CS212554B1 - Brick pulled woolen tiles - Google Patents

Abstract

The invention solves the problem of increasing the lateral stabilization of a row of tiles placed on the edge in a brick-drawn tile, thereby enabling the binding of large units with rational mechanization of kiln washing plants, ensuring the implementation of stable shipping units at lower costs for binding material. The above purpose is achieved by a suitable shape solution of the tile. The cross-section of the tile (Fig. 1 and 3) consists of a system of three, up to three and a quarter waves of constant height 5, asymmetric with respect to the vertical plane 6. On the reverse side of the tile, from the concave part of the middle wave 7, a tooth 8 in a V-shaped cross-section with a holding cavity 9 results. At the ends of the extreme waves 1, 1 ' in half, «the height of the tile 5, the formation of the roof covering is carried out in a similar way to the beaver tile. At the end of 1, 1 extreme waves of identical height 14, smaller than the height of tile 5 by a thickness of 15 tiles at the peak of the wave and after cutting off the opposite corners, the formation of the roof covering is carried out in a similar manner as with the corrugated sheet.

Description

The invention solves in the case of a drawn brick tile an increase in lateral stabilization of a row of tile placed on an edge in a furnace dump.

Known types of brick tiled tiles such as. beaver, groove or bellows, when necessary to exclude the pickling materials from the furnace dumps in order to mechanize the kiln washing, it is necessary to bind to small handling units or to put in refractory shells, both at considerable investment and operating costs. The lateral stabilization achieved in the row of tiled brick stacked on the edge does not allow rational folding of the furnace dumps to the large units known in the brick embossed tile.

The aforementioned drawbacks are eliminated by the tiled brick tread according to the invention, which is based on the fact that the cross-section of the tile consists of a set of three to three and a quarter wines of constant height, with a tooth on the reverse side. The tooth has a V-shaped cross-section with a longitudinal cavity. Its height is equal to the height of the tile reduced by the depth at the top of the wool, and the curvature of its lower part is less than the curvature of the reverse top of the wool.

The stacked tiles on the edge of the kiln are stabilized in the lateral direction on one side by a cog, on the other side by an opposing adjacent tile, which allows the kiln dumps to be bound into large units while rationally operating the kiln washer. In addition to the novel effect of the tile according to the invention, it is possible to realize stable shipping dumps at a lower cost of binding material. It creates conditions for reducing technological demands in its production. .Reducing the depth of the cabinets results in pulling the roof cover. It is possible to produce tiles of larger length.

In the accompanying drawing, two examples of an embodiment of a brick-drawn drawn tile according to the invention are shown. In FIG. 1 and FIG. 2 is a cross-sectional view and a top view of a tile, the cross section of which is a set of wines of equal width, with the ending of the edge wines at half the height of the tile. In FIG. 3 and FIG. 4 is a sectional and plan view of a tile, the cross-section of which is a system of wines of uneven width, with the height of the end portions of the outer wines exceeding half the tile height. In FIG. 5 shows the laying of a brick-drawn corrugated tile on an edge in a furnace dump.

Example 1

The tiles (Fig. 1 and Fig. 2) consist of a set of three wines of constant height,, unsymmetrical to the vertical plane 6, consisting of two groups T22Žf, 34-1J and 23 23 -Ž44 'parallel five halves and two quarters, whose ends £, '' have the same height £, which is equal to half the height £ of the tile. On the reverse side of the tile, the tooth 8 in the V-shaped cross-section with the longitudinal cavity 8 results from a concave part of the medium wave 8. Its height 11 above the neighboring waves is equal to the height δ of the tile reduced by the depth 15 of the tile at the top of the wave and is equal to the so-called.. below the height of 13 tiles. The curvature 10 of the lower part of the tooth 6 is smaller than the curvature 12 of the back of the wave top. The roof cover is similar to that of known tiles.

Example 2

The tiles (Fig. 3 and Fig. 4) consist of a set of at most three and a quarter of wines of constant height,, unsymmetrical to the vertical plane s, consisting of three groups 12-Ϊ7,

34-B and 23-Y-4 ', parallel five halves and two portions of extreme wines, whose ends 11, 11 have the same height 14 less than the height 8 of the tile 15 at the top of the wave. On the reverse side of the tile, the tooth 8 in the V-shaped cross-section with the longitudinal cavity 8 results from a concave part of the medium wave. The height 11 of the tooth 8 above the adjacent waves is equal to the height δ of the tile reduced by the depth 15 of the tile at the top of the wave and equal to the so-called.. below the height of 13 tiles. The curvature 10 of the lower part of the tooth 8 is smaller than the curvature 12 of the reverse wave top. The two opposing corners 16 are cut obliquely to allow the roof cover to be formed in a similar manner to the bellows.

In the furnace landfill side-by-side tile, it is stacked in four poles in a given order (Fig. 5), which are periodically repeated in the landfill.

Claims (2)

212554 2 In the kiln dump The edge ducts are stacked up to four poles in the specified order (Fig. 5) «which are periodically repeated during installation. OF THE INVENTION 1. Pull-pull wave screens, characterized in that its cross-section consists of a set of three to three and a quarter of wines with a constant height (5), with a tooth (6) extending on the back of the concave portion of the middle wave (7) ( 9). 2. Tiles according to claim 1, characterized in that the tooth (8) has a V-shaped cross-section, its height (11) above the adjacent waves is equal to the height (5) of the screeds lowered by the ridge (15) The seams at the top of the wave and the curvature (10) the lower portion thereof is less than the curvature (12) of the backsheet portion of the wool. 1 sheet of drawings Severografia, n, p "plant 7, Most