DE19714052A1 - Access path construction for outdoor use - Google Patents

Abstract

The path consists of supports (50) carrying a number of parallel boards (10), at right angles to the supports. Both supports and boards are manufactured from extruded recycled mixed plastics, and are cut to size. Boards and supports are positively connected at right angles to the supports. Each board consists of a cover panel with vertically projecting rails along the long edges. Each panel has a covering layer, which consists of a coarse granular material and/or ribbing, and is of a different colour from the panel.

Description

The invention relates to a paving stone with a preferably made of recycled mixed plastic Body, on a cover plate with vertical bars points.

From DE-GM 295 18 770 is a paving stone with the known features known. The well-known paving stone has a dovetail-like profi on its outer circumference protrusions and dovetail-shaped back jumps so that several paving stones are coupled together can be. In one embodiment with a cover plate are vertically all around in the same direction at their edges projecting webs arranged on which the projections or There are setbacks. The result is a complex structure by injection molding the recycled mixed plastic in an egg ner mold must be made.

In contrast, the invention is based on the object a paving stone with the characteristics mentioned above to improve that it is easy to manufacture and nevertheless the requirement to be placed on such cobblestones is enough.

This object is achieved in that the cover plate and their webs extruded in one piece and after solidification of the plastic are cut to length.

It is important for the invention that the plaster stone by extrusion and then simple Can be cut to length. There is an association fold embodiment with only mutually parallel Ste There can be as many or as few bars as possible the one that is desired for the respective application. The stability of the cover plate in itself and under load can be guaranteed.

It is particularly advantageous to look at the paving stone like this form that the cover plate on the inspection side with a deck layer is provided. With the help of the top layer Paving stone can be adapted to different uses. It is not necessary for the paving stone to be or The rest of the material should be designed so that it only could perform tasks to be performed by the top layer, for example, with respect to a predetermined abrasion resistance speed.

The paving stone can be designed so that the Cover layer consists of a rough granulate and / or Corrugation is. With the help of the rough granulate, the Affect friction on the cover plate. The by itself extruding given smoothness of the paving stone will be sides. The granules can be used for the plaster stone or the cover plate a predetermined appearance to give. The corrugation can be carried out in the usual way proceed z. B. be produced with a corrugating roller, so that the manufacturing cost is small.

The paving stone can also be designed so that the cover layer deviates from the color of the cover plate appropriate coloring. With a suitable coloring, the Color paving stone on an already existing environment Lich adjusted. In particular, the adjustment of the  Coloring is done by granules, which in the under different color compositions available stands. Single-colored granules can also be used like colored mixed granules, for example black, brown and red granules a darker top layer result, for example, as a mixture of red, ocher and white granules.

It is advantageous to design the paving stone in such a way that the cover plate and its webs have about the same wall thickness exhibit. The result is an advantageous one for extrusion Cross-sectional design with uniform mass distribution in all areas, so that reliable with comparatively large Extrusion speeds can be worked.

A simple design of the paving stone lies before, if the cover plate on each of its longitudinal edges has web. This cross-sectional design of the pavement steins is particularly advantageous for true-to-size extrusion and facilitate the longitudinal webs provided on the longitudinal edges tern the practical use of several paving stones that with the longitudinal webs are applied adjacent to each other, e.g. B. when leveling.

It can be an advantage if the longitudinal webs a lot times the thickness of the cover plate are high. This shape tion of the paving stone is particularly in their use advantageous on less dense substrates, in which the Longitudinal bars ensure sufficient support in the subsurface.

The paving stone can also be designed that the cover plate on its underside is a lot alike webs distributed moderately over the width of the panel. At this embodiment of the paving stone results in a decisive stiffening of the paving stone in itself. The Load capacity of the paving stone in particular at points or a small area load is decided elevated.  

A paving stone with the features described above can be designed so that the length of the webs of the thickness corresponds to the cover plate. This paving stone with short Stegen is very rigid in itself and is preferably used in Ver bond with self-supporting subsurface, in which a variety of bars achieve a secure hold leaves.

The paving stone can be particularly well in it Anchor the receiving surface when its webs join increasingly widening distance from the cover plate. The widening of the webs prevent the Paving stone in the vertical direction.

The paving stone is also suitable for heavily used areas is suitable. It should then preferably be supported over the entire area, the carrying capacity of the support is measured accordingly must be. An advantageous embodiment of the Pfla The stone formed of the soil results with a plaster stone that is hardening with other paving stones Bulk material is laid. The curing takes place, for example due to soil moisture.

