EP3486393A1 - Wooden beam ceiling and prefabricated ceiling element therefor and method of making the ceiling element - Google Patents

Abstract

The present invention relates to a ceiling element (25) for a wooden beam ceiling comprising a plurality of ceiling beams (2) and a lower ceiling covering, the ceiling covering (4) comprising a slatted substructure comprising a plurality of slats and a lower cladding attached thereto, the slats being fixed to the floor beams ( 2) by means of two side legs and a central web having connecting brackets (15; 27) are suspended, wherein the central web of the brackets (15; 27) has at least one bend or has a curved course, and a wooden beam ceiling with such a ceiling element and a Process for its preparation.

Description

The present invention relates to a wooden beam ceiling and a prefabricated ceiling element therefor and a method for its production.

A generic wooden beam ceiling has a plurality of spaced, supporting ceiling beams made of wood, arranged above the ceiling joists upper planking with a floor structure arranged thereon and arranged below the ceiling joists blanket or ceiling covering. The ceiling clothing has a slatted substructure of several wooden slats and a lower planking, z. B. of plasterboard, on. The slatted substructure or the battens are used to attach the lower planking to the ceiling joists, for which purpose the battens are attached to the underside of the ceiling joists. In the cavities between the ceiling beams, an insulation may be present.

If the battens lie directly against the floor joists, the sound transmission of the impact sound is relatively intense.

Therefore, in order to improve the sound insulation, it is known to fasten the battens by means of spring clips on the ceiling joists so that the battens have a certain distance from the ceiling joists and this distance is held by resilient elements. Or it can be used for the spaced attachment of the lower planking to the ceiling beams spring rails or TPS profiles (see brochure of Company Fermacell, "Constructions for walls, ceilings and floors", 03/2012, https://www.fermacell.de/de/docs/FEW_7749-D_Konstruktionsprospekt_2.pdf ).

Furthermore, goes from the DE 83 26 657 U1 a wooden ceiling, in which the battens are attached by means of conventional brackets or corrugated nails at a distance to the ceiling joists. The brackets or shaft nails are hammered from a beam side surface of the ceiling joists in the ceiling joists or by a slat side surface of the battens in the battens.

Under the name "VF-hangers", Knauf also sells direct swing hangers for prefabrication in the prefabricated house industry on the market. These consist of two U-plates, between which an elastomer buffer is present for sound decoupling. The one U-sheet is connected to the ceiling joists, the other U-sheet is connected to the support bar.

If possible, prefabricated ceiling elements are delivered to the construction site for the installation of wooden beamed ceilings in prefabricated houses. The prefabricated ceiling elements are usually made of the ceiling joists, which are provided with the upper and lower planking, wherein, if desired, an insulation can be introduced into the cavities.

For transport and storage, the prefabricated ceiling elements are usually stacked on top of each other. If the prefabricated ceiling elements have no distance between the slatted substructure and the ceiling joists, this is also readily possible. Of the known ceiling elements by far only the ceiling elements equipped with Knauf VF hangers can be stacked non-destructively one above the other. Solutions with spring clips, spring rails and TPS profiles can not be transported to the construction site as non-destructive prefabricated ceiling elements. They are therefore not supplied as prefabricated ceiling elements.

The object of the present invention is thus to provide a prefabricated, stackable ceiling element for beamed ceilings, which ensures a good footfall sound insulation.

Another object is to provide a wooden beam ceiling of at least one such prefabricated ceiling element and a method for its production.

These objects are achieved by a ceiling element according to claim 1 and a wooden beam ceiling according to claim 15 and a method according to claim 16 solved. Advantageous developments of the invention are characterized in the subsequent subclaims.

Figur 1:

Stark vereinfacht und schematisch einen Schnitt durch eine erfindungsgemäße Holzbalkendecke, senkrecht zu einer Balkenlängsrichtung eines Deckenbalkens

Figur 2:

Stark vereinfacht und schematisch einen Schnitt durch einen Deckenbalken senkrecht zu einer Balkenquerrichtung des Deckenbalkens mit erfindungsgemäß abgehängter Traglatte

Figur 3:

Schematisch eine erfindungsgemäß verwendete M-Klammer

Figur 4:

Schematisch eine erfindungsgemäß verwendete Klammer gemäß einer weiteren Ausführungsform

In the following the invention will be explained in more detail by way of example with reference to a drawing. Show it:

FIG. 1:

