A reclosable flexible package is described that includes an inner film layer, an outer film layer laminated to the inner film layer, and reclose region defined in a portion of package film layers. The reclose region includes pressure sensitive adhesive disposed between the inner and outer film layers. A number of cut lines are provided in the outer film layer in the reclose region, such that the user, by manipulating the package film layers at the reclose region, can reveal the underlying layer of pressure sensitive adhesive. Once the pressure sensitive adhesive of the reclose region is exposed, the action of the user can serve to adhere the pressure sensitive adhesive to itself and/or other portions of the film, such that the package is cinched in the area of the reclose region and maintains the remnants of the package contents within the reclosed package for later use.

A system including a liner implement that is configured to provide a lining for at least a receptacle, the liner implement includes an upper edge component having an outer surface portion and an inner surface portion. A retention strip implement engages the upper edge component, to tighten the upper edge component around an upper opening of the receptacle. A first end segment of the retention strip implement is configured to engage the outer surface portion of the liner implement. A second end segment is configured to engage the inner surface portion of the liner implement being operable for tightening the upper edge component around an upper element of said receptacle. An adhesive free area is configured to be operable for grasping during the engagement of the second end segment adhesive with the inner surface portion of the liner implement upper edge component.

A cultivation bag assembly for the cultivation of microbes, fungi and other organisms includes an inner bag for containing a food substrate and an organism to be cultivated. At least one wall of the inner bag is constructed of a layer of water-vapor permeable material. An outer bag of the assembly has first and second walls formed from gas impermeable layers. At least one of the first and second walls of the outer bag has a gas filter patch to allow the passage of oxygen and carbon dioxide gases into and out of the interior of the inner bag to facilitate incubation of the organism within the interior of the inner bag. The inner bag and outer bag are coupled together at a first end of each of the inner bag and outer bag.

The present invention is directed to an unprinted inkjet-printable fillable pouch made of an unprinted inkjet-printable film including (a) a multilayer polymer film including a base layer (a1) and a sealing layer (a2) which is the inner layer of the pouch and (b) at least one ink-receiving layer as the outer layer deposited on the multilayer polymer film (a) from an aqueous coating composition including (b1) a polymeric binder, (b2) fine inorganic particles, and (b3) coarse inorganic and/or organic particles. Also provided is a method for producing the unprinted pouches on a pouch making machine as well as a method for printing the pouches, preferably in a single pass inkjet printing process. The printed pouch is ideal to be filled with food, pet food, beverages, pharmaceuticals and/or personal care products.

A reclosable flexible package is described that includes an inner film layer, an outer film layer laminated to the inner film layer, and reclose region defined in a portion of package film layers. The reclose region includes pressure sensitive adhesive disposed between the inner and outer film layers. A number of cut lines are provided in the outer film layer in the reclose region, such that the user, by manipulating the package film layers at the reclose region, can reveal the underlying layer of pressure sensitive adhesive. Once the pressure sensitive adhesive of the reclose region is exposed, the action of the user can serve to adhere the pressure sensitive adhesive to itself and/or other portions of the film, such that the package is cinched in the area of the reclose region and maintains the remnants of the package contents within the reclosed package for later use.

A sterile packaging container that can smoothly and repeatedly accommodate housed medicine without increasing the risk of contamination includes a front side film, and a back side film. An opening is formed on one side, and two sides and a bottom are heat sealed. The front side film is a non-breathable film with a strip of breathable sterile paper interposed and extending in the width direction. The backside film is composed of a non-breathable film. In the front side film, the vertical edges of the non-breathable film and the vertical edges of the breathable sterile paper have a structure in which they are heat-sealed to each other. All contact parts of the non-breathable film and the breathable sterile paper are heat sealed.

A drug supplying device provided with: a first drug discharging section that discharges a first drug from a first tablet case; a first temporary storage section that is arranged downstream of the first drug discharging section in a path, and that temporarily stores the first drug; a second drug discharging section that is arranged downstream of the first temporary storage section in the path, and that discharges a second drug from a second tablet case; a second temporary storage section that is arranged downstream of the second drug discharging section in the path, and that temporarily stores the first drug and the second drug; and a third drug discharging section that is arranged downstream of the second temporary storage section in the path, and that discharges a third drug from a third tablet case.

Methods of making packages from flexible material, wherein the packages include one or more self-folds formed by applying activation energy to the flexible material.

A feeding device for an electrostatic bag, adapted for supplying electrostatic bags to a package mechanism so as to warp an SSD with an electrostatic bag, includes two carrying mechanisms arranged up and down, which respectively support at least one reel that is wound with multiple electrostatic bags. A feeding position is provided between the two carrying mechanisms and face the package mechanism. The two carrying mechanisms are movable up and down to switch positions with one another. The feeding device for an electrostatic bag can supply electrostatic bags to a package mechanism, reload the electrostatic bag without stopping the machine, and ensure the continuous operation of the package mechanism.

An air-permeable packaging material which includes a non-perforated polyolefin layer having a thickness of 3 m to 18 m and constituted of at least one polymer selected from the group consisting of polypropylene and polyethylene and a net-shaped reinforcing layer; a package which includes the air-permeable packaging material, the non-perforated polyolefin layer facing outward, and which contains an oxygen scavenger, a desiccant, a deodorant, an insect repellent, or a fragrance; and a method for producing the package.