FI90456B - Kylmäprofiilikannatin - Google Patents

Abstract

The cold-rolled girder possesses a horizontal bottom flange (1) and an obliquely rising, optionally slightly curved top flange (2) facing in the opposite direction to the bottom flange (1), the top flange and bottom flange being connected to each other via a singly kinked web (3) whose vertical lower part (4) adjoins the bottom flange (1) at a right angle or a angle slightly divergent therefrom and, in the middle region, is kinked towards the side on which the bottom flange (1) lies. The top flange (2) and the bottom flange (1) end in a top lip (6) and a bottom lip (7) respectively. The cold-rolled girder is particularly suitable for arrangement in pairs as a support for cylindrical bodies, particularly rolls of paper in high-level storage. <IMAGE>

Description

Cold profile bracket 1 90456

The invention relates to a cold profile support with a lower girder pointing in one direction, an upper girder pointing in the other direction 5 and a blunt-angled web connecting the chords, and an edge bent in both chords. Various embodiments of such cold profile supports are already known, for example in the form of a sloping cover according to DE-OS 3 315 694. In this known orsi profile, the lower and upper ribs are in parallel planes, are connected by a sloping web folded at the chords and have a bent edge at their free end. The known orsi is implemented as a Z-profile.

FR patent publication 648 599 discloses a cold prop-15 profile support, from the web of which the lower and upper girders start in opposite directions and in which the upper girder is at an angle to the lower girder, which angle corresponds to the inclination of the roof, e.g. 30 °. As a result, the wall covering can easily be placed on top of the upper girder and fastened to it with rivets. The object of the present invention is to provide a cold profile support which, by advantageous means, can receive a non-perpendicular load prevailing under the stress conditions of the support.

This object is solved according to the invention by: - that the bend of the web is in the middle region of the web and divides the web into the lower part and the upper part, the angle between the lower part and the lower beam being 90 °, that the upper beam associated with the upper beam is inclined to the plane defined by the lower beam level and constitute it. 30 with an angle of 5 to 50 ° and that the width of the lower girder is less than the dimension produced by the projection of the upper girder to the plane defined by the lower girder. Preferred embodiments of the invention are set out in the appended claims 2-7.

2 9 D 4 5 6

The invention is illustrated in the following by means of implementation examples. Of the figures showing mainly a side view of the profile bracket, Fig. 1 shows the basic shape of the cold profile bracket, Fig. 2 shows a cold profile bracket with a curved upper brace, Fig. 3 shows a preferred profile shape, Fig. 4 shows a second shape, Fig. 5 shows a framed profile bracket, upwards, Fig. 6 shows a cold profile support with a folded plastic sheet attached to it, Fig. 7 shows a cold profile support with a steel plate attached to the si-15, Fig. 8 shows another cold profile support with a steel sheet attached to the side , Fig. 10 is a side view of a portion of the paper roll stock, Fig. 11 is a perspective view of a support structure comprising the preferred shaped profile of Fig. 3, Fig. 12 is a sectional side view 25 weeks 11.

The basic shape of the profile shown in Fig. 1 comprises a cold profile support with a straight lower brace 1, a straight upper brace 2 and a bent web 3 connecting the chords, the vertical lower part 4 joining the lower bracket 1 at right angles. 5 and the lower part 4 form an obtuse angle B, which is generally 110 to 150 °. The upper girder 2 associated with the upper part 5 of the web 3 points in the opposite direction to the lower girder 1 and rises obliquely. The bent edge 6 of the upper girder 35 2 and the bent edge 7 of the lower girder 1 point in the same direction, here downwards.

3 90456

In addition, projection lines P and P1 are drawn with dotted lines in the figure, which illustrate the projection of the upper girder into the plane E1 of the lower girder and show that the lower girder 1 is inside this projection.

5 At a right angle α, the lower bracket 1 associated with the lower part 4 of the web 3 regularly defines a horizontal plane E1 in the installation position of the cold profile bracket, in the direction of which an imaginary horizontal plane E2 is also drawn. Further, a vertical plane E3 passing through the transformation point of the web 3 of the lower girder 1 is drawn. The vertical lower part 4 of the web 3 is at this level E3.

The joint area of the upper girder 2 and, since the upper girder 2 is flat, the entire upper girder forms an acute angle 7 with respect to the horizontal plane E2 15, which is 5 to 50 °, here about 30 °.

