WO2018202561A1

WO2018202561A1 - Scaffold platform and method for producing same

Info

Publication number: WO2018202561A1
Application number: PCT/EP2018/060826
Authority: WO
Inventors: André GAISER; Christian Leder; Jürgen ANDREE
Original assignee: Peri Gmbh
Priority date: 2017-05-04
Filing date: 2018-04-27
Publication date: 2018-11-08
Also published as: EP3563017B1; PL3563017T3; US20210277673A1; DE102017207531A1; CA3062372A1; EP3563017A1; ES2841932T3

Abstract

The invention relates to a scaffold platform (10) for a scaffold in the construction field, comprising a support frame (16) having two longitudinal profiles (18) and one or more transverse profiles (20) via which the longitudinal profiles (18) are connected to one another. The scaffold platform has a platform plate (12), which is fastened to the longitudinal profiles (18), wherein each transverse profile (20) is hooked into the two longitudinal profiles (18) and is held and secured in its position hooked into the longitudinal profiles (18) solely by the platform plate (12). Each transverse profile (20) has two wall limbs (42), which are connected to one another via a back portion (44), and wherein the two wall limbs (42) have angled free edge portions (46), against which the platform plate (12) bears. The invention further relates to a method for producing said scaffold platform (10).

Description

Scaffolding and method for its production

The invention relates to a scaffold deck, as this is used in scaffolding, especially scaffolding, as a walk-in work platform. Moreover, the invention relates to a method for producing such a scaffold decking.

Scaffolding decks available on the market have, according to one type, a supporting frame of longitudinal and transverse profiles which are welded together or riveted to one another. The support frame is usually made of metal and serves for the storage and support of a walkable covering plate, which can be made for example of wood, plastic or a composite material. The covering plate can be screwed or riveted to the support frame. Such scaffolding coverings are referred to in the construction sector as so-called frame panels or composite flooring. The scaffold planks are expensive to manufacture and expensive to repair in case of damage to the longitudinal or transverse profiles of the support frame, especially for this purpose the covering plate detached from the support frame and in addition the rivet or welded joints of the cross sections must be destroyed to solve them ,

It is therefore an object of the invention to provide a durable scaffolding deck, which has a sufficiently large for construction load handling capacity and is easier and cheaper to manufacture. In addition, it is the object of the invention to provide a cost-effective method for producing such a framework. The scaffold covering according to the invention has the features specified in claim 1. The method according to the invention is specified in claim 11.

The scaffold flooring according to the invention is characterized essentially by the fact that the or the transverse profiles are respectively hooked into the two longitudinal profiles of the support frame and only hooked by the support or covering plate in his / her in the longitudinal profiles, i. hooked with the longitudinal profiles, held or secured position is / are. In other words, unintentional release of the hook connection between the cross section (s) and the longitudinal profiles is prevented or prevented by the covering plate fastened to the two longitudinal profiles. The scaffold flooring according to the invention can thereby be made overall simpler and cheaper. Welding or riveting of the transverse profile or the individual transverse profiles with the longitudinal profiles is completely unnecessary. Overall, the lining plate thereby has a dual function. On the one hand, this connects the longitudinal profiles with each other and thereby allows a sufficient bending and torsional stiffness of the scaffold decking. On the other hand, it serves as a locking or securing means for the hooked with the longitudinal profiles cross profile or hooked with the longitudinal profiles cross sections, so that the transverse profile or the transverse profiles are secured against unintentional Diskonnektieren of the longitudinal profiles. According to the invention, each transverse profile has two wall legs, which are connected to one another via a back section. The cross section (s) thus have a substantially U-shaped cross-sectional shape in this case and is / are preferably designed to be open towards the covering plate. By such a U-shaped cross-sectional shape, the cross sections can be realized at low mass with a sufficiently large load capacity. The two wall legs have, according to the invention, preferably to the outside, angled free edge portions in order to provide the largest possible investment or support area for the covering plate available.

According to the invention, the load-bearing capacity and the torsional rigidity of the scaffold carrier can be further improved thereby, that each cross-section of the support frame both ends with a plurality of each Are provided in hooks corresponding to the hooks in the recesses of the

Intervene longitudinal profiles.

The recesses of the longitudinal members for the or the hooks of the respective cross-section are preferably designed slot-shaped according to the invention. As a result, material weakening of the longitudinal members can be reduced to a minimum. Slots can also be produced inexpensively and with great dimensional accuracy without great effort, for example by means of a laser cutting method or by means of a machining operation, in particular by sawing.

