Patent ID: 8336586
Filing Date: 2012-12-25
Classification: B01J

Abstract:
1. A loading sleeve for loading a chemical reactor tube with pellets, where the chemical reactor tube is one of a large number of reactor tubes extending from an upper tube sheet to a lower tube sheet, said loading sleeve comprising: an upper flange portion for resting on top of the upper tube sheet, said upper flange portion having an outside diameter and defining an opening that is suitable for receiving whole particles that are brushed across the top of the upper tube sheet when the flange is resting on top of the upper tube sheet; a rigid upper tubular sleeve portion having a top and a bottom and defining a first longitudinal axis, wherein said upper flange portion is located at the top of said upper tubular sleeve portion, so that the opening of the flange opens into said upper tubular sleeve portion, and wherein said upper tubular sleeve portion projects downwardly from said upper flange portion; a rigid lower tubular sleeve portion extending downwardly from said upper tubular sleeve portion and defining a second longitudinal axis; wherein the outside diameters of said upper and lower tubular sleeve portions are smaller than the largest outside diameter of the upper flange portion for the entire length of the upper and lower tubular sleeve portions, so that the upper and lower tubular sleeve portions will extend into the reactor tube when the flange is resting on the upper tube sheet, and wherein the inside diameters of said upper and lower tubular sleeve portions are larger than the smallest diameter of the opening in the flange for the entire length of the upper and lower tubular sleeve portions, to ensure that any particles that can pass through the opening in the flange also will flow freely through the entire upper and lower tubular sleeve portions; and means for holding said upper and lower tubular sleeve portions together in both an aligned position, in which the first and second longitudinal axes are aligned; and in an unaligned position, in which the first and second longitudinal axes are at a substantial angle relative to each other.