EP1818454A2 - Paving stone - Google Patents

Abstract

Concrete paving slab (1) comprises interlocking sections (5, 5, 5) touching a side surface (3a, 3b, 3c, 3d) of a neighboring slab only with a contact line (K) running parallel to a contact surface. The contact lines each run between two interlocking sections and within the surface (4a, 4b, 4c, 4d) of the assigned side surfaces. Preferred Features: The contact lines run in the surface of the contact surface. The interlocking sections (5, 5) have a constant width over their whole height. The depth of the interlocking sections continuously decreases from the contact line up to an open end.

Description

State of the art

The invention relates to a concrete paving stone, comprising a footprint for contact with a ballast, a visible surface substantially parallel to the footprint, and side surfaces each extending between the footprint and the face and extending substantially perpendicular thereto from the respective plane the side surface rib-shaped composite sections protrude and composite sections facing each other side surfaces of adjacent stones in the installed state in the manner of a toothing mesh.
A paving stone of the type described above is for example from the EP 1 101 870 A1 known. The composite sections are divided there into two sections, namely a lower portion emanating from the footprint, in which they have a constant depth, ie a constant projection above the plane of the side face, and a subsequent section in which the depth of the composite sections in Direction of the visible surface of the paving stone decreases and expires at a distance below the visible surface to zero. If two paving stones are brought into engagement with each other in the manner of a toothing, the composite sections encounter in their lower section with a constant depth against the side surface of the adjacent paving stone. The contact is flat. The toothing is designed in such a way that the composite sections of one paving stone completely fill the gaps resulting between the composite sections of the adjacent paving stone. In this way, a complete positive connection between adjacent stones is achieved, whereby the mutual stone support is to be improved.
In a second installation variant, it is according to the EP 1 101 870 A1 provided that the composite portions of adjacent stones abut each other and do not interfere with the gaps between adjacent composite portions of the adjacent paving stone. In this way, laying with a larger or smaller gap can be achieved in comparison with the first-mentioned laying mode. In a laying with a larger gap but a toothing on the composite sections is no longer given, so that the displacement safety is correspondingly low.

From the EP 1 335 069 A1 a concrete paving stone is known in which between two adjacent composite sections in the lower edge region of the side surface as so-called joint securing portions called projections are present. The depth of these projections is less than the depth of the composite sections in their lower region. When laying these known paving stones, a lower point of the obliquely to the associated side surface extending composite portion of a paving stone abuts the between adjacent composite sections located joint securing portion of the adjacent paving stone. In order to obtain an automatic central positioning when creating adjacent stones, the composite sections are widened in the form of a socket in its lower area in side surfaces parallel direction.
The geometry of the concrete blocks according to the aforementioned EP 1 335 069 A1 is very complex due to the composite sections, their sock-shaped extension and arranged between two composite sections grout safety sections. In particular, the mold production and demolding prepare problems. In addition, in particular, the grouting safety sections are very delicate, so that there is an increased risk of breaking off or spalling.

task

The invention has for its object to propose a paving stone, which can be easily produced and despite good bonding effect in the installed state avoids a planar contact of adjacent stones, but still achieved by the composite sections sufficient sealing of the joint down to an uncontrolled falling through of grout to avoid bedding.

solution

Starting from a paving stone of the type described above, this object is achieved in that the composite sections of a paving stone touch a side surface of an adjacent paving stone with only one parallel to the contact surface extending contact line and that the contact lines on the adjacent paving stone each between two composite sections and within the level of the associated side surface.

In contrast to that from the EP 1 101 870 A1 known concrete block does not occur in the paving stone according to the invention to a two-dimensional investment of adjacent stones in the laying state, but only to a line contact. Such a line contact is able to absorb only limited forces even in the cured state of the concrete due to the comparatively small cross sections of the composite section, which adjoin directly to the contact line. If, when using a paved surface of the bricks according to the invention, large force effects occur between adjacent bricks, for example due to heavy load traffic (eg cornering or braking), then smaller detachments of stone material may occur in the area of the contact lines, thereby limiting the maximum transmittable Force occurs and a dissolution or shift of the network is avoided. Despite the investment of adjacent stones in the laying state, the risk of excessive power transmission in contrast to that in the EP 1 101 870 A1 reduced stone system described.
Due to the horizontal alignment of the contact lines, there is a closure of the joint in the region in the downward direction. There is thus reduced the risk that joint material can penetrate uncontrollably into cavities within the bedding, so that possibly no more joint material is present within the joint.
Since the contact lines each run between two composite sections within the plane of the associated side surface, the production of the paving stone according to the invention is particularly simple. In contrast to the artificial stone after the EP 1 335 069 A1 The concrete block according to the present invention does not require so-called joint securing sections between adjacent composite sections. From the side surface, therefore, only the composite sections are available, apart from so-called stacking cams, which are required in the handling of the stones after their production and will be discussed in more detail below.
If the contact lines run in the plane of the footprint, the resulting joint closure takes place at the lowest possible point, so that the joint height, ie, the height of the layer of the joint material of the entire height of the stone corresponds.

