DE4239616A1 - High hole light brick - Google Patents

Abstract

The thickness of the webs (6) between the holes is 3.5 mm or less and the ratio fo the largest to the smallest internal widths of the hole cross-section is between 1:1 and 1:2. The distance (1) of the hole rows is 17 mm or less. The hole portion is 60 per cent or more. The holes are hexagonal and in honeycomb formation.The honeycomb pattern arrangement is such that the webs (6) are vertical to the view surface of the brick. In the mfr. of the bricks a fibre-type medium producing porosity is used and pref. involves paper fibres. The outer walls (7) of the bricks on the abutment surfaces have at most three times the thickness of the webs (6).

Description

The invention relates to a perforated light brick according to the Preamble of claim 1. Such bricks become Execution of brick masonry mainly in residential construction used, conventionally masonry or as Facing brick, bricked up with thin-bed mortar.

The well-known bricks of this type have a slot perforation, the slits being rectangular, elliptical in any case have an elongated cross-section and above and below form open continuous vertical channels. The longitudinal axis of the slot cross section extends in the longitudinal direction of the brick and the slots of adjacent rows of slots are in Staggered in the longitudinal direction. This will make the Heat flow through the web system in the transverse direction, d. H. from one face of the brick to the other, extended and good thermal insulation effect achieved. In the best in this regard and in the Federal Republic of Germany Officially approved bricks have a coefficient of thermal conductivity of 0.16 W / m · K or worse.  

The endeavor by an ever-driven one Heat path extension, d. H. Extension of the longitudinal slots and limitation to fewer and fewer cross-supporting bars, finds its limit however in an increased fragility of the Brick. Such bricks can also be used after extrusion Do not dry on the side surface, i.e. H. the visible area, be stored and transported because they are in themselves collapse. Rather, one is forced to be fresh shaped brick on the bump surface, namely the one there arranged to project projecting springs and a To accept deformation of the same. Also proved such long-wall bricks as little pressure-resistant with regard to the structural requirements. The compressive strength is so far an insurmountable barrier on the way to bricks with even better thermal insulation. And finally there is to note that with thermally optimized bricks with Slot perforation is the acoustic phenomenon of longitudinal sound conduction occurs because of its in different directions very different vibration behavior.

The invention has for its object a lightweight brick propose that with sufficient static strength a significantly better thermal insulation behavior than known ones Light brick has, in particular, a coefficient of thermal conductivity λ <0.16 W / m · K and at the same time a good airborne sound Absorbency (sound rigidity) without tendency to Sound line has. This task is Light brick due to the characteristic features of the claim 1 solved.

The basic idea is that in the honeycomb given spatial structure with a new one Extreme use of dimensioning. That is the knowledge based on a reduction in the thickness of the honeycomb Honeycomb bars and an increase in the percentage of holes is possible far beyond the previous guide values and thereby  a structure with many small holes is created, one has a number of unexpectedly advantageous properties.

The procedure is such that first the honeycomb web thickness as an essential parameter for the thermal Set properties to the smallest possible value and then patterns with increasing percentages Percentage of holes towards their static and acoustic suitability are investigating, with a smaller percentage of holes is synonymous with many small honeycombs and one larger Percentage of holes is synonymous with less larger honeycombs.

The honeycomb pattern can with respect to the longitudinal direction of the brick be oriented in any way. Preferably you will However, lay the pattern so that the heat path in Brick cross direction is extended as much as possible and that is the case when webs are perpendicular to the visible surfaces of the Brick run or two opposite corners of the Hexagons facing the visible surfaces. The Heat path extension is then 33%.

In contrast to the bridges, the honeycomb bridges are more well known thermally grown bricks have a longer buckling length and can therefore with the same load capacity be much thinner. Accordingly, the measured one Compressive strength of the brick with honeycomb perforation at the same Brick bulk density at least 25% higher than with bricks with previously common hole patterns.

