Performed are an accommodation step of accommodating a pair of conductive members in a die, a sealing step of injecting a resin to seal the conductive members, and an extraction step of extracting a conductive member module. In the sealing step, the conductive members are sealed while a force is applied by the resin injected into the die to the individual conductive members in directions away from each other, and the individual conductive members are supported by support members disposed outside.

A method of manufacturing a charging device with a contact housing of an electrically powered vehicle including the steps of providing at least one electrical contact element having a contact area, the electrical contact element being electrically contactable with a corresponding contact element in said contact area; inserting the electrical contact element into an injection mold; and closing the injection mold and forming a cavity around the electrical contact element within the injection mold. Finally, an injection molding material is injected into the cavity of the injection molding tool, so as to produce a contact housing with integrated electrical contact element.

An imprint apparatus executes an imprint process for shaping an imprint material by using a mold. The apparatus includes a controller which obtains first height distribution information indicating a height distribution of a surface of a first substrate, and a measuring device which obtains second height distribution information indicating a height distribution of a surface of a second substrate. The controller controls the imprint process based on corrected height distribution information which is obtained by removing a first component that is an approximation function, of an order not more than a first predetermined order, for approximating the first height distribution information, from the first height distribution information, and a second component which is an approximation function, of an order not more than a second predetermined order, for approximating the second height distribution information.

An ejection device includes: an ejection unit provided with an ejection port configured to eject an ejection material; a piezoelectric element configured to cause the ejection material to be ejected from the ejection unit; a first liquid chamber connected to the ejection unit and configured to supply the ejection unit with the ejection material; a pressure control unit configured to control a pressure in the ejection unit by controlling a pressure in the first liquid chamber; and a detection unit configured to detect a wetness of an ejection port side surface.

Multi-layered articles or products comprising layers of filled polymer compositions, methods of making and applications or uses thereof.

A wiring harness for coupling electronic components includes a hollow trunk sleeve and a hollow branch sleeve. The trunk sleeve includes one or more notches and bends spaced apart along its length. The branch sleeve is interconnected to the trunk sleeve at each corresponding notch, with each branch sleeve open to the trunk sleeve through the respective notch. A bundle of wires extends through the trunk sleeve, with a sub-set of the bundle extending through each notch and corresponding branch sleeve. A first encapsulation layer is disposed about the trunk and branch sleeve at each interconnection separately secures each branch sleeve to the trunk sleeve. A second encapsulation layer is disposed about each bend to maintain the trunk sleeve in a desired pre-defined pattern with each first and second encapsulation layer being separated such that at least a portion of the trunk sleeve is free of the encapsulation layers.

This disclosure describes co-extruded multilayer articles including at least one continuous layer and one discontinuous layer, as well as systems and techniques for the manufacture of co-extruded multilayer articles. For example, a co-extruded multilayer article is described that includes a body having a plurality of layers, where a first layer of the plurality of layers is formed from a first material and is continuous along a longitudinal axis of the body, and a second layer of the plurality of layers is formed from a second material and is discontinuously co-extruded along the longitudinal axis.

The invention relates to the use of polyamide 6 for reduction of the melt viscosity, to be determined at 260° C. to ISO 11443, and/or of the fill pressure, to be determined according to EN ISO 294-1, of compositions and moulding compounds in which there are 10 to 115 parts by mass of glass fibres per 100 parts by mass of poly-C.sub.1-C.sub.6-alkylene terephthalate.

The present invention is intended to prevent resin from sticking to a molding surface of a first molding die that holds an object to be molded, without using a release film, and is a resin molding apparatus that performs resin molding on the object to be molded, the resin molding apparatus including: a first molding die that holds the object to be molded; a second molding die that is provided in a manner facing the first molding die and that has a cavity for holding resin material; and a cover plate that is provided between the object to be molded and the first molding die, that covers a molding surface of the first molding die, and that has rigidity for maintaining its own shape.

A conductive member module has a pair of conductive members formed in a plate shape and facing each other, and a sealing part. The conductive member module is produced by performing an accommodation step, a sealing step, and an extraction step. In the accommodation step, the two individual conductive members are sandwiched in the facing orientation thereof by outer support members abutting outer surfaces of the conductive members, and inner support members abutting inner surfaces of the conductive members. Outer recesses are formed in the outer surfaces by the outer support members, and inner recesses are formed in the inner surfaces by the inner support members. The outer recesses are deeper in the Z direction than the inner recesses.