A system (100) for delaminating a stream (110) of articles (A, B, C, D, E) includes a delamination unit (130) with a plurality of individually controlled rollers (134) configured to carry a stream (110) of articles (A, B, C, D, E), a detection unit (150) with a sensor (152), and a control unit (160) with a processor (162) and interfacing with the delamination unit (130) and the detection unit (150), wherein the detection unit (150) is configured to detect a position of each of the articles (A, B, C, D, E) and to transmit position data to the control unit (160), and wherein the control unit (160) is configured, through operation of the processor (162), to correlate positions of the articles (A, B, C, D, E) with the plurality of individually controlled rollers (134), and to individually control the rollers (134) based on the position data to delaminate the stream (110) of articles (A, B, C, D, E).

An automated food grade conveyor, placement and feeder device and system for singulating and placing rolls, egg, meat, or protein patties, and/or cheese and other foodstuffs to assemble and prepare a sandwich, the system being made of food grade materials that are easily cleanable and being made compact and on wheels which results in a system that significantly reduces time, labor, and waste while increasing productivity, quality and freshness; it includes bulk feeding specific food items through a food grade centrifugal feed system, placing the food items with a chain driven pick and place device, transferring food items to separate servo driven trains, automatically placing of a food pattie onto a sliced bun, wrapping of a completed sandwich, and placing the sandwich on a tray, box or container.

A destacking conveyor having a conveyor belt with pushers selectively pushing stacked packages transverse to the conveying direction to one side of the conveyor against a vertical wall with a gap between the bottom of the wall and the belt to block the top package of a stack and allow the bottom package to pass through the gap and off the side of the belt to a reject bin. In another version a destacking conveyor uses a force applicator to apply a downward force against the top of a stack to hold the top package while the pushers slide the bottom package from under the top package.

A destacking conveyor having a conveyor belt with pushers selectively pushing stacked packages transverse to the conveying direction to one side of the conveyor against a vertical wall with a gap between the bottom of the wall and the belt to block the top package of a stack and allow the bottom package to pass through the gap and off the side of the belt to a reject bin. In another version a destacking conveyor uses a force applicator to apply a downward force against the top of a stack to hold the top package while the pushers slide the bottom package from under the top package.

The destacker apparatus (1), comprises: a succession of conveyors (10, 11, 12) arranged inclined relative to the horizon, each comprising a mobile surface (S) for receiving and supporting articles (J, K) carried upwards by the conveyors (10, 11, 12); and a device for varying the pressure of a fluid (2). The surface (S) of the conveyors (10, 11, 12) has through holes and the pressure varying device (2) is fluid dynamically connected to this surface (S).

An object of the present invention is to develop a device and a method by which cargo handling is automatically performed to eliminate overlaps among articles. When loaded with a plurality of articles M, a cargo handling device eliminates overlaps among the articles M. The cargo handling device has an article placement surface on which the articles M are placed. The cargo handling device performs a cargo handling operation that turns and/or rotates the articles M on the article placement surface to eliminate the overlaps among the articles M.

A destacking conveyor having a conveyor belt with pushers selectively pushing stacked packages transverse to the conveying direction to one side of the conveyor against a vertical wall with a gap between the bottom of the wall and the belt to block the top package of a stack and allow the bottom package to pass through the gap and off the side of the belt to a reject bin. In another version a destacking conveyor uses a force applicator to apply a downward force against the top of a stack to hold the top package while the pushers slide the bottom package from under the top package.

A destacking conveyor having a conveyor belt with pushers selectively pushing stacked packages transverse to the conveying direction to one side of the conveyor against a vertical wall with a gap between the bottom of the wall and the belt to block the top package of a stack and allow the bottom package to pass through the gap and off the side of the belt to a reject bin. In another version a destacking conveyor uses a force applicator to apply a downward force against the top of a stack to hold the top package while the pushers slide the bottom package from under the top package.

The destacker apparatus (1), comprises: a succession of conveyors (10, 11, 12) arranged inclined relative to the horizon, each comprising a mobile surface (S) for receiving and supporting articles (J, K) carried upwards by the conveyors (10, 11, 12); and a device for varying the pressure of a fluid (2).

The surface (S) of the conveyors (10, 11, 12) has through holes and the pressure varying device (2) is fluid dynamically connected to this surface (S).

A system (100) for delaminating a stream (110) of articles (A, B, C, D, E) includes a delamination unit (130) with a plurality of individually controlled rollers (134) configured to carry a stream (110) of articles (A, B, C, D, E), a detection unit (150) with a sensor (152), and a control unit (160) with a processor (162) and interfacing with the delamination unit (130) and the detection unit (150), wherein the detection unit (150) is configured to detect a position of each of the articles (A, B, C, D, E) and to transmit position data to the control unit (160), and wherein the control unit (160) is configured, through operation of the processor (162), to correlate positions of the articles (A, B, C, D, E) with the plurality of individually controlled rollers (134), and to individually control the rollers (134) based on the position data to delaminate the stream (110) of articles (A, B, C, D, E).