DE4328113A1 - Masonry made of porous perforated bricks, as well as bricks and mortar therefor - Google Patents

Description

The invention relates to masonry made of porous Perforated bricks, according to the preamble of claim 1 bricks suitable for this purpose according to the preamble of claim 12 and a suitable mortar according to the generic term of Claim 14.

The German industry standard DIN 1053 discloses the basics for the calculation and execution of masonry. The building materials, namely bricks and mortar are defined, whereby for the Mortar is classified into normal mortar, light mortar and Thin-bed mortar is carried out.

Masonry covered with bedding mortar belonging to the classes of Normal or light mortar can be assigned to be carried out, have a 12 mm thickness filled with mortar in accordance with DIN 1053 Bed joint on.

The execution of masonry with light or normal mortar tel and the associated joint of 12 mm requires the Use stones with a height of 238 mm so that on metric dimensions common to construction, d. H. four layers of stones and mortar tel correspond to one meter of masonry height can. The bearing joint thickness of 12 mm when executing wall work with light or normal bed mortar results from the The fact that the manufacture of stones is usually a relatively high dimensional tolerance of up to ± 5 mm in stone height brings itself. This dimensional tolerance must be when running the wall  be compensated for by the thickness of the bed joint. After part of such a thick bed joint is the fundamentally higher one Mortar requirement, the higher hourly rate for mortar application, since this must be done by hand with the trowel, which is inevitable poorer insulation of such a thick joint in the rear look at the generally poorer thermal insulation of the mortar compared to stone, the fundamentally higher primary energy requirement for the preparation of the larger amount of mortar, and the achievable, relatively low wall compressive stresses of less than 0.9 MN / m².

Masonry with thin-bed mortar is also known be built, which also found entry in DIN 1053 to have. In order to be able to carry out masonry with thin-bed mortar, which is characterized in that the bed joint height only is still about 1 mm, stones must be as precise as possible 249 mm height with a tolerance of ± 0.1 mm can be used.

The production of such tarpaulins is very energy-intensive dig. Much higher raw brick with a gross height of 255 mm to 260 mm must first be pressed, dried, fired and then to the target height of 249 mm ± 0.1 mm tolerance be sanded. The grinding process itself is special pay attention to the plane parallelism of the levels.

Advantage of a wall using the thin-bed mortar method is the applicability of the dipping process or alternatively the Mortar sledge, and thus an hourly saving experience has shown that they share up to 40%.

There are a number of aftermath to this economic advantage share opposite. First of all, these are the high investments in Plant construction, by an average of at least two grinding plants to be used so that the normal throughput rate of a Brickworks do not decrease significantly when facing brick  should be put. In addition, new premises and are natural Building permits are required, which are very time-consuming. Another disadvantage is the fact that the thermal insulation walls of thin-bed mortar leaves. This is mainly due to the poor warmth Conductivity of the thin-bed mortar of approx. λ = 0.87 W / mK.

The relatively high fuel mass and the high primary energy requirements for the ground face brick. Another disadvantage is the very narrow dimensional tolerance with ± 0.1 mm, which places extremely high demands on the quality si security in the manufacture of face bricks. The turned set grinding systems as well as the grinding used in them heads are subject to heavy wear, they are abrasive Dispose of residues as they are no longer in the manufac development process can be integrated.

In practical use, masonry, which in Thin-bed mortar are bricked up, yet other disadvantages. The so-called burning or evaporation should be mentioned here the mortar, which is a process in which the Brick removes water from the mortar layer and therefore not enough liquid for the hydration of the binder Is available so that the mortar does not develop strength normal curing is no longer guaranteed. Next to it is pushing, rubbing or tapping the goat gel practically impossible when using thin-bed mortar Lich. In addition, walling with thin-bed mortar is due to the ex Extremely thin layer thickness is problematic because the thin mortar cut through the hole pattern of the bricks and pressed into the perforation of the brick, resulting in a can cause considerable deterioration in the strength of the wall.

