DE19851765A1 - Building material, useful for traffic surface layers, dam and-or embankment cores or building foundations, consists of ground recycled brick mixed with lime - Google Patents

Abstract

A building material, consists of ground recycled brick mixed with lime. A building material consists of ground recycled brick of 56 mm maximum particle size, mixed with 1-10% lime. Independent claims are also included for the following: (i) a construction comprising one or more constructional layers (3) of the above building material, separated by non-degradable plastic layers (2); and (ii) production of the above building material.

Description

The invention relates to building materials from brick recycling, buildings made from this Building material can be produced as well as on a manufacturing process of this building material.

Brick recycling is an industrial by-product in construction. It arises in particular through the reprocessing of substances that are involved in the demolition of Brick structures can be preserved. Due to the need to cancel one A large number of brick structures will be large quantities in the next few years expected of this material.

However, brick recycling corresponds to its frost resistance, its sieve line composition and its proportion of organic be components such as lumber remnants usually do not meet the requirements of the German Building Regulations. The same applies to the Druckfestig strength and durability of the individual grains of brick recycling. A certain kind Part of organic components in brick recycling can hardly be avoided. On Brick recycling is therefore used in traffic engineering, hydraulic engineering as well for foundations and construction pit fillings in engineering, civil engineering and building construction mostly not permitted, although the building material is just for this area of application would generally be well suited.

Few cases are known in which brick recycling corresponds to appropriate compression (static / dynamic) on non-public or under organized traffic areas, when backfilling construction pits or behind buildings filling like a mineral mixture was installed. These cases stand out the professional world, however, with considerable prejudices against.  

As a result, brick recycling cannot be sold, or can only be sold poorly that large piles of brick recycling materials on the site of the Recy Cling facilities were created. More brick demolition masses are from these Attachments in many cases no longer accepted, so these are in landfills have to be tilted. However, landfilling only makes sense for substances that cannot be used. In addition, valuable mineral resources such as Rocks, gravel and sands used, although brick recycling - at Ver application in a suitable manner - whose tasks could be performed.

It is therefore an object of the present invention to determine the suitability of brick recycling to increase as a building material in which the disadvantages of the Stan of technology can be overcome. The task is to get one from Zie gel recycling to find existing building material, the properties of which comply with the building regulations.

According to the invention, this is solved by a building material made from ground Brick recycling exists, whereby the ground product has a maximum grain size of 56 mm and this is mixed with 1 to 10% lime.

This building material has improved frost resistance due to the Zu addition of lime, which is the chemical bond of the fine clay components in Connection with structural transformation and mortar formation, so that the Ka reduced pillarity, increased water resistance and frost changes be reduced.

Furthermore, the building material obtained has an increased load-bearing capacity, due to Add the lime in connection with the compression energy introduced (static, dynamic) is achieved and binds washable components through mortar and chemical bonding. Flushable components are therefore hardly contained in the building material according to the invention.  

Due to the blockage of the pores of the brick grains by adding lime and embedding in the mortar made of brick powder and lime, which the brick grains surrounding mechanical influences as well as water frost Impacts prevented. This requires sufficient compaction of the brick cycling-lime mixture necessary.

The migration of unbound components of the Erfin building material dung caused by mechanical and other influences or insufficient Mixing of the brick recycling-lime mixture arise, are invented appropriately by installing separating layers in buildings made of brick Prevents recycling mortar mixture. This also changes the volume through migration of components and the mixing of the Building material with underlying, softer layers and the rise of Prevents fine fractions that affect the load-bearing capacity of the building could.

The putrefaction of organic components contained in brick recycling are prevented by adding lime. Lumber is mostly chemical treated so that it is only in contact with water, oxygen and microorgan nisms rot. The added lime closes the pores and "covers" the like components, so that the access of water, oxygen and Mikroorga nisms is prevented. The calcareous environment also makes life difficult and effects of microorganisms. At the same time, the organic be components solidified in this way. As a result, the already small proportion leads of timber on brick recycling does not affect the load-bearing capacity or frost resistance.

With higher demands with regard to the stress on the building material should the ground brick recycling has a maximum grain size of 45 or 32 mm to have. Mixing with 1 to 5% lime is also advantageous.  

The building material according to the invention can be used in different structures be set. To do this, it should be between separating layers made of non-rotten Plastic can be introduced in one or more construction layers. This construction can be advantageous in traffic and road construction be turned. The separating layers are preferably made of geosynthetic material or used materials such as old floor coverings, from which separating layers can be produced. The separating layers should be installed with a slope to drain water from the structure.

This building is also used as a top layer for parking, parking and Traffic areas possible. The top layer can be covered with a bituminous sen or other surface sealing. Moreover, that is Building according to the invention as the core area of dams and / or embankments suitable as a foundation for the construction of other structures.

The construction material of the invention is produced by grinding the goat gel recycling with limitation of the maximum grain size, subsequent Adding lime, mixing and transporting the ground material and lime in a mixer, preferably in truck mixers. For loading the Mi Schers preferably uses a hopper. Truck mixers offer that Advantage that the mixing, a possible addition of water and the transport to Installation site can be done simultaneously.

