DE19532894A1 - Fixture for attaching scaffolding to wall - Google Patents

Abstract

Scaffolding in which the effective length of the fixing device (14) is elastically changeable to increase or reduce the distance between the scaffolding (1 2) and the wall (14). The device is flexibly joined to the wall and to the scaffolding and has a telescopic rod joint (23 24) the length of which is variable against the force of a spring about a middle value.

Description

The invention relates to a device for fastening against a scaffold on a wall.

The known devices of this type have scaffolding shoes on, with the scaffold, e.g. B. scaffolding, rigidly connected Parts, for example hooks attached to a scaffolding platform, be hung up. The framework is then rigid and rigid connected to the wall. But then there is a risk that by the vibrations of the earthquake Underground these connections between the scaffold and the Break the wall or the scaffold or the wall or both collapse. In any case, at the time of an earthquake People on the scaffolding are extremely at risk.

The invention is therefore based on the object of a direction to create the Ge drive essential for people on a scaffold decreased.

The invention is based on the consideration that the danger damage or collapse or breaking of scaffolding poles is significantly reduced if the Ge arm and the wall independently of the vibrations are able to follow the underground. According to the Er achieved in that the effective length of a pre direction with which the scaffold is attached to a wall, to increase or decrease the distance between Ge scaffolding and wall can be changed elastically. This has the intent partly that during an earthquake this distance speaking against the vibrations of the scaffolding and the wall Spring effect enlarged or reduced and thus wall and Can vibrate scaffolding independently of each other. The scaffold is therefore much more earthquake-proof than scaffolding are connected to the wall in a known manner.

In one embodiment of the invention, the device hinged to the wall and to the scaffold, e.g. B. can a hook or an eyelet at the ends of the device be seen with eyelets or hooks on the wall and scaffolding Game can be mounted. Through such an articulated connection earthquakes can run in different directions are caught, for example, earthquakes, whose Direction runs parallel to the wall.

A particularly simple embodiment of the invention ßen device has a telescopic Stabver binding, their length against spring action by an average  value is changeable. The mean is chosen so that the scaffold is sufficiently firm for normal operation the wall is connected and the effective length of the rod Connection changed only in the event of an earthquake. This mean is immediately resumed by the spring action when the vibrations of the subsurface have subsided are.

This embodiment of the invention can go further in that regard be designed so that the device has a spring, between the inner face of the outer telescopic tube and the end face of the inner telescopic tube is. This spring can be a coil spring, a helical spring or, for example, an arrangement of disc springs. This spring can be loose in the space between the Face of the inner tube and the inner face of the outer tube inserted, then the spring only produces while reducing the effective length of the telescope assembly a spring action returning the parts. But it can for example the ends of a helical spring on the surfaces be rigidly attached to which they rest. In this case arises both when increasing the effective length of the Telescope arrangement as well as a reduction in their size resilient spring force.

This embodiment of the invention can also do so be further developed that a coil spring is used that is when stretched and under pressure in the direction of its axis about the same spring force depending on the travel having.

Springs that act both under pressure and when stretched have an approximately the same spring characteristic are Spezialfe  those whose production is relatively expensive. It can therefore be useful if in one embodiment of the inven dung two springs are provided, one of which at egg ner enlarging the distance between the wall and scaffolding is steered, but the other spring at a reduction this distance is deflected or claimed.

In principle, this embodiment of the invention can be used hend be further trained that they opened up telescopically is built, with a spring between the inner end face of the outer tube and the end face of this facing Inner tube is arranged, the outer tube one Has slot parallel to the axis in which one on the inner tube attached rod is guided to the outside. The second feather is then between this rod and one on the outer tube constant holder arranged on the of the inner face side of the rod facing away from the outer tube and at a distance is arranged by this rod. With this arrangement you can any two springs, but with approximately the same spring characteristic are used, the ends of which are either loosely attached to the surfaces facing them or attached there are. In the one lengthening in the axial direction Change of the device is then a spring on pressure claimed, whereas the other spring is not claimed or is stretched when the ends of it the surfaces on which they are attached. At the opposite change in length of this device then the other spring is under pressure, whereas the first mentioned spring either not at all or else, with spring ends attached to the adjacent surfaces Stretch is claimed. This arrangement ensures that the resilient spring force in both directions a Län gene change of the device is the same.  