Highly simplified and schematically a section through a wooden beam ceiling according to the invention, perpendicular to a beam longitudinal direction of a ceiling beam

FIG. 2:

Strongly simplified and schematically shows a section through a ceiling joist perpendicular to a beam transverse direction of the ceiling beam with according to the invention suspended slat

FIG. 3:

Schematically an M-clip used in the invention

FIG. 4:

Schematically a clip used according to the invention according to a further embodiment

The wooden beam ceiling 1 according to the invention comprises a plurality of spaced, supporting ceiling beams 2 made of wood or a wood material, a top panel 3 arranged above the ceiling beams 2 with a floor structure or a floor construction 23 arranged thereon and a ceiling clothing 4 arranged below the floor beams 2.

The upper planking 3 consists e.g. from sheets or planks. These are fastened in a manner known per se to the floor beams 2, in particular by nailing and / or screwing and / or staples and / or gluing.

The floor structure 23 is formed in a manner known per se. Preferably, it has a screed layer 5, which is arranged on a sound insulation layer 6. The screed layer 5 may for example consist of dry screed plates. The sound insulation layer 6 is preferably made of footstep plates.

Furthermore, additional layers may be arranged below the screed layer 5 and / or above the planking 3, e.g. Weighting layers and / or leveling layers for leveling and / or accommodating installations.

The ceiling beams 2 each have a vertical beam height direction 2a, a horizontal beam width direction 2b, and a horizontal beam length direction 2c perpendicular to the beam width direction 2b. In addition, the ceiling beams 2 each have two beam side surfaces 7a opposite one another in the beam width direction 2b, a beam underside 7b, a beam top side 7c and two beam end faces (not shown) opposite the beam longitudinal direction 2c.

Between each two mutually adjacent ceiling beams 2 each have a ceiling cavity 8 is formed, in which preferably insulating material 9 is arranged.

The upper planking 3 is usually on the bar tops 7c and covers the ceiling cavity 8 from above and closes it.

The lower ceiling covering 4 has a slatted substructure 10 of a plurality of support slats 11 of a nailable or staple-compatible material and a lower planking 12. Preferably, the slats 11 are made of wood. But they can also be made of a wood material, e.g. Laminated veneer lumber or a wood-plastic composite (WPC). The slats 11 each have a vertical slat height direction 11a, a horizontal slat width direction 11b, and a horizontal slat longitudinal direction 11c perpendicular to the slat width direction 11b. Preferably, the slat longitudinal direction 11c is perpendicular to the longitudinal direction of the beam 2c (counter battens). But it can also be oblique or parallel to it (not shown).

In addition, the support slats 11 each have two slat side surfaces 13a opposite one another in the slat width direction 11b, a slat lower side 13b, a Slat upper side 13c and two in the slat longitudinal direction 11c opposite slat end faces (not shown) on.

The lower planking 12 is preferably made of cladding panels 14. The cladding panels 14 are preferably gypsum boards, preferably gypsum fiber boards, or fiber-reinforced cement boards or wood-based panels. The clothing panels 14 form a closed, downwardly facing surface.

The lower planking 12, in particular the clothing panels 14 are firmly connected to the support slats 11 in a conventional manner. Preferably, the clothing panels 14 are attached to the ceiling joists 2 by nailing and / or screwing and / or staples and / or gluing.

The slatted substructure 10 or the slats 11 serve to secure the lower cladding 12 to the floor joists 2. For this purpose, the slats 11 are fastened to the underside of the floor joists 2.

The attachment of the battens 11 to the ceiling joists 2 is now carried out according to the invention by means of several M-brackets 15th

The M-brackets 15 ( Fig. 3 Preferably, the metal wire 16 is a round wire or a flat wire. The round wire preferably has a diameter of 1.4 to 2.1 mm, preferably 1.5 to 1.6 mm.

But you can also consist of a bent sheet metal strip.

The M-shaped M-brackets 15 each have two side legs 17 and an interposed, angled or folded central web 18.

The two side legs 17 each have a first, free side leg end 17a and a second, connected side leg end 17b. The two free side leg ends 17a at the same time form two free clip ends 15a of the M-bracket 15. The two side legs 17 are preferably formed straight or ungeknickte or unbent.

The central web 18 is connected to the two side legs 17b attached to the side legs 17. It extends from one side leg 17 to the other side leg 17. In addition, the central web 18 has a central bend 19. He is angled in the middle. As a result, there is the middle web 18 of two middle web sections 20, which merge into each other in the kink 19. The two middle web sections 20 also form a fold 24 of the central web 18.

