DE852752C - Building block - Google Patents

Description

Building block A wide variety of building blocks have already become known, the smaller or larger ones to save building material and for better thermal insulation Have cavities, e.g. B. alluvial lines or bricks with tubular cavities or the like

According to the invention is thereby in reinforced form material and Labor saved that larger units are used in the construction than before.

In order to make the best possible use of the material in such stones, one must on the one hand the compressive strength, which depends on: the material as such and, on the other hand, the Buckling strength, which depends on the shape, must be taken into account. Latter can now be compared to the previously known alluvial stones and hollow stones improve, so that the compressive strength of the material, which today is used in conventional masonry is not fully utilized for reasons of buckling resistance, now fully utilized when the stone is formed as outlined below.

A stone, consisting of a relatively thin plate, can, if he is loaded in the direction of its major axis, only absorb a little load, because this plate would buckle. The walling of such panels is also stacked on top of one another, would cause trouble and it would cause buckling throughout Wall come. If, however, according to the invention, such a plate is provided all around a correspondingly wide, box-shaped edge, so it bears, is only slightly larger Material expenditure for the edge, this shaped stone significantly more. However, it is that Risk of buckling of the relatively thin plate lying inside the box given, especially if the entire stone is chosen to be large in its dimensions will.

If in this box this plate is not flat, but wave-shaped or zigzag, then the resistance to buckling is over increased many times over, and with only a small additional cost of material compared to the even plate, you get a significantly increased load capacity.

A stone that, in order to be able to build it up well, is box-shaped Edge 'and which, in order to have a high load-bearing capacity, has a wave, zigzag or otherwise has a similar central plane, will have the least amount of material, based on its resilience. A wall made of such stones becomes Appropriately clad on both sides with suitable panels. This creates between the outer wall, the inner wall and the load-bearing stone air spaces that have sufficient Effect thermal insulation. By separating the air space into individual rooms accordingly The box size of the stone will also cause a substantial air circulation within the Avoided cavities.

The execution of the box shape as well as the middle plate is still designed so that a production of the stone in casting or press molds is easily possible so that there are no undercuts that make a complicated subdivision the shape or stamp require. The wall thickness of the box-shaped edge and the The middle plane depends on the material. To connect the stones to each other To ensure that the stones have grooves on the outside of their box-shaped edge or grooves, which are then made after setting the stones together with a suitable binding agent to be poured out.

It is also possible to give the edge a wide rectangular or conical shape To give a recess with or without grooves, so that the edge of the stone is almost or comes to bond with the binder in its entire width.

These grooves or recesses run all around so that the stone be connected to the adjacent stones on its bearing surfaces and abutment surfaces can. However, it is also possible to design the stone all around in such a way that it dovetailed with the neighboring stones, so that after pouring with a binder a stable connection is created even under tensile stress.

In the grooves or recesses, for example, to brace the stones in the vertical and horizontal direction round bars, bar bars or wires or tie rods be inserted.

The size of the stones according to the invention depends on the intended use and material from the front. The stones are preferably installed this way. that the direction the main stress lies in the longitudinal direction of the waves.

For makeshift homes, relatively large and thin-walled stones (building boards) Find use, so that the construction of such a building can be done in a few hours can.

In the drawing, the subject of the invention is in various Exemplary embodiments shown, namely Fig.1 shows the module in a diagrammatic manner Dar position, Fig.2 the cross-section of a building block with a slightly undulating central wall (Lowest material expenditure for not too great a load), Fig. 3 the cross-section a building block with a thicker, roughly sinusoidally curved center wall for stronger ones Load, Figure 4 the cross-section of a building block with a zigzacic middle wall, Fig.5 shows the cross-section of a building block with a U-shaped zigzag central wall.

Fig. 6 also with the approach of the central wall on the outer edge of the Edge opposite the approach of the central wall in the middle of the edge (section 5).

Fig. 7 shows the cross-section of the edge of two adjacent stones with a single groove, Figure 8 also with a cross-section that widens towards the rear, so that the pouring material can also be subjected to tensile stress, Fig. 9 likewise in another form, Fig. lo, a toothed edge in the case of tensile stress in the wall The parting line and the pouring material are only subjected to pressure, Fig. 11 another embodiment of a groove with a cross-section that widens towards the rear, Fig. 12 a groove with a steel insert, Fig. 13 a rectangular recess in the edge of the stone, Fig. 14 the same recess with a groove, Fig. 15 a conical recess with a groove, which can also be made without a groove, Fig. 16 a corner stone formation in cross section, Fig. 17 a corner connection with bracing, Fig. 18 and ig one corner stone bent at right angles.

