DE3805912A1 - Trapezoidal metal sheet/timber composite element for building construction - Google Patents

Abstract

The trapezoidal metal sheet/timber composite elements are suitable as a roof element for any type of roofing. They can be partially prefabricated and, by virtue of the tension-resistant and shearing-resistant connection between load-bearing element (2) and trapezoidal metal sheet (6), can also be used for steep-pitched roofs. <IMAGE>

Description

Load-bearing trapezoidal sheet metal roofs with a warm roof structure are known, to which the roof skin is glued, or through with sheet metal cover the thermal insulation is screwed. This manufacture is expensive and can only be carried out on flat-pitched roofs.

The invention has for its object to ent support elements wrap, which can be easily prefabricated, also at steeper roofs are feasible and are available for everyone suitable roof covering components.

The invention is according to the invention by the features in Pa Claim 1 and claim 6 solved. Appropriate Exterior design of the invention are the subject of dependent claims chen. The invention is based on various Exemplary embodiments illustrated in the drawings tert. It shows

Fig. 1 is a partial cross-section of the composite element (1),

Fig. 2 shows a partial longitudinal section through the composite element (1) before installation of the thermal insulation (7), (11) according to line II,

Fig. 3 is a system diagram for the possible joint arrangement (17) with trapezoidal sheet continuous beams,

Fig. 4 shows a cross section through the assembly truck (14),

Fig. 5 is a partial cross section of the Sogverankerung with trapezoidal sheet roof covering (15),

Fig. 6 shows a partial longitudinal section of the Sogverankerung with trapezoidal sheet roof covering according to line II-II,

Fig. 7 shows the installation state according to section 9 b with trapezoidal sheet metal covering ( 15 ).

In the different embodiments, the same construction parts identified by the same reference numerals.

The composite panel ( 1 ) can be used for any roof covering. It consists of the underlying trapezoidal sheet metal layer ( 6 ), which can be carried out statically continuously in the field, reinforced in the end field by the possible mutual articulated joint arrangement ( 17 ) and can be carried out in handy lengths for assembly and the support element ( 2 ) made of wood ( 3 ) and Foam ( 4 ), which are connected to each other for simple er er z. B. by gluing and the top moisture barrier ( 10 ).

Due to the load-distributing, rigid support of the support elements ( 2 ) on the trapezoidal sheets ( 6 ), the support system is statically indeterminate with a reciprocal joint arrangement ( 17 ), so that an increase in the internal size by 33% according to approval does not apply here.

Mineral or glass wool mats ( 7 ) with moisture barrier ( 12 ) on the top, possibly, lie between the support elements ( 2 ), which are laid at an even distance from each other and are attached to the trapezoidal sheets ( 6 ) with sheet metal strips ( 9 ) Foam plates ( 11 ) laid, which leave an air gap on the wood, so that the air moisture penetrated through the trapezoidal sheet joints through the air gap and the mineral wool ( 7 ) between the slats ( 5 ) can escape into the ventilation space ( 16 ).

The inclined design of the anchoring straps ( 9 ) anchor the support element ( 2 ) both against roof thrust and against wind. The high load-bearing capacity of the anchors ( 9 ) and the flexural strength of the support elements ( 2 ) mean that only a few anchors ( 9 ) are necessary .

The moisture barrier ( 10 ), ( 12 ) arranged at the top ensures that despite the large ventilation space ( 16 ) share on the roof end construction ( 15 ), for large temperature changes such. B. a thunderstorm, condensation can be derived without damage.

The assembly carriage ( 14 ) is provided for transporting the roofing construction parts ( 15 ) on the roof surface. When the construction crane is in a stationary position on a brick wall, the wagon is loaded in the pulling area of the crane and moved to the roofing surface, so that the roofer can remove the roofing components ( 15 ) directly from the wagon without further manual work.

With trapezoidal sheet roofing ( 15 ), the installation of the round rod ( 21 ) through the elongated hole in the sheet ( 22 ) is easily possible because the missing batten ( 13 ) in the anchor area causes the sheet ( 15 ) to bend at twice the support distance.

Claims (9)

1. Trapezoidal sheet wood composite element ( 1 ) as a self-supporting roof element for building construction, consisting of trapezoidal sheets ( 6 ) arranged on the room side, in a force-locking connection with supporting elements ( 2 ) made of wood ( 3 ) and thermal insulation ( 4 ) and the upper roof end components ( 15 ). 2. Composite element ( 1 ) according to claim 1, characterized in that the support elements ( 2 ) are arranged at a distance and between them for thermal insulation mineral or glass wool mats ( 7 ) with top moisture barrier ( 12 ) on the trapezoidal sheets ( 6 ) . Above insulation boards ( 11 ), an air gap ( 24 ) remaining between insulation boards ( 11 ) and wood ( 3 ). 3. Composite element ( 1 ) according to claim 1 and 2 characterized in that on the woods ( 3 ) between the moisture lock ( 10 ) and ( 12 ) slat pieces ( 5 ) are attached, which carry the slats ( 13 ) and between them An air gap is created between the moisture barriers ( 10 ) and ( 12 ), which ensures a steam bridge between the trapezoidal sheet metal joints and the ventilation space ( 16 ), via the air gap ( 24 ) and mineral wool ( 7 ). 4. Composite element ( 1 ) according to claim 1 to 3, characterized in that the supporting elements ( 2 ) with the trapezoidal sheets ( 6 ) via pre-punched sheet metal strips ( 9 ) are connected by twisting and kinked to the woods ( 3 ) nailed or ge screwed and screwed to the trapezoidal sheets ( 6 ). 5. Composite element ( 1 ) according to claim 1 to 4, characterized in that the support elements ( 2 ) are prefabricated by the woods ( 3 ) with the intervening insulation boards ( 4 ) connected, generally glued. 6. Composite element ( 1 ) according to claim 1 to 6, characterized in that mutually articulated trapezoidal sheet joints ( 17 ) in the binder fields without loss of load capacity who executed. 7. Composite element ( 1 ) according to claim 1 to 6, characterized in that at trapezoidal sheet roof closure ( 15 ) the Sogveran kering of the sheets ( 15 ) by screwing ( 19 ) of the raised beads with preformed sheet metal strips ( 20 ), which around a steel round rod ( 21st ) are performed. The steel round rod ( 21 ) is anchored via pre-punched metal sheets ( 22 ) which enclose it and are connected to the wood ( 3 ) with nails or screws ( 23 ). 8. Assembly carriage ( 14 ) for transporting the covering ( 15 ) over the slats ( 13 ) or through the beads of the trapezoidal sheets ( 6 ). 9. Installation of the trapezoidal sheets ( 15 ) as a roof closure component by the following process steps,

• a) screwing the sheet metal strips ( 20 ),
• b) pushing the round bar ( 21 ) through the metal strips ( 20 ) and through the opening in the concealed anchor plate ( 22 ) when the trapezoidal plate ( 15 ) is inclined,
• c) placing the trapezoidal sheet ( 15 ) on the intermediate battens ( 13 ),
• d) pushing the round rod ( 21 ) through the recess of the free anchor plate ( 22 ),
• e) Installation of the support slat ( 13 ) at the anchor point.