The two middle web sections 20 are also each connected to the connected side leg end 17 b of one of the two side legs 17. They are angled with respect to the respective side legs 17 and thus go over in a bend 22 in the side legs 17.

The middle web sections 20 also extend away from the respective side leg 17 and towards its free side leg end 17 a and towards the other side leg 17. As a result, the M-bracket 15 has the eponymous shape of an "M" s.

The two side legs 17 are preferably parallel to each other (see FIG. 3 ). However, side legs 17 may also extend away from one another or towards each other, as viewed from tethered side leg ends 17b, as long as the M-shape is maintained. The kink 19 thus always points to the free side leg ends 17a.

Furthermore, the two lateral limbs 17 at their free side leg ends 17a or, respectively, the M-clamp 15 at the two free clip ends 15a preferably each have a bevelled tip 21. The tip 21 is preferably bevelled on one side. The bevelled tip 21 ensures that the side legs 17 defined in the ceiling beams 2 and the support bar 11 can be driven.

Preferably, the side legs 17 also have a length I of 25 to 40 mm, preferably 30 to 35 mm. And the distance a of the two connected side leg ends 17b in the non-installed state of the M-bracket 15 is preferably 20 to 35 mm, preferably 24 to 30 mm.

As already explained, serve the M-brackets 15 according to the invention for the suspended attachment of the battens 11 to the ceiling joists 2 (Fig. Fig. 1 and 2 ). The battens 11 are arranged below the ceiling joists 2. In particular, the battens 11 with their slat upper sides 13c are each arranged adjacent to the respective lower beam side 7b of a ceiling beam 2.

For attachment, one of the two side legs 17 from the underside of the beam 7b ago, in particular to the kink 22, hammered into the ceiling beams 2 and the other of the two side legs 17 is from one of the two lath side surfaces 13a ago, in particular to the kink 22 in the The batten 11 hammered or driven. The central web 18 is free. Preferably, in each case on both sides of the support bar 11, an M-bracket 15 is present.

In the assembled state of the wooden beam ceiling 1, the support slats 11 are thus suspended by means of M-brackets 15 to the ceiling joists 2 or suspended from these or the ceiling covering 4 is suspended from the ceiling joists 2. As a result, the M-brackets 15, in particular the side legs 17, slightly spread. This is made possible by the shape of the M-bracket 15, in particular the bend 19 in the central web 18. Because of this, the battens 11 are spaced from the ceiling beams 2. In particular, the slat upper sides 13c are each spaced from the respective lower beam side 7b. The distance is preferably 1.5 to 5 mm, preferably 2 to 3 mm.

Due to the distance between the slatted substructure 10 and the ceiling beams 2, the direct structure-borne sound transmission is prevented. In particular, a sound improvement in impact sound of ≥ 8 dB is expected in comparison with constructions without spacing.

Furthermore, the use of the inventive M-brackets 15 creates a simple and flexible attachment of the support slats 11 under the ceiling joists 2 with standard-close staplers.

For the assembly of wooden beam ceilings 1 according to the invention in prefabricated houses, it is now possible according to the invention to manufacture the wooden beam ceiling 1 from prefabricated ceiling elements 25 which are non-destructively stackable. The ceiling elements 25 according to the invention have a plurality of ceiling beams 2, preferably the upper planking 3, the slatted substructure 10 and the lower planking 12. Preferably, a prefabricated ceiling element 25 may also have the insulating material 9. The floor structure 23 is usually applied later.

The ceiling elements 25 according to the invention are now e.g. stackable for transport and storage readily one above the other, since the M-brackets 15 are reversibly deformed during stacking, that the distance between the support slats 11 and the ceiling joists 2 disappears and the battens 11 rest against the ceiling joists 2. In particular, the M-brackets 15 are deformed or compressed or folded such that the slat upper sides 13c bear against the lower sides of the beams 7b.

When or after the installation of the ceiling elements 25 on the construction site, the M-brackets 15 automatically hang out again by the weight of the blanket 4 or ceiling, so that automatically adjusts the desired distance between the support slat construction 10 and the ceiling beams 2.

The M-brackets 15 deform, in particular due to the present in the central web 18 buckling 19, accordion-like and reversible. The two middle web sections 20 are unfolded during stacking towards each other and during assembly. In addition, each of the side legs 17 and connected to this middle web section 20 are folded towards each other during stacking and folded apart during assembly.

