Food processing apparatus

What is claimed is: 1 . A food processing apparatus comprising: a reaction tank that has an internal space for storing a reactant, the reactant being in a liquid state and being to be used for food; a cooler that cools the reactant, which is stored in the reaction tank; and a catalytic reactor that is disposed in the internal space, wherein the catalytic reactor includes a reaction tube, a light source disposed in an interior of the reaction tube, and a heat insulator disposed between the reaction tube and the light source, wherein an outer surface of the reaction tube is provided with a photocatalyst, wherein the reaction tube allows light radiated from the light source to pass through the reaction tube, wherein the reaction tube has a first end, and the first end is closed in such a manner as to serve as a bottom surface of the reaction tube, and wherein a thermal conductivity of the heat insulator is lower than a thermal conductivity of the reaction tube. 2 . The food processing apparatus according to claim 1 , wherein the heat insulator is made of at least one of plastic or glass wool. 3 . The food processing apparatus according to claim 1 , wherein the light source includes a light emitting diode (LED) that emits an ultraviolet ray and/or a fluorescent lamp that emits an ultraviolet ray. 4 . The food processing apparatus according to claim 3 , wherein the light source includes the fluorescent lamp, wherein the fluorescent lamp includes a container containing a mercury compound and facing the bottom surface, and wherein the heat insulator is in contact with the bottom surface and the container. 5 . The food processing apparatus according to claim 1 , further comprising: a reaction-tube temperature sensor that measures a temperature inside the reaction tube; and a controller that controls a light emission intensity and/or a light emission time of the light source based on a temperature measured by the reaction-tube temperature sensor. 6 . The food processing apparatus according to claim 5 , wherein, when the temperature measured by the reaction-tube temperature sensor is lower than a first reference temperature, which is predetermined, the controller performs control for increasing the light emission intensity of the light source to be higher than a light emission intensity of the light source when the temperature measured by the reaction-tube temperature sensor is higher than the first reference temperature and/or control for increasing the light emission time of the light source to be longer than a predetermined light emission time. 7 . The food processing apparatus according to claim 6 , wherein, when the temperature measured by the reaction-tube temperature sensor is higher than the first reference temperature, the controller performs control for reducing the light emission intensity of the light source to be lower than the light emission intensity of the light source when the temperature measured by the reaction-tube temperature sensor is lower than the first reference temperature and/or control for setting the light emission time of the light source to be equal to or shorter than the predetermined light emission time. 8 . The food processing apparatus according to claim 1 , further comprising: a reaction-tube temperature sensor that measures a temperature inside the reaction tube; a stirrer that stirs the reactant in the reaction tank by rotating or reciprocating; and a controller that performs, when a temperature measured by the reaction-tube temperature sensor is lower than a first reference temperature, which is predetermined, control for increasing an operating amount of the stirrer to be greater than an operating amount of the stirrer when the temperature measured by the reaction-tube temperature sensor is higher than the first reference temperature. 9 . The food processing apparatus according to claim 5 , further comprising: a reaction-tank temperature sensor that measures a temperature of the reactant, which is stored in the reaction tank, wherein the controller causes the cooler to operate such that a temperature measured by the reaction-tank temperature sensor becomes equal to a predetermined second reference temperature, and stops light emission of the light source when the temperature measured by the reaction-tube temperature sensor is lower than a predetermined third reference temperature. 10 . The food processing apparatus according to claim 6 , further comprising: a reaction-tank temperature sensor that measures a temperature of the reactant, which is stored in the reaction tank, wherein the controller causes the cooler to operate such that a temperature measured by the reaction-tank temperature sensor becomes equal to a second reference temperature, which is predetermined, and stops light emission of the light source when the temperature measured by the reaction-tube temperature sensor is lower than a third reference temperature, which is predetermined, wherein the second reference temperature is a temperature lower than the first reference temperature, and wherein the third reference temperature is a temperature between the first reference temperature and the second reference temperature.