A front end conveyor includes a frame having a first side and a second side, a lower deck including a plurality of sheet supports and an upper deck including a plurality of sheet guides. Upper portions of the sheet supports lie in a first plane, and the plurality of sheet supports and the plurality of sheet guides define therebetween a sheet transport path for moving sheets in a sheet transport direction toward the downstream end of the front end conveyor. At least one helical brush is positioned at the sheet transport path and is configured to engage scrap material on the plurality of sheets. The conveyor also includes a drive configured to rotate the helical brush.

A front end conveyor has an upstream end and a downstream end, a lower deck including a plurality of primary sheet supports and an upper deck including a plurality of sheet guides. Upper portions of the primary sheet supports lie in a first plane and the sheet supports and sheet guides define a sheet transport path for moving sheets in a sheet transport direction. A pivotable sheet support extends from an upstream end of the lower deck and has at least one surface lying in a second plane. The pivotable sheet support is pivotable from a first position in which the second plane forms a first angle with the first plane and a second position in which the second plane forms a second angle with the first plane, the second angle being different than the first angle.

A thin layer is cut from a foam material body using a band-knife. A take-off device that lifts and removes the layer from the cutting site, includes a belt conveyor with an electrostatically chargeable conveyor element. The layer is lifted and removed from the cutting site by electrostatic attraction to the conveyor element.

A substrate cutting system is provided. The substrate cutting system includes a cutting tank, an object stage, a cutter assembly, an injection pump and a drain pump; the injection pump is configured to inject water into the cutting tank, and the drain pump is configured to draw water out from the cutting tank. A flowable water environment is formed in the cutting tank by an action of the injection pump and the drain pump. The object stage is a movable base configured to transport a substrate to be cut to the water environment in the cutting tank. The cutter assembly is configured to cut the substrate.

A front end conveyor includes a frame having a first side and a second side, a lower deck and an upper deck. The lower deck includes a plurality of sheet supports, and upper portions of the sheet supports lie in a first plane. The upper deck includes a plurality of sheet guides that define with the sheet supports a sheet transport path through the front end conveyor. A chad wall extends transversely to the sheet transport direction and has a top edge located below the sheet transport path and a front surface facing in the upstream direction and a plurality of fingers projecting from the front surface in the upstream direction. The top edge of the chad wall is positioned relative to the sheet transport path such that hanging chads depending from the sheets will impact the chad wall.

Provided is a microtomic system and process for the preparation of sections for microscope examination. A cutting edge in the system can cut through a sample block and produce a section one end of which remains attached to the cutting edge. A voltage generator can generate a voltage and apply the voltage between the cutting edge and a section receiver such as a semiconductor chip grid. Through electrostatic force caused by the voltage, another end of the section can anchor to the section receiver. The section is then spread on the receiver. The system is automatable, highly efficient, and does not need liquid to float sample sections, and can therefore maintain the integration of the sample sections.

Provided is a process of using a microtomic system for the preparation of sections for microscope examination. A cutting edge in the system can cut through a sample block and produce a section one end of which remains attached to the cutting edge. A voltage generator can generate a voltage and apply the voltage between the cutting edge and a section receiver such as a semiconductor chip grid. Through electrostatic force caused by the voltage, another end of the section can anchor to the section receiver. The section is then spread on the receiver. The system is automatable, highly efficient, and does not need liquid to float sample sections, and can therefore maintain the integration of the sample sections.

An apparatus for cutting a tinted film for a vehicle window is disclosed, the apparatus comprising: a housing having a top portion, the housing having a cutting-line displaying/displayed plate as a front portion thereof, wherein the cutting-line displaying/displayed plate is tilted such that the film is supported on the plate; a top horizontal extension from the top portion of the housing; a contaminant remover disposed on and beneath the top horizontal extension; and a cutting-line formation device housed in the housing, wherein the cutting-line formation device is configured to send cutting line data for the film to the cutting-line displaying/displayed plate when the cutting-line displaying/displayed plate includes a display panel; or the cutting-line formation device is configured to irradiate a beam corresponding to the cutting line data onto the cutting-line displaying/displayed plate when the cutting-line formation device include a beam projector.

Machines and methods capable of producing diced products from a variety of materials. A stripper plate for such machines and methods has one or more slots sized to accommodate one or more circular knives of a circular cutter. The stripper plate has a base and an oppositely-disposed second surface. The slots are defined in the second surface and extend from the second surface to the base so as to define individual openings in the base. The slots are defined by multi-tiered walls so that the slots are wider at the openings thereof than in another portion of the slots.

A substrate cutting system is provided. The substrate cutting system includes a cutting tank, an object stage, a cutter assembly, an injection pump and a drain pump; the injection pump is configured to inject water into the cutting tank, and the drain pump is configured to draw water out from the cutting tank. A flowable water environment is formed in the cutting tank by an action of the injection pump and the drain pump. The object stage is a movable base configured to transport a substrate to be cut to the water environment in the cutting tank. The cutter assembly is configured to cut the substrate.