A web cutting system is provided for use with a single transfer insert placement mechanism having at least one puck for transferring a discrete web and a continuous web feeding mechanism for feeding a continuous web wherein first and second rollers having substantially parallel axes and being aligned with one another form a nip at their juncture, an anvil is attached to one roller, a die is attached to the other roller, a vacuum source is coupled to one of the rollers, a plurality of vacuum apertures is formed in the same roller. One of the rollers is positioned adjacent to the single transfer insert placement mechanism and to the continuous web feeding mechanism. The continuous web is applied to one roller and at least one discrete web is transferred from the puck to the same roller after which a die cutting process of the webs occurs at the nip.

Methods and apparatuses for moving and/or transferring discrete articles are described. In particular, the methods and apparatuses relate to flexible arrangements to move and/or transfer discrete articles that vary in size and/or shape with minimal to no change in equipment.

Systems and methods utilizing stationary and/or moveable cutting components provide limited interference with web processing operations, such as pad spin and pitch alteration. Heat, laser, fluid, or mechanical cutting operations may be used, including respectively, a heated element (e.g., wire, ribbon, bar, or embossing or perforating element) that may be triggered inductively, water or steam jets, or improved knife/anvil cooperation.

An apparatus and method is provided for single transfer insert placement. The apparatus receives continuous web material and cuts a discrete section or pad from the web. The pad is then supported on a single transfer surface. The single transfer surface then may spin the supported pad to a desired angle and provide the pad to a receiving surface at a desired interval. The web material can be cut to different insert lengths and the placement location varied.

A web cutting system is provided for use with a single transfer insert placement mechanism having at least one puck for transferring a discrete web and a continuous web feeding mechanism for feeding a continuous web wherein first and second rollers having substantially parallel axes and being aligned with one another form a nip at their juncture, an anvil is attached to one roller, a die is attached to the other roller, a vacuum source is coupled to one of the rollers, a plurality of vacuum apertures is formed in the same roller. One of the rollers is positioned adjacent to the single transfer insert placement mechanism and to the continuous web feeding mechanism. The continuous web is applied to one roller and at least one discrete web is transferred from the puck to the same roller after which a die cutting process of the webs occurs at the nip.

Systems and methods utilizing stationary and/or moveable cutting components provide limited interference with web processing operations, such as pad spin and pitch alteration. Heat, laser, fluid, or mechanical cutting operations may be used, including respectively, a heated element (e.g., wire, ribbon, bar, or embossing or perforating element) that may be triggered inductively, water or steam jets, or improved knife/anvil cooperation.

Disclosed is a device for loading a bound product, the device holding a product without the product sagging, which has been completed by punching various objects to be bound and then binding same by means of a coil spring, reversing the moving direction to a loading location and thereby enabling neat and stable stacking in a zigzag state without having the coil springs come in contact with one another. A device for loading a bound product, according to the present invention, comprises: a supporting frame unit for providing a distance for the movement of a bound product from a binding location to a loading location; a transfer unit having upper and lower gears, which are axially mounted on one side of the frame unit, a driven gear, which is axially mounted on the other end, a moving belt, for connecting the lower gear and the driven gear, a power belt, which is connected to the upper gear, and a first driving motor, for transmitting power to the power belt; an LM guide having a rail, which is mounted on the frame unit in the length direction, and a block; a reversing unit having a supporting plate, which is fixed on the block of the LM guide and the moving belt, a pinion, of which the upper end is rotatably and axially mounted on the supporting plate, a first cylinder, for operating a rack gear that interlocks with the pinion, and a rotating plate which is fixed on the lower end of the pinion; and a holding unit having a support and a second cylinder which is mounted on the rotating plate of the reversing unit and has a pressure member coupled to the front end thereof so as to hold a bound product.

An apparatus for supplying a large amount of bags includes: a bag stocking mechanism that stocks a large amount of raised bags and guides the stocked bags to the front end thereof; and a bag transport mechanism that transports the bags of the bag stocking mechanism to a packaging machine. The apparatus further includes, a bag pickup mechanism and a bag delivery mechanism that pick up the bag from the bag stocking mechanism; a detection unit that detects the orientation of the picked up bag; and a bag turning mechanism that turns the bag in the predetermined transport direction of the bag transport mechanism according to the orientation of the bag detected by the detection unit.

Postal sorting equipment for sorting flat mailpieces comprises a postal sorting machine, a storage-tray conveyor for conveying open-topped storage trays filled with mailpieces stacked flat, a shuttle-tray conveyor for conveying substantially L-shaped open-fronted shuttle trays, and in which the mailpieces are placed on-edge in stacks, and a tray interchanger suitable for automatically transferring the mailpieces stored flat in an open-topped storage tray to an open-fronted shuttle tray, the feed inlet comprising an unstacker with a fork-shaped magazine with tines, each of which is constituted by a motor-driven belt, the shuttle tray and the fork-shaped magazine being designed so that, by advancing towards the unstacker, the shuttle tray is engaged by the motor-driven belts of the unstacker magazine that come to be inserted under the mailpiece stack disposed on-edge in the shuttle tray, the unstacker magazine including a conveyor section that is mounted to move in elevation under the magazine tines.

Disclosed is a device for loading a bound product, the device holding a product without the product sagging, which has been completed by punching various objects to be bound and then binding same by means of a coil spring, reversing the moving direction to a loading location and thereby enabling neat and stable stacking in a zigzag state without having the coil springs come in contact with one another. A device for loading a bound product, according to the present invention, comprises: a supporting frame unit for providing a distance for the movement of a bound product from a binding location to a loading location; a transfer unit having upper and lower gears, which are axially mounted on one side of the frame unit, a driven gear, which is axially mounted on the other end, a moving belt, for connecting the lower gear and the driven gear, a power belt, which is connected to the upper gear, and a first driving motor, for transmitting power to the power belt; an LM guide having a rail, which is mounted on the frame unit in the length direction, and a block; a reversing unit having a supporting plate, which is fixed on the block of the LM guide and the moving belt, a pinion, of which the upper end is rotatably and axially mounted on the supporting plate, a first cylinder, for operating a rack gear that interlocks with the pinion, and a rotating plate which is fixed on the lower end of the pinion; and a holding unit having a support and a second cylinder which is mounted on the rotating plate of the reversing unit and has a pressure member coupled to the front end thereof so as to hold a bound product.