A bag bundle pickup system includes: a storage unit in which one or more bag bundles are stored; and a pickup unit which takes out the one or more bag bundles from the storage unit. Each bag bundles includes bags and has a thick part having a locally large thickness. The storage unit includes: a support portion; and an entry space located below a bag bundle when the bag bundle is placed on each support portion. The pickup unit includes a holding device which enters the entry space and holds a bag bundle located above the entry space, each support portion has a contact part which comes into contact with a bag bundle being placed thereon, and a part of a bag bundle other than the thick part is placed on a contact top part which is located at a highest position of the contact part.

An inflating stick and a processing machine are provided. The inflating stick includes a body, a link rod, a cutter, and one or more inflating tubes. A front end of the body includes a guiding segment with a cone structure. A rear end of the body includes a packing segment. The body includes a gas inlet formed on the packing segment, an internal chamber allowing gas to flow into through the gas inlet, and gas outlets formed on an outer wall of the body allowing gas to flow out. The packing segment includes a first locking structure and a second locking structure. The first locking structure and the second locking structure communicate with the gas inlet. The second locking structure is detachably fastened to the first locking structure. The link rod and the cutter are disposed in rear of the body. The inflating tube is connected to the gas inlet.

The invention relates to a processing device for foil pouches, comprising a plurality of pouch receiving elements arranged side by side, each of them being configured to receive and transport one foil pouch, a plurality of pairs of oppositely disposed ramps arranged successively in the direction of transport, the pouch receiving elements being transported in a guided manner along said ramps when in operation, the distance of oppositely disposed ramps defining the width of the pouch receiving elements, and an adjusting element configured to automatically adjust the distance transversely to the direction of transport between oppositely disposed ramps.

The invention relates to a processing device for foil pouches, comprising a plurality of pouch receiving elements arranged side by side, each of them being configured to receive and transport one foil pouch, a plurality of pairs of oppositely disposed ramps arranged successively in the direction of transport, the pouch receiving elements being transported in a guided manner along said ramps when in operation, the distance of oppositely disposed ramps defining the width of the pouch receiving elements, and an adjusting element configured to automatically adjust the distance transversely to the direction of transport between oppositely disposed ramps.

Automatic packaging machine (3) for filling a bag (1) made of heat-sealable material, having an open upper end (2) with a dose of loose product; the packaging machine (3) has: a packaging conveyor (4); a pick-up head (7), which is supported by the packaging conveyor (4) to advance along a packaging path (P1); an input station (S1) where the empty bag (1) is grabbed by the pick-up head (7); an output station (S2) where the full, sealed bag (1) leaves the pick-up head (7); a filling device (18) that is mounted on the packaging conveyor (4) to move together with the pick-up head (7) along the entire packaging path (P1) and is adapted to supply the dose of product inside the bag (1) through the upper open end (2); and a sealing device (19) that is mounted on the packaging conveyor (4) to move together with the pick-up head (7) along the entire packaging path (P1) and is adapted to seal the full bag (1) through a heat-seal at the open upper end (2).

Provided herein is a system for automated dispensing and packaging of articles. Systems may include: a controller configured to receive an indication of an order to be packaged, where the order includes one or more articles; a packaging station; a web of bags, where the web of bags is fed to the packaging station; a pneumatic table configurable to support a bag disposed at the packaging station; an opening mechanism including a pneumatic nozzle to open the bag disposed at the packaging station; a loading bin configured to be inserted into the open bag and deposit the one or more articles; and a closure apparatus to seal the bag disposed at the packaging station after receiving the one or more articles.

A bagger safety system includes a controller, a heating element, a light-emitting device, a light-detecting device and a backing assembly. The backing assembly includes a backing bar, a pair of reflectors and a seal backing element movably coupled to the backing bar by at least one mechanical force generating member so as to create a space between the seal backing element and the backing bar when no external force is applied to the mechanical force generating member. Light emitted from a light-emitting device reflects off the reflectors to the light-detecting device when no external force is applied to the mechanical force generating member. Movement of the seal backing element toward the backing bar prevents light emitted from the light-emitting device from reaching the light-detecting device and the controller controls movement of the backing assembly toward the heating element based on whether light from light-emitting device reaches the light-detecting device.

To provide a medicine inspection system capable of appropriately outputting an inspection result while minimizing damage and the like to a packaging bag and a medicine. A medicine inspection system 10 includes an inspection device 20 which inspects a numerical quantity and/or a type of a medicine contained in a packaging bag p based on an image photographed of the packaging bag p to be inspected, and a marking device 50 which records an inspection result from the inspection device on the packaging bag p. After the packaging bag p, which has a seal section S formed by pressure bonding an overlapping portion of a packaging paper, is inspected at the inspection device 20, a stamp which indicates the inspection result thereof is output by a marking device 50 onto the seal section S.

A flexible container formed of flexible web material is provided. The container includes four panels forming: a body portion; a neck portion; a flare portion extending from the neck portion; and a tapered transition portion between the body and neck portions; wherein the neck portion has a reduced width and the flare portion has an expanded end. Also disclosed is a method of forming the aforementioned container comprising steps of: biasing the expanded end to define a circumference; moving, via a mandrel comprising a groove, the fitment within the circumference and through the expanded end to a first position in the neck; transversely cutting away the expanded end by advancing preferably v-shaped blades through the neck and into the groove preferably without rotation of the mandrel, container, or blades; moving the fitment to a second position in the neck; and sealing the neck to the fitment.

A plastic bag dispenser is disclosed. The plastic bag dispenser contains an elastic cord which has a first a first end and a second end. There is also a first spindle, which has the ability to connect to the first end of said elastic cord, and a second spindle, which has the ability to connect to the second end of the elastic cord, such that when the first spindle is connected to the first end of said elastic end and the second spindle is connected to the second end of the elastic cord, there exists the ability to hold a roll of plastic bags between the first spindle and the second spindle without the roll of plastic bags unraveling. The adjustable elastic cord secures the plastic bags to the roll on which the plastic bags are wrapped and serve to act as a pressure element to easily tear off a perforated bag.