Power transmission system

The invention claimed is: 1. A power transmission system, comprising: at least two local grids each connected to loads and connected to a higher-level power transmission network; at least one load control unit connected directly or indirectly to at least one of the loads of said at least two local grids, said at least one load control unit being configured for controlling a consumption of said loads; and said least one load control unit being configured for evaluating a load state of said at least two local grids and, in the event of an overload that has occurred or that is imminent on one of said at least two local grids, for reducing a consumption of at least one of the loads of the respective said local grid and conversely for increasing a consumption of at least one of the loads in another of said local grids, which is not overloaded, of said at least two local grids; wherein said load control unit simulates power flow calculations to determine whether the overload has occurred or is imminent on said one of said at least two local grids and to determine whether the other one of said local grids is not overloaded by increasing the consumption of at least one of the loads in the other one of said local grids. 2. The power transmission system according to claim 1 , wherein each of said at least two local grids is connected to a respective secondary unit substation connecting the associated said local grid to said higher-level power transmission network. 3. The power transmission system according to claim 2 , wherein said at least one load control unit is indirectly or directly connected to said secondary unit substations of said at least two local grids. 4. The power transmission system according to claim 3 , wherein said at least one load control unit is configured to send control signals for controlling a consumption of the loads indirectly via the respective said secondary unit substation to the respective load. 5. The power transmission system according to claim 1 , wherein said at least one load control unit sends control signals for controlling the consumption of the loads directly without intervention of the respective secondary unit substation to the respective load. 6. In a power transmission system according to claim 1 , a load control unit for the power transmission system, wherein: said load control unit is configured for indirect or direct connection to at least one load respectively of at least two local grids and for controlling a power consumption of the loads; and said load control unit is further configured for evaluating a load state of the at least two local grids and, on occasion of an overload that has occurred or is imminent on one of the at least two local grids, for reducing the power consumption of at least one load of the respective local grid, and conversely for increasing a consumption of at least one load in another one of the local grids, which is not overloaded, of the at least two local grids; wherein said load control unit simulates power flow calculations to determine whether the overload has occurred or is imminent on said one of the at least two local grids and to determine whether the other one of said local grids is not overloaded by increasing the consumption of at least one of the loads in the other one of the local grids. 7. A method of controlling a power transmission system having secondary unit substations connected, on the one hand, to a higher-level transmission network and, on the other hand, to loads by way of an associated local grid in each case, the method which comprises: evaluating a load state of at least two local grids; in an event of an overload that has occurred or is imminent on one of the at least two local grids, reducing a consumption of at least one load of the respective local grid and, conversely, increasing a consumption of at least one load in another one of the local grids, which is not overloaded, of the at least two local grids; wherein power flow calculations are simulated to determine whether the overload has occurred or is imminent on the one of the at least two local grids and to determine whether the other one of the local grids is not overloaded by increasing the consumption of at least one of the loads in the other one of the local grids. 8. The method according to claim 7 , which comprises evaluating the load state of the at least two local grids with a load control unit that is indirectly or directly connected to the secondary unit substations of the at least two local grids. 9. The method according to claim 8 , which comprises sending control signals with the load control unit for controlling the consumption of the loads indirectly via the respective secondary unit substation to the respective load. 10. The method according to claim 8 , which comprises sending control signals for controlling the consumption of the loads with the load control unit directly without intervention of a respective secondary unit substation to the respective load.