DE29517458U1 - Scaffolding plank - Google Patents

Description

"Scaffolding plank"
Description

The invention relates to a scaffolding plank according to the preamble of claim 1.

The scaffolding plank according to the invention consists essentially of wood, since its body and thus the plank plate and the longitudinal ribs protruding from its underside are made of this material. Such scaffolding planks have the advantage over scaffolding planks made of other materials, in particular metal, e.g. light metal, that they are comparatively inexpensive and yet stable and that they do not break suddenly when overloaded, but warn bystanders of their final breakage through the noise caused by the tearing wood fibers.

According to the invention, such a scaffold plank has at least two longitudinal ribs which run parallel to the longitudinal edges of the plank and usually coincide with them. If more than two such longitudinal ribs are provided, the other ribs lie between the two edge-parallel ribs with preferably equal rib spacing. These ribs increase the section modulus of the scaffold plank against deflection, with the result that, compared to scaffold planks without ribs, the strength under load perpendicular to the plane of the plank plate is increased and/or the plank plate itself can be made with a smaller thickness. The scaffold planks according to the invention are therefore lighter than comparable ribless scaffold planks made of wood and

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More resistant to the stresses they are exposed to in the scaffolding.

Such scaffolding planks are known per se based on their above-mentioned structure (DE-OS 43 04 710). However, the ribs parallel to the edges, i.e. the external ones, in particular cause difficulties when handling the previously known scaffolding planks, since in the simple and therefore practical designs the ribs splinter easily and thereby lose a more or less large part of their functionality explained above together with the splintered wood material. This happens relatively often, since, for example, when stacking, but also when unloading the planks for assembly of the scaffolding, as well as during transport and when holding the planks ready for assembly of the scaffolding, the planks are thrown and hit with their long edges. Since the ribs of the known planks are made of cut wood, the wood fibers usually run transversely to the rising rib boundary surfaces or at an acute angle to them. The described impact loads further encourage the splintering of the wood of the ribs along the grain.

The invention therefore takes a different approach, the basic idea of which is set out in claim 1. Further features of the invention are the subject of the subclaims.

According to the basic idea of the invention, the stresses in the rib wood that occur during the described impact loads on the ribs are diverted from the rounded transition edges into the plank wood, so that stress peaks are avoided, which

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Loads occur on the essentially orthogonal adjacent surfaces of the inner longitudinal edges of the ribs and the horizontal underside of the plank plate. The greater resistance of the scaffolding planks according to the invention is based on the avoidance of these stress peaks. In particular, with the unfavorable grain direction of the plank or rib wood described above, the invention can prevent the plank edges from splintering. In addition, a number of other advantages arise according to the invention from this design.

Thus, with the features of claim 2, it is possible to combine the ribs with parts of the plank body to form a structural unit and thereby save the fastening means that would otherwise be required for separately manufactured ribs at the interface between the ribs and the plank plate, in particular to dispense with the usual gluing there. Since the ribs are each made in a molded body that combines them with the associated plank wood of the plank body, the connection point is moved into the plank body, which thereby gains greater strength. Such molded bodies can be milled out of solid material and can therefore be manufactured efficiently. The essentially arbitrary connection of these molded bodies with the rest of the plank body is achieved with wooden connecting means when claim 3 is implemented, which avoid a change in material at the connection points and are therefore suitable for wood.

These advantages can also be transferred to embodiments of the invention which, as described above, in addition to the edge-parallel longitudinal ribs,

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claim 5 have further ribs. While in this embodiment of the invention an optimal number of three longitudinal ribs evenly distributed over the width of the scaffolding plank is obtained in practice, the advantages of the invention, as stated for example in claims 4 and 6, can naturally be achieved with a correspondingly increased or reduced number of ribs or middle pieces in the case of wider or narrower scaffolding planks.

In principle, the possibility of improving the strength, i.e. the resistance to penetration of such scaffolding planks with additional aids is known from the state of the art mentioned at the beginning in the form that wire or band-shaped inserts are provided between the ribs and the underside of the plank plate in order to introduce tensile-resistant layers into the plank body at these points. According to the invention, use is made of this possibility in the embodiment according to claim 7. It has the advantage over the state of the art that, with the same tensile strength of the covering sheet, it further increases the moment of resistance against bending and thus the safety of the plank, since the covering sheet is located on the outside in the loaded cross-section.

