DE19714625C2 - Wooden panel building structure - Google Patents

Description

The invention relates to a wooden panel structure, e.g. B. a wooden beam ceiling or a wooden stud wall, with a duct for pipes, cables or the like, the as a construction element for the production of prefabricated houses is used.

In apartment buildings, the ceilings and walls are the to interpret that in the event of fire, the spread fire into other apartments, stairwells or generally accessible corridors at least for some Time is delayed. The building material is to be chosen to coat or edit that at least for is fire resistant for a certain time. Usual Times during which the building material was on fire must hold, are 90 minutes. These requirements must also be met if wood is a building material is used. For applications in prefabricated buildings Example of wooden panel structures used from  Beams consist of two parallel layers of woodwork are surrounded by fabric. The exterior surfaces of the Layers of wood-based materials with non-combustible material such as B. Plasterboard covered. However, these areas must be used for bushings be opened for water or electrical installation, so that the non-combustible outer surface of the wooden panel structure is broken. In order to meet the fire protection regulations, the pipe must be against the wooden panel structure with non-flammable Material to be sealed. They usually make do with each other Craftsmen with improvised solutions, such as that Stuff the space with rock wool. But can not always be sure that the rock wool is the pipe completely sealing.

Especially in multi-family houses in multi-storey construction these problems arise, because every residential unit has to Floors, ceilings and external walls at least with non-combustible Building materials must be disguised so that the off for 90 minutes spreading fire out of or into the apartment is prevented. So every apartment has to be fire-resistant be sealed off. Critical points in this system are the ceiling or wall bushings of pipes or cables the electrical house installation that extends through all floors extend. This can e.g. B. be sewage pipes by the top apartment run down to the basement.

DE 295 08 849 U1 describes a fire sleeve for pipes knows, which has a housing in which an insulating body is brought, whereby at the two front openings of the Ge each have an insert protruding radially into the opening is attached to adapt to different Rohrdurch serve knife. The fire sleeve is canted with the outside tabs on the outside of the building wall, i.e. outside  attached to the refractory structure. The fire cuff is for Use in concrete ceilings or floors. For wooden board This fire sleeve is not suitable for building structures because the Tabs for fastening outside of the refractory structure, so are in the effective range of the fire, so that the danger be stands that they have a thermal bridge inside the wooden panel form building structure, which causes this from the inside out by fire gets destroyed.

The invention has for its object a wooden panel to create building structure, also in the area of bushings for pipes, cables or the like, the spread of fire and smoke safely prevented and in which the bushings are simply too mon animals are.

This object is achieved with the features of the patent claim 1 solved.

The wooden panel building structure according to the invention consists of beams, the first layer on a first side and on the opposite lying second side a second layer of wood-based material wear, the outer surfaces of the two layers with layers are covered with non-flammable material. The wooden plate Building structure also contains at least one of non-combustible Material existing lead-through only open at the end faces channel for pipes, cables or the like, which with mounting brackets the first layer of wood-based material is attached and the through the layers between the non-combustible layers extends and is tightly connected to them, the layer assembly made of non-combustible material on the first side angle covered. The wall of the duct is not combustible and closes the hole created for the implementation  on the non-combustible surfaces of the wooden panel structure of the Art from that the interior of the duct from the wood panel structure is completely sealed. The implementation channel forms with the non-combustible layers of the wooden panel building a non-flammable unit so that a fire does not penetrate the wooden panel structure and this from the inside can destroy from.

Feedthrough channels are often used for pipes such. B. sewage or heating pipes used. The pipes can either be made from flammable material, such as plastic, or non-combustible material, such as metal. Will not flammable pipes made of metal, mostly made of cast iron a fire cannot pass through the pipe get into the channel and not through the Holzta  stone building structure into the neighboring apartment broad.

The wooden panel structure can be used as a ceiling element or can be used as a wall element. When using as a wall, the wooden beams act as wooden stands and the Layers of wood-based material as stiffening planking, which the stands against each other in the horizontal direction stabilize. When used as a ceiling element the beams take on the function of supporting beams. The Layers of wood-based materials form the floor or the Blanket. To carry out a pipe or cable to create, the implementation channel needs one prefabricated unit is only in a hole in the Holzta to be inserted.

