WO1998045549A1

WO1998045549A1 - Roof tile

Info

Publication number: WO1998045549A1
Application number: PCT/DE1998/000919
Authority: WO
Inventors: Helmut Lauff; Manfred Schröter; Henning Wullkopf
Original assignee: Rupp Keramik Gmbh
Priority date: 1997-04-03
Filing date: 1998-03-31
Publication date: 1998-10-15
Also published as: DE19713717C1; AU8008398A

Abstract

The invention relates to a roof tile (10) having a gutter (16) and a bulge (18) which is raised in relation to the latter. The tile has an elevated water groove (20) on the longitudinal edge adjoining the groove (16) and a covering groove (22) on the longitudinal edge adjoining the bulge (18), as well as bearing surfaces (30, 32) on the lowerside of the head area for placing the tile (10) onto a support lath (38). The invention seeks to create a strongly profiled tile (10) on traditional supporting elements. To this end, special support surfaces (34, 36) situated at a distance, lengthwise, from the bearing surfaces (30, 32) are provided on the underside of the tile (10) in order to support the tile blank on the support element. These support surfaces (34, 36) make it possible, in relation to the plane of the bearing surfaces (30, 32), to support the tile blank at a slanted angle on the support element in the transversal direction of said tile blank so that the height of the bulge (18) in relation to the plane of the surface of the support element is lower than the height of the plane of the bearing surface (30, 32).

Description

Roof tiles

The invention relates to a roof tile with a water course and with a raised bead compared to this, a high-lying water fold is provided on the longitudinal edge adjacent to the water flow and a cover fold is provided on the longitudinal edge adjacent to the bead and support surfaces on the underside in the head area for placing the Roof tiles are arranged on battens.

In cross-section, such a roof tile can have approximately the shape of a lying S, the lower area being referred to as a watercourse and the higher area being referred to as a bead. When such roof tiles are arranged next to each other on a roof in a row, the top fold covers the water fold of the laterally adjacent roof tile. If the water fold and cover fold have contours, they are complementary to one another, for example

Inclusion of a longitudinal rib of the water fold is provided in the cover fold and vice versa.

It goes without saying that the top of the water rebate and the underside of the cover rebate of a roof tile laid on supporting battens, for example on a roof batten, must lie at the same height in order to ensure a seal. The level of these side folds is determined by the height of the contact surfaces.

Such a roof tile is known for example from EP 0 732 461 AI. The tile blanks of the roof tiles referred to in this document as flat tile tiles are transported upright next to each other through the kiln. (See EP 0 732 461 AI, column 2, lines 4 to 6). In this document it is stated as an advantage that previously used cassettes are no longer used when firing these bricks. The tile blanks for such roof tiles can be made of clay, for example in the pressing process by pressing in plaster molds. During the manufacturing process for high-quality roof tiles, the tile blanks must be transported lying on support bodies. Drying frames, for example, and firing cartridges are used as support bodies during the drying process. Firing cartridges of this type usually have the shape of an H in cross section, which is why they are referred to as H cartridges. In each H-cassette there is a single brick blank on the top of the crossbar of this H-cassette. When passing through the kiln, several H-cassettes stand on top of each other, with their side legs on top of each other. Firing in H-cassettes has the advantage that, due to the lying position of the brick blank, it can be burned without deforming at a temperature closer to the sintering or softening point than when standing. Firing at a higher temperature results in a denser firing with a higher frost resistance of the fired brick. As a result of the lying position of the tile blank, it cannot warp during firing, so that the fired roof tile achieves a particularly high dimensional accuracy. In addition, the guidance of the heating gases and the purging of the brick blanks and thus the uniform treatment when burning on cassettes is better than with upright burning in a relatively dense package.

A roof tile factory set up for cassette firing has a large number of H-cassettes, the height of which is matched to the relatively flat tile models previously produced. It is understood that the flatter these are, the more H-cassettes can be stacked on top of one another in the kiln. Furthermore, for logistical reasons, it is desirable to use as few different models of H-cassettes as possible. The invention has for its object to produce a generic roof tile with a strong profile, that is, with a large difference in height between the watercourse and the bead, on conventional support bodies, in particular drying and burning lying on H-cassettes.

