Load current bearing fuse with internal switch element

The invention claimed is: 1. A load current-bearing fuse with internal switch element having a protective element, wherein the protective element has a first contact for connecting to a first potential of a supply network and a second contact that configured to be connected via a device to be protected to a second potential of the supply network, wherein the protective element has at least one fuse element that connects the first contact and the second contact, wherein the protective element has a third contact configured to be connected to the second potential of the supply network and is arranged so as to be near to, but electrically insulated from, the fuse element, wherein the fuse element has a constriction in the proximity of the third contact, with the constriction being embodied such that the fuse element has an electrically conductive fluxing agent in the proximity of the constriction, wherein the fluxing agent has a lower fusion point than the fuse element itself, wherein the load current-bearing fuse further comprises an internal switch element that monitors the protective element internally and provides a targeted disconnection, with the internal switch element being a voltage-sensitive element that is connected with one contact to the first contact, and wherein the other contact of the voltage-sensitive element is electrically insulated from the fuse element and near to but electrically insulated from the third contact. 2. The load current-bearing fuse as set forth in claim 1 , wherein the constriction has a perforation in which the fluxing agent is located. 3. The load current-bearing fuse as set forth in claim 1 , wherein the internal switch element is a voltage-switching element or a bimetallic switch, or a thermistor, a suppressor diode, or a gas discharge tube. 4. The load current-bearing fuse as set forth in claim 3 , wherein in addition to the internal switch element, a time-delaying device is provided in relation to the voltage-sensitive element by low pass-forming elements. 5. The load current-bearing fuse as set forth in claim 1 , wherein the internal switch element is arranged in a pressure-tight housing. 6. The load current-bearing fuse as set forth in claim 1 , wherein the fuse element and the third contact are electrically separated in the normal operating state by an insulating material, in which case the third contact and the insulating material are arranged such that an ignition near the insulating material results in an at least superficial degradation of the insulating material, whereby a surface of the insulating material loses its insulating property and allows current to flow between the fuse element and the third contact. 7. The load current-bearing fuse as set forth in claim 6 , wherein the insulating material comprising: a plastic or a composite material with a low CTI value, for example polyether ether ketone, polyimide, or epoxy resin-filled glass fiber composite materials such as FR4.