DE19700765A1 - Damped mounting for construction - Google Patents

Abstract

The mounting shaft has its mounting end secured between horizontal support plates (23) which are spaced apart by insert plates (21,22) and which are further packed in elastic packing (13). The spaces between the vertical and horizontal support plates are filled with an incompressible material (F), e.g. steel rods, to provide a rigid support while providing a damping effect for the mounting. The mounting plates can be plastic and also absorb vibrations.

Description

The invention relates to a transverse force mandrel bearing sound and vibration damping storage of components, like platforms, stair components or the like, with one in the cross mandrel bearing arranged, the longitudinally movable Auf taking a shear force sleeve serving for shear force mandrel, which are arranged centrally on a pressure distribution plate is that of a vibration-damping plastic plate is subordinate, with a contact between the Druckver partition plate and a housing of the transverse force mandrel bearing is prevented by an elastic lining.

Such a transverse force mandrel bearing is already out of the European patent application 0 716 192 known. That in it shown and described shear force bearing provides an advantageous performance even with a high base load adequate sound insulation.

However, it has been found to be disadvantageous that the inevitable when the shear force bearing is loaded  Deflection of the shear force mandrel in the upper shear force bearing half of the transverse force mandrel partially to compress the Filling material or the elastic lining leads, whereby the formation of sound bridges cannot be excluded can.

In addition, depending on the static installation situation so-called lifting or negative forces arise which lead to lead to the same effect.

The object of the invention is therefore a to create new shear force mandrel bearing, which also under long-term exposure to a high load a reduction sound insulation is completely excluded.

The solution to this problem results from the features of claim 1, in particular the features of the indicator partly, after which the transverse force mandrel sleeve with a cover plate is provided and that between the cover plate and the Another vibration-damping plastic plate is arranged.

With the help of the transverse force mandrel bearing according to the invention it is now possible, also as a result of the deflection of the Shear force mandrel upward forces through the cover spread so harmlessly over a large area that damage or a selective compression of the vibration-damping layer is avoided. Through the The arrangement according to the invention is thus the permanent Sound absorption function of the transverse force mandrel bearing poses.  

According to an advantageous embodiment of the invention the lateral force mandrel sleeve from the pressure distribution and the Cover plate and two spaced at right angles to it arranged intermediate webs formed. This arrangement is for an advantageously very robust and on the other hand relatively easy to manufacture.

In a further preferred embodiment, the Cover plate out as a pure pressure distribution plate forms, d. H. she too is able to handle the real burden to wear. This embodiment has the essential before partly that the transverse force mandrel bearing now two identical has load-bearing sides, so that it is almost out is concluded that the transverse force mandrel bearing by wrong Installation does not perform its function.

Since the space partially surrounding the transverse force mandrel sleeve with a filling material - for example hard foam is advantageous in a further embodiment Way biased the side elastic lining be what is beneficial to the sound and vibration damping affects.

In a particularly preferred embodiment of the Invention can fill material from both sides of the transverse force insertable steel rods can be formed, wherein the area between the steel bars and the housing respectively also with a vibration-damping plastic plate is filled out.

This transverse force mandrel bearing according to the invention has a again increased installation security that there is now the cross  Power mandrel bearing its function in any orientation With regard to the vibration-damping storage can meet.

The same also applies to an embodiment in which the filling material from a concrete filling, especially one Grout, is formed.

In this context, there is ultimately an execution conceivable form, in which the transverse force mandrel sleeve as an inner half of a steel block arranged bore is formed and that the steel block on all sides of vibration damping Plastic plates are held surrounded in the housing.

Further advantages of the invention result from the following subclaims and from the description of Embodiments. Show it:

Fig. 1 is a front view of a shear load dowel bearing with cut shear load dowel,

Fig. 2 is a longitudinal section through the shear load dowel bearing according to section line II-II in Fig. 1,

Fig. 3 is a perspective view of another shear load dowel bearing,

Fig. 4 is a front view of another shear load dowel bearing mandrel sleeve with a built in a block of steel transverse force,

Fig. 5 is a representation of the different mounting situations of a stair pedestal,

Fig. 6 shows the installation situation with a spiral staircase and

Fig. 7 is a sectional view of a transverse force mandrel bearing anchored in the masonry and in a component.

In the drawings, a transverse force mandrel bearing is generally designated by the reference number 10 .

The transverse force mandrel bearing 10 has a rectangular housing 11 with a lower wall 12 , an upper wall 13 , side walls 14 and a rear wall 15 . Near a housing opening 16 , the walls 12 , 13 and 14 are each provided with a nail bracket 17 arranged at a right angle, which are in the installation situation of the transverse force mandrel bearing 10 on the inner side of the formwork construction of a concrete structure 18 and fastening holes 19 for fastening to the formwork exhibit.

