DE4226808C2 - Porous light perforated brick - Google Patents

Description

The invention relates to a porous light vertical hole gel with rows, narrow, parallel or holes running diagonally to the outer surface and straight webs running between the outer and inner surfaces.

Perforated bricks are used because of their high thermal insulation as masonry bricks for the production of the outside walls by Bauwer ken used. For high thermal insulation, the Lochan part and the porosity of the brick shard so increased that the brick density is at most 1.0 kg / dm³, the usual values are between 0.7 and 0.9 kg / dm³. Either for thermal insulation as well as the highest possible pressure fe Different types of holes and Hole arrangements known. A particularly cheap thermal insulation mung can be ver by narrow, parallel to the outer surface running holes, rectangular or oval in cross section aim, the holes being offset from each other are arranged that the from the outside to the inside wall fins have a long length due to their meandering shape have ge and are formed as thin as possible. For The surrounding walls are absorbing the compressive forces generally about twice as thick as the webs of the brick. But this has the disadvantage that the wall work side by side, anyway for reasons of strength thick bump walls form a relatively wide thermal bridge, which any thermal arrangement, no matter how good formation of the perforation system inside the brick is very essential impaired or even destroyed. That warmth To a certain extent, bridges represent the weaknesses in heat technology represent. The optimization of lightly perforated bricks for  Thermal insulation purposes, however, has a significant deterioration led to sound insulation. Become responsible thickness resonances made by a very ge wrestle modulus of elasticity perpendicular to the wall surface (essay: "Reduction of airborne sound insulation from Wän den durch Dickenresonanzen "by Karl Gösele in building physics 12, 1990, No. 6, pp. 187-190). While at straight from the inside no continuous resonance to the outside len, occurs with bricks offset against each other a significant increase in resonance. Ver To improve the sound insulation, a hole arrangement is featured knock the bricks perpendicular to the wall surface stiffened enough. But this suggestion shows no way how this is possible without reducing the thermal insulation.

The invention is concerned with the task of a porosier ten light perforated brick of the generic type Lich the thermal insulation and sound insulation as well as the Druckfe to improve stability.

The solution is that the thickness of the butt surfaces forming walls about half the thickness of the straight line corresponding webs.

Through the training according to the invention, the achieved thermal advantage that the side by side buttocks of neighboring stones together the same Thicknesses like that are perpendicular to the outer and inner surface running webs and thus thermal bridges can be avoided. Likewise, the straight Ste ge in connection with the equally thick adjacent Pair of bumpers to lower the desired stiffness of the bricks achieved right to the wall surface to a high degree of sound insulation mung to form. Eventually the pressure forces become the same moderately on the side walls and on the inside of the brick arranged ridges distributed. The main advantage be is that the for porous light perforated bricks  well-known cheap sound insulation through a bracing of the brick perpendicular to the wall surface not only without legs thermal insulation but rather also with egg received a significant improvement in thermal insulation becomes. Because of the cross-section of the light hole brick even distribution of pressure forces can the outer and / or inner wall with the heat and Sound insulation improving thickness. The foreign and the inner wall should have at least one straight ver running webs have the appropriate thickness. Prefers the thickness of the straight webs is about 10 up to 15 mm. To further improve sound insulation contributes to a thickness of the outer wall and of at least 15 mm. In terms of sound technology, it is favorable if the ratio between the hole length and the hole width is about 4: 1.

Several embodiments of the invention are shown in the drawing shown; it shows

Fig. 1 a light honeycomb brick in a perspektivi rule representation,

Fig. 2, two each other with their lateral abutment surfaces lying lightweight vertically perforated brick in a plan view,

Fig. 3 shows a second embodiment of a light vertical brick in a plan view and

Fig. 4 shows a third embodiment of a light vertical brick in a plan view.

The illustrated in Fig. 1 pored lightweight vertically perforated brick 1 has the standard outer dimensions corresponding to which a corresponding number of holes 6 is associated. The outer surface in the masonry is designated by 2 and the inner surface by 3 . The outer and inner surfaces 2, 3 are preferably planar, but can also be provided with cleaning grooves (not shown). The abutting surfaces 4 are, for example, provided with a toothing 5 with which a mortar-free asymmetrical or symmetrical abutting surface connection is possible. However, the abutting surfaces can also be made flat or provided with mortar pockets.

In the light vertical brick 1 five rows of holes 6 are provided with a brick width of 248 mm, which extend from the outer to the inner surface 2 , 3 . The holes 6 lead from the surface to the bottom surface. They have a narrow, approximately rectangular cross section and are parallel to the outer surface 2 . There are webs 7 between the rows of holes, which run in a straight line between the outer and inner surfaces 2 , 3 . In the embodiment according to FIGS. 1 and 2 ver the webs 11 between the abutting faces 4 running straight linig. As a result, the masonry receives an increased Fe resistance to earthquakes and also in the outer or inner surface 2, 3 parallel plane. Like. The thickness c of the walls 8 forming the abutting surfaces 4 is dimensioned such that it corresponds approximately to half the thickness a of the straight-line webs 7 , the thickness of the webs 7 being approximately 10 to 15 mm, depending on the external dimensions of the brick. The adjoining walls 8 of adjacent bricks 1 thus have a total thickness 2 c which corresponds to the thickness a of the webs 7 (cf. FIG. 2). The webs 11 extending from the abutting surface 4 to the abutting surface 4 are considerably thinner and have a thickness b of only about 6-10 mm. In the exemplary embodiment, the ratio between the hole length and the hole width is approximately 4: 1. The outer and inner walls 9 , 10 of the lightly perforated brick 1 have a thickness d or e which is at least the thickness a of the straight webs 7 , depending on the external dimensions of the brick, it is at least 10 to 15 mm. To increase the sound and heat insulation, the exterior and Innenwandun gen 9, 10, especially the outer wall 9 can also be thicker.

The formation and arrangement of the holes 6 can be different. In the embodiment of FIG. 3, the holes 6 of adjacent rows by half a hole width offset so that the existing between the abutting faces 4 webs 12 have a meandering course. Fig. 4 shows an embodiment in which the holes 13 run obliquely to the outer or inner surface 2 , 3 . In addition, the ribs can be provided with rib holes 14 in designs with a toothing 5 .

Claims (6)

1. Porosified light vertical brick with rows arranged, narrow, parallel or oblique to the outer surface ( 9 ) holes ( 6 ) and straight between the outer and inner surfaces ( 2 , 3 ) webs ( 7 ), characterized in that the thickness (c) the Stoßflä chen (4) forming the walls (8) corresponds approximately to half the thickness (a) of the linearly extending webs (7). 2. Porous light vertical brick according to claim 1, characterized in that the outer and inner walls ( 9 , 10 ) have at least one thickness corresponding to the straight webs ( 7 ). 3. Porous light vertical brick according to claim 1 or 2, characterized in that the thickness of the rectilinear webs ( 7 ) is about 10 to 15 mm. 4. Porosized light vertical brick according to one of Ansprü che 1 to 3, characterized in that the thickness of the outer wall ( 9 ) is at least 15 mm. 5. Porosized light vertical brick according to one of Ansprü che 1 to 4, characterized in that the holes ( 6 ) of adjacent rows of holes are arranged offset to each other. 6. Porous light vertical brick according to one of the claims che 1 to 5, characterized in that the ratio be about 4: 1 between the hole length and the hole width wearing.