DE2730606A1 - Vibration reducing mounting for living or working module on vessel - has elastic insert element between conical bodies with flange and rim which cooperate on insert failures - Google Patents

Abstract

The vibration reducing mounting for living/working quarter modules on vessels or structures with continuously running machinery includes an elastic insert (3) between two parallel conical surfaces. Relative movement of the cones is limited by stop bolts. The mounting flange (7) of the base cone (1) has a tapering rim around most of its periphery, and the module cone (2) includes a taper-edged flange around its base. In the event of insert failure, the tapers (31, 32) mate and convert the mounting into a rigid one.

Description

"Elastic mounting for ship superstructures"

The invention relates to an elastic, sound-insulating mounting for superstructures, deckhouses, lower bays and the like on vehicles, ships, floating devices, artificial islands, and others associated with working machines Platforms with a rubber-elastic insert between an inner truncated cone and an outer truncated cone, the inner truncated cone icing up anti-lift devices and the lifting devices the inner truncated cone ur (l the outer truncated cone from the elastic linla (lr connect independently, according to patent no.

(older patent application, official file number P 2640703.4).

Such bearings should reduce the structure-borne sound energy generated by the prime movers or other machine systems transferred to the vehicles, housings or the like will, insulate and their transmission or forwarding to superstructures, Deckhouses, \ I <, tt, lounge and work rooms reduce s @@ ie in c! <R the airborne noise that occurs,) (gel aij V ein den people reduce disturbing iiaß.

A storage for deckhouses is known from DT-AS 1 952 611, which consists of two rails arranged on top of each other and running fore and aft, wherein the lower rail has an upwardly tapering profile, while the upper rail is open below and overlaps the lower rail. Between longitudinally extending elastic bearing elements are arranged on these two rails. The disadvantage of this construction is insufficient force absorption by cii p bearing elements in the fore and aft direction. The Lagerel (merlte are here on thrust claimed, which requires additional stoppers at the rail ends. Auc) Such an arrangement can create excavating forces such as those encountered when working on a ship occur in rough seas, do not record, so that additional tie rods are required are.

The main application is therefore intended to create an elastic mounting that can absorb forces from any direction in a simple way is secured against being lifted out, can be installed and replaced easily and quickly can be adapted to different installation heights with a minimum of effort is.

The measures specified in the main application can create a be arranged on a platform exposed to structure-borne noise. The frustoconical design of the storage means that all can be horizontal acting forces and through the lifting up security all vertical / acting Forces are absorbed.

With the elastic, sound-insulating storage according to the main application However, the following problem can occur: The one used for the rubber-elastic insert Material is generally thermoplastic, that is, it changes at higher levels Temperatures its shape. This material can even change its viscous state pass over, so that the forces acting on the outer truncated cone are no longer can accommodate. Such a failure of the rubber-elastic insert can, for example occur when a fire breaks out on board a ship, so that the resulting high temperatures the material of the rubber-elastic insert to melt or at least bring it into the viscous state.

If the rubber-elastic insert fails, the connection is secure no longer guaranteed between the inner and the outer truncated cone, that is, storage can no longer serve its purpose. In particular, the horizontal acting forces are no longer absorbed in the desired way.

The invention is therefore based on the object of an elastic To create storage of the specified type, at which the above mentioned Disadvantages do not occur.

In particular, an elastic mounting should be proposed at which absorbs the horizontal forces even if the rubber-elastic insert fails can be.

This is achieved according to the invention in that, in the event of failure of the rubber-elastic Insert the lower edge of the outer truncated cone in positive engagement with the outer edge of the inner truncated cone can be brought.

Appropriate refinements are given in subclaims 2 to 4.

The advantages achieved with the invention are based in particular on that in the event of failure of the rubber-elastic insert between the inner truncated cone and the outer truncated cone due to external influences the elastically mounted The structure is brought into a safe end position, in which the form-fitting connection acting horizontally between the inner truncated cone and the outer truncated cone Forces can be reliably absorbed.

This ensures, for example in the event of a fire, that the structure cannot be moved horizontally. The forces acting vertically are taken up by the anti-lift device as before, whereby if necessary the truncated cones can still be screwed onto the base.

The form-fitting that results in the event of failure of the rubber-elastic insert Connection between the inner truncated cone and the outer truncated cone should be the Surrounding the entire elastic bearing with the exception of the area of the anti-lift device, so during the failure, for example heating, the rubber-elastic insert descending its guidance of the truncated cones is guaranteed up to the end position.

The invention is illustrated below using an exemplary embodiment explained in more detail with reference to the accompanying schematic drawings.

They show: FIG. 1 a partially sectioned side view of a Storage according to the present invention; Fig. 2 is a plan view of the storage according to Figure 1; 3 shows a built-in bearing according to FIG. 1; Fig. 4 is a partial view of a section along the line A-A of FIG.

The storage shown in Figures 1 and 2 has a upwardly tapering inner truncated cone 1 and an outer one slipped over it Truncated cone 2.

