DE2415441A1 - Lightweight hollow plastics ladder esp. with foam core - having holes through it acting as toe recesses - Google Patents

Abstract

A ladder, esp. of plastics, is constructed as a generally flat hollow panel having openings, the lower edges of which form the treads. The ladder may have a single row of openings so that it is constituted generally of two stringers and transverse rungs in an approximately conventional pattern, or pref. has two rows of openings, esp. staggered between the two rows, to constitute toe holds. These openings pref. taper from the bottom towards the top so that the tread is the widest region; in particular a generally trapezium-shaped form is pref. The treads may have an anti-slip rubber or polyurethane strip embedded in the surface. The ladder has a very high carrying capacity in relation to weight.

Description

Ladder, especially plastic ladder Essential criterion for the usefulness of a ladder is related to the highest possible load-bearing capacity too much weight. The load-bearing capacity is in turn essentially determined by the Formation and dimensioning of rungs and stiles or steps and stiles, the strength and service life of the conductors depends on the design of the joint between rung / step and stile. These problems exist regardless of the type of device used Material. In the case of the known ladders, the connection points must be formed special care must be taken between rungs / steps and stiles to avoid a Failure of these points, known as weak points, is guaranteed to occur during use avoid.

Particularly light and therefore manageable ladders are made of light metal, recently also made from GFR profiles.

Because the ladder, especially in terms of its load-bearing capacity, is certain Fulfill regulations maul3, is the desired weight reduction through the spar-rung construction in which the load-bearing elements are designed as beams with a constant cross-section there are limits. aside from that you are in the freedom of design constricted.

The invention is therefore based on the object of proposing a ladder, which despite a simple manufacturing process has a high load-bearing capacity with a low weight combined by the stile-rung connection known as weak points is omitted, and the stile and rung are dimensioned according to their load and in addition a high load-bearing capacity is associated with a low weight. According to the invention, this object is achieved by dali the conductor through a hollow body is formed, which has recesses that form the tread surfaces.

A ladder according to the invention does not consist of individual, however, interconnected rungs and spars, but from a single unit plank-shaped or box-shaped hollow body, the recesses to form the tread surfaces having. The recesses can either - which will be the rule - as breakthroughs be trained; But it is also possible to have them only on one side, which is then represents the front of the ladder to form as depressions in the hollow body.

The hollow body itself can be made of both metal and plastic, in particular made of fiber-reinforced casting resins. The method of manufacture the hollow body can be compared to the previously known methods of production rationalize and mechanize ladders to a much greater extent. The single-shell or double-shell hollow bodies made of metal or plastic can be produced by deep drawing sheet or plastic film, by blow molding a plastic film tube, by casting around fiber mats inserted in molds or the like. or by integral foaming a molded body with a closed outer skin can be produced.

When manufacturing the hollow body, use the integral foam process At the same time as the hollow body, a tus foam is created; with the other types of production foaming can be carried out using known techniques after the production of the Hollow bodies are made. Polyurethane but also other foams are used for foaming into consideration, which are pressure-resistant. In the integral foaming process, the closed Skin of the resulting molded body, the wall of the hollow body with which the Foam is directly fused.

There is a significant advantage of the proposal according to the invention in the extensive freedom of design both in terms of taste and with regard to strength considerations. For example, in the Hollow body either two longitudinal rows of recesses can be provided, their tread surfaces each have about a foot width. But it is also possible to have just a series of recesses provide, which give the hollow body a more ladder-like appearance, with but the respective areas of the hollow body forming the stiles of the ladder on the The tread side of the recesses is wider than on the side above of the recesses are. From a static point of view, this results in a particularly favorable one Support of the hollow body areas lying under the tread surfaces. Through the possible freedom according to the invention the shape of the ladder be fully trained according to the laws of lightweight construction. A previously known one Rungs or stile design with constant cross-section mulb according to the critical Cross-section, i.e. the majority of the rung or the Holmes is oversized, in the proposed design the cross-section, in particular that of the rung is dimensioned precisely according to the load grounding similar to an arch bridge This means that there is no superfluous material; the ladder becomes extremely light.

Thanks to the new design, it is also possible to add components such as a storage tray or a drop mechanism for a shelf ladder, which was previously attached at a later date had to, directly in one operation without additional work and without fasteners, such as rivets, screws or the like. To be molded directly.

With particular advantage, the head can be on at least one broad side The hollow body is given a longitudinal groove in the manner of a nutsche in addition to a The resulting taste peculiarity has the advantage that the ladder Can be used as a slide, which is why such a design in particular suitable as a rescue ladder. The longitudinal fillet is conveniently close to the Holme more krtimat than in their middle, to thereby a particularly good guidance to effect.

It is useful that the ladder is subjected to tensile stress when the ladder is subjected to bending Side of the hollow body to be provided with longitudinal reinforcements4 As such longitudinal reinforcements come immediately integrated steel wires, fiberglass rovings or the like.

in question, which is molded into the tension-side wall of the hollow body or are otherwise associated with it.

