EP0869219A2 - Walkway construction - 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 web construction, especially catwalk for outdoor use, with a large number of parallel landing boards that are on are supported transversely to them.

Such web constructions are usually made of Made of wood. For example, the carriers of jetties are at rest for ships on wooden stands and carry transversely arranged ones and attached footboards. Such wooden structures have the disadvantage that they are in need of care. You need to repeatedly sanded, impregnated or dressed, depending on usage and delay. Due to the possibility of weathering their shelf life is limited.

In contrast, the invention is based on the object a web construction with the features mentioned above to improve that the durability is increased and Maintenance is not necessary.

This object is achieved in that the web boards and the carrier made from recycled mixed plastic if necessary are extruded and cut profiles.

It is important for the invention that the Bridge boards and the beams of the bridge construction made of mixed plastic are produced, which is recycled if necessary. The plastic of the footboards and the carrier is non-rotting and practically not in need of care. It is sufficient inexpensive, especially if recycled mixed plastic is used becomes.

It is also important that the web boards and the carriers by extrusion and then simple Cut to length in a simple and therefore inexpensive manner can be. From such footboards and beams can be the most different constructions with simple Produce means. For example, there are catwalks for people to manufacture in the form of jetties, as well extensive coverage of uneven surfaces by the wearer covered and covered by the footboards to for example to form a flat terrace or a platform.

The web construction can be designed so that the Bridge boards and the straps each transverse to the longitudinal extent the latter are positively assembled. From this results a corresponding form-fitting cohesion without that would be required for this particular lanyard. Rather, the means guaranteeing the positive locking are integral parts of the footboards and the beams. she can meet the required connection purposes be formed. For example, it can be plug-in with which the footboards and the beams are form-fitting are put together. Leave such plug-in means in the case of extruded profiles in a simple manner by means of projections or make recesses that are either extruded are, or which are achieved by simple saw cuts.

The web construction is advantageously designed such that that the web boards essentially consist of one Cover plate with vertically projecting in the same direction There are webs on their longitudinal edges. Stabilize the bars the footboards and can also form-fit assembly serve with the porters.

It is of particular advantage to have the bridge construction like this train that the cover plate on the inspection side with a Cover layer is provided. With the help of the top layer Web construction can be adapted to different uses. It is not necessary that the web construction or their material should otherwise be designed so that it could only perform tasks to be performed by the top layer, for example with respect to a predetermined abrasion resistance.

The web construction 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 the extrusion smoothness of the web construction is eliminated. The granulate can be used for the web construction or the cover plate a predetermined appearance to give. The corrugation can be done in the usual way in a continuous process e.g. be made with a corrugating roller, so that the manufacturing cost is small.

The web construction can also be designed that the top layer is one of the color of the top plate has a different color. With a suitable color scheme the web construction to an existing environment color matched. In particular, the adjustment of the Coloring takes place through granules, which come in a wide variety 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 web construction 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 web construction lies before if the cover plate has a longitudinal web on its longitudinal edges having. This cross-sectional design of the web construction is particularly advantageous for accurate extrusion and facilitate the longitudinal webs provided on the longitudinal edges the practical use of several web constructions that applied with the longitudinal webs adjacent to each other, e.g. B. when leveling.

It can be advantageous if the longitudinal webs are a multiple the thickness of the cover plate are high. This configuration the web construction is particularly useful when using it advantageous with higher beams, where the longitudinal webs for sufficient hold due to sufficiently deep clutch engagement to care.

The web construction can also be designed that the cover plate on its underside a variety evenly has webs distributed over the plate width. At this embodiment of the web construction results in a decisive stiffening of the web construction in itself. The Load-bearing capacity of the web construction, especially at points or a small area load is decided elevated.

A bridge construction with the features described above can be designed so that the height of the webs of the thickness corresponds to the cover plate. This bridge construction with short Stegen is inherently very rigid and is preferably used in conjunction used with various supports, with one Large number of bars achieved a secure hold.

The web construction can be particularly well in it Anchoring the receiving surface when their webs are with increasingly widening distance from the cover plate. The broadening of the webs prevent loosening of the Bridge construction in the vertical direction.