According to the invention, this object is achieved in that for supporting the brick blank on a support body during the production process on the underside of the roof tile in the longitudinal direction at a distance from the support surfaces, special support surfaces are provided, which are inclined in the transverse direction of the brick blank to support the brick blank enable the support body so that the bead occupies a smaller height with respect to the plane of the surface of the support body than with respect to the plane of the support surfaces.

In other words, the brick blank is dried and fired in a plane lying obliquely to the level of the laying on the roof. As a result of this oblique arrangement, the height between the top of the spar of a supporting H-cassette and the underside of the spar of the cassette placed above it can be fully utilized to form the profile of the roof tile. This gives the economically high advantage that both conventional flat bricks and bricks according to the invention can be dried on the same drying frame and fired on the same H-cassettes. In a continuous furnace, both flat and strongly profiled roof tiles can be burned on the same kiln car due to the use of identical H-cassettes. A kiln car can be loaded with both brick models.

The oblique position of the plane of the support surfaces with respect to the plane of the support surfaces can be achieved in that projections with different heights are provided on the underside of the roof tile, the end surfaces of which form the support surfaces or the support surfaces. The tabs can have the shape of a cylinder section, a truncated pyramid or a rib, for example.

It is particularly advantageous if a lateral longitudinal rib is arranged on the underside of the roof tile near the water rebate, which is higher in the area of the support surface than in the area of the support surface.

A middle longitudinal rib, which is lower in the area of the support surface than in the area of the support surface, can also be arranged approximately in the longitudinal center on the underside of the roof tile on the side of the watercourse opposite the water rebate. The central longitudinal rib in the direction of the cover fold is preferably arranged laterally next to the longitudinal axis running through the center of gravity of the roof tile.

It goes without saying that either the lateral or the central longitudinal rib can also have a constant height and only the central or the lateral supporting rib has a different height in the region of its support surface than in the region of its support surface.

In the drawing, a preferred embodiment of the invention is shown, which is explained in more detail below.

It shows

Fig. 1 shows a roof tile according to the invention with a lateral and central longitudinal rib in a perspective view of

"the bottom,

Fig. 2 the lateral longitudinal rib of the roof tile from Fig. 1 in longitudinal section II-II,

3 shows the central longitudinal rib of the roof tile from FIG. 1 in longitudinal section III-III, 4 shows the roof tile from FIG. 1 placed on a batten in cross section IV-IV,

Fig. 5 in an H-cassette roof tiles in section V-V and

1 shows a roof tile 10 according to the invention with a lateral longitudinal rib 12 and a central longitudinal rib 14 in a perspective view from the underside. The roof tile 10 is profiled in the shape of a lying S and has a water course 16 which is concavely curved from the top and a bulge 18 which is convex when viewed from the top. On the longitudinal edge adjoining the water course 16 there is a high water fold 20 and on the longitudinal edge adjoining the bead 18

Cover fold 22 is provided. Close to the head-side edge 24, adjacent to the hook-in lugs 26, 28, on the underside, there are support surfaces 30, 32 for placing the roof tile 10 on battens, in particular on a roof batten. The support surface 30 is molded onto the lateral longitudinal rib 12 and the support surface 32 onto the central longitudinal rib 14. To support the brick blank on a support body and the resulting roof tile 10 on a firing cassette during firing, further support surfaces 34 and 36 are provided on the underside of the roof tile 10 in the longitudinal direction at a distance from the support surfaces 30, 32, which are opposite the plane of the support surfaces 30, 32 enable the brick blank to be supported on the support body at an incline in the transverse direction of the brick blank.

The support surface 34 is molded onto the lateral longitudinal rib 12 and the support surface 36 is molded onto the central longitudinal rib 14. In the region of the support surface 34, the lateral longitudinal rib 12 is higher than in the region of the support surface 30, while the central longitudinal rib 14 in the region of the support surface 36 is lower than in the region of the support surface 32. The plane defined by the support surfaces 34, 36 is inclined with respect to the plane defined by the support surfaces 30, 32, the line of intersection of both planes running in the longitudinal direction under the watercourse 16. As a result, the bead 18 takes on the plane of the surface of the

Support body a smaller height than in relation to the plane of the support surfaces 30, 32nd

On the underside of the roof tile 10, two transverse foot ribs are also provided on the foot-side edge, and in the region of the bead 18 several transverse support ribs are formed over the length of the roof tile 10, which ribs protrude beyond the surface of the support body provided for support 18 wear.