Figure 1 also shows that the upper girder 2 continues to the upper part 5 of the web 3 from its point of connection over the vertical plane E3.

Arrow A indicates the non-vertical direction of the load 20.

In Figure 2, the upper brace 2 is slightly curved. The tangents t and tl indicate the beginning and end of the curve. They indicate the curvature of the upper brace and form, firstly, the angle 7 of the joint area of the upper bracket 2 and, secondly, the smaller angle 25j1 with respect to the horizontal plane E2. Said angles here are about 35 ° and 15 °.

Figure 3 shows a cold profile bracket in which the bent edge 6 of the upper girder and the vertical lower part 4 of the web 3 are in the vertical plane E3.

The upper part 5 of the web 3 of the cold profile support of Fig. 4 has a short transition area in the direction of the lower part 4 of the web 3. It only divides the transition between the upper part 5 of the web 3 and the upper girder 2 into two transitions, which are technically easier to manufacture with thick plates, without leaving in principle the relatively simple basic shape of the cold profile support.

4 90456

In the cold profile support according to Fig. 5, the bent edge 6 of the upper brace 2 points slightly outwards and the bent edge 7 of the lower bracket 1 points upwards.

All the profile shapes shown can be made of 5 webs of corresponding length by edging or by continuously rolling the web strip.

The cold profile support 10 shown in Fig. 6, in which the bent edge 6 of the upper girder points to the transition point of the lower part 4 and the upper part 5 of the web 3, has a connecting part 8 in the form of a plastic sheet glued to the edge 6 and the lower part 4 of the web 3.

In Fig. 7, the connecting part 8 is a steel plate which is connected by spot welds 9 to a cold profile bracket 10. Fig. 8 shows the formation of a closed profile bracket.

In it, said steel plate is welded to the upper part 4 of the web and the bent edge 7 of the lower girder of the cold profile support 10 according to Fig. 4.

Figure 9 schematically shows two cold profile brackets 10 arranged in a mirror image, separated from each other and parallel to each other. The spaced-apart upper beams 2 serve as a base for the cylindrical body 11. A second cylindrical body 12 is drawn in dotted lines in the figure to illustrate that the lower load caused by the body 11 is closer to the transition point between the top 5 and the upper beam 2 of the web 3, while the load caused by the larger body 12 is further away. In this connection, reference may also be made to the particular advantage of the invention, which arises from the fact that it completely avoids the tendency of the cylindrical body 11 and the upper brackets 2 to lock.

Fig. 9 further shows a transport carriage 13, the track of the wheels 14 of which is on the lower girder 1 and which is provided with a lifting device 15. By means of the lifting device 15 a cylindrical body 11, for example a paper bale, can be received and transported.

5 90456

In the arrangement according to Fig. 9, the cold profile brackets 10 have two functions, to receive a stationary load on the upper girders 2 and to receive the transport load on the lower girders 1.

Fig. 10 shows a side view of a part of a fume storage, possibly a high storage, in which, in addition to the basic parts shown in Fig. 9, fixed supports 16 are drawn, which in this embodiment terminate below the bent edge 6 of the upper profile bracket.

In this design, the cylindrical bodies 11 are received flexibly so as to avoid high impact stresses. When storing sensitive paper bales after reloading into a high warehouse, such measures prove to be advantageous because they prevent the vibrations of the driving movements of the vehicles 15 13 from being transmitted to the paper bales.

Adjacent to the fixed supports 16 on the support 17 is a resilient support 18, a frame connecting the two cold profile supports, which can be supported horizontally slidably on the bracket 19.

Fig. 11 shows a bottom view of the U-profiles 20 of the high warehouse support structure, on which the lower bracket 1 of the profile bracket 10 is mounted and to which the bent edge 7 of the lower bracket is attached. The lower part 4 of the web and the bent edge 6 of the upper girder are screwed to the support 16.

In particular, the profile shape according to Figure 3 has proved to be suitable for this purpose.

In the description referring to the representation of Fig. 9, the system is further illustrated in Fig. 12. The cold profile bracket 10 carries loads denoted by R, P1 30 and P2. Scaled Drawn cold profile brackets are spaced apart.

The load R is due to the transport carriage 13, which moves in the longitudinal direction on the lower beams 1 of both cold profile supports 10.

35 6 90456

The loads P1 and P2 are due to storage goods (e.g. paper bales) which are transported by means of the lifting device 15 of the transport carriage 13 and which, when lowered, act on the upper girder 2 of the cold profile support 10.

