DE3909296A1 - Ventilating arrangement for building roofs - Google Patents

Abstract

A ventilating arrangement for building roofs, consisting of a plurality of lamellar, pivotably movably flaps made of heat-insulating material, is improved such that, while maintaining adequate heat insulation in the abutting or overlapping region as well, commercially available plastic panels of appropriate design can be used in the particular application. For this purpose, each flap (1, 1') consists of a rectangular frame comprising two transverse-side bearing plates (3) and two longitudinal-side enclosing profiles (2) connected to the latter. The heat-insulating material has the form of a planar plate (4), the longitudinal-side edge regions of which are received in a sealed manner in the enclosed profiles (2). The longitudinal-side enclosing profiles (2) are profiled at their external, long end faces in such a way that the enclosing profiles, located opposite one another in the closed state, of neighbouring flaps (1, 1') together form at least two chambers which are sealed off to the outside and inside. <IMAGE>

Description

The invention relates to a ventilation device for insulating material, which is in the closed position under Formation of an essentially flat area with your Overlap longitudinal edges.

Such a ventilation device is from DE-OS 36 06 563 known. The flaps consist of strand drawn hollow profile body made of plastic, so that this Ventilation device in contrast to also known Ventilation devices with metal fins a satisfactory adequate thermal insulation. The disadvantage is that no commercially available plastic hollow profile plates Special profiles with a can be used especially in the respective overlap area of the flaps complicated shape can be used.

The invention has for its object a ventilation device of the type specified in the introduction form that while maintaining an adequate Thermal insulation also in the joint or overlap area commercially available plastic plates in the respective Application of the corresponding embodiment can be used are.

This object is the in the characterizing nenden part of claim 1 specified features solved.  

The essence of the invention is to be seen in that each clap pe a composite construction consisting of a frame and a plate forming its "filling". Therefore can simple rectangular cuts of any, commercial cher, heat-insulating plastic sheets, the corresponding are inexpensive to be used. By the special Aus formation of the longitudinal edges of the frame forming border profiles ensures that the Bumps between adjacent flaps in the closed position the ventilation device was not only exposed to rain and wind but also due to the structure of the plates guaranteed thermal insulation at these points not below will break.

At least recommended for the longitudinal edging profiles the use of plastic to cold bridges avoid. A preferred embodiment of this socket profile is specified in claim 2.

Through the training mentioned in claim 3 even if the length of the individual flaps is long, i.e. one correspondingly large width through the ventilation direction covered building opening, the necessary sta achieve stability and sag resistance.

In claims 4 to 7 are preferred configurations which is limited by two adjacent border profiles specified joints between successive flaps.

Claim 8 relates to another embodiment of this area to be sealed.

In the embodiment according to claim 9, the ventilation is sufficient device also certain fire safety requirements gene.

Claims 10 and 11 are regarding the Kine  advantageous for opening and closing the flaps Embodiments directed.

In the drawing, the ventilation device is off leadership examples shown schematically simplified. It shows:

Fig. 1 mounted in a building roof opening ventilation device in a side view;

Fig. 2 shows a detail of a top view of the aeration apparatus of Fig. 1,

Fig. 3 is a plan view of the side edge portion of the apparatus of Fig. 1 in an enlarged scale,

Fig. 4 is a section along the line IV-IV in Fig. 2 and

Fig. 5 is a section similar to Fig. 4, but with a different design of the joint between the flaps.

Referring to FIG. 1, a building roof D on a limited by a back splash A opening. The upstand A carries on two opposite edges a support profile T for a ventilation device according to the present proposal, which can also serve as a smoke and heat extraction device with a suitable material selection and appropriate control.

