An electronic cutting machine includes a working surface, a door, and a first material guide. The working surface is configured to support a workpiece. The door is movable between an open position and a closed position and includes an upper surface configured to support the workpiece in the open position. The upper surface is disposed substantially parallel to the working surface. The first material guide extends from the upper surface when the door is in the open position.

A device for cutting material on a supporting surface has at least one cutting unit, which can be motor-driven in a controlled manner above and across the supporting surface in a direction of an X- and Y-axis of a Cartesian coordinate system that is parallel to the material supporting surface. The at least one cutting unit comprises an oscillation drive and a cutting knife. The oscillation drive sets the cutting knife into linear oscillations having an oscillation axis that is perpendicular to an advancing direction of the cutting knife. For changing an angle of inclination of the oscillation axis with respect to the material supporting surface, the oscillation drive with the cutting knife is pivotable around a pivot axis that is parallel to the material supporting surface. The oscillation drive comprises an electric motor having a rotary drive shaft that is parallel to the material supporting surface. The rotary axis of the rotary drive shaft is aligned with the pivot axis.

A cutting device includes a platen, a mounting portion, a movement mechanism, a processor, and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes including acquiring a hardness-correspondence value corresponding to a hardness of a cutting object placed on the platen, acquiring cutting data for cutting a pattern from the cutting object, setting, based on the hardness-correspondence value, an offset amount used for a rotation correction to a greater value when the hardness of the cutting object is hard than when the hardness of the cutting object is soft, correcting, using the set offset amount, data, of the cutting data, corresponding to a direction change section, and performing cutting processing to cut the cutting object using a cutting blade, by controlling the movement mechanism in accordance with the corrected cutting data.

A cutting pen includes a cutting pen main body including a blade projecting from one end, a medium pressing member inserted into the cutting pen main body to be movable in a state in which a cap portion projects from the one end of the cutting pen main body, and a knock mechanism configured to change the position of the medium pressing member with respect to the cutting pen main body stepwise by causing the medium pressing member to repetitively reciprocally move with respect to the cutting pen main body.

A cutting device includes a placement member on which an object to be cut is placed and a mounting portion to which a cutting blade is mounted. The cutting device detects, in the course of the mounting portion moving, a pressure correspondence value corresponding to a pressure applied to the mounting portion, and a movement amount of the mounting portion, decides a cutting pressure correspondence value that is the pressure correspondence value corresponding to a cutting pressure, on the basis of the pressure correspondence value and the movement amount after the cutting blade has come into contact with the object to be cut, and acquires cutting data. The cutting device further applies in accordance with the acquired cutting data, the cutting pressure corresponding to the decided cutting pressure correspondence value to the mounting portion, and cuts the object to be cut, using the cutting blade mounted to the mounting portion.

A cutting plotter includes a cutting plotter shell, a placement plate disposed outside the cutting plotter shell, an upper transmission assembly and a lower transmission assembly disposed at two ends of the cutting plotter shell, and a belt assembly disposed in the cutting plotter. The lower transmission assembly and the upper transmission assembly correspond to each other to assist paper in entering the cutting plotter. A slide rod is disposed in the cutting plotter shell and located at the top of the upper transmission assembly, and a cutting tool assembly is disposed on the slide rod. The belt assembly includes a driving motor. A belt body is steered through a steering belt wheel of the belt assembly, and the distance between parallel parts of the belt body is decreased through two small-radius tensioning belt wheels, such that the chain installation space is reduced and the cutting plotter is compact.

A crafting apparatus that performs work on a workpiece is disclosed. The workpiece includes, for example, an edible foodstuff material. In an embodiment, the edible foodstuff material includes nutritional value and is consumable by, for example, human beings, animals or the like.

An electronic cutting machine includes at least one housing to which a drive roller is coupled for moving a sheet to be cut in a first direction and a cutter assembly coupled to the housing and moveable in a second direction that is perpendicular to the first direction.

A cutting device includes a platen, a mounting portion, a first movement mechanism, a second movement mechanism, a detector, a processor, and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include acquiring cutting data, acquiring a contact position output by the detector when the cutting blade comes into contact with the holding member, and controlling the first movement mechanism in accordance with the cutting data to move the mounting portion and the holding member to a cutting start position. The processes include controlling the second movement mechanism, at the cutting start position, to move the mounting portion in the third direction to a cutting position set on the basis of the contact position, and controlling the first movement mechanism in accordance with the acquired cutting data to perform cutting processing.

A cutting machine head and a cutting machine are provided in the present invention. The cutting machine head includes a fixing plate, a cutter holder, a cutting component, a machine head lifting mechanism and a machine head rotating mechanism. The cutter holder is mounted on the fixing plate. The machine head lifting mechanism is connected to the cutter holder, and is used to drive the cutter holder to move up and down on the fixing plate. The cutting component includes at least two cutter head assemblies mounted on the cutter holder. The machine head rotating mechanism is connected to the cutter head assemblies for driving the cutter head assemblies to rotate. The rotating angle of each cutter head assembly of the cutting machine head can be controlled. The machine head rotating mechanism controls the cutter head assembly to rotate when the machine head is cutting, and the resulting cutting line has no flaws, which can ensure the integrity of the cutting pattern.