It can be advantageous to design the web construction in such a way that that their web boards have a flat outer surface have that with flat plate outer surfaces of other web boards is arranged the same. The flat, smooth outer surface all web boards result in low rolling resistance when rolling off wheels or rollers or the like. So that a The floor formed from such footboards is level overall is. Rolling resistance or contact surfaces forming profiles the outer surface of the plate can be avoided. The web construction is particularly suitable for walking because there is a risk of stumbling is minimized.

The web construction can be designed so that the Cover plate between the webs distributed openings. Openings in the cover plate are particularly important tight laying of the footboards is advantageous when it is on top of it arrives that the area formed by the footboards rather should be lattice-like, for example to make it less slippery to shape or less sensitive to pollution.

The web construction can be designed so that the Carriers are designed as hollow profiles. At least hollow sections are closed on a portion of their cross-section Profiles that are particularly stable and therefore special as a carrier are suitable. The cost of materials is also comparatively large-volume carriers relatively small. The wall thickness of the Hollow sections can be kept thin.

It is advantageous if a carrier has a base plate, on which a docking board side coupling profile is arranged. The footplate can be designed so that a suitable The carrier can be attached to a substructure is. The dock board side coupling profile can be considered specifically designed for connection to the footboards will. It is possible with such a carrier because of the separation of functions between the base plate and coupling profile to choose appropriate configurations of the web construction.

The web construction can be improved in that that the coupling profile is semicircular, if necessary with one less than the width of the footplate Diameter. The semicircular cross-sectional design of the coupling profile results in optimal resistance moments with the least Cost of materials. If the diameter of the coupling profile chosen smaller than the width of the footplate, so does this protrude according to the difference in dimensions, so that Corresponding fastening strips are available on the footplate are, at least on one side.

To improve the rigidity of the web construction, can this be designed so that the coupling profile in its cavity and / or the footplate in any chambers has stiffening ribs supported on the footplate. The stiffening ribs meet the respective requirements adapted the stiffness to be achieved.

To ensure the positive connection between the footboards and the To reach the girders, the web construction is designed that the coupling profile coupling means for positive Inclusion of counter-coupling means of the web boards.

A particularly advantageous design of the web construction is achieved in that the coupling profile cross slots has as a coupling means, in the acting as a counter-coupling means Engage the webs of the footboards. The form-fitting Connection between the web boards and the beams is made with simplest means achieved, namely with transverse slots as Coupling agent in the carriers. Only these cross slots are to be produced, for example by saw cuts, while the webs of the web boards to stiffen their cover plate in should be necessary in most cases anyway.

So that the web construction in the usual way with a small distance between the web boards between their edges the cross slots are in pairs with one distance between them corresponding to a footboard distance arranged. If such a distance is not desired, everyone will Cross slot of twice the web thickness designed accordingly, so that the number of saw cuts accordingly halved.

Fig.1

eine schematisch perspektivische Darstellung eines Stegbretts über einen Teil seiner Länge,

Fig.2

eine schematisch perspektivische Darstellung eines Trägers über einen Teil seiner Länge,

Fig.3

eine perspektivische Darstellung einer Stegkonstruktion, die aus zwei Trägern und drei Stegbrettern hergestellt ist, und

Fig.4

eine Seitenansicht der Fig.3 in Richtung A mit geschnitten dargestellten Stegbrettern zur Erläuterung unterschiedlicher Anordnungsmöglichkeiten dieser Stegbretter.

The invention is explained with reference to an embodiment shown in the drawing. It shows:

Fig. 1

2 shows a schematic perspective illustration of a footboard over part of its length,

Fig. 2

2 shows a schematic perspective illustration of a carrier over part of its length,

Fig. 3

a perspective view of a web construction, which is made of two beams and three web boards, and

Fig. 4

a side view of Figure 3 in the direction A with cut webboards shown to explain different possible arrangements of these web boards.

Fig. 1 shows a web board 10, the body 10 'in not shown consists of recycled mixed plastic. The body 10 'has a cover plate 12 and two to the same Vertical webs side 13. The webs 13 are on longitudinal edges 12 'of the cover plate 12 arranged, the rectangular Longitudinal format. Different formats are possible, for example square formats, triangular formats or landscape formats in which the cover plate 12 is wider, than long.

