STRUCTURAL SYSTEM WITH ACOUSTIC INSULATION PROPERTIES

Abstract

The invention relates to a structural system (1) with acoustic insulation properties, comprising modular mountable enclosures (2) for configuring a construction (3), the enclosures (2) comprising at least three layers (4, 5, 6) joined together by means of fasteners (7a, 7b, 7c) with discreet elastic elements, the system having at least one second layer (5) disposed in an intermediate position between the first layer (4) and the third layer (6).

Claims

1. Structural system (1) with acoustic insulation properties that comprise modular mountable enclosures (2) to configure a construction (3) characterised in that the enclosures (2) comprise at least three layers (4, 5, 6) that are joined together by fasteners (7a, 7b, 7c) with discrete elastic elements, with at least, a second supportive layer (5) that is arranged in an intermediate position between the first (4) and the third layer (6).

2. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that it includes a structure (9) of beams (10), crossbars (11), and connectors (23, 25) to which is fastened at least the second layer (5).

3. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that discrete elastic elements ideally comprise elastomer dowels (8), while the fasteners (7a, 7b, 7c) comprise primary holes (7a) drilled in the second layer (5) and/or in the beams (10), crossbars (11), and connectors (23, 25) for the insertion and fit of such dowels (8); and/or some secondary holes (7b) drilled in the first layer (4) to receive said dowels (8); and/or some tertiary holes (7c) drilled in these dowels (8) for threading or insertion of stems (16) for securing the third layer (6).

4. Structural system (1) with acoustic insulation properties according to claim 3 characterised in that the dowels (8) comprise extensions (8a) of smaller section to fit in the secondary holes (7b).

5. Structural system (1) with acoustic insulation properties according to claim 3 characterised in that the dowels (8) and/or their extensions (8a) have a cylindrical configuration.

6. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that the second layer (5) and/or the beams (10), crossbars (11), and connectors (23, 25) contain some indentations (14) directed toward the first layer (4), while the first layer (4) contains nipples (15) directed toward such indentations (14) for introduction into them and to improve the assembly and centring.

7. Structural system (1) with acoustic insulation properties according to claim 2 characterised in that the first layer (4) comprises some projections (4a) complementary to the holes (16a) generated between the beams (10) and/or crossbars (11) of the structure (9), to fit into them.

8. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that the first layer (4) is made of 19-millimetres thick mdf, the second layer (5) of 16-millimetres thick mdf, and the third layer (6) of 10-millimetres thick mdf.

9. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that some or all of the layers (4, 5, 6) are made of plastic materials and/or metal.

10. Structural system (1) with acoustic insulation properties according to claim 8 characterised in that the first layer (4) and/or the third layer (6) comprise an acoustic and/or bituminous membrane (17) on at least one of their faces.

11. Structural system (1) with acoustic insulation properties according to either of the claim 8 characterised in that the third layer (6) comprises a polyurethane agglomerate.

12. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that the first layer (4) and/or the second layer (5) and/or the third layer (6) and/or the structure (9) comprise a felt coating on at least one of their faces and/or edges.

13. Structural system (1) with acoustic insulation properties according to claim 1 characterised in that it includes a visible exterior and interior finish of the enclosures (2) in felt, raw wood, PVC, rubber, metallic sheeting, aluminium, zinc.

14. Structural system (1) with acoustic insulation properties according to claim 2 characterised in that the beams (10) and crossbars (11) comprise various end sections (18) at right angles to form corner joints, and in which end sections (18) are located indentations (14) and/or primary holes (7a), comprising the primary internal reinforcing brackets (19) between these end sections (18) and interior support dowels (20) between the end sections (18) and the primary brackets (19); while the connectors (23, 25) comprise a primary connector (23) that comprises three secondary brackets that form a trihedron and three shorter primary covers that are related two on two to the said secondary brackets (22), and a secondary connector (25) that comprises a straight tertiary bracket (31) and two shorter covers that form a dihedral centred on the third bracket (31).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 shows three views, where the two upper views correspond to an acoustics cabin from two different points of view, and the third view corresponds to a larger construction, such as a playroom for children.

[0009] FIG. 2 shows an exploded view of the cabin shown in FIG. 1 and an expanded detail of a primary connector of the structure.

[0010] FIG. 3 shows a partial detail of an enclosure floor and walls of a construction made according to the invention system, where three floor sections can be seen with three visible layers of the system, and on the right can be seen the outer layer with the different layers assembled or partially disassembled.

[0011] FIG. 4 shows a detail of the corner between walls, showing only the structure to the left and with the layers assembled to the right, or partially disassembled from the outer layer, similar to what is shown in FIG. 3. It also displays the magnified detail of a configuration dowel of a discrete elastic element.

[0012] FIG. 5 shows a detail of the corner joint between two enclosures.

[0013] FIG. 6 shows a detail of the layers of the invention system, in an example that lacks the structure, and where the supporting layer is capable of structurally supporting the enclosure by itself.

[0014] FIG. 7 shows a detail view of a beam or an angular crosspiece for a corner.

[0015] FIG. 8 shows a detailed view of a primary connector. This figure also shows how it comprises three secondary brackets that form a trihedron and three primary covers that are shorter than those brackets and that are related two to two of them.

