An automotive air blower, in particular a supercharger, includes an air pump, such as an air impeller connected to the output shaft of a transmission system, the input shaft of which is connected, in use, to the engine of a motor vehicle. The input and output shafts are connected to respective branc
An automotive air blower, in particular a supercharger, includes an air pump, such as an air impeller connected to the output shaft of a transmission system, the input shaft of which is connected, in use, to the engine of a motor vehicle. The input and output shafts are connected to respective branches of a three-branch epicyclic differential gearset. The third branch of the gearset and the input shaft are connected to the rotor of respective electrical machines, the electrical connections of the stators of which machines are connected together via a controller arranged to control the flow of electric power between them.
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1. An automotive air blower system, comprising: a supercharger connected to an output shaft of a transmission system, an input shaft of the transmission system being connected, in use, to an engine of a motor vehicle, the input and output shafts being connected to respective branches of a three-bran
1. An automotive air blower system, comprising: a supercharger connected to an output shaft of a transmission system, an input shaft of the transmission system being connected, in use, to an engine of a motor vehicle, the input and output shafts being connected to respective branches of a three-branch epicyclic differential gearset, one branch of the gearset and the input shaft being connected to a rotor of respective electrical machines,wherein the supercharger comprises a centrifugal impeller wheel,wherein a first of the electrical machines constitutes a motor/generator and a second of the electrical machines is configured to operate as a generator,wherein each of the first and second electrical machines comprise stators and electrical connections of the stators, andwherein the electrical connections of the stators are connected to a controller configured to control a flow of electric power between the first and second electrical machines. 2. The blower as claimed in claim 1, wherein both the first and second electrical machines are configured to function as both a motor and a generator. 3. The blower system as claimed in claim 2, wherein, at relatively low speed ratios of the air pump to the input shaft, one of the first and second electrical machines operates as a generator and produces electrical power transmitted to the other of the first and second electrical machines, the other of the first and second machines being configured to operate as a motor, andwherein, at relatively high speed ratios of the air pump to the input shaft, the other of the first and second electrical machines operates as a generator and produces electrical power transmitted to the one of the first and second electrical machines, the one of the first and second machines configured to operate as a motor. 4. The blower system as claimed in claim 1, wherein the electrical connections of the stators are also connected to a battery, andwherein the controller is arranged to control the flow of electric power between the first and second electrical machines and the battery. 5. The blower system as claimed claim 1, wherein the epicyclic gearset includes a plurality of toothed gearwheels in meshing engagement. 6. The blower system as claimed in claim 1, wherein the epicyclic gearset comprises a plurality of gearwheels configured to transmit torque from a first of the gearwheels to a second of the gearwheels by one of frictional engagement of surfaces of the gearwheels and a shearing of fluid between the gearwheel surfaces. 7. The blower as claimed in claim 1, wherein the input shaft is connected to a rotor of a first electrical machine, and the one branch of the gearset is connected to a rotor of a second electrical machine, the first electrical machine being in direct connection with the input shaft. 8. The blower as claimed in claim 1, wherein the input shaft is connected to a rotor of a first electrical machine, and the one branch of the gearset is connected to a rotor of a second electrical machine, the input shaft being connected to rotate in synchronism with the rotor of the first electrical machine. 9. The blower system as claimed claim 1, wherein the three-branch epicyclic differential gearset is free of any direct connection with another three-branch epicyclic differential gearset in said blower system. 10. An automotive air blower system, comprising: an input shaft configured to be connected to an engine of a motor vehicle;an output shaft;a supercharger comprising a centrifugal impeller wheel connected to the output shaft;a three-branch epicyclic differential gearset comprising a sun wheel in engagement with a plurality of planet wheels, the planet wheels being carried by a common carrier and in engagement with an annulus wheel;a first electrical machine, comprising a first stator and a first rotor, having at least one of a motor capability and a combination motor/generator capability;a second electrical machine, comprising a second stator and a second rotor, having at least one of a generator capability and a combination motor/generator capability; andan electronic controller,wherein a first electrical connections of the first stator and a second electrical connections of the second stator are connected to the controller,wherein the electronic controller is configured to control a first flow of electric power between a battery and any of the first and second electrical machines, and further configured to control a second flow of electric power between the first and second electrical machines,wherein each of the sun wheel, the carrier, and the annulus wheel is respectively connected to one of the input shaft, the supercharger, and a rotor of the second electrical machine,wherein the first rotor of the first electrical machine is positioned to be directly driven by the input shaft in synchronism therewith, andwherein the three-branch epicyclic differential gearset is free of any direct connection with another three-branch epicyclic differential gearset. 11. The automotive air blower system as claimed in claim 10, wherein the first rotor is connected to the input shaft at a position between the three-branch epicyclic differential gearset and a point of connection with the engine. 12. The automotive air blower system as claimed in claim 10, wherein the first rotor is mounted to a surface of the input shaft along a length of the input shaft.
Yang Tai-Her (No. 32 Lane 29 ; Taipin St. ; Si-Hu Town Dzan-Hwa TWX), Electric energy storage and distribution system of differential distribution type.
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