The cover plate 12 is essentially thin-walled. Your Webs 13 are thin-walled in a similar manner, the wall thicknesses the cover plate 12 and the webs 13 approximately the same size are. The longitudinal webs or webs 13 are considerably higher, than the cover plate 12 is thick. The outer surfaces 13 'of the webs 13 are arranged approximately vertically. Widen the bridges itself with increasing distance from the cover plate 12, so that the Foot 13 '' of a web 13 is wider than the approach of the web 13 on the cover plate 12. The widening takes place on the mutually facing side surfaces of the webs 13.

The webs 13 together with the cover plate 12 form one U-shaped cross section, used in many applications meets the respective requirements. Higher loads can require that a larger number or Variety of webs 12 is present. Fig. 1 shows dash-dotted lines a further web 23, which is in the middle between the Web 13 of Fig.1 is arranged. This web 23 is also with the cover plate 12 in one piece and widens also increasing with increasing distance from the cover plate 12, namely continuously wedge-like to both parallel webs 13 out. It is necessary that the web board 10 be very stiff must be a plurality of webs 23 evenly between the webs 13 distributed on the underside of the cover plate to be ordered. The resilience of such cover plates or web boards 10 is therefore largely independent of theirs Laying.

The cover plate 12 has a flat outer surface 12 '' ', see Fig. 4, on which a cover layer 14 is arranged. With the cover layer 14, the area of application of the footboards can 10 can be changed. The cover layer 14 serves, for example the color adjustment. Above all, can be achieved be that with the top layer 14, the roughness of a web board 10 is increased. The cover layer 14 then exists for example from a rough granulate 15.

The web boards 10 with carriers 50 become a web construction 11 assembled, see e.g. Fig. 3. A carrier 15 consists of a base plate 51, which with a Coupling profile 52 is provided. The base plate 51 and the coupling profile 52 form a hollow profile with a closed all around Cavity 52 '. The coupling profile 52 is semicircular trained and has a diameter D, the smaller than the width B of the foot plate 51. As a result each laterally from the one arranged centrally on the base plate 51 Coupling profile 52 fastening webs 55 available for example the attachment of the carrier 50 to a substructure can serve. The fastening webs 55 are, for example, screwed to the substructure attached. The fastening webs 55 are in accordance with Fig. 2 double-walled with stiffening ribs arranged in between 53 trained. They are therefore very stiff, so they meet the usual mounting requirements. The double-walled Fastening webs 55 form with the base plate 51 and with the coupling profile 52, moreover, an uninterrupted one Outer outline, in the cavity 52 'further stiffening ribs 53 are arranged in an H-shape. Connect these stiffening ribs 53 the foot plate 51 with the ones located therefrom Areas of the coupling profile 52 and ensure that loads perpendicular to the base plate 51 without bending the carrier 50 can be removed.

The carrier 50, like the footboard 10, is made from recycled material Mixed plastic manufactured, namely by extrusion. Both parts of the web construction can therefore be endless extruded and cut to length if required. It results there is a mass production of the footboards 10 and the carrier 50.

To assemble the bridge boards 10 and the beams 50 the carrier must have 50 coupling means and the web boards 10 have counter coupling means. Such coupling agents are the transverse slots 54 shown in FIGS the carrier 50. As a counter-coupling means of the web boards 10 the webs 13 function. The webs 13 become transverse to the beams 10 inserted into the slots 54. A positive fit is created Recording the webs 13 in the longitudinal direction of the carrier 50. In the direction of travel or in the direction of travel of the web construction 11, that is parallel to the beams 50, the web boards can 10 therefore do not move.

Figure 4 shows, for example, how the footboards 10 assembled in different ways with a carrier 50 can be. The three boards shown on the right are assembled without gaps. Two each other Adjacent webs 13 of different web boards 10 are in a common transverse slot 54 is arranged. The left one three bridge boards and the bridge board adjacent to this on the left 10 are arranged at a distance a from one another. It is accordingly two transverse slots 54 closely spaced at a distance s available, in each of which a web 13 is inserted. The left web board 10 of Figure 4 also shows a distance to the neighboring footbridge, but has footbridges 13, whose thickness increases approximately from the center of the webs 13 Distance from the cover plate 12 increases. It follows accordingly a vertical form fit between the bridge board 10 and the carrier 50. In this case, the footboard 10 cannot be inserted vertically from above into the transverse slot, but it must be horizontal across the beam 13 in the transverse slot 54 can be inserted lengthways, which is usually not a problem is. The production of the transverse slot 54 with the For example, the slot width increases towards the bottom of the slot usually not a problem due to the oblique saw cut.

