Provided is a cutting apparatus including: a rotary table; a pressing unit; a cutting unit; a drive unit that rotates and moves the rotary table; a transport unit that transports a cut book in a transport direction to a stacking position; and a control unit that controls the drive unit and the transport unit, and the control unit performs, in a switchable manner, a first transport mode to transport a book having edges cut by the cutting unit in the transport direction in a state where the spine was rotated to be arranged in a predetermined direction about a rotation center of the rotary table and a second transport mode to transport a book having edges cut by the cutting unit in the transport direction in a state where the spine was rotated to be arranged in a direction different from the predetermined direction about the rotation center.

Provided is a cutting apparatus including: a rotary table; a pressing unit; a cutting unit; a drive unit that rotates and moves the rotary table; a transport unit that transports a cut book in a transport direction to a stacking position; and a control unit that controls the drive unit and the transport unit, and the control unit performs, in a switchable manner, a first transport mode to transport a book having edges cut by the cutting unit in the transport direction in a state where the spine was rotated to be arranged in a predetermined direction about a rotation center of the rotary table and a second transport mode to transport a book having edges cut by the cutting unit in the transport direction in a state where the spine was rotated to be arranged in a direction different from the predetermined direction about the rotation center.

Disclosed is a pouch cutting apparatus for secondary batteries, which cuts remaining portions of a terrace of a pouch-type secondary battery except for folded portions, the pouch cutting apparatus including a frame, a lower cutting unit fixed to a lower side of a front surface of the frame and configured to support a lower portion of the terrace in a longitudinal direction of the terrace so that the remaining portion extends to the outside of a rear surface thereof in a state in which the pouch-type secondary battery to be cut is fixed, and an upper cutting unit disposed at an upper side of the front surface of the frame so as to be movable upward or downward and configured to cut the remaining portion extending to the outside of the rear surface of the lower cutting unit.

Disclosed is a pouch cutting apparatus for secondary batteries, which cuts remaining portions of a terrace of a pouch-type secondary battery except for folded portions, the pouch cutting apparatus including a frame, a lower cutting unit fixed to a lower side of a front surface of the frame and configured to support a lower portion of the terrace in a longitudinal direction of the terrace so that the remaining portion extends to the outside of a rear surface thereof in a state in which the pouch-type secondary battery to be cut is fixed, and an upper cutting unit disposed at an upper side of the front surface of the frame so as to be movable upward or downward and configured to cut the remaining portion extending to the outside of the rear surface of the lower cutting unit.

Disclosed is a method of cutting off self-adhesive linerless endless tape labels, using a cutter of a label printer, wherein the cutter comprises a transport roller, which is rotatable about an axis of rotation, and a blade unit that is linearly travelable in parallel with the axis of rotation of the transport roller and that has a cutting blade directed in the direction toward the transport roller, where tape labels pass between the transport roller and the blade unit, and are transported further step-wise in a motorized manner, by one label, and, between two consecutive further transport steps, the blade unit is linearly traveled in a motorized manner between a start position and a target position in order to cut off a label, such that the label is completely cut off and is held at the transport roller by the blade unit in the target position of the blade unit.

Disclosed is a method of cutting off self-adhesive linerless endless tape labels, using a cutter of a label printer, wherein the cutter comprises a transport roller, which is rotatable about an axis of rotation, and a blade unit that is linearly travelable in parallel with the axis of rotation of the transport roller and that has a cutting blade directed in the direction toward the transport roller, where tape labels pass between the transport roller and the blade unit, and are transported further step-wise in a motorized manner, by one label, and, between two consecutive further transport steps, the blade unit is linearly traveled in a motorized manner between a start position and a target position in order to cut off a label, such that the label is completely cut off and is held at the transport roller by the blade unit in the target position of the blade unit.

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 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 slicing machine for slicing meat strands that have a cross section that varies over a longitudinal extension in large numbers and as quickly as possible into weight precise slices. In one embodiment, two meat strands are received adjacent to each other in a respective form tube and pushed against a respective separately adjustable stop plate independently from each other by a controlled longitudinal press plunger and compressed in the longitudinal direction. In addition, a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other and thus the respective meat strand is transversally compressed to a constant cross section prior to slicing.

The present invention concerns a device (1) for cutting a plate (70) of a pre-determined thickness, preferably a glass plate. The device foresees: —A frame (10, 31); —A support device (12, 20) for a cutting utensil connected to the frame. In accordance with the invention, the support device (12, 20) is mobile according to an extraction/retraction motion with respect to the frame (10). Further, a hinged lever system (32, 33, 34) is further foreseen, having a feeler element (50), said hinged lever system being kinematically coupable with said support device (12, 20) in such a way as to bind it in a pre-determined initial position with respect to the frame and so that, when said feeler element is pressed against a surface (70), an operation of the hinged lever system is determined which conducts the support device, starting from said initial position, to an extraction motion.