Power supply device and mechanical device

The invention claimed is: 1 . A power supply device, comprising: a battery unit; a heater configured to generate heat on the basis of power of the battery unit; a heater driver configured to drive the heater with a heating level according to a temperature of the battery unit; a temperature sensor configured to detect the temperature of the battery unit and is provided on the battery unit at a position different from a position of the heater; an acquisition unit configured to acquire a load state of the battery unit; and a protection unit configured to protect the heater by preventing application of an overcurrent to the heater, wherein the heater driver sets the heating level on the basis of the temperature and the load state, the battery unit includes a plurality of battery cells electrically connected in series, the heater covers the plurality of battery cells across the plurality of battery cells, and wherein a portion of the heater that contacts the individual battery cells is defined as a first portion, and a portion positioning between adjacent two of the plurality of battery cells and being separated from the individual battery cells is defined as a second portion, the protection unit is disposed in the second portion. 2 . The power supply device according to claim 1 , wherein the heater is provided in the battery unit. 3 . The power supply device according to claim 1 , wherein the acquisition unit is configured to acquire respective output voltages of the plurality of battery cells, and acquires the load state on the basis of a minimum one of the output voltages. 4 . The power supply device according to claim 1 , further comprising: an output unit configured to output power to a starting device for starting an internal combustion engine; a switch unit configured to set whether or not it is possible to output the power from the output unit; and a switch control unit configured to control the switch unit so that the output of the power from the output unit is realized when the battery unit is ready to output power required for the starting device to start the internal combustion engine. 5 . The power supply device according to claim 4 , wherein the switch control unit controls the switch unit on the basis of a temperature of the internal combustion engine. 6 . The power supply device according to claim 4 , wherein the switch control unit controls the switch unit so that the output of the power from the output unit is realized in response to an operation input for starting the internal combustion engine. 7 . The power supply device according to claim 4 , wherein the battery unit is configured to be chargeable on the basis of motive power of the internal combustion engine, and the heater driver continues driving of the heater after starting the internal combustion engine. 8 . The power supply device according to claim 4 , further comprising a power generation unit configured to generate power on the basis of motive power of the internal combustion engine after starting the internal combustion engine, wherein the heater receives power from the battery unit before starting the internal combustion engine, and receives power from the power generation unit after starting the internal combustion engine. 9 . The power supply device according to claim 8 , wherein the power generation unit switches the power supply destination from the heater to the battery unit when the battery unit reaches a desired temperature. 10 . The power supply device according to claim 4 , wherein the heater driver drives the heater over a predetermined period after stopping the internal combustion engine. 11 . A mechanical device, comprising: the power supply device according to claim 4 ; the internal combustion engine; and the starting device. 12 . A power supply device, comprising: a battery unit; a heater configured to generate heat on the basis of power of the battery unit; a heater driver configured to drive the heater with a heating level according to a temperature of the battery unit; a temperature sensor configured to detect the temperature and is provided on the battery unit at a position different from a position of the heater; an output unit configured to output power to a starting device for starting an internal combustion engine; a switch unit configured to set whether or not it is possible to output the power from the output unit; and a switch control unit configured to: determine whether the battery unit is ready to output power required for the starting device to start the internal combustion engine, and control the switch unit so that the output of the power from the output unit is realized when it is determined that the battery unit is ready to output power required for the starting device to start the internal combustion engine, wherein the switch control unit determines whether the battery unit is ready to output power required for the starting device to start the internal combustion engine on the basis of a temperature of the internal combustion engine. 13 . A power supply device, comprising: a battery unit; a heater configured to generate heat on the basis of power of the battery unit; a heater driver configured to drive the heater with a heating level according to a temperature of the battery unit; a temperature sensor configured to detect the temperature and is provided on the battery unit at a position different from a position of the heater; an output unit configured to output power to a starting device for starting an internal combustion engine; a switch unit configured to set whether or not it is possible to output the power from the output unit; and a switch control unit configured to: determine whether the battery unit is ready to output power required for the starting device to start the internal combustion engine, and control the switch unit so that the output of the power from the output unit is realized when it is determined that the battery unit is ready to output power required for the starting device to start the internal combustion engine, wherein the switch control unit controls the switch unit so that the output of the power from the output unit is realized in response to an operation input for starting the internal combustion engine.