A confection mold conveying system and methods for manufacturing of confection products, the system including a first conveyor segment and a second conveyor segment. The first conveyor segment has a first pusher bar and a series of spaced apart first pusher fingers extending therefrom. The first pusher fingers are oriented to engage confection mold trays while the first pusher bar is translated in a first direction. The first pusher fingers are re-oriented to avoid engagement with the confection mold trays while the first pusher bar is translated in a second direction opposite the first direction. The second conveyor segment receives the confection mold trays from the first conveyor segment and can include a first rotatable shaft with a first helical channel to receive a first tab of one of the confection mold trays. Rotation of the rotatable shaft thereby continuously advances the respective confection mold tray in the first direction.

A confection mold conveying system and methods for manufacturing of confection products, the system including a first conveyor segment and a second conveyor segment. The first conveyor segment has a first pusher bar and a series of spaced apart first pusher fingers extending therefrom. The first pusher fingers are oriented to engage confection mold trays while the first pusher bar is translated in a first direction. The first pusher fingers are re-oriented to avoid engagement with the confection mold trays while the first pusher bar is translated in a second direction opposite the first direction. The second conveyor segment receives the confection mold trays from the first conveyor segment and can include a first rotatable shaft with a first helical channel to receive a first tab of one of the confection mold trays. Rotation of the rotatable shaft thereby continuously advances the respective confection mold tray in the first direction.

The invention provides an apparatus for separating a cone sleeve (4) from a nested stack of cone sleeves (1) the apparatus comprising a chamber (2) having an upper (7) and a lower (8) surface connected by a wall or walls (6), the upper surface (7) having an upper circular opening (3) and the lower surface (8) having a lower circular opening (5) characterized in that the upper circular opening (3) has a circumference of from 100-135% of the maximum circumference of the cone sleeve (4), the lower circular opening (5) has a circumference of from 95-99.5% of the maximum circumference of the cone sleeve (4), and the chamber (2) has inlets (9) connectable to a pressurized gas supply. The invention also provides process that employs the apparatus, the process comprising the steps of providing a stack of nested cone sleeves (1); placing the lowermost end of the stack into the chamber (2) from above the chamber (2); and allowing the lowermost cone sleeve (4) to sit within the lower circular opening (5) and allowing the cone sleeves above the lower-most cone sleeve (4) to protrude from the top of the chamber (2) characterized in that pressurized gas is introduced into the chamber via the inlets (9) thereby to create an elevated pressure within the chamber (2).

Methods of confection mold conveying comprise translating, in a first direction, a first pusher bar having spaced apart first pusher fingers oriented to engage confection mold trays while the first pusher bar is translated in the first direction; translating, in a second direction opposite the first direction, the first pusher bar, wherein the first pusher fingers are oriented to avoid engagement with the confection mold trays while the first pusher bar is translated in the second direction, and wherein the first pusher bar is translated within a first conveyor segment of a confection mold conveyor; and rotating a first rotatable shaft with a first helical channel formed therein that is sized and configured to move the confection mold trays, wherein the first rotatable shaft is included within a second conveyor segment of the confection mold conveyor and is positioned to receive the confection mold trays from the first conveyor segment.

The invention provides an apparatus for separating a cone sleeve (4) from a nested stack of cone sleeves (1) the apparatus comprising a chamber (2) having an upper (7) and a lower (8) surface connected by a wall or walls (6), the upper surface (7) having an upper circular opening (3) and the lower surface (8) having a lower circular opening (5) characterized in that the upper circular opening (3) has a circumference of from 100-135% of the maximum circumference of the cone sleeve (4), the lower circular opening (5) has a circumference of from 95-99.5% of the maximum circumference of the cone sleeve (4), and the chamber (2) has inlets (9) connectable to a pressurized gas supply. The invention also provides process that employs the apparatus, the process comprising the steps of providing a stack of nested cone sleeves (1); placing the lowermost end of the stack into the chamber (2) from above the chamber (2); and allowing the lowermost cone sleeve (4) to sit within the lower circular opening (5) and allowing the cone sleeves above the lower-most cone sleeve (4) to protrude from the top of the chamber (2) characterized in that pressurized gas is introduced into the chamber via the inlets (9) thereby to create an elevated pressure within the chamber (2).

A system (1) for producing foods, in particular a chocolate system, comprising at least one treatment station and at least one industrial robot (2, 3), which comprises at least one effector (4) having at least one receiving device for at least one product carrier (14) and comprises at least one manipulator (13) for transferring the at least one product carrier (14). The industrial robot (2, 3) additionally comprises at least one control device, preferably at least one associated processing device, and the control device is or can be set in such a way that the product carrier (14), preferably at and/or opposite a treatment station and/or between two treatment stations, can be shaken, spun, turned, rotated, slid, raised, lowered, blown at, suctioned out, cleaned, stacked and/or unstacked, cleared out by knocking, emptied, filled, temperature-controlled, and/or, in particular under sensor control, moved along a predetermined path.