A ground structure of a controller that is mounted in a construction machine such as a dump truck and has a case having an upper surface on which a connector receiver hole for a receptacle connector to be received is provided includes: a cable harness that is provided by a plurality of cables including a ground cable and is connected to the receptacle connector; and a connecting portion for the ground cable to be connected, the connecting portion being provided near the connector receiver hole on the upper surface.

A light fixture includes a heat dissipating structure, an electronics assembly, and a bolt for attaching the heat dissipating structure to an external panel. The heat dissipating structure includes a first side having multiple outwardly extending projection regions and a socket, for receiving a light source, is formed in an apex of each projection region. A second side of the heat dissipating structure includes a heat sink formed in an internal cavity of each projection region. The heat sink includes fins in contact with and radially arranged about an outer surface of the socket. The electronics assembly is located at the first side of the heat dissipating structure. The bolt includes a passage through which wiring from an external source is routed to the electronics assembly. The electronics assembly includes wires routed through channels in each of the projection regions that electrically interconnect the light sources to the electronics assembly.

A light fixture includes a heat dissipating structure, an electronics assembly, and a bolt for attaching the heat dissipating structure to an external panel. The heat dissipating structure includes a first side having multiple outwardly extending projection regions and a socket, for receiving a light source, is formed in an apex of each projection region. A second side of the heat dissipating structure includes a heat sink formed in an internal cavity of each projection region. The heat sink includes fins in contact with and radially arranged about an outer surface of the socket. The electronics assembly is located at the first side of the heat dissipating structure. The bolt includes a passage through which wiring from an external source is routed to the electronics assembly. The electronics assembly includes wires routed through channels in each of the projection regions that electrically interconnect the light sources to the electronics assembly.

A supply rail for a vehicle includes a first busbar which is designed to provide electrical energy with a first supply voltage for supplying energy to a large number of electrical modules of the vehicle. In this case, the electrical modules of the large number of electrical modules are arranged at different points of the vehicle. The supply rail includes means for data transmission designed to allow data interchange between at least two of the large number of electrical modules. The supply rail has a large number of slots for the large number of electrical modules, wherein a first slot of the large number of slots is designed to connect a first electrical module of the large number of electrical modules to the first busbar and to the means for data transmission by way of a first plug connection. The supply rail includes a temperature-control duct which is designed to conduct a thermally conductive medium past the large number of electrical modules.

A supply rail for a vehicle includes a first busbar which is designed to provide electrical energy with a first supply voltage for supplying energy to a large number of electrical modules of the vehicle. In this case, the electrical modules of the large number of electrical modules are arranged at different points of the vehicle. The supply rail includes means for data transmission designed to allow data interchange between at least two of the large number of electrical modules. The supply rail has a large number of slots for the large number of electrical modules, wherein a first slot of the large number of slots is designed to connect a first electrical module of the large number of electrical modules to the first busbar and to the means for data transmission by way of a first plug connection. The supply rail includes a temperature-control duct which is designed to conduct a thermally conductive medium past the large number of electrical modules.

Disclosed herein is an enclosure including a housing for dissipating heat from first and second heat generating components located on first and second circuit boards, respectively. In the enclosure, a first heat sink plate and a second heat sink plate are spring biased apart from one another. A maximum spring biasing distance between the first heat sink plate and the second heat sink plate is greater than a distance between the interior side of the front wall and the interior side of the back wall of the housing.

Disclosed herein is an enclosure including a housing for dissipating heat from first and second heat generating components located on first and second circuit boards, respectively. In the enclosure, a first heat sink plate and a second heat sink plate are spring biased apart from one another. A maximum spring biasing distance between the first heat sink plate and the second heat sink plate is greater than a distance between the interior side of the front wall and the interior side of the back wall of the housing.

An object of the present disclosure is to enable a wire and a refrigerant pipe to be mounted in a compact form in a vehicle. A temperature management system with a wire includes a refrigerant pipe through which a refrigerant for performing heat exchange in a heat exchange target device that is mounted in a vehicle passes and at a wire at least a portion of which extends along at least a portion of the refrigerant pipe.

This disclosure relates to pole bases, specifically to light pole base cabinets that can house items. The pole base cabinets can be positioned between a light pole and a footing. The pole base cabinets provide a base to a light pole while adding additional functionality. The cabinets can include a main opening allowing access to a cavity in which items can be stored. Access to the cavity can be restricted with a door that uncovers and covers the main opening. The pole base cabinets can include support panels, internal stiffening panels, external stiffening panels, support tabs, flanges, tabs, a peripheral wall, and other features to provide structural support and enclose the contents in the pole base cabinet.

A light emitting apparatus includes a light source, a unitary formed heat sink with a plurality of heat dissipating fins, a lensed enclosure that retains a light source and at least one power consuming device other than the light source. The lensed enclosure includes a recessed opening having at least a first wall that terminates at a substantially perpendicular second wall. The plurality of heat dissipating fins are disposed on at least one adjacent exterior side of the walled enclosure, the fins extending outwardly. At least one fin coupled to the heat sink extends beyond the light source, and the heat generated by the light source travels by conduction laterally through the heat sink to the at least one coupled fin.