A tape cutting device includes a device frame adapted to ride along a tape roll. A blade housing may be carried by the device frame. The blade housing may have a pair of spaced-apart tape roll guides and a blade space between the tape roll guides. A blade actuating panel may be pivotally carried by the device frame. A tape cutting blade having a tape cutting edge may be carried by the blade actuating panel. The tape cutting blade may be selectively deployable between a retracted blade position in the blade space and an extended blade position with respect to the blade space in which the tape cutting blade engages the tape roll responsive to pivoting of the blade actuating panel on the device frame. A retaining mechanism may be carried by the tape cutting unit. The retaining mechanism may be adapted to secure the tape cutting unit on the tape roll.

There is disclosed a cutting mechanism for severing elongate fibre reinforcement material in composite material lay-up equipment, the cutting mechanism comprising a cutting element and a counteracting element which cooperate to sever fibre reinforcement material extending through the nip between them, the cutting element being mounted on an elongate arm which is pivotable about a pivot axis A spaced from the nip, to displace the cutting element relatively to the counteracting element to perform a cutting stroke, the mechanism further comprising guide means arranged to guide the fibre reinforcement material through the nip in a feed direction transverse to the pivot axis A, and an actuation device for driving the elongate arm in a cutting stroke, the actuation device acting on the elongate arm at a position away from the cutting element. There is also provided composite material lay-up equipment comprising the cutting mechanism.

A method for separating blanks includes continuous conveying of a sheet metal strip in a transport direction to a laser cutting station, concurrent cutting of the sheet metal strip by at least one cutting laser, wherein a cut sheet metal strip is formed from successive sections of the same cutting geometry, transporting the cut sheet metal strip on a first conveyor belt in the transport direction, taking over the cut sheet metal strip from the first conveyor belt, transporting the cut sheet metal strip in the transport direction, separately ejecting the at least one residual blank of each section, transporting the at least one blank of each section into overlap with a second conveyor belt and ejecting the at least one blank from the suction conveyor, and transporting the blanks ejected one after the other from the suction conveyor horizontally in the transport direction to a collecting station.

Methods and apparatus for use with a trimmer to produce a plurality of books having different trim sizes are disclosed. An example method includes obtaining recipient data; based on the recipient data, generating an order to produce first books and second books, the first books having a first size and the second books having a second size, the second size different from the first size; and producing the first books and the second books in accordance with the order by: actuating a first backstop to enable a first book of the first books to engage the first backstop; trimming the first book with a cutting device; and actuating a second backstop to enable a second book of the second books to engage the second backstop; and trimming the second book with the cutting device, the first backstop at a first distance from the cutting device and the second backstop at a second distance from the cutting device.

A cell cutting device that cuts a mother substrate for display devices includes a fixing unit configured to move in a state where the mother substrate for display devices is fixed on the fixing unit, a cutter configured to perform a cutting process on the mother substrate for display devices and the cutter faces a surface of the mother substrate during the cutting process, a cutter driving unit driving the cutter in a state where the cutter is fixed thereon, and a buffer member arranged on another surface of the mother substrate to correspond to the cutter. The other surface is opposite the surface facing the cutter.

A cutter to cut die attach solder preform material is disclosed. It is formed of: a base; a pair of raised blocks spaced apart on the base with each having a slot sized to accommodate a cutting blade configured to cleave the material to be cut, constrain the cutting blade to vertical movement, and maintain the squareness of the cutting blade with respect to the base for cutting material; an adjustable stop positioned forward of the cutting blade which is configured to be moved so as to set the length of the material to be cut by the cutting blade; and a linear scale positioned proximate to the adjustable stop which enables a measured length of the material to be cut. Methods of using the aforementioned cutter are also disclosed.

The invention relates to a device for cutting a base web with a separating device as well as a corresponding method, where the separating device can cut a base web into individual bases which can be guided under a fresh product. The separating device comprises a knife device and a counter cutting device, each of which comprise at least two cutting edges. The knife device and/or the counter cutting devices can be moved to and fro in two directions.

Described herein is a method for forming a monolithic surface in a ceiling system, the method comprising overlapping a first facing sheet and a second facing sheet to create an overlap region, each of the first and second facing sheets having a first major surface opposite a second major surface and side surface extending between the first and second major surfaces, wherein the lower surface of the first facing sheet contacts the upper surface of the second facing sheet within the overlap region, and running a blade of a cutting tool along the overlap region such that the blade extends through the first and second facing sheets at a cutting angle that is oblique to the first major surface of the first facing sheet within the overlap region.

A cutting mechanism for a composite material lay-up head comprises a plurality of blades, each blade having a variable width, and a drive mechanism to drive the blades along an axial direction to cut a respective tow of composite material. The blades are rotatable about the axial direction between a first angular position, wherein the blades sever the respective tow along a first cutting direction transversal to a longitudinal direction of the respective tow, and a second angular position, wherein the blades sever the respective tow along a second cutting direction rotated by a rotation angle to the first cutting direction.

The line comprises a feed path (P) of the web material (N) and, along the feed path, a transverse cutter (5) for cutting scraps (FS) from the continuous web material (N). The line includes a system for removing scraps of web material cut by the cutter. The system for removing scraps is fitted with a scrap accumulator member (21). The accumulator member (21) is movable in a direction generally parallel to the feed path (P) of the web material between: a position for receiving scraps, wherein the distance between the accumulator member (21) and the cutter (5) is such that scraps (FS) generated by the cutter (5) are collected by the accumulator member (21); and a standby position, at a distance from the cutter (5) such that scraps (FS) generated by the cutter are collected in a space (D) between the cutter (5) and the accumulator member (21).