NL8302630A - COLD-ROLLED BEARING PROFILE. - Google Patents

Abstract

A girder section of Z- or S-shaped cross-section, the web (2) being situated in a plane substantially coinciding with the plane through the minimal principal axis of inertia (Y). The edges (3,4) of the web (2) are each connected by means of a connecting part (5,6) to one end of a leg (7,8) of the section. The two connecting parts (5,6) are situated on either side of the plane through the first principal axis of inertia (Y), while the end (9) of the lower leg (7) averted from the connecting part (5) is return-bent in the direction of the web (2) and is connected to the web (2), thereby forming a closed triangle (5,7,9) having acute base angles ( alpha , beta ), the section, after rotation about its longitudinal axis, being nestable in a similar section not rotated about its longitudinal axis.

Description

* VO 4972

Cold rolled trunking.

The invention relates to a cold-rolled supporting profile with a Z- or S-shaped cross-section.

X-rolled support profiles are known in practice in various forms. The advantages of this are mainly that at the same resistance and inertia moment they can be considerably lighter than hot-rolled profiles. The drawbacks of cold-rolled support profiles, and in particular when they are used as purlin profiles, are - the low lateral stiffness of the support profile, which often requires 10 coupling profiles, - the low torsional stiffness, and - the low power high loads at the location of the support.

Coupling profiles are used to avoid buckling of the pressurized flange and twisting of the profile if the working line of the load is not aligned along a main inertia axis of the profile or if the load engages eccentrically with respect to the center of gravity of the load. profile or the transverse force center does not coincide with the center of gravity.

The object of the invention is to provide a cold-rolled bearing profile, wherein these drawbacks are largely overcome. The support profile according to the invention is characterized in that the body is situated in a plane, which substantially coincides with the plane, passing through the minimum main inertia axis, the edges of the body are each connected via a connecting part to an end of a leg of the body. profile, in which the two connecting parts are situated on either side of the plane, passing through the main inertia axis, the end of the lower leg remote from the connecting part is bent back towards the body and is connected to the body to form a closed triangle with sharp base angles, in which the profile after nesting about its longitudinal axis is nestable in a uniform profile, not twisted about its longitudinal axis.

The closed triangular profile part present on the underside of the supporting profile offers the advantage that the free, unsupported body height of the supporting profile is reduced to some extent, so that 8302630 with a relatively high profile can still be constructed economically. The profile shape also offers a simple support for wooden beams and so-called "rolls" of a system floor. while relatively large loads can be transferred to the support profile or be introduced from the support profile into the rest of the support construction.

The base of the support profile according to the invention is further torsionally rigid, while due to the greater lateral stiffness and resistance the support profile is less "chicken" sensitive and is better able to discharge side load.

An important advantage is further obtained, due to the nestability of the profile, as a result of which a continuous beam system can be constructed constructively from beams of limited length, whereby dimensional deviations in the design are overcome by sliding profiles together.

Another advantage of nestability is the lower volume during transport and storage.

Embodiments of the support profile according to the invention are further elucidated with reference to the drawing. Herein shows: FIG. 1 the support profile according to the invention; fig. 2-4 variants of the support profile as shown in fig. 1; fig. 5-6 application possibilities of the support profile according to the invention.

The Z-shaped support profile shown in fig. 1 consists of a body 2, which substantially coincides with the plane passing through the main inertia axis Y, while two legs are present, namely the lower leg 7 and the upper leg 8, which are essentially run parallel to a second main inertia axis X. The legs 7,8 are connected to the body 2 via connecting parts 5,6, the connecting part 5 extending from the edge 3 of the body 2 to an end of the lower leg 7, while the connecting part 6 extends from the edge 4 of the body 2 to one end of the upper leg 8. The connecting parts 5,6 are located on either side of the plane passing through the main inertia axis Y and are parallel to each other. The connecting parts 5,6 cut the legs 7,8 at an acute angle, the rounding radius R2 between the connecting part 6 and the upper leg 8 being at least equal to the rounding radius between the connecting part 5 and the lower leg 7, increased by the plate thickness of the profile. In this way, the nestability of the profile 1 is obtained in another uniform profile, which is rotated about 180 ° along its longitudinal axis.

The free end 9 of the lower leg 7 is bent back at an angle 3 towards the edge 3 of the body 2, the edge 10 of the free end 9 being parallel to the body 2.

The angles δ (and ft will preferably be the same, but may differ from each other, the angle ft being both larger and smaller than the angle c £.

