DE4232751A1 - Moulded concrete block esp. for paving - has facing layer of resin-bonded fine gravel - Google Patents

Abstract

A moulded concrete block for ground covering, esp. a concrete paving block, on its top face, a facing layer (12) of fine gravel with a resin binder, pref. of a two-component epoxy resin. Prodn. of the above block involves applying the facing layer (12) onto a concrete body (11) after (complete) setting of the concrete in a concrete works or a concrete block mfg. plant. The gravel has a particle size of 0.2-8 (esp. 0.2-3) mm. The facing layer (12) binder is also used for bonding the facing layer (12) to the concrete body (11). The facing layer thickness is at least 1.5 times the max. particle size of the facing layer, esp. 4.5-12 mm. The bottom seating face (14) of the block has a concave recess (15) surrounded by a border strip (17) with a bevel edge (19). ADVANTAGE - The facing layer provides weather resistance, wear resistance and long term unchanged decorative appearance.

Description

The invention relates to a concrete block for soil covers, especially concrete paving stone, with a the top layer attached to the top. Still concerned the invention with the manufacturing technology for like shaped concrete blocks.

Concrete paving stones and slabs are mostly homogeneous made of concrete. There are only a few cobblestones known in which the base body consists of concrete and a facing layer is attached to the top. This consists, for example, of a coarse-grained, porous (heap factory) concrete. The task of this facing layer is to Ober absorb surface water in the laid state and over  Derive joints between the paving stones.

The invention is concerned with a new type of (Concrete) paving stone, on which a surface with new technological and decorative properties trained is. The object underlying the invention is in having a surface in otherwise conventional concrete Form stones, especially paving stones, to create the is weather-resistant and abrasion-resistant and over one longer period of use an unchanged decorative Appearance guaranteed.

The plaster according to the invention is used to achieve this object stone characterized in that the facing layer fine-grained gravel with a synthetic resin binder.

Resin-bonded gravel layers are fundamental known. So far, however, they are only used on large ones Surfaces, especially interior surfaces, made of concrete as through applied wear layer applied. Company floors, floors from Entrance halls etc. are colored, resin-bonded Gravel layers provided. Such layers are isolated also installed in the area of concrete surfaces outdoors, however also here as a continuous, on the spot posed and applied layer.

The invention proposes for the first time, individual Concrete moldings with a facing layer made of synthetic resin tied gravel and thereby these concrete moldings decorative, namely to be colored. The so trained According to the invention, the facing layer can be used in the production of the Concrete blocks, so be installed in the concrete plant. Doing so proceeded so that the concrete blocks preferably after full constant curing in a suitable device machine coated.  

The formation of the paving stones and their manufacture enables further special manufacture steps for the concrete blocks. Because the outside the same through a separately applied facing layer is formed, the concrete blocks can be manufactured in this way be that their tops in the concrete block shape after are swept below, i.e. the concrete on a base board stone form. The later underside of the concrete form Stone is therefore upwards within the concrete form judges. A usual pressure in such concrete block molds stamp - for each cavity of the concrete block mold - forms in in this case the underside of the concrete blocks. There are this enables special shapes in this area.

According to the invention, a paving stone produced in this way is on underside of the underside with a domed depression, the jumps back inside and through one all around running edge is limited. This shape the bottom of the Paving stone grants a better, unchangeable location on the surface of the pavement (on the so-called Flat surface). Furthermore, the paving stone is according to the invention on the underside at the edge with an all around Bevel formed. This also ensures improved Installation properties.

Another special feature of the invention relates to the layout of the concrete block or paving stone. This is hexagonal, such that two parallel side faces of the hexagon are very short are in relation to the other pages of equal length. This is how a formation of the paving stones is possible that only short joints in the direction of traffic or across to arise this.

Further details of the invention are set out below explained in more detail using an exemplary embodiment. It shows:  

Fig. 1 a concrete paving stone in cross-section,

Fig. 2 shows the concrete paving stone according to FIG. 1 in view pages,

Fig. 3 is a Grundrißdarstellung of the concrete paving stone according to FIG. 1 and FIG. 2,

Fig. 4 is a bottom view of the concrete paving stone,

Fig. 5 shows a section of a ground cover (ceiling) of paving stones according to FIG. 1 to FIG. 4.

The concrete paving stone 10 shown as an exemplary embodiment consists of a concrete body 11 and a facing layer 12 on the top. The concrete body 11 consists of concrete customary for concrete paving stones 10 . The facing layer is designed in a special way. It consists of fine-grained gravel with a synthetic resin binder. This serves both to connect the gravel grains to one another and to connect the facing layer 12 to the concrete body 11 .

The grain size of the facing layer 12 can be in the range from 0.2 mm to 8 mm. The range from 0.2 mm to 3 mm is particularly advantageous.

The synthetic resin binder is expediently a solution medium-free, low-viscosity 2-component epoxy resin Binder. This has good abrasion resistance, one high mechanical strength, good resistance to Weather influences. The binder consists of two Components, namely the resin and a hardener.

