A building truss wire guard system and method of use to keep electrical wire away from a metal gusset plate or pinch point. The system includes a guard apparatus with an elongate support member with first and second ends and fastener means adjacent to the ends configured to attach the apparatus to a truss member. A plurality of such apparatuses may be used within a system. A method of use involves providing a guard apparatus, locating a metal gusset plate or pinch point, positioning the guard apparatus at a truss location adjacent to the metal gusset plate or pinch point, and attaching the guard apparatus at the truss location, typically beyond the outer periphery of the metal gusset plate or pinch point. Wire may be placed, run, or pulled over the guard apparatus.

A building truss wire guard system and method of use to keep electrical wire away from a metal gusset plate or pinch point. The system includes a guard apparatus with an elongate support member with first and second ends and fastener means adjacent to the ends configured to attach the apparatus to a truss member. A plurality of such apparatuses may be used within a system. A method of use involves providing a guard apparatus, locating a metal gusset plate or pinch point, positioning the guard apparatus at a truss location adjacent to the metal gusset plate or pinch point, and attaching the guard apparatus at the truss location, typically beyond the outer periphery of the metal gusset plate or pinch point. Wire may be placed, run, or pulled over the guard apparatus.

An insulator support pin includes a strength member and a non-conductive sheath surrounding the strength member. The non-conductive sheath extends between a first end and a second end. The insulator support pin also includes a support member between the first end and the second end. The first end is configured to attach to an insulator, and the second end is configured to attach to a support structure.

An insulator support pin includes a strength member and a non-conductive sheath surrounding the strength member. The non-conductive sheath extends between a first end and a second end. The insulator support pin also includes a support member between the first end and the second end. The first end is configured to attach to an insulator, and the second end is configured to attach to a support structure.

The present invention relates to a dry-type 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 said bushing. The dry-type plug-in bushing comprises: a conducting body; a cast-type 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 cast-type resin insulating body; and injected insulating body produced by an insert injection including the outer circumference of the cast-type 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 cast-type resin insulating body.

The present invention relates to a dry-type 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 said bushing. The dry-type plug-in bushing comprises: a conducting body; a cast-type 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 cast-type resin insulating body; and injected insulating body produced by an insert injection including the outer circumference of the cast-type 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 cast-type resin insulating body.

Mounting plates for elevating platforms, including a mounting apparatus with interior and exterior reinforcement components elongated vertically. The interior reinforcement piece includes an embedded bolt that extends from the interior reinforcement piece, through a wall of the platform, and through the exterior reinforcement component. The interior and exterior reinforcement components have a stepped construction to convert peel stress to shear stress.

Mounting plates for elevating platforms, including a mounting apparatus with interior and exterior reinforcement components elongated vertically. The interior reinforcement piece includes an embedded bolt that extends from the interior reinforcement piece, through a wall of the platform, and through the exterior reinforcement component. The interior and exterior reinforcement components have a stepped construction to convert peel stress to shear stress.

Mounting plates for elevating platforms, including a mounting apparatus with interior and exterior reinforcement components elongated vertically. The interior reinforcement piece includes an embedded bolt that extends from the interior reinforcement piece, through a wall of the platform, and through the exterior reinforcement component. The interior and exterior reinforcement components have a stepped construction to convert peel stress to shear stress.

Mounting plates for elevating platforms, including a mounting apparatus with interior and exterior reinforcement components elongated vertically. The interior reinforcement piece includes an embedded bolt that extends from the interior reinforcement piece, through a wall of the platform, and through the exterior reinforcement component. The interior and exterior reinforcement components have a stepped construction to convert peel stress to shear stress.