Electric welding coupler for the welding of pipes made of thermoplastic material or other weldable plastics comprising a cylindrical body made of thermoplastic material or other weldable plastics, containing at least one welding element, wherein the welding element is arranged close to the inner diameter of the cylindrical body, wherein the welding element forms at least two welding zones, a contact for feeding the electric current and at least one cavity, wherein the cavity is arranged in the cylindrical body, wherein a reinforcing ring is arranged around the outer circumference respectively outer diameter of the cylindrical body.

The invention relates to a method for the extrusion and labelling of a packaging tube (14), comprising the following successive steps performed on an extrusion-labelling line, namely: a) forming a partially or fully tubular label (17) from a film (12); b) introducing the label (17) into a calibration element (22); c) extruding a tubular body (13) on the side of the concave surface of the label (17); d) bringing the external surface of the tubular body (13) into contact with the concave surface of the label (17), step (c) being performed in the calibration element (22). The invention also relates to an extrusion-labelling device and a packaging tube.

Embodiments of the invention relate to the construction of a sealed connection between an elastomeric or synthetic polymer flexible pipe or hose and a metallic coupling member. The coupling member surrounds an armor layer at a free end of the flexible pipe or hose. A sealing area is defined by a recessed portion of the pipe coupling into which a sealing material is introduced. An inner layer of the flexible pipe or hose may extend into the sealing area where it is bonded to the sealing material. The sealing material and the inner liner layer may each be comprised of a semi-crystalline thermoplastic material. Furthermore, a reinforcement material is provided in the inner layer.

A method for forming curved image sensors may include applying positive pressure to the face of an image sensor, forcing the image sensor to adhere the curved surface of a substrate. The pressure may be applied to the face of the image sensor in a variety of ways, including using pneumatic pressure, hydraulic pressure, or pressure from an elastic or inelastic solid. Processing may occur on either a single image sensor die or an image sensor wafer. When an image sensor wafer is processed, a substrate may be used that has a number of cavities defined by respective curved surfaces with each cavity corresponding to a respective image sensor. When pressure is applied to the image sensor, the image sensor may deform until the curvature of the image sensor matches the curvature of the curved surface of the underlying substrate.

Described in one aspect is a multi-cell or multi-chambered container for sealing various materials such as therapeutic or diagnostic agents, animal or human tissue, tissue samples, specimens, blood, genetic material, or any other material. The container includes seals formed by folding the wall of the elongate body transverse to the interior of the elongate body and maintaining the folded wall portions adjacent one another or joining them together. In another aspect, the container disclosed may be made according to a method involving creating multiple seals at various locations along the elongate body thus creating sealed voids or cells between the seals within the elongate body.

An autoclave for welding thermoplastic composite parts comprises a sealed process chamber, a pressure source, a microwave source and a workpiece supporting member configured to support at least two thermoplastic composite parts which contact each other in an abutting section within the process chamber. The pressure source is configured to generate positive pressure in the process chamber which is higher than an ambient pressure surrounding the process chamber while the microwave source emits microwaves towards the abutting section in order to locally melt the thermoplastic composite parts and weld them together in the region of the abutting section.

Method to manufacture a container includes disposing a first parison within a first mold assembly having a first inner surface defining a first mold chamber. The first mold assembly includes at least one first insert disposed on the first inner surface within the first mold chamber. The first parison is blow molded to form a first container body within the first mold chamber, wherein at least one first portion of the first container body corresponding to the at least one first insert has a first portion temperature greater than a remaining portion of the first container body. The at least one first portion of the first container body can be contacted to at least one second portion of a second container body to attach the first and second container bodies. Assemblies, systems, and intermediate stage pre-assembly multi-chamber containers are also disclosed, as well as multi-chamber containers formed from the same.

An apparatus for manufacturing an automotive interior component and a method for manufacture thereof are provided. The method includes providing a first and second layer of the automotive interior component. The method includes providing an apparatus comprising a first press component and a second press component, the first press component including a pressure chamber configured to receive a protrusion of the first layer. The method includes inserting the first layer into the first press component, such that the protrusion is received by the pressure chamber of the first press component. The method includes coupling the first layer and the second layer, wherein coupling comprises moving at least one of the first press component and second press component toward the other and introducing a first fluid into the pressure chamber of the first press component such that the fluid applies a fluid pressure to the first layer.

Construction of a sealed connection between an elastomeric or synthetic polymer flexible pipe or hose and a metallic coupling member. The coupling member surrounds an armor layer at a free end of the flexible pipe or hose. A sealing area is defined by a recessed portion of the pipe coupling into which a sealing material is introduced. An inner liner layer of the flexible pipe or hose may extend into the sealing area where it is bonded to the sealing material. The sealing material and the inner liner layer may each be comprised of a semi-crystalline thermoplastic material. Furthermore, a reinforcement material may be provided in the inner liner layer.

Pressurized air is conveyed through a manifold into contact with the first member via apertures having hole diameters of from 0.8 to 2.5 mm that are spaced apart at a distance of from 10 to 30 mm along the manifold to achieve a turbulent air flow pattern with a Reynolds number of greater than 2200 at a temperature of between 150 and 315 C. and at an air pressure between 0.5 and 10 pounds per square inch (psi) over ambient pressure onto the outer surfaces of the first member and the second member for heat curing a curable adhesive between the members to achieve adhesive cure in 60 to 90 seconds and free of any bond-line read-out visible to an unaided normal human eye.