LU102728B1 - Ceiling element - Google Patents

Abstract

The invention relates to a ceiling element (1), which is preferably made of wood-based materials and is intended for mounting a ceiling, with a back layer (2) which (2) delimits at least one cavity (6), and with an underlying exposed layer (7). It is characteristic of the ceiling element (1) according to the invention that the visible layer (7) is penetrated by at least one joint (8) open on the visible side (cf. FIG. 1).

Description

BL-5215 'LU102728 ceiling element

The invention relates to a ceiling element, which is preferably made of wood-based materials and is intended for the assembly of a ceiling, with a back layer, the at least one

Limited cavity, and with a visible layer below.

Ceiling elements made of wood-based materials have already been created with which storey ceilings can be installed in buildings.

A ceiling element of the type mentioned at the outset is known, for example, which has a back layer that delimits at least one cavity (see https://www.lignotrend.de/produkte/zertIERTebauteile/ B01-decke-mit-Holzunteransicht /). A pressure distribution plate is provided on the back sheet to support the floor structure.

On the flat side of the facing away from the floor structure

Pressure distribution panels are glued on cross-laminated timber rib elements that are spaced apart from one another and are arranged parallel to one another, with rib elements that are adjacent to one another each laterally delimiting an interior space which can be filled with a weight bed for impact sound insulation.

With such a weight bed, the absorption behavior with regard to the impact sound effects is to be improved by applying additional masses in the load-bearing cross-section and a suspended ceiling is to be supported or replaced for the same purpose.

The rib elements laterally delimiting the cavity have a transverse position on their downward-facing end face facing away from the floor structure, which is also intended to increase the dimensional stability of the previously known ceiling element.

On this transverse layer, an underlying visible layer is applied on the visible side, which is a layer from

Solid wood or veneered wood-based materials as a closed surface or an acoustic profile made of mutually spaced, parallel slots.

BL-5215 2 LU102728 It has been shown, however, that the protection against impact sound transmission in the case of the previously known ceiling elements, especially in the low-frequency range, is still in need of improvement. The object is therefore to create a ceiling element of the type mentioned at the outset that is characterized by improved impact sound protection, especially in the low-frequency range.

In the case of the ceiling element of the type mentioned at the outset, the inventive solution to this problem consists in particular in that the visible layer is penetrated by at least one open joint on the visible side, which opens into the at least one cavity.

- The ceiling element according to the invention has a back layer which delimits or encloses at least one cavity. The ceiling element according to the invention also has a visible position below, which determines the view from the floor below onto the ceiling element according to the invention. The visible layer is penetrated by at least one joint that is open on the visible side and opens into the at least one cavity. The ceiling element according to the invention does not use the effect of a Helmholtz resonator to improve the room acoustics, but rather it is adjusted to the low-frequency range. Since the reserve delimits or encloses at least one cavity, this impact sound insulation is built into the load-bearing ceiling cross-section and an additional suspension height is avoided. The ceiling element according to the invention is thus characterized by an efficient ceiling cross-section with a low element height and, at the same time, by improved impact sound insulation. This way an improvement will be made

BL-5215 3 of the subjectively perceived impact sound is achieved without the LU102728 impairing the room acoustics.

In order to be able to adapt the construction and the structure of the ceiling element according to the invention to the disturbing low-frequency range and to cover, for example, the sound insulation in the range between 50-100 Hz, the at least one cavity in the ceiling element according to the invention can be adjusted accordingly with regard to its cavity height, width and depth be adjusted and coordinated. Several cavities are also possible in each individual ceiling element. An adaptation of the ceiling element according to the invention to the disturbing low-frequency area is also possible through the coordinated and selected characteristics of the joints and their number and spacing. By variably adapting the joints to the frequency to be absorbed, it is possible to adapt the absorption depending on the ceiling element and element structure. Thus, a preferred embodiment according to the invention provides that the at least one cavity has a width and / or depth which is more than double compared to the depth of the joint.

It can be advantageous if the at least one cavity has a longitudinal extent which is more than twice as long as the length of the at least one joint opening into this cavity. The ceiling element according to the invention is characterized by optimized impact sound protection in the low-frequency range, the room acoustics not being impaired thereby. For aesthetic reasons and / or to improve the room acoustics, it can be advantageous if the visible layer has a closed surface or an acoustic profile on the visible side.

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BL-5215 4 LU102728 Fine, aesthetically pleasing design according to the invention, which can also be made very aesthetically pleasing, provides that the acoustic profiling is formed by slits in the visible position that are preferably arranged parallel to one another on the visible side. A preferred embodiment according to the invention, in which the slots serving as acoustic profiling can easily be made in the visible layer without weakening the ceiling structure, provides that the visible layer is connected to the rear layer via a transverse layer. An embodiment is preferred in which the transverse layer is formed from strips spaced apart from one another and preferably arranged parallel to one another, in particular from solid wood strips. In order to additionally promote the sound-absorbing effect of this acoustic profiling on the visible side, it can be advantageous if a sound absorber made from a large number of fibers or chips, in particular wood wool, is provided in the space between adjacent strips of the transverse layer. So that the ceiling element according to the invention can function as a Helmholtz resonator without the visible joints opening into the at least one cavity being recognizable, it can be advantageous if the at least one joint leads from an assigned slot in the acoustic profile to the at least one cavity .

