Blocking device, gear-drive unit containing such a blocking device, and method for producing such a gear-drive unit

What is claimed is: 1. A blocking device ( 30 ) for blocking a rotary motion of a shaft ( 14 ) relative to a housing ( 16 ) of a gear-drive unit ( 10 ) in a blocking state, the blocking device ( 30 ) comprising: a first blocking element ( 32 ); a second blocking element ( 34 ); an electromagnet ( 44 ); and a restoring element ( 42 ); wherein the first and the second blocking elements ( 32 , 34 ) each have opposing blocking surfaces upon which are formed radially extending indentations ( 82 ) and radially extending raised areas ( 84 ) positioned proximate each blocking element's circumferential edge to enable the first and second blocking elements to mesh with one another in an axial direction at the opposing blocking surfaces in a form-locking fashion to block the rotary motion of the shaft ( 14 ) in a blocking state; wherein the blocking device ( 30 ) is embodied as a separate, independent structural unit ( 31 ) comprising a barrier housing ( 52 ) that is configured as a stop disk ( 60 ) forming at least one axial stop ( 74 ) for the first blocking element ( 32 ) and that is mounted as a separate independent structural unit ( 31 ) to the housing ( 16 ); wherein the first blocking element ( 32 ) embodies a rotatable disk with a central opening ( 64 ), an inner toothing ( 68 ) configured to engage corresponding outer toothing ( 70 ) of a slaving means ( 66 ) first secured to the shaft ( 14 ) and enable installation of the shaft ( 14 ) into the blocking element ( 32 ) to fix the shaft ( 14 ) against relative rotation so that axial positioning of the shaft ( 14 ) relative to the blocking device ( 30 ) is not vulnerable to tolerances; wherein the first blocking element ( 32 ) includes axial extensions ( 62 , 63 ) that form a dome ( 57 ) that is braced on the stop disk ( 60 ) using a clamping or securing ring ( 59 ); and wherein the second blocking element ( 34 ) is displaceable relative to the first blocking element ( 32 ) using the electromagnet ( 44 ) and the restoring element ( 42 ). 2. A blocking device ( 30 ) for blocking a rotary motion of a shaft ( 14 ) relative to a housing ( 16 ) of a gear-drive unit ( 10 ) in a blocking state, the blocking device ( 30 ) comprising: an electromagnet ( 44 ); a restoring element ( 42 , 43 ); a slaving means ( 66 ) is secured to the shaft ( 14 ); a first, rotatable blocking element ( 32 ) embodied as a disk with a central opening ( 64 ) with axial extensions ( 62 , 63 ); and a second blocking element ( 34 ) embodied as a disk, connected to housing ( 16 ) in a manner fixed against rotation and displaceable relative to the first blocking element ( 32 ) using the electromagnet ( 44 ) and the restoring element ( 42 ); wherein the shaft ( 14 ) is passed through a central opening ( 64 ) such that the slaving means ( 66 ) fixes the blocking element ( 32 ) against relative rotation; wherein the blocking device ( 30 ) is embodied as a separate, independent structural unit ( 31 ) comprising a barrier housing ( 52 ) mounted to the housing ( 16 ), said barrier housing ( 52 ) configured as a stop disk ( 60 ) forming at least one axial stop ( 74 ) for the first, rotatable blocking element ( 32 ), wherein the axial extensions ( 62 , 63 ) of the first blocking element form a dome ( 57 ) that is braced on both sides of the stop disk ( 60 ) using a clamping or securing ring ( 59 ) to mesh in the axial direction with one another by form-locking such that an axial engagement of the two blocking elements ( 32 , 34 ) with one another in rotary operation is prevented. 3. A blocking device ( 30 ) for blocking a rotary motion of a shaft ( 14 ) relative to a housing ( 16 ) of a gear-drive unit ( 10 ) in a blocking state, the blocking device ( 30 ) comprising an electromagnet ( 44 ), a restoring element ( 42 , 43 ), a slaving means ( 66 ) is secured to the shaft ( 14 ), a first, rotatable blocking element ( 32 ) embodied as a disk with a central opening ( 64 ) with axial extensions ( 62 , 61 , 63 ) and a second blocking element ( 34 ) embodied as a disk, connected to housing ( 16 ) in a manner fixed against rotation and displaceable relative to the first blocking element ( 32 ) using the electromagnet ( 44 ) and the restoring element ( 42 ); wherein the blocking device ( 30 ) is embodied as a separate, independent structural unit ( 31 ) comprising a barrier housing ( 52 ) mounted to the housing ( 16 ), said barrier housing ( 52 ) configured as a stop disk ( 60 ) forming at least one axial stop ( 74 ) for the first, rotatable blocking element ( 32 ); and wherein prior to building the blocking device ( 30 ) into the housing ( 16 ) and passing the shaft ( 14 ) through a central opening ( 64 ) to fix the blocking element ( 32 ) against relative rotation by the slaving means ( 66 ), to form the separate, independent structural unit ( 31 ), a power demand of the blocking device ( 30 ), including a power consumption thereby, is monitored to assess whether a tolerance of a physical dimension of the blocking device as the separate structural unit ( 31 ) is within a specified range, which affects functional operation. 4. The blocking device ( 30 ) of claim 3 , wherein in a rotating state, the physical dimension is a spacing between the first blocking element ( 32 ) and the second blocking element ( 34 ). 5. The blocking device ( 30 ) of claim 3 , wherein in a rotating state, the physical dimension is a spacing between the second blocking element ( 34 ) and a coil holder ( 46 ), supporting the electromagnet ( 44 ). 6. The blocking device ( 30 ) of claim 3 , wherein in a rotating state, the power consumption is the electrical power demand of the electromagnet ( 44 ). 7. The blocking device ( 30 ) of claim 6 , wherein the electrical power demand is determined by a prior function test. 8. The blocking device ( 30 ) of claim 6 , wherein the electrical power demand is calculated without contribution of an electrical power demand of the gear-drive drive unit ( 10 ). 9. The blocking device ( 30 ) of claim 3 , wherein in a rotating state, the energy consumption is an electrical energy demand of the electromagnet ( 44 ). 10. The blocking device ( 30 ) of claim 9 , wherein the electrical energy demand is determined by a prior function test. 11. The blocking device ( 30 ) of claim 9 , wherein the electrical energy demand is calculated without an electrical energy demand of the gear-drive drive unit ( 10 ). 12. A blocking device ( 30 ) for blocking a rotary motion of a shaft ( 14 ) relative to a housing ( 16 ) of a gear-drive unit ( 10 ), comprising: a first blocking element ( 32 ); and a second blocking element ( 34 ); wherein the second blocking element ( 34 ) is displaceable relative to the first blocking element ( 32 ) using an electromagnet ( 44 ) and a restoring element ( 42 ), wherein the blocking elements ( 32 , 34 ) in the blocked state mesh in the axial direction with one another by form-locking; wherein the blocking device ( 30 ) is embodied as a separate, independent structural unit ( 31 ) configured for mounting as separate, independent structural unit ( 31 ) onto the housing ( 16 ) on the one hand and onto the shaft ( 14 ) on the other; wherein the two blocking elements ( 32 , 34 ) each have radially extending indentations ( 82 ) and radially extending raised areas ( 84 ), which mesh with one another in form-locking fashion in order to block the rotary motion of the shaft ( 14 ); and wherein a functional operation of the blocking device ( 30 ), including an energy consumption thereby, is first monitored to assess whether a tolerance of a physical dimension of the blocking device is within a specified range, before the blocking device ( 30 ) is bui