As shown in FIGS. 1 and 2 show, there is a ventilation device consists essentially of a number of adjacent flaps, such as 1, 1 'in Fig. 2, which overlap in only shown here, closed position at their respective longitudinal edges as described in detail will be explained later. Each of the plates 1 , 1 , comprises a rectangular frame made of two transverse bearing plates 3 and two with the latter in the respective corner areas connected longitudinal border profiles 2nd A flat plate 4 is inserted into this frame. The bearing plates 3 are connected to the Einfraßprofilen 2 by bolts that protrude outwards and serve according to FIGS. 1 and 3 as a pivot bearing 16 for lateral, continuous connecting profiles 18 . The bearing plates 3 also form the upper end of bearing levers 3 '(see. Fig. 1) which are hinged to the support profile T via pivot pin 10 . The border profiles 2 are also connected to one another on the underside via one or more cross struts 15 (cf. FIGS. 2 and 1). In the case of several cross struts 15 , these are connected at right angles to their longitudinal axis via a further strut 22 . Either immediately bar on a cross strut 15 or on the further strut 22 engages a drive, not shown here, which brings the Klap pen by pivoting the bearing lever 3 'about the pivot 10 in the open position. The pivoting movement around the pivot pin 10 can reach up to 90 °. Here, the plates 1 , 1 'perform a combined lifting and rotating movement. The drive need only act on the cross strut 15 of a plate or on a corresponding further strut 22 , since the entrainment of the other flaps is ensured by the lateral connecting profiles 18 . The connecting sections 18 have FIG mutandis. 1 a ', which serves as a side wind cover downward, long leg 18.

In the drawn, closed position, the seal from the edge of the building opening is ensured by a circumferential seal 20 arranged on the top of the support profile T (see FIGS . 1 and 3).

The seal between the longitudinal edges or joints of the flaps 1 , 1 'is ensured by the configuration of the edging profiles 2 shown in FIG. 4. To avoid that these Einfaßprofile form cold bridges, the Einfaß profiles 2 are made of plastic. To ensure a sufficient strength, hollow profiles are used with a continuous hollow chamber, in which a reinforcing profile 6 , preferably made of metal, is accommodated, which at the same time ensures a stable fastening of the bearing plates 3 and the introduction of force via the connecting profile file 18 (see FIG. 3) guaranteed. To accommodate the flat, heat-insulating plastic sheets 4 , the edging profiles 2 have a U-shaped cross-sectional area, the outer and the inner longitudinal leg 2 'have an opposing, resilient preload voltage and inwardly facing sealing lips 13 . For moisture-proof and heat-insulating covering of the joint 5 , a total of three sealing lips are formed on the border profiles, expediently by coextrusion of suitable plastics. A long sealing lip 7 is followed approximately in the middle of the end face of the edging profile by a short sealing lip 8 and another short sealing lip 9 on the longitudinal edge opposite the long sealing lip 7 . The thus designed Einfaßprofile, where appropriate with additional use of sealant 14 , pushed onto the long front edges of successive flat plates 4 rotated by 180 °. The ge-called sealing lips then act together in such a way that two chambers 11 and 11 'form in the closed state in the heat transfer direction, which provide sufficient de heat insulation. In those Einfaßprofilen 2 , in which the short sealing lips 9 are facing upwards or outwards and the illustrated, the associated plate 4 facing course, these short sealing lips also take over the function of a drip when opening the ventilation device, if provided when assembling it is noted that the associated pivot pin 10 Einfaß profile 2 must have the orientation shown in the drawing with the lower, long sealing lip 7 and the upper, short sealing lip 9 .

In the left part of the middle door 1 in Fig. 4 a strut is additionally indicated 15 ', which may act to cross strut 15 of FIGS. 1 and 2, where appropriate, and the opposite Surround profiles 2 with larger flaps widths over their each reinforcement profiles 6 connects together.

In Fig. 5 another possibility for the tight and heat-insulating covering of the joint between successive flaps 1 , 1 'is shown. The Einfaß profiles 52 are in turn plastic hollow profiles with U-shaped holder for the plates 4 and a continuous hollow chamber for reinforcing profiles 6 '. By each a short leg 52 'perpendicular to the long end face of the Einfaßprofils 52 , but slightly offset from the center line and by a continuation of the long end face, further short leg 52 ''and finally by a long leg 52 ''', which in one to the top or the bottom of the flap 1 , 1 'offset level, the formation of two chambers 11 , 11 ' is also achieved in the closed state. The bending of the free edge of the long leg 52 '''in the direction of the respective flap protects the affected column additionally against the ingress of rain and wind. Furthermore, the chambers 11 , 11 'by sealing strips 17 on the short legs 52 ' and 52 '' seals abge. This also prevents rattling noises. This embodiment has the advantage of having no elastic sealing lips and corresponding, co-extruded profiles.

