A medical lubricant applicator comprising: a dispensing head adapted to fit to a container containing a medical lubricant, the dispensing head including: (i) a nozzle having a discharge opening from which medical lubricant from the container is dispensed; (ii) a guide element arranged relative to the nozzle to provide guiding contact with an exposed surface of a medical instrument to which the dispensed medical lubricant is to be applied whereby in operation the nozzle is with the assistance of the guide element spaced from the exposed surface of the medical instrument to avoid contact with said exposed surface whilst the medical lubricant is directed toward the exposed surface for application of said lubricant to said exposed surface via the discharge opening of the nozzle.

The present invention includes a dispensing system for dispensing a packaged product, e.g. a condiment, including a pouch (60) having the product therein cooperates with a dispensing gun (30) to dispense a dose of product. In various aspects the invention includes a packaging system that includes a container (40) and a flexible package (50) with a frangible seal (70), and a flexible pouch (60); a dispensing assembly (100) for dispensing a product from the package; a dispensing gun system; a method of making a package; and a method of dispensing a product. The packaging system includes a container such as a rigid sleeve, and a flexible pouch positioned within the container interior, and also includes a valve that enables the product to exit the pouch interior and be dispensed. An optional diffuser coordinates with the valve to dispense product from one or more product outlets.

A set for dispensing and processing a light-curing material contained in a reservoir of an applicator includes a light source for curing the material dispensed from an outlet opening of the reservoir by the effect of pressure on the reservoir. The set further includes a modeling device having at least one of a smoothing surface and a working edge for processing the dispensed light-curing material. The light source can be fastened detachably or undetachably to the applicator or to the modeling device.

A cartridge has a reception chamber extending in a longitudinal direction for a medium to be dispensed. The cartridge has a head part and a cartridge wall which bound the reception chamber, the head part having an outlet for the medium. The cartridge wall is at least regionally a film and the head part is a stable-shape part. The head part is sealingly and in particular unreleasably connected to the cartridge wall and the cartridge is a collapsible cartridge. The cartridge can be converted from an expanded state in which the reception chamber has a maximum volume into a collapsed state in which the reception chamber has a minimal volume. The cartridge not yet filled with medium is in a collapsed state. Furthermore, a method of manufacturing such a cartridge is described.

A cartridge assembly includes a cartridge and a sleeve, the cartridge having a solid head part and a cartridge wall formed by a film integrally formed with the head part, the cartridge being received in the sleeve.

Provided is an applicator for applying a solvent cement, the applicator having a deformable container for containing the solvent cement, a nozzle, a valve located between the container, and the nozzle. The valve is changeable between an open condition where the solvent cement can move from the container to the nozzle and a closed condition where solvent cement is inhibited from moving from the container to the nozzle, and a disperser attached to the nozzle. The disperser is adapted to disperse solvent cement that flows from the nozzle.

A squeeze container (10) that includes a container body (13) including squeezable/deformable press-deforming portions (27), and that discharges a content contained in an inner bag (11) inside the outer container (13) by squeezing (pressing) the press-deforming portions (27). The outer container (13) has a tubular body portion (12) including: the press-deforming portions (27); and longitudinal-direction reinforcing portions (13e) molded integrally with the press-deforming portions (27). A pair of longitudinal-direction reinforcing portions (13e) is provided, the longitudinal-direction reinforcing portions extending in a longitudinal direction at respective two locations opposing one another in a radial direction of the tubular body portion (12). A pair of press-deforming portions (27) is provided, the press-deforming portions being arranged in respective sections between the pair of longitudinal-direction reinforcing portions (13e) so as to oppose one another, and each preferably having an arcuate cross-sectional shape so as to form the overall circular hollow cross-sectional shape of the outer container (13).

Storage and mixing systems for pasty two-component polymethyl methacrylate bone cements comprise a tubular cartridge having a cylindrical inner chamber, a cartridge head, which closes one end of the tubular cartridge at the front side, a partition that is disposed axially in the cylindrical inner chamber of the cartridge. The partition divides the cylindrical inner chamber of the cartridge bounded by the cartridge head into two cavities that are spatially separated from one another, wherein a first pasty cement component is present in the first cavity and a second pasty cement component is present in the separate second cavity. The systems further comprising two dispensing plungers axially displaceable in the two cavities of the cartridge, wherein the dispensing plungers close the two cavities on the back side of the cavities situated opposite the cartridge head, a bending device for deforming the partition, wherein the bending device is axially movable in the cartridge and is disposed, or is to be disposed, behind the dispensing plungers, as seen from the cartridge head, wherein the bending device has a deflection surface that is inclined with respect to the axis of the cartridge and pushes the partition laterally in the direction of the inside wall of the cartridge when the bending device is pushed into the cartridge.

A dispenser actuator assembly (100) actuates a dispenser (10). The dispenser (10) is a plastic ampoule (10) having a container (48) having an outer wall (50) and membrane (52) collectively defining a first chamber (54) containing a flowable material (M). The membrane (52) has a weld seam (56). The actuator assembly (100) has a base member (102) configured to mount on the container (48). A fracturing mechanism (116) is operably connected to the base member (102). The fracturing mechanism (116) has a first extending member (132a) and a second extending member (132b), the first extending member (132a) and the second extending member (132b) positioned on the base member (102) in opposed relation. Each extending member (132a,132b) has a projection (150a,150b) positioned proximate the membrane (52). In response to deflection of the extending members (132a,132b) towards one another, the projections (150a,150b) are configured to deflect the outer wall (50) proximate the membrane (52) wherein the weld seam (56) fractures to create an opening through the membrane (56) to allow the flowable material (M) to pass therethrough.

An applicator for introducing a fluid to a plant includes a first arm and a second arm pivotally connected to one another at one end. The other ends are spaced apart to receive the plant therein when the applicator is in a rest position and are driven together upon pivoting of the arms to place the applicator in an application position. A fluid injector is mounted on the first arm and includes an injector body and a diaphragm defining a plurality of channels. The diaphragm includes a pliable dome defining a reservoir to receive the fluid and a plurality of applicator nodes. A respective applicator node is positioned near a terminus of each channel. A driving member engages the pliable dome when the applicator is pivoted to the application position. The pliable dome is then compressed by the driving member to direct the fluid through the plurality of channels.