The honeycomb offers significant advantages with its almost same rigidity in all directions. The brick is therefore "soundproof" and especially prevents the Longitudinal sound conduction, d. H. Sound transmission in the Wall level. On the other hand, there are advantages with the Production. The freshly extruded brick form can also  be placed on the visible surface without collapsing. Of the Dried molding is ideal for surface grinding the Storage areas because it has a high raw breaking strength and on the visible surfaces can be clamped very firmly.

In view of the long buckling length of the honeycomb webs, it is possible to porosity the clay mass extremely, so that a body density of up to below 1.2 kg / dm ³ can result. It is preferable to use a fibrous porosity agent, in particular so-called paper sludge or paper capture material, because this also results in fibrous, cross and transverse pores which, in contrast to cavities, result in a more homogeneous structure due to granular or spherical porosity agents and do not disturb the flow of force. It is proposed to incorporate a proportion of at least about 40% paper sludge, preferably 50%, into the clay mass. This works best when the paper sludge is dry and a dry clay is also processed.

It is proposed to enrich the brick clay with a proportion of about 5 to 25% fat additional clay. This means a high-quality clay with high Al ₂ O ₃ contents. In addition to the structurally favorable honeycomb perforation, a relatively high brick compressive strength is achieved despite the large number of holes.

The butt joint area was in known brick shapes because of the large material accumulations at this point always technically problematic. This is especially true for heat-optimized slotted-hole bricks, as they are quite thick Brick outer layer the structurally weak inner area had to support balancing. In contrast, the Honeycomb structure so stable that the butt side with a relatively thin outer layer can be provided can be at most about three times the thickness of the honeycomb webs,  preferably two or two and a half times the thickness. Regarding the design of the face of the brick it is proposed that its outer layers be made from in Brick transverse direction of successive outer wall sections consist of undamaged honeycombs and essentially Are mirror-symmetrical to each other, so that the mutually corresponding projecting surface areas of two colliding brick towards each other at the joint come to lie and the corresponding depressions form a common cavity. To the at Any remaining thin gap may collide with each other close and the bricks at least to a small extent Interlocking interlocking should be on everyone Butt surface arranged at least one tongue and a groove be with the tongue or groove of the neighboring stone match. A joint area designed in this way differs only minimally from its structure normal honeycomb pattern because the pairs add up Cavities of the depressions also form honeycombs.

The proposed honeycomb perforation allows perforations up to around 70%. On the other hand, it has already been mentioned that in this hole pattern, despite the extremely thin honeycomb webs, the body density can be extremely reduced when using paper sludge and greasy additional clays, in particular up to around 1.0 kg / dm ³ . If discounts are made for both numbers and if a hole percentage of 68% is assumed to have a body density of 1.25 kg / dm ³ , a brick density of 0.4 kg / dm ^{3 would} be achievable. In comparison, the outstanding special position of honeycomb perforation can be measured by the fact that light bricks with less than 0.6 kg / dm ³ have never been manufactured.

The low brick density allows a honeycomb brick same compressive strength approx. 25% clay material and therefore also save significant energy that is not needed to burn the  required sound material would have been required. The The previously unachievable low wall weight enables Use of bricks, for example, for partitions on not supported ceilings where previously only gas concrete blocks were used could become.

Such honeycomb bricks can be used with large Probability an enormously favorable coefficient of thermal conductivity of up to expect to 0.12 W / m K down.

The ideal thing about the honeycomb perforation is also remarkable Mouthpiece barrel. One reason for this is that the web thickness are the same at every point. But also compared to one similar to filigree check patterns, the clay runs essentially better through the mouthpiece because the ridges are not cross. In a crossroads the clay shoots up because in this area the friction is lower. Good mouthpiece run but means careful shaping of the thin-walled Structure and thus the full use of its strength.

During production it has been shown that the thin bars the pressure on the mouthpiece at the same Clay mass increases significantly higher than that of conventional ones Bricks, namely to typically 18 to 23 bar. So high Pressures are with a usual screw press when pressing no longer accessible from light bricks. An easy one Manufacturing, however, is possible with a so-called Disc press such as B. under the label "Europresse" brick press from Rieter Works, Constance.

