There is provided a method for executing processing for a workpiece. The method includes a table imaging step of imaging a foreign object of a transparent part of a holding table having the transparent part composed of a transparent member at least in part of a holding surface and forming a foreign object taken image, a holding step of holding the workpiece by the holding table after executing the table imaging step, a workpiece imaging step of imaging the workpiece held by the holding table through the transparent part and forming a workpiece taken image, and a processing step of executing cutting for the workpiece held by the holding table by a cutting unit.

Vinyl tile cutting devices are disclosed herein. The disclosed vinyl tile cutting devices include a base element. The base element is configured to support a vinyl tile thereon. The disclosed vinyl tile cutting devices further include a cutting assembly. The cutting assembly includes one or more rotatable cutting blades for cutting said vinyl tile in a generally linear manner. In some embodiments, the vinyl tile cutting device includes a heating element. The heating element is configured to heat said tile prior to the cutting of said vinyl tile.

Vinyl tile cutting devices are disclosed herein. The disclosed vinyl tile cutting devices include a base element. The base element is configured to support a vinyl tile thereon. The disclosed vinyl tile cutting devices further include a cutting assembly. The cutting assembly includes one or more rotatable cutting blades for cutting said vinyl tile in a generally linear manner. In some embodiments, the vinyl tile cutting device includes a heating element. The heating element is configured to heat said tile prior to the cutting of said vinyl tile.

A system and method relating to a slicer system, the slicer system includes a slicer that includes a slider blade, a first motor configured to rotate the slicer blade, an in-feed table configured to hold the product and move, while the product is sliced by the slicer blade; an out-feed table configured to receive a sliced portion of a product, in response to the slicer blade slicing the product, at least one second motor, each of the at least one second motor configured to move the out-feed table in at least one direction; and at least one processor configured to cause the sliced portion of the product to be received on the out-feed table in a predetermined shape by controlling the at least one second motor to move the out-feed table while the slicer is slicing the product.

A system and method relating to a slicer system, the slicer system includes a slicer that includes a slider blade, a first motor configured to rotate the slicer blade, an in-feed table configured to hold the product and move, while the product is sliced by the slicer blade; an out-feed table configured to receive a sliced portion of a product, in response to the slicer blade slicing the product, at least one second motor, each of the at least one second motor configured to move the out-feed table in at least one direction; and at least one processor configured to cause the sliced portion of the product to be received on the out-feed table in a predetermined shape by controlling the at least one second motor to move the out-feed table while the slicer is slicing the product.

A blade holder (1) for a longitudinal cutting machine includes a rotatably mounted blade head (3) for holding a circular blade (4) and at least one locking device (2). At least one actuator actuates an element of the blade holder (1), and a moveably mounted adjusting slide (5) positions the blade head (3) on the longitudinal cutting machine. The adjusting slide (5) for positioning of the blade head (3) is moveable from a starting position to a positioning point. With the blade holder, materials can be cut perfectly with high precision. In particular, materials such as tissue, non-woven materials, paper, OLED film, displays, battery film, lithium batteries, aluminum, copper film, anodes, and cathodes can be cut.

A cutlery apparatus that is configured to provide efficient removal of corn kernels from a corn cob. The cutlery apparatus includes a support member that is planar in manner having an upper surface and a perimeter edge. A first brace member and a second brace member are mounted to the upper surface of the support member and further include a void therebetween. The first brace member and second brace member are parallel to each other and angularly oriented on the support member. A cutting member is provided wherein the cutting member has a first portion disposed within the void and a second portion extending beyond the perimeter edge of the support member. The second portion of the cutting member is a metal blade. A clamp member extends across the void and is movably secured to the first brace member and second brace member.

A cutlery apparatus that is configured to provide efficient removal of corn kernels from a corn cob. The cutlery apparatus includes a support member that is planar in manner having an upper surface and a perimeter edge. A first brace member and a second brace member are mounted to the upper surface of the support member and further include a void therebetween. The first brace member and second brace member are parallel to each other and angularly oriented on the support member. A cutting member is provided wherein the cutting member has a first portion disposed within the void and a second portion extending beyond the perimeter edge of the support member. The second portion of the cutting member is a metal blade. A clamp member extends across the void and is movably secured to the first brace member and second brace member.

A push block for advancing a work piece over a table saw is disclosed. The push block includes a table-top; a handle mounted on the table-top; a first leg having a proximal end mounted on a first side of the table-top, where the first leg includes a first grip member arranged on distal end of the first leg; a second leg having a proximal end movably mounted underneath the table-top, the second leg is spaced apart from the first leg to form a cut tunnel therebetween, where the second leg includes a second grip member arranged on a distal end of the second leg; a maneuvering mechanism, arranged on the table-top, for moving the second leg to adjust a width of the cut tunnel; and a balancing wheel slidably mounted on a second side, opposite to the first side, of the table-top.

An operational monitoring system for use with a liquid jet cutting system can include an accelerometer coupled to a cutting head of the liquid jet cutting system. The accelerometer can be configured to generate motion data associated with movement of the cutting head. The system can include a computing device operably connected to the accelerometer and having a memory and a processor. The memory can store a planned data set including expected parameters associated with movement of the cutting head along a planned cut path. In some embodiments, the computing device is configured to receive the motion data from the accelerometer and correlate the motion data to the planned data set.