Integrated Electric Motor-Driven Pump

• TECHNICAL FIELD

• This invention relates to a vehicle transmission which is capable of receiving input torque from both an electric motor and an internal combustion engine and which uses an electric oil pump to produce pressure to the transmission.

• BACKGROUND OF THE INVENTION

• Prior art power transmissions have been provided utilizing planetary gear sets and clutches which can be configured so that accessories normally operated by an internal combustion engine can be driven by an electric motor/generator. As in most prior art designs, accessories are driven through belt connections to the internal combustion engine. Such accessories have included oil pumps, power steering pumps and transmission oil pumps. Because such pumps are generally belt-driven from the internal combustion engine, they idle when the engine is not running.
• There are current applications that use an electric oil pump in hybrid transmission applications, but they tend to be stand alone pumps with pump rotor and electric motor, i.e., a full function electric oil pump. And the integration of a separate electric oil pump with the hydraulic control circuit of the transmission presents challenges such as providing a suction feed and a pressure feed back into the transmission.
• An oil pump driving device has been used to drive an oil pump combined with a transmission coupled to an engine for supplying working oil to lubricate the transmission and enable the transmission to make gear shifts. The transmission includes a first power transmitting mechanism for connecting the output shaft of an electric motor to the drive shaft of the oil pump, and a second power transmitting path for connecting the output shaft of the engine to the drive shaft of the oil pump. A controller for selecting one of the first and second power transmitting mechanisms at a time selects the first transmitting mechanism to drive the oil pump with the electric motor when the rotational speed of the output shaft of the engine is lower than a predetermined speed, and selects the second power transmitting mechanism to drive the oil pump with the engine when the rotational speed of the output shaft of the engine exceeds the predetermined speed. But such oil pump arrangements use a gear pump, two one-way clutches, and a controller to select the clutch.

• SUMMARY OF THE INVENTION

• This invention adds an electric motor that is connected to the main transmission oil pump shaft which is already present in the transmission. The main oil pump shaft is connected solidly to the added electric motor. An off-axis chain and gear are connected to the main oil pump shaft via a single freewheeling clutch, such that either the electric motor or the internal combustion (IC) engine/torque converter pump drive gear or sprocket can drive the oil pump itself, whichever motor (electric or IC) is traveling at a higher speed. This allows the pump to produce pressure to the transmission system without the engine running, i.e., idling. This invention results in a minimum number of additional parts and allows a seamless transition of which torque or motor source in the hybrid arrangement is driving the main oil pump.
• This invention can also be used on other automatic transmissions by utilizing an electric motor in an off-axis configuration and coupling the motor to the main pump drive mechanism in a similar fashion with the free-wheeling clutch as described above.
• This invention reduces cost over a full function electric oil pump and provides a more seamless transition when the switch is made over which motor or torque source (electric or IC engine) is driving the main oil pump.
• This invention is also a hybrid vehicle powertrain which comprises a first source of torque; a second source of torque; a hybrid power transmission including a pump operable for pumping transmission oil in response to torque from said first or second source; and a third source of torque for operating said pump when said pump is not being operated by any of said first and second sources of torque.
• This invention is also a hybrid powertrain for a vehicle which comprises a first source of torque; and a second source or torque. A hybrid power transmission integrates the first and second sources of torque and has an input pump shaft rotatable in response to one of the first and second sources of torque, and a transmission oil pump drive shaft which is off-axis from said input pump shaft. The transmission includes an oil pump rotor selectively rotatable by said input pump shaft at a first speed. An electric motor is drivably connected to the oil pump drive shaft to selectively rotate the oil pump rotor at a second speed, wherein the oil pump rotor is rotatable by said electric motor or said input pump shaft of said transmission in response respectively to which of the first and second speeds is higher.
• The invention is also a powertrain for a vehicle which comprises a first source of torque; a second source of torque; a hybrid power transmission which integrates the first and second sources of torque and has an input shaft rotatable in response to one of said first and second sources of torque. The powertrain also comprises a pump drive sprocket drivable by the input shaft; a pump-driven sprocket drivable by said pump drive sprocket; and a pump drive shaft mounted with respect to said transmission and which has an oil pump rotor drivably connected to a first portion of the pump drive shaft. An electric motor is drivably connected to a second portion of the pump drive shaft and a pump-driven sprocket is selectively drivably connected to said pump drive shaft, and a pump chain rotatably connects said pump drive sprocket to said pump-driven sprocket, so that the rotation of said input shaft in one direction selectively drives the pump-driven sprocket to drive said oil pump rotor, and so that the pump drive shaft is driven by the electric motor when the rotation of said input shaft is not rotating in said one direction.
• This invention is also an oil pump with a transmission coupled to an engine for supplying working oil to lubricate the transmission. The oil pump driving device comprises a pump drive sprocket which is rotatable about an axis and driven by the engine, a main transmission oil pump shaft which is offset from the axis of the pump drive sprocket, a pump-driven sprocket which is drivable by the pump drive sprocket, a freewheeler clutch between the oil pump shaft and the pump-driven sprocket and an electric motor which is connected to the oil pump shaft. The freewheeler clutch locks the pump drive sprocket to the pump drive shaft for driving the oil pump from the engine and the freewheeler clutch releases the pump-driven sprocket from the pump drive shaft for driving the oil pump from the electric motor.
• The above objects, features and advantages, and other objects, features and advantages of the present invention are readily apparent from the following detailed description of the best modes for carrying out the invention when taken in connection with the accompanying drawings.

• DESCRIPTION OF THE PREFERRED EMBODIMENT

• With the advent of hybrid powertrains that use an automatic transmission, it is important that oil pressure be maintained in the transmission system when the vehicle engine stops to insure quick re-engagement of the forward clutch or band and/or the continuous variable transmission (CVT) pulleys when the vehicle is requested to move forward again. With the engine off or stopped, the drive for the conventional transmission pump is also stopped. However, the system pressure must be maintained for critical transmission circuits. Separate electric pumps or “tight” oil circuits are two methods that have been used to prevent excessive leakdown to maintain this system pressure. But “tight” oil circuits are difficult to achieve on a production basis. And electric oil pumps can be expensive (depending on requirements) and perform a redundant role when compared to the use of the main oil pump which is already in the transmission. Moreover, the integration of the hydraulic circuit of a separate electric oil pump with the hydraulic control circuit of the transmission also presents challenges such as providing a suction feed and a pressure feed back into the transmission. Another disadvantage of adding a separate electric oil pump is packaging. The packaging space for an electric motor as opposed to an electric oil pump would normally be less.