rotary blade according to the detected skew amount of the paper; and a control section configured to control the position of the rotary blade and move the rotary blade to a perforation processing position before the paper is conveyed to the perforation unit.

In accordance with one embodiment, a paper processing apparatus comprises a perforation unit configured to include a rotary blade for perforating conveyed paper in a direction parallel to a conveyance direction and be capable of moving the rotary blade in a direction orthogonal to a conveyance path of the paper; a skew detection section configured at the upstream side of the perforation unit to detect the skew of the paper; a skew correction mechanism configured to incline the perforation unit and the rotary blade according to the detected skew amount of the paper; and a control section configured to control the position of the rotary blade and move the rotary blade to a perforation processing position before the paper is conveyed to the perforation unit.

In accordance with one embodiment, a paper processing apparatus comprises a perforation unit configured to include a rotary blade for perforating conveyed paper in a direction parallel to a conveyance direction and be capable of moving the rotary blade in a direction orthogonal to a conveyance path of the paper; a skew detection section configured at the upstream side of the perforation unit to detect the skew of the paper; a skew correction mechanism configured to incline the perforation unit and the rotary blade according to the detected skew amount of the paper; and a control section configured to control the position of the rotary blade and move the rotary blade to a perforation processing position before the paper is conveyed to the perforation unit.