Energy storage method for load hoisting machinery
First Claim
1. A method for energy storage and recovery for load moving machinery powered by an induction motor which is controlled by a first inverter, the steps comprising driving said induction motor to act as a generator and create reverse power when lowering or braking a load, said reverse power combined with unused power when said load hoisting machinery is at small load or idle, said combined powers being defined as rest power, utilizing said rest power for charging a capacitor, controlling said rest power by a dual inverter, and discharging said capacitor to supply power to said induction motor when said motor is consuming power in excess of its average power consumption.
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Abstract
A method for energy storage and recovery for load hoisting equipment powered by an induction hoist motor controlled by a first inverter and having a dual inverter controlling a capacitor utilizing rest power such as reverse power generated from the motor when lowering a load, and unused power at small load or idle, to charge the capacitor whereby energy is stored in the capacitor and the system is reversed when a load is lifted and power is consumed whereby the capacitor is discharged to deliver power to the hoist motor.
26 Citations
4 Claims
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1. A method for energy storage and recovery for load moving machinery powered by an induction motor which is controlled by a first inverter, the steps comprising
driving said induction motor to act as a generator and create reverse power when lowering or braking a load, said reverse power combined with unused power when said load hoisting machinery is at small load or idle, said combined powers being defined as rest power, utilizing said rest power for charging a capacitor, controlling said rest power by a dual inverter, and discharging said capacitor to supply power to said induction motor when said motor is consuming power in excess of its average power consumption.
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4. A load moving machinery energy storage system comprising
an induction motor interconnected to a wire rope drum for raising and lowering a load, said motor controlled by a first inverter, an energy storage system including a capacitor for storing and discharging energy, said capacitor being controlled by a dual inverter, a programmable logic controller (PLC) controlling said dual inverter, means for sensing voltage at the power input side of said first inverter and for sensing voltage in said capacitor, programmed logic for said PLC for comparing said sensed voltages with a set voltage value, an engine driven AC generator (ACG) producing power for said load moving machinery, and a diode controlling the AC output of said ACG.
Specification