As far as sound insulation is concerned, practice has shown the walls, which were made with thin bed mortar,  far behind the sound insulation values of walls with normal joints or Remain light grout. This could be the reason in the acoustically inadequate conclusion of the horizontal Have surfaces of the perforated brick due to the too thin bed joint. In contrast to, for example, a 12 mm thick bed joint, which a sufficient completion of the stones like a Clamping guaranteed above and below, and thus a ge closed sound bodies with natural frequencies above the still generated as a disturbing 1 kHz limit, this is flat final completion of the stone with thin-bed mortar is not guaranteed animals.

The object of the invention is to create masonry what satisfactory thermal insulation with satisfactory sound insulation connects and can be built up economically.

This object is ge by the features of claim 1 solves.

The stone height chosen according to the invention from 242 mm to 248 mm in large format results due to the use to be made in construction metric dimension to a bed joint thickness of 2 mm to 8 mm, in So mean of 5 mm. This bearing joint thickness enables the Ver application of heat-insulating lightweight mortar with porous additives Impact materials, the grain size of a use with thin bed mortar means that are similar to glue, excludes. Here is an additional by the choice of grain size according to the invention Liche, the pressure resistance increasing support of the stones over the bed joint achieved. Compared to conventional masonry with 12 mm Bearing joint thickness results in improved thermal insulation masonry according to the invention in that the poorer heat insulating mortar proportion compared to the better thermal insulating Stone content is lower.  

At the same time, compared to masonry in a thin bed mortar design an improved sound insulation, characterized in that the individual stones through the closed, hardened mortar sound layer on their upper and lower sides are closed, and according to an attempt at interpretation something like form a cassette wall, in the box elements the sound waves are reflected and attenuated. This will especially impedes the longitudinal propagation of the sound. In terms of sound technology, all the advantages of the normal wall remain factory with 12 mm bed thickness.

With a view to the economy of the masonry similar economic advantages as in the case of egg Masonry with thin-bed mortar, because if necessary also in Dip process or with mortar sledge can be worked and the need for labor intensive application of the Mortar with a trowel can be avoided. The required Flexural rigidity in the fresh state of the mortar, which is the fresh mortar can also cover larger web spacings, is by ensures the fiber addition. In any case, the several mil Limer layer height of the mortar allows in the opposite to a thin bed mortar layer a comfortable rub and Tapping each stone into its desired end position. Against There is also one over masonry with thin-bed mortar increased shear strength of the masonry due to the clean force Transferring mortar connection of the stones over the bed joint away.

The required dimensional accuracy of the height of the Perforated brick can be mastered without post-processing. In practice this means that for the production in the we existing systems are used can and investments for new purchases are omitted.  

Choosing a suitable bandwidth for the measure of the greatest The grain of a sieve line advantageously guarantees spacing of the layered stone layers according to the La frame thickness of approx. 3 mm to 6 mm due to mutual me chanic support of the superimposed grains in the mortar tel in the bed joint in a masonry.

The addition of a fibrous additive increases the inner Cohesion and the rigidity in the fresh state of the mortar tels, which ensures that the mortar in combination on the one hand with a suitable brick surface applied by dipping or with a mortar sled can be and on the other hand not in the gripping aids, mortar bags or hole patterns falls, resulting in an undesirable mortar loss and deterioration of the thermal insulation properties would lead to the wall.

Masonry reproduced in claims 1 to 11 NEN type has several advantages. For one thing, in follow the use of perforated bricks with an advantageous height of 245 mm, the complex surface grinding of the bricks, which is essential when using thin-bed mortar and with it the disposal problems of grinding dust and spent grinding heads, second is primary energy is hardly needed in the production of perforated bricks of the manufacture of ordinary bricks for ver Use in masonry with bedding mortar and essential ge ringer than that in the production of bricks for use application of thin-bed mortar.

The combination of perforated bricks and specially developed mortar ensures very good sound insulation both in Direction through the wall as a sound separating element between two rooms, as well as horizontally and vertically  in the wall to suppress unwanted bodies sound transmission through the entire building.

