DE936292C - Multi-perforated brick to be produced using an extrusion press - Google Patents

Description

Multi-perforated brick to be produced by means of an extrusion press The advantages of the multi-hole brick opposite the solid brick are that through the holes the raw weight of the stone is reduced and the thermal insulation capacity is increased. On the other hand, its production on the extrusion press requires the installation of a set of corresponding cores in the mouthpiece to cut out the cavities in the strand. Even there is a genvisse danger that as a result of the reduction in mass of the polychrome wall In comparison to solid stone, the strength is too low both during the manufacturing process as well as a component. When bricking as vertically perforated brick is also the area available for the mortar layer is reduced by the proportion of holes. The well-known so-called cellular or honeycomb bricks are arranged in rows, small holes with the same cross-section, the straight ones that cross each other Bridges are formed. In general, the perforations are rectangular or square Cross-section, and the webs run essentially parallel to the boundary surfaces of the stone. However, this has the disadvantage that the shortest route from a: S. stone outer surface to the opposite continuous webs form thermal bridges, which improve the thermal insulation capacity to lower the stones.

It is true that multi-hole bricks are also known in which all webs with a constant cross-section in its direction oblique to the outer Surfaces of the stone so that the square enclosed by the webs or approximately square perforations: stand on the point, as it were. With individual the well-known such multi-hole masonry stones, the hole edges are also rounded, ; so that the cross-section of the webs is not the same over their entire length.

It has already been recognized that with a multi-hole stone with square Perforations, the webs of which lie between the holes at an angle of q.5 ° run to the longitudinal axis of the stone, the lengthening of the path hinders the passage of heat. Here this extension is about 4o to 45 0/0. Also, at the square the ratio between the diagonal determining the mortar incidence and the for the decisive Oueri cut surface is unfavorable. -A friend The proposal for a multi-perforated stone speaks of triangular, diamond and square perforations and the like, but only brick shapes are shown in which perforations of different Form are provided at the same time on a stone surface, so that neither the webs have a constant cross-section, still pass through in a straight line. Furthermore, there are hollow blocks known that have a few large, diamond-shaped holes. The bridges these stones run into the long side at an acute angle of about 15 to 20 ° of the stone, and the rhombi formed with a tip shape of about 30 ° lie with their longitudinal diagonal parallel to the longitudinal side of the stone, so that, in terms of brickwork produced, such a stone have relatively low strength. would and 2m soft plastic state already behind the extrusion press due to its own weight or collapse due to vibrations. This instability will further enlarged by the fact that on the side surfaces of the stone incisions of triangular Cross-section are provided. The well-known proposal demands that the one Outer web attaching inclined webs always on the end faces of the stone, however do not end in: the opposite outer web. This is known stone shape therefore difficult to manufacture on the extrusion press. In general, it can only go through Stamping or shaking, especially from concrete, are produced in standing forms, So in which all the webs are perpendicular to the surface of the earth and the stone remains in this position until it is hardened. With the means of concrete technology it is also possible to produce such large-scale perforations as this one known stone shows.

The invention relates to such multi-hole bricks with rows arranged, small perforations with the same cross-section serve through straight lines intersecting webs are formed, and in which all webs with constant Cross-section in their direction oblique to the outer surfaces of the stone. The invention consists in the fact that the webs are identical to the long sides of the brick Form angles of about 55 to 70 ° and the intersecting webs form rhombic air spaces between; include oneself. The rhombic holes run with hers longer diagonal parallel to the narrow sides of the stone, and their acute angle is about 4o to 7o °.

According to the invention, the path of the heat flow is lengthened achieved by about r, ooo / o and thus also improves the coefficient of thermal conductivity.

According to the invention, the thicknesses of those delimiting the perforations are preferably used straight stone webs less than half the smaller diameter, that of: them limited, rhombic in cross-section, perforations. Further it is appropriate that the lengths of each of the four equal boundary surfaces of the Perforations are equal to or larger than the smaller diameter of the rhombuses. A Multi-perforated stone designed in this way results in a high heat flow resistance its large number of relatively smaller, diamond-shaped, offset from one another arranged perforations.