The cross member (s) can advantageously be arranged with its hook (s) in each case in the sliding play positive connection in the recesses of the longitudinal members. Thereby, an undesirable distortion of the support frame during its manufacture and during use of the scaffold flooring can be avoided.

The lining plate is preferably according to the invention on a profile paragraph of the longitudinal profiles. As a result, the longitudinal profiles can overlap the covering plate in the direction of a frame in the region of the longitudinal edges laterally protective. An undesirable mechanical damage of the lining plate during transport or during operation of the scaffold decking can be counteracted.

The recesses or the slots of the longitudinal profiles can extend from the profile shoulder of the longitudinal profiles into an inner side wall of the longitudinal profiles. As a result, the transverse profile or the transverse profiles can be simplified, possibly also at the same time, hooked into both longitudinal profiles. At the same time, the cross-sections may be aligned with its supporting surface for supporting the covering plate in alignment with a supporting surface of the longitudinal profiles, for example formed by the aforementioned step. Overall, this makes it possible to achieve a level contact and support of the covering plate on the longitudinal profile and also on the transverse profile or the transverse profiles. According to the invention, the covering plate rests on the transverse profile or the transverse profiles of the supporting frame. As a result, the support plate can be supported in the region of the transverse profile / profiles (backlash-free). The covering plate can thereby be made overall thinner, thus lighter, or from a less load-stable and thus more cost-effective material.

The covering plate can be riveted according to the invention, preferably alone, with the longitudinal profiles of the support frame. Such Nietverbindungen can be realized inexpensively and offer not least because of the cost-effective automation of riveting - especially in a mass production of scaffold planks - benefits.

The longitudinal profiles of the support frame are preferably designed according to the invention as Hohiprofile. As a result, sufficient load-bearing capacity of the scaffold decking can be achieved while at the same time having low mass. Overall, this is advantageous for the handling of the scaffold decking.

The method according to the invention for producing a scaffold covering explained above comprises the following steps:

Providing the longitudinal profiles and one or more transverse profiles and the covering plate;

Hooking each cross profile in the longitudinal profiles to form the support frame;

Placing the covering slat on the longitudinal profiles of the supporting frame; and

Securing the one transverse profile or the transverse profiles in his / her / its hooked into the longitudinal profiles position solely in that the covering plate attached to the longitudinal profiles of the support frame, in particular riveted.

With the method according to the invention, the scaffold coating can be produced in a simple and cost-effective manner. A solid welding or a time-consuming and costly fastening of he or she cross sections on the side rails using separate fasteners, such as screws or rivets, is unnecessary. It should be noted that the inventive

Automatically automate processes so that the scaffold coverings can be produced inexpensively in the way of mass production. The hooking of the transverse profiles in the side members can take place at the same time.

In summary, the invention relates to a scaffold covering for a scaffolding in the construction sector, with a support frame with two longitudinal profiles and with a transverse profile or with a plurality of transverse profiles over which the longitudinal profiles are interconnected. The scaffold decking has a Belagpiatte, which is attached to the longitudinal profiles, wherein the or the cross sections are respectively hooked into the two longitudinal profiles and only held or secured by the covering plate in his / her hooked into the longitudinal profiles position. Moreover, the invention relates to a cost-effective and easy to perform method for producing an aforementioned scaffold decking.

Further advantages of the invention will become apparent from the description and the drawings. The embodiment shown and described is not to be understood as an exhaustive list, but rather has exemplary character for the description of the invention.

In the drawing show:

Fig. 1 a scaffold with a support frame and with a walk-in

Covering plate in a view from below;

Fig. 2 shows the scaffold covering of FIG. 1 in a fragmentary

Section;

FIG. 3 shows the scaffolding covering according to FIG. 1 in a partial front view; FIG.

4 shows a cross member of the scaffold deck according to FIG. 1 in an isolated perspective detail view; FIG. 5 shows a side member of the scaffold deck according to FIG. 1 in an isolated perspective detail view; FIG. and

6 shows a block diagram with individual method steps of a method for producing the scaffold decking shown in FIG. 1.

