A cutting apparatus includes a blade changing apparatus. The blade changing apparatus includes a blade mounting and removal portion, which in turn includes: a holding portion that removably holds a circular base of a cutting blade; a moving support portion that supports the holding portion and moves the holding portion to a removal and mounting position at which an insertion hole in the blade faces a boss of a blade mount; and a coupling mechanism that couples the holding portion with the moving support portion such that the holding portion is freely tiltable with respect to the moving support portion. The coupling mechanism includes a plurality of elastic member pairs, each pair, while tensioning the holding portion in opposite directions, fixing the holding portion to the moving support portion. Forces acting from the elastic member pairs balance each other to thereby support the holding portion tiltably and aerially.

An electronic pipe cutting system and methods of use are described herein. A drive cutting assembly contains one or more cutting wheels that rotate around a pipe. A drill is used to connect to a main shaft and one or more gears transfer and transform the energy of the drill into optimal motion of the cutting wheels. The present invention provides a low cost, compact and lightweight pipe cutting system in comparison to other electronic pipe cutting system.

The present disclosure is directed to a method for cutting a coreless rolled paper product. The method includes defining a core offset value for a cut, the cut having a starting point and an ending point, setting a plunge speed for a saw to a first plunge speed, and changing the plunge speed to a second plunge speed when the saw reaches the core offset value.

A method involves conveying tissue logs in a saw conveyor. The conveyor has independent lane control cutting and variable conveyor flight length. In one aspect of the method a first tissue log is received in a lane of a conveyor. With a first log advancement member, the first tissue log is advanced in the lane of the conveyor for cutting with a tissue log saw. A second tissue log is received in the lane of the conveyor when the first tissue log has advanced sufficiently in the lane to accommodate the second tissue log in the lane. With a second log advancement member, the second tissue log is advanced in the lane of the conveyor for cutting with the tissue log saw independently of the step of advancing the first tissue log in the lane. The conveyor may also have multiple lanes.

The present disclosure is directed to a method for cutting a coreless rolled paper product. The method includes defining a core offset value for a cut, the cut having a starting point and an ending point, setting a plunge speed for a saw to a first plunge speed, and changing the plunge speed to a second plunge speed when the saw reaches the core offset value.

A device for taking a sample from a solid body by cutting out, having a frame and a cutting tool retained on the frame in such a way that the cutting tool can be moved relative to the frame, wherein the cutting tool, at least in parts, at least substantially has the shape of a hollow spherical cap or a hollow spherical segment. A method for taking a sample from a solid body by cutting out is implemented with the device.

A device for cutting partial strips having a defined specifiable mass, preferably from a dough strip, including at least one cutting unit, which has a blade. The cutting unit is adjustably fastened to a retaining element of the device in such a way that the blades cut a dough strip, which is conveyed past the device and is moved in the longitudinal direction of the dough strip, into at least two partial pieces predominantly parallel to the direction of motion of the dough strip. The cutting unit includes an adjustment mechanism, wherein the adjustment mechanism is designed in such a way that the position of the blade can be adjusted with respect to the position of the cutting unit, in particular over the width of the dough strip, by automated control.

A conveyor system for advancing tissue logs has a first log advancement member that conveys a lead tissue log toward a discharge end of a lane via a first drive, and a second log advancement member that conveys a successive tissue log after the lead tissue log toward the discharge end of the lane via a second drive. A controller is coupled to the first and second drives. The controller is adapted and configured to control: the first drive to move the first log advancement member between a start and finish position, the second drive to move the second log advancement member between the start and finish position, and the first drive independently of the second drive. A plurality of like lanes may be provided and the controller may also control the first and second drives of one lane independently of the first and second drives of another lane.

A lead trimming module and system provides automated means for trimming leads of a mounted electrical component. A controller executes a programmable lead trimming algorithm and correspondingly controls a movement apparatus, such as an XYZ gantry robot, and mounted lead trimming module for selectively trimming lead protrusions to a programmed lead length.

A lead trimming module and system provides automated means for trimming leads of a mounted electrical component. A controller executes a programmable lead trimming algorithm and correspondingly controls a movement apparatus, such as an XYZ gantry robot, and mounted lead trimming module for selectively trimming lead protrusions to a programmed lead length.