The interior of the housing 11 is provided opposite the side walls 14 with a soft, elastic lining 20 , which extends from the upper wall 13 to the lower wall 12 . Between this elastic clothing 20 a transverse force mandrel sleeve 21 is arranged, which consists of two spaced apart webs 22 interconnected pressure distribution plates 23 . Due to the beabstan Deten connection of the pressure distribution plates 23 via the webs 22 , a receiving space 24 for a transverse force mandrel 25 is formed. A load-transmitting elastomer bearing 26 made of synthetic rubber is arranged above and below the pressure distribution plates 23 . Depending on the orientation of the transverse force bearing 10 , one of these elastomer bearings 26 takes over the actual sound insulation. Such elastomer bearings 26 are available in various modifications for different applications. There is a direct relationship between the size of the load to be removed, the bearing geometry and the material hardness of the elastomer bearing, which results in a certain deflection. In an elastomer bearing 26 , the sound energy is basically converted into heat, the degree of insulation being dependent on the one hand on the natural frequency of the bearing and on the other hand on the excitation frequency.

Ultimately, the space between the webs 22 and the elastic lining 20 is provided with filler F consisting of rigid foam.

In Fig. 2 it can be seen that the transverse force mandrel bearing 10 can be used, for example, in masonry 18 of a wall, the transverse force mandrel 25 , which in this embodiment has a transverse iron 27 as a safeguard against being pulled out, for example in a platform component or a staircase construction 28 is anchored.

In Fig. 3 it can be seen that the complete transverse force mandrel bearing 10 including the transverse force mandrel 25 in perspective view. In contrast to the embodiment described above, the areas between the webs 22 and the side walls 14 of the housing 11 are also lined with elastomer bearings 26 , with a correspondingly dimensioned steel rod S being inserted between each web 22 and the elastomer bearing 26 . As a result, the installation of the transverse force mandrel bearing 10 in the upright position is also conceivable, since a vibration-damping load transfer is also possible in this orientation.

Another embodiment of a transverse force bearing 10 is shown in FIG. 4. Here, in the middle of an all-round lining of the housing 11 with an elastomer bearing 26, a steel block ST is arranged, in which a correspondingly dimensioned bore B takes over the function of the transverse force mandrel sleeve 21 . All-round vibration-damping load transfer is also possible here.

Different installation cases for a transverse force mandrel bearing 10 are shown in FIGS. 5 and 6. Numerous transverse force mandrel bearings 10 can be seen , which are anchored on the housing side in the surrounding masonry 29 , the transverse force mandrels 25 projecting into platforms 30 and 31 , which are connected by stairs 32 . On the other hand, the direct connection, for example, of a spiral staircase 33 using a transverse force mandrel bearing 10 on the masonry 34 is possible, as shown in FIG. 6.

The installation situation of a transverse force mandrel bearing 10 , in particular on the masonry side, is shown again in section in FIG. 7. It can be seen that below the housing 11 of the transverse force mandrel bearing 10 , a reinforced concrete plate 35 is additionally arranged, which has a size beyond the transverse force mandrel bearing 10 and is used for load distribution in the masonry 36 , the transverse force mandrel 25 being anchored in a component 37 .

Ultimately, the housing opening 16 of a transverse force mandrel bearing 10 can be covered with a fire protection plate for safety reasons in one embodiment in a manner not shown.

Claims (9)

1. Shear-force mandrel bearing for sound and vibration-damping mounting of components, such as platforms, staircase parts or the like, with a longitudinally displaceable receptacle of a shear-force mandrel sleeve arranged in the shear-force mandrel bearing, which is arranged centrally on a pressure distribution plate, which is supported by a vibration-damping plate Plastic plate is subordinate, wherein contact between the pressure distribution plate and a housing of the transverse force mandrel bearing is prevented by an elastic lining, characterized in that the transverse force mandrel sleeve ( 21 ) is provided with a cover plate and that another between the cover plate and the housing ( 11 ) vibration-damping plastic plate is arranged. 2. transverse force mandrel bearing according to claim 1, characterized in that the transverse force mandrel sleeve ( 21 ) from the Druckver distribution ( 23 ) and the cover plate and two spaced at right angles arranged intermediate webs ( 22 ) is formed. 3. transverse force mandrel bearing according to claim 1 or 2, characterized in that the cover plate is designed as a pressure distribution plate ( 23 ). 4. Shear force mandrel bearing according to one of the preceding claims, characterized in that the shear force mandrel sleeve ( 21 ) partially surrounding space is provided with a filling material (F). 5. Shear force mandrel bearing according to one of the preceding Claims, characterized in that the filling material (F) is essentially not compressible. 6. transverse force mandrel bearing according to one of the preceding claims, characterized in that the filling material (F) from both sides of the transverse force mandrel sleeve ( 21 ) insertable steel rods (S) is formed and that the area between the steel rods (S) and the housing ( 11 ) each with a vibration-damping plastic plate ( 26 ) is filled. 7. Shear force mandrel bearing according to one of the preceding Claims, characterized in that the filling material (F) from a concrete filling, especially a grout, is formed. 8. transverse force mandrel bearing according to one of the preceding claims, characterized in that the transverse force mandrel sleeve ( 21 ) as a within a steel block (ST) arranged bore (B) is formed and that the steel block (ST) surrounded on all sides by vibration-damping plastic plates ( 26 ) is held in the housing ( 11 ). 9. transverse force mandrel bearing according to one of the preceding claims, characterized in that the transverse force mandrel ( 25 ) near its free end has a bore for receiving a transverse iron ( 27 ).