A system for filling of big bags of various heights with material and a method for adjusting thereof, wherein a big bag is to be placed with its filling spout around an outer pipe and the bottom of the big bag rests on and underlying surface. The outer pipe is telescopically engaged to a feed pipe. The feed pipe is in sections extendible. The feed pipe is designed to fill a determined quantity of material in a vertical stream from an overlying dosage unit via the outer pipe and down into the big bag. The feed pipe at its upper connection includes at least one radial continous interface surface design to attach to another feed pipe's downward facing rim or to the underside of the dosage unit.

A system for filling of big bags of various heights with material and a method for adjusting thereof, wherein a big bag is to be placed with its filling spout around an outer pipe and the bottom of the big bag rests on and underlying surface. The outer pipe is telescopically engaged to a feed pipe. The feed pipe is in sections extendible. The feed pipe is designed to fill a determined quantity of material in a vertical stream from an overlying dosage unit via the outer pipe and down into the big bag. The feed pipe at its upper connection includes at least one radial continous interface surface design to attach to another feed pipe's downward facing rim or to the underside of the dosage unit.

A system for (1) for filling of big bags (4) of various heights with material and a method for adjusting thereof, wherein a big bag (4) is to be placed with its filling spout (3) around an outer pipe (6) and the bottom (2) of the big bag (4) rests on an underlying surface (7). The outer pipe (6) is telescopically engaged to a feed pipe (5). The feed pipe (5) is in sections extendible. The feed pipe (5) is designed to fill a determined quantity of material in a vertical stream from an overlying dosage unit (8) via the outer pipe (6) and down into the big bag (4). The feed pipe (5) at its upper connection (5.3) includes at least one radial continuous interface surface design to attach to another feed pipe's (5.2) downward facing rim (5.6) or to the underside of the dosage unit (8.2).

A system for (1) for filling of big bags (4) of various heights with material and a method for adjusting thereof, wherein a big bag (4) is to be placed with its filling spout (3) around an outer pipe (6) and the bottom (2) of the big bag (4) rests on an underlying surface (7). The outer pipe (6) is telescopically engaged to a feed pipe (5). The feed pipe (5) is in sections extendible. The feed pipe (5) is designed to fill a determined quantity of material in a vertical stream from an overlying dosage unit (8) via the outer pipe (6) and down into the big bag (4). The feed pipe (5) at its upper connection (5.3) includes at least one radial continuous interface surface design to attach to another feed pipe's (5.2) downward facing rim (5.6) or to the underside of the dosage unit (8.2).

The invention is directed to a thermoforming packaging machine (1) for producing sealed packages (2) having a planar surface (3) and a shaped recess (4) comprising a sealing station (6) with a lower sealing tool (7) comprising of a first part (8) provided with a first seal seam support (8a) for supporting a first sealed seam (9) at the outer perimeter (10) of the planar surface (3) of the moulded product (2a) and a second part (11) provided with a second support (11a) provided with a seal seam support opening (12). The second support (11a) supports a second sealed seam (12a) on the planar surface (3) of the moulded product (2a) following the perimeter (13) of the shaped recess (4). The first part (8) and the second part (11) are separate parts which are detachable connected.

The invention is directed to a thermoforming packaging machine (1) for producing sealed packages (2) having a planar surface (3) and a shaped recess (4) comprising a sealing station (6) with a lower sealing tool (7) comprising of a first part (8) provided with a first seal seam support (8a) for supporting a first sealed seam (9) at the outer perimeter (10) of the planar surface (3) of the moulded product (2a) and a second part (11) provided with a second support (11a) provided with a seal seam support opening (12). The second support (11a) supports a second sealed seam (12a) on the planar surface (3) of the moulded product (2a) following the perimeter (13) of the shaped recess (4). The first part (8) and the second part (11) are separate parts which are detachable connected.

A capping and de-capping apparatus (100) for capping and de-capping tubes (112) disposed in a tube holding rack (111) having a two-dimensional array of apertures (114) for holding the tubes (112). The apparatus (100) comprises a rack support (110) for supporting the tube holding rack (111), a head unit (120) adapted for carrying a cartridge (152) comprising at least one capping and de-capping gripper (122), a drive system (130) for moving the rack support (110) and the head unit (120) relatively towards and away from one another, in order to cause engagement or disengagement of the capping and de-capping gripper (122) with or from a cap (113) of at least one tube (112), and a drive system (140) for rotating the capping and de-capping gripper (122), wherein rotation in one direction causes attachment of the cap (113) to the tube (112) and rotation in the opposite direction causes detachment of the cap (113) from said tube (112).

A transport system for transporting capsules within a machine for preparing capsules for producing capsules. Housings, wherein each housing is configured to house a capsule for producing beverages, and wherein the housings comprise at least a first housing for holding a first capsule and a second housing for holding a second capsule, wherein the second capsule is different in size and/or shape from the first capsule. Seats are configured to receive one of the housings with each seat configured to receive either the first housing or the second housing. An extractor extracts the first housing from a seat in which it is received. An insertor inserts the second housing into the seat. A machine for preparing capsules for producing beverages in which such a transport system is implemented is also presented.

A heat plate lock assembly for a heat scaling machine may include clamp plates mounted on either side of a heater assembly that are movable relative to the heater assembly and engage and support a heat plate beneath a heater platen of the heater assembly. Lift arms may be mounted to and movable relative to the heater assembly, and operatively connected to the clamp plates so that movement of the lift arms causes movement of the clamp plates relative to the heater assembly. In an open position, the heat plate can be inserted between and removed from between the clamp plates. In a closed position, the clamp plates move the heat plate into contact with the heater platen and a lock mechanism engages the heater assembly to retain the heat plate lock assembly in the closed position.

A filling cylinder assembly for a container forming and filling system that simultaneously forms and fills a container from a preform with fluid. The filling cylinder assembly includes a cylinder having an inner wall defining a cavity. A piston head is at a distal end of a piston rod. An insert is configured to be seated in the cavity to provide the cavity with a reduced volume such that with the insert seated within the cavity the cavity has a first volume, and without the insert seated in the cavity the cavity has a second volume that is greater than the first volume.