The advantage of using the building material of the invention is low manufacturing against the same or improved use value of the building material over conventional materials. In addition, mineral resources become like rocks Sands and gravel saved. By recycling brick recycling Instead of the landfill, valuable landfill space remains for other purposes ten. The structures built with the building material of the invention stand out characterized by high stability. Such stability is particularly with insulation  necessary for flood protection. The buildings can save space be erected.

In the following, the invention is based on exemplary embodiments with reference explained in more detail on the accompanying drawings.

In Fig. 1 the layered installation of the building material of the invention is shown. A separating layer 2 made of non-rotting plastic is located above the existing substrate 1 with compacted formation. On this there is a first layer 3 of the building material of the invention, which has a height of 0.08 to 0.30 m. This layer 3 is upwards by a further separation layer 2 made of non-decomposable plastic, which is followed by a further layer 3 of the building material according to the invention with a height of 0.08 to 0.30 m, which in turn is limited by a separation layer 2 . The upper building 4 is arranged on this layer.

Such a structure can also further layers of the Invention according building material, which is enclosed by separating layers.

Fig. 2 shows a steep slope using the building material according to the invention. This consists of several 0.05 to 0.30 m high layers 3 of the building material according to the invention with static / dynamic compression, which are separated by separating layers 2 made of non-rotten plastic. A fastening 5 for streets, paths, squares etc. is arranged above these layers. The layers are offset by steps of at least 0.05 m in order to facilitate the interlocking with topsoil 6 . The topsoil cover is optionally provided with an erosion protection, such as greening mats or wet seeding. To drain water, the building is equipped with drainage devices 7 .

In the same way, the use of the building material according to the invention for Er direction of dams possible.  

Fig. 3 shows the use of the building material according to the invention as building pit or building backfill. For this purpose, up to 0.5 m high layers 3 of the building material according to the invention with a lime content of at most 3% are erected in the excavation pit, which are separated from one another by separating layers 2 . Limiting the lime content of brick recycling is necessary with regard to any later excavations that may be required. To drain water, the building is equipped with drainage devices 7 . The upper layer is covered by topsoil 6 or another structure.

Fig. 4 shows the use of the building material according to the invention as a foundation for buildings. On the surface of the construction pit up to 0.30 m high layers 3 of the building material according to the invention are constructed under static / dynamic compression, which are separated from one another by separating layers 2 . The foundation plate 8 is applied to the upper layer.

Fig. 5 shows a building using the building material according to the invention, which is suitable for traffic areas with low stress or for the errich device provisional structures. For this purpose, on the upcoming subsoil 1 with a compacted plan around layers 3 of the building material according to the invention under static / dynamic compaction, which are separated by separation layers 2 from one another. The thickness of the individual layers 3 depends on the load-bearing capacity requirements of the road building regulations and the existing subsurface 1 . The upper layer has a lime content of at least 5% and is not always delimited by a separating layer from the underlying layer made of the building material according to the invention. The bituminous surface seal 9 is applied to this layer. Surface sealing is also possible with other materials.

In Fig. 6, the use of the building material according to the invention in connection with surface drainage in the event of heavy rush of groundwater or strata is provided. A separating layer 2 made of non-rotting plastic is located on the upcoming substrate 1 with a compacted plan. On this is a surface drainage 10 , which consists for example of a layer of gravel, errich tet. On this in turn there is a separating layer 2 , which is followed by a layer 3 made of the building material according to the invention. Above this layer 3 , the superstructure separated by a further separating layer 2 is arranged.

Fig. 7 shows the filling of a mixer 11 in the form of a truck mixer with brick recycling and lime using a portable pouring and filling funnel 12 and a storage device 13, optionally with Wägevor direction, which is located on a ramp 14 made of brick recycling.

List of the reference symbols used

1

Underground

2nd

Separation layers

3rd

Building material layer

4th

Superstructure

5

Attachment

6

Topsoil

7

Drainage facilities

8th

Foundation plate

9

bituminous surface sealing

10th

Surface drainage

11

Mixer

12th

Hopper and filling funnel

13

charger

14

ramp

Claims (11)

1. Building material, characterized in that it consists of ground brick recycling, which has a maximum grain size of 56 mm and is mixed with 1 to 10% lime. 2. Building material according to claim 1, characterized in that the goat gel recycling has a maximum grain size of 45 mm. 3. Building material according to claim 1, characterized in that the goat gel recycling has a maximum grain size of 32 mm. 4. Building material according to claim 1 to 3, characterized in that the Brick recycling is mixed with 1 to 5% lime. 5. Building, characterized in that it consists of the building material of claims 1 to 4, which forms one or more construction layers ( 3 ) which are separated by layers ( 2 ) made of non-rotten plastic. 6. Building according to claim 5, characterized in that the non-rotten plastic is geosynthetic. 7. Building according to claim 5 and 6, characterized in that it is a top layer for park, parking and traffic areas. 8. Building according to claim 5 and 6, characterized in that it is the core area of dams and / or embankments. 9. Building according to claim 5 and 6, characterized in that it is the foundation for further structures.   10. A method for producing the building material according to claim 1, characterized in that it comprises grinding brick recycling into particles with a maximum grain size of 56 mm and mixing the ground material with lime in a mixer ( 11 ). 11. The method according to claim 10, characterized in that the mixer ( 11 ) is a truck mixer.