NL1006145C2 - Sound-insulated plate structure - Google Patents

Abstract

The structure (1) is composed of several adjacent plate parts of even thickness. The structure has a thickness in the region of 60mm. The fibrous material is stone wool with a density in the vicinity of 110 kg/ square cm. Each plate part on at least one side is provided with a cover layer with closed structure, such as aluminium foil. On the other side to the cover layer is a fibreglass fleece.

Description

Sound-insulating plate structure

The invention relates to a sound-insulating plate structure, which is in particular adapted for placement between a system ceiling and the building structure above it, which plate structure comprises fibrous material, such as mineral wool.

In modern utility construction, system ceilings are frequently used, which are placed some distance below the ceiling of the building construction. The partitions between rooms 10 are mainly placed up to the bottom of the suspended ceiling. The absence of a continuous partition wall means that the sound insulation between adjacent rooms is determined by the sound insulation of the suspended ceilings. This is often insufficient. In order to improve the sound insulation of the above-described construction, the applicant markets a sound-insulating plate structure of the type mentioned at the beginning under the name Rockfon Soundstop Barrier. Usually, the known plate structure is arranged in line with a dividing wall in order to improve the longitudinal sound insulation, and thus the air sound insulation, of the entire wall construction.

The object of the invention is to provide a sound-insulating plate structure of the above-mentioned type with an improved sound-insulating value.

To this end, the sound-insulating plate structure according to the invention is characterized in that the plate structure is composed of several adjacent plate parts. Surprisingly, it has been found that by composing the sheet structure from several sheet parts, the sound insulation value (Rw) improves considerably. The sound-insulating tl®® R1 4 5 2 sheet structure according to the invention is preferably composed of two sheet parts.

In a further preferred embodiment, the sound-insulating plate structure according to the invention has a thickness of approximately 60 mm. This has the advantage that the plate structure fits well into the U-profile on the top of a bandraster of the type commonly used to connect a partition to a suspended ceiling. This greatly facilitates the mounting of the plate structure.

In yet a further preferred embodiment, each plate part is provided on at least one side with a cover layer with a closed structure, such as aluminum foil. The plate parts are preferably placed with the cover layer facing outwards. This preferred embodiment provides the greatest improvement in the sound insulation value (Rw).

The invention also relates to a plate part as described as part of the plate structure according to the invention.

The invention will be described in more detail below with reference to the drawing, in which figure 1 shows an application of the sound-insulating plate structure according to the invention; figures 2 and 3 show the plate structure according to the invention in more detail.

Figure 1 shows plate structure 1 according to the invention, which is placed between system ceiling 2 and building construction 3. Plate structure 1 is placed in line with protective wall 4 that divides spaces 5 and 6. It is schematically shown how plate structure 1 contributes to the insulation of space 6 against sound waves 7, originating from space 5.

Figure 2 shows plate structure 1 and its placement in more detail. It can clearly be seen that plate structure 1 consists of several adjacent plate parts, in this example two plate parts. These plate sections 8 and 9 are shown in even more detail in figure 3. Each plate section 8, 9 comprises fibrous material, such as mineral wool, preferably rock wool. Practice has shown that rock wool with a density of approximately 110 kg / m3 is very suitable. Plate parts 8 and 9 are preferably of equal thickness. This has particular advantages when mounting the plate structure according to the invention.

When the plate structure 1 is placed in line with the partition wall 4, use can advantageously be made of the U-profile of bandraster 10, which is usually used in practice to couple a partition wall to a system ceiling. Plate structure 1 preferably has a total thickness of approximately 60 mm, with which the plate structure fits well in this standard U-profile.

Plate parts 8 and 9 are both provided on one side with a cover layer 12 with a closed structure. Preferably, the cover layer 12 is of aluminum foil, preferably 20 having a thickness in the range of approximately 0.01-1.0 mm and preferably 0.03 mm. Other suitable materials, such as plastics, paper, plaster, and the like, can also be used. It has been found in practice that the highest sound-insulating value is obtained when the cover layers 12 of the sheet parts 8 and 9 form the outside of sheet structure 1, as shown in figure 3. In this description, sound-insulating value Rw is intended (ie the "weighted sound reduction index" according to ISO 717-1982). Each plate part 8, 30 9 is provided on its other side with a finishing layer 13. Preferably, this finishing layer comprises glass fiber fleece, optionally provided with a porous lacquer layer.

The plate parts are preferably displaced in longitudinal direction relative to each other. By placing the plate parts in this so-called "wild connection" relative to each other, the edges of the plate parts "/ 0 6 i 4 5 4" are prevented from being aligned, which could cause a "sound leak". This distance is preferably at least 10 cm. The plate parts can also be placed in half-brick bond.

Naturally, the invention is not limited to the described and illustrated preferred embodiment. In particular, the plate structure can be composed of more than two plate parts. In addition, many other applications of the sound-insulating plate structure according to the invention are conceivable. In the context of the specific application described, it is further possible to place the sheet structure at a different position between the suspended ceiling and the building structure above it.

1 ^ 06145

Claims (11)

1. Sound-insulating plate structure, which is in particular adapted to be placed between a system ceiling and the building structure above it, which plate structure comprises fibrous material, such as mineral wool, characterized in that the plate structure is composed of several adjacent plate parts. 2. Sound-insulating plate structure according to claim 1, wherein the plate structure is composed of two plate parts. A sound-insulating sheet structure according to claim 1 or 2, wherein the sheet parts are of substantially the same thickness. The sound insulating sheet structure according to claim 1, 2 or 3, wherein the sheet structure has a thickness of approximately 60 mm. Sound-insulating sheet structure according to any one of the preceding claims, wherein the fibrous material is rock wool. The sound-insulating sheet structure according to claim 5, wherein the rock wool has a density of approximately 110 kg / m3. Sound-insulating plate structure according to one of the preceding claims, in which each plate part is provided on at least one side with a cover layer with a closed structure, such as aluminum foil. 8. Sound-insulating plate structure according to claim 7, in which each plate part is provided on one side of the covering layer and on the other side thereof with a finishing layer, for instance of glass fiber fleece. Sound-insulating plate structure according to claim 7 or 8, in which the plate parts with the covering layer are placed facing outwards. 10 0 6I4 5 Sound-insulating plate structure according to one of the preceding claims, in which the plate parts are displaced in longitudinal direction relative to each other. Plate part as described as part of the sound-insulating plate structure according to one of the preceding claims. 10061 45