Abstract: A method of assembling a water-in-fuel sensor assembly. The method includes an initial step of providing a housing that has a recess, at least one pin located within the housing, a circuit board, and at least one terminal configured for engaging the at least one pin. The method also includes forming a board-mounting subassembly by coupling the at least one terminal to the circuit board. The method also includes positioning the board-mounting subassembly within the housing by engaging the at least one terminal with the at least one pin such that the board-mounting subassembly is disposed within the recess of the housing.
Abstract: A stacking power outlet enclosure system for installation in a tower pedestal table, the tower pedestal table having a column extending up from a base. The stacking power outlet enclosure system including at least one enclosure and an electrical power outlet board within the enclosure. The electrical power outlet board having electrical power receptacles positioned on opposite sides of the board. The receptacles being accessible on opposite sides of the enclosure, the enclosure being insertable into the column, and the power receptacles being available through the column.
Abstract: A stacking power outlet enclosure system for installation in a tower pedestal table, the tower pedestal table having a column extending up from a base. The stacking power outlet enclosure system including at least one enclosure and an electrical power outlet board within the enclosure. The electrical power outlet board having electrical power receptacles positioned on opposite sides of the board. The receptacles being accessible on opposite sides of the enclosure, the enclosure being insertable into the column, and the power receptacles being available through the column.
Abstract: An electrical power coupler for installation in a tower pedestal table, the tower pedestal table having a column extending up from a base. The electrical power coupler including a generally cylindrical shaped structural member that is insertable into an end of the column. There is at least one channel along a side of the structural member, and the at least one channel has an obstructed end. A power conduit extends through the structural member.
Abstract: A tower system including a column and an electrical power outlet board positioned within the column, the electrical power outlet board having electrical power receptacles positioned on opposite sides of the board, the receptacles being accessible on opposite sides of the column.
Abstract: An electrical receptacle faceplate couplable to an electrical receptacle housing, the electrical receptacle faceplate including a frontside, a backside, and a plurality of resilient latches. There are a plurality of slots extending from the frontside through the faceplate to the backside. The plurality of resilient latches extend from the backside of the faceplate.
Abstract: An electrical receptacle assembly including first and second prong receiving members, a housing and a tamper resistant member. The housing has the prong receiving members positioned therein and electrically isolated from each other. The tamper resistant member is slidingly coupled to the housing. The tamper resistant member is restricted from sliding if only a first portion of the tamper resistant member is pressed upon proximate to one of the prong receiving members.
Abstract: A tray system including a column, a tray and a tray collar. The tray has an opening through which the column extends. The tray collar is constrained against the column, the tray being a part of or resting upon the tray collar.
Abstract: A mounting bracket assembly including at least one mount configured to be connected to a structure, a distribution harness configured to mount at least one electrical receptacle, and at least one bracket. The at least one bracket is configured to at least partially extend around the distribution harness and removably connect the distribution harness to the at least one mount.
Abstract: A mounting bracket assembly including at least one mount configured to be connected to a structure, a distribution harness configured to mount at least one electrical receptacle, and at least one bracket. The at least one bracket is configured to at least partially extend around the distribution harness and removably connect the distribution harness to the at least one mount.
Abstract: A freestanding electrical receptacle configured for being located on top of a surface of an object. The freestanding electrical receptacle includes a housing with a plurality of housing plates. Each housing plate of the plurality of housing plates has a respective thickness. The freestanding electrical receptacle also includes at least one receptacle located on the housing and at least one bottom plate coupled with the housing. The at least one bottom plate has a thickness which is thicker than the respective thickness of each housing plate of the plurality of housing plates for adding additional weight to the housing. The freestanding electrical receptacle also includes at least one bumper in engagement with the at least one bottom plate.