Another advantage of the M-brackets 15 according to the invention is that they can also be used in automatic clamp bridges in the prefabricated house industry. The side legs 17 are thus driven or hammered into the ceiling beams 2 and the battens 11, not attached to these by means of screws. The stapling is much faster and less expensive than screwing, as e.g. in the known spring clips is the case.

In the context of the invention, it is of course also that one of the two side legs 17 of the M-bracket 15 of one of the two beam side surfaces 7a ago, in particular up to the bend 22, is taken in the ceiling beams 2 and the other of the two side legs 17 of the batten top 13c forth, in particular to the kink 22, taken or driven into the support bar 11 (not shown). Preferably, an M-bracket 15 is then present in each case on both sides of the ceiling beam.

Furthermore, it is within the scope of the invention that the kink 19 does not point to the free side leg ends 17a, but away from them. It is only important that the central web 18 has at least one kink 19 or a fold 24, which can deform. The central web 18 can thus also have a plurality of creases or folds (not shown), which ensure that the central web 18 can deform accordion-like or can be folded into one another and unfolded. As a result, the kink 19 does not have to be as sharp-edged as shown, but may also be rounded. Regardless of whether the kinks 19 are sharp-edged or rounded, the central web is wave-shaped in the case of several kinks 19.

In Figures 2 and 4 a clip 27 is shown with free clip ends 27a according to another embodiment of the invention. According to this further embodiment of the invention, the center bar 18 also has an arcuate course in the undeformed initial state instead of the bend 19. The middle bridge 18 thus makes a bow. In this case, the central web 18 is bent toward the free side leg ends 17a. He can, too be bent the other way around. This also allows the central web 18 to deform accordingly.

The central web 18 is also connected in this variant, in each case at the two adjacent side leg end 17b of the two side legs 17, wherein the central web 18 are angled relative to this and merges into the side leg 17 in the bend 22. An angle α between the central web 18 and the respective side legs 17 is analogous to the other embodiments, at least in the undeformed initial state of the bracket 15, 27 preferably pointed ( Fig. 3 and 4 ) or blunt or ≠ 90 °.

In addition, between the ceiling beam 2 and the battens 11 for sound decoupling in each case an elastomeric pad 26 (FIG. Fig. 2 ) be made of an elastomer. Elastomers are dimensionally stable, but elastically deformable polymers whose glass transition point is below the operating temperature. The elastomers can deform elastically under tensile and compressive loading, but then return to their original, undeformed shape. The elastomer pad 26 is firmly connected at least to the underside of the beam 7b, preferably glued. For example, the elastomeric pad 26 is self-adhesive. It is then elastically reversibly pressed together during stacking and expands after assembly again. The elastomer pad 26 can also be connected in addition or only with the top of the batten 13c, preferably glued, be. Optionally, an air gap is formed after assembly between the Elastomerpad 26 and the top of the batten 13c or the bottom of the beam 7b, depending on how much the brackets 15 hang out.

Advantage of the elastomeric pad 26 against the air gap therebetween otherwise exists that a defined distance between the support bar 11 and the ceiling beam 2 is present.

Claims (16)

