CS263753B1 - Supporting grid of fillers - Google Patents

Abstract

The present invention relates to a support grid for filling devices comprising at least one frusto-conical support shell with openings attached to the bottom of the apparatus, which divides the support surface of the grate into a central portion and on the annulus with the cassettes. The cassettes are supported by shells and support elements attached to the apparatus wall. The advantage of the device is the easy demountability of the grate, which is radially divided into the required number of cassettes, thus improving the compensation of thermal dilatations even at very high temperatures.

Description

BACKGROUND OF THE INVENTION The present invention relates to a support grid of filling apparatus, in particular one which operates at high temperatures and higher loads.

Known embodiments of grates for similar purposes consist, as a rule, of frames or individual beams mounted on a support ring or feet welded to the housing of the apparatus. Such a solution requires a massive design, especially at higher operating temperatures and higher loads from the apparatus filling and pressure loss, since the bending moments in the long-beams supported at the ends are large. Large local loads are usually transmitted from such grates to the walls of the apparatus. Often there are problems with compensation of temperature dilatations.

The grates are difficult to remove due to the high weight of the individual parts. Sometimes it is necessary to divide the filling of the apparatus into several layers and the same number of grates.

These drawbacks are overcome by the support grid according to the invention. The principle of the invention is that the grate located near the bottom of the apparatus is supported, depending on the diameter of the apparatus, by one or more shells in the form of truncated cones with holes supported on the bottom of the apparatus.

This divides the grate surface into one or more annulus and the central part in the form of a circle. By radially dividing the annular ring into the required number of parts, the cassette surfaces are formed, usually of a lift, which can be easily dismantled outside the apparatus through the hatch or throat. Because the dimensions of the cartridges are small compared to the diameter of the apparatus, their weight, even under heavy loads, is small. The thermal expansion is compensated by the clearance between the cassettes, and the solution can be used at very high temperatures.

An exemplary embodiment of a packed bed reactor grate is shown schematically in Figures 1 and 2, wherein Figure 1 is a vertical section of the grid and Figure 2 is a top view of the grid.

The wall 2 of the apparatus, in this case a reactor with a bottom 2 filled with a catalyst 2 ^{and a} thermal lining 4, has a truncated cone-shaped shell 5 with holes 6 attached to the bottom 2.

The conical shell divides the support surface of the grate into a central part T. ^{and an} annulus 11 filled with cassettes S. Around the perimeter of the reactor body are supported support elements 9 supporting the cassettes on their outer periphery. The bottom is provided with a neck 10 for the outlet or inlet of the working medium. The weight of the catalyst 2, together with the pressure loss caused by the flow of the working medium through the catalyst layer 2 ° d from top to bottom, is retained by the cassettes 2 and the central part T. Supported mounting of the edges of the cassettes 2 and the central part 7 ensures an even distribution of the load of these parts and of the supporting elements 2 ^{and the} conical shells 2 which transfer this load from the wall 2 of the apparatus and its bottom 2.

Annulus 11 formed by the conical shell 2 also radially divided into the cassette 2 reduce the length of the supporting elements of about 3 times faster than the grid formed of beams and because the bending moment is supported by the beams increases with the square of their length, the torque load bearing elements cassettes 8 ^oca ° one order of magnitude lower than for This results in a significant reduction in the weight of the cassette grate compared to the cantilever grate. By using multiple coaxial conical shells 5, the dimensions of the cassettes can be further reduced.

Claims (2)

A support grid of filling apparatus, in particular subjected to high temperatures and loads, characterized in that it consists of at least one truncated cone-shaped support shell (5), in the shell of which openings (6) are formed, the shell (5) being attached to the bottom (2) of the apparatus, and there are cassettes (8) disposed thereon. Support grid according to claim 1, characterized in that the cassettes (8) are supported on the circumference of the wall of the housing (1) by supporting elements (9) attached to this wall of the housing (1).