All web boards 10 can be clamped together with carriers 50 will. If required, the footboards 10 nevertheless also in its longitudinal direction against displacement must be secured is a common additional attachment possible, for example by screwing or gluing.

The transverse slots 54 of the carrier 50 are at the height of the Bars 13 matched. The webs 13 fill the depth of the transverse slots 54 completely out, so that the web boards 10 with their underside 12 'rest on the carrier 50.

Fig.1 shows that the cover plate 12 with a variety can be provided by openings 24 which between the Bridges are arranged. The size and number and arrangement of these openings 24 is such that the one hand Accessibility of the web construction is not impaired so that the feet of walking people cannot bend and wheels of vehicles in their straight line are not impaired will. On the other hand, the purpose of these breakthroughs 24 are adequately taken into account, i.e. the by increasing the roughness of the footboards 10 or the self-cleaning effect to be achieved by them the web construction.

Claims (21)

Web construction (11), in particular a catwalk for use outdoors, with a multiplicity of parallel web boards (10) which are supported on beams (50) arranged transversely to them, characterized in that the web boards (10) and the beams (50) are extruded and cut to length from recycled mixed plastic. Web construction (11) according to claim 1, characterized in that the web boards (10) and the beams (50) are each positively assembled transversely to the longitudinal extent of the latter. Web construction (11) according to claim 1 or 2, characterized in that the web boards (10) essentially each consist of a cover plate (12) with webs (13) projecting vertically in the same direction on their longitudinal edges (12 '). Web construction (11) according to one of claims 1 to 3, characterized in that the cover plate (12) is provided on the inspection side with a cover layer (14). Web construction (11) according to one of claims 1 to 4, characterized in that the cover layer (14) consists of a rough granulate (15) and / or is corrugated. Web construction (11) according to one of claims 1 to 5, characterized in that the cover layer (14) has a color deviating from the color of the cover plate (12). Web construction (11) according to one of claims 1 to 6, characterized in that the cover plate (12) and its webs (13) have approximately the same wall thickness. Web construction (11) according to one of claims 1 to 7, characterized in that the cover plate (12) has a longitudinal web on each of its longitudinal edges (12 '). Web construction (11) according to claim 8, characterized in that the longitudinal webs are a multiple of the thickness of the cover plate (12). Web construction (11) according to one of claims 1 to 7, characterized in that the cover plate (12) has on its underside (12 '') a plurality of webs (13) distributed uniformly over the board width. Web construction (11) according to claim 10, characterized in that the height of the webs (13) corresponds to the thickness of the cover plate (12). Web construction (11) according to one of claims 1 to 11, characterized in that its webs (13) widen with increasing distance from the cover plate (12). Web construction (11) according to one of claims 1 to 12, characterized in that its web boards (10) have a flat outer plate surface (12 ''') which is arranged in the same manner as flat outer plate surfaces (12''') of further web boards (10) . Web construction (11) according to one of Claims 1 to 13, characterized in that the cover plate (12) has openings (24) distributed between the webs (13). Web construction (11) according to one of Claims 1 to 14, characterized in that the supports (50) are designed as hollow profiles. Web construction (11) according to one of Claims 1 to 15, characterized in that a carrier (50) has a base plate (51) on which a coupling profile (52) on the web board side is arranged. Web construction (11) according to one of claims 1 to 16, characterized in that the coupling profile (52) is semicircular, if necessary with a diameter (D) which is less than the width of the footplate (51). Web construction (11) according to one of claims 1 to 17, characterized in that the coupling profile (52) in its cavity (52 ') and / or the base plate (51) is supported in any chambers (51') on the base plate (51) Has stiffening ribs (53). Web construction (11) according to one of claims 1 to 18, characterized in that the coupling profile (52) has coupling means for positively receiving counter-coupling means of the web boards (10). Web construction (11) according to one of Claims 1 to 19, characterized in that the coupling profile (52) has transverse slots (54) as coupling means, into which webs (13) of the web boards (10) acting as counter-coupling means engage. Web construction (11) according to one of Claims 1 to 20, characterized in that the transverse slots (54) are arranged in pairs with a distance (a) corresponding to a web board distance (s).

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