DE19638658C2 - Device for pressure shock absorbing fastening of a surface element to a wall element - Google Patents

Description

The invention relates to a device for pressure surge absorber be fixation of a surface element on an immovable wall element of a building.

Under the term surface element from covers, bars, gates, partitions and the like understood, the normal operation of the shield or access serve to a room by wall elements, in particular is limited by immovable components. The surface element ment or a holding part arranged thereon overlapping on the pressure surge pad constant side facing away from the outside of the wall element gene, the wall element and the surface element or that arranged holding part also have aligned with each other Through holes on by an elongated befe Stigungs- or connecting element are penetrated.

In premises that are at risk of explosion or deflagration it is necessary to do this under pressure and shock loads ensure that interconnected flat parts their space Maintain target position and in particular not uncontrollably be thrown away. It can namely be used damage to sensitive systems and components, which are housed in such rooms. In particular is the highly sensitive area of chemical plants and power plants, in particular also addressed the nuclear power plant area, in which have extremely high security requirements.  

A large number are used in industrial and research plant construction of flat covers, gates, partitions and the like Chen offered on over are attached to walls in a lapping manner. To serve at State of the art conventional fastening and connection medium in the form of bolts, screws, rivets and the like, which are usually dimensioned so that in the case of on occurring pressure or shock loads a secure hold of the Fasteners are guaranteed and the loads be rigidly recorded. This causes the cross cuts of the fasteners used expediently are relatively large.

DE 37 05 401 A1 describes a device known to absorb pressure surges on a building plastically or elastically has deformable elements.

The invention has for its object the known device like that to further develop that attached parts of it under Pressure and shock loads securely in their position and only controlled, slight movement gene subject to a load on the surface elements itself is reduced.

This task is accomplished by the Features of claim 1 solved. Beneficial Further developments of the invention result from the Unteran sayings.

According to claim 1 it is provided that the device has at least one elastically deformable, the surface element after reducing the pressure surge load element essentially returning to its original position, as well as at least one with the at least one elastic Element connected plastically stretchable Has element that is part of the elongated Fastener is and is effective when the minde least an elastic element under the load of the Pressure surge has reached a designated end stop position.  

The essence of the invention is considered to be two with one another to integrate connected elements in the fastener ren, wherein the first element is only elastic and in any case for an exact resetting of the area chenelements in its original position. But if the elastic area of the first element is no longer sufficient to cover the pressure surge the second element effective, which is particularly star pressure surges are additionally plastically deformed and thus Breaking or loosening the fasteners from the surface chenelement or the wall element avoids.

The elastic and the plastic are advantageously located Element in the longitudinal direction of the fastener behind at the. In a further development of the invention is as elastic Element of a screw the provided that ver coaxially to the elongated fastener running. The plastic element is advantageously a elongated, bolt-like rod that connects the through hole enforced. The bolt-like rod penetrates, for example, the elastic formed as a coil spring Element, wherein the coil spring in a housing like a Spring cup arranged on the inside of the wall element is and from a head of the stick towards the change ment is applied. This results in an easy to assembling and space-saving, space-saving construction se. The bolt-like rod has z. B. one for plastic deformation separate section provided as Tapering of the rod cross section can be formed or but from a different material from the other material of the rod with increased plasticity consists. The material properties of the elastic element and those of the plastic element are chosen so that a only then plastic deformation of the plastic element sets when the deformation of the elastic element to one  has reached the permissible maximum end stop value with others Words, the spring designed as a pressure element on block ge is driving.

The permissible maximum deformation path the plastic element is e.g. B. smaller than that permissible maximum deformation path of the elastic element.

If the surface element and the wall element are in the overlap area have an L-shaped cross-section and in the over coverage area a flat contact area between areas Chen element and wall element by a step-like overpass fen of or the L-leg is formed, is a opposite leadership of the pressure surge relative to each other other moving elements ensured so that the bolt not be loaded on shear, but only along their Longitudinal axis.

A display device can also be attached in a simple manner the plastic element that indicates if there is a plastic deformation of the plastic element has taken place and the element is to be replaced with it. The display device can, for example, be a mechanical one operated nose, which in the event of an extension of the pla tical element is visible in a display recess or takes one.

The invention is based on advantageous embodiments explained in more detail in the drawing figures. Show it:

Figure 1 shows a device for pressure shock absorbing fastening of a surface element on a Wandele element in the rest position.

FIG. 2a shows a device according to FIG. 1 when the pressure rises;

. Fig. 2b is a device according to Figure 1 for catching a momentary maximum stress by linear elastic behavior of the elastic member;

Fig. 2c interception of the movement of the surface element using the elasto-plastic working ability of the plastic element;

Fig. 3 is a load-time diagram showing the load distribution occurring during a pressure rise.

The first in drawing fig. 1 device 1 shown in detail serves for the pressure shock absorbing fastening of a surface element 2 to a wall element 3 , wherein the wall element 3 is an immovable component of a building and the surface element 2 is a cover or the like. The surface element 2 rests on a surface 5 facing away from the pressure shock load side 4 . The mutually facing surfaces 5 of the wall element 3 and the surface element 2 have mutually aligned through bores 6 which are penetrated by an elongated fastening element 7 . The fastening device now has at least one elastically stretchable, the surface element 2 after releasing the pressure surge load essentially returning to its original position, the first section in the form of an elastic element 8 and at least one second, plastically stretchable section in the form of a plastic element 9 , wherein the plastic element 9 is effective when the elastic element 8 has reached its end stop position under the pressure surge.

