Method for heating a liquid in a cooking vessel and induction heating device

The invention claimed is: 1. A method for heating a liquid, which is contained in a cooking vessel, utilizing an induction heating device, the method comprising: continuously determining a parameter value of a resonant circuit of the induction heating device, the resonant circuit comprising an induction heating coil, wherein the parameter value comprises a period duration of a naturally resonant oscillation of the resonant circuit, and wherein the parameter value depends on a temperature of a base of the cooking vessel; applying a radio-frequency square-wave voltage to the resonant circuit such that a heating power is supplied to the base of the cooking vessel at a heating power setpoint value; evaluating a time profile of the parameter value to determine a boiling point of the liquid; after the boiling point of the liquid has been determined, reducing the heating power setpoint value by a predefined amount over a predefined time period, wherein the predefined amount being reduced to a range of 10% to 50% of a maximum heating power setpoint value; after the predefined time period has elapsed, determining and storing a current parameter value; and adjusting the heating power setpoint value based on the stored current parameter value. 2. The method of claim 1 , wherein the predefined time period lies in a range of one second to 30 seconds. 3. The method of claim 1 , wherein the predefined amount by which the heating power setpoint value is reduced over the predefined time period is determined as a function of a set continued boiling stage. 4. The method of claim 3 , wherein an offset value is subtracted from the stored current parameter value in order to determine the reduced heating power setpoint value, wherein the smaller the value of the set continued boiling stage, the greater the offset value. 5. The method of claim 1 , wherein the heating power setpoint value is equal to the stored current parameter value. 6. The method of claim 1 , further comprising: further evaluating the time profile of the parameter value; and when the parameter value changes by more than a maximum amount within a monitoring time interval: adjusting the heating power setpoint value to another heating power setpoint value for a recipe which is being followed; further evaluating the time profile of the parameter value for determining the boiling point of the liquid; after the boiling point of the liquid has been further determined, reducing the other heating power setpoint value by another predefined amount over another predefined time period; after the other predefined time period has elapsed, determining and storing another current parameter value; and adjusting the parameter value to a heating power setpoint value which is dependent on the stored other current parameter value. 7. An induction heating device, comprising: a resonant circuit comprising an induction heating coil; and a control device configured to continuously determine a parameter value of the resonant circuit of the induction heating device, wherein the parameter value comprises a period duration of a naturally resonant oscillation of the resonant circuit, and wherein the parameter value depends on a temperature of a base of a cooking vessel, apply a radio-frequency square-wave voltage to the resonant circuit such that a heating power is supplied to the base of the cooking vessel at a heating power setpoint value, evaluate a time profile of the parameter value for determining a boiling point of liquid in the cooking vessel, after the boiling point of the liquid has been determined, reduce the heating power setpoint value by a predefined amount over a predefined time period, wherein the predefined amount being reduced to a range of 10% to 50% of a maximum heating power setpoint value, after the predefined time period has elapsed, determine and store a current parameter value, and adjust the heating power setpoint value based on the stored current parameter value. 8. A method for heating a liquid, which is contained in a cooking vessel, utilizing an induction heating device, the method comprising: continuously determining a parameter value of a resonant circuit of the induction heating device, the resonant circuit comprising an induction heating coil, wherein the parameter value comprises a period duration of a naturally resonant oscillation of the resonant circuit, and wherein the parameter value depends on a temperature of a base of the cooking vessel; applying a radio-frequency square-wave voltage to the resonant circuit such that a heating power is supplied to the base of the cooking vessel at a heating power setpoint value; evaluating a time profile of the parameter value to determine a boiling point of the liquid; after the boiling point of the liquid has been determined, reducing the heating power setpoint value by a predefined amount over a predefined time period; after the predefined time period has elapsed, determining and storing a current parameter value; adjusting the heating power setpoint value based on the stored current parameter value; further evaluating the time profile of the parameter value; determining when the parameter value changes by more than a maximum amount within a monitoring time interval; based on determining when the parameter value changes by more than the maximum amount, adjusting the heating power setpoint value to another heating power setpoint value for a recipe which is being followed; further evaluating the time profile of the parameter value for determining the boiling point of the liquid; after the boiling point of the liquid has been further determined, reducing the other heating power setpoint value by another predefined amount over another predefined time period; after the other predefined time period has elapsed, determining and storing another current parameter value; and adjusting the parameter value to a heating power setpoint value which is dependent on the stored other current parameter value.