A poly bubble bag filling machine, seal head, bag magazine, and a carton are described. The filling machine includes the bag magazine which is configured to hold and advance a plurality of pre-formed poly bubble bags as they are retrieved for filling. The carton provides simple handling and replacement of bags in the magazine and enables operation of the magazine while the carton is in place. A bag-transfer carriage transfers bags from the magazine to the seal head. The seal head includes suction bars configured to enable application and retention of a sufficient suction force to sides of the bag to open and retain the bag during filling. Sealing bars are positioned near the suction bars and are operable to seal the bag closed via application of heat.

A sorting conveyor and bagging device for selectively depositing packages in bags through collapsible openings in the bags themselves or in sleeves protruding from the mouths of bags. Sliders are positioned between the bags at the ends of chutes. Actuators slide the sliders along the slide tracks to selectively open and position the opening to one bag to receive packages from the chute while the opening to the other bag is closed and positioned out of the way.

There is disclosed a tool having a set of features for forming a domed acellular dermal matrix (ADM) graft. An acellular dermal matrix (ADM) graft product includes an ADM graft derived from full-thickness skin, with a pre-formed domed shape having a mesh pattern formed therein. In an embodiment, the set of features include a shaping tool feature and a scoring tool feature. The shaping tool feature has a shaping portion configured to shape a dome shaped ADM graft. The scoring tool feature has a scoring portion configured to impart a desired mesh pattern into the domed shaped ADM graft. Other embodiments are also disclosed.

A bread slicer is provided with an input compartment for a loaf of bread and a set of blades designed for cutting a loaf of bread and cooperating with a push block, which enables the loaf to be pushed through the set of blades to an output table. The output table has a bag holder for keeping open a packing bag with the opening facing the set of blades, the push block being arranged to push at least a part of the sliced loaf so as to introduce it at least partially in the packing bag.

A method includes separating a portion of a flattened tube of stock packing material to a custom length to form a pouch pre-form and closing a first end of the pouch pre-form leaving a second end of the pouch pre-form open. The method can include placing product into the pouch pre-form and closing the one open end of the pouch pre-form to form a closed pouch containing the product.

A method and system reprocess soiled animal bedding material commingled with animal manure. In one aspect the soiled animal bedding material is separated in a shaker to send at least a preponderance of the manure to a holding tank. In another aspect the bedding is cleaned, rinsed and color is restored. The bedding material is subsequently dried and a bedding product, fertilizer product, and/or compacted product is formed. Alternatively, said bedding material is dried (without a compacting step) to form a product. In yet another aspect, the steps of separation, cleaning, rinsing and/or color restoration may be omitted.

There is disclosed an acellular dermal matrix (ADM) graft stored as a packaged ADM graft pocket product prepared by a process that includes providing a portion of ADM tissue having a thickness between 1 mm and 2 mm. The process includes scoring the portion of the ADM tissue into a pre-defined shape to form the domed shape ADM graft. The process includes verifying the thickness of the domed shape ADM graft; shaping the domed shape ADM graft to form an ADM graft pocket configured to receive a breast implant. The process includes packaging the ADM graft pocket to form a packaged ADM graft pocket. The process includes irradiating the packaged ADM graft pocket to a sterility assurance level of a desired level to form the packaged ADM graft pocket product. Other embodiments are also disclosed.

A system for packaging mass-customized items includes a computer system including a database containing item identification information unique to each item; (2) outer container identification apparatus that applies the item identification information received from the database to each outer container in a plurality of outer containers; (3) inner pack identification apparatus that applies the item identification information received from the database to each inner pack in a plurality of inner packs; and (4) inner pack filling apparatus that fills each inner pack with a specific item matched to that inner pack by the item identification information received from the database. Each item is associated with its unique item identification information and is inserted into an inner pack with matching item identification information, and each outer container is presented for loading with one or more inner packs matched to that outer container by the item identification information received from the database.

A bale bagging apparatus and method are provided. The bale bagging apparatus includes a bale feeding station, a bale chute, a bale bagging station, and a transportation system that transports a bale to be bagged from the bale feeding station through the bale chute and into the bale bagging station. The bale bagging station includes a bag receptacle, a first opening, and a bag retrieval assembly. The bag receptacle is positioned on a side opposite of the first opening from the side of the first opening on which the bale to be bagged is to be transported. The bag retrieval assembly retrieves a bag from the bag receptacle through the first opening. The bag retrieval assembly positions a first end of said bag around at least a portion of the bale chute before the bale to be bagged is transported through the bale chute by the transportation system.

A method for forming an antislip material. A flexible thermoplastic carrier is provided. A hot release surface is provided. Provided is a first layer of discrete thermoplastic particles, sifting on the hot release surface. The discrete particles are above their softening temperatures, providing in the first layer a tackiness. The method includes contacting the carrier with the tacky first layer for sticking the first layer to the carrier, and thereafter removing the carrier, and therewith the tacky first layer stuck to the carrier, from the release surface. Thereby the carrier is provided with a hot, preferably discontinuous and/or elastomeric antislip coating. With a heat energy of the hot coating a bond is formed between the carrier and the coating. The removing of the carrier includes pulling the carrier out of the contact with a pulling-out force. The temperature of the hot release surface is above the melting temperature of the carrier. The carrier would be spoiled, if heated completely to the temperature of the release surface and simultaneously pulled with the pulling-out force. Therefore the contacting time is kept shorter than a minimum time required by a heat of the hot release surface for spoiling the carrier. Flat-topped roughening projections can be included in the antislip coating.