Fig. 1 shows a framework 10 for a building or work scaffold (not shown) in a schematic bottom view. The scaffold decking 10 has a walk-on decking panel 12 which extends along the longitudinal axis 14 of the scaffold decking 10. The covering plate 12 is preferably made of wood or a wood material, but may also consist of plastic, a composite material or metal. The scaffolding has a support frame, which is designated overall by 16. The support frame 16 serves to support and stiffen the Beiagplatte 12 and the releasable attachment of the scaffold decking 10 to other scaffolding parts of the construction or working scaffolding. The support frame 16 has two longitudinal members or longitudinal profiles 18 and one or more cross members or transverse profiles 20. The longitudinal profiles 18 may each have at their free end portions 22 connecting means 24, by means of which the scaffold covering 10 in a conventional manner to vertically extending scaffolding posts or horizontally arranged scaffolding bars (not shown) attachable, for example einhakbar is. The longitudinal profiles 18 are connected to each other via the transverse profiles 20. In the embodiment shown, the support frame 16 purely by way of example four transverse profiles 20. It is understood, however, that the support frame 16 may also have less than four, for example 2 or three, or even more than four transverse profiles 20. It is understood that the framework covering 10 can be provided on both ends, in each case, with a profile fitting 25, preferably made of metal, shown in FIG. 1 with a petted line. The profile fitting 25 can be fastened at both ends to the longitudinal profiles 18 and have or carry the connecting means 24. By such a profile fitting 25, if necessary, a front edge protection for the support plate 12 can be achieved.

In Fig. 2, the scaffold pad 10 is shown in a sectional detail view and in Fig. 3 in a fragmentary front view. The longitudinal profiles 18 are each designed as hollow profiles and are preferably made of metal, for example aluminum. The longitudinal profiles 18 can be designed in particular as so-called extrusion profiles. The longitudinal profiles 18 each have an upper side 26, a lower side 28, an outer side 30 and an inner side 32. The top 26 of the longitudinal profiles 18 is executed stepped. As a result, the longitudinal profiles 18 each have a shoulder 34. The shoulder 34 forms a support region 36 for the support plate 12. The cover plate 12 bears directly against the support region 36. The covering plate 12 is here attached solely to the longitudinal profiles 18 and riveted over several iete 38 (Fig. 3) with the longitudinal profiles (sole). The rivets 38 of a longitudinal profile 18 are arranged spaced apart in the axial direction. As a result, the covering plate 12 is held permanently fixed in position on the longitudinal profiles 18 of the support frame 16. The support area 36 may have a plurality of web-like elevations or corrugations 39, which are each arranged to extend axially. The corrugations are mutually laterally offset and serve a non-slip and wobble-resistant support of the covering plate 12 on the longitudinal profile 18 and preferably claw into the material of the covering plate 12 a.

The transverse profiles 20 each have two hooks 40 at both ends, over which the transverse profiles 20 are hooked to the two longitudinal profiles 18.

The hooks 40 are clearly visible in the detail shown in FIG. 4 of a single transverse profile 20 of the support frame 16 (FIG. 1). The hooks 40 are formed on the transverse profile 20 and preferably designed to be identical. Characterized in that the hooks 40 - with respect to the longitudinal axis 14 of the scaffold decking 10 (Fig. 1) - in the axial direction at a distance A from each other at the respective transverse profile 20 are arranged, a particularly load-stable and torsionally rigid connection between the cross sections 20 and Longitudinal beams 18 can be achieved. The transverse profiles 20 each have a U-shaped cross-sectional shape. Two mutually parallel or substantially parallel extending wall leg 42 are connected via a connecting or back portion 44 of the transverse profiles 20 with each other. It should be noted that the two wall legs 42 angled outward or may have curved free edge portions 46. The covering plate (FIGS. 1 to 3) of the framework lining 10 can thereby be additionally supported over a large area on the supporting surface or surface 48 of the edge sections 46 of the transverse profiles 20 facing the covering plate 12. The surfaces 48 of the wall legs 42 of the transverse profiles 20 in each case are aligned with the support region 36 of the longitudinal profiles 18 (FIG. 3) in a direction orthogonal to the longitudinal axis 14 of the framework covering 10 (FIG.

Between the hook 40 and the respective associated wall leg 42, a groove 50 is formed with a width B.

