High voltage transformer having a sensor system, method for monitoring physical characteristic variables of a high voltage transformer and sensor system for monitoring physical characteristic variables

The invention claimed is: 1. In combination with a high-voltage transformer, a sensor system for monitoring physical characteristic variables of the high-voltage transformer having windings, the sensor system comprising; at least one paddle-shaped sensor engaged between the windings and having an optical fiber with a sensor head carrying a plurality of Bragg gratings, an evaluating unit connected with the at least one sensor head by the optical fiber is associated with the sensor system, and a support mechanically connected with the at least one sensor and situated between two successive windings of the high-voltage transformer. 2. The sensor system according to claim 1 , wherein the sensor head comprises a first Bragg grating with a first characteristic Bragg wavelength l 1 , a second Bragg grating with a second characteristic Bragg wavelength l 2 and a third Bragg grating with a third characteristic Bragg wavelength l 3 and at least one of the Bragg gratings is in direct heat-exchange engagement with at least one of the windings. 3. The sensor system according to claim 1 , wherein the at least one sensor together with the support is clamped in place between the two successive windings of the high-voltage transformer. 4. The sensor system according to claim 1 , wherein the sensor system comprises four of the sensors each connected with the evaluating unit by a respective optical fiber and the four sensors are arranged at four different positions between two successive windings in the high-voltage transformer. 5. The sensor system according to claim 1 , wherein a physical characteristic value is a temperature of two successive windings and/or a contact pressing force of two successive windings. 6. The sensor system according to claim 1 , wherein the Bragg gratings are mounted in the sensor head at a defined spacing from one another equal to about 20 millimeters. 7. A method of monitoring physical characteristic variables of a high-voltage transformer with a sensor system, characterized by the following steps: radiating light with a defined wavelength spectrum into an optical fibers connected with a sensor head of a paddle-shaped sensor having a plurality of Bragg gratings each connected to a respective one of the fibers such that the light is reflected respective Brage wavelengths; determining a shift of the wavelength of each Bragg grating in the sensor head of the at least one sensor and assigning to it a respective measured value; comparing the measured values with one another and determining the maximum measured value; deriving a temperature of two successive windings of the high-voltage transformer from and corresponding to the maximum measured value; determining a Bragg wavelength l max of that Bragg grating with the maximum measured value; comparing the Bragg wavelength l max with a mechanically unloaded Bragg wavelength l unloaded that serves as a standard value; and deriving a contact pressure by the difference between the Bragg wavelength l max and the mechanically unloaded Bragg wavelength l unloaded . 8. The method according to claim 7 , wherein the sensor system comprises four of the sensors each connected with the evaluating unit by a respective optical fiber, the four sensors are arranged at four different positions between two successive windings in the high-voltage transformer and each sensor head comprises a first Bragg grating with a first characteristic Bragg wavelength l 1 , a second Bragg grating with a second characteristic Bragg wavelength l 2 and a third Bragg grating with a third characteristic Bragg wavelength l 3 . 9. A sensor system for monitoring physical characteristic variables of a high-voltage transformer, the sensor system comprising: four paddle-shaped sensors each with a respective sensor head and each carrying a plurality of Bragg gratings, an evaluating unit connected with each of the four sensors by a respective optical fiber, and a respective support mechanically connected with each sensor and mounted between different successive windings of the high-voltage transformer.