Method and apparatus for monitoring the temperature of the coil wire of a solenoid valve

What is claimed is: 1. A method for monitoring a temperature of a coil wire of a solenoid valve using an actuation signal, the method comprising the following steps: providing a voltage source configured to provide current at an output; providing a switch connected to the output of the voltage source; providing a solenoid valve connected to the switch and configured to receive the current from the voltage source, the solenoid valve comprising the coil wire; providing a control and regulating unit configured to receive the current from the coil wire and output a switch actuation signal having successive actuation intervals for controlling the switch, each actuation interval includes a start pulse and a pulse sequence succeeding the start pulse, the start pulse having a predefined pulse duration and bringing about a current rise in the coil wire, the pulse sequence having a duty ratio; S1: measuring, at the control and regulating unit, a first current intensity of the current flowing through the coil wire of the solenoid valve at a first point in time during the current rise; S2: measuring, at the control and regulating unit, a second current intensity of the current flowing through the coil wire of the solenoid valve at a second point in time during the current rise; S3: calculating, at the control and regulating unit, a current gradient from the measured first and second current intensities; S4: comparing, at the control and regulating unit, a predefined threshold value for the current gradient with the calculated current gradient; and S5: reducing the current flowing through the coil wire if the calculated current gradient is less than a predefined current gradient. 2. The method of claim 1 , further comprising repeating steps S1 to S5 in successive actuation intervals. 3. The method of claim 1 , wherein the pulse duration of the start pulse is greater than the pulse duration of a pulse of the pulse sequence. 4. The method of claim 1 , wherein reducing the current flowing through the coil wire is performed by changing the duty ratio of the pulses of the pulse sequence having a duty ratio. 5. The method of claim 1 , wherein reducing the current flowing through the coil wire is performed by changing the number of pulses of the pulse sequences having a duty ratio. 6. The method of claim 1 , wherein the successive actuation intervals are spaced apart from one another in each case by a pause interval. 7. An apparatus for monitoring the temperature of a coil wire of a solenoid valve, the apparatus comprising: a voltage source outputting a current at an output; a solenoid valve comprising the coil wire; a switch connected to the output of the voltage source and providing the current to the coil wire; and a control and regulating unit receiving the current from the coil wire, the control and regulating unit configured to: output a switch actuation signal having successive actuation intervals for controlling the switch, each actuation interval includes a start pulse and a pulse sequence succeeding the start pulse, the start pulse having a predefined pulse duration and bringing about a current rise in the coil wire, the pulse sequence having a duty ratio; measure a first current intensity of the current flowing through the coil wire of the solenoid valve at a first point in time during the current rise; measure a second current intensity of the current flowing through the coil wire of the solenoid valve at a second point in time during the current rise; calculate a current gradient from the first and second measured current intensities; compare a predefined threshold value for the current gradient with the calculated current gradient; and reduce the current flowing through the coil wire if the calculated current gradient is less than a predefined current gradient.