A nozzle retention arrangement is provided for an injection molding manifold system, such as a hot runner manifold system. The nozzle retention arrangement couples an injection nozzle to a distribution manifold in a manner that locates the nozzle in its final operating position and applies an initial assembly load to retain the nozzle in position on the manifold to facilitate installation of a manifold system into a manifold plate. The nozzle retention arrangement may provide a compliant load application feature to limit sealing surface pressure between the nozzle and the manifold to prevent surface damage between the components, while also accommodating thermal expansion of the heated components during operation of the system. The nozzle retention arrangement may also provide a load control feature to prevent the machining quality of the nozzle bore in the manifold plate from determining the sealing load between the nozzle and the manifold.

An injection molding system includes an injection molding apparatus configured to perform injection molding with a mold, a conveyor apparatus configured to move the mold along a supporting plane; and a cable carrier configured to cover a cable connected to the mold, wherein a shape of the cable carrier changes for guiding the cable based on a movement of the mold by the conveyor apparatus, and wherein at least one of a first end of the cable carrier or a second end of the cable carrier are located below the supporting plane in a direction perpendicular to the supporting plane.

A method for producing a stator for an electrical machine includes providing the stator including a ring-shaped stator body, from which a plurality of stator teeth arranged spaced apart along a circumferential direction of the stator body protrude radially to the inside. A space is thereby provided between two stator teeth adjacent to one another in the circumferential direction. Second, a first injection molding of two stator teeth adjacent to one another in the circumferential direction with a plastic is performed. Third, a stator winding is arranged in the space. Fourth, a second injection molding of the stator winding arranged in the space with the plastic is performed such that an air gap and/or an air trap between the stator teeth injection molded in the second step and the stator winding after the arrangement of the stator winding in the space in the third step, is filled with the plastic.

In order to increase the degree of automation, an overmolding device for processing profiles, having a turntable with a worktable device that is movable in rotation about an axis of rotation in a rotation plane and has at least two processing areas, is proposed, wherein the processing areas each comprise a central plate, wherein the central plate is attached to and/or mounted on the worktable via a central-plate receptacle, wherein the turntable comprises an upper and a lower mold, which are decoupled from the rotation of the worktable device and which are arranged opposite one another with regard to the rotation plane, and wherein the upper and lower mold are movable such that, together with the central plate, they form a mold receiving the profile, and the central-plate receptacle (5) forms the fixed closing side and the upper and lower molds form the movable closing side.

A spacer for a foreign object detection sensor including an elongated hollow sheath, two conductive members, and two core wires buried in the two conductive members, the spacer being used for a terminal portion of the foreign object detection sensor and including a first member including an insertion portion configured to be inserted into a space between the two conductive members, and a concave-shaped second member including a first end portion and a second end portion, the first end portion at which a locking portion is provided to be locked to a first end of the first member, the second end portion which is opposed to the locking portion and is connected to a second end of the first member via an integral hinge, the second member containing one of the two conductor portions inside a closed cross-section formed between the first member and the second member.

A method for producing a stator for an electrical machine includes providing the stator including a ring-shaped stator body, from which a plurality of stator teeth arranged spaced apart along a circumferential direction of the stator body protrude radially to the inside. A space is thereby provided between two stator teeth adjacent to one another in the circumferential direction. Second, a first injection molding of two stator teeth adjacent to one another in the circumferential direction with a plastic is performed. Third, a stator winding is arranged in the space. Fourth, a second injection molding of the stator winding arranged in the space with the plastic is performed such that an air gap and/or an air trap between the stator teeth injection molded in the second step and the stator winding after the arrangement of the stator winding in the space in the third step, is filled with the plastic.

The disclosure is directed to an injection mold (1) comprising a mold insertframe (2) having several openings (3) extending in an axial direction (z). Each opening (3) accommodates a mold insert (4) encompassing a cavity (5), suitable to receive during operation melted plastic to form a plastic part. The several openings (3) with the mold inserts (4) are distributed around a center opening (6) of the mold insert frame (2). A nozzle head (7) is arranged in the center opening (6) of the mold insert frame (2). It comprises a primary melt channel (8), extending in the axial direction (z), and per cavity (5) a secondary melt channel (9) each interconnected at a dorsal end to the primary melt channel (8) and at a distal end to a cavity (5) by a nozzle tip (10) attached to the nozzle head (7). Each mold insert (4) comprises a first cooling channel (11) surrounding the cavity (5) and being in fluid communication with a first cooling circuit (12) across the mold insert frame (2).

A spacer for a foreign object detection sensor including an elongated hollow sheath, two conductive members, and two core wires buried in the two conductive members, the spacer being used for a terminal portion of the foreign object detection sensor and including a first member including an insertion portion configured to be inserted into a space between the two conductive members, and a concave-shaped second member including a first end portion and a second end portion, the first end portion at which a locking portion is provided to be locked to a first end of the first member, the second end portion which is opposed to the locking portion and is connected to a second end of the first member via an integral hinge, the second member containing one of the two conductor portions inside a closed cross-section formed between the first member and the second member.

A nozzle retention arrangement is provided for an injection molding manifold system, such as a hot runner manifold system. The nozzle retention arrangement couples an injection nozzle to a distribution manifold in a manner that locates the nozzle in its final operating position and applies an initial assembly load to retain the nozzle in position on the manifold to facilitate installation of a manifold system into a manifold plate. The nozzle retention arrangement may provide a compliant load application feature to limit sealing surface pressure between the nozzle and the manifold to prevent surface damage between the components, while also accommodating thermal expansion of the heated components during operation of the system. The nozzle retention arrangement may also provide a load control feature to prevent the machining quality of the nozzle bore in the manifold plate from determining the sealing load between the nozzle and the manifold.

A magnetic-inductive flowmeter with a measuring tube, a magnetic field generator and a measuring electrode in which its measuring electrodes are improved is achieved by the measuring electrode being formed of an outer electrode sheath of an electrically non-conductive plastic and of an inner electrode core of electrically conductive plastic, and by a method for producing the measuring electrode.