Patent ID: 8793030

Claim:
A power saving method for the electrical heating food processing device of temperature-controlled, wherein the power saving method includes steps below: a. Enter to the normal working mode, the preset on/off control signal is transferred to the heating control switch from the microprocessor to control the heater of the food processing device to heat in normal mode; b. the thermal sensor in the food processing device real-time senses the heater temperature of the food processing device, then transmit the temperature value to the microprocessor, the microprocessor judges that whether the temperature value is within the preset first working temperature interval; if not, the microprocessor will clear the first time value, then return to the step a; if the temperature value is within the preset first working temperature interval, the microprocessor will accumulate the first time value, then go to the next step; c. the microprocessor judges that whether the accumulated first time value exceeds the first time threshold; if not, return to the step a; if the accumulated first time value exceeds the first time threshold, go to the next step; d. enter to the low-temperature working mode, the preset on/off control signal is transmitted to the heating control switch from the microprocessor, the heater of the food processing device performs the heating control in low-temperature mode, the temperature is controlled to be within the second temperature interval; e. the thermal sensor in the food processing device real-time senses the heater temperature of the food processing device, then transmit the temperature value to the microprocessor, the microprocessor judges that whether the temperature value is within the preset second working temperature interval; if not, the microprocessor will clear the second time value, then return to the step a; if the temperature value is within the preset second working temperature interval, the microprocessor will accumulate the second time value, then go to the next step; f. the microprocessor judges that whether the accumulated second time value exceeds the second time value; if not, then return to the step a; if the accumulated second time value exceeds the second time threshold, then go to the next step; g. the microprocessor transmits control signal of automatic shutdown, then stop to heat to realize shutdown automatically.