A cover covering a rectifying device includes a cover end wall portion, a cover outer wall portion, and a cover intermediate portion interposed between the cover end wall portion and the cover outer wall portion. The cover end wall portion includes an inner peripheral side intake portion, and the cover intermediate portion includes an outer peripheral side intake portion. The outer peripheral side intake portion includes an axial direction covering portion existing in a position that is closer to a rotary electric machine main body than the cover end wall portion in an axial direction, and a radial direction covering portion that connects the axial direction covering portion to an outer peripheral portion of the cover end wall portion. Intake holes are provided respectively in the inner peripheral side intake portion, the axial direction covering portion, and the radial direction covering portion.

The present invention discloses a power supply semi-trailer for electric drive fracturing equipment, including a combination of a gas turbine engine, a generator and a rectifying unit, the generator outputs a winding configuration and a voltage required for the rectifying units directly to obviate conventional rectifier transformer equipment. The rectifying unit is connected to the inversion unit through a common DC bus, so that the common DC bus can separately drive multiple inversion units, thus decreasing the wirings of power supply lines. A high voltage inversion unit is disposed on a gooseneck of the electric drive semi-trailer to optimize the spatial arrangement of equipment. The entire power supply equipment has a compact structure, occupies a small area, and is simple in wiring.

A rotating electric machine includes a rotating shaft, a rotor, a stator, a housing, control modules and fixing members. The housing, which is grounded, rotatably supports the rotating shaft and accommodates the rotor and the stator. The control modules are arranged around the rotating shaft and adjacent to one another. Each of the control modules includes switching elements, a supporting part that supports the switching elements, and at least one connection part having a ground terminal formed therein. The fixing members are provided to fix the connection parts of the control modules to the housing. Each adjacent pair of the connection parts respectively belonging to two different ones of the control modules are together fixed to the housing by a corresponding one of the fixing members; the ground terminals formed in the adjacent pair of the connection parts are together electrically connected to the housing.

A rotating electric machine includes a rotating shaft, a rotor, a stator, a housing, control modules and fixing members. The housing, which is grounded, rotatably supports the rotating shaft and accommodates the rotor and the stator. The control modules are arranged around the rotating shaft and adjacent to one another. Each of the control modules includes switching elements, a supporting part that supports the switching elements, and at least one connection part having a ground terminal formed therein. The fixing members are provided to fix the connection parts of the control modules to the housing. Each adjacent pair of the connection parts respectively belonging to two different ones of the control modules are together fixed to the housing by a corresponding one of the fixing members; the ground terminals formed in the adjacent pair of the connection parts are together electrically connected to the housing.

A versatile power plant system, which has a blower/fan system, a fan system, a generator/alternator device, a regulator, a DC/AC inverter generator, an AC/DC transformer rectifier unit, and an AC/DC rectifier diode, wherein electrical energy is generated. The generator alternator device has a drum and a main body having a generator shaft. The blower/fan system is connected to the fan system, and the fan system is connected to the generator/alternator device. The generator/alternator device is connected to the regulator and the regulator is connected to the DC/AC inverter generator. The DC/AC inverter generator is connected to the AC/DC transformer rectifier unit, and the AC/DC transformer rectifier unit is connected to the AC/DC rectifier diode. The AC/DC rectifier diode is connected to an electrical device or a rechargeable battery bank to deliver the electrical energy. The electrical energy may be generated from a primary source of energy.

A first tubular portion and a second tubular portion extended from a main body portion of a terminal block configuring a rectifying device are inserted into a casing through hole of a rear bracket configuring a casing of a vehicle-use alternating current generator, and the rectifying device is attached to a main body portion side. The first tubular portion including a sealing portion that seals the casing through hole is inserted into the casing through hole into which a lead is not inserted, and the second tubular portion of a form enclosing the lead is inserted into the casing through hole into which the lead is inserted.

A first tubular portion and a second tubular portion extended from a main body portion of a terminal block configuring a rectifying device are inserted into a casing through hole of a rear bracket configuring a casing of a vehicle-use alternating current generator, and the rectifying device is attached to a main body portion side. The first tubular portion including a sealing portion that seals the casing through hole is inserted into the casing through hole into which a lead is not inserted, and the second tubular portion of a form enclosing the lead is inserted into the casing through hole into which the lead is inserted.

A generator assembly for harvesting energy in a bearing arrangement having a first ring and a second ring is provided. The generator assembly includes a plurality of coils attached to the first ring and configured to interact with a magnet ring with alternating magnetization directions attached to the second ring, and a plug connector for supplying power generated by the generator assembly to external devices. The coils are encapsulated and mounted in an outer carrier ring such that the winding axis is oriented in a radial direction of the bearing and the magnet ring is composed of plural permanent magnets attached to an inner carrier ring attached to the inner ring of the bearing.

The present invention discloses a double-motor double-pump electric drive fracturing semi-trailer, including a semi-trailer, plunger pumps, radiators, and an electrical control cabinet, and further including electric motors and an inversion unit. The plunger pumps, the radiators, the electrical control cabinet, the electric motors, and the inversion unit are integrated in the semi-trailer. There are two electric motors, two plunger pumps, and two radiators. The inversion unit is disposed on a gooseneck of the semi-trailer. An output terminal of the inversion unit separately drives the two electric motors. The other end of each of the two electric motors is connected to the plunger pump. The radiators cool the lubricating oil in the plunger pump. The electrical control cabinet is used to implement local manipulation of the double-motor double-pump electric drive fracturing semi-trailer. Beneficial effects: An electric motor is used to drive a plunger pump through a transmission shaft, to achieve a small volume, economy, energy conservation, and environmental friendliness. The plunger pumps have improved power compared with a single-pump, and a design of double pumps driven by double electric motors is adopted in entire fracturing equipment, thereby significantly improving the output power of the fracturing equipment and better satisfying the use requirements.

An electrical power delivery system includes a module stack, a conductive bus bar, and one or more energy storage devices. The module stack includes multiple modules stacked side by side along a stack axis. Each of the modules has a respective housing and internal electrical components within the housing. The conductive bus bar is oriented along a plane parallel to the stack axis. The bus bar is mounted along a side of the module stack and electrically connected to one or more of the modules. The one or more energy storage devices are electrically connected to the bus bar and extend from a side of the bus bar facing away from the module stack such that the bus bar is disposed between the one or more energy storage devices and the module stack.