If the hollow body is foamed, it can also be used in the foaming a ladder-like reinforcement made of metal rods or the like can be embedded. With a corresponding Reinforcement on the tension side, it makes sense to pass through this tension side of the hollow body to clearly define its shape.

This can be done, for example, that the tread surfaces are flat and inclined towards one side of the ladder at such an angle that they run parallel to the floor when the ladder is ajar. Can also be stressed on train Side of the hollow body be flat, while the front has rounded gripping surfaces The ladder according to the invention can also be equipped with a anti-slip profiling.

In the simplest case, this profiling can be achieved by direct shaping be generated; but expediently it consists of a profile element elastic material, e.g. made of rubber or polyurethane, which is embedded in the surface of the Hollow body is embedded. The embedding can be carried out together with the production of the Hollow body take place and thus requires no additional operation.

Further advantages and features of the present invention result from the following description of preferred exemplary embodiments with reference to the enclosed Drawings as well as from further subclaims. If in the following description details of the drawing are not expressly referred to, the Drawing tion and the design evident from it will.

In the drawings: Figures 1 to 3 show different embodiments a ladder according to the invention; Figures 4a, b and 5 cross sections along the lines IV-IV in Figure i and V-V in Figure 3; Figure 6a to d known connection options for the two shells of a hollow body produced in two shells for the inventive Ladder; Figure 7a to d front views of a ladder according to Figure i with different anti-slip designs of the tread surfaces; Figure 8a to d cross sections by the embodiments shown in Figure 7, and Figure 9a to f different Embodiments of ladders, in particular step ladders according to the invention.

The embodiments of conductors shown in FIGS each consist of a single-shell or double-shell hollow body 1 made of metal or plastic 'by deep drawing sheet metal or plastic film, by blow molding a plastic film tube, by casting around fiber mats placed in molds or the like. or through integral foams a molded body with a closed outer skin is made. This hollow body is made of plastic foam 2, e.g. B. filled with polyurethane or epoxy resin, the dimensional stiffness of the hollow body 1 contributes significantly.

During the production of the hollow body 1 in the integral foaming process the foam is created at the same time as the hollow body; in the rest of the execution In this way, foaming takes place according to known techniques after production of the hollow body.

The hollow body 1 has, as can be seen, for example, from FIGS. 4 and 5 results, essentially the shape of a box or a sturdy plank and has Recesses 3, 3 ', 311> which are openings in the embodiments shown, i.e. go through from the front to the back of the hollow body i. By the ladder According to FIG. 1, the recesses 3 have a substantially trapezoidal shape and take the Width of the hollow body so largely that this results in the side areas of the hollow body 1 can be designed into ladder rails 4 The recesses 3 form on the base line the trapezoidal shape, for example, flat tread surfaces 5, while the top 6 the trapezoidal shape is arcuate, so that over the height of the recesses 3 the ladder rails 4 and, starting from the middle, the lower one on both sides the tread areas 5 lying rung areas 7 receive increasing cross-section.

On the ends of the ladder rails 4 are slipping-preventing caps 8 made of flexible material, e.g. 4B. Rubber, attached.

In the case of the ladder according to FIG. 2, the recesses provided are different 3t only such a width that two rows of recesses are arranged side by side can be.

As a result, a continuous from top to bottom is created between the recesses formed another spar 9, which brings an additional stiffening with it. For the formation of the recesses 3T apply the same points of view as in Relationship with the ladder of Fig. 1 have been set forth.

Fig. 3 shows a modification of the ladder according to FIG. 2, in which the recesses 31 'are also arranged in two lieilen side by side, with but the recesses in one row to the recesses in the other row "stand on gap? t. As in this embodiment with the same conductor length at least If there are recesses, it is particularly suitable for a design as a slide and thus as a rescue manager. Accordingly, as shown in cth cross section Fig. 5 shows, formed on the front of the hollow body 1, a longitudinal groove 10, which extends over the entire length of the ladder Edge areas are formed into smooth, handy and rounded gripping surfaces 11 and the longitudinal fillet is 10. curved more strongly in the transition to these grip surfaces ii than in their mid-range.

This ensures safe guidance when sliding down.

A multitude of shapes is available for the design of the hollow body to disposal. Figures iia and b show cross sections of the ladder rails 4, wherein in one case one Shell of the hollow body 1 by a largely flat plate 12 is closed on the back of the ladder, while in the other Case of two mutually symmetrical shells in a median plane of the conductor with each other are connected. Connection options for shell and back plate or for both Shells can be seen from Figures 6a to d.

These connection options require a more detailed explanation not because they are well known in the relevant field. You own However, special for the production of the ladder according to the invention, since they enable simple mechanization of the manufacturing process.

7 and 8 show embodiments and cross-sections of the rung areas 7-. The representation in Fig. 7a and 8a corresponds to the design of the tread 5 and the rung area 7 in the ladder according to FIG is flat, while the upper limit lying below the tread surface 5 6 of the recess 3 is conical, so that the rung area 7 on the back the ladder is stronger than the front. It goes without saying that the tread 5 need not run perpendicular to the longitudinal direction of the ladder, but that it may be useful to incline them at a certain angle so that they are in the State of use of the ladder is parallel to the floor. This also has the advantage achieved that thereby the front and back of the ladder is clearly defined.