It can be advantageous to train the paving stone in this way the fact that it has a flat outer surface, that with flat Slab outer surfaces of other paving stones in the same way is ordered. The flat, smooth outer surface of the paving stone or all paving stones results in a low rolling resistance stood on him rolling wheels or rollers or the like, so that a total of soil formed from such paving stones is level. Rolling resistance or contact surface forming pro Fillings on the outer surface of the plate can be avoided.

The invention further relates to a method ren for making a paving stone from preferably re cyceltem mixed plastic, in particular for the manufacture of a Paving stone.  

Such a method is known from DE-GM 295 18 770 known and relates to the injection molding of recycled mix plastic. Such an injection molding leaves comparatively complicated shapes of paving stones, but is in follow the cyclical manufacturing process equally slow, especially with large shapes, and be may achieve one of the before the Splash sorting of the plastic in order Avoid spray board.

In contrast, the invention is based on the object a method with the aforementioned method steps improve that simplified plaster designs stones with lower demands on sorting quality of the mixed plastic at higher production speeds let achieve.

This object is achieved in that by heat pla plastic continuously through a cross cut the paving stone corresponding die is that the heated, the cross section of the paving stone having stone strand is cooled to solidification, and that then cutting the paving stone to a predetermined Length.

The continuous extrusion and cutting of Pfla Stones from a strand of stone result in a high product tion speed, whereby by the design of the Extru sionsform also achieved a simple cross-sectional design can be.

When making paving stones by extrusion is it is important that a predetermined dimensional accuracy enables can be. As a result, the procedure is followed leads the heated stone strand to the bottom of his Cover plate and on the outer sides of its farthest from each other calibrated at the other webs by means of vacuum suction becomes. The vacuum suction on the underside of the cover plate te allows the development of dimensional tolerances from this Un  side. Accordingly, dimensional tolerances can vary Webs from the outer surfaces result in without the stone is impaired in its usability becomes.

With the help of the granulate, the accessible area of the Paving stones structured in the desired sense. The granules can be sprinkled in strips or areas. It can evenly or with predetermined distributed accumulations of the Granules are sprinkled.

Advantageously, the cover plate is evenly over sprinkled the entire width of the panel, what to do in this way is that on the outer surface of the cover plate after the Run the heated stone strand into a calibration tool If necessary, a granulate over the entire width of the board is scattered. In order to achieve this, the procedure is such that the granulate is fed with a vibration conveyor.

It must be ensured that the granulate with the Cover plate enters into an intimate connection, so that an unsung wanted detachment of the granules is avoided. This will be so process that the granules by means of a single roller or gradually into the plastic by means of several rollers is pushed in. Reach the roller or multiple rollers, that the granules in the still soft plastic of the stone pressed in where it can anchor.

It is essential for the process that the stone strand is sufficiently tensile so that it can be used to transport the stone longitudinal tensile forces not too egg lead to inadmissible deformation of the cross section. So far it is advantageous to carry out the method in such a way that the heated stone strand in the calibration tool in front of the Spread the granulate on the outer surface of the deck plate and if necessary in the rolling area only in the plate outer adjacent or opposite wall surfaces is cooled. When the heated stone strand in the Calibration tool cooled before spreading the granulate  is, this is only done in plate areas that are for the Connection of the granulate to the board material not from Be are meaning, i.e. from the underside of the plate or to the Outer surfaces of the side bars. The same applies to the Walzbe rich. The temperature of the stone strand becomes like this held high that the pressing of the granules by means of a Roller or by means of several rollers is not difficult because the plastic still has the required plasticity.

Furthermore, the heat of the stone strand can be exploited to melt the granules. For this purpose proceed in such a way that the heat of the sensitive stone strand used meltable granules becomes. The connection between the granulate and the cover plate becomes unsolvable.

The paving stone can also be designed so that openings in the cover plate between the webs having. The openings serve to save work material, which is permissible, if this results in the required sta bility of the paving stone is not affected. Except such breakthroughs can be used to To enable rooting. Such rooting comes in when using the paving stones outdoors Question.

The paving stone can then be formed so that he is laid with the webs up in the ground. The two between the upward-facing lands can be compacted and rooted so that it can be walked on right or passable areas result.

