BOOSTER PUMP CONTROL SYSTEM AND A PUMP CONTROL METHOD USING THE SAME, CAPABLE OF REDUCING COSTS FOR POWER AND THE STABILITY OF EQUIPMENT

摘要

PURPOSE: A booster pump control system and a pump control method using the same are provided to perform a bidirectional control by a used amount of water, a supplied amount of the water, flux signals, the operation of a motor, and a position analysis of a flux efficiency point.;CONSTITUTION: A pump control method using a booster pump control system comprises; a step(S200) for searching initial values of an inspection condition and a control condition of the booster pump control system; a step(S210) for determining whether or not a current value of the control condition is lower than a target value; a step(S220) for outputting base data values of the initial operation of a pump for an inverter, the operation of an electromagnetic contactor for operating the inverter, the operation of an inverter outputting unit; a step(S230) for measuring the data of the power operation of the inverter, a flux value, and a pressure value and recording to each control loop recording blocks of a condition inspection control loop recording device; and a step(S250) for immediately coinciding the flux of a pump unit by designation-outputting power output in batches; a step(S260) for determining that the used amount of water is in a range of 1-100% or 101-200% or 201-600% by re-inspecting a condition value detected in a real time basis and the data recorded in the control loop recording blocks; a step(S270) for precisely controlling the pump unit by controlling a direct operation outputting unit and the inverter outputting unit depending on a flux determination resu and a step(S280) for compare-determining whether the pressure values and values of the used amount of the water before and after operating inverter power or additional power.;COPYRIGHT KIPO 2013;[Reference numerals] (AA,JJ) No; (BB,II) Yes; (C1) Current flux data; (C2) Set pressure data; (C3) Current pressure data; (C4) Power operation rate data; (D1) Flux 0%; (D2) Flux 1%; (D3) Flux 100%; (D4) Flux 101%; (D5) Flux 200%; (D6) Flux 201%; (E1) Control loop first block; (E2) Control loop second block; (E3) Control loop third block; (E4) Control loop fourth block; (E5) Control loop fifth block; (E6) Control loop sixth block; (F1) Used flux 1-100%; (F2) Used flux 101-200%; (F3) Used flux 201-600%; (G1,G2) Increasing; (H1,H2) Decreasing; (S200) Step for inspecting a booster pump control system and searching for a control condition; (S210) Current value of the control condition is smaller than a target value?; (S220) Initial driving of an inverter pump, Driving an electromagnetic contactor for driving the power of an inverter, Outputting a basic data value of an inverter output unit; (S230) Recording three-element data, which consists of the power operation rate, flux, and pressure of the inverter, in each control loop according to a flux change of each pump capacity range after searching for a condition inspection control loop recording device; (S240) Reading out a power output rate by inspecting data recorded in the control loop first and second blocks and the current status value detected in real time; (S250) Designating and outputting the read power output rate in batches; (S270) Outputting a pump unit control signal to a live starting output unit and the inverter output unit according to the flux determination resu (S280) Whether a pressure value and a consumed flux are the same before and after driving the inverter power or additional power; (S290) Controlling a PI sub control unit to obtain uniform flux and pressure temporarily; (S300) Maintaining the constant pressure and flux by a PI operation control unit;