DE2939352A1 - Heavy concrete masonry building block - has no fine grain aggregate content, for weight reduction (OE 15.1.80) - Google Patents

Abstract

Reduced weight and improved heat insulation are attained by the building block, used in load bearing masonry, which is cement-bonded and has aggregates with closed-grained texture. The aggregates have fine material largely, or pref. completely, removed. They pref. consist of rough-surfaced materials, if possible of substantially equal granular size. There may be hollow spaces in the block, pref. partially or wholly filled with insulating material. Such blocks can be made in larger sizes, such as one-fifth storey height and 1m long.

Description

Cement-bonded building block

The invention relates to a cement-filled building block for load-bearing Plauerwerk made of aggregates with a dense structure.

Such building blocks made of heavy concrete have aggregates in different Grain sizes for hollow blocks between 0 and about 10 mm, for solid blocks between 0 and about 16 mm. The finest and fines up to 3 mm grain size is between 20 and 40, the density of the heavy concrete is between 1.8 and 2.7 XOgrlm3 and the coefficient of thermal conductivity A is between 0.8 and 1.4 U / mK; the thermal insulation is therefore bad and additional insulation measures are necessary. Because the weight of heavy concrete blocks is relatively large, the blocks are in relative small dimensions (solid blocks 25 x 30 x 11.5 cm, hollow blocks 25 x 37 x 22 cm). This requires relatively long working hours for digestion.

The invention has set itself the task of building blocks made of heavy concrete using aggregates with a dense structure to produce a lower weight and have better thermal insulation.

According to the invention, this is achieved by additives that, as at are known, largely, preferably completely defined. Clay brick chippings as at least largely refined aggregate is according to CH-PS 269 113 for Manufacture of floor slabs used with a hydraulic binder bound and provided with a waterproof cover. Under fine aggregates it is understood that the fine and fine fraction below 3 mm grain size is missing. It turned out to be surprising shown that according to the invention produced building blocks with uniform compression in the form through full-surface Vibration the required minimum compressive strength despite the lack of fines and thus fully meet the requirements placed on them. The weight the building blocks according to the invention is reduced by the elimination of the finest and Fines by approx. 30 - 50% compared to known building blocks. the removed aggregates with a specific weight of 2.5 to 2.8 g / cm3, however, cause a pus Porosity of the concrete, the density of which is only between 1.2 and 1.6 lg / dm3 is because air is enclosed instead of the fine fraction with a grain size of less than 3 mm. Of course, the inclusion of air increases the thermal insulation of the invention Component with simultaneously improved heat storage and its coefficient of thermal conductivity "is between 0.46 and 0.56 W / mK. The building blocks according to the invention are approaching each other thus with regard to both their thermal insulation properties and their reduced Weight building blocks made of lightweight concrete, however, have neither the serious disadvantage of lightweight concrete, namely the insufficient DrackEestigReit, still the most serious disadvantages of heavy concrete1 namely insufficient thermal insulation and insufficient ASarm.espeicherbarkeit, on the wrerringartn face of the building blocks according to the invention enables n to generate these in larger dimensions as well. For example, let Build blocks whose height is at least one fifth of the height of the storey and have a length of 1 m.

Known manufacturing facilities can be used for production Use vibrating molds.

The processing of blocks according to the invention in the mentioned Height also has the advantage that the known disadvantageous flow stresses, the to Compressive strength reduction in the stability of masonry lead, are greatly diminished. In comparison to the known building blocks in the introduction mentioned format with the same stone strength - with the same mortar pressure strength - A load capacity that is up to 4.5 times higher is achieved and the stability, in earthquake-prone CeSieten, increased.

The green status, especially in the case of particularly high building blocks, can be further improved by using angular, preferably rough-surfaced aggregates be used.

In order to further reduce the weight of the building blocks and by a relative to provide a high proportion of voids without both the green stability and the To reduce the later wall strength too much, it is also provided that the Cavities have a circular or elliptical cross-section in a manner known per se have, and the cavities, depending on the width of the building blocks, in one or more parallel rows, optionally offset from one another, are arranged. At least As is known, some of the cavities can be filled with insulating material. That low density of the blocks according to the invention allows the wall foundations to be dimensioned smaller and the enlarged formats allow rapid construction progress.

Building blocks according to the invention can have the following composition.

Example 1: a) aggregates with a specific weight of 2.7 g / cm3, Bulk density 1.25 kg / dm3 with grain size 3 mm 25% by weight 5 mm 40% by weight 7 mm 35 total% b) Cement 175 kg / m3 This mixture can be used in vibrating molds For example, building blocks 1 in length, 30 cm in width and 50 cm in cave, being arranged two rows of cylindrical cavities with a maximum of 8 cm in diameter are. The building blocks have a volume weight of 1100 kg / m3 and a compressive strength of 75 kg / cm2 and a coefficient of thermal conductivity # = 0.35 W / mK. With a suitable separator part stones of any length can be made from it. For 1 m of masonry A masonry time of 0.3 hours is required, which is a comparison to masonry time savings of approx.

75% results.

Claims (4)

Claims: 1. Cement-bonded building block for load-bearing masonry made of aggregates with a dense structure, characterized by aggregates that, as known per se, are largely, preferably completely, removed. 2. Building block according to claim 1, characterized by angular, preferably rough aggregates. 3. Building block according to claim 1 or 2, characterized by aggregates of essentially the same grain size. 4. Building block according to one of claims 1 to 3, characterized by known cavities with cross-section, which are preferably at least partially are filled with insulating material.