The invention is based on Darge in the drawing presented embodiments explained. It shows:

Fig. 1 is a perspective view of a paving stone,

Fig. 2 is an end view of another embodiment of a paving stone,

Fig. 3, a plurality transferred to a substrate paving stones,

Fig. 3a a of Fig. 3 similar view with scorching itter stones as Ra arranged paving stones,

Fig. 4 is a schematic representation of a plan view of a production plant,

Fig. 5 is a schematic side view of part of the production facility of Fig. 4, and

Fig. 6 is a cross-sectional view of the calibration of the production plant of Fig. 4.

Fig. 1 shows a paving stone 10 , the body 11 is in a manner not shown from recycled mixed plastic be. The body 11 has a cover plate 12 and two webs 13 which are vertical thereto on the same side. The webs 13 are arranged on the longitudinal edges 12 'of the cover plate 12 , which has a right angular longitudinal format. Different formats are possible, for example square formats or transverse formats, in which the cover plate 12 is wider than long.

The cover plate 12 is essentially thin-walled. Their webs 13 are thin-walled in a similar manner, the wall thickness of the cover plate 12 and the webs 13 being approximately the same size. The longitudinal webs or the webs 13 are considerably higher than the cover plate 12 is thick. The outer sides 13 'of the webs are arranged approximately vertically. The webs 13 widen with increasing distance from the cover plate 12 , 50 that the foot 13 '' is wider than the approach of the web 13 on the cover plate 12th The widening takes place on the mutually facing side surfaces of the webs 13 .

The webs 13 together with the cover plate 12 form a U-shaped cross-section, which in many applications satisfies the respective requirements. Higher loads may make it necessary to have a larger number of webs. FIG. 1 shows a further web 23 which is arranged in the middle between the webs 13 of FIG. 1. This web 23 is in one piece with the cover plate 12 and also widens ver with increasing distance from the cover plate 12 , namely continuously wedge-like.

Fig. 2 shows the front view of a single paving stone 10 , which also has a cover plate 12 and a plurality of webs 13 . In this paving stone 10 , the webs 13 are approximately as thick as the cover plate 12 . However, a large number of webs 13 are distributed at a uniform distance from one another over the entire width of the cover plate 12 , so that the cover plate itself is very rigid. The load capacity of this cover plate is therefore largely independent of a surface on which the paving stone is laid. The height of the webs 13 is small compared to the height of the webs 13 in FIG. 1 and is approximately equal to the thickness of the cover plate 12 .

The cover plate 12 has a flat plate outer surface 12 '''on which a cover layer 14 is arranged. The cover layer 14 consists, for example, of rough granules 15 .

In Figs. 3, 3a laying possibilities are of paving stones 10 outlined. The paving stones 10 of FIG. 3 are laid vertically in bulk material 16 with their webs 13 . The bulk material is, for example, hardening bulk material, such as concrete. Instead of the lean concrete, for example, ash concrete or the like can also be used. In the bulk well 16 penetrating or existing moisture leads to hardening and accordingly to a firm connec tion of the paving stone with its substrate. Each Pfla sterstein 10 are arranged close together with the outer sides 13 'of their webs 13 . Two adjacent webs 13 result due to their increasing distance from the cover plate 12 increasing width a wedge-like jump before with undercuts on both sides, which prevent the paving stones from the hardened th bulk material 16 can be pulled up. If the paving stones are pressed in, for example, earth-moistened concrete, then leveled with a light vibrating plate and hardened, the floor will be heavy-duty. This can be used as an industrial floor. Such industrial or hall floors have practically no abrasion and any dust development is avoided. Dust formation, as with concrete or concrete paving, does not occur and floor maintenance with floor painting to avoid dust formation is saved.

Fig. 3a shows a plurality of paving stones 10, which are laid in a ground 25th Openings 24 are present between the vertical upward-pointing webs 13 , which are arranged, for example, according to FIG. 1 in a row between the webs. The size and number of these openings 24 is matched to the type of floor 25 . In the ground 25 in front of existing plants root through the openings 24 and consolidate the soil 25 'present in the area between the webs 13 '. This soil 25 'and the end faces of the webs 13 form an accessible surface 26 . In the case of FIG. 3, the paving stones 10 have the function of grass pavers, as are generally known.

Fig. 4 is used to explain the production of paving stones. An extruder 27 is formed in a conventional manner. It essentially has an extruder screw 29 driven by a motor 28 on a drive shaft 30 . The screw 29 is fed in a comminuted manner via a hopper 31 of recycled mixed plastic. Melting of the plastic material with subsequent compression takes place in a compressor 33, a heater 32 to a die 17 connects, shown in phantom in that the heated plastic is brought into the ersicht of FIG. 6 in cross-section Liche cross-sectional shape. The molded plastic leaves the die 17 as a stone strand 18 , which passes into a potash brier tool 19 . The stone strand 18 is pulled by a trigger 34 , for example by a roller trigger and conveyed to a cutting device 35 , for example to a saw, with which paving stones are cut to length from the stone strand 18 in predetermined lengths.

