Junction box and network for distributing energy

The invention claimed is: 1. A junction box for energy distribution, comprising an input, at least one output, an electronic switch, and a mechanical isolator that is connected in series to the electronic switch, wherein the input is connected to the at least one output by the mechanical isolator so as to transmit energy, wherein the junction box comprises an internal evaluating unit having at least one processor, a data storage device, a first control output in communication with the electronic switch for controlling an operational state of the electronic switch, and a second control output in communication with the mechanical isolator for controlling an operational state of the mechanical isolator, and wherein an evaluating program is stored in the data storage device and said evaluating program is provided for being performed by the at least one processor to control the operational state of the mechanical isolator and the transmission of energy to the at least one output. 2. The junction box in accordance with claim 1 , wherein the internal evaluating unit is a separate assembly having the at least one processor as a dedicated processor and having the data storage device as a dedicated data storage device. 3. The junction box in accordance with claim 1 , wherein the evaluating unit is configured to enable opening and closing of the electronic switch and the mechanical isolator. 4. The junction box in accordance with claim 3 , wherein the internal evaluating unit comprises a counter for counting a number of times the mechanical isolator is opened under a load. 5. The junction box in accordance with claim 1 , wherein the junction box comprises multiple separate outputs. 6. The junction box in accordance with claim 5 , wherein the separate outputs can be switched off independently of one another via an associated switch. 7. The junction box in accordance with claim 6 , wherein each output comprises a galvanic decoupling element. 8. An energy distribution network, comprising: a plurality of junction boxes, each junction box including an input, at least one output, an electronic switch, and a mechanical isolator that is connected in series to the electronic switch, wherein the input is connected to the at least one output by the mechanical isolator so as to transmit energy, wherein the junction box comprises an internal evaluating unit having at least one processor, a data storage device, a first control output in communication with the electronic switch for controlling an operational state of the electronic switch, and a second control output in communication with the mechanical isolator for controlling an operational state of the mechanical isolator, and wherein an evaluating program is stored in the data storage device and said evaluating program is provided for being performed by the at least one processor to control the operational state of the mechanical isolator and the transmission of energy to the at least one output; means for transmitting data; and means for evaluating energy consumption, wherein the evaluating means are arranged in a decentralized manner in the junction boxes. 9. The energy distribution network in accordance with claim 8 , wherein the evaluating means include devices for measuring current, voltage and/or electrical output and include the evaluation program of each junction box. 10. The energy distribution network in accordance with claim 9 , wherein, for each junction box, the evaluating program is configured to switch off the at least one output. 11. A method for operating an energy distribution network having a plurality of junction boxes, each junction box including an input, at least one output, an electronic switch, and a mechanical isolator that is connected in series to the electronic switch, wherein the input is connected to the at least one output by the mechanical isolator so as to transmit energy, wherein the junction box comprises an internal evaluating unit having at least one processor, a data storage device, a first control output in communication with the electronic switch for controlling an operational state of the electronic switch, and a second control output in communication with the mechanical isolator for controlling an operational state of the mechanical isolator, and wherein an evaluating program is stored in the data storage device and said evaluating program is provided for being performed by the at least one processor to control the operational state of the mechanical isolator and the transmission of energy to the at least one output, the method comprising: storing measurement data for a predetermined period of time; subsequently evaluating the measurement data; and comparing a result of the evaluation with up-to-date data. 12. The method in accordance with claim 11 , further comprising: triggering an alarm and/or switching off an output in dependence upon a result of the comparison. 13. A method for switching off at least one output of a junction box that includes an input, the at least one output, an electronic switch, and a mechanical isolator that is connected in series to the electronic switch, wherein the input is connected to the at least one output by the mechanical isolator so as to transmit energy, wherein the junction box comprises an internal evaluating unit having at least one processor, a data storage device, a first control output in communication with the electronic switch for controlling an operational state of the electronic switch, and a second control output in communication with the mechanical isolator for controlling an operational state of the mechanical isolator, and wherein an evaluating program is stored in the data storage device and said evaluating program is provided for being performed by the at least one processor to control the operational state of the mechanical isolator and the transmission of energy to the at least one output, the method comprising: opening the electronic switch by way of the evaluating unit; waiting for a defined period of time; measuring a potential at an output of the electronic switch by way of the evaluating unit and an electronic measuring device; comparing the measured potential with a predefined value; setting a release parameter in dependence upon the measured potential being below the predefined value; and opening the mechanical isolator in dependence upon the release parameter. 14. The method in accordance with claim 13 , further comprising: generating a priority status for a prescribed switching-off procedure; performing the prescribed switching-off procedure in dependence upon the priority status; and in the case of the prescribed switching-off procedure having been performed and a release parameter not being set, increasing a count value of a counter. 15. The method in accordance with claim 13 , further comprising: releasing a locking arrangement of a plug connector that is connected to the at least one output of the junction box; and removing the plug connector from the at least one output.