For the production, it is also advantageous if the composite sections have a constant width over their entire height. On the one hand to allow a secure joining of the stones even with manufacturing tolerances on the other hand but also to allow leakage of water in the lower part of the joint, and finally to bring a certain _" elasticity" in the laying composite, without for smaller rock shifts directly adjacent contact Stones occurs, the width of the composite sections should be smaller by a displacement than the distance between adjacent composite sections. The displacement is in practice about 3mm to 5mm. The fine alignment of the stones during installation must therefore be done manually and by eye.
To accommodate as much grout as possible, the depth of the composite sections should continuously decrease from the contact line to an upper end of the composite sections. In this case, the boundary surface of the composite sections may be flat, which brings technical advantages.
According to a further advantageous embodiment of the invention, the depth of the composite sections at its contact line opposite end to zero. The height of the composite sections is preferably significantly less than the height of the paving stone. It is for example 20% to 40%, preferably about 30%, of the height of the stone. In this way, on the one hand increases the joint volume, which has a positive effect on the quality of the laid patch, on the other hand, the composite sections are also sufficiently far away from the visible surface of the paving stone, so that they do not even stand in the laid state of the patch if there is no joint material in the upper areas of the joints.
The inclination of the wedge-shaped composite sections relative to the plane of the associated side surface of the paving stone is about 8 ° to 12 °, with an inclination angle of 10 ° is preferred.
It is further contemplated that each side surface has at least one rib-shaped stacking cam extending in the vicinity of the footprint toward the face, but terminating at a safe distance therefrom, the depth of the staple cam being substantially constant over the entire height or upwards slightly decreases and wherein the greatest depth of the stacking cam corresponds to at least the greatest depth of the composite sections.
Since the stacking cams can contact their opposite side surface of an adjacent paving block with their contact lines or contact surfaces directed away from the associated side surface, support of adjacent stones can take place over the length of the stacking cams. This is particularly important after the production of the stones, if they have to be "clamped" in not yet completely cured state of the concrete. Abklammem means in this case that by means of suitable grippers from the side in the horizontal direction forces are introduced into a position of a plurality of immediately adjacent paving stones to seize and relocate the entire situation can. The safety distance in which the stacking cams end below the plane of the visible surface is important because in the area of the edges of the facing of the paving stone too high a surface pressure of the not fully cured concrete must be avoided because any flaking in this area even after installation the cobblestones were still visible, ie ugly in appearance.
In combination with the composite sections proposed according to the invention, it is particularly advantageous if the stacking cams merge into the composite sections and match the longitudinal center planes of the stacking cams and the composite sections. In this case, the stacking cams "grow out" of the composite sections so that a particularly "organic" form of high strength results.

embodiment

Figur 1:

eine Draufsicht auf einen Pflasterstein gemäß der Erfindung,

Figur 2:

eine Seitenansicht des Pflastersteins gemäß Figur 1,

Figur 3:

eine Seitenansicht eines Pflastersteins mit einer Stapelnocke und

Figur 4:

eine ausschnittsweise Draufsicht auf den Verbundbereich zweier benachbarter Pflastersteine.

The invention will be explained in more detail with reference to an embodiment which is illustrated in the drawing. It shows:

FIG. 1:

a plan view of a paving stone according to the invention,

FIG. 2:

a side view of the paving stone according to Figure 1,

FIG. 3:

a side view of a paving stone with a stacking cam and

FIG. 4:

a partial plan view of the composite area of two adjacent paving stones.

