To provide a printing apparatus and a conveyance apparatus that are capable of preventing a cut position to be cut by a slitter (cutting unit) from deviating, a printing apparatus, which is configured to perform printing by use of a printing unit on a printing medium conveyed by a conveyance unit and is configured to cut the printing medium on which the printing has been performed by the printing unit by use of a cutting unit at a cut position along a conveyance direction of the conveyance unit, includes an abutment portion configured to abut on a printing surface of the printing medium at an inner position relative to the cut position in a width direction of the printing medium, the width direction that crosses the conveyance direction.

A method for manufacturing a fiber-reinforced resin molding material having a cut fiber tow impregnated with a resin includes a separation step of intermittently separating a fiber tow and forming at least two separation-processed lines arranged side by side in a width direction of the fiber tow and a cutting step of cutting the fiber tow at an interval in the longitudinal direction, and the separation step and the cutting step are carried out to satisfy (1) to (3). (1) 1c/L50 (2) c<a (3) b/L<1 c is an overlapping length of separated parts when one separation-processed line is projected to another separation-processed line adjacent thereto in the width direction, L is the interval in the cutting step, a is a length of the separated part in the separation-processed line, and b is a length of an unseparated part in the separation-processed line.

A multilayer-type sheet processing apparatus includes processing units. Each of the processing units includes first guide members extending in an X-direction, first moving bodies arranged on the first guide members, second guide members supported to the first moving bodies and extending in a Y-direction, second moving bodies arranged on the second guide members, Y-drive mechanisms configured to drive the second moving bodies along the second guide members, work areas each arranged in a plane including the X- and Y-directions, and tools, which are arranged in the second moving bodies to be able to move close to and separate away from the work areas, and are each configured to form a processing line on a sheet arranged on a work area. The first moving body that is moved by the X-drive mechanism and the first moving bodies of the other units are coupled to each other.

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 method is for operating a device for carrying out cutting operations on an open format edge of a printed product. The device is operatively connected to a feed apparatus for the first cutting operation and to a removal apparatus which operates after the final cutting operation. The printed product is transferred from a first cutting location, at which the cutting operation for a first format edge is carried out, to a second cutting location, at which the cutting operation for a second format edge takes place. Once the cutting operation is complete at the second cutting location, the printed product is transferred to a third cutting location, at which the cutting operation for a third format edge takes place. The printed product is transferred among the cutting locations by a transport unit that grips the printed product by the spine to convey the product in a suspended manner.

A method is for operating a device for carrying out cutting operations on an open format edge of a printed product. The device is operatively connected to a feed apparatus for the first cutting operation and to a removal apparatus which operates after the final cutting operation. The printed product is transferred from a first cutting location, at which the cutting operation for a first format edge is carried out, to a second cutting location, at which the cutting operation for a second format edge takes place. Once the cutting operation is complete at the second cutting location, the printed product is transferred to a third cutting location, at which the cutting operation for a third format edge takes place. The printed product is transferred among the cutting locations by a transport unit that grips the printed product by the spine to convey the product in a suspended manner.

A cutting apparatus for cutting blank profiles comprises a first cutting device located at a first position in the apparatus, a second cutting device located at a second position, the second position being separated from the first position along a first axis of the apparatus, and a third cutting device located at a third position, the third position being separated from the first position along a second axis and along a third axis of the apparatus. A chariot moves along the third axis while a support adapted to hold a blank profile is mounted to the chariot and moves along the first and second axes of the apparatus. A greater number of cutting devices may be used. Cutting devices may be arranged in rows along the third axis.

A cutting apparatus for cutting blank profiles comprises a first cutting device located at a first position in the apparatus, a second cutting device located at a second position, the second position being separated from the first position along a first axis of the apparatus, and a third cutting device located at a third position, the third position being separated from the first position along a second axis and along a third axis of the apparatus. A chariot moves along the third axis while a support adapted to hold a blank profile is mounted to the chariot and moves along the first and second axes of the apparatus. A greater number of cutting devices may be used. Cutting devices may be arranged in rows along the third axis.

Regarding a cardboard sheet-cutting device, a cardboard sheet-cutting control unit and a cardboard sheet-manufacturing apparatus, continuous cutting is made during job changes, in which the cardboard sheet cutting width changes, without stopping conveyance of the cardboard sheets, by a printing unit for printing cutting marks on a double-faced cardboard sheet; a slitter scorer for cutting the double-faced cardboard sheet to a specified width; a cutoff for cutting the double-faced cardboard sheet to a specified length; a mark detector for detecting cutting marks; a movement unit for moving the mark detector along the width direction of the double-faced cardboard sheet; and a cutting control unit for performing control to actuate the cutoff on the basis of the detection results of the mark detector and moving the mark detector using the movement unit on the basis of job-change timing data and post-job change mark position information.