The facing layer is placed on this after the completion of the concrete paving stone 10 or the concrete body 11 . The facing layer 12 is expediently applied after the concrete has completely hardened. The facing layer 12 is placed in the manufacturing plant for the concrete paving stones 10 , that is, in the concrete plant. For this purpose, the component hardener and resin of the bandage are mixed intensively in a stirrer. During the mixing process, gravel is added to the extent necessary to create a ready-to-use mixture of gravel and binder. This is processed within the pot life of the binder, namely applied to the top of the concrete body 11 .

The mixing ratio is selected depending on the desired strength or other requirements. The mixing ratio of the grain to the resin mixture is expediently 9: 1 to 11: 1 by weight. The facing layer 12 can be colored by appropriate selection of the binder and / or the grain.

The concrete block 10 is formed and manufactured in a particular manner in the embodiment shown. An upper side 13 of the concrete body 11 to be provided with the facing layer 12 is turned downwards during manufacture in a concrete form, that is to say it rests on a base of the concrete form, in particular a base board. Structures thus created on the upper side 13 are covered by the facing layer 12 .

A lower contact surface 14 of the concrete paving stone 10 is directed upwards during manufacture and is shaped by a stamp of the concrete form. As a result, the support surface 14 is particularly precise and can be provided with structures.

In the present embodiment, the support surface 14 of the concrete paving stone 10 is provided with a central, large-area depression 15 . This has a spherical or arched shape. The recess 15 is arranged approximately at equal intervals from the side surfaces 16 of the concrete body 11 . This creates an all-round edge strip 17 in the area of the contact surface 14 . This flat edge strip 17 forms a statically stable support for the concrete paving stone 10 on the ground. The curved surface of the recess 15 is therefore at a lower pressure on the ground. The recess 15 follows the contours of the concrete paving stone 10 , but with rounded corners 18th

Another special feature of the concrete paving stone 10 be that it is provided on the underside, namely in the area of the bearing surface 14 at the outer edge with a bevel 19 running all around. This is directed at an angle of 45 ° to the edge strip 17 . The chamfer 19 also facilitates the laying of the concrete paving stone 10 and stabilizes its position in the area adjacent to joints.

For a correct relative position of the concrete paving stones 10 within a cover, upright spacers 20 are arranged on the side surfaces 16 , which are designed as bead-like strips. The spacers 20 are each offset from an upright central plane of the side surfaces 16 .

The layout of the concrete paving stone 10 contains another special feature. The embodiment shown is based on a square plan. Two diagonally opposite corners are chamfered. This creates a short side surface 21 . The adjacent longer side surfaces 16 are shortened accordingly. In an advantageous embodiment, the total length and width of the concrete paving stone is 33 cm. The short side surface 21 , which is directed at an angle of 45 ° to the adjacent side surfaces 15 , has a length of 4.5 cm here.

This special shape of the concrete paving stone 10 enables advantageous laying within a paving slab ( FIG. 5). The concrete paving stones 10 are arranged so that the long side surfaces 16 and the short side surfaces 21 lie against each other. This results in long joints 22 which are always directed at an angle to the direction of the flowing traffic. On the other hand, very short joints 23 , the length of which corresponds to that of the side surface 21 , are directed in the direction of the traffic or transversely thereto. This results in a favorable power transmission from the flowing, especially rolling traffic within the pavement.

Reference symbol list:

10 concrete paving stone
11 concrete body
12 facing layer
13 top
14 contact surface
15 deepening
16 side surface
17 edge strips
18 round corners
19 chamfer
20 spacers
21 side surface
22 fugue
23 fugue

Claims (8)

1. Concrete stone for soil covers, in particular special concrete paving stone, with an attached to the top facing layer ( 12 ), characterized in that the facing layer ( 12 ) consists of fine-grained gravel with a synthetic resin binder. 2. Concrete shaped block according to claim 1, characterized in that the facing layer ( 12 ) contains only gravel with a grain size of 0.2 mm to 8 mm, in particular only gravel with a grain size of 0.2 mm to 3 mm. 3. Concrete shaped block according to claim 1 or 2, characterized characterized in that the thickness of the facing layer at least 1.5 times the maximum grain size of the facing layer  corresponds, in particular 4.5 mm to 12 mm. 4. Concrete block according to claim 1 or one of the further claims, characterized in that the binding agent for the facing layer ( 12 ) and for connecting the same with a concrete body ( 11 ) consists of a 2-component epoxy resin. 5. Concrete block according to claim 1 or one of the further claims, characterized in that an upside-down during manufacture, namely on the bearing surface ( 14 ), is provided with a molded-in depression ( 15 ) which is provided by a peripheral edge strip ( 17 ) is surrounded. 6. Concrete block according to claim 1 or one of the further claims, characterized by an all-round bevel ( 19 ) formed on the underside, namely in the region of the bearing surface ( 14 ). 7. A method for producing shaped concrete blocks according to one or more of claims 1 to 6, characterized in that the facing layer ( 12 ) in the area of a concrete plant or a concrete block manufacturing plant after (complete) curing of the concrete on a concrete body ( 11 ) is applied. 8. The method according to claim 7, characterized in that the facing layer ( 12 ) made of gravel of grain size 0.2 mm to 8 mm and a 2-component epoxy resin by Ver mixing the components of the binder and the grains and then on the concrete -Paving stone ( 10 ) is applied.