5 Because the dimensions of the paper bales vary, the points of action of the loads P1 and P2 vary.

Due to its design, the cold profile support 10 can move both the load R and the loads P1 and P2 without noticeably twisting the cross section.

10 This is due to the design according to the invention. The magnitude of the rotation of the cross-sectional surface is determined by the torsional forces caused by external loads. They are the result of the torque of external forces and the perpendicular distance of the line of action of these forces to the center of rotation-15 M.

Due to the shape of the cold profile support, the center of rotation M is in such a position that the lever arms d are short. In addition, the direction of rotation of the generated torques is such that the load is not caught between the supports 20.

When the upper girder is flexibly deformed under loads, which cannot be avoided, the line of action of the loads is also preferably shifted so that the lever arm d decreases.

Due to the load R, it is only ignored. 25 small torques that can be left because the center of rotation M is on the line of action of the load R.

Another advantage of the design of the cold profile support 10 is the position of the center of rotation M relative to the center of gravity S. They are close together. Due to this and the location of the main box-30 planes of the profile shape, balanced stress conditions are achieved at all points of the cross-sectional surface.

Finally, the scale representations of the cold profile support 10 in Fig. 10 also show that with this optimized shape 35 the width b1 of the lower girder 1 is approximately 7: 90456 in the ratio b2 of the projection b2 of the upper girder 2 and that the 1: 1.25. The obtuse angle β between the lower part of the web 3 is 115 °; the angles γ and measured at the beginning and end of the upper jaw 2 with respect to the horizontal plane are 30 ° and 20 °.

In the type of cold profile bracket made of 4.5 mm thick steel plate, the construction type according to Fig. 3 has a construction height of 50 mm long including a bent lower edge-10 about 520 mm and a width of about 180 mm. The bending radius between the lower girder 1 and its bent edge 7 and the lower girder and the vertical lower part 4 of the web 3 is 1.6 to 1.8 times the thickness of the plate, the fold between the lower part 4 and the upper part 5 of the web 3 and the upper girder 2 and 15 the bending radius corresponds to about 2 to 3 times the thickness of the plate, and the bending radius of the bent edge 6 of the upper brace is 2.5 to 4 times the thickness of the plate. The ratio of the lengths of the upper part 5 and the lower part 4 of the web 3 is approximately 1: 1.2. The upper part 5 and the upper girder 2 of the web 3 are approximately the same length.

Claims (7)

A cold profile support with a lower girder (1) pointing in one direction, an upper girder (2) pointing in the other direction and an obtuse angle (β) bent web (3) connecting the chords and an edge (6, 7) bent in both chords. characterized in that the bend of the web (3) is in the central region of the web and divides the web into a lower part (4) and an upper part (5), the angle (α) between the lower part (4) and the lower chord (1) being 90 ° the upper girder (2) associated with the upper part is inclined with respect to the plane (E2) defined by the lower girder (1) and forms an acute angle (Y) of 5 to 50 ° therewith, and that the width (b1) of the lower girder (1) is 15 smaller than the dimension (b2) produced by the projection of the upper chord (2) to the plane (E1) defined by the lower chord. Cold profile support according to Claim 1, characterized in that the bent edge (6) of the upper bracket (2) and the bent edge (7) of the lower bracket point in the same direction and are parallel to the vertical lower part (4) of the web (3). Cold profile support according to Claim 1 or 2, characterized in that the lower part (4) of the web (3) and the edge (6) of the upper girder (2) are in the same vertical plane (E3). Cold profile support according to one of Claims 1 to 3, characterized in that the upper brace (2) is slightly curved. Cold profile support according to Claim 4, characterized in that the angle of inclination (Ύχ) of the upper girder relative to the horizontal plane (E2), defined by the angle (γ) of the joint (2), is 5 to 30 ° from its free end. Cold profile support according to one of Claims 1 to 5, characterized in that the lower part (4) of the web 9 90456 (3) and the bent edge (6) of the upper jaw are connected to one another by means of a planar connecting part (8) on their side. Use of a cold profile support 5 according to one of Claims 1 to 6 as a support element for cylindrical bodies (11, 12), the two cold profile supports (10) being arranged mirror-image, spaced apart and parallel to each other, the outwardly projecting upper girders 10 as bases for the pieces (11, 12). 10 90 4 56