A mounting device for outdoor electrical outlets includes an upper plate and a lower plate arranged and interconnected in a generally V-shaped configuration, and is adapted for recessed installation into a power pedestal or other structure. The upper and lower plates may be contiguous along their inner edges. Alternatively, an intermediate plate may be disposed therebetween, giving the mounting device a trapezoidal configuration. Either or both of the upper and lower plates may be sloped, and side plates may extend between the side edges of the upper and lower plates. The upper plate has an aperture for an electrical outlet, which when installed in the aperture will face generally downward and thus be protected from rain and snow. The outer edges of the upper and lower plates, and of the side plates when present, may have mounting flanges to facilitate installation of the mounting device in a power pedestal.

An in-ground enclosure for housing electrical components is provided. The in-ground enclosure can include an outer shell, a first compartment located within the outer shell, a second compartment located within the outer shell, an upper panel comprising a first compartment opening for accessing the first compartment and a second compartment opening for accessing the second compartment, a dividing wall separating the first compartment from the second compartment, a first compartment cover adapted for removably sealing the first compartment opening, and a second compartment cover adapted for removably sealing the second compartment opening. A telecommunications base station is also provided. The telecommunications base station can include an in-ground enclosure and a cellular base station, which can include an antenna coupled to signal processing equipment and a power supply.

An in-ground enclosure for housing electrical components is provided. The in-ground enclosure can include an outer shell defining an internal compartment housing a lift system, an equipment rack structure connected to the lift system, an upper panel comprising a compartment opening for accessing the internal compartment, an enclosure cover adapted to cover the compartment opening and for removably sealing the compartment opening. In certain uses, a telecommunications base station may also be provided. The telecommunications base station can include the in-ground enclosure and a cellular base station, with the cellular base station including an antenna coupled to signal processing equipment and a power supply. In alternative embodiments, the in-ground enclosure may be configured as a cube-shaped structure, or as a tubular-shaped structure.

An in-ground enclosure for housing electrical components is provided. The in-ground enclosure can include an outer shell defining an internal compartment housing a lift system, an equipment rack structure connected to the lift system, an upper panel comprising a compartment opening for accessing the internal compartment, an enclosure cover adapted to cover the compartment opening and for removably sealing the compartment opening. In certain uses, a telecommunications base station may also be provided. The telecommunications base station can include the in-ground enclosure and a cellular base station, with the cellular base station including an antenna coupled to signal processing equipment and a power supply. In alternative embodiments, the in-ground enclosure may be configured as a cube-shaped structure, or as a tubular-shaped structure.

A roof support system includes a support member configured to be mounted between a roof panel and a frame of an enclosure. The support member is movable to an extended position that supports the roof panel in an open position. A cam lock mechanism is operatively connected to the support member for releasably locking the support member in the extended position. In the extended position, a pin of the support member is received within a slot of the cam lock mechanism such that engagement of the pin with a closed end of the slot prevents the support member from moving from the extended position toward a retracted position. The cam lock mechanism includes a cam configured to rotate to a locking position that at least partially blocks an open end of the slot such that the pin of the support member is prevented from backing out of the slot.

A switchgear assembly for a wind turbine comprises an electric switchgear and a support structure supporting the electric switchgear, wherein the support structure comprises a damping device for damping mechanical impacts due to vibrations during operation of mechanical parts of the wind turbine. The switchgear assembly can be used in an offshore wind turbine.

A switchgear assembly for a wind turbine comprises an electric switchgear and a support structure supporting the electric switchgear, wherein the support structure comprises a damping device for damping mechanical impacts due to vibrations during operation of mechanical parts of the wind turbine. The switchgear assembly can be used in an offshore wind turbine.

Power pedestals that are configured with an internal metering assembly that includes a meter socket allows for remote monitoring of power usage. The power pedestals also include a display that can display information regarding parameters of the power pedestals and/or current users. The power pedestals can include transceivers and can wirelessly communicate with mobile devices of various users and a remote monitoring station.

Power pedestals configured with a skeleton tower assembly that has a skeleton tower frame that supports electronic components and a first wall panel with a plurality of external power receptacles and an outer sleeve coupled to the skeleton tower frame to avoid the use of doors and provide an efficient assembly process.

Power pedestals configured with a skeleton tower assembly that has a skeleton tower frame that supports electronic components and a first wall panel with a plurality of external power receptacles and an outer sleeve coupled to the skeleton tower frame to avoid the use of doors and provide an efficient assembly process.