CS254665B1 - Supporting large-planary fire grate - Google Patents

Description

SUMMARY OF THE INVENTION The present invention provides a large support grid for absorbent and reaction packings of chemical apparatuses, wherein the permeable surface for the working-gas and liquid medium is formed by the yard sides of isosceles triangular prisms lying flat in the support grid segments.

Until now, flat grids with grid or perforated openings have been used for absorbent and reaction packings, which have the disadvantage of a lower permeable surface, resulting in crumbling and drift of the pack, or grids formed of perforated segments with accordion relief, increasing the permeable surface of the grate. cross-sectional flat chemical apparatus, however, the disadvantage is the structural complexity and technological complexity in terms of the use of single-purpose machinery for their implementation.

The principle of the large-scale grid according to the invention is as follows a technical solution. In U-shaped support grid segments. the rectangular apertures are covered with isosceles triangular prisms lying flat in the supporting grate segments and the isosceles triangular prisms are formed by two triangular faces with closing strips interconnected by three longitudinal supporting profiles located at the apexes of triangular faces which are mutually reinforcing with each other a support wire is wound on the longitudinal support profiles in a helix, on which the metal tissue overlapping the sealing strips and the two sides of the isosceles is wound. a triangular prism forming the permeable surface of the bearing large-area grid.

In the large-area grid according to the invention, the construction and geometric shape of the isosceles triangular prisms ensure a low flow velocity of the working medium through the permeable surface of the two walls of the isosceles triangular prisms which can be up to 90% more weight than the cross-sectional flat chemical apparatus. increases the uniformity of flow through the cross-section of the cartridge, thereby increasing the activity of the chemical process. Another advantage is the simple production of isosceles triangular prisms without the need for special machinery.

The large-area grid according to the invention is schematically shown in one of the possible constructional arrangements in the drawing, where in FIG. 1 is a partial cross-sectional side view of an isosceles triangular prism; FIG.

there is a plan view of a grate segment with an isosceles triangular prism and in FIG.

is a plan view of a complete large-area grid mounted in the apparatus.

The large-area grid in FIG. 1 to FIG. 3 consists of U-shaped support grid segments 1 in which rectangular openings 2 are formed, covered by isosceles triangular prisms 3 fixed by means of screws 11 lying horizontally in the support grid segments 1. The isosceles triangular prisms 3 are formed by court triangular faces 4 with closing strips 5 are interconnected by three longitudinal support profiles 6 located at the apexes of the triangular faces 4, which are mutually reinforced with triangular stiffeners 7. The longitudinal support profiles 6 are made of thin-walled closed square profiles. Between the locking strips 5, a support wire 8 is wound on the longitudinal support profiles 6, in which a metal wire 9 overlapping the closing strips 5 and the two sides 10 of the isosceles triangular prism 3 constituting the permeable surface of the support grid is wound. The apex of the isosceles triangular prisms 3 is protected by a protective profile 13. The grate segments 1 are screwed together and screwed together to the peripheral support ring 14 of the housing of the apparatus. The pitch of the helix of the carrier wire 8 and the use of the support profiles 12 under the carrier wire 8 on the sides 10 depend on the size of the working medium differential pressure and the specific filling pressure on the large-area support grid. A layer of filler 15 is poured onto the supporting large-area grid, the working medium passing from above through the effective height of the filler 15 and exiting through the permeable surface of two sides 10 of isosceles triangular prisms 3.

Claims (1)

Large-area support grid for absorbent and reaction packs of chemical apparatus, characterized in that rectangular openings (2) are covered with isosceles triangular prisms (3) lying flat in the support grate segments in U-shaped support grid segments (1). (1j and isosceles triangular prisms (3) are formed by two triangular faces (4j) with closing strips (5) interconnected by three longitudinal load-bearing profiles (6j located at the apexes of triangular faces (4), which are mutually reinforced by triangular (7) reinforcements wherein a carrier wire (8j) is wound between the closure strips (5j) on the longitudinal support profiles (6) in which a metal web (9) overlying the closure strips (5j) and two sides (10) of the isosceles triangular prism (3) forming a permeable the area of the bearing grid.