A slitting machine for threading scrap material has first and second arbors; and inner rotary knives and outer rotary knives disposed on each of the first and second arbors. A pair of rolls of fill material are positioned relative to the outer rotary knives. The rolls dispense fill material onto a strip of material so that the fill material is engaged by and cut by the outer knives as well as the strip portion overlaid by the fill material to be cut by the outer rotary knives.

A slitting machine for threading scrap material has first and second arbors; and inner rotary knives and outer rotary knives disposed on each of the first and second arbors. A pair of rolls of fill material are positioned relative to the outer rotary knives. The rolls dispense fill material onto a strip of material so that the fill material is engaged by and cut by the outer knives as well as the strip portion overlaid by the fill material to be cut by the outer rotary knives.

Cutting tools for pipe cutting frames are disclosed. Example split frame pipe cutting tools include a frame and a slide tool configured to position a cutting edge in contact with the workpiece, the slide tool comprising: a radial advancement mechanism configured to provide radial advancement of the cutting edge based on circumferential advancement of the slide tool by the frame; and an axial guide rail; a recirculating bearing carriage configured to slide in an axial direction along the axial guide rail and to couple the cutting edge to the axial guide rail; an axial advancement mechanism configured to advance the cutting edge in the axial direction with respect to the workpiece by translating radial advancement by the radial advancement mechanism to axial advancement based on a cutting template coupled to the radial advancement mechanism.

A superabsorbent polymer hydrogel chopping device is provided. The superabsorbent polymer hydrogel chopping device includes a barrel body having a transfer space to which a hydrogel is transferred therein and a discharge portion through which the hydrogel is discharged is formed to face in a ground direction, a transfer unit installed in the barrel body and configured to transfer the hydrogel in the transfer space, a cutter member installed in the barrel body and configured to pulverize the hydrogel transferred by the transfer unit, and a perforated plate configured to discharge particles of the hydrogel pulverized by the cutter member to the outside of the barrel body.

A superabsorbent polymer hydrogel chopping device is provided. The superabsorbent polymer hydrogel chopping device includes a barrel body having a transfer space to which a hydrogel is transferred therein and a discharge portion through which the hydrogel is discharged is formed to face in a ground direction, a transfer unit installed in the barrel body and configured to transfer the hydrogel in the transfer space, a cutter member installed in the barrel body and configured to pulverize the hydrogel transferred by the transfer unit, and a perforated plate configured to discharge particles of the hydrogel pulverized by the cutter member to the outside of the barrel body.

An example secure enclosure system and associated methods are described. The example enclosure system includes a housing, a shelf disposed within the housing, an array of sensors arranged within the housing, and an interface operatively coupled to the array of sensors. The shelf includes a supporting surface configured to support physical objects. The array of sensors is configured to detect characteristics of the each physical object supported by the supporting surface of the shelf. The interface is configured to transmit the detected characteristics from the array of sensors to a central computing system. The central computing system is configured to determine an identity of each physical object based on the detected characteristics.

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 stir stick forming assembly for a stir stick dispenser in a beverage vending machine comprises an inlet passage for a tape for forming the stir sticks, an outlet opening for the stir sticks, and, between the inlet passage and the outlet opening, a tape feeding assembly to feed the tape and a tape cutting assembly to transversally cut the tape and form the sticks. The tape feeding and cutting assemblies are driven by a single common electric motor and designed to feed the tape when the electric motor is rotated in one rotation direction and to cut the tape when the electric motor is driven in the opposite rotation direction under the control of a command and control unit.

An automatic blade and conveyor gap adjustment assembly for a blade portioning conveyor machine having a blade assembly and a conveyor assembly with an infeed conveyor and an outfeed conveyor includes a blade adjustment assembly suitable for moving the blade assembly between at least first and second positions relative to the conveyor assembly and a first automatic conveyor gap adjustment assembly. The first automatic conveyor gap adjustment assembly is configured to define a first gap between an interior nose of the infeed conveyor and an interior nose of the outfeed conveyor to correspond to the first position of the blade assembly, and it is configured to define a second gap between the interior nose of the infeed conveyor and the interior nose of the outfeed conveyor to correspond to the second position of the blade assembly.