The production and use of a brick according to the An Proverbs 12 and 13 also have several advantages. The bean spoken brick is characterized by its low burning mass in the manufacture of. By adding porous Zu the brick has good thermal insulation properties in front. This is accompanied by a reduction in the bulk density that through appropriate selection of additives not at the expense of the also improved strength values of the Brick goes. The low bulk density also ensures safety makes sure that the bricks are easily processed on site that can be done without the worker being exposed to health risks brick weights must be too high. The very good warmth The insulating properties of the brick in combination with the good thermal insulation properties of the mortar for the executed Undermined an excellent low thermal conductivity 0.14 W / mK.

The use of a mortar according to claims 14 and 15 has the advantage that compared to normal or Leichtfugenmör tel there is a much lower mortar requirement, whereby the primary energy requirement and the primary amount of raw material can also be significantly reduced. The achievable adhesive shear strength, i.e. the intimate bond between stone and mortar, is above the required limit of β _HS = 1.50 N / mm², which also applies to the compressive strength of the mortar that can be achieved, which is above 9 N / mm². The bulk density of the "middle bed mortar" according to the invention is advantageously less than 0.85 kg / dm³, which corresponds to a value which cannot be achieved with thin bed mortar or normal bedding mortar. In addition, it follows a normal hardening in the hydration of the binder and thus a good strength development, since burning or evaporation advantageously does not occur as with thin-bed mortar.

Claims (15)

1. Masonry made of porous perforated bricks and mortar arranged in the bed joints between the stones, the stones being arranged in the masonry in a vertical grid dimension, which is 125 mm or a multiple thereof, characterized in that

• - that the height of the stones is in the range from 242 to 248 mm for large formats or from 116 to 124 mm for small formats,
• - That the grain size of the largest grain of the screen line is in the range of 1.5 to 3 mm, and
• - That the mortar to improve the flexural strength contains a fibrous additive in the fresh state.

2. Masonry according to claim 1, characterized in that the height of the stones for large formats in the area from 244 to 246 mm, in particular 245 mm carries, and for small formats in the range from 118 to 122 mm, in particular 120 mm. 3. Masonry according to claim 1 or 2, characterized shows that the horizontal stone surface to Applying a mortar using the diving agent driving or using the mortar sled leaves.   4. Masonry according to one of claims 1 to 3, characterized characterized in that the bulk density of the perforated brick is between 0.6 kg / dm³ and 1.0 kg / dm³, in particular which is between 0.71 kg / dm³ and 0.90 kg / dm³. 5. Masonry according to one of claims 1 to 4, characterized in that the perforated brick has a heat conductivity less than or equal to λ _R = 0.16 W / mK. 6. Masonry according to one of claims 1 to 5, characterized characterized that the mortar is a dry mortar the light mortar group LM 36 according to DIN 1053. 7. Masonry according to one of claims 1 to 6, characterized characterized in that the grain size of the largest grain of the Sieve line is in the range of 2.5 to 3 mm, esp is a special 2.5 mm. 8. Masonry according to one of claims 1 to 7, characterized characterized in that the mortar has a thermal conductivity less than λ = 0.25 W / mK. 9. Masonry according to one of claims 1 to 8, characterized characterized in that the mortar has a compressive strength of at least 7 N / mm², in particular at least 9 N / mm². 10. Masonry according to one of claims 1 to 9, characterized characterized in that the bulk density of the mortar is smaller is equal to 0.85 kg / dm³. 11. Masonry according to one of claims 1 to 10, characterized in that the adhesive shear strength of the mortar is above β _HS = 1.3 N / mm² and in particular above β _HS = 1.50 N / mm². 12. Brick for making masonry after little at least one of claims 1 to 11, with continuous parallel holes and the hole defining Ste gene, characterized in that the height of the stones in the range from 242 to 248 mm for large formats or from 116 to 124 mm for small formats. 13. Brick according to claim 12, characterized by little at least one of the characteristic features of the claims che 2 to 5. 14. Mortar for making masonry after a little at least one of claims 1 to 11, with sand, bandage medium and water, as well as aggregate and additive tel, characterized in that the grain size of the Largest grain of the sieve line in the range from 1.5 to 3 mm lies, and that the mortar to improve the bending stiffness when fresh a fibrous additive contains tel. 15. Mortar according to claim 14, characterized by little at least one of the characteristic features of the claims che 6 to 11.