NL9001840A - SOUNDPROOFING HOOD AND METHOD OF MANUFACTURING THE SAME - Google Patents

Description

SOUNDPROOFING HOOD AND METHOD OF MANUFACTURING THE SAME

The invention relates to a ceiling construction in which lighting fixtures are arranged. Such luminaires are used, for example, in offices and are included as part of system ceilings, consisting of a suspended support structure, which carries ceiling plates and lighting fixtures. The office rooms are usually only separated from each other by system walls, which extend from the floor to the ceiling construction. Since most lighting fixtures are acoustically relatively transparent, an unwanted sound transfer from one room to another can take place via the lighting fixtures, all of which communicate with the space above the ceiling construction.

The object of the invention is to provide facilities by means of which the sound transmission through the luminaires can be reduced to harmless proportions.

To this end, the invention provides a sound-absorbing hood, intended to be placed over a lighting fixture arranged in a ceiling construction, in order to reduce the sound transmission therethrough, which hood consists at least substantially of mineral wool and has a shape such that it has at least substantially with its lower edge can rest on the ceiling construction without gaps.

In particular, the hood can have the feature that the hood comprises four upright walls and a top plate.

In order to achieve good results with minimal material costs, a variant can advantageously have the feature that the shape of the hood is adapted to the shape of the luminaire.

The invention also relates to a method for manufacturing a sound-absorbing hood of the mentioned type. This method comprises the steps of: (1) providing a substantially mineral wool sheet; (2) forming two mutually perpendicular pairs of parallel bending lines, which jointly delimit the top plate and each delimit the upright walls with the associated edge of the plate; (3) removing the corner zones bounded by intersecting fold lines; and (4) converting the edge zones thus formed at substantially 90 ° in the same direction, such that those edge zones form the upright walls.

Depending on the stiffness of the structure thus obtained, it may be desirable to use the step; (5) coupling the adjacent edges of the upright walls after step (4).

The invention may further comprise the step: (6) performing step (1) by selecting a plate coated on both major surfaces.

This method may include; (7) performing step (6) by selecting a plate coated with aluminum foil and a mineral fleece, for example, consisting of glass.

Preferably, the method of the type described first is performed using: (8) performing step (4) such that the aluminum foil is on the outside and the mineral fleece is on the inside.

A very practical way of applying the fold lines is that which comprises the step: (9) performing step (2) by making grooves, for example by milling.

In particular, this method can be carried out by: (10) performing step (9) such that the walls make angles of substantially 90 ° to each other and 45 ° to the main face of the plate. As a result, a natural shape adaptation can be obtained when folding over 90 ° along the fold lines, which in particular leads to a mechanically very strong and rigid construction after using step 5.

The method of the type described above may comprise the step: (11) performing step (10) such that the depth of the grooves is 80-99% of the thickness of the plate. Preferably, this method is performed by: (12) performing step (11) such that the depth of the grooves is about 95% of the thickness of the sheet.

On the one hand, it is ensured that the outer edges are adhered to each other with sufficient mechanical strength, while on the other hand the bending operation can take place with relatively little force.

The method may further include: (13) performing step (5) by applying adhesive tape over the corners.

This method may include: (14) performing step (13) by selecting an adhesive tape consisting of an adhesive aluminum foil.

The invention will now be elucidated with reference to the annexed drawing. Herein: figure 1 shows a cross-section through a sheet of mineral wool, which is coated on both sides; figure 2 shows a perspective view of the plate according to figure 1, after it has been provided with V-shaped, milled-out grooves; figure 3 shows a perspective view of a hood obtained by removing the corners and folding the edge zones of the plate according to figure 2; figure 4 shows a partly broken away perspective view of a hood according to the invention in operating condition; figure 5 shows a partly broken away perspective view of a space with a ceiling construction, in which a number of hoods according to the invention are applied; and figure 6 shows a view corresponding with figure 4 of a variant of a hood according to the invention.

Figure 1 shows a plate 1 with a core 2 consisting of mineral wool, a first skin plate 3, consisting of a mineral fleece, in particular consisting of glass, and a second skin plate 4, consisting of aluminum foil, preferably glass fiber-reinforced aluminum foil.

