DE886657C - Component for frame truss - Google Patents

Description

Frame Truss Member The invention relates primarily to rigid structures Frame trusses or structural parts, as they are used in the construction of lighter buildings as a replacement for the more common construction with supports and roof trusses are to be used.

The structure may be designed with an arched, portal, saddle or sawtooth roof be.

The requirements that manufacture, transport and assembly make, make it necessary to make each frame hindrance from a sequence of individual shorter structural members to build, which are butt connected to each other. So z. B. the conventional Saddle roof frames can be constructed from four separate straight profile rod lengths, which are arranged so that the connection points on the eaves and the ridge lie. The main difficulty in building such frames is how to get to the butting ones To create ends of this part-length connections that are no less stiff than the remaining frame parts.

The invention aims to provide a component that is in the first place Line is intended and suitable to be used for roof truss frames to be connected to the ends with similar members, preferably to portal frames to build; the butting ends of the beams are simply screwed together, for example, in the usual assembly method on site. The structural member is designed so that the resulting connections between the colliding Ends are really rigid.

The component according to the invention is made of a profile bar with flanges and web, preferably I profile; educated. that is, the bridge on one Is forked open at the end or at both ends to form a leg, 1, which are connected to one another by an end plate.

When carrying out the invention, such members can be made of rolled steel lengths be made of I-section; these are split in a fork shape by adding the web is slit lengthways on a certain distance at the end and the gap is expanded to a triangular shape. Then the legs are formed at the ends machined a flat connection surface and, for example by welding, with connected to an end plate. It is also expedient to weld a filler plate into the gap between the webs of the legs. You can still add additional rigidity achieve in that one band-shaped filler rods as connections of the leg webs welded on.

In another embodiment, the structural part can be used instead manufacture from a single beam also from two separate lengths of T-section, or it can also be built entirely from sheet metal strips.

The invention is illustrated in the drawing, for example.

Fig. I is a view of a member made from an I-section bar which is designed according to one embodiment of the invention; Fig. 9 is an enlarged one perspective view of a member end according to FIG. i, but without the one indicated there ribbon-shaped cross bars; Figure 3 is an end view of the same illustrating the end connector plate .dar; Fig. 4. Is the view of a component which consists of two individual T-profile bars is made; Fig. 5 is a view of a complete truss for a multi-aisle Hall composed of structural members according to the invention; FIGS. 5 a to 5 c are views of details, on an enlarged scale, depicting the Fig. 5 a and 51) connection points on the eaves and on the ridge, while Fig. 5c shows the roof valley between two aisles; Fig. 5d is a perspective Single view of an angle plate reinforcement; Fig. 6 is an end view showing the Application of the structural members according to the invention in the construction of portal frames large span up to about 24 m, and the application goes from Fig. 7 structural members according to the invention in the construction of sawtooth roofs. According to Fig. i to 4 consist of the structural members according to the invention essentially of an I-profile bar with flanges i, i and a web a. At one end or at both ends, the Profile bar split fork-shaped by separating and spreading the web so that it forms two separate legs 3 and 4, which, as mentioned, by an end plate 5 can be connected. This end plate 5 is used to connect the member with others in the Structural members used to connect.

Figure i illustrates a typical frame member with both ends bifurcated are; it is made of rolled steel. produced by I-Ou section, as shown in Fig. 2 clearly emerges. The web 2 of the I-bar is split at both ends, as in Fig. I is shown at 6 and 6 ', and each pair of legs 3, 4 is through an end plate 5 connected, while the middle part 7 of the carrier remains unchanged.

The web can be split by autogenous cutting; -the end of the rod can be spread by bending one flange 4 and straightening the other flange 3 so that a triangle with the acute angle a is formed at its apex. The bifurcated ends of the beam are used to form a flat pad processed at an angle adapted to the requirements of the construction stands, and the web parts are united by a welded filler piece S; Finally, the two ends with the relatively heavy end plate 5 welded and in this the holes i i drilled for the connecting bolts.

If necessary, cross bars 12 (Fig. I) across the bifurcated Ends are welded to stiffen them like a lattice girder.

While Figs. I to 4 illustrate an embodiment of the invention, in which one flange of the member remains straight over its entire length, one can Of course, use them in such a way that you bend both legs 3 and 4, so that they form an isosceles triangle; or you can also work on one Bend the end of one and the other end of the other leg, just like you did with the two horizontal lower chord bars 42 of FIG. 6 is shown.

Instead of 1 rolled steel, the component can also consist of two separate Lengths of T-section can be made as shown in Fig: g. 4 emerges. To this The purpose is a straight T-bar 13 with a second T-bar 14 at one end or is bent at both ends 15, 15 'to give the fork ends in which middle part 7 welded lengthwise. Filler pieces 8 are then between the Sege welded in at the ends and the stiffener 12 welded on, just like it was specified as the starting material for the I-steel.

Finally, such structural members can just as easily be made entirely of strip material getting produced. In Fig. 5 a truss of a multi-aisle hall is shown, which is made up of members according to FIGS. The tie of an outer ship as Fig. 5 shows, consists of two vertical supports 2o and 3o, during the Roof part is formed from two structural members 18 and i9, which at the ridge io, by means of bolts 17 are connected to one another, as illustrated in FIG. 5 b.