Finally, there is an advantage of the brick described to add, which comes into play when the bricks come on the bearing surfaces are not ground and conventional be bricked up. The thin webs and the fibrous ones Porosity inclusions have the consequence that the webs when  Cutting be warped. Forms on the cut edges a beard that shows the small openings of the honeycomb holes partially covered, but at least its clear cross-section decreased. This leads to an unprecedentedly low level Mortar incidence, d. H. that the mortar is essentially in the Bearing joint remains and only a tiny part in the holes come in.

An embodiment of the invention is described below the drawing explained. This shows two sections of joined light bricks in plan view in natural size.

The two bricks 1 and 2 lie together with their butt sides. A groove 3 on brick 1 and a tongue 4 on brick 2 are shown. If you extended the figure down to the other side of the brick, you would find a correspondingly shaped groove on brick 2 and a tongue on brick 1 . A side wall of the brick is designated 5 . This also indicates the longitudinal direction of the bricks.

The bricks also have a hexagonal honeycomb pattern, the hexagons being arranged such that two corners lying opposite one another each point to the side walls 5 and part of the honeycomb webs 6 is perpendicular to the side walls. The thickness of the honeycomb webs is just over 2 mm. The percentage of holes in this honeycomb pattern is 66.5%. The honeycombs are slightly blunted on the side walls 5 .

The outer walls 7 of the bricks on the abutting sides follow the outer wall sections of those undamaged honeycombs which form the last, transverse honeycomb row of each brick. The thickness of the outer walls 7 changes between 3 and 4.5 mm and is therefore less than three times the web thickness. If you disregard the area of the only tongue and groove shown, the abutting outer walls 7 are designed symmetrically with respect to the parting plane. They have alternately protruding outer wall surfaces 8 and recessed outer wall surfaces 9 . The protruding outer wall surfaces lie against one another. The mutually corresponding depressions of both bricks each form a hexagonal cavity 10 . The abutting sides of the two bricks only experience irregularities in the area of tongue and groove, which are arranged in the vicinity of the side walls 5 . The groove 3 is widened somewhat more than the other depressions. The corresponding spring 4 contains a cavity 11 in the form of a partially cut hexagon.

When viewed from a certain distance, the cavities 10 and 11 act approximately like the other hexagons, so that the joint area as a whole continues the honeycomb structure unchanged and thus has an almost undiminished heat-insulating effect.

Claims (10)

1. Perforated light brick, characterized by a hexagonal honeycomb perforation with honeycomb webs ( 6 ) with a thickness of at most about 4 mm and a hole proportion in the area of the honeycomb structure of at least about 55%. 2. Light brick according to claim 1, characterized by such an arrangement of the honeycomb pattern that part of the honeycomb webs ( 6 ) to the visible surfaces ( 5 ) of the brick is perpendicular. 3. Light brick according to claim 1, characterized in that with a wall thickness of 30 cm at least 15 rows of holes are provided, as well as a correspondingly higher number Row of holes for larger wall thicknesses. 4. Light brick according to claim 1, characterized in that the body density is at most about 1.5 kg / dm ³ . 5. Light brick according to claim 1, characterized by the Use of a fibrous porosity agent. 6. Light brick according to claim 5, characterized by a Share of at least about 20% paper sludge as Porosity agent. 7. Light brick according to claim 6, characterized by the Use of dried paper mud and dry clay  For processing. 8. Light brick according to claim 1, characterized by a Content of about 5 to 25% fat clay. 9. Light brick according to claim 1, characterized in that its outer layers ( 7 ) on the abutment surfaces have at most three times the thickness of the honeycomb webs ( 6 ). 10. Light brick according to claim 2, characterized in that its outer layers ( 7 ) on the abutting surfaces consist of successive outer wall sections of undamaged honeycombs in the transverse direction of the brick and are essentially mirror-symmetrical to one another, so that the mutually corresponding projecting surface areas ( 8 ) of two colliding bricks ( 1 , 2 ) come to lie on each other at the joint and the corresponding depressions form a common cavity ( 10 ), and that at least one tongue ( 4 ) and a groove ( 3 ) are arranged on each joint surface so that they are in contact with the groove or the spring of the neighboring tile fit together.