DE19618587C2 - Process for erecting a substructure and suitable roof extension element - Google Patents

Description

The invention relates to a method for building a sub construction for wooden roofs, walls and the like, which have beam-shaped supporting elements, where you each have an elongated lightweight component with a Widening in the area of a long edge on the beams shaped supporting elements attached so that the spread pointing inwards or downwards, and the front of the ver aligns the expansion of each lightweight element on one level, being the front of the widening as one essentially plane perpendicular to the plate surface is formed. The Invention is used, for example, when removing a roof bullet or when cladding half-timbered walls.

In the known methods of this type, different methods can be used Way to proceed. So can on the load-bearing timber construction share, e.g. B. the wooden rafters, across the rafters a wooden slat or a wooden bar can be applied, each on Crossing point for rafters in a straight line or a plane must be aligned in order to attach plates, e.g. B. Plasterboard, to allow. To align the Wooden bars or the wooden slats with correspondingly large wood pads relined. Between the panels and the roof skin is the insulation material. The disadvantage here is the relatively high level Assembly effort. In addition, the thickness of the insulation, from Distance of the wooden slat or wooden bar to the beam-shaped load-bearing element depends, can not be chosen freely.

In another known method, a wooden plank is used mounted on the side parallel to the rafters. But that's about it required that the wooden plank have a narrow side with a Edge length of more than 25 mm, preferably more than 40 mm,  has the required airtightness or vapor control systems to apply and to be able to accommodate other construction parts. In addition, the width of this wooden plank is at least 10 to 12 cm, preferably at least 14 cm required to make the screed to be able to fix on the side of the rafters.

In this procedure it is disadvantageous that long connection elements (screws) must be selected. This construction It also tends to be discarded as it is massive Timber plank.

A particularly serious disadvantage is the high weight of the Wooden planks due to the large cross section. This disadvantage also applies when using solid sheet materials, e.g. B. blockboard in 38 mm thickness instead of this wooden plank to.

The high weight of such components for erecting sub constructions complicates the necessary alignment of this building elements in one plane or straight line.

In a third known procedure, a latte is used directly on the outer surface, in the case of roof structures that is, immediately below and parallel to the rafters arranged. A disadvantage is the very high effort involved in aligning and the lack of possibility to customize the insulation thickness to be able to choose.

Finally, metal substructures are included so-called direct dependent systems known. The building such substructures require high assembly expenditure. Here too, the thickness of the insulation material cannot be customized can be set.

DE 44 23 035 A1 describes a method of the type mentioned at the beginning Type for thermal insulation of the spaces between rafters from Roof spaces known, which is in contrast to the invention  the application is for roof spaces that have already been expanded. Here are profile rails with a U or C-shaped cross-section on the Attached inside the load-bearing beam-shaped elements, so that appropriate panels between these rails can be inserted. Finally, insulation material is used in the through the panels, the inner wall and the supporting elements (the Rafters) formed cavity introduced. The thickness of the Thermal insulation layer is therefore due to the thickness of the supporting beams shaped elements limited.

In German utility model DE 88 04 939 U1 a steel is used profile for the renovation of wooden beam ceilings. The Steel profile is applied to a wooden beam, and side Supporting elements of the steel profile serve to hold one Ceiling insulation. Top support elements of the steel profile are attached to support one above the wooden beams Floor provided. In this arrangement, too Thickness of the thermal insulation layer through the thickness of the load-bearing beams shaped elements limited.

The invention has for its object in a method a fast, economical and enable trouble-free erection of the substructure, also the thickness of the insulation in the insulation of wood components regardless of the cross-section of the load-bearing timber work can be chosen.

This object is achieved in that the Lightweight construction element, which is plate-shaped and only has the broadening on one long edge, with the the edge region opposite the widening to the beam-shaped supporting elements attached that the Ver widening beyond the beam-shaped load-bearing element protrudes inside or below.  

The widening on the front serves to accommodate the Thermal insulation serving other elements such. B. an airtight train, a vapor barrier, a vapor barrier, etc.

The method according to the invention enables a simple off straightening of wooden substructures. The roof extension element is a lightweight element, so with low weight carried out by a suitable Selection of the material is achieved. This preferably exists plate-shaped lightweight construction element made of a wooden material. It can also consist of a combination of several wood-based materials. On Aligning even very large bumps and skew is included a corresponding dimensioning of the roof extension element guaranteed. The widening on the front enables the attachment of vapor barrier films, vapor barrier plates, etc. in the required shape and the attachment of others Construction elements and / or clothing. The plate-shaped Shape of the lightweight element and thus its relatively small Cross section reduces the cold bridges compared to the state of the Technology and thus enables optimal thermal protection the insulation to be installed within the substructure rialien.

