A floor power distribution system that includes a power distribution junction assembly including a first housing configured to abut a floor surface, a pair of receptacle junction assemblies each including a second housing configured to abut the floor surface, and a pair of raceway assemblies each including an elongated raceway including a longitudinally extending channel, a pair of ramps each coextending with the elongated raceway on opposite sides thereof, each ramp including a proximate edge that engages the elongated raceway and having a first thickness, and a distal edge having a second thickness that is less than the first thickness, wherein the elongated raceway and the elongate ramp are configured to be located between the floor surface and a floor covering in an area frequented by foot traffic.

Disclosed is a cable guard device configured to be driven into ground near a transition point on an edge line delineating a yard area from a hardscape. Embodiments of the cable guard device comprise at least one stake portion, a cable guard channel configured to receive a cable, and a cable guard extension. When the cable is received through the cable guard channel and the at least one stake portion is driven into ground near the transition point on the edge line delineating the yard area from the hardscape, the cable channel guard protects from damage a first portion of the cable over the yard area and the cable guard extension protects from damage a second portion of the cable over the hardscape.

Novel tools and techniques are provided for implementing FTTx, which might include Fiber-to-the-Home (FTTH), Fiber-to-the-Premises (FTTP), and/or the like. A method might include routing an F1 line(s) from a central office or DSLAM to a fiber distribution hub (FDH) located within a block or neighborhood of customer premises, via at least an apical conduit source slot. From the FDH, an F2 line(s) might be routed, via any combination of various apical conduit components, to a network access point (NAP) servicing one or more customer premises. An F3 line(s) might be distributed, at the NAP and from the F2 line(s), to a network interface device (NID) or optical network terminal (ONT) at each customer premises, via any combination of the apical conduit components, which include channels in at least portions of roadways. In some embodiments, at least one wireless access point is disposed in each of one or more channels.

Provided is a microtrench fill comprising cement, a polymer, and a colorant. Also provided is a method of using the microtrench fill to fill a microtrench in a roadway.

Provided is a microtrencher having a utility avoidance system that detects objects buried under the roadway, identifies whether the buried object is a utility and determines whether the buried utility is in the path of the cutting wheel. If the buried utility is in the path of the cutting wheel, an alert is sent to the operator, the vehicle is stopped, and/or the cutting wheel is raised in relation to the roadway. Also provided is a method of using the microtrencher to cut a microtrench in a roadway and to avoid cutting a buried utility in the path of the cutting wheel.

Precast utility enclosure aprons for buried utility enclosures that have an angled top surface to direct water, ice and debris away from the center of the apron and to limit damage to the apron and utility enclosure caused by impacts to the apron.

A plurality of modular cable protectors can be removably connected in series by complementary end connectors at each end. Each cable protector also includes a number of tool engagement features that that can be removably engaged by a tool that enables a user to exert an upward force to disengage the end connectors on adjacent cable protectors. For example, the tool engagement features can be slots in the top surface of the cable protector with undercuts adjacent to the lower ends of the slots. A tool with vertical rods is manually inserted into the slots to disengage the cable protectors. Horizontal projections at the bottom of the vertical rods engage the undercuts in the slots, and allow the user to disengage adjacent cable protectors by lifting upward on the tool.

A modular cable protector can be removably connected in series with like cable protectors by complementary male and female end connectors. A number of openings extend downward along the peripheral walls of the adjacent end connectors to define a pattern of gaps and regions of contact between adjacent end connectors. Preferably, undercuts extend from the lower portions of the openings. A tool can be used to removably engage these openings and undercuts, thereby allowing a user to exert an upward force to disengage the end connectors on adjacent cable protectors.

A power hub includes a base assembly configured to abut a floor surface, a shaft coupled at a lower end to the base assembly, a handle coupled to an upper end of the shaft, and an electrical receptacle block housed in an upper end of the shaft, below the handle.

A method for encasing underground electrical cables, includes (a) providing a fresh concrete composition including a paste that includes a hydraulic binder, a mineral addition and water, the paste being present in a mixture with sand and aggregates, whereby the paste is present in the concrete composition in a volume of <320 L/m.sup.3 and/or the solid volume fraction of said paste is >50 vol.-% and (b) placing the fresh concrete composition so as to encase the underground cables therewith.