A fluid delivery system for dispensing fluid can include a dispenser, such as a trigger engine-type dispenser (100), configured to draw fluid up from a container. A nozzle assembly can include a nozzle (160), and a nozzle slide (112). The nozzle slide can be configured to slide and/or rotate relative to the shroud (102) to provide different dispensing modes. In alternative examples, the nozzle (160) can be configured to rotate in 30 degree increments relative to the shroud (102) to provide the different dispensing modes or the nozzle assembly can include a nozzle extension, and the nozzle extension can be configured to rotate relative to the shroud to provide different dispensing patterns out of the nozzle. In another example a first nozzle can be configured to provide one or more dispensing modes, and a second nozzle can be configured to provide a different dispensing mode than the first nozzle. Methods of dispensing fluids and methods of assembling fluid dispensers are also disclosed.

The invention relates to a system and method for forming sleeved containers. The system includes a conveyor for transporting a row of containers, a sleeving unit for arranging sleeves around containers and a heat oven for attaching the sleeve around the container by heat shrinking. The conveyed containers are provided with a sleeve and the sleeved container is transported in the oven to allow the sleeve to shrink. According to the invention, part of the sleeve is removed using a removal unit. The part is removed after heat shrinking. Removing the part allows to uncover part of the container otherwise covered by sleeve.

A method and a device for applying a shrink film sleeve to a container is provided. The method includes perforating the shrink film sleeve at predefined intervals, expanding the perforated shrink film sleeve by means of an expansion device, such as an expansion mandrel, conveying the expanded shrink film sleeve along the expansion device by a conveyor roller pair, tearing off the shrink film sleeve at the perforation by means of a downstream dispensing roller pair whose conveying speed is at least temporarily higher than the conveying speed of the conveyor roller pair, and shooting the torn-off shrink film sleeve onto the container.

A container at least partially surrounded by a shrink sleeve, the shrink sleeve including a shrink sleeve aperture being defined by an aperture peripheral boundary having a peripheral length, where the shrink sleeve and the container are substantially the same color along at least a portion of the peripheral length. Processes for making such containers. Containers where the shrink sleeve and the container are substantially different colors along the peripheral length.

The present application relates to a system and method for forming sleeved containers. The method comprises conveying a row of containers, arranging sleeves around the containers being conveyed, attaching the sleeve to the container being conveyed by heat shrinking, removing a part of the sleeve, the removing comprising at least partially laser cutting a part out of the sleeve thereby causing the creation of a fume region containing fumes of sleeve material evaporated by the laser cutting and blowing air along the wall of the container, wherein the flow of air is directed towards the fume region to force the fumes to move away from the container.

A method of manufacturing a content liquid containing bottle includes: a molding step of blow molding a preform into a bottle that includes a mouth portion, a shoulder portion expanding in a direction away from the mouth portion, a barrel portion, and a bottom portion; a cap attachment step of attaching a cap to the mouth portion of the bottle filled with a content liquid; and a label attachment step of placing a tubular shrink label over outside of the bottle, and thermally shrinking the shrink label to attach the shrink label to the bottle, wherein in the label attachment step, the shrink label is thermally shrunk in a state in which one end of the shrink label is located at a region of the shoulder portion in which an inner surface is in contact with the content liquid.

The inventive label is prepared from a polyester with an intrinsic viscosity of 0.58 dl/g or more. The label has a base film with a thickness of 8-30 m and a difference in specific heat capacity Cp between temperatures lower and higher than Tg of 0.2 J/(g.Math. C.) or more. The label has a tensile elongation at break of 5% or more in both a main shrinkage direction and an orthogonal direction. A difference between the absorbancy ratio (absorbancy at 1340 cm.sup.1/absorbancy at 1410 cm.sup.1) in the main shrinkage direction of the label and the absorbancy ratio in the direction orthogonal to the main shrinkage direction of the label is 0.2 or more. The label has a difference between a maximum value and a minimum value of a length in a vertical direction of the label of 3 mm or less.

The present invention bonds a label to an adherend with a heat-sensitive adhesive layer disposed therebetween, by sufficiently activating the heat-sensitive adhesive layer. Prepared is a label which comprises a label base and a heat-sensitive adhesive layer disposed on the back surface of the label base, wherein an ultraviolet-absorbing heating agent is contained in an area of the label base which at least includes the disposed heat-sensitive adhesive layer and/or in the heat-sensitive adhesive layer. Before or after the label is applied to an adherend, irradiation with ultraviolet is conducted to activate the heat-sensitive adhesive layer.

A method for manufacturing a sanitary cover for a beverage can and relates to a technique for forming a cutting line along a circumferential surface of a sanitary cover while the sanitary cover is covering a beverage can, thereby maximizing the production efficiency of the sanitary cover having improved functionality. Also, the technique which, in three-dimensionally forming a cutting line as such, can carry out the process of forming the cutting line easily and rapidly via a simple structure, thereby increasing the production efficiency even further.

A container at least partially surrounded by a shrink sleeve, the shrink sleeve including a shrink sleeve aperture being defined by an aperture peripheral boundary having a peripheral length, where the shrink sleeve and the container are substantially the same color along at least a portion of the peripheral length. Processes for making such containers. Containers where the shrink sleeve and the container are substantially different colors along the peripheral length.