The roof extension element or lightweight construction element is preferably in made different dimensions to one hand unab depending on the wooden cross-section of the load-bearing elements To achieve insulation thickness and on the other hand to adapt to to enable local conditions.

Preferably, you attach the lightweight component that in this Registration is also called roof extension element with its plate-shaped area on a lateral surface of the beam shaped supporting element by screwing or nailing. As lateral surface of the bar-shaped element is here the Elongated perpendicular to the ceiling or wall level Surface unlike the front and back designated.  

It is of course necessary that the roof extension element static requirements are sufficient.

In a further advantageous embodiment of the invention According to the method, one attaches a lightweight component opposite side surfaces of the ess Lichen parallel beam-shaped load-bearing Elements, with the lightweight elements in the area of Widening opposite edge one or more wear ledges running parallel to this edge, and lay Roll goods made of paper, plastic or wood materials on the Strips on or pushes them into those formed by the strips Grooves. This creates an opportunity for quick, simple and effective way of between widening and insulation located on the top of the lightweight construction element protect its top and cover it windproof.

The invention also relates to a roof extension element for through perform the method according to the invention, the loft conversion element made of an elongated lightweight component with a There is widening in the area of a long edge and where the front of the widening as a substantially lower level to the plate surface is formed. The object according to the invention, already mentioned above, is here solved in that the lightweight component made of plate is formed and the widening only on one long edge having.

The distribution preferably extends over the entire Edge of the plate surface.

It is also proposed that the roof extension element in the plate-shaped area can be screwed, nailed and sawn.

A warping and cracking of the substructure will occur avoided in a cost-effective manner or kept to a minimum, if the plate-shaped area made of one or more wood-based materials  and the widening consists of solid wood. Under The term "wood-based materials" is, for example, hardboard understood in this application.

In addition, special, also already mentioned above Advantages achieved if one or more in the field of Widening opposite edge on the plate-shaped Element attached, running parallel to this edge Last are provided.

In a further advantageous embodiment of the invention According to the roof extension element, the following, in State of the art problems solved.

The thermal insulation of roofs, roof structures and vertical Wooden structures with plate-shaped thermal insulation materials is only extremely difficult to achieve in a satisfactory manner. Plates shaped materials have namely  no or insufficient elasticity in the Slab level to adapt to the unevenness of the beams. These thermal insulation materials usually have a specific one Width dimension, for example 50, 60 and 62.5 cm. Problems arise between the insulation in the wooden beam area the wooden beams, as the ones actually found on site Width dimensions very small due to structural dimensional tolerances are different and can vary widely. The temporal Effort for cutting plate-shaped thermal insulation fabrics in order to adjust them to the exact width bring is very high. Therefore can be plate-shaped Thermal insulation materials between the Fit rafters. Often there is thermal insulation of beams spaces with plate-shaped thermal insulation materials economic way not possible, because the clean one bring these thermal insulation materials too much time means and also turns out to be impractical poses. In addition, the plate-shaped heat Insulation does not shrink due to its high stability the existing beam construction by drying the Adjust the wood so that cold bridges are created.

In a further advantageous embodiment of the Erfin dung is therefore proposed that an elastically kompri mable layer on one surface of the elongated plate-shaped area of the lightweight component attached is. This layer can be applied laterally to the element be glued. It preferably has a thickness of 20 up to 200 mm. The layer depends on the material Compressible to 10 mm or less.

After installing such, with the elastically com primable layer provided roof expansion element an essentially rigid plate-shaped thermal insulation material between the wooden beams to be insulated in a simple way be pinched. The elastic layer is on compresses the measure that results from the difference of the Space between the beams and the width of the thermal insulation panel  results. In addition to the simple installation of panel-shaped thermal insulation materials even when different The smallest dimensions of the spaces between the bars are also used for one Changing these dimensions by drying the wood the very Maintain high tightness of thermal insulation in the long run.

Preferably, the elastically compressible extends Layer over the entire length of the lightweight component to achieve a complete seal. In particular the elastically compressible layer consists of a Thermal insulation material to verge cold bridges at this point avoid.