The edge 10 is connected on the line 11 to the body 2, this connection being able to be effected in any suitable manner, for example by applying bolts or blind rivets, welding 15 or by rolling the edge 10 into each other and the body 2.

The upper leg 8 is at its free end from the edge 13 at an angle which is equal to <(bent in the direction of the lower leg 7 to stiffen the upper leg.

13

The internal dimension in X direction between the edge and the connecting part 6 is at least equal to the external dimension in X direction of the triangle 5-7-9.

Fig. 1 shows a Z-shaped profile. It will be clear that this support profile in mirror-symmetrical form has exactly the same properties relative to the main inertia axis Y. For the sake of brevity, such a support profile is referred to as an S-shaped profile.

The body 2 of the supporting profile 1 is preferably provided with a hole pattern 15 (see fig. 2) in order to be able to fix mutually pushed profiles together.

The legs 7,8 of the support profile 1 can be provided with reinforcing grooves 16, 17 (fig. 3a). The body 2 can also be offset approximately in the middle to stiffen the body, as indicated by 18 in Fig. 3b.

Fig. 4 shows a variant of the support profile according to the invention - in this profile the free end 9 of the lower leg 7 bent back in the direction of the body 2 ends at the end edge 14, so that the lower profile part does not closed triangle 8302630 -4-, - * Λ, as is the case with the trunking according to fig. 1.

This profile variant 1 'can be used with fruit as an additional accessory with an S-shaped supporting profile 1 according to the invention, for example as a local profile reinforcement or as a connecting piece between two supporting profiles 1, for example at moments-zero points with a continuous beam system then for the transfer of a partial clamping moment at a support point. The profile 1 'can also be used very well in combination with profile 1, for example as a midfield girder of a continuous, girder-10 system to obtain an optimum strength / weight ratio, or whether or not combined with profile 1r in those cases where the specific properties of this profile 1r, in particular the twisted main inertia axes gives an optimum strength-to-weight ratio, such as for instance when used in a sloping roof surface. The support profile 1 'can also be provided with stiffening grooves 16,17 in the upper and lower leg, respectively (see Fig. 4b).

Fig. 5a shows the supporting profile 1 in combination with two wooden beams 19,20 placed on the supporting profile 1. In Fig. 5b, 21,22 show so-called "rolls" of a system floor, which are also superimposed on the closed profile part of the support profile 1.

Fig. 6a shows how the support profile 1 according to the invention must be placed if a support reaction is to be absorbed by the support profile. Fig. 6b shows two partly pushed-together support profiles according to the invention for introducing a point load. Two identical profiles nested in each other can be used (see Fig. 6c), while a supporting profile according to the invention can also be used in combination with an auxiliary profile 1 'shown in Fig. 4, as shown in Fig. 6d. In view of the vertically downwardly pointed point load which engages on the collapsed beam, the supporting profile 1 must be mounted in such a way that the closed triangle 5-7-9 thereof faces the load P.

Starting from the basic options shown in Fig. 6, 35 beam systems can be assembled in all kinds of variants, whereby the nestable profiles 1 and 1 'according to the invention can be combined in such a way that the beam has sufficient stiffness or load-bearing capacity at various locations to absorb large loads or transfer them to other parts of the construction.

8302630

Claims (5)

Cold-rolled Z-or S-section cross-section, characterized in that the web (2) is located in a plane substantially coinciding with the plane, passing through the minimum main inertia axis (Y), that the edges (3 41 of the body (21 each connected via a connecting part (5,61) to one end of a leg (7,81 of the profile (1,1 '), the two connecting parts (5,6) on either side of the plane passing through the first main inertia axis (Y), while the end (9) of the lower leg (7) facing away from the connecting part (5), is bent back towards the body (21) and web is connected 10, forming a closed triangle (5,7,9) with sharp base angles (, X / ¾), the profile (1,1 ') after nesting about its longitudinal axis nestable in a uniform, not around its longitudinal twisted profile. Cold-rolled support profile according to claim 1, characterized in that the free edge (12) of the top leg (8) is bent at an acute angle (^ *) in the direction of the bottom leg (71. Cold-rolled profile according to claims 1-2, characterized in that a hole pattern (15) is arranged in the profile web (2), Cold-rolled supporting profile according to one or more of claims 20 1-3, characterized in that stiffening grooves (16,17) are present in both legs (7,8) of the supporting profile (1,1 '). Cold-rolled support profile according to one or more of Claims 1 to 4, characterized in that parts of the profile web (2) are arranged with respect to each other (18) to stiffen the profile web. 8302630