DE2939613A1 - Insulating metal double skinned hangar profile roof - has upper skin sliding above lower one to compensate for heat expansion - Google Patents

Abstract

Spacing components separate an upper and a lower shell made of profile sheet metal plates, to provide a space for heat and/or sound insulation and a ventilation area, in a profile roof for laying on a substructure, esp. in a hangar- type building. The upper shell (4) is mounted on the lower one (1) so as to be displaceable, providing compensation for expansion effects lengthways and crossways. Use can be made of spaced sliding connections (10), with play in the upper profiles lengthways and crossways directions, to limit the upper shells movement and to support it on the lower shell. There is pref. greater play lengthways. This successively combats heat expansion and shrinkage, and provides adequate stability under wind loading.

Description

Double-skinned profile roof

The invention relates to a double-shell profile roof for Laying on a substructure, especially for hall construction, with a Lower shell and an upper shell made of profiled sheets, which are separated by spacer components are spaced apart to form a space for thermal insulation and, if necessary, a sound insulation and / or sound absorption as well as a ventilation space.

Double-skinned profile roofs of this type for hall buildings are in southern Countries with high daytime temperatures and relatively low nighttime temperatures Subject to great thermal expansion and shrinkage, which can damage the roof through warping, especially in the upper shell. There is the possibility To compensate for thermal expansion, double-skin profile roofs with short metal sheets are closed and connect them with suitable sliding joints. This roof structure however, it can only be carried out with a sufficiently dimensioned roof pitch. In the case of double-shell profile roofs with a small roof pitch, the one described above is Roof construction not applicable. Another disadvantage of the previously used double-shell profile roofs is in the insufficient stability compared to the hurricane-like storms with wind speeds occurring in the southern latitudes to see up to 150 km / h.

The invention is based on the object of a double-shell profile roof to be developed preferably for hall construction, that one compensation from thermal expansion and shrinkage and sufficient stability offers against high wind loads.

This task is based on a double-skinned profile roof of the type described above solved in that to compensate for longitudinal and Transverse expansion, the upper shell is arranged displaceably on the lower shell.

According to a further feature of the invention are between the upper shell and lower shell with spaced sliding connections attached with a play in the longitudinal and transverse direction of the upper shell profile to limit the displaceability of the Upper shell and to support the upper shell on the lower shell, the sliding connections have greater play in the longitudinal direction than in the transverse direction.

In a further advantageous embodiment of the invention, the upper shell by means of supports, which are arranged transversely to the upper shell profile, on mounting brackets Slidably mounted, which upper shell and lower shell to form a ventilation space spaced apart and which via spacer profile carriers embedded in the insulation the lower shell are supported, and the sliding connections are by flat brackets formed, which form sliding blocks with the underside of the upper shell carrier, which is limited to the support brackets in the longitudinal and transverse direction of the upper shell profile are movable.

The invention also provides that the upper shell support has a hat profile have, which is reversed with the foot bars attached to the upper shell and with the underside of the head web on top of the head web of the hat profile the support bracket rests slidably, which with the head web in the sliding blocks the sliding connections are suspended, and that the play of the sliding blocks in the longitudinal direction of the upper shell profile through the side bars of the support bracket and the game the sliding blocks in the transverse direction of the upper shell profile through the head web of the Support bracket is limited.

The invention experiences a significant improvement in that the top of the head web of the support bracket is covered with a sliding film.

The upper shell expediently consists of flat trapezoidal sheets.

Finally, essential features of the invention are also included therein see that the supporting lower shell is composed of trapezoidal sheets and that Lower shell and upper shell are laid in parallel on the substructure.

The double-shell profile roof according to the invention closes damage due to the strong heat effect due to a sliding construction of the upper shell, which enables the thermal expansion and shrinkage to be compensated. The great stability of the profile roof against strong external loads, which are mainly caused by wind forces caused, allows the roof to be laid with large sheet metal lengths, which can be up to 40 meters.

The invention is illustrated below with reference to one in the drawing Embodiment explained in detail. 1 shows a roof section in a perspective view, FIG. 2 shows a section in the longitudinal direction of the upper shell profile along line II-II of FIG. 1 in an enlarged view and FIG. 3 shows a section in the transverse direction of the upper shell profile according to line III-III of FIG. 1 in an enlarged Depiction.

The double-shell profile roof according to FIGS. 1 to 3 has a load bearing Lower shell 1 made of plastic-coated profile sheets 2 made of aluminum or steel with a high trapezoidal profile 3 and an upper shell 4 made of plastic-coated Aluminum or steel profile sheets 5 with a flat trapezoidal profile 6, which spaced from the lower shell 1 by spacer components and on this for compensation is arranged to be limited in displacement by longitudinal and transverse expansions. The trapezoidal sheets 2 of the lower shell 1 are screwed or riveted together at the longitudinal joints 7, and the trapezoidal sheets 5 of the upper shell 4 are clamped into one another at the longitudinal joints 8. Lower shell 1 and upper shell 4 are parallel on a substructure made of purlins 9 relocated.