The calibration tool 19 essentially consists of a base body 36 and two side bodies 37 . With the base body 36 , the underside 12 '' of the cover plate 12 is calibrated, by vacuum suction. For this purpose, narrow transverse slots 38 are present in the base body 36 , namely a large number in succession in the conveying direction, that is to say perpendicular to the plane of the illustration. All transverse slots 38 are connected through suction slots 39 with a vacuum connection 40 , so that the cover plate 12 is sucked in and calibrated from the lower side 12 ″. Accordingly, the plate outer surface 12 '''can build up, that is, develop tolerances corresponding to the swelling and cooling processes in the calibration tool 19 . The side bodies 37 are designed in a similar manner for vacuum suction. Several in the direction of conveyance of the stone strand 18 consecutive transverse slots 41 are connected via suction holes 42 to a vacuum connection 43 , so that the webs 13 from the side body 37 are calibrated. The mutually facing inner surfaces of the webs 13 are each at a distance from the base body 36 and can therefore develop freely according to the respective swelling and cooling processes.

So that the trigger 34 can pull the stone strand without impairing its cross-sectional shape, the stone strand 18 must be brought at least with parts of its cross-section to a temperature range that allows the required tensile forces to be transmitted. As a result, the base body 36 and the side body 37 are provided with cooling channels 44 . The cooling channels of the base body 36 are connected to a coolant connection 45 through which coolant is fed, for example water. The coolant flows through a plurality of cooling channels 44 , which are connected on the discharge side to a coolant drain, not shown. In the same way, the coolant channels 44 of the body 37 Be connected to coolant supply lines and coolant outlets.

The cover layer 14 shown in FIGS. 1, 2 preferably consists of granules 15 . In Fig. 5 it is shown how the granules 15 is fed by means of a vibration conveyor 20 . The vibration conveyor 20 has a hopper 46 in which the granules 15 are poured. The bulk material is distributed evenly on the vibrator surface 47 and is conveyed with a vibrator slot 48 onto the smooth outer surfaces 12 '''of the cover plate 12 . The Förderge speed of the granules 15 and the conveying speed of the stone strand 18 are coordinated so that there is a desired uniform coverage of the outer surface 12 '''over the entire width of the cover plate 12 .

Since the granulate is comparatively light, it lies on the outer surface 12 '''of the plate and must be intimately connected to the plastic of the cover plate 12 . A roller 21 serves for this purpose, which is arranged at a distance above the outer surface 12 '''of FIG. 6. The roller 21 is supported vertically in the axle bearings 49 and runs pas send between the side pieces 37 . Since the distance of the roller 21 from the outer surface 12 ″ ″ is somewhat smaller than the grain size of the granulate 15 , it is pressed into the plastic mass of the cover plate 12 . If this pressing is insufficient or there is an uneven distribution of the granules, a further roller 22 can be used, which presses the granules 15 even further into the cover plate 12 , so that the desired cover layer 14 results.

So that the granulate 15 connects intensively to the cover plate 12 , plastic granules can be inserted whose melting temperature is so low that it is melted by the plastic of the cover plate 12 . During the subsequent cooling, there is then an intimate connection between the granules 15 and the cover plate 12 , so that after the paving stone has cooled the loosening of the granules no longer has to be feared.

Instead of the plastic granulate described, granulate of other material can also be used, for example rubber granulate or powder. This has the advantage that a highly slip-resistant cover layer 14 results, which is practically vulcanized with the plastic of the cover plate 12 . Be particularly non-slip cover layers 14 result when Ba salt or quartz split is used as granules.

In the method described above, it is advantageous if the temperature of the plastic of the outer surface 12 ″ ″ is as high as possible. When cooling the plastic in the calibration tool 19 , this must be taken into account in the area of the production of the cover layer 14 . Egg ne cooling of the stone strand is therefore only on the webs 13 and at most on the underside of the cover plate 12th After the cover layer 14 has been produced, it can itself be cooled from above, so that cooling is possible in a short way in the sense of reducing the length of the calibration tool and minimizing the elongation of the stone strand.

The granules can also be selected with regard to the coloring of the paving stone or the top layer 14 of the paving stone. For example, white residual PVC originating from window construction can be used as granules to lighten the top layer 14 of the paving stone.

