Fuse, fuse body, system and method

What is claimed is: 1. A fuse including an integrated measurement function, comprising: a protective housing, defining a first reception space, two electrical connection elements of the fuse being routed out of the protective housing and at least one fuse element being arranged in the protective housing, the at least one fuse element electrically conductively connecting the two electrical connection elements in the first reception space of the protective housing to one another; a dedicated housing, defining a second reception space, mechanically connected to the protective housing forming a single structural unit; and a measurement device including at least one sensor element to record a physical state measured value of the fuse and a transmission apparatus to transmit the measured value to a reception device arranged outside the fuse, the measurement device being disposed in the second reception space of the dedicated housing in which the sensor element is received and held, wherein an overall installation space required for the protective housing and the dedicated housing corresponding to an installation space of a standardized NH fuse. 2. The fuse of claim 1 , wherein the at least one sensor element includes a further sensor element configured to record a further physical state measured value of the fuse. 3. The fuse of claim 1 , wherein the transmission apparatus is arranged in the dedicated housing. 4. The fuse of claim 1 , wherein the measurement device includes a processing apparatus to process the measured value, the processing apparatus being arranged in the dedicated housing and being coupled to the at least one sensor element and to the transmission apparatus. 5. The fuse of claim 4 , wherein the processing apparatus includes a microprocessor or a microcontroller. 6. The fuse of claim 1 , wherein the at least one sensor element is designed to record a current measured value of the fuse and includes a transformer or a Hall-effect sensor. 7. The fuse of claim 1 , wherein the at least one sensor element is designed to record a temperature measured value of the fuse. 8. The fuse of claim 1 , wherein the measured value is transmitted wirelessly by the transmission apparatus. 9. The fuse of claim 4 , wherein the measurement device is designed to be self-powered. 10. The fuse of claim 1 , wherein one of the two electrical connection elements is routed through the dedicated housing. 11. A fuse body for the fuse of claim 1 , comprising: a first reception space, designed to receive the fuse element, a second reception space, designed to receive the measurement device and spatially separated from the first reception space, the second reception space forming a structural unit with the first reception space. 12. The fuse body of claim 11 , wherein the first reception space and the second reception space form an integral fuse body. 13. The fuse body of claim 12 , wherein the integral fuse body is formed from a ceramic material. 14. The fuse body of claim 11 , wherein the first reception space and the second reception space are fixedly but detachably connected to one another. 15. The fuse body of claim 14 , wherein the first reception space and the second reception space are formed from different materials. 16. The fuse body of claim 11 , wherein the first reception space and the second reception space combined to form the structural unit, are surrounded by an additional sleeve. 17. A system for monitoring a state of an electrical circuit, comprising: at least one of the fuse of claim 1 ; and a reception device, arranged outside the at least one fuse and designed to receive a measured value transmitted by the transmission apparatus. 18. The fuse of claim 2 , wherein the transmission apparatus is arranged in the dedicated housing. 19. The fuse of claim 2 , wherein the measurement device includes a processing apparatus to process the measured value, the processing apparatus being arranged in the dedicated housing and being coupled to the at least one sensor element and to the transmission apparatus. 20. The fuse of claim 19 , wherein the processing apparatus includes a microprocessor or a microcontroller. 21. The fuse of claim 1 , wherein the protective housing is configured to receive a pressure occurring when the fuse is heated or tripped, and the dedicated housing is configured to receive and to fasten the sensor element and to protect the sensor element against external disruptions, the dedicated housing having lower mechanical stability than the protective housing. 22. A method for monitoring an electrical circuit including at least one state monitoring system having at least one fuse, the method comprising: measuring a physical measured value of a fuse element housed in a first reception space defined by a protective housing of the at least one fuse using a measurement device housed in a second reception space defined by a dedicated housing of the at least one fuse; transmitting the physical measured value to a reception device, arranged outside of the at least one fuse, using a transmission apparatus housed in the second reception space; and further processing the transmitted measured value. 23. The method of claim 22 , wherein the at least fuse includes two electrical connection elements of the fuse being routed out of the protective housing and at least one fuse element being arranged in the protective housing, the at least one fuse element electrically conductively connecting the two electrical connection elements in the protective housing to one another; and the measurement device including at least one sensor element to record a physical state measured value of the fuse and the transmission apparatus to transmit the measured value to a reception device arranged outside the fuse, the measurement device further including a dedicated housing in which the at least one sensor element is received and held, the dedicated housing being mechanically connected to the protective housing, an overall installation space required for the protective housing and the dedicated housing corresponding to an installation space of a standardized NH fuse.