One embodiment is a shrink labeler for use to shrink a shrink label onto a bottle including: a containment wall having a gas/steam inlet; and a showerhead container capable of holding the bottle in close proximity to orifices disposed therein and having an aperture through which the bottle may be introduced thereinto; wherein the gas/steam inlet is coupled to a plenum disposed between the containment wall and the showerhead container.

A heat-shrinkable tube heating apparatus of the present invention comprises a pair of heat source boxes that are configured to be plane-symmetrical to each other. A blower pipe and a pair of heating tubes are disposed parallel to each other inside each of the pair of heat source boxes wherein air jet holes are formed side by side on the blower pipe. The pair of heating tubes, each including a heating wire emitting infrared rays, are arranged across an open area on one side of each heat source box, the blower pipe is disposed between the pair of heating tubes to be positioned more inside than the pair of heating tubes from the open area, and the blower pipe is installed so that a pressurized air flowing thereinto is blown out through the air jet holes toward one of both sides of heat-shrinkable tubes placed for being heated.

An improved fastener with an annular sealing flange disposed above a lead-in base clip portion adapted for insertion into an acceptance opening in a panel or other structure. A heat-shrunk seal is disposed about the perimeter of the annular sealing flange in partial covering relation to upper and lower surfaces of the annular sealing flange to provide an enhanced sealing relation between the sealing flange and the panel.

Methods and devices described for improved dynamic walled tubing and catheters.

A sleeve is provided for covering a pipe joint formed between two pipes that are coupled to one another to form a tube. The sleeve comprises a heat-shrinkable material that is configured to conform to the first and second pipes when heated to cover the pipe joint.

A sleeve is provided for covering a pipe joint formed between two pipes that are coupled to one another to form a tube. The sleeve comprises a heat-shrinkable material that is configured to conform to the first and second pipes when heated to cover the pipe joint.

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 disclosure relates to a container sleeving device, system and method for arranging sleeves on a plurality of containers, wherein the sleeves are made of tubular foil material made to pass over the circumferential outer surface of a spreading element, the container sleeving device comprising:—a spreading element configured to spread open the tubular foil material passing from a proximal spreading element portion (31) towards a distal spreading element portion (34);—a cutting unit (25) for cutting the spread-open tubular foil material to form a sleeve;—a sleeve discharge unit (28) configured to accelerate the sleeve to move over the outer surface of the distal spreading element portion so as to discharge the sleeve towards a container; wherein the distal spreading element portion and/or the proximal spreading element portion has one or more pressure regulating openings configured to regulate the pressure close to the outer surface of the distal spreading element portion and/or of the proximal spreading element portion.

A shrink wrapping apparatus, and associated process, includes a housing (turbine) having a wall forming a passage dimensioned to receive the associated container assembly and associated sleeve. The passage has an inlet and an outlet spaced therefrom. A steam/hot air path communicates with the passage to provide steam from an associated steam source to at least a portion of the passage in order to shrink wrap the associated sleeve on the associated container assembly as the container assembly and sleeve move through the passage. The apparatus also includes a stop member for engaging the associated container assembly and holding in the passage for a predetermined amount of time.

The present disclosure relates to apparatuses and methods for making patterned apertured substrates that may be used as components of absorbent articles. During the manufacturing processes, a precursor substrate advances in a machine direction between a pattern roll and an anvil roll. The pattern roll rotates about an axis of rotation and includes a plurality of pattern surfaces, wherein the substrate is compressed between the anvil roll and the pattern surfaces of the pattern roll to form discrete bond regions in the substrate. The pattern surfaces on the pattern roll are formed on continuous threads extending circumferentially around the axis of rotation along helical paths parallel with each other. As such, the pattern surfaces press the substrate against the outer circumferential surface of the anvil roll in the different axial locations along the cross direction as the pattern roll rotates when forming the discrete bond regions.