An automatic blade and conveyor gap adjustment assembly for a blade portioning conveyor machine having a blade assembly and a conveyor assembly with an infeed conveyor and an outfeed conveyor includes a blade adjustment assembly suitable for moving the blade assembly between at least first and second positions relative to the conveyor assembly and a first automatic conveyor gap adjustment assembly. The first automatic conveyor gap adjustment assembly is configured to define a first gap between an interior nose of the infeed conveyor and an interior nose of the outfeed conveyor to correspond to the first position of the blade assembly, and it is configured to define a second gap between the interior nose of the infeed conveyor and the interior nose of the outfeed conveyor to correspond to the second position of the blade assembly.

An automatic blade and conveyor gap adjustment assembly for a blade portioning conveyor machine having a blade assembly and a conveyor assembly with an infeed conveyor and an outfeed conveyor includes a blade adjustment assembly suitable for moving the blade assembly between at least first and second positions relative to the conveyor assembly and a first automatic conveyor gap adjustment assembly. The first automatic conveyor gap adjustment assembly is configured to define a first gap between an interior nose of the infeed conveyor and an interior nose of the outfeed conveyor to correspond to the first position of the blade assembly, and it is configured to define a second gap between the interior nose of the infeed conveyor and the interior nose of the outfeed conveyor to correspond to the second position of the blade assembly.

An automatic blade and conveyor gap adjustment assembly for a blade portioning conveyor machine having a blade assembly and a conveyor assembly with an infeed conveyor and an outfeed conveyor includes a blade adjustment assembly suitable for moving the blade assembly between at least first and second positions relative to the conveyor assembly and a first automatic conveyor gap adjustment assembly. The first automatic conveyor gap adjustment assembly is configured to define a first gap between an interior nose of the infeed conveyor and an interior nose of the outfeed conveyor to correspond to the first position of the blade assembly, and it is configured to define a second gap between the interior nose of the infeed conveyor and the interior nose of the outfeed conveyor to correspond to the second position of the blade assembly.

An applicating machine for applying a flexible carrier to a plurality of containers provided from an infeed includes a jaw drum for applying a flexible carrier to a plurality of containers provided and a cutoff device for cutting the carrier into a desired size. The cutoff device includes an adjustable beam positionable into multiple angular positions relative to a flow of the plurality of containers depending on the desired size of the multipack.

An applicating machine for applying a flexible carrier to a plurality of containers provided from an infeed includes a jaw drum for applying a flexible carrier to a plurality of containers provided and a cutoff device for cutting the carrier into a desired size. The cutoff device includes an adjustable beam positionable into multiple angular positions relative to a flow of the plurality of containers depending on the desired size of the multipack.

A complex minute cutting apparatus for a superabsorbent hydrogel is disclosed. The complex minute cutting apparatus includes: a barrel body in which a transfer space through which a hydrogel is transferred is formed and a discharge part is formed at a side surface thereof; a transfer unit installed in the barrel body to transfer the hydrogel in the transfer space; and a plurality of cutting modules installed in the transfer unit to pulverize the hydrogel and discharging it to an outside of the discharge unit in a cut state.

A complex minute cutting apparatus for a superabsorbent hydrogel is disclosed. The complex minute cutting apparatus includes: a barrel body in which a transfer space through which a hydrogel is transferred is formed and a discharge part is formed at a side surface thereof; a transfer unit installed in the barrel body to transfer the hydrogel in the transfer space; and a plurality of cutting modules installed in the transfer unit to pulverize the hydrogel and discharging it to an outside of the discharge unit in a cut state.

Machine for cutting cardboard tubes, comprising a cutting unit (CU) with a carriage (7) on which is mounted a blade (6) and a support element (4, 5, 8) for supporting a cardboard tube (1) intended to be transversely cut by the blade (6), wherein the said support element (4, 5, 8) allows the tube (1) to slide along a predetermined direction (A) parallel to its axis longitudinal (x) and to rotate about the same axis, and wherein said carriage (7) is adapted to move bidirectionally the blade (6) parallel to the longitudinal axis (x) of the tube (1). The support element (4, 5, 8) has, where said cutting unit (CU) is arranged, a part (5) movable from and towards the blade (6) to maintain the tube (1) spaced from the latter and, respectively, for approaching the tube to the same blade (6) during a cutting phase.

Machine for cutting cardboard tubes, comprising a cutting unit (CU) with a carriage (7) on which is mounted a blade (6) and a support element (4, 5, 8) for supporting a cardboard tube (1) intended to be transversely cut by the blade (6), wherein the said support element (4, 5, 8) allows the tube (1) to slide along a predetermined direction (A) parallel to its axis longitudinal (x) and to rotate about the same axis, and wherein said carriage (7) is adapted to move bidirectionally the blade (6) parallel to the longitudinal axis (x) of the tube (1). The support element (4, 5, 8) has, where said cutting unit (CU) is arranged, a part (5) movable from and towards the blade (6) to maintain the tube (1) spaced from the latter and, respectively, for approaching the tube to the same blade (6) during a cutting phase.

An applicating machine for applying a flexible carrier to a plurality of containers provided from an infeed includes a jaw drum for applying a flexible carrier to a plurality of containers provided and a cutoff device for cutting the carrier into a desired size. The cutoff device includes an adjustable beam positionable into multiple angular positions relative to a flow of the plurality of containers depending on the desired size of the multipack.