According to the further embodiments in FIGS. 7 and 8, the tread surface is 5 provided with an anti-slip profile. According to Fig. 7b, 8b is the profiling 13th molded directly onto the tread. According to Fig. 7c, 8c, the profiling 14 also extends over the front of the rung areas 7, so that this forms a contact surface and an abutting edge. Appropriately the profiling 14 consists of a mat or a profile element elastic material, e.g. rubber, which is used in the manufacture of the hollow body i directly can be embedded in its outer surface. With the second alternative according to 3 8c, the profile element 14 has a front reinforcement or rib 15 7d, 8d, this rib 15 is in an angular groove 16 or inserted into a trapezoidal groove 17 on the front side of the rung area 7 to particularly to be protected against impact. The execution according to the second alternative according to Fig. 8d has the advantage that the tread on the front edge is less compliant than according to the first alternative. The profile element 14 is in this Case pulled up to the side for increased security.

According to the invention, stepladders according to FIG. 9 can also be made in one piece manufactured grounds. For this purpose, in this case it is expediently made up of two shells existing hollow body in the area of a platform 18 according to FIG. 9a or 9b designed. It goes without saying that the support side of the stepladder is also used as a ladder can be formed.

Figures 9b to 9d show side, front and rear views of a small one Stepladder that can be used as a stool at the same time. Of course A stepladder can also be made up of two by a hinge in the usual way connected conductors according to FIGS. 1 to 3 are produced.

9e and 9f show embodiments of ladders or step ladders at the top of which there is a storage tray directly in the manufacturing process 19 is molded. In the stepladder according to FIG. 9f it is of interest that the platform 18 is not arranged at the upper end, but in the middle area of the ladder.

Claims (21)

Patent (protection) claims i. Ladder, in particular plastic ladder, characterized in that that it is formed by a hollow body (1) which has recesses (3, 3 ', 3t'), which form the tread surfaces (5). 2. A ladder according to claim 1, characterized in that two longitudinal rows of recesses (3t, 3 '') are provided. 3. A ladder according to claim 2, characterized in that the recesses (3 '') of a row in the longitudinal direction of the ladder opposite the recesses of the other Row are staggered. 4. Ladder according to one of claims i to 3, characterized in that that each of the stiles (4) of the ladder forming areas of the hollow body (t) on the tread side of the recesses (3, 31, 3 '') each narrower than on the overlying side (6) of the recesses are. 5. Head according to claim 4, characterized in that the hollow body (i) a series of approximately trapezoidal tapering in the longitudinal direction of the conductor Has recesses (3) and the tread surfaces (5) on the base line of the trapezoidal shape are trained. 6. Ladder according to one of claims 1 to 5, characterized in that that the between the recesses (3, 3 ', 3' '), which form the rungs Areas (7) of the hollow body (i) towards the jiolmen (4) are higher than in the middle. 7. Head according to claim 5 or 6, characterized in that the Top (6) of the trapezoidal recesses (3, 3 ', 3 ") is arcuate. 8. Ladder according to one of claims i to 7, in particular 1 to 4, characterized in that at least one broad side of the hollow body (1) has a Has longitudinal groove (io) in the manner of a slide. 9. A ladder according to claim 8, characterized in that the longitudinal groove (OK) is more curved near the spars than in their middle. 10. Ladder according to one of claims i to 9, characterized in that that the hollow body (1) is composed of two interconnected shells. 11. Ladder according to one of claims 1 to 10, characterized in that that the hollow body (1) is ausäuat. 12. Head according to claim il, characterized in that the hollow body (1) and foaming (2) by a closed one Having skin Shaped body ar 3 integral foam are formed 13. Head according to one of the claims 1 to 12, characterized in that the bending load on the ladder on train stressed side of the hollow body (d) as longitudinal reinforcement steel wires, glass fiber rovings or the like. contains. 14. Ladder according to one of claims 11 to 13, characterized in that that as longitudinal reinforcement in the foam (2) from a ladder-like reinforcement Rods is embedded. 15. Ladder according to one of claims 1 to 14, characterized in that that the tread surfaces (5) are flat and inclined towards one side of the conductor. 16. Ladder according to one of claims 1 to i5, characterized in that that the tread surfaces (5) are provided with an anti-slip profile (13, 14) are. 17. A ladder according to claim 16, characterized in that the profiling (14) from a profile element made of elastic material, e.g. rubber or polyurethane, exists and is embedded in the surface of the hollow body (1). 18. A ladder according to claim 17, characterized in that the profile element (14) has a rib-like thickening (15) and also at least the front side partially covered. 19. A ladder according to claim 18, characterized in that the rib-like Thickening (15) in a groove (16, 17) of the hollow body (i) below the tread surface (5) each recess is embedded. 20. Ladder according to one of claims 1 to 19, characterized in that that at the upper end of a tray (19) or a chassis, for example for Guide along a shelf, is molded directly. 21. Step ladder according to one of claims i to 20, characterized in that that its support side and a platform (18) are integrally formed.