High-voltage device and method for ascertaining the risk of condensation in cabinets in a high-voltage device of this kind

1 - 12 . (canceled) 13 . A method for ascertaining a risk of condensation in a cabinet of a high-voltage device, which comprises the steps of: ascertaining a cabinet interior temperature in the cabinet by obtaining interior temperature values TI by an interior temperature sensor disposed in the cabinet; ascertaining an exterior temperature of the cabinet by obtaining exterior temperature values TA by an exterior temperature sensor disposed outside the cabinet; transmitting the interior temperature values TI and the exterior temperature values TA to a data processor; calculating, via the data processor, a difference between the interior temperature values TI and the exterior temperature values TA to ascertain a temperature difference value TD according to TD=TI−TA; and generating, via the data processor, a warning signal if the temperature difference value TD is below 3 degrees Celsius. 14 . The method according to claim 13 , which further comprises ascertaining, via the data processor, a change in the temperature difference values TD as a function of time. 15 . The method according to claim 13 , wherein the data processor detects a state of an open cabinet door if the temperature difference value TD drops below 3 degrees Celsius within 1 to 3 minutes. 16 . The method according to claim 15 , which further comprises ascertaining a number of states of the open cabinet door within a predefined period of time. 17 . The method according to claim 14 , which further comprises detecting, via the data processor, a failure of a heating device disposed in the cabinet if the temperature difference value TD drops below 3 degrees Celsius within a period of time of more than three minutes. 18 . The method according to claim 13 , wherein the data processor concludes that an additional heating device of the cabinet has failed, and delivers a corresponding warning signal, in an event of an exterior temperature value TA being below −33 degrees Celsius and an interior temperature value TI being less than −30 degrees Celsius. 19 . The method according to claim 13 , wherein: the interior temperature sensor and the exterior temperature sensor are connected to a communication unit via a short-range communication connection; the communication unit being connected to the data processor via a long-range communication connection; and the data processor is a data processing cloud. 20 . The method according to claim 19 , wherein the communication unit has a local storage unit and a processor, the interior temperature values TI and exterior temperature values TA transmitted by the interior and exterior temperature sensors are stored locally on the local storage unit. 21 . The method according to claim 19 , wherein the communication unit has an antenna for position determination. 22 . A high-voltage device, comprising: a cabinet; an interior temperature sensor disposed in said cabinet; an exterior temperature sensor disposed outside of said cabinet in proximity thereto; a communication unit connected to said interior temperature sensor and said exterior temperature sensor via a short-range communication connection; and a data processor connectable to said communication unit, said data processor configured to carry out the method according to claim 13 . 23 . A non-transitory storage medium storing computer executable instruction for performing a method for ascertaining a risk of condensation in a cabinet of a high-voltage device, the method comprises the steps of: ascertaining a cabinet interior temperature in the cabinet by obtaining interior temperature values TI by an interior temperature sensor disposed in the cabinet; ascertaining an exterior temperature of the cabinet by obtaining exterior temperature values TA by an exterior temperature sensor disposed outside the cabinet; transmitting the interior temperature values TI and the exterior temperature values TA to a data processor; calculating, via the data processor, a difference between the interior temperature values TI and the exterior temperature values TA to ascertain a temperature difference value TD according to TD=TI−TA; and generating, via the data processor, a warning signal if the temperature difference value TD is below 3 degrees Celsius.