Battery temperature control device

The invention claimed is: 1. A battery temperature control device for temperature-controlling by heating a battery with a heater when the battery becomes less than a predetermined temperature, comprising: a battery-temperature fall time prediction means for predicting, based on a combination of a temperature of the battery and an outside air temperature, a predictive time before the temperature of the battery is likely to be less than the predetermined temperature, such that the battery temperature control device shifts to a sleep state that disables operation for determining whether or not the temperature of the battery is less than the predetermined temperature, after the predictive time for a battery temperature fall has been predicted; and a heating necessity determination means for determining a necessity of heating with the heater by starting up the battery temperature control device from the sleep state that disables operation for determining whether or not the temperature of the battery is less than the predetermined temperature and by determining whether or not the temperature of the battery is less than the predetermined temperature when the predictive time, predicted by the battery-temperature fall time prediction means, has expired, wherein, during a turned-OFF state of an ignition switch, (i) operation for predicting the predictive time before the temperature of the battery is likely to be less than the predetermined temperature, (ii) operation for shifting to the sleep state after the predictive time for a battery temperature fall has been predicted, and (iii) operation for determining the necessity of heating with the heater by starting up the battery temperature control device from the sleep state and by determining whether or not the temperature of the battery is less than the predetermined temperature when the predictive time, predicted by the battery-temperature fall time prediction means, has expired, are repeatedly executed. 2. A battery temperature control device as recited in claim 1 , wherein: the predetermined temperature is a first set temperature higher than a freezing point of a battery electrolyte; and the battery-temperature fall time prediction means is configured to predict, based on the combination of the battery temperature and the outside air temperature, the predictive time that the temperature of the battery is likely to be less than the first set temperature, when the battery temperature is higher than or equal to the predetermined temperature. 3. A battery temperature control device as recited in claim 1 , which further comprises: a battery electrolyte thawing time prediction means for predicting a predictive time before the battery electrolyte thaws out, when the battery temperature is less than a second set temperature near the freezing point of the battery electrolyte, wherein a determination on the heating necessity by the heating necessity determination means is initiated, when the predictive time, predicted by the battery electrolyte thawing time prediction means, has expired. 4. A battery temperature control device as recited in claim 3 , wherein: the battery electrolyte thawing time prediction means is configured to predict, based on the combination of the battery temperature and the outside air temperature, the predictive time before the battery electrolyte thaws out. 5. A battery temperature control device for temperature-controlling by heating a battery with a heater when the battery becomes less than a predetermined temperature, comprising: a battery-temperature fall time prediction circuit configured to predict, based on a combination of a temperature of the battery and an outside air temperature, a predictive time before the temperature of the battery is likely to be less than the predetermined temperature, such that the battery temperature control device shifts to a sleep state that disables operation for determining whether or not the temperature of the battery is less than the predetermined temperature, after the predictive time for a battery temperature fall has been predicted; and a heating necessity determination circuit configured to determine a necessity of heating with the heater by starting up the battery temperature control device from the sleep state and by determining whether or not the temperature of the battery is less than the predetermined temperature when the predictive time, predicted by the battery-temperature fall time prediction circuit, has expired, wherein, during a turned-OFF state of an ignition switch, (i) operation for predicting the predictive time before the temperature of the battery is likely to be less than the predetermined temperature, (ii) operation for shifting to the sleep state after the predictive time for a battery temperature fall has been predicted, and (iii) operation for determining the necessity of heating with the heater by starting up the battery temperature control device from the sleep state and by determining whether or not the temperature of the battery is less than the predetermined temperature when the predictive time, predicted by the battery-temperature fall time prediction circuit, has expired, are repeatedly executed. 6. A battery temperature control device as recited in claim 5 , wherein: the predetermined temperature is a first set temperature higher than a freezing point of a battery electrolyte; and the battery-temperature fall time prediction circuit is configured to predict, based on the combination of the battery temperature and the outside air temperature, the predictive time that the temperature of the battery is likely to be less than the first set temperature, when the battery temperature is higher than or equal to the predetermined temperature. 7. A battery temperature control device as recited in claim 5 , which further comprises: a battery electrolyte thawing time prediction circuit configured to predict a predictive time before the battery electrolyte thaws out, when the battery temperature is less than a second set temperature near the freezing point of the battery electrolyte, wherein a determination on the heating necessity by the heating necessity determination circuit is initiated, when the predictive time, predicted by the battery electrolyte thawing time prediction circuit, has expired. 8. A battery temperature control device as recited in claim 7 , wherein: the battery electrolyte thawing time prediction circuit is configured to predict, based on the combination of the battery temperature and the outside air temperature, the predictive time before the battery electrolyte thaws out. 9. A battery temperature control device as recited in claim 1 , wherein: the battery temperature control device is configured to temperature-control by heating the battery with the heater, only when the heating necessity determination means determines that the temperature of the battery is less than the predetermined temperature, after the predictive time has expired. 10. A battery temperature control device as recited in claim 9 , wherein: when the heating necessity determination means determines that the temperature of the battery is higher than or equal to the predetermined temperature, after the predictive time has expired, the predictive time is re-predicted by the battery-temperature fall time prediction means and thereafter the sleep state of the battery temperature control device is maintained. 11. A battery temperature control device as recited in claim 5 , wherein: the battery temperature control device is configured to temperature-control by heating the battery with the heater, only when the heating necessity determination circuit determines that the temperature o