In a preferred embodiment of the invention the transition between the bushing and the non-combustible layers with a non-combustible Sealant sealed. This has the advantage that also through the gap between the duct and no fire in the non-combustible layers in the wood frame structure can penetrate and so the layers Wood material and the beams could ignite.

The walls of the bushing advantageously exist channel made of calcium silicate panels with a wall thickness of about 45 mm. At a temperature inside the feed-through channel of about 1000 ° C, the z. B. from a red-hot metal tube is produced, remains Temperature on the outside of the duct below the temperature point at which the wood of the Wood panel structure would ignite.  

On the outside of the duct, Monta be arranged at an angle with which the bushing channel supported on one layer of wood-based material becomes. In this way, the bushing can be used as prefabricated unit especially when using the Wooden panel structure simply installed as a ceiling and be screwed tight. The feedthrough channel needs then just inserted into a hole in the wooden panel structure to be hanging. Because the mounting bracket like stops act, the feed-through channel is immediately in the correct position, an orientation of the execution channel is not necessary.

Another embodiment of the invention provides In the case of a flammable pipe, do not burn bare duct through at least one end a casing made of non-combustible material is extended. The transition between the bushing and the Cover consists exclusively of non-combustible Material. If this is ver running pipe burns, the fire can be from one the wooden panel structure got to the other side To prevent the spread of fire even then to be able to, the pipe is at least on one side the wooden panel structure with a non-flammable sleeve le that is close to the channel or over other non-combustible material connected to the duct that is.

The following is an execution based on the drawing example of the invention explained in more detail.

In the drawing, a wooden panel structure is in shape a ceiling construction shown in vertical section.  

The serving as a floor slab wood panel structure 1 has a plurality of parallel beams 2 with rectangular cross-section, which have the function of supporting beams. On the narrow upper long sides of the beams 2 , a cover plate 3 is attached, which consists of cement-bonded chipboard. For reasons of fire safety and for impact sound insulation, a layer 4 of rock wool is applied to the cover plate 3 . The Fußbo denabschluß forms an existing of particle board from end plate 5 , on which a floor covering, such as carpet can be laid.

On the underside of the beams 2 are spaced strips 6 made of wood, which extend at right angles to the beams 2 . A bent perforated plate 7 is attached above the strips 6 . The sheet 7 is trapezoidal and is placed over the strips 6 from below. With the overhead, horizontally extending the legs, the sheet 7 is BEFE Stigt on the beams 2 . In the spaces between two beams 2 and two strips 6 , the sheet 7 forms a support surface. An insulating layer 8 made of cellulose or mineral wool is located on this contact surface. At the bottom of the legs of the sheet 7 is a lower cement-bonded chipboard cover plate 9 BEFE Stigt. The sheet 7 decouples due to its Federwir effect, the lower cover plate 9 from the beams 2 and the strips 6 , so that on the end plate 5 resulting impact sound is not carried into the space below. A layer 10 of plasterboard is attached to the outside of the lower cover plate 9 . It serves as a non-combustible layer on the underside of the wooden panel structure 1 .

The layer 4 of rock wool on the top of the wooden panel structure 1 and the layer 10 of plasterboard on the bottom make the wooden panel structure 1 a non-combustible unit that can withstand fire for at least 90 minutes. For this time, no fire from one side of the Holzta panel structure 1 can get to the other or fire can penetrate into the wooden panel structure 1 , which could ignite the beams 2 , the strips 6 or the cover plates 3 or 9 .

To pass a tube 11 through the wooden panel structure 1 , a feed-through channel 12 runs from one side to the other of the wooden panel structure 1 . The feed-through channel 12 is square and consists of individual calcium silicate plates 13 screwed tightly together. The length of the feed-through channel 12 is dimensioned such that it is flush on the underside with the outside of the layer 10 made of plasterboard and is flush on its top with the cover plate 3 fastened to the beams 2 . The gap between the layer 10 of plasterboard and the duct bushing 12 is closed with non-combustible putty. To adapt to different pipe diameters, the space between the pipe 11 and the inner channel wall is stuffed with mineral wool 14 , so that no fire or smoke can pass through this space from one side to the other side of the wooden panel structure 1 . The duct 12 is fastened with mounting brackets 15 , which are fastened to the outside of the duct wall and rest on the upper cover plate 3 and are fastened there. In the area of the lying on the upper cover plate 3 layer 4 of stone wool and the final end plate 5 , the tube 11 of a thin sheath 16 of mineral wool to give. The layer of rock wool 4 extends up to the envelope 16 , so that the upper cover plate 3 is sealed off to the outside with non-combustible material. The end plate 5 extends only shortly before the guide channel 12th A plate 17 made of non-combustible material completes the closure against the casing 16 of mineral wool surrounding the tube 11 .

