Method and system for controlling power generator having hydraulic motor drive
First Claim
1. An electric power generator system operably connected to a watercraft main engine, the generator system comprising:
- a variable hydraulic pump drivably connected to the watercraft main engine, the variable hydraulic pump including a regulator for adjusting a flow rate from the variable hydraulic pump;
a hydraulic motor fluidly connected to the variable hydraulic pump such that the fluid flow from the variable hydraulic pump drives the hydraulic motor;
an electrical generator drivably attached to the hydraulic motor, wherein the frequency of electricity generated by the electrical generator is determined by the rotational speed of the electrical generator;
a first sensor connected to the variable hydraulic pump that is operable to generate a pump speed input signal that indicates the speed of the variable hydraulic pump;
a second sensor electrically connected to the generator that is operable to generate a power frequency input signal that indicates the frequency of the power generated by the electrical generator; and
a controller that receives the pump speed input signal and the power frequency input signal, and uses the pump speed input signal and the power frequency input signal to generate an output control signal that is transmitted to the regulator;
wherein the output control signal is received by the regulator and is operable to control the variable hydraulic pump such that the fluid flow from the variable hydraulic pump is substantially constant.
0 Assignments
0 Petitions
Accused Products
Abstract
A power generator system that is suitable for use on medium-sized and large watercraft. The system includes a generator that is driven by a hydraulic motor that is coupled to the main engine through a variable hydraulic pump. In order to maintain a stable, substantially constant-frequency power output from the generator as the main engine operates over a wide range of operating speeds, a controller receives a power frequency input signal and a hydraulic pump speed input signal, and uses both of these input signals to generate an output control signal to the hydraulic pump to maintain a substantially constant fluid flow to the hydraulic motor. The frequency signal is used to determine whether to increase or decrease the fluid flow, and the pump speed signal is used to determine the rate of change of the fluid flow in order to avoid overshooting the desired frequency.
-
Citations
9 Claims
-
1. An electric power generator system operably connected to a watercraft main engine, the generator system comprising:
-
a variable hydraulic pump drivably connected to the watercraft main engine, the variable hydraulic pump including a regulator for adjusting a flow rate from the variable hydraulic pump; a hydraulic motor fluidly connected to the variable hydraulic pump such that the fluid flow from the variable hydraulic pump drives the hydraulic motor; an electrical generator drivably attached to the hydraulic motor, wherein the frequency of electricity generated by the electrical generator is determined by the rotational speed of the electrical generator; a first sensor connected to the variable hydraulic pump that is operable to generate a pump speed input signal that indicates the speed of the variable hydraulic pump; a second sensor electrically connected to the generator that is operable to generate a power frequency input signal that indicates the frequency of the power generated by the electrical generator; and a controller that receives the pump speed input signal and the power frequency input signal, and uses the pump speed input signal and the power frequency input signal to generate an output control signal that is transmitted to the regulator; wherein the output control signal is received by the regulator and is operable to control the variable hydraulic pump such that the fluid flow from the variable hydraulic pump is substantially constant. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
Specification