An electrically grounded and corrosion-protected assembly includes a utility pole having a bottom portion that is buried in the earth. A water impermeable and electrically conductive cementitious surround is applied to at least a section of the portion that is buried in the earth. The surround is in direct contact with the section and is between the section and the earth. A brace is embedded in the surround and supports the utility pole. The brace may include an aggregate such as gravel.

Disclosed herein are walk behind grinding tools with horizontally aligned guides and grinding drum. One embodiment relates to a grinding tool with a pair of guides on opposing sides of a blade set of a grinding drum, where the pair of guides is configured to limit a grinding depth of the grinding drum. At least a portion of a guide curvature is generally concentric with a mill curvature, and a guide radius is less than a mill radius. Another embodiment relates to a grinding system including a grinding tool with a vacuum shroud hingedly attached to a front of a main body of a grinding housing, and a vacuum including a vacuum tube in fluid communication with the vacuum shroud. Another embodiment relates to a method of forming a grinding tool.

A ground level primary electrical distribution system deploys terrain mounted or essentially terrain flush pipes that protect suppress ignition from fires that may occur if components fail within the pipes. The pipes can be deployed in remote and rugged terrain where overhead power lines poses fire risks from wind damage and it is impractical and disruptive to bury the electricity conducting cable or deployed along roadways or field at ground level or essentially flush with the ground to avoid excavation yet avoid the use of overhead power lines that can be subject to damage from high wind. The pipes can follow the terrain between junctions over rigid segments formed by a plurality of end-to-end coupled enclosures, while the conductors are protected within jacketing or flow through flexible insulating and isolating conduits within the more rigid pipes.

A cord protector with an elongated body and a coupler that joins the elongated body to an adjacent elongated body to form an elongated cord protector system. The elongated body has a base and a lid. The base has a channel extending between a first end and a second end. The base also has ridges that extend into the channel, a cavity configured to mate with the coupler, and a central pillar that extends from the floor into the channel along a majority of the channel. The lid is configured to be inserted into the channel. The lid has two grooves that are sized and shaped to receive one of the ridges. The lid also has a slot configured to receive the top of the central pillar when the lid is inserted into the channel. The central pillar supports the lid when the lid is inserted into the channel.

A distribution cabling tape system comprises a resilient polymeric base sheet having a first major surface and a second major surface, the first major surface being substantially continuous across a side to side width, an adhesive layer disposed on the first major surface, the adhesive layer capable of adhering to a concrete or asphalt surface, and first and second spacer layers arranged in a spaced apart configuration on the adhesive layer to form a continuous lengthwise channel configured to receive at least a portion of at least one distribution cable, each of the first and second spacer layers comprising a second adhesive layer disposed thereon, the second adhesive capable of adhering to a concrete or asphalt surface.

A power distribution system includes a track having a first end, a second end opposite the first end, and a longitudinal axis extending through the first and second ends. The track defines a channel extending along the longitudinal axis. A plurality of power cables is positioned within the channel. The power distribution system further includes an electrical hub having a body coupled to the second end of the track. A plurality of wafers is supported by the body and stacked on top of each other to define a set of terminals. The set of terminals is electrically connected to the plurality of power cables. A power receptacle is supported by the body and electrically connected to the plurality of wafers.

A distribution cabling tape system comprises a resilient polymeric base sheet having a first major surface and a second major surface, the first major surface being substantially continuous across a side to side width, an adhesive layer disposed on the first major surface, the adhesive layer capable of adhering to a concrete or asphalt surface, and first and second spacer layers arranged in a spaced apart configuration on the adhesive layer to form a continuous lengthwise channel configured to receive at least a portion of at least one distribution cable, each of the first and second spacer layers comprising a second adhesive layer disposed thereon, the second adhesive capable of adhering to a concrete or asphalt surface.

A ground level primary electrical distribution system deploys terrain mounted or essentially terrain flush pipes that protect suppress ignition from fires that may occur if components fail within the pipes. The pipes can be deployed in remote and rugged terrain where overhead power lines poses fire risks from wind damage and it is impractical and disruptive to bury the electricity conducting cable or deployed along roadways or field at ground level or essentially flush with the ground to avoid excavation yet avoid the use of overhead power lines that can be subject to damage from high wind. The pipes can follow the terrain between junctions over rigid segments formed by a plurality of end-to-end coupled enclosures, while the conductors are protected within jacketing or flow through flexible insulating and isolating conduits within the more rigid pipes.

An electrically grounded and corrosion-protected assembly includes a metallic structure. At least a portion of the metallic structure is buried in the earth. A water impermeable and electrically conductive cementitious surround is applied to at least a section of the portion that is buried in the earth. The surround is in direct contact with the section and is between the section and the earth.

An apparatus and method for protecting an electrical connection from the environment is provided. The apparatus includes a cover and a base attached to the bottom portion of the cover forming an enclosed chamber with the cover. The apparatus can further include a support post configured to elevate the enclosed chamber above a ground surface, wherein the first end of the support post is attached to and extends downward from the base and the second end of the support post is configured to be mounted on or to the ground surface.