A part packing system for packing a part in an elongated bag includes a bag holding machine including a first bag gripper mechanism, a second bag gripper mechanism, and an air nozzle. The first bag gripper mechanism is configured to hold a first end of the elongated bag. The first bag gripper mechanism opens the first end of the elongated bag. The second bag gripper mechanism is configured to hold a second end of the elongated bag. The second bag gripper mechanism closes the second end of the elongated bag. The air nozzle is located proximate to the first bag gripper mechanism. The air nozzle is configured to inflate the elongated bag with an airflow directed into the first end of the elongated bag. The first bag gripper mechanism holds the inflated elongated bag with the first end open to receive the part in the open first end while the air nozzle directs the airflow into the elongated bag.

A part packing system includes a bag holding machine including a part funnel having an opening configured to receive an end of a part and having a bag end manipulator holding first and second bag end gripper mechanisms that receive an end of the bag therebetween to open the end of the bag to form a mouth at the end of the bag. The bag end manipulator moves the first and second bag end gripper mechanisms to position the mouth of the bag immediately downstream of the opening of the part funnel. A part loading machine including a part manipulator holding the part and moving the part to a loading position upstream of the part funnel and moving the part gripper mechanism to load an end of the part through the opening in the part funnel into the mouth of the bag to load the part into the bag.

A part packing system for packing a part in an elongated bag includes a bag holding machine including a first bag gripper mechanism, a second bag gripper mechanism, and an air nozzle. The first bag gripper mechanism is configured to hold a first end of the elongated bag. The first bag gripper mechanism opens the first end of the elongated bag. The second bag gripper mechanism is configured to hold a second end of the elongated bag. The second bag gripper mechanism closes the second end of the elongated bag. The air nozzle is located proximate to the first bag gripper mechanism. The air nozzle is configured to inflate the elongated bag with an airflow directed into the first end of the elongated bag. The first bag gripper mechanism holds the inflated elongated bag with the first end open to receive the part in the open first end while the air nozzle directs the airflow into the elongated bag.

The paper recyclable heat sealable bag includes a heat sealable water soluble inner layer coating and an article of paper. The heat sealable coating is applied to the article of paper by a printing press. As the printing press applies the heat sealable coating to the article of paper, the paper recyclable heat sealable bag may be wound into a master roll with a plurality of paper recyclable heat sealable bags. The master roll is fed into an automatic packaging system which fills the bags with a product from at least one of a top edge and a side edge of the paper recyclable heat sealable bags. The paper recyclable heat sealable bag has certain perforations to remove the paper recyclable heat sealable bag more easily from the master roll and sealed with a heat sealer.

Paper-based packages and methods of making the same are disclosed. In one example, a semi-rigid package comprises: a base, a first side portion, and a second side portion. The base comprises two opposed major walls and two longitudinal side walls opposed to each other. The first side portion and a second side portion are integrally formed with the base. The two side portions are respectively connected to the base along the longitudinal direction, and each side portion comprises two opposed side panels, two tapered corner portions opposed to each other, and a closure in a transverse direction. Each side panel is connected to the adjacent major wall along a transverse line, and the two opposed side panels are jointed to form the closure. At least one of the side portions may be substantially compacted and form a substantially flat transverse side wall.

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.

The present disclosure relates to a cassette for storing a tubular storage assembly, the tubular storage assembly having a plurality of elongated guiding elements onto which containers can be carried, wherein the elongated guiding elements are configured to be maintained in a tubular arrangement, the cassette includes a cassette housing configured to accommodate the tubular storage assembly, the elongated guiding elements of the tubular storage assembly extending in an axial direction of the cassette housing; and a carrier arranged to be movable inside the cassette housing and configured to carry the tubular storage assembly; wherein the cassette housing comprises at least one stop element for stopping movement of the carrier in the axial direction and wherein the carrier and cassette housing are configured to allow the carrier to be essentially freely movable in transverse directions; and wherein the carrier comprises at least one alignment element.

A method for producing sterile solution product bags includes positioning a manifold assembly onto a filling machine. The manifold assembly includes a plurality of bags, a first filter, and a connection line in fluid communication with the first filter. Each of the plurality of bags includes a bladder and a stem in fluid communication with the bladder and with the connection line. The method includes activating a pump and at least partially filling one or more of the bladders by pumping fluid through the feed line, the first filter, and the connection line. The method includes sealing the stem of each of the filled product bags at a location between the connection line and the bladder, thereby creating one or more at least partially filled and sealed product bags. The method includes separating each of the at least partially filled and sealed product bags from the connection line.

A method for inserting mass-customized items into bags includes the steps of (a) identifying each individual item of a plurality of mass customized items using item-specific identification information associated with each individual item in a computer system database; (b) conveying the plurality of identified individual items on an item conveyor; (c) conveying a plurality of bags on a bag conveyor, each of the bags being associated with the item-specific identification information associated with least one of the individual mass-customized items; (d) associating each of the bags with the item identification information associated with each of the identified individual mass-customized items; (e) receiving the plurality of mass-customized items from the item conveyor; and (f) inserting each individual mass-customized item into one of the bags that has been associated with the individual mass-customized item using the item-specific identification information in the database identifying the individual mass-customized item.

A product bagging assembly and method of manipulating a web material bag that is operable to create a bag opening that is greater than six inches and which is operable without substantially detracting from product throughput associated with use and operation of the product bagging assembly. In a preferred embodiment, the bag opening/closing assembly includes a first actuator and a second actuator that are connected to one another such that a position of one of the actuators can be manipulated by operation of the other actuator. The product bagging assembly can be provided as a kit configured for plug and play operation with previously provided bag and product delivery systems.