In one embodiment of the invention, one is on the scaffold first edition protruding towards the wall from the scaffolding and on the wall one at a distance from this first edition attached a second edition. The are facing each other turned ends of the rods together by a spring rod connected. This causes the wall and scaffolding to shift possible in all directions, with the return spring force from all directions of the deflection at least approximately is the same. Acting in the axial direction of the spring rod Forces or force components can be absorbed the one end of the spring rod via a spring with the Pad is connected in the axial direction of the spring bar works.

Further features of the invention result from the following the description of an embodiment of the invention in Ver binding with the claims and the drawing.

In the drawing, the ver are only schematic understanding of the invention required parts are sketchy posed. Show it:

Fig. 1 seen a scaffold attached to the wall in a plane parallel to the wall;

Fig. 2 shows a first embodiment of a fastening device on a larger scale;

Fig. 3 shows a further embodiment, in which egg ne telescopic device is also used;

Figure 4 shows a third embodiment of the invention using a spring bar.

Fig. 5 is a detail of a further development of the embodiment according to Fig. 4.

In the embodiment shown in Fig. 1, a construction scaffold is shown, the support tubes 1 and support tubes 2 has, which are connected to each other below by a cross strut 3 and above by a cross strut and a scaffold platform 4 not shown. The support tubes 1 and 2 are connected at their lower end via elastic intermediate pieces 5 and 6 with known support feet 7 and 8 . At the upper ends of the support tubes 1 and 2 , support tubes 11 and 12 are fastened via elastic intermediate pieces 9 and 10 . The scaffold is connected via an elastically resilient device 14 to the wall 13 . The ends of the device 14 have hooks 15 and 16 which engage in eyelets or U-shaped iron bars 17 and 18 which are rigidly attached to the wall 13 and to the support 2 . The diameter of the eyelets 17 and 18 is so large that the hooks 15 , 16 engaging in them can rotate about a vertical axis of the eyelet and can also incline about a horizontal axis running parallel to the wall.

Fig. 2 shows the device 14 on a larger scale. It has two telescopically guided parts, namely an inner tube 23 which is guided in an outer tube 24 . In the outer tube 24 , a helical spring 20 is inserted between an inner end face 31 of the outer tube and an end face 19 at the inner end of the inner tube 23, the ends of which are attached to the inner end face 31 and the end face 19, respectively. The serving for hanging this device in openings or eyelets on fasteners on the wall or on the scaffolding serving hooks 15 and 16 are bent again in this embodiment of the invention at their outer hook end 21 or 22 , so that this device is not without Wei teres an unintentional shock can be posted in the upward direction. The spring 20 is subjected to pressure when the distance between the scaffold and the wall decreases. If this distance increases, because the ends of the spring are attached to the surfaces 31 and 19 , for example welded or soldered or screwed on, the spring 20 is pulled apart. As soon as the force between the scaffolding and the wall has subsided, the spring moves back into its rest position, so that the device 14 takes its original length again.

In the embodiment of the invention shown in FIG. 3, an inner tube 23 is in turn guided in a telescopic manner in an outer tube 24 and a spring 20 is arranged in the cavity between the inner end face 31 of the outer tube 24 and the end face 19 of the inner tube 23 . The outer tube 24 has an axially parallel slot 32 through which a rod 25 attached to the inner tube 23 emerges, so that when the inner tube 23 is axially displaced, the rod 25 in the slot 32 also moves in the axial direction. On the outer tube 24 at a distance from the rod 25, a holder 26 is attached in the radial direction on the surface 31 facing away from the inner end face 31 of the rod 25 and between the rods 25 and 26 , a spring 27 is arranged, which in the practical embodiment in one Cage can be guided. The ends of the springs 27 are preferably loosely applied to the rods 25 and 26 . Likewise, the ends of the Fe 20 lie loosely on the inner end face 31 or the end face 19 . If the distance between the scaffold and the wall is reduced, the spring 20 is subjected to pressure, whereas the spring 27, at best, expands slightly until it has reached its rest position. However, the distance between the scaffold and the wall increases, the spring 27 is subjected to pressure, whereas the spring 20 remains in its rest position. The arrangement is such that the springs 20 and 27 are almost in their rest position at the target dimension of the distance between Ge scaffolding and wall, but have a very high restoring spring force when changing this target dimension over a short distance.

