DE501284C - Bending-resistant rod network made of rods with angled cross-section - Google Patents

Description

Bending-resistant bar network made of bars with angled cross-section The subject of the invention is a rigid rod network, which is formed from among themselves Beams or similar components is formed with an angled cross-section. Whereas with the otherwise usual carriers and the like when several elements are connected special parts, such as brackets, angles and the like, are necessary, form according to the invention those used to connect one element to another with the element a uniform whole, so that only screw bolts, rivets for connection or the like, but no connection or joint cover enclosures are required.

The invention aims to produce a bend-resistant rod network consisting of straight or curved flanges and webs of constant thickness Bars of the same length, same cross-section and the same dressing that lead to three-rod nodes are merged so that each node consists of one continuous rod and of two, butted in the knot, parallel to each other and the former consists of bars crossing approximately in the middle.

For this purpose, according to the invention, one end is a carrier o. The like. With an angled cross-section formed so that the flange or the flanges to a certain distance, which results from the flange width, the crossing angle and the desired connection lug width is removed by notching, and it is the front part of the remaining free web end around the crossing angle of the rods bent into a lobe in such a length that the remaining part of the free The end of the web is equal to the flange width measured in the crossing direction.

Furthermore, at the other end of the rod, the web is removed to a length, which results from the flange width, the - desired overlap length and the desired Connection lobe width, taking into account the angle of intersection, and it are the flanges of in the connecting rod part. the web through to the flanges parallel slots separated by the length of a connecting lobe width and the the resulting free flange ends along one nm the intersection angle to Longitudinal axis of the rod inclined edge by an amount corresponding to its strength offset to allow space for the angle parts or when assembling several elements To create flanges of other intersecting elements. The free end of the bridge is finally here around the crossing angle to the opposite side as at the other end of the bar bent over.

If necessary, the elements can correspond to the curvature of the with it to be produced, Bauüeils (roof oi the like.) Be bent.

Such a design of the carrier ends enables a very simple one Connection of, for example, two elements with a third crossing them in such a way that that the element which is connected on one side to the crossing element. this latter and at the same time also the one connected on the other side Element overlaps with its protruding angle or flange parts. Lay thereby the bent tabs of the two connected elements are attached to the intersecting one Element on. The connection - the adjoining parts of all elements can be in take place in any suitable manner, - z. B. by means of bolts or rivets. 1 Apart from dem-sehon) b # rwähnteuegfaL @ . special loose parts used to connect (with the exception of screw bolts' or rivets) the advantage that, ß in the joints between the individual building elements : no weakening occurs, apart from the screw holes, but the full cross-sections are butted, so that approximately the same at the Load capacity is present as in the mentioned elements themselves. - - - -In the Drawings is an embodiment of a component according to the invention of Jung shown, namely in Fig. i in the side view and in Fig. 2 in cross section.-The Fig. 3 shows a different cross-section, where the invention also is applicable.

Fig.q. indicates the connection of three elements according to Fig. i at.

Fig. 5 shows the bars in the correct mutual position in front of the Colliding: As can be seen from the drawing, the flanges are a of the beam formed differently at its ends. You are at the end B of the web b through Slits c separated so that the outer ends of the web form lobes d, cZ ', which are bent at the two ends by the angle -a (Fig.q.), under which the Element is to be connected to another crossing element.

The free ends of the flanges are at end A by notching e eliminated as far as the width of the flange of the other to be connected Element required. At the other end B, on the other hand, they protrude from the web through the slots c separated flange parts f beyond the end of the web and are around. the flange thickness Angled to leave room for the flange of the crossing element to be connected create.

A simple geometric consideration shows that the shortening of the flange at end A is the same: -j- desired a connecting lobe width and the shortening of the web at end B is the same: overlap length -j- - Desired connection flap width: - In the flange, holes g for screw bolts are provided immediately next to the notch e and at corresponding points on the protruding F1an @schteile f. The tabs d, d 'are provided with holes h, and there are also holes i in the middle of the element.

A connection of three elements designed in this way is shown in Fig. Q. evident. An, the - element I put the Lapppnd, 'di._ _de @'. elements II and III to be connected. The connection is made in holes h and i by means of screw bolts. The protruding flange parts f of the element II overlap. both the element I and the notched end of the element III, and the connection of the elements 11 , 11 and III can take place in the holes g by means of screw bolts, etc.

- In appropriate. The design can be designed with other cross-sections of the carrier. For example, U = and Z-shaped cross-sections, also cross-sections of I-, T- and e'inffach Wirikelforin use. It is also not necessary that the individual component, as in the drawing shown is curved. Rather, the carriers can also be straight. Essential is the formation of the two ends of the beam o. The like. To create the necessary Connectors. The elements can be made from sheet metal or from rolled profiles in iron or other suitable building material. It can be seen that the waste of material in the production is only small.

The example shown is particularly suitable for the execution so-called tariff roofs in iron. For this purpose in the patent specification 426 2 ¢ i described stretched beams can no longer be used economically, when it comes to small spans, even when using special ones Profiles instead of the usual normal profiles. With regard to the necessary Connections is the lower limit for the web height of the original girder at about 8o mm, and such carriers can only be rolled with material thicknesses that about q. mm. As a result, if the spans are small, such Structural members are not fully used statically, so that the permissible stresses of the material cannot be achieved and the execution becomes too difficult. The above described and shown in the drawing support forms, their bending, if necessary the intended curvature of the roof o. The like. Now allow with Consideration of the special design of the connecting parts is an essential lighter ones Execution with smaller cross-sections, for example in sheet metal. It is still the advantage achieved over the stretch girders (and also over wooden structures); that there is approximately the same load-bearing capacity at the joints as in the remaining parts of the carrier. This makes it possible to see the individual crossing, in the so-called Zollbau, trains of one building that form the rigid network of bars To carry out supports up to the other without significant weakening at any point, whereby the highest economic efficiency is achieved.

Claims (1)

PATENT CLAIM: Bending-resistant rod network consisting of straight or curved rods consisting of flanges and webs of constant thickness of the same length, the same profile and the same finishing, which does not require connection or joint cover shims, which are merged into three-rod nodes in such a way that each node consists of a continuous rod and from two rods joined in the knot, coinciding and crossing the former approximately in the middle, characterized in that a) that at one end (A) of each rod the flanges are removed to a length which is determined by the flange width, the crossing angle and the width of the connecting lobe (d), and the front part of the remaining free web end is bent at such a length by the intersection angle (a.) of the rods at an obtuse angle as connecting lobe (d) that the non-bent part of the free web end is equal to that in the flange width measured in the direction of intersection, b) that at the other end (B) of the bar, the web is removed to a length that results from the flange width, the length of the flange overlap and the width of the web connection lobe (dl) taking into account the crossing angle, in the connecting bar part the flanges from the web through to the flanges parallel slots (c) are separated by the length of a connecting lobe width, and that the resulting free flange ends along an edge inclined by the crossing angle (a) to the longitudinal axis of the rod are bent by their thickness to form a flange overlap (f) , and that free end of the web as a connecting tab (d ') is bent over to the opposite side as at the other end of the rod, c) that the butted rods (II, III) with the unequal ends (A and B ) are brought together in such a way that their webs lie in one plane, the flown-off web parts (d and dl) run through on different sides of this plane on the web of the the bar and the free flange ends (f) of one butted bar overlap the flanges of the continuous and the second butted bar.