A cutting tool mechanism comprises a base, a fixing module disposed on the base for fixing a product to be disassembled, a first moving mechanism disposed on a side of the fixing module, and a three-dimensional cutter rotatably disposed on the first moving mechanism and matched with the fixing module. The first moving mechanism extends in a first direction and is configured to drive the three-dimensional cutter to move in the first direction, and the three-dimensional cutter is configured to be driven to move in a second direction and in a third direction, each of the second direction and the third direction being perpendicular to the first direction.

An example sheet product dispenser includes a dispensing mechanism operable to dispense sheet product to provide the dispensed portion within a dispensing chute. A tear bar is provided for separating the dispensed portion from a remainder of the sheet product. A shuttle is positioned between a switch and the dispensed portion. The shuttle is movable between an unactuated position and an actuated position. When the shuttle is in the unactuated position, the switch is in the unactuated configuration. The shuttle and the switch are positioned within the sheet product dispenser such that as the user pulls on the dispensed portion the shuttle moves to the actuated position so that the shuttle applies a force on the switch sufficient enough to transition the switch to an actuated configuration to indicate removal of the dispensed portion. Other example improvements include providing feedback for user inputs to a product dispenser.

A portable belt cutting device comprises a cutting head and a cutting blade movably arranged on the cutting head. The cutting head has a drive mechanism to move the blade from a retracted position to an extended position, such that the blade severs a belt. The drive mechanism is coupled to the blade such that the blade is actively driven in both directions between the retracted position and the extended position. In some embodiments, the drive mechanism comprises a drive spindle which engages a thread formed in the cutting head. The spindle is bi-directionally movable and comprises a torque input geometry. In another embodiment the drive spindle and blade comprise connecting elements that form a positive connection when engaged.

A portable belt cutting device comprises a cutting head and a cutting blade movably arranged on the cutting head. The cutting head has a drive mechanism to move the blade from a retracted position to an extended position, such that the blade severs a belt. The drive mechanism is coupled to the blade such that the blade is actively driven in both directions between the retracted position and the extended position. In some embodiments, the drive mechanism comprises a drive spindle which engages a thread formed in the cutting head. The spindle is bi-directionally movable and comprises a torque input geometry. In another embodiment the drive spindle and blade comprise connecting elements that form a positive connection when engaged.

The present invention relates to an electrode cutting apparatus including a separated foreign matter removal unit capable of immediately removing separated foreign matter generated at the time of electrode cutting through a blow unit and a suction unit configured to be repeatedly operated and stopped according to an electrode cutting operation in order to remove separated foreign matter generated when the electrode cutting apparatus performs electrode cutting.

The present invention relates to an electrode cutting apparatus including a separated foreign matter removal unit capable of immediately removing separated foreign matter generated at the time of electrode cutting through a blow unit and a suction unit configured to be repeatedly operated and stopped according to an electrode cutting operation in order to remove separated foreign matter generated when the electrode cutting apparatus performs electrode cutting.

A method for realising articles having a predetermined area and aesthetic appearance, which includes using frames (1A, 1B, 1C) to each of which a portion (P1, P2, P3) of material having a prevalent flat extension can be removably hooked, comprising, in order, following steps: hooking a first portion (P1) of the material to a first frame (1A); carrying out, on the first portion (P1) hooked to the first frame, punching (G1) and stitching (G2) operations; carrying out, on the first portion (P1) hooked to the first frame (1A), cutting operations (G3) for defining a corresponding article (A) having predetermined area and aesthetic appearance defined by the combination of the profile of the article and by the mutual arrangement of the punching (G1) and the stitching (G2); releasing the article (A), and relative scrap (Z),from the first frame (1A).

A method for realising articles having a predetermined area and aesthetic appearance, which includes using frames (1A, 1B, 1C) to each of which a portion (P1, P2, P3) of material having a prevalent flat extension can be removably hooked, comprising, in order, following steps: hooking a first portion (P1) of the material to a first frame (1A); carrying out, on the first portion (P1) hooked to the first frame, punching (G1) and stitching (G2) operations; carrying out, on the first portion (P1) hooked to the first frame (1A), cutting operations (G3) for defining a corresponding article (A) having predetermined area and aesthetic appearance defined by the combination of the profile of the article and by the mutual arrangement of the punching (G1) and the stitching (G2); releasing the article (A), and relative scrap (Z),from the first frame (1A).

Disclosed is a method of cutting off self-adhesive linerless endless tape labels, using a cutter of a label printer, wherein the cutter comprises a transport roller, which is rotatable about an axis of rotation, and a blade unit that is linearly travelable in parallel with the axis of rotation of the transport roller and that has a cutting blade directed in the direction toward the transport roller, where tape labels pass between the transport roller and the blade unit, and are transported further step-wise in a motorized manner, by one label, and, between two consecutive further transport steps, the blade unit is linearly traveled in a motorized manner between a start position and a target position in order to cut off a label, such that the label is completely cut off and is held at the transport roller by the blade unit in the target position of the blade unit.

Disclosed is a method of cutting off self-adhesive linerless endless tape labels, using a cutter of a label printer, wherein the cutter comprises a transport roller, which is rotatable about an axis of rotation, and a blade unit that is linearly travelable in parallel with the axis of rotation of the transport roller and that has a cutting blade directed in the direction toward the transport roller, where tape labels pass between the transport roller and the blade unit, and are transported further step-wise in a motorized manner, by one label, and, between two consecutive further transport steps, the blade unit is linearly traveled in a motorized manner between a start position and a target position in order to cut off a label, such that the label is completely cut off and is held at the transport roller by the blade unit in the target position of the blade unit.