Lead storage battery system

The invention claimed is: 1. A lead storage battery system capable of controlling charge and discharge of a lead storage battery bank that includes a single or a plurality of lead storage batteries or a plurality of lead storage battery modules connected in parallel, each of the lead storage battery module including the lead storage batteries connected in series, the lead storage battery state comprising; an individual battery state measurement unit that measures battery states including current, voltage and temperature of the individual lead storage batteries or the individual lead storage battery modules; a state-of-charge model storage unit that accumulates state-of-charge models representing a correlation between the battery state and a state of charge; a state-of-charge estimation unit that estimates individual states of charge from the state of charge models and the battery states, the individual states of charge being state of charge of the respective lead storage batteries or lead storage battery modules; a state-of-charge variation range determination unit that calculates a state-of-charge maximum value and a state-of-charge minimum value; an equalization-charging management unit that controls performance of an equalization charge on the lead storage battery bank; a usable state-of-charge range adjustment unit that restricts the state-of-charge maximum value and the state-of-charge minimum value into a narrower restricted range in consideration of an influence of degradation of the lead storage batteries or the lead storage battery modules; an equalization-charging planning unit that makes a plan to perform the equalization charging when the state-of-charge maximum value and the state-of-charge minimum value go out of the restricted range; an equalization-charging schedule notification unit that notifies a schedule of the equalization charge; and an equalization-charging management unit that performs the equalization charge in accordance with the plan made the equalization-charging planning unit, wherein the state-of-charge maximum value is a maximum value of the individual states of charge the state-of-charge minimum value is a minimum value of the individual states of charge and the equalization-charging management unit performs the equalization charge so that the state-of-charge maximum value falls within a range lower than an overcharge region and the state-of-charge minimum value falls within a range higher than a sulfation region, and wherein the state-of-charge variation range determination unit calculates an average value and a variation of the individual states of charge, the state-of-charge maximum value is a sum of the average value and half of the variation, and the state-of-charge minimum value is a difference between the average value and half of the variation. 2. The lead storage battery system according to claim 1 further comprising; a state-of-charge variation display unit that displays the state-of-charge maximum value and the state-of-charge minimum value or the variation; a degradation model storage unit that stores a degree of the degradation; a degradation level estimation unit that estimates degradation level which corresponds to the degree of the degradation by using the degradation model storage unit; a degradation handling state-of-charge storage unit that stores a relationship between the degradation level and the restricted range in accordance with the degradation level; and a usable state-of-charge range display unit that displays the restricted range to which the adjustment has been applied. 3. The lead storage battery system according to claim 2 , wherein the restricted range extends between a value obtained by adding half of the difference between the state-of-charge maximum value and the state-of-charge minimum value to an upper limit value of the sulfation region and a value obtained by subtracting half of the difference between the state-of-charge maximum value and the state-of-charge minimum value from a lower limit value of the overcharge region. 4. The lead storage battery system according to claim 1 , wherein the equalization charge is performed at different intervals every time. 5. The lead storage battery system according to claim 1 , wherein the interval between equalization charges changes in accordance with the variation. 6. The lead storage battery system according to claim 1 , being configured to detect individually whether the lead storage batteries or lead storage battery modules are in a state of full charge from the battery states before performing the equalization charge, and controlling to prevent the lead storage batteries or lead storage battery modules in the state of full charge from being overcharged by opening a charging circuit of them. 7. A lead storage battery system capable of controlling charge and discharge of a lead storage battery bank that includes a single or a plurality of lead storage batteries or a single or a plurality of lead storage battery modules connected in parallel, each of the lead storage battery module including the lead storage batteries connected in series, the lead storage battery system comprising; an individual battery state measurement unit that measures battery states including current, voltage and temperature of the individual lead storage batteries or the individual lead storage battery modules; a state-of-charge model storage unit that accumulates state-of-charge models representing a correlation between the battery state and a state of charge; a state-of-charge estimation unit that estimates individual states of charge from the state-of-charge models and the battery states, the individual states of charge being state of charge of the respective lead storage batteries or lead storage battery modules; a state-of-charge variation range determination unit that calculates a state-of-charge maximum value and the state-of-charge minimum value; an equalization-charging management unit that controls performance of an equalization charge on the lead storage battery bank; a usable state-of-charge range adjustment unit that restricts the state-of-charge maximum value and the state-of-charge minimum value into a narrower restricted range in consideration of an influence of degradation of the lead storage batteries or the lead storage battery modules; an equalization-charging planning unit that makes a plan to perform the equalization charge when the state-of-charge maximum value and the state-of-charge minimum value go out the restricted range; an equalization-charging schedule notification unit that notifies a schedule of the equalization charge; an equalization-charging management unit that perform the equalization charge in accordance with the plan made by the equalization-charging planning unit; a state-of-charge variation display unit that displays the state-of-charge maximum value and the state-of-charge minimum value or the variation; a degradation model storage unit that stores a degree of the degradation; a degradation level estimation unit that estimates degradation level which corresponds to the degree of the degradation by using the degradation model storage unit; a degradation handling state-of-charge storage unit that stores a relationship between the degradation level and the restricted range un accordance with the degradation level; and a usable state-of-charge range display unit that displays the restricted range to which the adjustment has been applied, wherein the state-of-charge maximum value is a maximum value of the individual states of charge, the state-of-charge minimum value is a minimum value of the individual states of charge, and the equalization-charging management unit performs the equalization charge so that the sta