In summary, the advantages of Invention are called.

The roof extension element or lightweight element according to the On the one hand, invention is universal as an aid to Erection of substructures can be used. The advantages a quick assembly with a connection-free Element reached that has a low weight. The latter advantage is particularly in the case of old built very highly.

The strength of the attached in the space between the bars Insulation can be individually selected by choosing the porridge adjust the roof extension elements.

The air prescribed by the relevant standards tightness in the area of the attic extensions is ensured by Sheets and foils reached on the front of the Widening can be applied.

Auxiliary strips on the opposite of the widening Edges allow the additional assembly of rolled goods made of plastic, paper or wood materials, which the Protect thermal insulation on the top and cover it windproof. The auxiliary strips can be arranged in a groove, or  this auxiliary element can be grooved directly. This Auxiliary strips in the upper area of the roof extension element allow a much faster assembly than this performed with individual elements to be attached on site can be.

Instead of two parallel and spaced apart According to the invention, fender auxiliary strips can also be a single one correspondingly wider bar with a corresponding groove be provided.

An elastically compressible layer on one surface of the elongated plate-shaped lightweight component enables for the first time a satisfactory, lasting effect same heat that can be applied economically Insulation with plate-shaped thermal insulation materials in the cavity between the wooden beams.

In the following, several embodiments of the Invention described with reference to drawings. It demonstrate

Fig. 1 shows a cross section through a roof extension member having a lower side eingenuteten wood strip according to a first embodiment,

Fig. 2 shows a cross section through a roof extension member having a side-mounted strip of wood according to a second embodiment,

Fig. 3 shows a cross section through a roof extension member having a lower side ausgefälzten wood strip according to a third embodiment,

Fig. 4 is a side view of the roof expansion element of FIG. 1 in the direction of the arrow 6,

Fig. 5 is a side view of the roof expansion element of FIG. 2 in the direction of the arrow 6,

Fig. 6 is a side view of the roof expansion element of FIG. 3 in the direction of the arrow 6,

Fig. 7 shows a cross section through a roof extension element with a laterally applied elastically compressible layer according to a fourth exemplary embodiment and

Fig. 8 shows the installed state of the roof extension elements according to Fig. 7 in cross section.

The same reference numerals have been used in all drawings have the same meaning and are therefore possibly only one times explained.

The plate-shaped area 1 of the roof construction element shown in the drawings can be made of different wood materials such as hardboard, plywood, chipboard, etc.

The width dimensions can be different however preferably between 5 and 30 cm. Deviations are possible up and down.

The length dimensions of the roof fittings shown can also vary. They are generally from the length of the wood-based panels used, can also be done by assembling several woodwork fabric panels can be made to any length.

The roof extension elements have a widening 2 on one long edge, which can be made from solid wood or from different wood-based panels, such as hardboard, plywood, chipboard, etc.

The options shown in the drawings for connecting the plate-shaped area 1 with the Ver widening 2 are shown here only as an example. All methods of connecting two that are customary in terms of craftsmanship and mechanics are possible. Wood or wood-based panels.

The roof extension illustrated in FIGS. 1 and 2 carry items on their broadening 2 opposite long edge aligned parallel to afford wood 3, 4. The groove 5 formed by the wooden strips 3 , 4 enables the insertion of rolled goods or plate-shaped elements, as already explained above and in connection with the claims 3 and 8.

The side views shown in FIGS. 4 to 6 are understandable from themselves.

In the drawings the connection of the widenings to the respective, made of wood-based panels plate-shaped areas clearly. The lengths of the elements depend on the length of the wood-based panels. At The lengths of element joints are unlimited.

The roof extension elements are mounted with their plate-shaped areas 1 laterally on existing construction timber, z. B. by screwing, nailing, gluing or by means of other common connections. The adjustment and the distance in which these roof extension elements are mounted against the existing construction timber determine the thickness of the insulation and enable the roof truss or the wooden components to be insulated and clad to be aligned.

The widenings 2 are used to hold airtight processing and steam sealing elements in the form of papers or foils. Furthermore, these widenings 2 serve to accommodate planking in the form of wooden cladding, panels, plasterboard, gypsum fiber or similar cladding panels for dry interior construction.

Light subscribed 1 7 verdeut, as in a loft conversion element according to a fourth embodiment of an elastically compressible layer 8 is applied over the entire surface on one side of the plate-shaped region 1: the scale of about 1.. The layer 8 can be attached by gluing, mechanical means or other types of connection.