The elastic element 8 is a spring element in the form of a coil spring 10 which can be subjected to pressure and which runs coaxially with the elongated fastening element 7 . The plastic element 9 is designed as a bolt-like rod 11 which passes through the through holes 6 and the coil spring 10 . The coil spring 10 is arranged in a housing 12 in the manner of a spring cup on the pressure-shock-loaded side 4 of the wall element 3 . It is pressurized by a head 15 of the bolt-like rod 11 in the direction of the wall element 3 .

From Fig. 1 it can also be seen that the surface element 2 and the wall element 3 in the overlap area 20 have an approximately L-shaped cross section and with their L-legs 21 , 22 in the area of the surface 5 lie against each other under the pressure of the coil spring 10 .

The following is a drawing. 2 Referenced. For forces that are less than the force required for compressing the coil spring 10 , the surface element 2 and the wall element 3 still remain in their starting position ( FIG. 2a). At higher forces, the coil spring 10 is compressed, so that the surface element 2 is deflected relative to the wall element 3 by a distance X ₁ .

In drawing fig. 2b, the coil spring 10 has already moved to a block and is no longer able to permit further deflection of the surface element 2 relative to the wall element 3 . With further acting forces, the plastic element 9 is now effective and permits a further deflection of the surface element 2 relative to the wall element 3 by a distance X ₂ . As soon as the pressure shock load has decreased again, the coil spring 10 will return the surface element 2 to its original position relative to the wall element 3. As a result of the expansion of the plastic element 9 by the distance X ₂ (see FIG. 2), however, the head 30 of the screws spring 10 by the distance X ₂ further out of the housing 12 and is thus able to act as a display device.

The load-time diagram according to Fig. 3 describes a pressure build during a detonation in a space which is bounded by walls. First, the pressure rises to a maximum value, which is represented by the peak 40 . After the peak 40 , the pressure decreases somewhat, but the surface element 2 is still subject to a movement caused by the impulse.

If the coil spring 10 has moved to a block (after the peak), the plastic element 9 takes on the static load share using its elastic and elastoplastic ar working capacity. The pressure build-up shown in FIG. 3 represents a dynamic loading of the flat elements (surface element 2 , wall element 3 ) in the millisecond range.

Claims (10)

1. Device for pressure shock absorbing fastening egg Nes surface element ( 2 ) on an immovable wall element ( 3 ) of a building, the surface element ( 2 ) or a holding part arranged on this on one of the pressure shock loaded side ( 4 ) facing away from the surface ( 5 ) of the wall element ( 3 ) overlaps and the wall element ( 3 ) and the surface element ( 2 ) or the holding part have the aligned through bores ( 6 ) which are penetrated by an elongated fastening element ( 7 ), the device having at least one elastically deformable, the surface element ( 2 ) after the pressure surge load has been substantially returned to its original position ( 8 ) and at least one with the at least one elastic element ( 8 ) connected, plastically stretchable element ( 9 ), which is part of the elongated fastening element ( 7 ) is and becomes effective when the at least one elastic Ele element ( 8 ) under the pressure surge has reached a designated end stop position. 2. Device according to claim 1, characterized in that a helical spring ( 10 ) is provided as the elastic element, which extends coaxially to the elongated fastening element ( 7 ). 3. Device according to one of the preceding claims, characterized in that the plasti cal element is an elongated, bolt-like rod ( 11 ) which passes through the through holes ( 6 ). 4. The device according to claim 3, characterized in that the bolt-term rod ( 11 ) passes through the helical spring ( 10 ) formed ela-elastic element, the helical spring ( 10 ) in a housing ( 12 ) in the manner of a spring cup on the side ( 4 ) the wall element ( 3 ) is arranged and struck by a head ( 15 ) of the rod ( 11 ) in the direction of the wall element ( 3 ). 5. Apparatus according to claim 3 or 4, characterized in that the rod ( 11 ) has a section provided for plastic deformation from ( 9 ). 6. The device according to claim 5, characterized in that the special te section ( 9 ) is designed as a taper of the rod cross section. 7. The device according to claim 5, characterized in that the special te section ( 9 ) consists of a different material to the rod ( 11 ) different material with increased plasticity. 8. Device according to one of the preceding claims, characterized in that the permissible maximum deformation path (elongation) of the plastic element ( 9 ) is smaller than the permissible maximum deformation path of the elastic element ( 8 ). 9. Device according to one of the preceding claims, characterized in that the surface element ( 2 ) and / or the wall element ( 3 ) in the overlap area have an L-shaped cross section and with the L-legs ( 21 , 22 ) in the area Surface ( 5 ) against each other, so that the surface element ( 2 ) and the wall element ( 3 ) are guided against one another by guide elements when the pressure surge-triggered relative movement is carried out. 10. Device according to one of the preceding claims, characterized in that a display device is provided which signals a deformation of the plasti's element ( 9 ).