NO855211L - HOLDER FOR MOUNTING OF SCRAP PARTS. - Google Patents

Abstract

The holder is formed under a support structure (10) with support legs (17), between which an insertion opening (15) of suitable length and width is formed. An adjoining suspension connection part (20) has a pipe section (22) on which arms (26.1 and 26.2) project at the top, which after insertion and rotation 90 ° according to the arrow (31), come to rest on the bearing areas (21) and thus allowing. a secure suspension of scaffolding parts.

Description

The invention relates to a holder for attaching scaffold parts under a support structure with connection parts remaining on the structure, to which scaffold parts can be attached.

There are a large number of applications for scaffolding. Scaffolding is usually supported on the ground and/or on the side walls of buildings and supporting structures. However, there are many cases of use where a work platform must be fixed under a support structure due to assembly, examination, maintenance and/or preparation work being carried out on this support structure or on elements that it supports. Especially on drilling islands and offshore platforms of any type located in the sea, such work often has to be carried out below the platform. On the other hand, it is often not possible to arrange the scaffolding and/or fixed gangways or the like permanently here because of the too strong mechanical and chemical attacks from the water to which they would be exposed. Consequently, scaffolding must often be assembled and dismantled under the platforms. The same applies to many scaffolding in chemical plants or under roof structures and the like. Such hanging work platforms are attached either to suitable projecting parts of the support structure or with the help of special aids. Especially for platforms located at sea, the surfaces must be designed particularly smooth and cannot have cantilevers, for example steps with I-girders or the like, which can be favorable for mechanical and chemical attack. For arrangements of scaffolding parts, round and/or angled hooks have already been arranged under these surfaces. Hook elements are hooked into these hooks from the side and are thus secured against falling out. This, however, always requires manual work in the area of the hook. However, in order for the gangways to have a sufficient working height, they often have to be mounted in such a way that it is difficult and/or dangerous to reach the attachment points with the hands. There is therefore a need for an improved holding device for attaching scaffolding parts under supporting structures.

The invention aims to produce a holder which allows fast, simple and safe connection and release of scaffolding parts, which is simple in its structure and which can also be hung in and released from a certain distance.

According to the invention, the holder has two spaced apart upper support surfaces with holding steps, between which there is an insertion opening for a rotatable suspension connection part with arms whose width corresponds to the insertion opening and whose length corresponds to the outer distance of the support legs. A holder of such a type corresponding to a turn lock allows the hanging connection part to be inserted through the insertion opening in the one turning position and then turned to a suitable angle so that the arms come into contact with the mounting surfaces of the holding step. As the hanging connection parts must be firmly connected to the scaffolding parts and can be pre-assembled to the uppermost scaffolding parts, for example scaffolding tubes or the like, and these are connected by means of horizontal steps or diagonal steps, there is a safeguard against rotation already shortly after the hanging. Both the holding steps and the hanging connection parts can be manufactured easily and cheaply in several ways. The holding steps are permanently connected to the supporting structure, for example by welding, screwing and/or possibly gluing. In this connection, their design and connection are chosen so that they can permanently resist aggressive media, especially seawater, and that they do not obstruct the flow of water on the surfaces. This can be achieved, for example, with forged parts or parts that are bent from round material or other rounded profile parts. The holder can conveniently consist of two U-shaped hoops which are connected to each other at a suitable distance so that the insertion opening is formed, and which are attached to the support structure, preferably by welding. These hoops can be easily produced by bending or forging and either welded individually or first the equipment with cross steps and then arranged as one unit.

The suspension connection part can be designed as a molded part, for example as a forge. It can be designed in a particularly simple, safe and strong way if it has a piece of pipe that fits the scaffolding pipes and which has a fixed flat iron part protruding as a flange on both sides at its upper end. This can, for example, be welded on or, in an advantageous way that is easy to attach, have a bore with the diameter of the pipe so that the pipe can be inserted and preferably welded on both sides. In this way, a secure connection to the support arms can be produced in a simple way. The connection of the scaffolding parts can be designed in several ways, depending on the scaffolding material used and the connection parts used thereby. In an appropriate manner, only the pipe piece of the suspension connection part is fed into the end opening of a scaffold pipe. It can thereby be attached in a particularly simple way by means of threads, clamps, clamping devices and claw devices, as well as through screws. For this purpose, two through-holes are arranged for attachment, which are offset by 90° to each other. Preferably, the support area for the connection part's arms is immersed in the support rafts. In this way, on the one hand, flat support surfaces can be produced that bear over the entire surface, even in relatively roughly designed hoops, but above all, a safeguard against rotation can thereby be produced, especially for assembly, as work operations can occur after the hanging of the connecting parts during installation which can lead to a reverse rotation of the pipes. Due to the limitation of the recess area, however, one can also feel at a certain distance when turning during assembly whether the connecting part is correctly positioned. Further details, advantages, features and perceptions of the invention appear from the following description in connection with the drawing.