Claims (11)

1. Ventilation device for building roofs, consisting of a plurality of lamellar, pivotable flaps made of heat-insulating material, which overlap in the closed position with the formation of a substantially flat surface with their longitudinal edges, characterized in that each flap ( 1 , 1 ') a rectangular Frame made of two transverse bearing plates ( 3 ) and two longitudinal side border profiles ( 2 ) connected to the latter in the respective corner areas, that the heat-insulating material has the shape of a flat plate ( 4 ), the longitudinal edge areas of which in the border profiles ( 2 ) sealed are received, and that the longitudinal border profiles ( 2 ) are profiled on their outer, long end faces such that the adjacent Klap pen ( 1 , 1 ') in the closed state against opposite border profiles ( 1 , 1 ') with each other at least two outwardly and inwardly sealed chambers ( 11 , 11 ′) form. 2. Ventilation device according to claim 1, characterized in that the longitudinal border profiles are plastic profiles ( 2 ) with a U-shaped cross section, the free longitudinal legs are resilient and have an opposing bias. 3. Ventilation device according to claim 2, characterized in that the longitudinal border profiles ( 2 ) have a continuous hollow chamber for receiving a reinforcing profile ( 6 ). 4. Ventilation device according to one of claims 1 to 3, characterized in that at least the exterior in the assembled state the longitudinal legs of the longitudinal Surround profiles (2) on its side facing the flat plate (4) surface (2 ') of sealing lips (13). 5. Ventilation device according to one of claims 1 to 4, characterized in that each longitudinal border profile ( 2 ) has on the outside a first, long sealing lip ( 7 ) which, in the closed state, the outer surface of the border profile ( 2 ) of the adjacent flap ( 1 ' ) partially overlaps, and that each longitudinal border profile ( 2 ) has a second, short sealing lip ( 8 ) which extends in the direction of the opposite end face of the Einfaßpro fils ( 2 ) of the adjacent flap ( 1 ') and longer than half the width the joint between the adjacent flaps ( 1 , 1 '). 6. Ventilation device according to claim 5, characterized in that the longitudinal border profile ( 2 ) on its the long sealing lip ( 7 ) opposite the longitudinal edge with a further, short and in the opposite direction to the long sealing lip ( 7 ) extending sealing lip ( 9 ) is provided, which in the closed state of the flaps ( 1 , 1 ') bears against the inner surface of the long sealing lip ( 7 ) of the border profile ( 2 ) of the adjacent flap ( 1 '). 7. Ventilation device according to claim 5 or 6, characterized in that the border profile ( 2 ) and its sealing lips ( 7 , 8 , 9 ) are integrally connected by coextrusion of different plastics. 8. Ventilation device according to one of claims 1 to 4, characterized in that the longitudinal border profiles ( 52 ) in the region of their mutually facing long end faces with integrally molded ten long webs ( 52 '') and short webs ( 52 ''') ver see that are arranged so that they form the walls of the two chambers ( 11 ) in the closed state of the ventilation device. 9. Ventilation device according to one of claims 1 to 8, characterized in that the heat-insulating plate ( 4 ) consists of a non-combustible metal / plastic composite material. 10. Ventilation device according to one of claims 1 to 9, characterized in that each of the transverse bearing plates ( 3 ) forms the upper end of a bearing lever ( 3 ') which is articulated with its lower end to a fixed support profile ( T ) for the ventilation device is. 11. Ventilation device according to one of claims 1 to 10, characterized in that each of the querseiti gene bearing plates ( 3 ) carries a pivot bearing ( 16 ) for all flaps ( 1 , 1 ') common, a positive guidance bil end connecting profile ( 18 ).