A product slicer incorporating an automatic slicer engagement mechanism attached to a carriage assembly and configured for quick, safe, reliable, and releasable engagement with a belt to provide powered automated slicing, and disengagement to allow manual slicing.

A product slicer incorporating an automatic slicer engagement mechanism attached to a carriage assembly and configured for quick, safe, reliable, and releasable engagement with a belt to provide powered automated slicing, and disengagement to allow manual slicing.

A cutting apparatus includes a blade changing apparatus. The blade changing apparatus includes a blade mounting and removal portion, which in turn includes: a holding portion that removably holds a circular base of a cutting blade; a moving support portion that supports the holding portion and moves the holding portion to a removal and mounting position at which an insertion hole in the blade faces a boss of a blade mount; and a coupling mechanism that couples the holding portion with the moving support portion such that the holding portion is freely tiltable with respect to the moving support portion. The coupling mechanism includes a plurality of elastic member pairs, each pair, while tensioning the holding portion in opposite directions, fixing the holding portion to the moving support portion. Forces acting from the elastic member pairs balance each other to thereby support the holding portion tiltably and aerially.

A cutting apparatus includes a blade changing apparatus. The blade changing apparatus includes a blade mounting and removal portion, which in turn includes: a holding portion that removably holds a circular base of a cutting blade; a moving support portion that supports the holding portion and moves the holding portion to a removal and mounting position at which an insertion hole in the blade faces a boss of a blade mount; and a coupling mechanism that couples the holding portion with the moving support portion such that the holding portion is freely tiltable with respect to the moving support portion. The coupling mechanism includes a plurality of elastic member pairs, each pair, while tensioning the holding portion in opposite directions, fixing the holding portion to the moving support portion. Forces acting from the elastic member pairs balance each other to thereby support the holding portion tiltably and aerially.

Automatic machine for the production of electrical energy storage devices comprising: a feeding unit for feeding at least one strip of material along a feeding path; a cutting and conveying apparatus for cutting and conveying the strip comprising a slide linearly movable with reciprocating motion parallel to the feeding path between a retracted position and an advanced position, the slide carries a gripping assembly for sequentially gripping the strip at successive portions thereof, and a cutting assembly for sequentially cutting the strip when the latter is gripped by the gripping assembly; and a rotary actuator configured to control the reciprocating motion of the slide; the machine comprises a motion transmission assembly for transforming a rotary motion output from the rotary actuator into the reciprocating motion of the slide.

Automatic machine for the production of electrical energy storage devices comprising: a feeding unit for feeding at least one strip of material along a feeding path; a cutting and conveying apparatus for cutting and conveying the strip comprising a slide linearly movable with reciprocating motion parallel to the feeding path between a retracted position and an advanced position, the slide carries a gripping assembly for sequentially gripping the strip at successive portions thereof, and a cutting assembly for sequentially cutting the strip when the latter is gripped by the gripping assembly; and a rotary actuator configured to control the reciprocating motion of the slide; the machine comprises a motion transmission assembly for transforming a rotary motion output from the rotary actuator into the reciprocating motion of the slide.

An apparatus is provided for shearing a metallic belt from which electrodes of electric accumulators are formed. The apparatus includes a cutting device able to shear a metallic belt advancing along a sliding path, a first slider positioned upstream of the cutting device and a second slider positioned downstream of the cutting device. A handling system drives the first slider and the second slider cyclically with corresponding outward and return strokes, in order to change the length of the sliding path in such a way as to stop cyclically successive portions of the metallic belt at the cutting device, maintaining constant the advancement velocity of the metallic belt upstream and downstream of the cutting device.

An apparatus is provided for shearing a metallic belt from which electrodes of electric accumulators are formed. The apparatus includes a cutting device able to shear a metallic belt advancing along a sliding path, a first slider positioned upstream of the cutting device and a second slider positioned downstream of the cutting device. A handling system drives the first slider and the second slider cyclically with corresponding outward and return strokes, in order to change the length of the sliding path in such a way as to stop cyclically successive portions of the metallic belt at the cutting device, maintaining constant the advancement velocity of the metallic belt upstream and downstream of the cutting device.

The machine includes a feeding path for the logs to be cut and a cutting head arranged along the feeding path. The cutting head includes a coupling for a disc-shaped cutting blade and is designed to impart the disc-shaped cutting blade a rotary motion around the axis thereof and a cyclic movement to cut the logs into single rolls, and to allow the logs to move forward along the feeding path. The machine also includes at least a grinding unit, including at least one grinding wheel mounted onto a rotation shaft and co-acting with a side of the disc-shaped cutting blade to grind the cutting edge of the same disc-shaped cutting blade. A controlled approach system is also provided to move the grinding wheel towards the disc-shaped cutting blade.

The machine includes a feeding path for the logs to be cut and a cutting head arranged along the feeding path. The cutting head includes a coupling for a disc-shaped cutting blade and is designed to impart the disc-shaped cutting blade a rotary motion around the axis thereof and a cyclic movement to cut the logs into single rolls, and to allow the logs to move forward along the feeding path. The machine also includes at least a grinding unit, including at least one grinding wheel mounted onto a rotation shaft and co-acting with a side of the disc-shaped cutting blade to grind the cutting edge of the same disc-shaped cutting blade. A controlled approach system is also provided to move the grinding wheel towards the disc-shaped cutting blade.