DE551629C - Straight or vaulted roof made of tubular, adjacent parts - Google Patents

Description

Straight or arched roof made of tubular, juxtaposed Parts Roofs have already been made by stringing together tubular parts which in cross section has a simple circular or elliptical profile own.

A disadvantage of the known design is that only closed tubular parts are applied, through which the heat or the cold to the itself touching points of the items are transferred directly and that one of these Internal airflow preventing transmission cannot occur.

The object of the present invention was therefore to provide the heat-insulating Increase properties of the roof.

The structural simplicity and the great load-bearing capacity are combined with the thermal advantages combined in that the roof is made in a known form tubular adjacent parts is formed according to the invention from side by side, not butting together, but on the side edges Corrugated metal sheets connected to one another by strut bolts exist, wherein a free space between the edges of the upper and lower sheets to avoid this the heat transfer remains.

The double roof assembled in this way has a great rigidity and strength. It can be used for roofs with one or two slopes, Arched roofs, pointed arch roofs and the like can be used.

The peculiar details of the roof are as follows: i. The inner ones and outer walls of the roof are composed of thin metal sheets, which are approximately i, om long, 0.50 m wide and i mm thick. Through this division of the roof The following valuable advantages are achieved in small similar elements: The span can be changed by adding a larger or smaller number of said panels is arranged side by side. Due to their small size the elements can be produced in one operation in an ordinary press will. All holes used to connect the elements can also be in the Press can be produced in one operation, which on the one hand reduces production costs are reduced and, on the other hand, accurate perforation of the panels is ensured, what at. Buildings with a large span are a prerequisite for easy construction is. Due to their small dimensions, they can be made from raw sheet metal Boards after the pressing and punching process in galvanizing containers of normal size low zinc consumption. As a result of this made after the perforation Galvanizing the cut surface of the holes is also coated with zinc, reducing the risk of Destruction of a roof made of galvanized sheet metal due to rust eliminated will. . The installation of the roof itself is made possible by the small dimensions of the Sheet metal significantly favored da.ß these dimensions are calculated in such a way; that when laying the panels, the worker with his hand every point of their inner surface can reach.

2. The two roof walls are connected to one another in such a way that they are not in direct contact with each other at any point. The connection is effected by bolts and struts, which are placed at a sufficient distance from one another are to practically neglect the heat transfer due to their conductivity to be able to.

3. To facilitate the assembly of the perforated panels, the Provide the holes with protruding edges that fit into each other in the adjacent parts.

In the drawing, an embodiment of the invention is illustrated, namely show: Fig. r a part of the roof according to the invention, Fig. 2 a Cross-section through two sheet metal sheets lying on top of one another, Fig. 3 details of the Connection between two metal sheets, Fig. Q. the view of an ogival roof with three joints and an upper ridge cap.

According to Fig. Z, the upper and lower roof walls are composed of ribbed sheets, which are anoidal side by side and are labeled A for the upper wall and B for the lower wall.

The corrugated sheet metal shown in cross-section in Fig.2. on each of the two edges there is an overlapping wave m, which lies very close to the above-mentioned plane XX, the curvature of which is directed upwards to ensure a tight seal. The fastening holes t (see Fig. 2 right) are located at the apex of the shafts and are provided with a frustoconical edge projection. The two hollow half-waves g have a sufficient extension and depth to ensure a good drainage of rain water.

The lower panel B is essentially the same but reversed Wise trained, namely with medium, quite far from the corresponding waves r of the upper element distant waves s, making the whole thing quite high Receives moment of inertia. The lateral ones close to the plane of separation X-X Waves n facilitate the connection with the upper panel A.

In Fig. 3 is the connection between the upper and lower panels illustrated. As already shown in Figure 2, the connecting holes are t provided at the apex of the frustoconical approach. These approaches agree the individual panels coincide with one another, whereby they are precisely matched to one another and the shear strength is significantly increased. The connecting bolts or screws b are specially designed and have a conical shape corresponding to the approach Head while the expedient. square nuts e, e 'corresponding to the same cone are pressed in order to adapt to the concavity of the base of the sheets, making the exact match as well. an extremely firm hold is achieved. Tubular struts i, the ends of which are milled conically towards the outside or towards the outside keep the top and bottom panels the desired distance from each other.

In Fig. ¢ there is an ogival roof with articulated joints at the bottom End of the two roof slopes and shown on the roof ridge, which according to the invention is trained. From this figure one can easily see that the span of the roof by adjusting the angle enclosed by its two halves, can be changed easily.

Claims (1)

PATRNTANSPR1, JCH: Straight or arched roof made of tubular, side-by-side parts, characterized in that the tubular parts consist of upper (A) and lower (B) corrugated sheets, which are connected to one another at their lateral edges by strut bolts (b, i, e) which leave a free space between the edges of the sheets (A and B) , whereby the heat transfer from the sheets (A) to the sheets (B) is reduced.