Between the two truncated cones 1 and 2 is a rubber-elastic one Insert 3 arranged, which is preferably adhered to at least one of the truncated cones is.

The inner truncated cone 1 is at its lower edge with a circumferential Flange 7 is provided, in which anti-lift devices in the form of stud bolts 4 are arranged are. The stud bolts 4 are designed as countersunk or welded screw bolts and face each other in pairs. The outer truncated cone 2 is at his Provided the lower edge with cantilever arms 8, which are connected to the 4-in Operational connection can be brought. The yokes 9 are by nuts 10 on the Stud bolt 4 attached; at the same time, the elastic insert 3 by these nuts 10 and the stud bolts are preloaded. To avoid of structure-borne noise bridges is between the cantilever arms 8 and the yokes 9, respectively elastic rubber buffer 6 is provided.

Furthermore, below each of the cantilever arms 8 there is an elastic one Stop 6 adhered to prevent the cantilever arms 8 from hitting the flange 7 target. The inner truncated cone 1 is on the side that has the smaller diameter with a flattening 12 is provided, which acts as an abutment for an elastic buffer 11 serves. The outer truncated cone 2 is on the side that has the smaller diameter has, e.g.

provided with a circumferential flange 13, in the holes 14 to Bracket of the structure to be stored are provided.

The flange 13 is provided with a central opening 16 which the elastic buffer 11 of the inner truncated cone 1 free passage to the above arranged mounting flange 15 permitted. The lower F Jnsch 7 is with holes 17 provided with which the elastic bearing element is exposed to structure-borne noise Platform, for example a ship deck 17, arranged in a form-fitting and force-fitting manner can be.

In Figure 3, the storage described above is shown in the installed position. The ship deck 17 is reinforced by T-shaped beams 18 and a floor plate 19.

In the base plate 19 threaded bores 20 are embedded in the Screw bolts 21 for fastening the flange 7 are screwed in. On the upper flange 13 of the outer truncated cone 2 of the Aufbauflanseh 15 comes to rest and is positively and non-positively connected to this with screw bolts 24. Of the Superstructure panel 15 supports lower sections 22 which support the superstructure floor 23 of the superstructure 25 wear. The bearing element according to the invention stands free in the space 26 between the ship deck 17 and the superstructure floor 23. This makes it easy to control and can be removed if necessary by simply loosening the corresponding screw bolts and interchangeable.

In Figure 4 is part of a section along the line A-A of Figure 2 shown. As can be seen from this figure, the lower edge is the outer one Truncated cone 2 formed with a cone 31, while the lower flange 7 of the inner truncated cone 1 is provided with an abutment 32, the shape of which is the shape of the cone 31 corresponds.

When the rubber-elastic insert 3 between the inner truncated cone 1 and the outer truncated cone 2 fails, so if, for example, at a A rise in temperature due to a fire becomes viscous or even melts, so lowers the lower edge of the outer truncated cone 2 until it rests on the flange 7. The cone 31 on the lower edge of the outer truncated cone 2 and the abutment 32 on the flange 7 are coordinated by their shape so that a reliable, form-fitting connection between the cone 31 and the abutment 32 results.

In this way, even if the rubber-elastic Insert 3 absorb the horizontal forces that occur.

In order to be affected by tensile forces after the failure of the rubber-elastic Insert 3 a lifting of the superstructure, for example a deckhouse, and thus the dissolution of the positive connection between the cone 31 and the abutment To prevent 32, the yokes 9 must be placed on the stud bolts with the aid of the screw nuts 10 4 screwed down so far, until they are on the cantilever arms 8 issue.

With the exception of the area of the anti-lift device 4 surround the cone 31 and the abutment 32 the entire storage. This ensures that the outer truncated cone 2 during its downward movement in the event of failure of the rubber-elastic Insert 3 is safely guided to the end position.

L e r s e i t e

Claims (4)

PATENT CLAIMS 1. Elastic, sound-insulating mounting for superstructures, Deckhouses, accommodations and the like on vehicles, ships, floating Cereals, artificial islands and other platforms connected to working machines with a rubber-elastic insert between an inner truncated cone and a outer truncated cone, the inner truncated cone having anti-lift devices and the anti-lifting devices remove the inner truncated cone and the outer truncated cone from the Connect the elastic insert with each other independently, according to patent no. (older patent application, official file number P 2640703.4), characterized in that if the rubber-elastic insert (3) the lower edge (31) of the outer truncated cone (2) with the outer edge (32) of the inner truncated cone (1) in form-fitting engagement can be brought. 2. Elastic mounting according to claim 1, characterized in that a cone (31) is formed at the lower edge of the outer truncated cone (2), while the outer edge of the inner truncated cone (1) with an abutment (32) with a corresponding Shape is provided. 3. Elastic mounting according to claim 2, characterized in that the abutment (32) on a circumferential flange (7) of the inner truncated cone (1) is trained. 4. Elastic mounting according to one of claims 2 or 3, characterized characterized in that the cone (31) and the abutment (32) the storage with exception the area of the anti-lift device (4).