A cutter includes a main body, a cog assembly, and a blade. The main body is provided with an anvil. The cog assembly includes a drive shaft and a first and a second cog. The drive shaft is rotatably connected to the main body. The drive shaft has a first end configured to detachably connect which a power tool. The first cog moves synchronously with the drive shaft. The second cog is rotatably connected to the main body and rotates upon rotation of the first cog. The blade is rotatably connected to the main body and connected to the second cog. The blade is rotatable between a deployment position and a cutting position and has a cutting edge. The cutting edge is disposed away from the anvil when the blade is in the deployment position, but is adjacent to the anvil when the blade is in the cutting position.

A printer configured to cut recording paper with a fixed blade and a movable blade has a push member configured to push out the movable blade or racks provided at both longitudinal ends of the movable blade, to expose a blade of the movable blade, and the push member is fixed in position while the blade is exposed.

In one embodiment, a method includes causing a robotic limb to intercouple with a handle of a knife. The knife comprising a handle at a proximal end where the handle is configured to intercouple with the robotic limb, a bade connected to the handle, and an indentation at a distal end where the indentation is configured to intercouple with a bar of the cutting surface, and where the blade is rotatable around a first axis while intercoupled with the bar. The method includes causing the indentation of the knife to be intercoupled with the bar of a cutting board. The cutting board comprising the cutting surface and the bar affixed to the cutting surface. The method includes adjusting, by the robotic limb the position of the knife along the bar to along with an object on the cutting surface and rotating the knife to cut the object.

In one embodiment, a method includes causing a robotic limb to intercouple with a handle of a knife. The knife comprising a handle at a proximal end where the handle is configured to intercouple with the robotic limb, a bade connected to the handle, and an indentation at a distal end where the indentation is configured to intercouple with a bar of the cutting surface, and where the blade is rotatable around a first axis while intercoupled with the bar. The method includes causing the indentation of the knife to be intercoupled with the bar of a cutting board. The cutting board comprising the cutting surface and the bar affixed to the cutting surface. The method includes adjusting, by the robotic limb the position of the knife along the bar to along with an object on the cutting surface and rotating the knife to cut the object.

A printer comprises a cutter; a non-volatile storage module; a command receiving module configured to receive a command for instructing a cutting method of a continuous paper from an information processing apparatus connected to the printer; a first cutting control module configured to control an operation of the cutter to cut the continuous paper in the cutting method instructed by the command; a recording module configured to record information indicating the cutting method in the storage module at the time of paper cutting based on the command; and a second cutting control module configured to cut the continuous paper in a cutting method indicated by the information stored in the storage module at the time of paper cutting without the command.

A printer comprises a cutter; a non-volatile storage module; a command receiving module configured to receive a command for instructing a cutting method of a continuous paper from an information processing apparatus connected to the printer; a first cutting control module configured to control an operation of the cutter to cut the continuous paper in the cutting method instructed by the command; a recording module configured to record information indicating the cutting method in the storage module at the time of paper cutting based on the command; and a second cutting control module configured to cut the continuous paper in a cutting method indicated by the information stored in the storage module at the time of paper cutting without the command.

A bundle breaker has upstream and downstream breaking supports each having an input end and an output end. A first platen is located above the upstream breaking support, and a second platen is located above the downstream breaking support, and each platen has an actuator for moving the respective platen toward and away from the breaking supports to selectively clamp a log between the platens and the breaking supports. A third actuator is configured to apply a shifting force to the downstream breaking support to shift the input end of the downstream breaking support relative to the output end of the upstream breaking support from a first position toward a second position to break the second portion of the log from the first portion of the log. The first actuator and/or the second actuator and/or the third actuator includes at least one servo motor.

A method where a propeller is set into locomotion relative to a medium at least partially surrounding the propeller. An actuator induces a rotation of the propeller relative to the medium and about a rotational axis of the propeller, and the propeller converts its rotational movement into locomotion relative to the medium. The aspect ratio of at least one cross-section of the propeller is three or more. Also a helical or modifiedly helical propeller for converting rotational movement of the propeller into locomotion of the propeller relative to a medium at least partially surrounding the propeller, where the aspect ratio of at least one cross section of the propeller is three or more. And a method of producing a propeller, including the step of providing a plate extending along the helical axis, where the aspect ratio of at least one cross section of the plate is three or more.

A spatula edge trimming apparatus for re-edging a spatula includes a base housing with the front side having a spatula receptacle slot extending through to the cavity. The bottom side has a drop aperture extending through to the cavity. The spatula receptacle slot is configured to receive a spatula. A cutter is coupled to the base housing within the cavity and is configured to cut an edge of the spatula. A drive is coupled to the top side of the base housing and is in operational communication with the cutter. A plurality of controls is coupled to the base housing and is in operational communication with the drive. A power source is coupled to the housing. The power source is in operational communication with, and provides power to, each of the drive and the plurality of controls.

A printing apparatus includes a case configured to receive roll paper of a rolled recording medium, a cover rotatably attached to the case to be used to open or close the case, a transport section including a transport motor provided to the case and a transport roller provided to the cover, the transport section being configured to pull the recording medium from the roll paper and transport the recording medium along a recording medium path, and a cut section including a first blade and a first blade motor configured to move the first blade provided to the cover and a second blade provided to the case, the cut section being configured to cut the recording medium. The first blade motor includes a first blade motor shaft, and the first blade motor is provided to the cover such that a first extension line extending from the first blade motor shaft and a second extension line extending from at least part of the recording medium path in a width direction of the recording medium intersect each other when the cover is closed.