Most scaffolds with which the scaffolding planks are used have fixed distances between floors. It is therefore particularly advantageous if the scaffolding planks reinforced with ribs do not increase these specified distances. This can be achieved with the features of claim 8. In this case, the ribs end before the support ends of the scaffolding planks, which can therefore have the specified cross-section.

In principle, all of the ribs of the scaffold plank can be reinforced with covering plates. The utilization of the full tensile strength of the covering plate, however, depends crucially on its connection to the plank body, since the force transfer to the covering plate depends on this. From the point of view of force transfer, it is therefore not optimal to insert such reinforcements only between the ribs and the plank plate, as is provided for in the prior art. The embodiment according to claim 9 is more practical, which enables the covering plate to be fully tensile loaded when the plank bends, since the covering plate or plates of the longitudinal ribs transfer their tensile forces to the fitting plates of the plank ends, which are in positive connection with the plank ends, when the plank bends, thus improving the strength of the plank.

These features listed in claim 9 can be conveniently implemented by combining them with the features of claim 10 discussed above. For this purpose, according to claim 10, only the central rib has a covering sheet, the profile of which, as stated in claim 10, is changed at the ends of the planks so that a flat band is produced.

The details, further features and other advantages of the invention emerge from the following description of an embodiment based on the figures in the drawing; they show

Fig. 1 shows a scaffold plank in side view, Fig. 2 shows a plan view of the object of Fig. 1, Fig. 3 shows a section along the line A-A of Fig. 1,

Fig. 4 a detail at the point marked B in Fig. 3 and

Fig. 5 shows the object of Fig. 1 and 2 in a broken longitudinal section.

The scaffolding plank generally shown in Figs. 1 and 2 and designated 1 has a body 2 made of wood, the cross section of which according to Fig. 3 has longitudinal ribs 3, 4 which run parallel to the plank edges 5, 6 of the plank body 2, and a central rib 7. The plank body 2 also has a plank plate 8 which forms a structural unit with the three ribs 3, 4 and 7.

The plank body is divided lengthwise into edge pieces 9, 10, which represent molded bodies made from solid material. The edge ribs 3, 4 in these molded bodies form a structural unit with the plank plate 11, 12 assigned to them. These parts of the plank plate contain the plank plate outer edges 5, 6.

According to the embodiment, the inner longitudinal edges of the structural units described and shown in Fig. 2 are shown in Fig. 4 at 14. They are one part of each connection 15, 16 which, according to Fig. 2, connect the edge pieces 9, 10 to a central piece 17 in the plank body. These connections are galvanizations in the form of so-called finger joints. Accordingly, the edges 14 have wedge-shaped, deep longitudinal grooves 18 which alternate with tongues 19 which have wedge-shaped, converging flanks 20, 21, with which they are fitted into the wedge-shaped recesses of the grooves and glued.

The middle piece 17 also has a spline for each connection 15, 16 on its longitudinal edges 22, 23 and in turn forms a structural unit 24 consisting of a central rib 25, which is shown in dashed lines in Fig. 2, and the plank plate middle piece 17. The longitudinal rib 25 differs from the longitudinal ribs 3, 4 in that its rising and parallel edges 26, 27 run orthogonally to the underside 28 of the plank plate middle piece 17. In contrast, the longitudinal ribs 3, 4 of the plank body 2 are provided on their inner sides with rounded transition edges 28, 29 into the undersides 30, 31 of the plank plates 5, 6 of the structural units 11, 12.

According to the embodiment shown, the longitudinal rib 7 of the plank plate center piece 17 is surrounded by a covering plate 32 and is thereby reinforced. The covering plate absorbs tensile forces when the plank bends and is connected to so-called comb nails 33 for the transmission of force as shown in Fig. 4, which connect the covering plate and the plank body orthogonally to one another. The comb nails 33 are at the same mutual distance and aligned with the center line 34 (Fig. 2) of the plank.

All ribs 3, 4 and 25 of the plank body 2 are bevelled, as generally shown in Fig. 5 at 38 for the central rib 25 and at 37 in Fig. 2. For the central rib 25, the bevel is designated 39 in Fig. 5 and, together with the bevels of the adjacent longitudinal ribs, creates a continuous support surface for the scaffold plank at each plank end.