An increase in the coefficient of friction of the outer plate surface 12 '''can also be achieved if a corrugation is provided which is effective in all directions, similar to knurling. The corrugation can be achieved by corrugation rollers running in the calibration tool.

Claims (21)

1. paving stone ( 10 ), with a preferably recycled mixed plastic existing body ( 11 ) having a cover plate ( 12 ) with vertical webs ( 13 ), characterized in that the cover plate ( 12 ) and its webs ( 13th ) are extruded in one piece and cut to length after the plastic has solidified. 2. Paving stone according to claim 1, characterized in that the cover plate ( 12 ) is provided on the inspection side with a cover layer ( 14 ). 3. Paving stone according to claim 2, characterized in that the cover layer ( 14 ) consists of a rough granulate ( 15 ) and / or is corrugated. 4. paving stone according to claim 2 or 3, characterized in that the cover layer ( 14 ) has a color of the color of the cover plate ( 12 ) different color. 5. Paving stone according to one of claims 1 to 4, characterized in that the cover plate ( 12 ) and its webs ( 13 ) have approximately the same wall thickness. 6. Paving stone according to one of claims 1 to 5, characterized in that the cover plate ( 12 ) has a longitudinal web on its longitudinal edges ( 12 '). 7. paving stone according to claim 6, characterized in that the longitudinal webs are a multiple of the thickness of the cover plate ( 12 ) high. 8. Paving stone according to one of claims 1 to 5, characterized in that the cover plate ( 12 ) on its underside ( 12 '') has a plurality of webs ( 13 ) distributed uniformly over the width of the plate. 9. paving stone according to claim 8, characterized in that the length of the webs ( 13 ) corresponds to the thickness of the cover plate ( 12 ). 10. Paving stone according to one of claims 1 to 9, characterized in that its webs ( 13 ) with increasing the distance from the cover plate ( 12 ) increasingly widen. 11. Paving stone according to one of claims 1 to 10, characterized in that it is laid with further paving stones ( 10 ) in the hardening bulk material ( 16 ). 12. Paving stone according to one of claims 1 to 11, characterized in that it has a flat outer surface ( 12 ''') which is arranged with flat outer surfaces ( 12 ''') of other paving stones ( 10 ) in the same manner. 13. Paving stone according to one of claims 1 to 12, characterized in that the cover plate ( 12 ) between the webs ( 13 ) has distributed openings ( 24 ). 14. Paving stone according to one of claims 1 to 13, characterized in that it is laid with the webs ( 13 ) upwards in the ground ( 25 ). 15. A method for producing a paving stone ( 10 ) from preferably recycled mixed plastic, in particular for producing a paving stone ( 10 ) with features of claims 1 to 14, characterized in that plastic plasticized by heat continuously through a cross section of the paving stone ( 10 ) ent speaking die (17) is pressed, that the heated, is cooled down the cross-section of the paving stone (10) stone strand having (18) until it solidifies, and in that (10) is carried out a cutting of the paving stone with vorbe indefinite length. 16. Paving stone according to claim 15, characterized in that the heated stone strand ( 18 ) on the underside ( 12 '') of its cover plate ( 12 ) and on the outer sides ( 13 ') of its most distant webs ( 13 ) by means of vacuum suction is calibrated. 17. Paving stone according to claim 15 or 16, characterized in that on the outer plate surface ( 12 ''') of the cover plate ( 12 ) after entering the heated stone strand ( 18 ) in a calibration tool ( 19 ) as needed over the entire width of the plate Granules ( 15 ) is sprinkled. 18. Paving stone according to claim 17, characterized in that the granules ( 15 ) with a vibration conveyor ( 20 ) is supplied. 19. Paving stone according to claim 17 or 18, characterized in that the granules ( 15 ) by means of a single roller ( 21 ) or by means of several rollers ( 21 , 22 ) is gradually pressed deeper into the plastic. 20. Paving stone according to one of claims 15 to 19, characterized in that the heated stone strand ( 18 ) in the calibration tool ( 19 ) before spreading the granulate ( 15 ) on the outer surface ( 12 ''') of the cover plate ( 12 ) and, if necessary, is cooled in the rolling area only in the plate outer surface ( 12 ''') adjacent or opposite wall surface areas (underside 12 ''; outer sides 13 '). 21. Paving stone according to one of claims 15 to 20, characterized in that by the heat of the Ka librierwerkzeug ( 19 ) located stone strand ( 18 ) of fusible granules ( 15 ) is used.