A cutting equipment for radio frequency identification (RFID) tire tags includes: a cling film peeling unit (1) for peeling off the cling film on a material strip; a transport unit (2) for transporting the material strip; a visual detection unit (3) for detecting the position of the material strip; and a cutting and grabbing unit (4) for cutting the material strip and conveying the cutting-formed radio frequency identification (RFID) tire tag to a placement position. The cutting equipment for radio frequency identification (RFID) tire tag can not only improve the processing efficiency and save costs, but also effectively improve the processing accuracy of the radio frequency identification (RFID) tire tags and avoid secondary pollution of the material strip.

A layboy includes an upper belt section with a plurality of transversely spaced upper belts that extend in a longitudinal direction such that bottom portions of the upper belts lie in a first plane that defines an upper boundary of a transport path through the layboy and a lower belt section having a plurality of transversely spaced lower belts that extend in the longitudinal direction such that top portions of the lower belts lie in a second plane that defines an upper boundary of the transport path. The bottom portion of one of the top belts and/or the top portion of one of the bottom belts extends away from the transport path to define a gap in the transport path at which scrap moving through the layboy can fall out of the transport path.

A scrap winder is provided as part of a slitting line that creates a ribbon of scrap. The scrap winder has a moveable mandrel that exposes a grabbing portion that rotates. The grabbing portion extends outward to reveal a puller cable reel. The puller cable reel contains a retrieving cable that attaches to the start of the scrap ribbon. As the grabbing portion rotates, the scrap is brought to the grabbing portion, where the scrap is attached directly to it. The mandrel is then moved into position and the scrap can be wound around the mandrel.

A scrap winder is provided as part of a slitting line that creates a ribbon of scrap. The scrap winder has a moveable mandrel that exposes a grabbing portion that rotates. The grabbing portion extends outward to reveal a puller cable reel. The puller cable reel contains a retrieving cable that attaches to the start of the scrap ribbon. As the grabbing portion rotates, the scrap is brought to the grabbing portion, where the scrap is attached directly to it. The mandrel is then moved into position and the scrap can be wound around the mandrel.

In a device for machine-making a dunnage product from a single- or multi-ply continuous paper web comprising a delivery conveyor for drawing in a paper web into the device whereby a conveying direction is defined and a cutter for separating the dunnage product from a three-dimensional strand of dunnage material formed from the paper web within the device, it is provided that a removal conveyor succeeds in the conveying direction to the cutter, the removal conveyor transporting the separated dunnage product away from the cutter.

In a device for machine-making a dunnage product from a single- or multi-ply continuous paper web comprising a delivery conveyor for drawing in a paper web into the device whereby a conveying direction is defined and a cutter for separating the dunnage product from a three-dimensional strand of dunnage material formed from the paper web within the device, it is provided that a removal conveyor succeeds in the conveying direction to the cutter, the removal conveyor transporting the separated dunnage product away from the cutter.

The invention relates to a sheet processing machine (01), comprising at least one infeed unit (200) and at least one shaping unit (300) and at least one stripping unit (400) and at least one multiple-up separating unit (500), wherein the sheet processing machine (01) comprises at least one drive (1001), wherein the at least one drive (1001) is configured to drive at least one stripping tool (402; 403) of at least one stripping mechanism (401) of the at least one stripping unit (400) and at least one multiple-up separating tool (502) of at least one multiple-up separating mechanism (501) of the at least one multiple-up separating unit (500) via at least one gear mechanism (1007), wherein at least one downstream gear mechanism (1019) is arranged downstream from the at least one gear mechanism (1007), wherein the at least one downstream gear mechanism (1019) is coupled to the at least one stripping tool (402; 403) of the at least one stripping unit (400) and/or to the at least one multiple-up separating tool (502) of the at least one multiple-up separating unit (500), wherein the at least one downstream gear mechanism (1019) is configured to convert at least one rotative movement into at least one reciprocating movement, wherein the at least one downstream gear mechanism (1019) is configured as a disk cam mechanism (1019). The invention likewise relates to a further sheet processing machine (01) and to a method for driving at least one tool (402; 403; 502) of a sheet processing machine (01).

An apparatus including: a conveyor having a machine direction and a cross-machine direction and a pair of edges spaced apart from one another in the cross-machine direction; a roller mounted to an arm and engaged with a continuous drive, wherein the arm is pivotably mounted to a frame, wherein the roller has a first position and a second position, wherein the roller in the first position is located at a predetermined location above the conveyor and laterally within the pair of edges, wherein the roller in the second position is remote from the predetermined location, and wherein the roller and the continuous drive are separated from one another by an obstruction; a driver operatively engaged with the arm to move the roller from the first position to the second position; and a vacuum port proximal to the roller when the roller is in the first position.

A tape dispenser with a handle providing an optimized grip handle in a parallel axis with the tape spool axis. A burnisher and tape end guide serves as a guard that covers the sharp teeth of the device when in the closed position. As the burnisher and tape end guide is held in the closed position it provides a support surface. This position allows space between the resting surface and the roller which, in combination with the tape end catch and the contact surface of the main body ensures that the adhesive tape does not stick to the resting surface. The tape end catch works in combination with the burnisher and tape end guide, return spring, tape end guide, and formed-in axis, counter-bored hole to capture the loose end of the tape once the blade cuts through the width of the tape.

A food cutting assembly for cutting a food item into a plurality of cubes includes a stand that may be positioned on a support surface. A box is coupled to the stand and a drawer is slidably positioned within the box. A plurality of cutting units is provided. A selected one of the cutting units is removably coupled to the box. The selected cutting unit may have a food item placed thereon and the selected cutting unit selectively cuts the food item. A press is movably coupled to the stand. The press is urged downwardly toward the selected cutting unit to press the food item through the selected cutting unit. Thus, the selected cutting unit cuts the food item.