Those standing steeply to the closed longitudinal surfaces of the brick Struts effect an effective bracing of the molding, so that it prevents tilting or other deformations, especially during the cut, during transport and stacking the green bricks and during drying and curing in the oven receives a particularly high strength. Furthermore, they lend themselves like a concertina, Acute-angled cross-bars give the molding an elastic structure and take it the tension that arises during drying. The relative to the area of the Single holes with large evaporation areas in the holes favor a quick, Even and crack-free drying. Within the special angular range the rhombic cross-sectional shape of the perforations or the perforations acts forming cores in the mouthpiece of the brick press is also advantageous in that the clay pressed into the mouthpiece lighter around the acute-angled kernels flows as around right-angled or on the other hand as around cores with nor more acute angles than about q0 °.

The nodes or crossing points of the webs remain with the selected one Angular range is still relatively small, so that none of them have an adverse effect on drying Accumulations of material and tensions arise in the molding. The diamond-shaped, relatively narrow, pointed holes carry the mortar better than round or square with the same hole area. Thus it is possible to make the perforations to be made larger than with the well-known multi-hole brick types, which means with less Perforations and thicker webs a larger proportion of holes is achieved and this lighter Stones yields. The smaller number of holes reduces the frictional resistance in the brick mouthpiece and thereby the energy consumption of the press as well as the acquisition costs of the Mouthpiece itself. Due to the steep position of the angles from q: 0 to 70 ° crossing webs, the compressive strength deviates only insignificantly from vertical ones. It thus results despite the larger proportion of holes and lower volume weight, even when used as elongated perforated bricks, a sufficient one Compressive strength. In the drawing are exemplary embodiments of the multi-hole brick shown according to the invention.

In Fig. I is a preferred example of a multi-hole brick according to the Invention with a rectangular cross-section at right angles to the direction of the strand shown, so in plan view of the perforated surface. All from an exterior wall surface to the adjoining or opposite straight webs i, 2, 3 and q. cross each other at angles 5, which in the example are 5o ° and rhombic-shaped, Enclose slot-like holes 8 while they are with the long sides of the stone Include angles of 65 °. The dotted indicated, in the longitudinal direction of the stone running zigzag line 6 to 7 represents the around ii2io o / o compared to the straight line Distance 9 to 10 represents extended heat flow path.

In Fig. 2 parts of two opposing stones i i and 12 according to Fig. I, one of which is a stone 12 in the abutment surface has an edge recess 13, which rinnenförmi; g parallel to the hole direction and the walls of which run parallel to the web direction. Through such edge cutouts the bricks can be lined up dry as cross perforated bricks in a manner known per se and only the recesses are provided with a mortar spout.

Fig. 3 is similar to Fig.2, but with the difference that the lower one Brick strips 14 and 15, which are in the extension of the edge recess 16 serve as a spacer to the opposing brick and a hollow joint 17 include, .which can be closed by plaster or mortar pins.

In Fig.q. is a similar solution as shown in Figs. 2 and 3, but with the difference that the two shown in Fig. 2 and 3 with cutouts in the margin lower stones are set against each other so that the edge recesses of the stones 18 and i9 together enclose the mortar rib 2o. It goes without saying that in a similar way, two stones with or without strips 14 and 15 according to FIG A.bb. 3 can be set against each other. Fig. 5 shows a so-called grip hole (Thumb hole) 21 in the middle of a tile designed according to Fig. I, as shown in can be used in a known manner for larger-sized perforated bricks.

Claims (3)

PATENT CLAIMS: i. Multi-perforated brick to be produced by means of an extrusion press with rows of small holes with the same cross-section that go through rectilinearly intersecting webs are formed, and .in which all webs with constant Cross-section in their direction oblique to the outer surfaces of the stone, . characterized in that the webs with the long sides of the brick the same angle from about 55 to 70 ° and the intersecting webs form rhombus-shaped air spaces to enclose between them. 2. Multi-hole brick according to claim i, characterized in that that the thicknesses of the straight stone webs delimiting the perforations less than half of the smaller diameter of those bounded by them, in cross-section rhombic holes. 3. Multi-hole brick according to claim i and 2, characterized in that it has on one or two opposite surfaces not visible in the masonry on the one hand edge recesses whose walls run parallel to the web lines, and on the other hand has protruding lugs. q .. multi-hole brick according to claim i to 3, characterized in that the next to the small holes has a larger hole, primarily located in the middle of the stone, or several holes, the walls of which are entirely or partially formed by the ridge lines. Cited publications: German patent specifications No. 535 92,0, 269 877, 299 85.2; Swedish Patent No. 52,894; Swiss patents No. 137 688, 280 765; Danish Patent No. 12 2.46; "The Mason", Friedrich, Bautechn. Textbooks, 3rd edition, p.88; Printed matter by engineer Hjärtsä te r, Nygard, Norway.