Mechanically stabilized rotor for a reluctance motor

What is claimed is: 1 . A rotor for a reluctance motor, comprising a laminated core having a number of rotor sheet metal blanks, each rotor sheet metal blank including flux barriers cast with a non-ferromagnetic casting compound and at least one soft-magnetic rotor sheet which delimits the flux barriers, wherein flux barriers of adjacent rotor sheet metal blanks are arranged offset relative to one another so that the flux barriers of one of the adjacent rotor sheet metal blanks are delimited in an axial direction at least partially by the rotor sheets of the other one of the adjacent rotor sheet metal blanks, with the casting compound of the flux barriers adhering in an adhesion zone to the rotor sheets. 2 . The rotor of claim 1 , wherein each rotor sheet metal blank comprises a single rotor sheet formed with punches for the flux barriers. 3 . The rotor of claim 1 , wherein each rotor sheet metal blank comprises a number of rotor sheets separated respectively from one another by a flux barrier. 4 . The rotor of claim 1 , wherein the flux barriers of the adjacent rotor sheet metal blanks are arranged in radially offset relationship to one another. 5 . The rotor of claim 1 , wherein the rotor sheet comprises at least one depression formed by a stamping and/or a recess in the adhesion zone, wherein the at least one depression and the casting compound establish a form closure in a radial direction. 6 . The rotor of claim 1 , wherein the rotor sheet in the adhesion zone is roughened compared to an adjacent region. 7 . The rotor of claim 1 , wherein the flux barriers of the adjacent rotor sheet metal blanks are arranged in a partially overlapping relationship, with the casting compound of the overlapping flux barriers establishing a single piece support structure in the form of a rod which penetrates the laminated core in its entirety. 8 . The rotor of claim 1 , wherein the casting compound contains an electrically insulating material. 9 . The rotor of claim 8 , wherein the electrically insulating material is a polymer or a ceramic. 10 . The rotor of claim 1 , wherein the laminated core has rotor sheet metal blanks with flux barriers at axial ends thereof, with the flux barriers at each axial end being electrically connected to one another by way of a short-circuit ring formed from the casting compound such that overall a start-up cage of the rotor is formed by the casting compound in the laminated core and the short-circuit rings. 11 . The rotor of claim 1 , wherein the casting compound contains an electrically conductive material. 12 . The rotor of claim 11 , wherein the electrically conductive material is aluminum and/or copper. 13 . The rotor of claim 1 , wherein the at least one rotor sheet of each rotor sheet metal blank has edges which define a contour, with the contours of the rotor sheet metal blanks being the same but arranged twisted relative to one another. 14 . A reluctance motor, comprising: a rotor including a laminated core having a number of rotor sheet metal blanks, each rotor sheet metal blank including flux barriers cast with a non-ferromagnetic casting compound and at least one soft-magnetic rotor sheet which delimits the flux barriers, wherein flux barriers of adjacent rotor sheet metal blanks are arranged offset relative to one another so that the flux barriers of one of the adjacent rotor sheet metal blanks are delimited in an axial direction at least partially by the rotor sheets of the other one of the adjacent rotor sheet metal blanks, with the casting compound of the flux barriers adhering in an adhesion zone to the rotor sheets; and a stator having coils for rotating the rotor at a rotary speed by applying current alternatingly to the coils. 15 . The reluctance motor of claim 14 , further comprising a converter configured to alternatingly apply current to the coils and thereby rotate the rotor. 16 . A motor vehicle, comprising at least one reluctance motor, said reluctance motor comprising a rotor including a laminated core having a number of rotor sheet metal blanks, each rotor sheet metal blank including flux barriers cast with a non-ferromagnetic casting compound and at least one soft-magnetic rotor sheet which delimits the flux barriers, wherein flux barriers of adjacent rotor sheet metal blanks are arranged offset relative to one another so that the flux barriers of one of the adjacent rotor sheet metal blanks are delimited in an axial direction at least partially by the rotor sheets of the other one of the adjacent rotor sheet metal blanks, with the casting compound of the flux barriers adhering in an adhesion zone to the rotor sheets, said reluctance motor comprising a stator having coils for rotating the rotor at a rotary speed by applying current alternatingly to the coils. 17 . The motor vehicle of claim 16 , wherein the reluctance motor comprises a converter configured to alternatingly apply current to the coils and thereby rotate the rotor. 18 . A method for manufacturing a rotor comprising: forming recesses in a soft-magnetic sheet for a rotor sheet metal blanks to establish flux barriers; axially threading a plurality of said sheet such that axially adjacent recesses are arranged partially offset relative to one another so that each of the flux barriers is axially delimited by an adhesion zone of an adjacent one of the sheets; and casting the recesses with a non-ferromagnetic casting compound to thereby arrange the casting compound in the recesses and apply the casting compound to the adhesion zones.