The building block according to Fig.l consists of a wave-shaped plate i. which is provided on its four sides with a border 2 °, 2b, 2c and 2d in the shape of a box. In this exemplary embodiment, the edge is provided with two circumferential grooves 4 on the outside. The number of grooves can be any. It is also possible to provide only one groove.

The stiffening plate 1 in the box frame can also be slightly corrugated, as A1> 1.2 shows. In this solution, the cost of materials is low, it can be used for lower loads. The stiffening plate can also, like the example. \ 1111. 3 shows to be more corrugated. This shape is suitable for heavier loads. the Curvatures i ° can also be achieved by straight lines : \ lisclinitte i ", as shown in Fig.4 is visible, the plate can also be seen from the management examples 5 and 6 can be seen, U-shaped be. lti der _ \ 111i. 3 the panel runs into the edge middle eiii. in. \ 1111. (i on the other hand off-center. The zur .lufnahnic of the binder serving grooves can in (len the most varied of cross-sectional forms carrion; ciii. So -shows r \ bb. j z. B. grooves 4 with a simple one, essentially semicircular Onersclliiitt. I) ie. \ 11b. `shows grooves @ ° with a circular shaped cross-section, which can be seen at the transition to the Narrowed edge surface. This is also the case with the ratitenförniigeii grooves 4 "in Fig , ii and the zy-liti- thical grooves @c in Fig. 9. The circular, deeper grooves close slots 4c. The essential rectangular grooves 4f are made the .1111i. 13 tiiid r4 can be seen. The grooves 4 1 take up almost the entire width of the margin. In Fig. I4 the rectangular groove is circular Groove 4c connected. The two grooves are even if connected by slot 41f. In the off leadership excerpt: 11i11. 15 is a recess 4z in front seen that runs diagonally to the edge. By a gap 411 is the annular groove 4e with the Well 44 connected. The cross sections of the Grooves and depressions can be so large that into these spanning links in the form of round iron, Ila »<icise» or wires for upright and Longitudinal bracing of the walls can be inserted can, like: \ 111i. 1'2 shows. The building block can one also at the edge with a toothing provided according to Fig. io. The stones then take hold with teeth 6-6 into one another. The toothing will attach nian especially to the edges. After pouring with a binding agent, this will result create an @ '> indung - (- that also pulls can take. For the formation of wall corners, neither stones with a sloping edge 2e after Dep. I6 used. or there will be corner stones Fig. 18 manufactured. The tie rods can be speaking the _ \ 111i. i; and i9 are relocated-. At the edge edges can, as for example Fig. ii shows. Wells 7 for dowels, wooden pegs or the like. for 1), strengthening the outer and inner wall cladding be provided. The stones after the Inventive can also be curved or dg1. her- be asked. The stone (- kiinnen made in the (3iel3 process be, they k111 »1 (» but also pressed or how Zie <-el shaped uiid @el> ra »» t tverden.

Claims (1)

PATENT CLAIMS: r. Building block, characterized in that he from a box-shaped edge and a relatively thin, preferably in the Center plane of the border arranged with , the four edge sides connected stiffening plate consists. z. Building block according to claim i, characterized indicates that the stiffening plate is corrugated is shapely. 3. Building block according to claim 2, characterized indicates that the waveform is straight Intermediate pieces between the deflection has bow. 4. Building block according to claims 2 and 3, there- characterized in that the waveform in almost rectangular bulges merges. 5. Building block according to claims i to 4, there- characterized in that the box-shaped Edge finite one or more all around- running grooves is provided. 6. Building block according to claim 5, characterized indicates that the cross-section of the groove is expanded inwardly. ;. Building block according to claims i to 6, there- characterized in that the box-shaped Edge especially in place of the grooves is toothed. S. module according to claims i to 7, there- characterized in that the edge of the stone with a rectangular or sloping one Recess that extends almost over the whole Width extends, is provided and that in addition attached to the groove or without it can be. G. Module according to claims i to 8, there- characterized in that as horizontal and vertical bracing of the stones in the grooves or "\ ussliarungeti between the stones Round iron. Straps or wires inserted are. ok Building block according to claims r up to 9 in : \ tisformation as a corner stone, thereby marked- advised that he was one-sided or two-sided with one inclined lateral parting line see is. i i. Building block according to claim io, characterized It shows that it is at right angles. Module according to claims i to 111 characterized in that its marginal edges with recesses for receiving dowels, Ilolzzapfen otl. c1-1. are provided. The building materials are purpose and the size of the stones chosen.