Electrical apparatus for the short-circuit protection of a three-phase load in a three-phase system

The invention claimed is: 1. An apparatus for the short-circuit protection of a three-phase load in a three-phase system, said apparatus comprising: an input for connection of the apparatus to a three-phase network; an output for connection of the three-phase load to the apparatus; a means for producing an auxiliary short circuit in the three-phase network by ignition of the means; a means for identifying a short circuit at the three-phase load, wherein the means for identifying the short circuit comprises a current sensor and a means for identifying a switching threshold comprised of a galvanic isolation device; and a means for generating an ignition pulse upon identification of the short circuit, wherein the means for producing the auxiliary short circuit and the means for identifying the short circuit are provided in the current path between the input and the output, wherein the means for producing the auxiliary short circuit is ignitable by the ignition pulse, wherein the current sensor is arranged in the current path of a phase of the three-phase network, wherein the means for identifying the switching threshold cooperates with the current sensor, and wherein the means for identifying the switching threshold signals the identification of a short circuit to the means for generating the ignition pulse if a predefined switching threshold is exceeded. 2. The apparatus according to claim 1 , wherein the means for producing the auxiliary short circuit comprises an ignition input, a coupling element and an ignitable arc gap, wherein the ignition input, the coupling element and the arc gap are arranged so that an ignition voltage in the form of an ignition pulse is applied to the ignition input via the coupling element on the arc gap to ignite an arc gap, and wherein the arc gap is arranged so that the auxiliary short circuit is produced by the arc gap between at least two phases of the three-phase network. 3. The apparatus according to claim 2 , wherein the coupling element is a varistor, a capacitor or both, and the arc gap is a surge protector, a spark gap or both. 4. The apparatus according to claim 3 , wherein each phase of the three-phase network has a first coupling element and a second coupling element and one arc gap, wherein the first coupling element of each phase is connected between the phase and the ignition input such that all of the first coupling elements are connected together at the ignition input in a star-shaped manner, wherein a second coupling element of each phase is connected between an input assigned to the phase for ignition of the arc gap, and to the ignition input such that all of the second coupling elements are connected together at the ignition input in a star-shaped manner, and wherein the arc gap between its respective phase and another phase or a ground is connected such that an ignition voltage applied to the ignition input drops between the first coupling elements connected in the star-shaped manner and the second coupling elements connected in the star-shaped manner. 5. The apparatus according to claim 1 , wherein each phase of the three-phase network comprises a current sensor and a means for identifying a switching threshold, and all means for identifying a switching thresholds are connected together on the output side via an OR link and arranged so as to signal the identification of a short circuit to the means for generating the ignition pulse if the switching threshold is exceeded at just one phase. 6. The apparatus according to claim 1 , wherein the means for generating the ignition pulse comprises a coil, and wherein the coil is switchably connected to an energy source such that the ignition pulse is generated by interrupting the application of energy to the coil. 7. A semiconductor switchgear protection device, comprising: an apparatus according to claim 1 ; and a semiconductor switching device, wherein the semiconductor switching device is arranged at the output of the apparatus and is designed for connection to the three-phase load. 8. The apparatus according to claim 1 , wherein the means for generating the ignition pulse is formed in such a way that the ignition pulse can be generated by a short-circuit current established by the means for identifying the short circuit. 9. A method for improving the short-circuit protection of a three-phase load in a three-phase system, said method comprising: a) identifying a short circuit at the three-phase load; b) generating an ignition pulse upon identification of the short circuit; and c) generating an auxiliary short circuit in the three-phase system by a means ignited by the ignition pulse.