DE1684490A1 - Arrangement for connecting scaffolding poles - Google Patents

Description

Arrangement for connecting scaffolding poles The invention relates to to an arrangement for connecting scaffolding poles.

The connection of scaffolding poles to one another is usually carried out with With the help of scaffolding clamps that span the scaffolding poles. Acts as a holding force here only the friction between the interacting surfaces, so that the resilience of these connections is relatively low. There is also the risk that the connection is completely inadequate due to unintentional loosening of the clamping bolts will. You also have the surfaces of the scaffold clamps resting against the scaffold rods provided with sharp-edged ribs, which when tightened slightly into the pipe wall should dig in. However, this will damage the scaffolding poles and in the event an outer layer that protects against corrosion by destroying it in its Impaired durability.

The invention is based on the knowledge that an immediate transmission the axially directed forces between the frame parts to be connected to the known construction methods would eliminate inevitable disadvantages.

This is achieved by the invention in that the scaffolding poles made of impact-resistant plastic and provided with a profile on the circumference are that over the length of the scaffolding pole distributed areas to accommodate in Has forces acting in the axial direction, and that scaffold clamps on the against the Scaffolding rods adjoining surfaces have a corresponding mating profile, as a result it is possible to use scaffolding clamps, which only go through without tensioning bolts Clamping brackets can be fastened, and in the case of scaffolding couplings with clamping bolts, the latter is The preload to be issued is no longer critical, because of the transmission of the axial Forces over the surfaces of the profile - the frictional force - has no decisive importance.

Such a training is not possible with scaffolding poles made of metal, since metals are usually not impact-resistant. By choosing an impact resistant Plastic can cause deformations of the profile during handling, storage and do not occur during transport. Such plastics are known and do not show any Deformation under stresses that are far above those that occur in scaffolding.

The profile can be a thread so that an infinitely fine height adjustment between the scaffold rod and the scaffold clamp is possible. The profile may lying coils are formed from each other, there is a practically sufficient stepwise adjustment in distance and in parallel. The outer edges of the profiles are rounded so that the workers handling the scaffolding poles do not suffer any injuries. It is not necessary that the surfaces of the profile extend continuously over the entire circumference, they know rather to be interrupted.

To achieve sufficient strength with little genioht, the scaffolding poles are designed as tubes: with ribs arranged in a star shape. In another design it is provided for this purpose that the radial ribs end on the inside of a cylinder, in .den a reinforcement tube, for example from Metal is used.

The stiffening the scaffold pole can also take place in a modified WEI se that a core is coated from a metal tube with plastics material which is shock resistant and has the inventive .profil.

It is also provided that on the periphery of the scaffolding rod or in the matching surface of the scaffolding clamp a groove is arranged in the axial direction into which a corresponding protruding bar on the inner surface of the scaffolding clamp or the periphery of the scaffolding rod fits. This means that they work together Scaffolding parts also non-rotatably connected to one another, which increases the safety of the connection.

In the drawing are exemplary embodiments of the invention Arrangement shown. In the drawing is Fig..1 is a side view an arrangement with two scaffold poles lying at right angles to one another, which through a scaffold clamp are connected to one another, Figo 1a shows an enlarged section from FIG. 1, FIG. 2 shows a cross section through a scaffolding pole, FIG. 3 shows a cross section through another design of a scaffolding pole, ._ Fig. 4 - a cross section through a further embodiment = form of a scaffolding pole, FIG. 5 shows a side view 4, 6 show a cross section through another embodiment of a scaffolding pole and FIG. 7 shows a cross section through a further embodiment of a scaffolding pole. As FIG. 1 shows, two identical scaffolding rods 1 are at right angles to one another connected by a scaffold clamp 2.

The scaffolding poles 1 are made of impact-resistant plastic and are in the form of tubes that are stiffened by radial ribs 4. Around the circumference, the scaffolding rods 1 have a thread 3, the tips of which, as FIG. 1a shows, are rounded. The scaffolding clamp 2 has a corresponding thread on the surfaces of the center piece and the clamping shells that work together with the Gerpstrstangen, so that when the parts are clamped together, the axial forces were directly absorbed by the thread flanks. Any shape can be used. In a modified design, the profiles can also be formed by collars that are parallel and spaced from one another. 2, 3, 4 and 6 show other ways of stiffening the scaffold poles 1. In the design according to FIG. 2, three radial ribs 4 are provided, in the case of FIG. 4, five radial ribs 4 are provided. The ribs can also consist of metal that is partly embedded in the plastic. In the design according to FIG. With .the design. According to FIG. 6, the scaffolding rod 1 contains three continuous cylindrical bores 7.

Figure 7 illustrates another way of stiffening a scaffolding pole. Here a core in the form of a metal tube 9 is provided, which is impact-resistant Plastic is coated, which is provided with dem.Profil 3 plastic pipe forms. Both parts are firmly connected to one another to form a unit. That Metal pipe 9 can improve the connection with the plastic perforations contain.

Figures 4 and 5 illustrate a further embodiment of the arrangement according to the invention, by means of which a rotationally fixed connection of the two parts is achieved will. The @ scaffold rod 1 has axially continuous afford 8 on the circumference, which in corresponding axially continuous grooves in the surfaces that work together with the scaffold rod the scaffolding clamp 2 fit. In a modified design, they can also do the scaffold clamp are provided, which then in corresponding axial grooves on the circumference the scaffolding poles engage.

Claims (1)

P ate -nt ans pr ü che 1. Arrangement for connecting scaffolding poles, d adurchge, indicates that the scaffolding poles (-1) . consist of impact-resistant plastic and are provided on the circumference with a profile that has surfaces over the length of the scaffolding rod. distributed to absorb forces acting in the axial direction, and that scaffolding clamps (2) have a corresponding counter-profile on the surfaces lying against the scaffolding rods . -2, arrangement according to claim 1, characterized in that the profile is a thread (3). 3. Arrangement according to claim 1, characterized in that the profile is formed by collars lying parallel at a distance from one another, 4. Arrangement according to claim 2 or 3, characterized in that the outer edges of the profile are edged off, 5. Arrangement according to a of claims 1 to 4, characterized in that the GewIststangen (1) are designed as tubes with star-like arranged ribs (4). 6. Arrangement according to claim 5, characterized in that the radial ribs (4) on the inside of a cylinder (5) end in which a reinforcing tube (6) i is inserted, for example made of metal. 7. Arrangement according to one of claims 1 to 4, characterized in that the scaffolding rods (1) have continuous, preferably cylindrical cavities (7). B. Arrangement according to one of claims 1 to 4, characterized in that the scaffolding rods (1) consists of a core made of a metal tube (9) which is coated with impact-resistant plastic. 9. Arrangement according to one of claims 1 to 8, characterized in that at least one continuous groove in the axial direction is provided on the circumference of the scaffolding rods (1) or on the surfaces of the scaffolding clamp (2) that work together with them, into which a corresponding protruding strip ( 8) fits on the inner surfaces of the scaffold clamp or the circumference of the scaffold rod.