Figure 2 shows that by means of a milling operation, not shown but generally known per se, two pairs of parallel, V-shaped grooves, 5.6 - 7.8 are provided in the plate 1. The depth of the grooves is approximately 95% of the total thickness of the plate 1. The walls of the grooves are mutually perpendicular to each other and make angles of 45 ° with the main plane of the plate 1.

The corner zones 9, 10, 11, 12 are then removed from the plate 1 according to Figure 2 by cutting the grooves delimiting these corner zones. The edge zones 13, 14, 15, 16 are then converted at 90 °, all in the same direction, as indicated by arrows 17. This gives the shape as shown in figure 3. The edge zones 13, 14, 15, 16 thus form the upright walls, which are connected to the top plate 18 over the fold lines.

In order to further promote the integrity of the sound-absorbing hood 19 thus obtained, a strip of aluminum adhesive tape 20 has been glued over the aluminum outer skin over the corners between the adjacent walls 13, 14, 15, 16.

Figure 4 shows a suspended ceiling construction 20, which comprises supporting means 21 for supporting a lighting fixture 22. During the assembly of the ceiling construction 20, the very light sound-insulating hood 19 is placed over the installed lighting fixture 22. Subsequently, the further construction was carried out.

Figure 5 shows a finished construction. From this figure it becomes clear again, in which way the sound-insulating hoods according to the invention make an essential contribution to the reduction of the sound transmission between the respective light fittings 22 and thus the sound transmission from one room to another. Dotted lines 23 provide a simple divider between

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lighting fixtures in the respective rooms could cause strong unwanted sound transmission. Due to the presence of the sound-insulating hoods 19 over the various luminaires, the transmission path via the space 26 above the ceiling construction 20 is effectively interrupted by very simple means. The improvement in the sound insulation by using the hood according to the invention proves to be very impressive in practice.

Figure 6 shows a hood 27 according to the invention, which rests on a ceiling construction 20, on which a layer of rock wool 28 has been applied while the lighting fixture 22 has been released to increase the sound insulation. In this case, a heat-dissipating gap 29 between the hood 19 or 27 and a ceiling tile 30 is filled with rock wool. Slits 33 are provided in the long side surfaces 31 and 32 of the hood 27 to dissipate heat.

Claims (14)

1. Sound-absorbing hood, intended to be placed over a lighting fixture arranged in a ceiling construction, in order to reduce the sound transmission therethrough, which hood is at least substantially made of mineral wool and has a shape such that with its bottom edge it can at least substantially without gaps rest on the ceiling construction. Hood according to claim 1, characterized in that the hood comprises four upright walls and a top plate. Hood according to claim 1, characterized in that the shape of the hood is adapted to the shape of the luminaire. A method of manufacturing a soundproofing hood according to claim 2, comprising the steps of (1) providing a sheet of substantially mineral wool; (2) forming two mutually perpendicular pairs of parallel bending lines, which jointly delimit the top plate and each delimit the upright walls with the associated edge of the plate; (3) removing the corner zones bounded by intersecting fold lines; and (4) converting the edge zones thus formed at substantially 90 ° in the same direction, such that those edge zones form the upright walls. A method according to claim 4, comprising the step of: (5) coupling the adjacent edges of the upright walls after step (4). The method of claim 4, comprising the step of: (6) performing step (1) by selecting a plate coated on both major surfaces. The method of claim 6, comprising the step of: (7) performing step (6) by selecting a plate coated with aluminum foil and a mineral fleece, for example, consisting of glass. The method of claim 7, comprising step: (8) performing step (4) such that the aluminum foil is on the outside and the mineral fleece is on the inside. The method of claim 4, comprising the step of: (9) performing step (2) by grooving, for example, by milling. The method of claim 9, comprising the step of: (10) performing step (9) such that the walls make angles of substantially 90 ° to each other and 45 "to the main face of the plate. The method of claim 10, comprising the step of: (11) performing step (10) such that the depth of the grooves is 80-99% of the thickness of the sheet. The method of claim 11, comprising the step of: (12) performing step (11) such that the depth of the grooves is about 95% of the thickness of the sheet. The method of claim 5, comprising the step of: (13) performing step (5) by applying adhesive tape over the corners. The method of claim 13, comprising the step of: (14) performing step (13) by selecting an adhesive tape consisting of an aluminum foil coated with an adhesive.