2, the lateral longitudinal rib 12 of the roof tile 10 from FIG. 1 is shown in longitudinal section II-II. It can be clearly seen in this figure that the lateral longitudinal rib 12 is higher in the region of the support surface 34 than in the region of the support surface 30.

FIG. 3 shows the central longitudinal rib 14 of the roof tile 10 from FIG. 1 in a longitudinal section III-III. It can be clearly seen that the central longitudinal rib 14 in the area of the support surface 36 is lower than in the area of the support surface 32. Otherwise, the reference numerals in this figure correspond to the parts already described for FIGS. 1 and 2.

The inclined position of the roof tile 10 on a support body in relation to the position on the roof is illustrated by the example of a firing cassette by FIGS. 4 and 5.

FIG. 4 shows the roof tile 10 placed on a support batten 38, here on a roof batten, in cross section IV-IV from FIG. 1. The roof tile 10 lies with the support surface 30 of the lateral longitudinal rib 12 and the support surface 32 of the central longitudinal rib 14 on the Top of the roof batten 38 on. As a result, the roof tile 10 is fixed in a plane in which the top of the water rebate 20 and the underside of the cover rebate 22 occupy the same height distance from the top of the roof batten so that they lie tightly on the top rebate or on the water rebate of adjacent roof tiles.

5 shows in the middle a roof tile 10, in section VV from FIG. 1, which is mounted in a firing cassette designed as an H-cassette 40. The roof tile 10 lies on the upper side of the crossbar 42 of the H-cassette with the support surface 34 of the lateral longitudinal rib 12 and the support surface 36 of the central longitudinal rib 14. The contact surface 32 of the central longitudinal rib 14 is shown in dashed lines. Since the area of the support surface 32 projects beyond the supporting surface of the crossbar 42 in the longitudinal direction of the roof tile 10, the roof tile 10 lies closer to the top of the crossbar 42 in the area of the support surface 36 than if it were supported on the support surface 32. Conversely, the distance between the support surface 34 and

The underside of the roof tile 10 is larger than the support surface 30, as shown in FIG. 4. As a result of the different heights of the support surfaces 34, 36 compared to the heights of the support surfaces 30, 32, the roof tile 10 in the region of the watercourse 16 does not touch the underside of the upper side of the cross member 42 of the H-cassette 40. To illustrate the space-saving arrangement of several roof tiles in one H-cassette are shown in dashed lines in FIG. 5 below and above the roof tile shown in the middle 10 further roof tiles in H-cassettes.

Claims

Patent claims

1. roof tile (10) with a water course (16) and with a raised bead (18) relative to it, a high-lying water fold (20) on the longitudinal edge adjoining the water course (16) and on the bead (18) adjacent longitudinal edge a cover fold (22) is provided and on the underside in the head area support surfaces (30, 32) for placing the roof tile (10) on a battens (38) are arranged, characterized in that for supporting the brick blank on a support body during the production process On the underside of the roof tile (10), in the longitudinal direction at a distance from the support surfaces (30, 32), special support surfaces (34, 36) are provided, which have a support of the brick blank which is inclined in the transverse direction of the tile blank in relation to the plane of the support surfaces (30, 32) enable the support body so that the bead (18) occupies a smaller height than ge relative to the plane of the surface of the support body opposite the level of the contact surfaces (30, 32).

2. Roof tile according to claim 1, characterized in that on the underside of the roof tile (10) near the water fold (20) a lateral longitudinal rib (12) is arranged, which is higher in the region of the support surface (34) than in the region of the support surface (30 ).

3. Roof tile according to claim 1 or 2, characterized in that on the underside of the roof tile (10) on the opposite side of the water course (16) of the water course (16) is arranged a central longitudinal rib (14) which in the region of the support surface ( 36) is lower than in the area of the contact surface (32).