A power generator management system comprises a plurality of power generators, and an information processing apparatus configured to process information acquired from the plurality of power generators. Each power generator comprises: a detection unit configured to detect a remaining fuel amount in a fuel tank of the power generator; a position acquisition unit configured to acquire position information of the power generator; a state acquisition unit configured to acquire information representing an operating state of the power generator; and a communication unit configured to transmit the remaining fuel amount, the position information, and information representing the operating state to the information processing apparatus, and the information processing apparatus comprises a processing unit configured to acquire a margin level of power supply in each of the plurality of power generators and provide a result of the acquisition.

An internal combustion engine-based system includes an internal combustion engine. The internal combustion engine-based system includes an engine interrupt connected to the engine. The engine interrupt is configured to selectively stop the operation of the engine. The internal combustion engine-based system includes a controller in communication with the engine interrupt. The internal combustion engine-based system includes a carbon monoxide detector in communication with the controller. The controller uses the engine interrupt to stop the operation of the engine when the carbon monoxide detector provides the controller with signals that are representative of a carbon monoxide level proximate the internal combustion engine that together form a trend of building carbon monoxide amounts over a set time interval.

The invention relates to transportable and compact power supply unit for supplying a water vehicle, in particular an electrical power supply system of the water vehicle, with electrical energy and in particular for arrangement on the water vehicle, containing in a transport container or a plurality of transport containers that can be connected together, wherein the transport container or the plurality of transport containers can be transported as a single, coherent unit: at least one internal combustion engine that can be operated on gas, in particular a natural gas, at least one generator for generating power, which can be driven by the at least one internal combustion engine, at least one control device for the at least one internal combustion engine and/or at least one control device for the at least one generator, at least one fuel treatment device for the at least one internal combustion engine and/or at least one exhaust gas cleaning device for the at least one internal combustion engine, and at least one fuel storage device, wherein the fuel of the fuel storage device is a gas, in particular a natural gas, which is present preferably as liquefied gas, especially preferably as LNG.

The power generator comprises an engine, an alternator to be driven by the engine, and shrouds that cover at least a part of the engine, and each of the shrouds is formed of a shroud main body member and a sound absorbing member.

In the power generator, an alternator driven by an engine to generate power, an inverter for the alternator, a fan to cool the engine, and a shroud via which air blown by the fan is guided to a periphery of the engine are stored inside of a casing. A fan cover that covers the alternator and the fan is provided in an end portion of the shroud, a ventilating opening is formed in an end portion of the fan cover, and an inverter supporter in which the inverter is installed is provided in a circumferential edge portion of the ventilating opening.

The power generator includes: an alternator for generating electricity by driving an engine; an inverter case containing an inverter circuit of the alternator; a fuel tank for storing a fuel to be supplied to the engine; and a casing for housing at least the engine, the alternator and the inverter case, wherein the inverter case and the fuel tank are formed of a material having higher thermal conductivity than the casing, and the inverter case is disposed in contact with the fuel tank.

An electric device includes a first receptacle to which a first plug is connected, a second receptacle to which a second plug is connected, and a cover member configured to open/close the second receptacle. In a state in which the first plug is connected to the first receptacle, opening of the cover member is restricted by interference between the first plug and the cover member. In a state in which the second plug is connected to the second receptacle, connection of the first plug to the first receptacle is restricted by interference between the first plug and the cover member.

An air-cooled engine generator usable in an enclosed and relatively small indoor space includes an engine including a crank shaft on which a generator and a fan are provided. An outside cover includes a discharge aperture which discharges cooling air generated by the fan, and covers the engine, the generator, the fan, and a cooling section. The cooling section includes a mixing chamber where a coolant introduced from the outside and exhaust gas discharged from an exhaust pipe of the engine mix with each other, and an outer circumferential surface which is cooled by the coolant that is introduced into the mixing chamber. The exhaust gas is mixed with and cooled by the coolant in the mixing chamber while the cooling air which is supposed to be discharged out of the air-cooled engine generator is cooled by the outer circumferential surface of the cooling section.

To allow linking a fuel cock and an engine switch with a simple configuration and reducing residual fuel, a switch plate (link component) that links a fuel cock and an engine switch is provided. The switch plate includes: an extending portion (switch operation portion) pressed by a cam, which rotates integrally with the fuel cock, to switch off the engine switch when the fuel cock is further rotated beyond a position where the fuel cock is switched from ON to OFF; and a cam contact wall where the cam comes into contact to change rotational resistance of the fuel cock to allow providing a predetermined operation feeling when the fuel cock further rotates beyond the position where the fuel cock is switched from ON to OFF.

An engine-driven welding generator that monitors fuel level is provided. The engine-driven welding generator comprises a fuel level monitoring system configured to measure a remaining fuel level in a fuel tank of the engine-driven welding generator, determine a rate of fuel usage of an engine of the engine-driven welding generator, and calculate a remaining run time of the engine based on the remaining fuel level and the rate of fuel usage of the engine