Patent Number: 046541896
Section: claims

1. A medium power, high temperature nuclear power reactor, said reactor comprising: a primary circuit arrangement for heating a gaseous substance, said primary circuit arrangement including:  a prestressed concrete pressure vessel, said prestressed concrete pressure vessel having a bottom, and having a top remote from said bottom;  foundation walls for supporting said prestressed concrete pressure vessel;  a reactor protection building surrounding said prestressed vessel;  a reactor auxiliary building in communication with said protection building;  a pebble bed reactor core within said prestressed concrete pressure vessel, said pebble bed reactor core comprising operating elements being adapted to be passed once through said reactor core by force of gravity;  means for introduction of said operating elements and withdrawing said operating elements, said means including charging conduits, first and second pebble tubes, exit conduits, and functional components for closing, metering, counting, distributing, and collecting of operating elements; and  a plurality of armored ducts, each duct being arranged in such a way so as to operatively penetrate said prestressed concrete reactor vessel;  means for introducing and withdrawing operating elements including:  (a) at least two input stations, with each input station being arranged within said reactor protection building and above said prestressed concrete pressure vessel; and  for each input station, at least one distributor block operatively connected thereto for distributing said operating elements;  (b) a plurality of charging hatch blocks, with at least two charging hatch blocks being operatively connected to a corresponding distributor block, and each charging hatch block having  (c) a plurality of exit conduits, scrap separators, and singularizers, with corresponding exit conduits being operatively connected in said prestressed concrete pressure vessel bottom to corresponding conduits in said armored ducts;  (d) a first exit hatch block arranged outside of said prestressed concrete pressure vessel and within said foundation walls, said first exit hatch block connected to a corresponding scrap separator and a shielded exit hatch channel, said channel being adapted to pass through said reactor protection building, and said first exit hatch block being adapted to contain functional components for shutoff and counting; and  (e) a second exit hatch block arranged outside of said foundation walls and inside said reactor protection building, and operatively connected to said exit hatch channel and at least one exit station operatively arranged in said reactor auxiliary building, said second exit hatch block being adapted to contain functional components for metering, counting, and shutoff.  operating element buffer zones operatively connected between one of said input stations and one of said charging hatch blocks; and  means for the constriction of the cross section of a pebble conduit installed in said operating element buffer zone.  and comprising further functional components and a corresponding number of collectors adapted to be contained in said second exit hatch block.  at least one shield plug adapted to close one of said armored ducts, and being equipped with at least one operating element passage;  a rotary selector operatively connected beneath said at least one shield plug;  a gear transmission operatively connected to said rotary selector for rotating it;  a motor and stepping transmission assembly for imparting motive power to said gear transmission and operatively connected thereto; and  at least one gastight shaft passage member operatively connected to said shield plug.  a helical passage member operatively connected to said at least one singularizer disc in such a way that it can be removed and has at least one axis extending in vertical direction;  a drive motor for imparting motive power to at least one of helical passage member and singularizer disc;  a shield plug operatively connected to said armored duct;  a drive shaft operatively connected to said drive motor and adapted to be guided in said shield plug; and  a container for receiving dust and spent operating elements, said container being adapted to surround said shield plug. 2. A reactor according to claim 1 further comprising means for closing said charging hatch blocks and said first exit hatch block, said means being of at least two different configuration types, whereby a first configuration is used for operational charging and withdrawal operations and a second configuration is used for isolating/closing of the primary circuit, for control of non-standard conditions. 3. A reactor according to claim 2, and further comprising: 4. A reactor according to claim 2, further comprising drive means for imparting motive power at least to said movable functional components of said charging hatch blocks, singularizers, and to scrap separators; said drive means being disposed outside said prestressed concrete pressure vessel in such a way so as to being easily accessible. 5. A reactor according to claim 4, wherein at least one drive means is equipped with at least one stationary seal. 6. A reactor according to claim 2, further comprising a charging level-determination apparatus for accounting of the number of operating elements present in said core. 7. A reactor according to claim 2, further comprising for at least one input station, at least one of the group including means for inspecting and means for taking random samples of said operating elements. 8. A reactor according to claim 2, further comprising a plurality of relief systems and a plurality of rinsing systems operatively connected to said means for introduction and withdrawal of operating elements. 9. A reactor according to claim 2, wherein several first parallel pebble tubes are adapted to be passed from said first exit hatch block, through said shielded exit hatch channel, to said second exit hatch block; 10. A reactor according to claim 2, wherein said second exit hatch block is connected to said exit station by a singly executed pebble tube, and further comprising a gamma distinguishing and/or measuring apparatus for sorting pure graphite elements, said apparatus being adapted to be positioned within said exit station. 11. A reactor according to claim 2, wherein at least one second pebble tube is divided into singularizer disc, and a flanging device for drums for storing fuel elements. 12. A reactor according to claim 2, further comprising: 13. A reactor according to claim 12, wherein each combination of scrap separator and singularizer is equipped with at least one singularizer disc, said at least one singularizer disc being adapted to be installed in such a way that it has at least one axis extending in vertical attitude;