Provided are methods for forming a rigid cable harness. An example method includes providing a curable sleeve comprising a curable compound, an adhesive, and a backing; wherein the curable adhesive tape has a longitudinal direction. The method further includes placing a plurality of cables on the sleeve in the longitudinal direction and wrapping the curable sleeve around the placed plurality of cables to form a cable harness, wherein the wrapping comprises wrapping the plurality of cables with the curable sleeve in the longitudinal direction. The method additionally includes positioning the cable harness into a desired shape and curing the curable compound of the cable harness to form the rigid cable harness, wherein the rigid cable harness has the desired shape.

Methods for manufacturing fabric-reinforced weatherstrip include incorporating a fabric application step into a process for making coated substrates. In one embodiment, a strip of the fabric from a roll of material may be applied directly onto a coating after it has been applied in a coat die to a foam profile, while the coating is still in the molten state. Alternatively, a fabric application plate may be attached to an upstream side of coating die with a fabric feed channel cut into the plate. The fabric follows the channel to contact and mate with the foam profile. The fabric applicator plate may be configured so as to exert pressure on only the part of the product where the fabric is being applied. Ultrasonic welding techniques may also be employed.

A laminating machine, laminating method, and manufacturing system for heat-insulating cardboard are provided, featuring a high degree of automation to increase manufacture efficiency. The laminating machine includes: an adhesive-applying mechanism (1) having a cardboard-pressing roller (11) and a first adhesive-applying roller (12) that are vertically aligned and form a gap therebetween through which cardboard (10) can be friction-fed; and a laminating section (2) downstream of the adhesive-applying mechanism (1) and having upper and lower pressure rollers (21, 22) that are vertically aligned and form a gap therebetween through which the cardboard (10) can be friction-fed, with a second adhesive-applying roller (23) provided near the lower end of the lower pressure roller (22) and forming a gap therewith through which a heat-insulating material (20) can be friction-fed in order to be rolled onto and adhesively bonded to the lower surface of the cardboard (10) by the lower pressure roller (22).

A method of attaching a plurality of cables such as trace heating cables to an elongate pipeline comprises bringing together the pipeline and an elongate mat along a common longitudinal direction, wrapping the mat around at least a majority of the circumference of the pipeline, and fixing the wrapped mat to the pipeline. The mat comprises at least two longitudinally-extending cables that are supported by a pliant substrate so that when the mat is wrapped around the pipeline, the cables are positioned at respective angular positions about a longitudinal axis of the pipeline. The mat may be guided from a planar configuration on exiting a reel into a configuration that is curved about the longitudinal axis. Centraliser spacers and thermal insulation may be added around the pipeline and the wrapped mat before the assembly is inserted into an outer pipe.

Methods for manufacturing fabric-reinforced weatherstrip include incorporating a fabric application step into a process for making coated substrates. In one embodiment, a strip of the fabric from a roll of material may be applied directly onto a coating after it has been applied in a coat die to a foam profile, while the coating is still in the molten state. Alternatively, a fabric application plate may be attached to an upstream side of coating die with a fabric feed channel cut into the plate. The fabric follows the channel to contact and mate with the foam profile. The fabric applicator plate may be configured so as to exert pressure on only the part of the product where the fabric is being applied. Ultrasonic welding techniques may also be employed.

The present invention relates to a method and an apparatus (40, 50) for coating an uneven surface of a workpiece (W), wherein the apparatus (40, 50) comprising a first feeding device (41), through which a coating material (10) applicable to a workpiece (W) is fed, the coating material (10) comprising at least one weakened area (10a), a joining device for the application of the coating material to at least two workpiece sides (W1-W), wherein the at least one weakening area (10a) being positioned in the transition section of the at least two workpiece sides (W1-W2), and a second feeding device (70), through which the workpiece is fed and the transition section of the two workpiece sides (W1, W2) being formed to at least partially fill the weakened area of (10a) of the coating material (10) which is positioned in the transition section during the application of the coating material.

A tool for fixing a protective textile sleeve about an elongate member contained therein and method of use thereof is provided. The tool includes a clamp assembly having opposed clamp members attached to one another for pivotal movement relative to one another between an open state and a closed state. The clamp members have clamping surfaces, wherein at least one of the clamping surfaces has at least one outlet. A fluid source is arranged in fluid communication with the at least one outlet, and a heat source is configured to heat fluid from the fluid source to create steam. The steam is dispensed outwardly from the at least one outlet to cause an adhesive on the sleeve to become activated to bond with an adjacent abutting surface.

The techniques described herein relate to a system or method for forming a thermal insulation, the method including: providing a roll of an insulative sheet having a thickness; determining a loop count to obtain a desired insulation characteristic in a pad based on the thickness of the insulative material and an air gap between loops of the insulative material; and forming the pad having a desired length and width by wrapping the insulative material about itself the loop count times. In the method, the air gap is between 0 centimeters and 1 centimeter, the loop count is greater than or equal to one, and the insulative sheet includes one or more of a paper sheet including protrusions, a foamed material sheet, a fibrous material sheet, a cellulose sheet or an encapsulated plastic sheet.