An effective and aesthetically pleasing embodiment according to the invention provides that at least two spaced apart joints lead from the assigned slot to the at least one cavity.

BL-5215 5 So that the ceiling element according to the invention also has a high LU102728 load-bearing capacity and load-bearing capacity, it is advantageous if the back layer is made of cross-laminated timber or glued laminated timber.

A particularly advantageous embodiment according to the invention provides that the back layer has a pressure distribution layer which faces away from the visible side of the ceiling element and is arranged parallel to the ceiling plane, which pressure distribution layer is connected at right angles to at least two axially parallel and spaced apart side boards - or ribs, which between them are at least delimit a cavity. These side walls, which are glued to the pressure distribution layer of the back layer, preferably made of cross-laminated timber, form statically load-bearing cross-sections which additionally stiffen and strengthen the ceiling element according to the invention and its pressure distribution layer.

Developments according to the invention emerge from the drawing in conjunction with the claims and the description. The invention is described in more detail below with reference to preferred exemplary embodiments.

It shows in a schematic and not to scale view: Fig. 1 a ceiling element in a cross-section arranged transversely to the longitudinal extension of the ceiling element, Fig. 2 the ceiling element from Fig. 1, shown here shortened in its longitudinal extension, in a longitudinal section, Fig. 3 a further embodiment a comparable designed ceiling element in a cross section, en

BL-5215 6 FIG. 4 shows another LU102728 exemplary embodiment of a ceiling element, shown in a cross section, which is designed in a manner comparable to the ceiling elements according to FIGS. 1 to 3, and FIG the ceiling elements according to FIGS. 1 to 4 is designed comparable.

1 to 5 different versions 1, 3, 4 and 5 of a ceiling element are shown in different views ©, which is preferably made of wood materials and intended for mounting a ceiling in a building not shown here. The ceiling elements 1, 3, 4 and 5 have a back layer 2 which delimits at least one cavity 6. The ceiling elements 1, 3, 4, 5 also have an underneath visible layer 7, which determines the view of the ceiling element 1, 3, 4, 5 from the floor below. In FIGS. 1 to 5 it can be seen that the visible layer 7 is penetrated by at least one joint 8 which is open on the visible side and which opens into the at least one cavity 6. The ceiling elements 1, 3, 4, 5 shown here do not use the effect of a Helmholtz resonator to improve the room acoustics - but rather this effect is set to the low-frequency range in the case of ceiling elements 1, 3, 4, 5 in order to avoid the To absorb stimuli from the impact sound in the ceiling in the reception room. The ceiling element can be adjusted to the frequency range to be absorbed by the dimensions of the at least one cavity 6, the cross-sectional shape of the joint 8 and the joint width, the joint length and the distance between adjacent joints 8, in particular those leading to a common cavity 6. Here is the

BL-5215 7 Joint depth to be adapted to the construction height penetrating in ceiling element 1, 3, 4, 5 to LU102728 in the area of visible layer 7.

It is clear from the longitudinal and cross-sections in FIGS. 1 to 5 that the at least one cavity 6 has a width and / or depth which is more than twice that of the joint depth A. It can also be seen that the at least one cavity 6 has a longitudinal extent which is more than twice that of the joint length D of the at least one joint 8 opening into this cavity 6. In © Fig. 1 it can be seen that the joints 8 have a comparatively small joint width C. While the joint 8 on the left in FIG. 1 has joint side walls which run approximately parallel to one another, it can be seen in the joint 8 on the right in FIG. In Fig.

9 it can be seen that the joints 8 leading to a common cavity 6 and here arranged approximately on a line can be arranged spaced apart from one another with a joint spacing E.

A comparison of FIGS. 1 to 4 on the one hand and FIG. 5 on the other hand shows that the visible layer 7 of the 25 ceiling elements 1, 3, 4, 5 on the visible side has a closed surface (see FIG. 5) or an acoustic profile (see FIG . Fig. 1 to 4). The acoustic profile of the ceiling elements 1, 3, 4 shown in FIGS. 1 to 4 can be formed by slits 9 on the visible side and preferably parallel to one another in the visible layer 7, which is made of solid wood or veneered wood materials.

The back layer 2 of the ceiling elements 1, 3, 4, 5 is here made of cross-laminated timber. The back sheet 2 has one of the visible side of the ceiling element 1, 3, 4, 5 facing away and

BL-S5215 8 LU102728 pressure distribution layer 10 arranged parallel to the plane of the ceiling element 1, 3, 4, 5, which can support the floor structure not shown here.

At least two axially parallel, spaced apart ribs or side boards 11 arranged at right angles to the pressure distribution layer 10 are glued to the pressure distribution layer 10 and delimit the at least one cavity 6 between them.

These side boards or ribs 11 can also delimit or enclose further cavities 12, which are provided, for example, as installation channels and in which no joints 8 open on the visible side open.