An embodiment of the invention is described in connection with the drawing where fig. 1 shows a side view of a holder, fig. 2 shows a vertical section along 2-2 in fig. 1 with a side view of the hinge connection part, and fig. 3 shows a horizontal section along 3-3 in fig. 1 with a floor plan of the support legs and the connecting part.

The support structure 10 under which the holder is to be attached is only shown schematically in the drawing with the usual fixed part indication. Under the lower surface 11, the hoops 12.1 and 12.2 are arranged by means of welding seams 13. Spacer steps 14 with a length corresponding to the width B of the insertion opening 15 are inserted between the legs and welded in before assembly.

The hanger 12.1 is U-shaped with vertical attachment legs 16 and horizontal support legs 17. The distance between the vertical support legs 16 is important for the rotation of the connection part 20. The support area 21 on the upper surface of the support legs 17 is designed with a recess and has limiting edges 21.1, as shown in fig. 1 and 3 show.

The connection part 20 consists of a pipe piece 22 and a flat iron part 23. The flat iron part 23 has a through bore with diameter D which is equal to the outer diameter of the pipe piece 22. The pipe piece is passed somewhat through and welded to the flat iron part with welding seams 24 and 25. The flat iron part 23 has arms 26.1 and 26.2 which protrude laterally, has a total length a and a total width b. The total width b is somewhat smaller than the insertion opening 15 width B between the hoops 12 and the length a is much shorter than the length A so that the flat iron part can easily be turned in the insertion opening. The length a is somewhat greater than the width B in addition to the width of the support surface C x 2 = A2, so that the arms 26.1 and 26.2 rest securely in a rotated state. The widths b and B are chosen taking into account the diameter D of the pipe piece 22 so that the opposite arm of the connecting part rests securely on the support surface 21 when the outer edge of the pipe piece rests against the opposite step.

Two horizontal cross bores 29.1 and 29.2 are, as the drawing shows, arranged through the pipe piece 22 and offset by 90°. The pipe piece 22 has a diameter that matches the diameter of the scaffolding pipe 30 to be connected and which is either inserted into such a scaffolding pipe or connected to it using a pin that is inserted into both or by means of a pin that is attached to the scaffolding pipe .

A connecting part which is connected to the scaffold pipe 30 is guided in the position shown dashed in the figures from below through the insertion opening 15 and is turned according to the arrow 31 90°, after which it is lowered so that the arms 26.1 and 26.2 come into contact with the support areas 21. By slightly turning back towards the edges 21.1 it can also be determined, if there is no good evidence of the connection point, whether there is a correct arrangement and thus a correct connection is ensured. The entire protection against turning is achieved with the help of the additional scaffolding parts for the construction of the hanging platform, which are to be connected to the scaffolding tube 30. Dismantling takes place in the opposite direction by lifting and turning back the scaffolding tube with the connecting part 20, 90° and lowering it through the insertion opening.

The design is simple and the holder can be produced cheaply, can be placed easily and securely flush with the platform's surface and protected against corrosion. It provides a safe way of working and allows a favorable load distribution when using two hoops. The parts can be manufactured in different ways, for example also as forged parts.

The holder is formed under a support structure 10 with supporting legs 17, between which an insertion opening 15 of suitable length and width is formed. An associated hanging connection part 20 has a pipe piece 22 on which arms 26.1 and 26.2 protrude at the top, which, after insertion and turning 90° according to arrow 31, come to rest on the storage areas 21 and thus allow a secure suspension of scaffolding parts.

Claims (6)

1. Holder for attaching scaffold parts (30) under a support structure (10) with permanently arranged connection parts (12) on the support structure, to which scaffold parts can be attached, CHARACTERIZED IN THAT two upper support surfaces (21) lying at a distance (B) from each other with support legs (17) have between them an insertion opening (15) for a rotatable suspension connection part (20) and that the connection part (20) has arms (26.1, 26.2) whose width (b) corresponds to the width (B) of the insertion opening (15) and whose length (a) corresponds to the outer distance (A2) between the support legs (17). 2. Holder according to claim 1, CHARACTERIZED IN THAT the holder consists of two U-shaped hoops (12.1, 12.2) attached to the underside of the support structure (10), preferably welded and interconnected, so that an insertion opening (15) is formed. 3. Holder according to claims 1-2, CHARACTERIZED IN THAT the hanging connection part (20) has a pipe piece (22) which fits the scaffolding pipes (30) and which has attached to its upper end a flange-shaped flat iron part (26) projecting on both sides . 4. Holder according to claim 3, CHARACTERIZED IN THAT the flat iron part (26) has a bore with the diameter of the pipe piece (22), and that the pipe is passed through and preferably welded on both sides. 5. Holder according to claims 1-4, CHARACTERIZED IN THAT the pipe piece (22) has through holes (29.1, 29.2) for attachment, which are offset 90° to each other. 6. Holder according to claims 1-5, CHARACTERIZED IN THAT the storage rafts are designed with submerged storage areas (21) with limiting edges (21.1).