Fig. 4 shows an embodiment, an angle 29 is fixed in to a support 28, the pioneering of the support 28 arm 34 into the space Zvi rule of the support 28 and the wall 13 protrudes to a certain extent. Below the wall 13 , an angle 30 is attached so that its arm 33 projecting from the wall projects at a distance from the longitudinal axis of the arm 34 into the space between the support 28 and the concrete wall 13 . On these arms 33 and 34 , expediently at the ends thereof, a spring rod 35 is connected which connects the two arms and which can elastically spring out in all directions transversely to its longitudinal axis and, after the external forces have subsided, returns to its original position. For this purpose, the end of the spring rod 35 can be rigidly attached to the arms 33 and 34 , so that the spring rod 35 bends approximately S-shaped when loaded, or else the ends of the spring rod can be somewhat in the arms 33 , 34 be rotatably supported about their longitudinal axis, but must not be able to pivot about a horizontal axis parallel to the wall par alleles.

If forces are to be taken from the above-mentioned embodiment, which act in the longitudinal direction of the spring rod 35, an end of the spring bar may be at least 35 connected by a force acting in the axial direction of the spring rod spring 36 with the support 33rd For this purpose, a sleeve 37 can be fastened to the support 33 , into which the spring rod end dips and is supported on a helical spring 36 , the ends of which are fastened on the one hand to the rod end and on the other hand to the inner end face of the sleeve ( FIG. 5).

Instead of a mechanical spring, air pressure sensors can also be used who are used, e.g. B. also in the manner of a shock absorber devices in motor vehicles.

Claims (11)

1. Device for attaching a scaffold to a wall, characterized in that the effective length of the device ( 14 ) for increasing and decreasing the distance between the scaffold ( 1 , 2 ) and the wall ( 14 ) can be changed ela stically. 2. Device according to claim 1, characterized in that the device ( 14 ) on the wall and on the frame ( 1 , 2 ) is articulated. 3. Apparatus according to claim 1 or 2, characterized in that it has a telescopic rod connection ( 23 , 24 ) whose length against spring action can be changed by an average. 4. The device according to claim 3, characterized in that it has a helical spring ( 20 ) which is arranged between the inner end face ( 31 ) of the outer telescopic tube ( 24 ) and the end face ( 19 ) of the inner telescopic tube ( 23 ). 5. Device according to one of the preceding claims 3 or 4, characterized in that the helical spring ( 20 ) has approximately the same spring force as a function of the Fe derweg at pressure and upon expansion in the direction of its axis. 6. Device according to one of the preceding claims, characterized in that it has a spring arrangement with at least two springs ( 20 , 27 ) to achieve a favorable spring characteristic. 7. The device according to claim 6, characterized in that it is constructed telescopically, the one Fe ( 20 ) between the inner end face ( 31 ) of the outer tube ( 24 ) and the end face ( 19 ) of the inner tube ( 23 ) facing this is, and that the outer tube ( 24 ) has a slot ( 32 ) in which a rod ( 25 ) attached to the inner tube ( 23 ) is guided to the outside and that a second spring ( 27 ) between this rod ( 25 ) and one on the outer tube ( 24 ) fastened holder ( 26 ) is arranged, which is arranged on the side of the rod ( 25 ) facing away from the inner end face ( 31 ) of the outer tube ( 24 ) and at a distance from this rod ( 25 ). 8. The device according to claim 1, characterized in that it is attached to the scaffold, projecting in the direction of the wall from the scaffold support ( 34 ) and was from this first edition ( 34 ) on the wall BEFE Stigt second edition ( 33rd ) and that the conditions ( 33 ) and ( 34 ) are connected by a spring bar ( 35 ) to each other. 9. The device according to claim 8, characterized in that at least one end of the spring bar ( 35 ) via a spring ( 36 ) acting in the axial direction of the spring bar ( 35 ) is connected to a support ( 33 , 34 ). 10. The device according to claim 1 or 2, characterized records that they are like a shock absorber for Motor vehicles is trained. 11. Device according to one of the preceding claims, characterized in that between the supporting parts ( 1 , 2 , 11 , 12 ) of the frame elastic intermediate pieces ( 5 , 6 , 9 , 10 ) are arranged.