A paving stone 1, which is shown in a top view in FIG. 1, has a visible or drivable visible surface 2 and four side surfaces 3a, 3b, 3e, 3d. The opposite side surfaces 3a, 3b have a greater length than the pair of equally opposite shorter side surfaces 3c, 3d. The visible surface 2, like the recognizable in Figure 2 footprint A is smooth
Rib-shaped composite sections 5, 5 ', 5 "extend outward from the plane 4a, 4b, 4c, 4d of the side surfaces 3a, 3b, 3c, 3d. In the installed state of a plurality of paving stones 1, the composite sections 5, 5' , 5 "in the manner of a toothing-but with a side play-into each other, as can be seen in FIG.
FIGS. 1 and 5 show that the width 6 of the composite sections 5 is less than the width 7 of a gap between two adjacent composite sections 5 or 5 'and 5 ", which, when installed, results in being between the side surfaces 8 of adjacent composite sections 5, 5 ', 5 "in the installed state in each case a gap 9 with a width 10 results. To this width dimension 10 (displacement) thus adjacent paving stones can move in the direction of arrow 11 even in the installed state.
In Figure 2 it is shown that the composite sections 5 extend wedge-shaped inclined, wherein the angle 12 between the outer boundary surface 13 of the composite section 5 and the plane 4b of the side surface 3b is 10 °. The height 14 of the composite section 5 is about 30% of the height 15 of the entire paving stone 1 which in the present case is 100 mm.
The contacting conditions between two adjacent bricks can also be seen from FIG. 2, where an adjacent paving stone 1 'is shown on the left, where for the sake of clarity only the side surface 3d' is shown and composite sections on this side surface 3d 'are not shown.
In FIG. 2, the paving stone 1 shown on the right touches the paving stone 1 'shown on the left only in the area of the contact lines K at the lower end of the composite sections 5. The contact lines 5 are located at the lower end of the composite sections 5, 5 ', 5 "and on the other hand within the plane 4d' of the side surface 3d of the paving stone 1 adjoining to the left .. Since the composite sections 5 extend into the plane 16 of the lower contact surface A, the contact lines K also lie within this plane 16.
At the four corners of the footprint A are composite sections 5 ', whose width is smaller than the width of the remaining composite sections 5, because a protrusion of a composite portion 5' beyond the plane of the perpendicular adjoining side surface for reasons of strength is not feasible.
The paving stone 1 according to the invention also has a third variant of composite sections 5 "which form a combination with stacking cams 17. This is illustrated in Figure 3. The stacking cams 10, which are approximately semicircular in cross-section, extend from the plane 16 of the contact surface A The total height 19 of the stacking cam 17 is about 80% of the total height 15 of the paving stone 1. The depth of the stacking cam 17 and the composite sections 5, 5 ', 5 "match, so that the contact line K is also a Tangency point with the lateral surface of the stacking cam S has in common.

Claims (12)

Concrete paving stone (1) having a footprint A for contact with a bedding, a viewing surface (2) substantially parallel to the footprint (A), and side surfaces (3a, 3b, 3c, 3d) extending respectively between the footprint (FIG. A) and the visible surface (2) and extend substantially perpendicular to these, wherein from the respective plane (4a, 4b, 4c, 4d) of the side surfaces (3a, 3b, 3c, 3d) rib-shaped composite sections (5, 5 ', 5 ") project and composite sections (5, 5 ', 5") facing each other side surfaces (3a, 3b, 3c, 3d) adjacent paving stones (1) in the installed state in the manner of a tooth mesh, characterized in that the composite sections (5 , 5 ', 5 ") of a paving stone contact a side surface (3a, 3b, 3c, 3d) of an adjacent paving stone (1) with only one respective contact line (K) running parallel to the contact surface (A) and that the contact lines (K) at the adjacent paving stone (1) j in each case between two composite sections (5, 5 ', 5 ") and within the plane (4a, 4b, 4c, 4d) of the associated side surface (3a, 3b, 3c, 3d). Paving stone according to claim 1, characterized in that the contact lines (K) extend in the plane (16) of the contact surface (A). Paving stone according to claim 1 or 2, characterized in that the composite sections (5, 5 ') have a constant width over their entire height (14). Paving stone according to one of claims 1 to 3, characterized in that the width (6) of the composite sections (5,5 ") is smaller by a displacement path (10) than the spacing (7) of adjacent composite sections (5, 5 ', 5"). ). Paving stone according to claim 4, characterized in that the displacement path (10) is between 3mm and 5mm. Paving stone according to one of claims 1 to 5, characterized in that the depth of the composite sections (5, 5 ', 5 ") continuously decreases from the contact line (K) to an upper end. Paving stone according to one of claims 1 to 6, characterized in that the boundary surface (13) of the composite sections (5, 5 ') is flat. Paving stone according to one of claims 1 to 7, characterized in that the depth of the composite sections (5,5 ') terminates at its contact line (K) opposite end to zero. Paving stone according to one of claims 1 to 8, characterized in that the height (14) of the composite sections (5, 5 ') is less than the height (15) of the paving stone (1). Paving stone according to one of claims 1 to 9, characterized in that the wedge-shaped composite sections (5, 5 ') opposite the plane (4a, 4b, 4c, 4d) of the associated side surface (3a, 3b, 3c, 3d) of the paving stone (1 ) are inclined at an angle of about 8 ° to 12 °, preferably 10 °. Paving stone according to one of claims 1 to 10, characterized in that each side surface (3a, 3b, 3c, 3d) has at least one rib-shaped stacking cam (S) which, starting in the vicinity of the contact surface (A), faces the visible surface (3). 2) but ends at a safety distance (20) therefrom, the depth of the stacking cam being substantially constant over its entire height (19) or decreasing to the side surface (2), the maximum depth of the stacking cam being at least the greatest depth of the composite sections (5, 5 ') corresponds. Paving stone according to claim 11, characterized in that the stacking cams (17) merge into the composite sections (5 ") and coincide with the longitudinal center planes (M) of the stacking cams (17) and the composite sections (5").

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