DE3727319C2 - - Google Patents

Description

The invention relates to a roof and wall plate made of concrete, in which the proportion of sand in the dry mix is lower than the percentage of cement.

Known concrete roof tiles have a relatively high proportion Sand and therefore turn out to be heavy and thick. Despite her high Such plates are very fragile and crack-sensitive.

Now it is already known (Probst "Handbook of the Concrete Stone Industry", 1962, p. 238), to manufacture concrete roof tiles, in which the share of sand is less than that of cement. However, there is  the proportion of sand so low that such concrete roof panels can no longer be produced economically. Furthermore is the sensitivity to breakage of such plates by this Mixing ratio not eliminated.

The invention is accordingly based on the object Concrete to create existing roof and wall panels that are can be made relatively thin-walled with increased strength, the material mixture for this plate are designed in this way is that the finished plate with a surface structure ver can be seen.

This object is achieved in that the portion about 45% of sand and about 53% of cement and that reinforcing fibers are used, namely 0.2 to 0.8% artificial organic or inorganic fibers and 1 to 3% natural organic fibers and that the mixture is relatively much Water is added to form a flowable mixture, where the surface of the plate with structures, in particular Slate structures, is predictable.

Using such a mixture can be in over surprisingly produce relatively thin roof and wall panels, based on a normal roof tile size, for example have a relatively small wall thickness of about 10 mm  can. Accordingly, they have with the mixture according to the invention manufactured roof and wall panels a relatively low weight, so that they are relatively easy to handle.

The mixture according to the invention therefore contains relatively little reinforcement fibers, whereby it has surprisingly been shown that such a low fiber content is sufficient to the roof and wall panels to give necessary strength. High susceptibility to breakage and cracking like the well-known concrete roof tiles, hardly occur. The plates made with this mixture remain despite the low fiber content without cracks.

The addition of relatively much water results in the high cement portion of a flowing mixture that can be pressed. On this way structures can be built into the surface of the panels, especially slate structures.

Although it is basically known (DE-PS 36 01 733), organic and / or use inorganic reinforcing fibers, however, result not the above mixture from this prior art relationships where artificial organic or inorganic Fibers can be used together with natural fibers.

It is particularly advantageous if the proportion in the dry mixture of artificial organic or inorganic fibers 0.4% and The proportion of natural organic fibers is 1.1%.  

In a process for producing such fiber-reinforced Roof and wall panels become the fiber concrete mass of the respective Roof and wall panels each in one of several on one Ringbahn arranged forms introduced, the cyclical circulate, at least one press is provided, the Press stamps each one of the molds in a work station spreads. Should with a device for performing the Process manufactured roof panels provided with hooks can be the tool of the press ram with two cavities be provided, the formation of the noses for hanging serve from roof tiles to the roof battens. Shall the plates can get a textured surface, the bottom of the each shape with a structure that the Negative form corresponds to a slate structure.

In this way it is achieved that - if desired and / or required - each individual plate with an individual Surface structure can be provided. It takes this only appropriate shapes introduced into the ring course to become, the floors of different shapes different Have structures. For the same reason, there is always one Change of the structures to be imprinted on the plates without any problems possible. With appropriate training of the device needs not even interrupting the workflow.  

A demolding expediently follows the workstation station in which the pressed roof and wall panels are formed and be promoted.  

Fig. 1 shows a perspective view of the top and bottom of a roof panel producible with the inventive method and the inventive device.

Fig. 2 shows a schematic representation of the workflow of the device according to the Invention.

Fig. 3 is a section of a section of an embodiment for the press used.

Referring to FIG. 1, the surface 2 is provided an inventively provided forth roof panel 1 with a slate-like structure 3, which is applied to the surface 2 during the pressing process.

Two fastening holes 4 are used for the additional fastening of the roof panel 1 to the roof battens in the roof edge area, since there the roof panels are particularly exposed to wind forces.