Since the side boards 11 delimit at least the at least one cavity 6, part of the supporting ceiling element cross-section is activated for this cavity 6.

Since there is no need for an additional suspension height, an efficient ceiling cross-section with a low ceiling element height is achieved.

Since the side boards 11 support the pressure distribution layer 10, the side boards 11 delimiting the at least one cavity 6 also simultaneously form a statically load-bearing cross section.

In the case of the ceiling element 5 shown in FIG. 5, the at least one cavity 6 is limited to the visible side solely by the visible layer 7, which for this purpose is connected directly to the rear layer 2.

In the case of the ceiling elements 1, 3 and 4 shown in FIGS. 1 to 4, on the other hand, the visible layer 7 carrying the acoustic profile is connected to the rear layer 2 via a transverse layer 13.

This transverse layer 13 can be formed from a plate-shaped wood material or - as here - from strips 14 spaced apart from one another and preferably arranged parallel to one another, in particular from solid wood strips.

It can be seen in Fig. 2 that in the space between adjacent strips 14 of the transverse layer 13 also from a

BL-5215 9 a variety of fibers or chips made sound absorber LU102728 15, for example wood wool, can be provided. The slitting of the visible layer 7 serving as acoustic profiling can be achieved by simple cuts, the sound absorber 15 located in the intermediate spaces being activated. A faster and more cost-effective joining of the ceiling element 1, 3, 4 is thus also promoted in this area and a complicated or costly joining is avoided. Since the slitting used as acoustic profiling can also be industrially prefabricated, precise and plannable formatting of the ceiling elements is made easier. This applies in a comparable manner to the joints 8, which are also worked in as slots. This means that the ceiling elements 1, 3, 4 and 5 can be formatted inexpensively at the factory.

CELL

BL-5215 10 LU102728 List of reference symbols 1 ceiling element according to FIGS. 1 and 2 2 back layer 3 ceiling element according to FIG. 3 4 ceiling element according to FIG. 4 5 ceiling element according to FIG. 5 6 cavity 7 exposed layer © 8 joint 9 slot 10 pressure distribution layer 11 side board 12 ( jointless) cavity 13 transverse position = 14 strips 15 sound absorber A joint depth B depth of the cavity 6 C joint width D joint length E joint spacing a 25

Claims (13)

BL-5215 11 CLAIMS LU102728 1. Ceiling element (1, 3, 4, 5), which is preferably made of wood-based materials and is intended for mounting a ceiling, with a back layer (2) which (2) delimits at least one cavity (6), and with an underlying exposed layer (7) characterized in that the visible layer (7) is penetrated by at least one visible-side open joint (8) which opens into the at least one cavity (6). © 2. Ceiling element according to claim 1, characterized in that the at least one cavity (6) has a width and / or depth (B) which measures more than twice as compared to the depth (A) of the joint (8). 3. Ceiling element according to claim 1 or 2, characterized in that the at least one cavity (6) has a longitudinal extent which, compared to the length (D) of the at least one joint (8) opening into this cavity (6), is more than measures double. 4. Ceiling element according to one of claims 1 to 3, characterized in that the visible layer (7) has a closed surface or an acoustic profile on the visible side. 5. Ceiling element (1, 3, 4) according to claim 4, characterized in that the acoustic profile of the visible layer (7) is formed by the visible and preferably parallel slots (9) in the visible layer (7). EE BL-5215 12 6. Ceiling element (1, 3, 4) according to one of claims 1 to 5, LU102728, characterized in that the visible layer (7) is connected to the rear layer (2) via a transverse layer (13). 57. Ceiling element according to one of claims 1 to 6, characterized in that the at least one joint (8) / at least one of the joints (8) has joint side walls which run approximately parallel to one another, or that the at least one joint (8) / at least one of the joints (8) widens at least in a partial area towards the cavity (6), in particular in the shape of a funnel. 8. Ceiling element according to one of the preceding claims, characterized in that the transverse layer (13) is formed from spaced apart and preferably parallel to each other arranged strips (14), in particular solid wood strips. 9. Ceiling element according to claim 8, characterized in that a sound absorber (15) made from a plurality of fibers or chips, in particular wood wool, is provided in the space between adjacent strips (14) of the transverse layer (13). - 25 10. Ceiling element (1, 3, 4) according to one of claims 1 to 9, characterized in that the at least one joint (8) leads from an associated slot (9) of the acoustic profile to the at least one cavity (6) . 11. Ceiling element (1, 3, 4) according to claim 10, characterized in that at least two spaced apart joints (8) lead from the associated slot (9) to the at least one cavity (12). BL-5215 13 12. Ceiling element according to one of claims 1 to 11, characterized in that the back layer (2) is made of cross-laminated timber or glued laminated timber. 13. Ceiling element according to one of claims 1 to 12, characterized in that the back layer (2) has a pressure distribution layer (10) facing away from the visible side of the ceiling element (1, 3, 4, 5), which pressure distribution layer (10) with at least two at right angles arranged for this purpose, axially parallel and spaced apart side boards (11) or ribs connected ©, which delimit the at least one cavity (6) between them.