The sliding construction of the profile roof consists of between the upper shell 4 and lower shell 1 spaced sliding connections 10 with a game 2a in the longitudinal direction b-b and a play 2c in the transverse direction d-d of the upper shell profile 6, according to the thermal expansion of the profile sheets 5 of the upper shell 4 the Game 2a of the sliding connections 10 in the longitudinal direction b-b is greater than the game 2c in Transverse direction d-d is dimensioned. The sliding connections 10 are used at the same time Support of the upper shell 4 on the lower shell 1.

The upper shell is arranged transversely to the trapezoidal profile 6 of the same Carrier 11 slidably mounted on support brackets 12 with a hat profile, which upper shell 4 and lower shell 1 spaced apart to form a ventilation space 13 and over in the insulation 14 embedded spacer profile support 15 is supported on the lower shell 1 are. The carriers 11 of the upper shell 4 have a hat profile, which is the other way around is screwed with the foot bars 16, 17 to the trapezoidal sheets 5 of the upper shell 4 and with the underside 19 of the head web 18 displaceable on a sliding film 20 which rests on the top 22 of the head web 21 of the hat profile of the support bracket 12 is attached.

The sliding connections 10 between the upper shell 4 and the lower shell 1 are formed by flat brackets 23, which are connected to the underside 19 of the head web 18 the upper shell carrier 11 form sliding blocks 24, which on the head web 21 of the suspended support bracket 12 in the longitudinal and transverse directions b-b, d-d of the upper shell profile 6 are displaceable with the game 2a or 2c. To improve the sliding properties of the scenes 24, the inside of the flat bracket 23 is covered with a sliding film 25.

The longitudinal play 2a of the sliding blocks 24 is due to the side webs 26, 27 of the support bracket 12 and the cross play 2c of the sliding blocks is through the head web 21 of the support bracket 12 is limited.

Above the thermal insulation 14 made of non-combustible mineral fiber mats a waterproof foil 28 made of aluminum is stretched, which prevents the entry of any Prevents condensation from forming on the upper shell 4 in the insulation 14. That Condensation water that does not evaporate runs into the eaves drainage, not shown.

A vapor barrier made of aluminum foil 29 underneath the insulation 14 prevents water vapor from diffusing into the insulation 14 from the interior of the hall.

The sliding connections 10 between the upper shell 4 and the lower shell 1 allow the upper shell to be moved to a limited extent to compensate for longitudinal and transverse expansion and transfer the vertical forces acting on the roof from the vertical components of wind pressure and suction, the weight of the roof and possibly caused by snow load, over the hall walls into the ground foundations.

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Claims (8)

Claims (1.) Double! Shell profile roof for laying on a substructure, especially for hall construction, with a lower shell and an upper shell made of profiled sheets, which are spaced apart by spacer components to create a space for thermal insulation and, if necessary, sound insulation and / or soundproofing and a ventilation space, characterized in that da3 the upper shell (4) on the lower shell to compensate for longitudinal and transverse expansion (1) is slidably arranged. 2. Profile roof according to claim 1, characterized by between the upper shell (4) and lower shell (1) spaced sliding connections (10) with a Play (2a, 2c) in the longitudinal and transverse directions (b-b, d-d) of the upper shell profile (6) to limit the displaceability of the upper shell (4) and to support the same on the lower shell (1). 3. Profile roof according to claim 2, characterized by a larger one Game (2a) of the sliding connections (10) in the longitudinal direction (b-b) than in the transverse direction (d-d) of the upper shell profile (5). 4. Profile roof according to one of claims 1 to 3, characterized in that that the upper shell (4) by means of supports (11) which are transverse to the upper shell profile (6) are arranged, is slidably mounted on support brackets (12), which upper shell (4) and the lower shell (1) to form a ventilation space (13) and which (12) via spacer profile supports (15) embedded in the insulation (14) on the lower shell (1) are supported, and that the sliding connections (10) are supported by flat brackets (23) are formed, which with the underside (19) of the upper shell support (11) sliding blocks (24), which on the support brackets (12) in the longitudinal and transverse direction (b-b, d-d) of the upper shell profile (6) can be displaced to a limited extent. 5. Profile roof according to one of claims 1 to 4, characterized in that that the upper shell support (11) have a hat profile, which is reversed with the Foot bars (16, 17) are attached to the upper shell (4) and with the underside (19) of the head web (18) on the top (22) of the head web (21) of the hat profile of the Support bracket (12) slidably rests, which with the head web (21) in the sliding blocks (24) of the sliding connections (10) are suspended, and that the game (2a) of the sliding blocks (24) in the longitudinal direction (b-b) of the upper shell profile (6) through the side webs (26, 27) the support bracket (12) and the play (2c) of the sliding blocks (24) in the transverse direction (d-d) of the upper shell profile (6) limited by the head web (21) of the support bracket (12) is. 6. Profile roof according to one of claims 1 to 5, characterized in that the top (22) of the head web (21) of the support bracket (12) and the inside of the Flat bracket (23) are covered with a sliding film (20, 25). 7. Profile roof according to one of claims 1 to 6, characterized in that that the upper shell (4) consists of flat trapezoidal sheets (5). 8. Profile roof according to one of claims 1 to 7, characterized in that that the supporting lower shell (1) is composed of trapezoidal sheets (2) and that Lower shell (1) and upper shell (4) parallel on the substructure (purlins 9) are relocated.