The cladding plate 32 of the longitudinal rib has a generally U-shaped cross-section and accordingly has rising and parallel cladding plate flanges 41, 42 and

a profile web 43 connecting them. At the root of the transition 39, the rising profile flanges 41, 42 are removed so that only the web remains. The web is angled in accordance with the transition 39 and covers the root of the support end 38. The support ends are in turn covered with the fitting plates 44 that enclose them, with the angled end of the web covering the underside 45 of the fitting 44. Hollow rivets 46, 47 connect the enclosing fitting plates 44 to the wood of the support ends 37, 38, and further rivets 46, 47 connect the angled ends of the profile web 43 to both the plank fittings 44 and the wood of the support ends 37, 38.

The above-described design of the support ends 37, 38 is identical at both ends of the plank.

As soon as the plank bends under load, the forces are transferred to the cladding plate 32 with the help of the comb nails 33, which is then subjected to tensile stress. As a result of the connection of the web ends of the cladding plate with the fittings 37, 38, a positive connection is created with the plank body 2, which reliably transfers the tensile forces of the cladding plate, thereby achieving a significant improvement in the section modulus and the load-bearing capacity of the scaffold plank.

The grain of the body wood is indicated in Fig. 3. Due to the rounded transitions 28, 29, shock and impact loads that hit the edges 5, 6 are transmitted without stress peaks, which largely prevents the wood from splintering.

Claims (11)

Expectations 1. Scaffolding plank (1), the body (2) of which is made of wood and comprises at least one longitudinal rib (3, 4) which is parallel to the edge and projects from the underside of the plank plate (8), characterized in that the longitudinal ribs (3, 4) of the plank body (2) are provided on their inner sides . have rounded transition edges (28, 29) into the plank plate (8). 2. Scaffolding plank according to claim 1, characterized in that the plank body (2) is divided longitudinally into edge pieces (9, 10) which are shaped bodies made from solid material, the longitudinal ribs (3, 4) of which form a structural unit (9, 10) with the plank plate outer edges (5, 6). 3. Scaffolding plank according to one or more of the preceding claims, characterized in that the structural units (9, 10) forming the plank’s outer edges are connected to one another by galvanization (15, 16). 4. Scaffolding plank according to one or more of the preceding claims, characterized in that the structural units (9, 10) are connected to one another at their inner longitudinal edges (14). 5. Scaffolding plank according to one or more of the preceding claims, characterized in that the structural units (9, 10) forming the plank outer edges are connected to the inner longitudinal edges (14) with further wooden structural units (17) of the plank body (2). 6. Scaffolding plank according to one or more of the preceding claims, characterized in that the
Construction units having plank outer edges (5, 6)
(9, 10) are connected to at least one further structural unit (24) which comprises a plank plate center piece (17) and an edge-parallel longitudinal rib (25) in a
Formed bodies whose rising edges are essentially
orthogonally into the underside of the plank plate
(8) skip. 7. Scaffolding plank according to one or more of the preceding claims, characterized in that at least the longitudinal rib (7) of the plank center piece (17) is provided with
reinforced with a covering plate (32). 8. Scaffolding plank according to one or more of the preceding claims, characterized in that the ribs (3, 4; 25) of the plank body (2) are inserted into the plank plate (8) in front of the support ends (37, 38) of the scaffolding plank (1).
skip. 9. Scaffolding plank according to one or more of the preceding claims, characterized in that the covering sheet
(32) of the longitudinal rib (25) of the assembly (24)
connected with fitting plates of the plank ends (37, 38)
is. 10. Scaffolding plank according to one or more of the preceding claims, characterized in that the rising flanges (41, 42) of the substantially U-shaped
profiled cladding sheet (32) at the transitions
(39) of the longitudinal rib (17) of the plank plate center piece
(17) in the plank ends (37, 38)
and the remaining profile web (43) of the
Cover plate (32) of the underside of the fittings (44) the support ends (37, 38) of the plank body (2). 11. Scaffolding plank according to one or more of the preceding claims, characterized in that the covering plate (32) with the longitudinal rib (25) is fastened to the fitting plates (44) by means of several comb nails (33) arranged at essentially the same longitudinal distance and with its profile web (43) by means of hollow rivets (46, 47).