DE3400504A1 - Precast concrete compound unit - Google Patents

Abstract

Precast concrete compound units shrink during hardening, which leads to shrinkage cracks. Through said shrinkage cracks, moisture can get into the concrete and penetrate right through it. It is proposed according to the invention to arrange strips of swellable materials in the precast concrete compound unit. These strips form weak points at which the shrinkage cracks form during hardening. Moisture penetrating the shrinkage cracks leads to the swelling of the swellable materials, with the result that the latter expand and seal the shrinkage crack. When the swellable materials dry again, they resume their original shape and size.

Description

Concrete component

The invention relates to a concrete component, e.g.

Used in building construction and civil engineering in the construction of houses, highways and the like will. The invention relates to both concrete components that are factory-made prefabricated and then brought to the place of use as well as those, which are manufactured at the place of use.

Concrete shrinks when it hardens. This waning leads - apart from very small concrete components - to shrinkage cracks in concrete components. The shrinkage depends essentially on the type of cement used and the amount and the grain size of the aggregate.

The larger the amount of aggregate, the lower the amount Shrinkage. The amount of aggregates should be as large as possible the required strength of the concrete allows it. Also the depth and width of the shrinkage cracks depends on the shrinkage. The greater the shrinkage, the deeper and wider are the shrinkage cracks. With an increasing number of shrinkage cracks that arise during hardening form, but their depth and width decreases again.

To reduce the shrinkage of concrete, especially around continuous Concrete is therefore reinforced to avoid shrinkage cracks. The finer the reinforcement, so the bigger The object of the present invention is to provide a concrete component through which, despite unavoidable shrinkage cracks during hardening, no moisture penetrates.

This task is essentially solved by a concrete component, at an intended distance from each other and at an intended distance from the surfaces - Strips of swellable substances are arranged.

When shaping the concrete component, e.g. a concrete slab, concreting is interrupted as soon as a concrete layer has been poured into the mold, whose strength is the desired distance between the strips of swellable substances from the Surfaces. The strips are then made of swellable substances inserted at the desired distance from each other. The strips are sufficient at both ends it is useful until just before the edge of the concrete component. Then the Concrete component already concreted and shaped.

When the concrete hardens, the inserted strips represent weak points and the shrinkage cracks form on both sides of the inserted strips between the surfaces and the stripes. The shrinkage cracks thus arise in a wanted one Area. If moisture penetrates from one side of the concrete component into the shrinkage crack and this moisture penetrates to the strip of swellable substances, these substances swell and thus seal the component in the area of the strip and the up to this reaching shrinkage cracks. Moisture can penetrate the concrete not urge.

The swellable substances can be added in the appropriate amount to the desired Areas are introduced as loose grain. However, it is useful to use the swellable Pressing fabrics into rod-shaped bodies, which are then placed in the desired places be inserted. These can rod-shaped body swellable substances and binders exist. It is advantageous here as a binder Bitumen or asphalt or pitch. The rod-shaped bodies have advantageous a square cross-section. You should do so when concreting the concrete component be inserted into this that two opposite edges of the body on two opposite surfaces of the concrete component are directed. With such a When inserting the rod-shaped body, you can practically exactly that Determine the point where the shrinkage cracks appear when the concrete hardens. Knows the body then has two opposing surfaces on top of two opposing surfaces of the concrete component directed strip-like approaches, shrinkage cracks arise practically only between the two opposite surfaces of the concrete component and the free ends of the strip-shaped lugs.

It is also possible when concreting the concrete component in a deliberate manner Distance from each other and at a desired distance from the surfaces, a porous wall to arrange having tubular strips and these after hardening with swellable To fill fabrics.

The swellable substances should be water-swellable substances, especially Bentonite, especially sodium bentonite.

But acrylates can also be used. These substances swell when they come into contact with water. They expand and seal the Shrinkage cracks.

If the water evaporates again, these substances shrink and take return to their original shape and size.

In the case of slab-shaped concrete components, the strips should be parallel to be arranged on the two largest surfaces and advantageously perpendicular to the shortest Axis. If the strips are then still arranged perpendicular to the longest axis, is the most sensible subdivision of the concrete component achieved and practical ensures that shrinkage cracks only occur in the intended places.

In the case of thicker concrete components, it makes sense to use a vertical plane to two opposite surfaces two or more strips of swellable Arrange fabrics on top of each other.

Further features of the invention are in the description of the figures and shown in the sub-claims, it being noted that all individual features and all combinations of individual features are further developments of the invention.

In Figures 1 to 3, the invention is in one embodiment for example shown without being limited to this embodiment.

Fig. 1 shows a perspective view of an inventive plate-shaped concrete component, Fig. 2 is a vertical section along the line A-A in FIG. 1 and FIG. 3 a vertical section along the line B-B in FIG. 1.

