A lacrosse head pocket includes a plug unit having first and second plugs disposed on a cross lace. The plugs are overmolded by first and/or second runners constructed from a polymeric material so that the plugs are joined with the first and/or second runners. The cross lace extends outwardly from the plug and the overmolded first and/or second runners. Some plug units can have cross laces that cross one another, while other plug units might not include cross laces that cross one another. A method is also provided including: forming a first plug on a first cross lace, placing the first plug in a mold, overmolding a first runner over at least a portion of the plug so the plug and first runner are joined, and optionally overmolding a second plug joined with the cross lace with a second runner or the same first runner.

The invention relates to a method for producing a separation net and to a separation net (10), in particular for vehicle interiors, which has a net-like, tear-resistant textile web (11) formed of textile threads (12), which is cut to any peripheral contour, wherein the loose ends (13) of the textile threads (12) that were created by a separating cut are securely bound at the edges in a plastic material of a single-layered edge strip (18). The textile web (11) can have any peripheral contour, and the loose ends (13) of the textile threads (12) of the textile web (11) that were created by a cutting to size are embedded at least at the side edges (16, 17).

A fiber optic ferrule assembly is provided, which comprises a ferrule and an optical fiber received in the ferrule. The ferrule and the optical fiber are directly joined together, so as to fix the optical fiber in the ferrule. At least a part of the ferrule is directly over-molded on the optical fiber by injection molding or shrunk on the optical fiber. In the embodiments of the present invention, the ferrule is directly over-molded or shrunk on the optical fiber, so that the ferrule and the optical fiber are directly joined together. As a result, the optical fiber is stably fixed in the ferrule.

A molding method of a connector portion including an electric wire with a core wire, a terminal metal fitting and a mold portion, the molding method of insert-molding the mold portion with a plurality of molding dies forming a cavity corresponding to the mold portion, includes an injection step of closing the molding dies so that the insulating coating is compressed and deformed and injecting and filling a mold resin as a synthetic resin material of the mold portion into the cavity; and a mold opening step of separating the molding die in a mold opening direction while the mold resin has fluidity so that leakage of the mold resin is prevented by an elastic return pressure of the insulating coating.

A method of forming a molded polymer part having a screw boss includes positioning a screw boss insert on a pin of a mold tool. The screw boss insert may contact guide surfaces of the mold tool. During molding, polymer material flows along the screw boss insert while the screw boss insert is positioned on the pin. The polymer material may bond to the screw boss insert. The screw boss insert may include one or more geometric features that prevent rotation and/or axial movement of the screw boss insert relative to the surrounding polymer material.

The invention relates to a method for producing a cable, comprising both a molding tool with a cavity and with at least one first opening, and a line, said line consisting of at least one wire and a sheath surrounding the at least one wire. According to the invention, the line is inserted into the cavity and is guided out of the cavity via at least the first opening. A molding compound is injected into the cavity of the molding tool in a pressurized manner, wherein the line is pressed onto a seal surface of the cavity by means of the pressure of the molding compound, and the line closes the cavity at the seal surface.

Each of a plurality of terminals has a first portion and a second portion being a connection target for a semiconductor element. A manufacturing method of a housing includes a first step arranging, for a lower mold provided with a plurality of holes each of which is a target into which the first portion is inserted, a nest having a third portion covering at least one of the holes, a second step arranging, for the lower mold with the nest being arranged therein, the plurality of terminals by inserting the first portion into the hole not covered by the third portion, a third step arranging an upper mold on the lower mold with the nest and the plurality of terminals being arranged therein, and a fourth step, which is executed after the third step, obtaining the housing by performing resin molding using the lower mold and the upper mold.

There is provided an integrated system for liquid separation, such as LC, CE, affinity chromatography, and ion exchange chromatography, comprising a column and end-fittings embedded in a plastic material, such as a thermoplastic polymer. The system may further comprise an electrospray emitter directly connected with the outlet of the column, wherein a substantial part of the emitter is covered with the polymer material. There is also provided a method by which a separation column along with the accompanying end fittings for connection with adjacent liquid conduits is embedded in a polymer matrix. This configuration e.g. ensures that the factory-made, correct attachment of the fittings to the column is preserved (since the matrix prevents further user intervention, accidental or otherwise). Accordingly, the responsibility for the correct attachment of the fittings is shifted from the end user to the manufacturer.

A cable assembly includes a connector head electrically coupled to a plurality of conductors disposed in a cable, the connector head having a plug and a conductor interface; an outer shell including a first portion encasing the plug of the connector head, and a second portion encasing the conductor interface of the connector end; an inner shell including a connector end encasing the second portion of the outer shell, and a cable end encasing a portion of the cable and including an injection gate; and conductive resin including a first portion disposed inside the connector end of the inner shell, and a second portion disposed inside and outside the cable end of the inner shell; wherein inside and outside portions of the second portion of the conductive resin are connected through the injection gate.

A method can be applied for manufacturing an electrical connector on an end portion of a multi-wire electrical cable whose wires are surrounded annularly in cross section in the end portion by an outer conductor. The outer conductor is partially radially compressed toward the wires by at least one die, and is also partially provided with an overmold in an injection mold. In the method, after the outer conductor is deformed, the die is positioned on the outer conductor in such a way that the die partially bounds a mold cavity to be filled with a plasticized molding compound to form the overmold. At least one mold part of the injection mold is moved toward the outer conductor and the mold part is positioned in a vicinity of the outer conductor so to further bound the mold cavity.