The installation of the feed-through channel 12 can take place during the manufacture of the wooden panel structure 1 or can also be retrofitted in an already installed wooden panel structure 1 . The feed-through channel 12 is inserted into a corresponding hole in the wooden panel structure 1 until the mounting brackets 15 rest on the upper cover plate 3 . Now the mounting bracket is screwed onto the cover plate 3 and the tube 11 is pushed through the duct 12 and the remaining space is stuffed with mineral wool 14 . After the shell 16 of mineral wool was pushed onto the tube 11 on the top, the layer 4 of rock wool is placed on the upper cover plate 3 . The end plate 5 is then placed on the layer 4 of rock wool, an area around the tube 11 being excluded. In this area, the plate 17 made of non-combustible material is used. Finally, on the underside of the Holztafelbaus structure 1, the slot between the through channel 12 and the layer of plasterboard 10 is closed with a fire-resistant cement.

In the case of a combustible pipe 11 , a fire could pass from one side of the wooden panel structure 1 through the pipe 11 to the other side. In order to avoid this, the feed-through channel 12 is extended with sleeves 18 shown in dashed lines. These sleeves 18 are also made of calcium silicate and are sealingly attached to the calcium silicate plates 13 of the feed-through channel 12 or to the plate 17 made of non-combustible material.

Claims (9)

1. Wooden panel structure ( 1 ), consisting of beams ( 2 ), on a first side a first layer ( 3 ) and on the opposite second side carry a second layer ( 9 ) made of wood material, the outer surfaces of the two layers ( 3 , 9 ) are covered with layers ( 4 , 10 ) made of non-combustible material, characterized by at least one lead- through channel ( 12 ) for pipes ( 11 ), cables or the like, which is made of non-combustible material and is only open at the end faces is attached to the first layer ( 3 ) of wood-based material with mounting brackets ( 15 ) and extends through the layers ( 3 , 9 ) between the non-combustible layers ( 4 , 10 ) and is tightly connected to them, the layer ( 4 ) made of non-combustible material on the first side covers the mounting bracket ( 15 ). 2. Wooden panel structure according to claim 1, characterized in that the transition between the passage channel ( 12 ) and the non-combustible layers ( 4 , 10 ) is sealed with a non-combustible sealant. 3. wooden panel structure according to claim 1 or 2, characterized in that the passage channel ( 12 ) consists of calcium silicate kat plates ( 13 ). 4. Wooden panel construction structure according to one of claims 1-3, characterized in that the passage channel ( 12 ) consists of calcium silicate plates ( 13 ) with a weight of 450 to 1000 kg / m ³ . 5. Wooden panel structure according to claim 3 or 4, characterized in that the wall thickness of the feed-through channel ( 12 ) is approximately 45 mm. 6. Wooden panel structure according to one of claims 1-5, characterized in that on the outside of the through-channel ( 12 ) mounting bracket ( 15 ) are arranged perpendicular to the longitudinal axis of the through-channel ( 12 ) with which the through-channel ( 12 ) in an opening of the a layer ( 3 ) made of wood is supported. 7. wooden panel structure according to any one of claims 1-6, characterized in that in between the beams ( 2 ) located cavities insulating material ( 8 ) is present. 8. Wooden panel structure according to one of claims 1-7, characterized in that in the case of a layer ( 4 ) made of non-combustible material on the final layer ( 5 ) a non-combustible plate ( 17 ) in the area of the implementation channel ( 12 ) is arranged. 9. Wooden panel structure according to one of claims 1-8, characterized in that in the case of a combustible pipe ( 11 ) the non-combustible passage duct ( 12 ) is extended at least at one end by a casing ( 18 ) made of non-combustible material, the transition between the feed-through channel ( 12 ) and the casing ( 18 ) finally being made of non-combustible material.