WO1997013650B1

WO1997013650B1 - Continuously smooth transmission

Info

Publication number: WO1997013650B1
Application number: PCT/US1996/015494
Authority: WO
Filing date: 1996-09-27
Publication date: 1997-05-29

Abstract

A drive train for a vehicle having front and rear wheels (5) includes a fluidic motor (4) and a pump (2) interconnected in a continuous loop, with one conduit (3) connecting the inlet of the motor to the outlet of the pump and a second conduit connecting the inlet of the pump to the outlet of the motor. A gas/liquid fluid accumulator (6) is in fluid communication with the first conduit and a low pressure reservoir (7) is in fluid communication with the second conduit. An engine (1) is employed to drive the pump. Sensors (30, 28, 33) are included for detecting the pressure within the accumulator and the power demanded of the vehicle by the driver and, optionally, vehicle speed. A motor controller (22) controls displacement of the fluidic motor in accordance with the sensed power demand, and a pump controller (20) controls dipslacement of the pump responsive to the signal for detected pressure.

Claims

AMENDED CLAIMS

[received by the International Bureau on 21 April 1997 (21.04.97); original claims 1 and 2 amended; remaining claims unchanged (3 pages)]

l. A drive train for a vehicle having front and rear wheels, comprising: at least one fluidic motor, having an inlet and an outlet, for driving at leaεt one of the wheels; at least one pump for producing a flow of hydraulic fluid to drive said fluidic motor, said pump having an outlet connected by first conduit means to the inlet of said fluidic motor and an inlet connected by second conduit means to the outlet of said fluidic motor; at least one engine for driving said one pump at a variable speed; a fluid accumulator in fluid communication with said first conduit means and containing pressurized gas in a gas space and a quantity of the hydraulic fluid; at least one fluid reservoir in fluid communication with said second conduit means; a pressure detector for detecting pressure within said accumulator and for generating a pressure signal representative of said detected pressure; power demand sensing means for sensing a power demand by a driver of the vehicle for acceleration or deceleration of the vehicle; a motor controller for controlling displacement of said fluidic motor responsive to the sensed power demand and said pressure signal; and a pump controller for reducing displacement of said pump responsive to a drop is the detected pressure indicated by 8 said pressure signal, thereby increasing the speed of said one 9 engine, and for increasing displacement of said pump when the 0 engine speed increases to a predetermined value.

i 2. A drive train in accordance with claim 1 comprising: 2 a plurality of fluidic motors connected in parallel, each 3 having a different capacity and each having an inlet connected 4 to said first conduit means and an outlet connected to εaid 5 second conduit means; 6 vehicle speed sensor means for detecting vehicle speed; 7 plural motor controllers, each motor controller 8 controlling displacement of one of said plurality of fluidic 9 motors; and 0 computer means for receiving signals from said power i demand sensing means, said pressure detector and said vehicle 2 speed sensor, for selecting the displacement of at least one 3 of said fluidic motors in accordance with received signals and 4 for sending a control signal to the motor controller 5 associated with said selected fluidic motor for operation in 6 accordance with the sensed power demand and for sending a 7 control signal to said pump controller for changing 8 displacement of said pump responsive to said pressure signal.

1 3. A drive train in accordance with claim 1 wherein said one

2 fluidic motor drives a pair of the wheels and wherein said

3 drive train further comprises second and third fluidic motors,

4 each of said second and third fluidic motors driving a wheel s other than said pair of wheels, and plural motor controllers,

19 each motor controller controlling one of said fluidic motors responsive to the sensed power demand.

4. A drive train in accordance with claim 1 further comprising second, third and fourth fluidic motors, each of said fluidic motors driving one of the wheels, and a plurality of motor controllers, each of said motor controllers controlling displacement of one of said fluidic motors responsive to the sensed power demand.

5. A drive train in accordance with claim 1 further comprising a second pump and a second engine for driving said second pump, said second pump having an outlet in fluid communication with said firεt conduit meanε and an inlet in fluid communication with a second fluid reservoir, said one engine being sized to provide the average power demanded of the vehicle at high efficiency and said second engine being of a substantially greater size than said one engine.

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