Device for producing poly(meth)acrylate in powder form

1 .- 10 . (canceled) 11 . An apparatus for producing pulverulent poly(meth)acrylate, comprising a reactor ( 1 ) for droplet polymerization having an apparatus ( 5 ) for dropletization of a monomer solution for the preparation of the poly(meth)acrylate having holes through which the monomer solution is introduced, an addition point ( 13 ) for a gas above the apparatus ( 5 ) for dropletization, at least one gas withdrawal point ( 19 ) on the circumference of the reactor ( 1 ) and a fluidized bed ( 11 ), the reactor ( 1 ) comprising a reactor shell ( 35 ) between the apparatus for dropletization ( 5 ) and the gas withdrawal point ( 19 ) and having, above the fluidized bed ( 11 ), a region ( 9 ) having decreasing hydraulic diameter toward the fluidized bed and having a maximum hydraulic diameter greater than the mean hydraulic diameter of the reactor shell ( 35 ), and the reactor shell ( 35 ) projecting into the region ( 9 ) having decreasing hydraulic diameter, so as to form an annular duct ( 21 ) between the outer wall of the reactor shell ( 35 ) and the wall by which the region ( 9 ) having decreasing hydraulic diameter is bounded, and the at least one gas withdrawal point ( 19 ) being disposed in the annular duct ( 21 ), wherein the ratio of the horizontal area ( 39 ) of the annular duct ( 21 ) to the horizontal area ( 41 ) enclosed by the reactor shell ( 35 ) is in the range from 0.3 to 5. 12 . The apparatus according to claim 11 , wherein the ratio of the distance ( 43 ) between the outer wall of the reactor shell ( 35 ) and the wall of the region ( 9 ) having decreasing hydraulic diameter at the inlet into the annular duct ( 21 ) and the height ( 45 ) of the annular duct ( 21 ) between the inlet into the annular duct ( 21 ) and the lower edge of the gas withdrawal point ( 19 ) is in the range from 0.05 to 50. 13 . The apparatus according to claim 11 , wherein each gas withdrawal point ( 19 ) is connected to an apparatus for removal of solids ( 27 ). 14 . The apparatus according to claim 13 , wherein the apparatus for removal of solids ( 27 ) is a cyclone. 15 . The apparatus according to claim 11 , wherein at least two gas withdrawal points ( 19 ) are connected to one apparatus for removal of solids ( 27 ). 16 . The apparatus according to claim 15 , wherein the apparatus for removal of solids ( 27 ) is a cyclone. 17 . The apparatus according to claim 11 , wherein at least two gas withdrawal points ( 19 ) are provided and the gas withdrawal points ( 19 ) are arranged uniformly over the circumference of the annular duct ( 21 ). 18 . The apparatus according to claim 11 , wherein the ratio of the horizontal cross-sectional area ( 39 ) of the annular duct ( 21 ) to the total cross-sectional area of all gas withdrawal points ( 19 ) is in the range from 1.5 to 150. 19 . The apparatus according to claim 11 , wherein the lower end of the reactor shell ( 35 ) has a region having an increase in diameter, the region having the increase in diameter being completely within the region which forms the annular duct ( 21 ). 20 . The apparatus according to claim 19 , wherein the increase in diameter at the lower end of the reactor shell ( 35 ) is conical and has an opening angle in the range from 0 to 10°. 21 . The apparatus according to claim 11 , wherein the top of the region ( 9 ) having decreasing hydraulic diameter is connected to a region having constant hydraulic diameter ( 37 ) such that the outer wall of the annular duct ( 21 ) has a constant hydraulic diameter.