On the plate underside 5 are arranged above the plate level before jumping lugs 6 , which serve to hang the roof plates 1 to the roof battens.

Fig. 2 shows a schematic representation of the workflow in the manufacture of roof and wall panels by means of the arrangement according to the invention. There are several arranged on conveyors 8 and thus on a ring track around running molds 7 , into which the fiber concrete mass is introduced in a charging station 9 , whereupon they are fed in the direction of arrows 10 and 11 to a work station 12 , in which at least one Press is provided. In the illustrated embodiment, four presses 13 are arranged side by side in order to accelerate the workflow accordingly.

The pressed roof and wall panels are supplied to a demolding station 14 , shaped there and conveyed in the direction of arrows 15 and 16 , intermediate stacks 17 being able to be formed.

The emptied molds 7 are fed in the direction of arrow 18 to a cleaning station 19 and in the direction of arrow 20 to a station 21 , in which they are oiled in order to facilitate the removal of the pressed fiber-reinforced concrete slabs. Then the molds 7 get back into the loading station 9 .

Fig. 3 shows a section of one of the presses 13 , wherein a tool 23 connected to a press ram 22 is provided, which has drainage channels 24 and is movable within half of a sealing frame 25 in the direction of the double arrow 26 . The respective form 7 is conveyed by means of the conveyor 8 into the press station 12 , in which it is overlapped by the press ram 22 or by its tool 23 . During the pressing process, the conveyor 8 is supported by a workpiece support 31 (press lower bear).

The bottom 27 of the mold 7 is provided with a structure 28 which corresponds to the negative form of a slate structure, so that the structure according to FIG. 1 is produced by the pressing.

The tool 23 of the ram 22 is provided with two cavities 29 , which are used to form the lugs 6 (see FIG. 2) for hanging the roof panels on the roof battens. With the tool 23 , the same lugs 6 and the same surface are always produced on the underside of the plate, while the upper side of the plates, which is at the bottom in FIG. 3, can be provided with different structures 28 .

The fiber concrete mass introduced into the mold 7 in the loading station 9 is designated by 30 in FIG. 3.

Claims (7)

1. Roof and wall plate made of concrete, in which in the dry mix the proportion of sand is lower than the proportion of cement, characterized in that the proportion of sand is about 45% and the proportion of cement is about 53% and that reinforcing fibers are used, namely 0.2 to 0.8% artificial organic or inorganic fibers and 1 to 3% natural organic fibers and that a relatively large amount of water is added to the mixture, so that a flowable mixture is formed, the surface of the plate having structures, especially slate structures, is visible. 2. Roof and wall panel according to claim 1, characterized records that in the dry mix the proportion of artificial organic or inorganic fibers 0.4% and the proportion of natural organic fibers Is 1.1%.   3. A method for the production of roof and wall panels according to claim 1, characterized in that the fiber concrete mass ( 30 ) of the respective roof and wall panel ( 1 ) is introduced into one of several arranged on a ring track molds ( 7 ) circulate in cycles, at least one press ( 13 ) being provided, the press ram ( 22 ) of which overlaps one of the molds ( 7 ) in a work station ( 12 ). 4. A device for performing the method according to claim 3, characterized in that the tool ( 23 ) of the press ram ( 22 ) is provided with two cavities ( 29 ), which the formation of lugs ( 6 ) for hanging roof panels ( 1 ) serve on the roof battens. 5. Apparatus for performing the method according to claim 3 or 4, characterized in that the bottom ( 27 ) of the respective shape ( 7 ) is provided with a structure ( 28 ) which corresponds to the negative shape of a slate structure. 6. The device according to claim 5, characterized in that the bottoms ( 27 ) of different shapes ( 7 ) have different structures ( 28 ). 7. Apparatus for carrying out the method according to one of claims 3 to 6, characterized in that a demolding station ( 14 ) connects to the work station ( 12 ), in which the pressed roof and wall panels ( 1 ) are formed and removed.