Ceiling element (25) for a wooden beam ceiling (1) comprising a plurality of ceiling beams (2) and a lower ceiling covering (4), the ceiling covering (4) comprising a slatted substructure (10) of a plurality of slats (11) and a lower cladding (12) attached thereto ), wherein the support slats (11) on the ceiling beams (2) by means of two side legs (17) and a connecting these middle web (18) having clamps (15; 27) are mounted suspended,
characterized in that
the central web (18) of the clamps (15; 27) has at least one kink (19) or has a curved course. Ceiling element (25) according to claim 1,
characterized in that
the two side legs (17) each have a first, free side leg end (17a) and a second, connected side leg end (17b), wherein the two free side leg ends (17a) at the same time each form a free clip end (15a; 27a) of the clip (15) and wherein the central web (18) is attached to the side legs (17) at the two connected side leg ends (17b). Ceiling element (25) according to claim 1 or 2,
characterized in that
the central web (18) has only a single bend (19),
wherein the clip (15) is preferably formed as an M-clip. Ceiling element (25) according to one of the preceding claims,
characterized in that
the middle web (18) consists of two middle web sections (20) which merge into one another in the bend (19) and form a fold (24) of the central web (18). Ceiling element (25) according to one of claims 2 to 4,
characterized in that
the at least one kink (19) points to the free side leg ends (17a). Ceiling element (25) according to claim 2,
characterized in that
the central web (18) has an arcuate course and is bent towards or away from the free side leg ends (17a) of the side legs (17). Ceiling element (25) according to one of claims 2 to 6,
characterized in that
the middle web (18) is connected to the connected side leg ends (17b) of the two side legs (17), wherein it is angled relative to the respective side leg end and merges into the side leg (17) in a bend (22),
wherein preferably an angle (α) between the central web (18) and the respective side limb (17), at least in the undeformed initial state of the clamp (15; 27) is pointed or blunt. Ceiling element (25) according to one of the preceding claims,
characterized in that
one of the two side limbs (17) of one clamp (15; 27) being driven into the floor beam (2) and the other of the two side limbs (17) of the clamp (15; 27) being driven into the support bar (11),
wherein preferably the ceiling beams (2) each have two beam side surfaces (7a), a beam underside (7b), a beam top (7c) and two beam end faces and the support slats (11) each two Slat side surfaces (13a), a slat lower side (13b), a slat upper side (13c) and two slat end faces and one of the two side legs (17) of a clamp (15; 27) respectively from the lower beam side (7b) ago in the ceiling joist (2) and the other of the two side legs (17) of the bracket (15; 27) is driven into the support bar (11) from one of the two bar side surfaces (13a). Ceiling element (25) according to one of the preceding claims,
characterized in that
between each two mutually adjacent ceiling beams (2) a ceiling cavity (8) is formed, in which preferably insulating material (9) is present
and or
the ceiling element (25) has an upper planking (3) which in particular covers the ceiling cavities (8) upwards. Ceiling element (25) according to one of the preceding claims,
characterized in that
the brackets (15; 27) consist of a bent metal wire (16), the metal wire (16) preferably being a round wire or a flat wire, the round wire preferably having a diameter of 1.4 to 2.1 mm, preferably from 1.5 to 1.6 mm. Ceiling element (25) according to one of claims 2 to 10,
characterized in that
the clip (15; 27) at the two free clip ends (15a; 27a) each have a bevelled tip (21), wherein the tip (21) is preferably bevelled on one side. Ceiling element (25) according to one of the preceding claims,
characterized in that
the battens (11) extend perpendicular to the ceiling beams (2) and / or
the battens (11) made of wood or a wood material, eg veneer plywood or a wood-plastic composite material exist. Ceiling element (25) according to one of the preceding claims,
characterized in that
the slatted substructure (10) is fastened suspended from the floor beams (2) by means of the clamps (15; 27) in such a way that the slatted substructure (10) is spaced apart from the floor beams (2) in the assembled state of the ceiling element (25). Ceiling element (25) according to one of the preceding claims,
characterized in that
the clamps (15; 27) are reversibly deformable such that the ceiling element (25) can be stacked on top of one another with other ceiling elements (25) such that the slatted substructure (10) rests against the ceiling beams (2) in the stacked state of the ceiling element (25) and that the slatted substructure (10) in the assembled state of the ceiling element (25) is spaced from the floor joists (2) and there is an air gap therebetween,
or
in that an elastomeric pad (26) made of an elastomer is present between the underside of the bar (7b) and the top of the bar (13c), wherein preferably the elastomeric pad (26) is firmly bonded, preferably glued, to the bar base 7b and / or the top of the bar (13c) in which preferably the elastomeric pads (26) are compressed in the stacked state of the ceiling element (25) between the ceiling beam (2) and the slatted substructure (10) and in the assembled state of the ceiling element (25) is expanded in comparison thereto. Wooden beam ceiling (1) comprising at least one ceiling element (25) according to one of the preceding claims,
wherein the wooden beam ceiling (1) preferably has a floor covering (23) arranged on the upper planking (3). A method for producing a ceiling element (25) for a wooden beam ceiling (1) comprising a plurality of ceiling beams (2) and a lower ceiling covering (4), the ceiling covering (4) comprising a slatted substructure (10) of a plurality of support slats (11) and a fastener thereto lower planking (12), wherein the support slats (11) to the ceiling joists (2) by means of two side legs (17) and a connecting these middle web (18) having brackets (15; 27) are mounted suspended,
characterized in that
Clamps (15; 27) are used with the features of any one of claims 1 to 7, 10 or 11, wherein one of the two side legs (17) of the clamps (15; 27) respectively in the ceiling beams (2) and the other of the Both side legs (17) of the brackets (15; 27) in each case in the support bar (11) is driven.

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