A liner L has a liner body (11) with a front wall (12), rear wall (16), bottom wall (13), a top wall (14). The top wall also includes a tubular excess liner material or chute (19) located close to the rear wall and which includes a filling fitment (20) with a fitment cap (21). The liner also has a cylindrical, hose content inlet/outlet port or bottom fitment (23). The liner may include a gap-filler or filler strip (70) of foam material extending outwardly from a position closely adjacent the outlet fitment. The filler strip is mounted to the front wall directly over and closely adjacent the outlet fitment. The filler strip may taper so that at least a majority of the strip's longitudinal length or height so as to increase in its lateral width as it approaches the outlet fitment, thereby increasing the material volume of strip material.

A device for emptying a flexible bag comprising a fluid product, comprising a tray including a base having at least a top flat surface and two side members rigidly mounted on the base, perpendicularly to the base, the base being arranged substantially horizontally, namely along a front-rear direction and a left-right direction, a pressure element having at least a flat bottom face, for pressing downwards on a flexible bag under the influence of gravity. The tray includes guiding means for guiding the pressure element, as it goes downwards when the bag is emptying. The pressure element exhibits a gravity center and a geometric center, the gravity center being away from the geometric center.

An emptying station for a flexible intermediate bulk container (FIBC) is provided. The emptying station has a body having a front wall, a rear wall defining an aperture, and left and right side walls, the walls collectively defining a hopper for receiving particulate matter contained in the FIBC, at least one power source connected to the body, a lift assembly operatively connected to the at least one power source and to the body. The lift assembly moves the FIBC between lowered and raised positions. A cutter is connected to the body and is disposed in the hopper. The cutter is positioned for cutting a bottom of the FIBC when moved from the lowered position to the raised position. At least one mixer is connected to the body for mixing the particulate matter received in the hopper. The at least one mixer also conveys the particulate matter towards the rear wall.

In compounding pharmaceuticals at the outset, the medications are typically arrive in their mass produced form (pills, creams, syrups, etc.) and are individually packaged. Some packaging forms, particularly tubes, take an excessive amount of time to empty for the medication to be used in later compound medications. Presently in this industry, human workers will squeeze the medication out of each individual tube into large bucket containers for storage until the medication is ready for mixing. The disclosed invention provides a novel apparatus and method for emptying multiple tubes at a time with limited human interaction. The apparatus uses a roller and cap-pressing method that can empty several tubes at one time, significantly increasing efficiency. The apparatus is then connected with a novel software package which controls the operation of the device and can provide a counting mechanism for contract monitoring and predicting the lifespan of the device.

A a squeezer and fluid discharge system and method are disclosed. The fluid discharge system includes a container, a liner bag, a squeezing device and a driving device, the liner bag is installed in the container, and the driving device is connected to the squeezing device and used to drive the squeezing device. The squeezing device comprises at least two rollers, and the liner bag is formed by welding a front panel and a rear panel and is provided with a discharge port which is arranged adjacent to the weld line at the bottom of the liner bag.

The invention relates to a suction bag emptying device (13) comprising a container (15) with a lid for a suction bag to be placed into the container. The container (15) has a discharge point (17) for removal of the contents of the suction bag. The emptying device (13) is provided with a holder for suspending a suction bag with a lid from the holder by the lid, and a jacket (24) for lateral support of the suction bag. The lid (14) of the emptying device (13) is provided with means for puncturing the lid (4) of the suction bag (3) and for supplying pressurized liquid or gas into the suction bag (3). The invention also relates to an assembly comprising at least one suction bag (3) and a suction bag emptying device (13), and to a method for emptying the suction bag (3).

A dispensing unit includes a first sheet-material bag which is filled with a first composition, a second sheet-material bag which is filled with a second composition, and a head part disposed on a first end of the first sheet-material bag and a second end of the second sheet-material bag. The head part has a first outlet channel for the first composition and a second outlet channel for the second composition, the first and second sheet-material bags are open on the first and second ends, and the first and second outlet channels are filled with the first and second compositions, respectively. A closure part is configured to couple with the head part, where the closure part is openable or removable by a user.

The invention relates to a device for pressing out a material from a deformable tube, comprising the following: a housing having a base end; an upper section opposite the base end; and lateral wall sections between the base end and the upper section; a squeezer that can be introduced into the housing, wherein the squeezer has a carrier element and two opposing jaws for gripping and squeezing out a material from the tube, wherein the housing has an opening in the upper section through which an outlet of the tube can be guided, and same has openings in opposing parts of the lateral wall sections via which the jaws can be actuated, wherein the jaws are secured to the carrier element at one end and the squeezer also has a manual lever element on at least one jaw, wherein the lever element is connected to the jaw in a connection region to form an assembly, in which a pressure manually applied to the lever element brings about a force on the jaw in the direction of the other jaw, wherein the lever element has a body with reinforcing ribs, wherein the reinforcing ribs are surrounded at least partially by a closed outer skin, wherein a region of the outer skin forms a gripping region.

A plastic tube designed for pressing out a liquid to pasty mass has a discharge opening, a supply space designed to be compressed, and a tube neck, which connects the supply space to the discharge opening, wherein a mass line having a line cross-section through which mass can flow extends through the tube neck, which cannot be used to press out the mass by means of a manual force of a user. The tube neck is designed, with regard to a free space that can be filled with mass as mass is pressed out, in such a way that a volume of the mass located in the tube neck during the pressing out corresponds to a third or less of a volume that is given by the dimensions of the tube neck.

Provided are systems and methods for producing, packaging and dispensing cooked chunky food that may be a low acid, high water activity food having high organoleptic (e.g., flavor, texture, aroma, color, etc.), and nutritive (vitamins, nutrients, etc.) quality, and an extended refrigerated shelf-life relative to prior art refrigerated prepared foods. Example methods combine hot-filling (e.g., into microwavable self-venting hand-held pouches) immediately after cooking using low-shear transfer at suitable transfer temperature and rate through a fill/dispensing portion sized to provide for substantially unimpeded flow without textural degradation of the chunky food, followed by immediate post-fill chilling and storage under refrigerated and/or frozen conditions. Also provided are chunky foods produced by the methods, and packaging containers (e.g., microwavable self-venting hand-held pouches) suitable for easy, mess-free directed dispensing of the packaged chunky food composition from the pouch by hand, including by children, or adults.