Where the roof part meets the vertical support on the outer eaves, As is known, a bending moment of considerable magnitude occurs.

In order to give the connection a corresponding stability, can the outer supports 2o, as shown, are made from structural members according to the invention, so that there is a connection like her shown generally at 16 and appears enlarged in (h-i- Fig. 5 a. Here is the support 26 with the roof part 18 connected via the end plates 5 of the two structural members by means of the bolts 25. The connection between two adjacent girders can be established in that the end plates 5 of the Ralimengliecl: r z9 directly with the flanges 3i (Fig. 5c) screwed to the inner support 3o.

In this case it is important to have a suitably arranged longitudinal connection 26 at the eaves # ang arranges the successive portal frame of the length of the building connects to each other. Such a connection is in cross section can be seen in Fig. 5a and shown enlarged in Fig. 5d.

The longitudinal connection can be made of rolled steel from. '\; #' Inleelprofil or as in FIGS. 5 a, 5 c and 5 d of I- or U-cross section; your connection mit.dem binder is done through an elbow 26 'that is welded to its end and optionally with the forked end of the frame member, in this case the support 2o is screwed. As can be easily demonstrated, one is enough relatively light longitudinal connection arranged in the manner described, to prevent the portal frame from buckling to the side at the eaves, even when the compressive stress on the inner flanges of the frame corner is exceptional is great.

In Figure 6, a portal frame is shown, which has a very large Wingspan, for example of 24 in. The frame shown is off six members built, namely two supports .4o and 5o. those through four roof members are connected. Two of these, .lt and .I1 ', are similar to those mentioned so far, while in the two inner links q.2 the shins are bent in different directions are. The six frame members are screwed together at their ends to make one to form a complete portal frame.

With such a large span, the vertical deflection would be in the center of the truss will become excessively large under the snow load. To face this a light framework is arranged over the middle part, indicated at 4.5 is.

B. - i this arrangement results in a very considerable gain in lights Height achieved inside the building.

Fig. 7 shows the application of members made in accordance with the invention when building a sawtooth roof. In this case the ends of the members are like that shaped so that their end plates 5 lie in parallel planes so that they can be seen immediately can screw on the flanges of the vertical supports 6o made of I-rolled steel. These Supports can expediently at the same time be vertical rods high truss girders that are arranged in the ridge or eaves direction over the entire width of the structure and bear the entire weight of the roof.

The component according to the invention facilitates: assembly in place and Place, since a frame truss is only assembled using bolts, passing through the abutting end plates and successive ones Connect the frame members firmly together.

Since cli ,: end plates of successive structural members lie against one another over their entire surface, longitudinal compressive forces are transmitted directly from one end plate to the other. Tensile forces, including those resulting from the bending moments, and shear force: - can be absorbed directly by the bolts. The angle which the end plate 5 forms with the axial direction of the component can be dimensioned so that the plate is essentially normal to the main stress. In this case, the clearance provided in the bolt holes in no way affects the flexural strength - the construction.

In practicing the invention, one can use the longitudinal slot in the web at the ends of the profile bar from which the component is to be formed with Produce the cutting torch, specifically with the inevitable guidance of the Burner. Also the processing of the end faces of the fork-shaped bent end can be done with the cutting torch by placing the electrodes in a suitable Holding device that allows cutting in a plane, with the angle between this level and the rod axis can be set up as required. You can spread the ends of the slotted profile bar with a hydraulic Make a tool that is held in a suitable device.

The main advantage resulting from the construction described, lies in the fact that they are really rigid connections between the ends of consecutive ones Frame members results, although these members are only bolted through the end plates 5 are held together so that no welding work on site is necessary are. In addition, the component according to the invention has other important ones Benefits.

The greatest bending moments generally occur in such frames at such points of their longitudinal extent where their inclination changes. For example occur in the conventional saddle roof frame maximum bending moments on the ridge and at & n Eaves. In general, it is most convenient to abut the frame members to lay these places. Since the bifurcation of the link ends is the moment of inertia of the Increased cross-section, the flexural strength of the frame increases at the points of the greatest bending moment.

On the other hand, since the flanges of the legs 3 and q. towards the ends of the member are spread apart, a large part of the thrust forces are taken up directly by these flange parts. As a result it is Usually it is not necessary to completely stiffen the gap of the web with cross bars. A couple of simple ribbon sticks in between; n across the spread apart Halves of the web welded, are usually enough to still take up remaining shear forces.

Another important advantage of the members of the invention results from the fact that the ends spreading apart a sufficiently large distance the bolt allows to fully absorb the bending moment through the bolt connection:

Claims (1)

PATENT CLAIM: r. Component made of profile material for frame trusses, characterized in that a profile rod (12, 14) at one end or at both ends is forked to form legs (3, 4), and that the two legs of the forked end are connected by an end plate (5). z. Component according to claim r, characterized in that the web parts of each pair of legs (3, 4) by a Filling plate (8) are connected and that the end plate (5) both with the ends of the Legs (3, 4) as well as with the filling plate (8) is connected. 3rd member after Claim z or z, characterized in that the legs (3, 4) on the forked Ends are mutually stiffened by ribbon-shaped cross bars (i2).