Parallel to the two largest surfaces 1 and 2, i.e. to the storage areas of the concrete component and at a distance from these and at a distance from each other are in the concrete component strips 3 inserted from swellable substances. In the illustrated Embodiment, the strips 3 consist of prefabricated, elongated, rod-shaped Bodies made of sodium bentunite and bitumen as binders. They assign a rectangular one Cross-section, with two opposite edges 5 on the two opposite Surfaces 1 and 2 are directed. On the two on the opposite surfaces 1 and 2 directed edges 5, have the elongated corners forming the strips 3, rod-shaped Body strip-shaped approaches 4. Because of the strength of the concrete component between the two opposite surfaces 1 and 2 are in a plane perpendicular to the two surfaces 1 and 2, two elongated, rod-shaped strips forming the strips 3 Bodies arranged one above the other. In the illustrated embodiment are on the Length of the concrete component related to the rod-shaped body forming the strips 3 in three planes 6 perpendicular to the two surfaces 1 and 2 in the same way Arranged at a distance from each other.

Depending on the type of cement and the type as well as the amount of Depending on the length, aggregates can be arranged in more or less strips be. Laterally, the strips 3 end just before the side surfaces 7 of the concrete component. In the illustrated embodiment, the strips 3 are parallel to the two largest surfaces 1 and 2 and parallel to the two top surfaces 8, that is, perpendicular arranged to the shortest axis and perpendicular to the longest axis in the concrete component. This type of arrangement ensures that the shrinkage cracks 9 are perpendicular to the longest axis and parallel to the shortest axis. That way will the best distribution of the shrinkage cracks achieved in the concrete component. Of course it is possible to reinforce the concrete component during manufacture.

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Claims (21)

Claims 1.) Concrete component, characterized in that in at a deliberate distance from each other and at a deliberate distance from the surfaces (1,2) Strips (3) made of swellable substances are arranged. 2.) Concrete component according to claim 1, characterized in that in him at an intended distance from each other and intended distance from the surfaces (1,2) a porous wall having tubular strips (3) arranged and with swellable substances are filled. 3.) Concrete component according to claim 1 or 2, characterized in that that the swellable substances are water-swellable substances. 4.) Concrete component according to claim 3, characterized in that the swellable substances are bentonite. 5.) Concrete component according to claim 4, characterized in that the swellable substances are sodium bentonite. 6.) Concrete component according to claim 1 or 2, characterized in that that the swellable substances are acrylates. 7.) Concrete component according to one of claims 1 to 6, characterized in that that it is plate-shaped and the strips (3) parallel to the two largest surfaces (1,2) are arranged. 8.) Concrete component according to one of claims 1 to 7, characterized in that that it is plate-shaped and the strips (3) are arranged perpendicular to the shortest axis are. 9.) Concrete component according to one of claims 1 to 8, characterized in that that it is plate-H-shaped and the strips (3) are arranged perpendicular to the longest axis are. 10.) Concrete component according to one of claims 1 to 9, characterized in that that several strips (3) in one. Plane perpendicular to two opposite surfaces (1,2) one above the other are arranged. 11.) Concrete component according to one of claims 1 to 10, characterized in that that the strips (3) of elongated rod-shaped bodies of swellable Substances exist. 12.) Concrete component according to claim 11, characterized in that the Body have a square cross-section. 13.) Concrete component according to claim 12, characterized in that two opposite edges of the body on two opposite surfaces (1,2) of the concrete component are directed. 14.) Concrete component according to one of claims 11 to 13, characterized in that that the body is opposite to two opposite surfaces (1,2) of the Concrete component directed strip-shaped approaches (4). 15.) Concrete component according to one of claims 11 to 14, characterized in that that the rod-shaped bodies consist of swellable substances and binders. 16.) Concrete component according to claim 15, characterized in that the Binder is bitumen. 17.) Concrete component according to claim 15, characterized in that the The binder is asphalt. 18.) Concrete component according to claim 17, characterized in that the Binder is bad luck. 19.) Process for the production of concrete components according to one of the Claims 1 and 3 to 18, characterized in that during the shaping at Concreting in the concrete component at an intended distance from each other and at an intended distance Distance from the surfaces (1,2) strips (3) made of swellable materials or rod-shaped Bodies made of swellable materials are arranged and embedded in concrete. 20.) Process for the production of concrete components according to one of the Claims 2 to 10, characterized in that during the shaping when concreting into the concrete component at an intended distance from one another and an intended distance from the Surfaces (1,2) having a porous wall tubular strips (3) arranged and set in concrete and, after hardening, filled with swellable substances. 21.) Process for the production of concrete components according to one of the Claims 11 to 18 and 3 to 10, characterized in that during the shaping when concreting in the concrete component at a desired distance from each other and in the desired Distance from the surfaces (1,2) through the concrete component reaching rod-shaped Body arranged and removed after hardening and rod-shaped into the cavities Bodies made of swellable materials can optionally be pushed with a binding agent.