DESCRIPTION OF A PRACTICAL EMBODIMENT OF THE INVENTION

[0016] The structural system (1) with acoustic insulation properties of the invention is of the type that comprises various modular mountable enclosures (2) to configure a construction (3) (see FIG. 1), and where, according to the invention, the enclosures (2) comprise at least three layers (4, 5, 6) (see FIG. 6) that are joined together with fasteners (7a, 7b, 7c) with discrete elastic elements, supporting at least a second layer (5) that is arranged in an intermediate position between the first (4) and the third layer (6). This document considers that the supporting layer has the properties of strength and rigidity to sustain itself and to provide a mounting and support for the rest of the elements. As mentioned later in this document by way of example, this second layer (5) can be made of mdf (medium-density fibreboard), PVC, metal etc., that are materials that are accredited to comply with these properties for themselves.

[0017] It is also foreseen that the system (1) (see FIGS. 2 to 5) can additionally comprise a structure (9) of beams (10), crossbars (11), and connectors (23, 25) to which would be fastened, at least, the second supporting layer (5), such that the said second layer (5) also cooperates in holding and squaring (maintain perfectly in position to the beams (10) and crossbars (11)) the structure (9). With this structure (9) it is possible to build larger constructions. The union of the second layer (5) to the structure (9) is made through fasteners that comprise some dowels.

[0018] The discrete elastic elements ideally comprise dowels (8) of an elastomer material (see FIGS. 4 to 6), while the fasteners (7a, 7b, 7c) would comprise some primary holes (7a) drilled in the second layer (5) and/or in the beams (10), crossbars (11), and connectors (23, 25) (see FIGS. 4 and 5) where appropriate, for insertion and fitting of these dowels (8), and/or some secondary holes (7b) drilled in the first layer (4) (see FIGS. 4 and 5) to fit these dowels (8), and/or some tertiary holes (7c) drilled in these dowels (8) for threading or insertion of stems (16) (see FIG. 5) for securing the third layer (6). Logically, such stems (16) also pass through the third layer (6) through some holes (50). With this configuration, with a single dowel (8) passing through the second layer (5) and, as appropriate, to the structural elements (9), and attached to the other two layers (4, 6), point fastenings are obtainedby simultaneously passing the dowels (8) through the primary holes (7a) drilled in the second layer (5) and through the structural elements (9) in the case of using them, and attaching them to the other two layers (4, 6) as wellthat enhances the capabilities of the system (1) isolation. It is foreseen that the dowels (8) preferably comprise some extensions (8a) of smaller section to fit in the said secondary holes (7b) so that the widest part of the dowels (8) stops the insertion of the extensions (8a) at the first layer (4) obtaining a better finish and a more effective assembly. Furthermore, the dowels (8) and/or their extensions (8a) ideally have a cylindrical configuration.

[0019] To improve the assembly and centring between the second supporting layer (5)or the structure (9) as the case may beand the adjacent first layer (4), some indentations (14) are planned in the second layer (5) and/or in the beams (10), crossbars (11), and connectors (23, 25) of the structure (9), according to the invention, directed toward the first layer (4) (see FIG. 4), while nipples (15) are located in the first layer (4) directed toward such indentations (14) for introduction into them (see FIGS. 4 and 6). In the figures, these through-holes (14) cut through the element in which they are drilled, but the important aspect is that they are directed toward the first layer (4).

[0020] It is also foreseen that the first layer (4) could comprise some projections (4a) complementary to the holes (16a) generated between the beams (10) and/or crossbars (11) of the structure (9), to fit into them, also improving the rigidity and the isolating properties of the whole.

[0021] For its part, the first layer (4) is ideally made of mdf, 19 millimetres thick, the second layer (5) of 16-millimetre mdf, and the third layer (6) of 10-millimetre mdf, planks of wood derivatives with properties of flexibility, mass, and absorption that improve the isolation. Complementary or alternative to the above, any or all of the layers (4, 5, 6) could also be made of other suitable materials, such as plastic materials (PVC for example), and/or metal, etc.

[0022] It has also been considered that the first layer (4) and/or the third layer (6) could comprise an additional acoustic and/or bituminous membrane (17) on at least one of their faces that can be appreciated in the figures on the inside of the third layer (6). Furthermore, the third layer (6) can also incorporate a polyurethane agglomerate, that is not shown. It is also foreseen that the first layer (4) and/or the second layer (5) and/or the third layer (6) and/or the structure (9) could comprise a coating, not shown, of felt on at least one of their faces and/or edges with the purpose of sealing the joints between layers. With regard to the visible exterior and interior finish of the enclosures (2), this may be with the mentioned coating of felt, and/or could also be with raw wood, PVC, rubber, or metallic sheeting, aluminium, zinc, etc.

[0023] With regard to the structure (9), basically the beams (10) and crossbars (11) comprise end sections (18) at right angle to join in the corner as seen in FIGS. 4 and 5, and with more detail in FIG. 7, and in whose end sections (18) are located the indentations (14) and/or primary holes (7a), comprising the internal reinforcing primary brackets (19) between these end sections (18) and the internal support dowels (20) between the end sections (18) and the first brackets (19) (see FIGS. 5 and 7); while the connectors (23, 25), comprise a first connector (23) (see FIGS. 2 and 8) that comprises three secondary brackets (22) that form a trihedron and three shorter primary covers (24), that relate two on two to these secondary brackets (22), and a second connector (25) (see FIG. 4) that comprises a third straight bracket (31) with two second covers (32) that form a dihedral centred on the third bracket (31).

[0024] Sufficiently described the nature of the invention, as well as the embodiment in practice, it should be noted that the provisions referred to above and represented in the attached drawings are susceptible to modifications of detail as long as they do not alter the fundamental principle.