A method of forming a grommet configured to provide support for a cable exiting of a housing is presented herein. The method includes the steps of providing a sleeve and a sealing part and providing one or more reinforcement members in a region of a transition between the sleeve and the sealing part. At least one of the sleeve and the sealing part are made from a material that is softer than a material of said one or more reinforcement members.

A liquid-tight strain relief includes a tubular-shaped bushing and a dome-shaped gland. The bushing includes a flange with arcuate slots, a centrally-located aperture, a plurality of resilient outer fingers, and a shoe slideably received within a lateral groove of the bushing. The gland includes a head having a centrally-located membrane. The head is co-molded with and encapsulates the flange, resulting in a strain relief having a unitary construction. The strain relief is adapted to be inserted within an orifice of a work piece, and the outer fingers frictionally engage the work piece. A cable is inserted within the strain relief by puncturing the membrane, which then stretches and provides a seal against the cable. The cable is gripped to the strain relief when the shoe is pressed against the cable. The shoe is held against the cable by teeth on the shoe, which engage opposing locking ribs on the bushing.

A method of forming a grommet configured to provide support for a cable exiting of a housing is presented herein. The method includes the steps of providing a sleeve and a sealing part and providing one or more reinforcement members in a region of a transition between the sleeve and the sealing part. At least one of the sleeve and the sealing part are made from a material that is softer than a material of said one or more reinforcement members.

A grommet configured to provide support for a cable exiting of a housing is presented herein. The grommet has a generally elongate shape extending along a longitudinal axis. The grommet includes a sealing part configured to interact with an inner wall of an exit point of the housing, a sleeve arranged around the longitudinal axis and configured to be arranged outside of the housing to act as a cable relief on the outside of the housing, the sealing part, and one or more reinforcement members provided in a transition region between the sealing part and the sleeve. An electronic member including an electric cable connected to an electronic component present within the housing of the electronic member and the grommet as well as a method of the forming grommet is also presented.

The present disclosure describes a grommet formed of a polymeric material and adapted for securing a cable within a cable hanger. The grommet includes a main body having a generally cylindrical profile surrounding an interior cavity, the main body further having a length, a thickness, and a longitudinal axis, a slot extending the length of the main body which provides an entry point for the cable to be inserted into the interior cavity, a plurality of flex retention members extending into the interior cavity configured to grip and secure the cable within the interior cavity, and one or more grip enhancement features residing between an inner surface of the main body and the flex retention members. The grip enhancement features are configured to provide additional support to the flex retention members when a cable is inserted into the interior cavity.

The present disclosure describes a grommet. The grommet includes a slot extending the length of a main body which provides an entry point for a cable to be inserted into an interior cavity, a plurality of flex retention members extending into the interior cavity configured to grip and secure the cable, and one or more grip enhancement features residing between an inner surface of the main body and the flex retention members. The grip enhancement features are configured to provide additional support to the flex retention members when a cable is inserted into the interior cavity. The grip enhancement features are coupled to or integral with a respective flex retention member and extend radially outwardly therefrom, and each grip enhancement feature is configured to engage or contact the inner surface of the main body when a larger diameter cable is received within the interior cavity of the grommet.

A grommet configured to provide support for a cable exiting of a housing is presented herein. The grommet has a generally elongate shape extending along a longitudinal axis. The grommet includes a sealing part configured to interact with an inner wall of an exit point of the housing, a sleeve arranged around the longitudinal axis and configured to be arranged outside of the housing to act as a cable relief on the outside of the housing, the sealing part, and one or more reinforcement members provided in a transition region between the sealing part and the sleeve. An electronic member including an electric cable connected to an electronic component present within the housing of the electronic member and the grommet as well as a method of the forming grommet is also presented.

Described is a plug-in bushing, a manufacturing method of same, and a high-voltage installation, more specifically, to a plug-in high-voltage bushing for connecting an external electrical conductor to a high-voltage installation filled with an insulating body, and to a high-voltage installation comprising the bushing. The plug-in bushing comprises: a conducting body; a resin insulating body surrounding the conducting body; an electric field-control electrode made of a semi-conducting synthetic resin material, coupled to an upper end of a lower support fitting; the lower support fitting connected to the outer circumference of a lower part of the resin insulating body; and injected insulating body produced by an insert injection including the outer circumference of the resin insulating body and electric field-control electrode, having formed thereon a plurality of fins; and a stress cone connected to a lower end of the resin insulating body.

A liquid-tight strain relief includes a tubular-shaped bushing and a dome-shaped gland. The bushing includes a flange with arcuate slots, a centrally-located aperture, a plurality of resilient outer fingers, and a shoe slideably received within a lateral groove of the bushing. The gland includes a head having a centrally-located membrane. The head is co-molded with and encapsulates the flange, resulting in a strain relief having a unitary construction. The strain relief is adapted to be inserted within an orifice of a work piece, and the outer fingers frictionally engage the work piece. A cable is inserted within the strain relief by puncturing the membrane, which then stretches and provides a seal against the cable. The cable is gripped to the strain relief when the shoe is pressed against the cable. The shoe is held against the cable by teeth on the shoe, which engage opposing locking ribs on the bushing.

The cable gland with pressure indicator of the present invention comprehends a scale (12) disposed on the sleeve (5) that fits in a body (4), the referred body (4) comprising an optical element box (14) with an optical element (13) inserted in section of its outer surface (16), the positioning of the referred section being determined in a way that the optical element box (14) is positioned above the scale (12) disposed on the sleeve (5), the outer body surface section (4) comprising a reference ring (16).