The additional advantages of the roof extension element shown in FIG. 7 become clear in FIG. 8. Here, a cavity to be insulated is shown between two wooden beams 9 and the thermal insulation installed with the help of the roof extension elements according to the invention. The roof extension elements are attached laterally to the wooden beams 9 with their elongated plate-shaped areas 1 . On the other side of the plate-shaped area 1 , an elastically compressible layer 8 is applied. When installing a rigid thermal insulation panel 10 , the layer 8 is compressed, so that a permanently tight and gapless insulation between the elastic layer 8 of the roof extension element and the opposite wooden beam 9 is achieved without the thermal insulation panel 10 has to be cut to an exact measure.

To clarify the purpose of the widenings 2 , FIG. 8 also shows a cladding panel 11 attached to it, in its place an additional substructure level can also take place, and an airtight or vapor barrier level in the form of a film 12 , which is between the underside of the widenings 2 and the panel 11 is attached.

Reference list

1

plate-shaped area

2nd

Broadening

3rd

Wooden strip

4

Wooden strip

5

Groove

6

arrow

7

Front

8th

elastically compressible layer

9

Wooden beams

10th

Thermal insulation board

11

Cladding panel or additional sub construction level

12th

Air or vapor barrier film

Claims (11)

1. A method for erecting a substructure for roofs, walls and the like made of timber construction, which have beam-shaped load-bearing elements, wherein an elongated lightweight construction element ( 1 ) with a widening ( 2 ) in the region of a long edge is fastened to the beam-shaped load-bearing elements , so that the widening ( 2 ) points inwards or downwards, and the front ( 7 ) of the widening ( 2 ) aligns each lightweight construction element in one plane, the front ( 7 ) of the widening ( 2 ) being substantially lower plane to the right of the panel surface, characterized in that the lightweight component ( 1 ), which is panel-shaped and has the widening ( 2 ) only on one long edge, with the edge region opposite the widening ( 2 ) in such a way on the beams shaped supporting elements attached that the Ver widening ( 2 ) on the beam-shaped support end protrudes inwards or downwards. 2. The method according to claim 1, characterized in that the lightweight component with its plate-shaped region ( 1 ) is attached to a lateral surface of the beam-shaped supporting element by screwing or nailing. 3. The method according to claim 1 or 2, characterized in that in each case a lightweight component is attached to opposite side surfaces of the substantially parallel beam-shaped supporting elements, the lightweight components in the region of the widening ( 2 ) opposite edge or one or more Run parallel to this edge strips ( 3 , 4 ), and that you roll goods made of paper, plastic or wood materials on the strips ( 3 , 4 ) or pushes into the grooves ( 5 , 4 ) formed by the strips ( 3 , 4 ) . 4. roof extension element for performing the method according to any one of claims 1 to 3, wherein the roof extension element consists of an elongated lightweight construction element with a Ver widening ( 2 ) in the region of a long edge and wherein the front ( 7 ) of the widening ( 2 ) as a is formed substantially perpendicular to the plate surface ( 1 ), characterized in that the lightweight component ( 1 ) is plate-shaped and has the widening ( 2 ) only on one long edge. 5. Roof extension element according to claim 4, characterized in that the widening ( 2 ) extends over the entire edge of the plate surface ( 1 ). 6. Roof extension element according to claim 4 or 5, characterized in that it can be screwed, nailed and sawn in the plate-shaped area ( 1 ). 7. Roof extension element according to one of claims 4 to 6, characterized in that the plate-shaped area ( 1 ) consists of one or more wood-based materials and the widening ( 2 ) consists of solid wood. 8. roof extension element according to one of claims 4 to 7, characterized by one or more in the region of the widening ( 2 ) opposite edge on the plate-shaped element ( 1 ) attached, extending parallel to this edge strips ( 3 , 4 ). 9. Roof extension element according to one of claims 4 to 8, characterized in that an elastically compressible layer ( 8 ) is attached to one surface of the elongate plate-shaped region ( 1 ). 10. Roof extension element according to claim 9, characterized in that the elastically compressible layer ( 8 ) extends over the entire length of the lightweight construction element ( 1 ). 11. Roof extension element according to claim 9 or 10, characterized in that the elastically compressible layer ( 8 ) consists of a thermal insulation material.