A positioning apparatus includes a cutting line setting processor to set a cutting line to extend in a predetermined direction from a first endpoint on an outline of a target object located on a top sheet and to be located within a non-effective region, a first determination processor to determine whether a first angle between the outline of the target object and the cutting line, with the first endpoint located at an intersection of the outline and the cutting line, is equal to or smaller than a predetermined determination angle that is an acute angle, and a shape change processor to, when the first angle is determined to be equal to or smaller than the determination angle by the first determination processor, change the shape of the cutting line such that the first angle is greater than the determination angle.

A printer includes a motor power supply line connecting a carriage motor with a power source, a sensor power supply line connecting a rotary encoder with the power source, a circuit breaker provided on the motor power supply line and interrupting electrical power if a cover sensor detects that a front cover is open and permit connection if the cover sensor detects that the front cover is closed, and a controller controlling the carriage motor and a recording head based on a position of a carriage detected by the rotary encoder.

Method for cutting out coating plates for use in digital printing units. A method for cutting out coating plates for use in digital printing units, where the cutting of coating plates is effected by means of a digital cutting machine, the cutting machine including a computer control and further including a mother roller, the method including at least the following steps: a file including at least cutting data is transferred to the computer control of the digital cutting machine; a sleeve with coating plate material is mounted on the mother roller of the cutting machine; the coating plate mounted on the sleeve and the mother roller are cut out in the ratio 1:1 whereby is achieved, among others, that a mounting machine is no longer necessary in order to apply coating material on a sleeve, whereby registering accuracy is increased and shrinking effect is avoided.

The present disclosure provides a process for manufacturing a printed support (S), which can be cut by any automatic cutter capable of reading an optical code (OC), which does not require updating the resident software of the microprocessor unit that controls the printer (or printers). A printing system of a printable support which implements the process is also disclosed.

A cutting apparatus includes a storing unit configured to store data of a pattern having plural parts of different colors or designs; a display unit; and a control device. The control device is configured to: acquire data of a color or a design of at least one workpiece; change a color or a design of at least one part of a pattern in the data stored in the storing unit to the color or the design acquired for the at least one workpiece; and display the pattern having the at least one part in which the color or the design has been changed on the display unit.

A water jets cutting machine includes a first rotating seat driven by a first motor to rotate about a first rotation axis, a second rotating seat driven by a second motor to rotate about a second axis, a water jets cutting head, an inertial measurement unit (IMU) for detecting an inclination angle of the water jets cutting head, and a controller connecting the first and second motors and the IMU. The controller is able to control the first and second motors to instantaneously conduct compensation for angular deviation of the water jets cutting head according to attitude and position signals which are fed back to the controller by the IMU.

A cutting tool for cutting materials with a straight perpendicular cut, an angled cut, a length-wise cut, and/or a notched cut. The cutting tool including a base, a pair of supports, a cam pivotally connected to the pair of supports, and a blade holder and a blade positioned between the cam and the base, where the blade holder and the blade are slideable from a first cutting position to a second cutting position for cutting notches and other shapes into the flooring materials.

A positioning apparatus includes a cutting line setting processor to set a cutting line to extend in a predetermined direction from a first endpoint on an outline of a target object located on a top sheet and to be located within a non-effective region, a first determination processor to determine whether a first angle between the outline of the target object and the cutting line, with the first endpoint located at an intersection of the outline and the cutting line, is equal to or smaller than a predetermined determination angle that is an acute angle, and a shape change processor to, when the first angle is determined to be equal to or smaller than the determination angle by the first determination processor, change the shape of the cutting line such that the first angle is greater than the determination angle.

A candidate point selection processor selects, as candidate points, vertices on an outline. A search point selection processor selects, from the candidate points, a reference search point to be used to search for a point that serves as a cutting line endpoint. A reference line setting processor sets a reference line connecting a reference point with the search point. A candidate line setting processor sets candidate lines connecting the search point with the candidate points other than the search point. A candidate line selection processor selects, as a selected candidate line, the candidate line located only within a non-effective region. An angle calculation processor calculates an angle between the reference line and the selected candidate line. A cutting line setting processor sets a cutting line connecting the search point with the candidate point of the selected candidate line defining an angle with the reference line that is the smallest angle calculated.

In an example implementation, a corner shearing device comprises multiple cutting profiles that are simultaneously active to each engage a distinct piece of sheet material.