FIG. 5 shows one of the longitudinal profiles 18 of the support frame 16 of the framework lining 10 according to FIG. 1 in an exposed perspective detail detail. The longitudinal profile 18 has a plurality of slot-shaped recesses 52, so as to allow engagement of the hooks 40 of the transverse profiles 20. The recesses 52 are arranged in pairs on the respective longitudinal profile 18 and have a distance A corresponding to the spacing A of the hooks 40 (FIG. 4). The recesses 52 in each case pass through the wall 54 of the longitudinal profiles 18. The recesses 52 in each case extend from the upper-side support region 36 of the longitudinal profiles 18 transversely to the longitudinal axis 14 into the inner side 32 of the longitudinal profile 18. As a result, the transverse profiles 20 can be hooked into the recesses with the longitudinal profiles 18 in a simplified manner with the hooks 40 during assembly of the framework covering 10 (FIG. 1). The wall 54 of the longitudinal profiles 18 in each case engages in one of the grooves 50, shown in FIG. 4, of the respective transverse profiles 20. The width B of the groove is preferably matched to the material thickness (not indicated in the drawing) of the wall 54 in order, in the axial direction relative to the longitudinal axis 14 (FIG. 1), to have a low-backlash or positive-fit retention of the transverse profiles 20 on the two longitudinal profiles 18 to enable. The recesses 52 may be produced by means of a laser cutting method or else by machining, for example by sawing. The cross sections 20 of the support frame are secured against disconnection from the longitudinal members 18 solely by the covering plate 12 which is directly riveted to the longitudinal members 18. As a result, a time-consuming and costly riveting or welding of each individual transverse profile 20 with the longitudinal profiles 18 is unnecessary.

In the case of damage to one or more transverse profiles 20 or longitudinal profiles 18 of the support frame 16 (Flg. 1) thus only the rivet connections between the covering plate and the longitudinal beams (destructive) must be solved and the covering plate 12 are lifted from the support frame 16 to the affected profiles replace the support frame 16. The scaffold deck 10 constructed in the manner described above is thereby particularly easy and inexpensive to manufacture and repair.

The method according to the invention for producing the above-described scaffold decking 10 will be explained below with additional reference to FIG. 6.

In a first step 102, the longitudinal and transverse profiles 18, 20 (FIG. 1) and the covering plate 12 are provided. In step 104, the transverse profiles 20 are hooked into the longitudinal profiles 18 to form the support frame 16 (FIG. 1). In step 106, the covering plate 12 is placed on the longitudinal profiles 18 of the support frame 16 and secured in step 108, the cross sections in their hooked into the longitudinal profiles position by the covering plate attached to the longitudinal profiles 18, in particular riveted with these is.

Claims

claims

1. scaffold decking (10) for a scaffolding, in particular scaffolding, with a support frame (16) comprising two Längsprofiie (18) and one or more transverse profiles (20), via which / the longitudinal profiles (18) are interconnected, and with a Facing plate (12) which is attached to the longitudinal profiles (18), each transverse profile (20) hooked into the two longitudinal profiles (18) and held solely by the covering plate (12) in its hooked into the longitudinal profiles (18) position wherein each transverse profile (20) in each case has two wall legs (42) which are connected to one another via a back section (44) and wherein the two wall legs (42) have angled free edge sections (46) on which the covering plate (12) rests.

2. scaffold decking according to claim 1, characterized in that each transverse profile (20) both ends are provided with a plurality of hooks (40) which engage in corresponding recesses (52) of the longitudinal profiles (18).

3. scaffold deck according to claim 2, characterized in that the recesses (52) of the longitudinal profiles (18) are designed slot-shaped.

4. scaffold deck according to claim 3, characterized in that the recesses (52) at least partially in a support area (36) of the longitudinal profiles (18) for the covering plate (12) are arranged.

5. scaffold deck according to claim 4, characterized in that the support area (36) by a shoulder (34) of the respective longitudinal profile (18) is formed.

6. scaffolding covering according to claim 4 or 5, characterized in that the recesses (52) each hineinerstrecken in an inner side wall (54) of the respective longitudinal profile (18).

7. scaffold decking according to one of the preceding claims, characterized in that the covering plate (12) on the or on the transverse profiles (20) of the support frame (16), preferably directly applied.

8. scaffold deck according to one of the preceding claims, characterized in that the covering plate (12), preferably alone, with the longitudinal profiles (18) of the support frame (16) is riveted.

9. scaffold deck according to one of the preceding claims, characterized in that the longitudinal profiles (18) are each designed as hollow profiles.

10. A method (100) for producing a scaffold pad (10) according to one of the preceding claims, comprising the following steps:

- Providing (102) of the longitudinal profiles (18) and the one or more transverse profiles (20) and the covering plate (12);

- Hooking (104) of each transverse profile (20) in the longitudinal profiles (18) to form the support frame (16);

- placing (106) the covering plate (12) on the longitudinal profiles (18) of the supporting frame (16);

- Securing (108) of the transverse profile / profiles in his / her longitudinal profiles (18) hooked position (20) by the covering plate (12) attached to the longitudinal profiles (18) of the support frame (16), in particular riveted.