A pipe conditioning tool comprising a drive unit to move the tool along a pipe and a work head rotatable about an axis of the pipe to condition a surface of the pipe, the drive unit includes a frame extending to opposite sides of the pipe, the frame having legs extending radially beyond the work head to provide support for the tool upon removal from said pipe.

Aspects herein relate to apparatus and methods for coating medical devices. In an embodiment, a coating system is included having a two-part fluid applicator defining a central channel, the two-part fluid applicator can include a first part having a first degree of flexibility; and a second part having a second degree of flexibility. The system can further include a fluid supply conduit in fluid communication with the fluid applicator; and a fluid supply reservoir in fluid communication with the fluid supply conduit. Other embodiments are also included herein.

A mechanism for applying a predetermined pattern of material onto an elongate tubular substrate includes a first motor, an engagement member rotatable by the first motor and configured to reversibly grasp an elongate member, such that rotation of the first motor rotates the elongate member around its longitudinal axis, a fluid dispenser configured to dispense a fluid having a first, flowable state, the fluid dispenser including an elongate dispensing conduit having a distal end having an orifice, the orifice configured to be placed adjacent a surface of the elongate member, a second motor configured to move at least one of the elongate member or the elongate dispensing conduit such that the orifice changes its relative orientation along the longitudinal axis of the elongate member, and wherein the distal end of the elongate dispensing conduit is configured to apply a bias on the surface of the elongate member.

A contact nozzle for simultaneously coating a plurality of elastic strands moving in a machine direction with an adhesive is described. The contact nozzle includes a single fluid inlet for receiving the adhesive from a fluid module, a first inverted V-shaped notch, a second inverted V-shaped notch, a third inverted V-shaped notch, and a mounting surface configured to abut the fluid module when the contact nozzle is coupled to the fluid module. Each inverted V-shaped notch extends along the contact nozzle in the machine direction, has an open bottom end, a circular closed top end. Each inverted V-shaped notch includes an adhesive orifice in fluid communication with the single fluid inlet for receiving the adhesive for directing the adhesive into contact with an upper surface of an elastic strand.

A fluid application device having a flow diverter is provided. The fluid application device includes an applicator head having an internally formed manifold having a fluid input conduit, two or more fluid output conduits and a chamber disposed between the input conduit and the two or more output conduits. An external attachment surface is formed on the applicator head and is configured to have two or more nozzles selectively and removably secured thereto. A flow diverter is removably disposed in the chamber and includes a plug having two or more channels, each channel in fluid communication with the fluid input conduit and a respective fluid output conduit of the two or more output conduits. The fluid input conduit is configured to receive a fluid from a supply source and the two or more fluid output conduits are configured to discharge the fluid from the applicator head to respective nozzles.

An apparatus for wetting one or more absorbent strips with a solution can comprise a solution tray and a dispenser tray, each comprising a base that defines opposing upper and lower surfaces and one or more openings and a sidewall extending away from the upper surface and disposed along a periphery of the base. One or more dispensers can each include a tube extending between first and second ends, the first end being coupled to the dispenser tray's base such that the tube is configured to receive solution from a respective one of the opening(s) of the dispenser tray. An applicator tray can be configured to receive the strip(s). The solution, dispenser, and applicator trays are positionable to permit solution to flow through the solution tray's opening(s) onto the dispenser tray's base, through the dispenser tray's opening(s) into the dispenser(s), and through the dispenser(s) onto the applicator tray.

A fluid application device includes an applicator head, a first fluid passageway extending in the applicator head, a second fluid passageway extending in the applicator head, a plurality of metering devices connected to the applicator head. A first metering device of the plurality of metering devices is configured to meter a fluid to the first fluid passageway and a second metering device of the plurality of metering devices is configured to meter the fluid to the second fluid passageway. The device further includes a plurality of valve modules, each valve module actuatable between an open condition and a closed condition to control flow of the fluid and a nozzle having one or more discharge orifices. At least one orifice of the one or more discharge orifices is positioned downstream from the first passageway and the second passageway to receive the material from both the first and second fluid passageways.

A fluid application device includes an applicator head and a nozzle assembly fluidically coupled to the applicator head. The nozzle assembly includes a first conduit configured to receive a first fluid from the applicator head, the first conduit having a first inlet configured to receive the first fluid and a flow-distributing channel downstream from, and in fluid communication with the fluid inlet, the flow-distributing channel configured to direct the first fluid in a lateral direction. The nozzle assembly further includes an application conduit having a first fluid receiving section configured to receive the first fluid from the flow-distributing channel, and an orifice fluidically connected to the application conduit, the orifice configured to discharge the first fluid for application onto a strand of material.

A reactor for continuously coating tow fibers has an outer tubular member, an inner support member spaced from the outer tubular member, a reactant flowing through a space defined by the outer tubular member and the inner support member, and at least one flow promotor located on an outer surface of the inner support member for directing the reactant towards an inner surface of the outer tubular member. A system and a method for coating tow fibers are also described.

An aerial cable treatment system having a cable surface preparation assembly and a coating assembly. The cable treatment system is translatable along an in-situ aerial cable. The cable surface preparation assembly can remove dirt and debris, such as carbon deposit, grease, mud, fertilizers, bird droppings, fungal growth, mosses, soot, ice, and like from aerial cables with varying sizes as it translates along the cable. The coating assembly can apply a coating to the outer surface of the in-situ aerial cable it translates along the cable.