FI70621C - MELLANVAEGGSLANA - Google Patents

Description

70621

PARTITION RANKA

The invention relates to a partition wall, which has now been used in place of wooden posts in partition or similar structures.

The partition wall is bent into a gutter-shaped post in cross section. The advantage of a post made of metal compared to wood is that it does not live like in wood due to heat and moisture, for example. Today, a lot of gypsum boards are used in partitions, whereby the coefficients of thermal expansion of the partition frame and the board to be attached to it are practically the same.

Nowadays, a frame structure is often used, in which the web of the spine is provided with longitudinal bends, which give a sufficiently good stiffness to the spine. For example, the gypsum board is fastened to the frame with screws suitable for the purpose, to the side walls of the frame, to the flanges, on both sides of the frame. It is a good idea to roughen the surface of the frame flange so that the tip of the screw does not slip when the screw is fastened. The material thickness of the frame must be at least 0.56 mm in order for the stiffness of the frame flanges to be sufficient.

Since the price of the frame depends on the material thickness, it would be advantageous to use a partition wall with a material thickness thinner than the one currently used.

DE-A-3 031 381 discloses a metal for light partitions bent into a metal C- or U-prof Uli, the web of which has transverse grooves extending substantially along the web of the spine. The purpose of the structure according to DE is to save material And reduce material consumption and the weight of the frame.

The solution according to DE-Publication achieves quite good results. However, optimum thicknesses cannot be reached in terms of material consumption. When attaching gypsum board to the frame 2 70621 the flange often escapes in front of the screw and the gypsum board does not adhere to the frame.

The frame structure according to the invention avoids the above-mentioned disadvantages. The invention provides a sufficiently strong, easy-to-install partition wall with a material smaller than known structures. The structure according to the invention prevents the flange from escaping in front of the screw to be fastened.

The metal gutter-shaped partition wall frame or the like according to the invention is characterized by the features set forth in the characterizing part of claim 1.

The invention will be explained in more detail with the aid of the accompanying drawings.

Figure 1 shows the intervertebral body currently in use.

Figure 2 shows a prior art frame.

Figure 3 shows another prior art frame.

Figure 4 is an enlarged view of the point marked with a circle A in Figures 2 and 3.

Fig. 5 shows a section from point C to C of the stiffening groove 5 shown in Fig. 4.

Figure 6 is an enlarged plan view of the point indicated by the circle B in Figures 2 and 3.

Figure 7 shows a new intermediate backbone with transverse stiffening grooves.

Fig. 8 shows a cross-sectional view of the previous stiffening groove at the web 1 of the frame, Fig. 7 D-D.

3,70621

Fig. 9 schematically shows the end of the stiffening groove in the region of the bending point between the frame web 1 and the flange 2, Fig. 7 A.

Figure 1 shows a known partition frame, having a web 3 of the frame, flanges 2, edge bends 3 and longitudinal stiffening grooves. Such a frame is made of a material with a material thickness of at least 0.56 mm.

The partition wall shown in Figure 2 can be made of a thickness of 0, 0.5 to 0.5 mm. The cost savings compared to existing frames are 15 - 32 rpm, If a material thickness of 0.5 mm is used. The required stiffening is provided by the transverse grooves 5 of the web 1. Figures 4 and 5 show the end point A of the groove 5 in Figures 2 and 3. It shows that the groove goes very close to the bend 6 of the frame and that the width of the groove end is preferably substantially the same. The end of the groove 5 stiffens the frame in the longitudinal direction while the rest of the transverse groove 5 stiffens the web 1 of the frame in the transverse direction.

In addition, transverse grooves 7 are made in the flanges of the frame to stiffen the transverse direction of the flanges 2. Point B in Figures 2 and 3 is shown larger in Figure 6, where this point is illustrated in plan view. The grooves 7 go up to the fold 6.

Transverse bends of the spine at the back Stiffen the spine so much that a thinner material thickness can be used. The transverse grooves 5 are made less frequently and deeper in the wide-backed spine. In a narrow frame, the grooves 5 can be made denser And lower.

The grooves 5 and 7 thus strengthen the frame so that the web 1 and the flanges 2 are sufficiently rigid even if the material thickness of the frame is only 0, ¾ - 0.5 mm.

70621 n The partition wall can be made so that it has longitudinal stiffening grooves M and also transverse grooves 5 and 7 in the web of the frame. It can also be made with only transverse stiffening grooves, since the flanges 2 and troughs 3 already stiffen longitudinally and also help the crosses -carpets 5 ends. Most importantly, therefore, the frame has transverse grooves 5 in the web 1, which act in both longitudinal and transverse directions.

In the structure according to the figure, the transverse groove ends close to the bending point 6 between the web 1 and the flange 2, as shown in Figures 2 and 3. · Experiments have shown that the stiffness improves, If the stiffening groove 8 extends slightly beyond the bending point 6.

The cross-section of the stiffening groove 8 at the web 1 is in the shape of Fig. 8. The groove is therefore curved. The groove 8 continues a short distance over the bending point And gradually narrows, becoming a planar surface as Fig. 9 schematically shows from the point A of the frame.

Thus, the stiffening grooves according to Fig. 7 have been found to have achieved even stiffer partition walls than the stiffened frames with the transverse stiffening grooves shown in Figs.

Thus, by means of the invention, it is possible to obtain an easily installable partition wall structure with thinner material thicknesses than the known structures, in which the flange does not escape from the screw path during fastening.

Considering that the partition wall frame is currently used in Finland as well. meters per year, so it is noticeable how economical it is to achieve even a small thinning of the amount of material in the used plate. As the use increases every year, the importance of the invention increases even more.

Claims (2)

70621 Application examples have been presented above which can be modified within the scope of the claims. The frame has been referred to as a partition frame because partitions are its main use. The frame can also be used for other purposes where a similar construction method comes into question. The frames are also not only intended for fixing gypsum boards, but also for other similar purposes. PENTENTIAL REQUIREMENTS A partition wall or the like bent into the shape of a metal gutter, the web (1) of which has transverse stiffening grooves (8), characterized in that the transverse grooves (8) of the web (1) extend between the web (1) and the flange (2) past a small distance, preferably with a humped flange. Partition wall frame according to Claim 1, characterized in that the stiffening groove (8) is curved at the frame web (1). After each bending point (6) of the web (1) and the flange (2), it gradually tapers and thins to a planar surface.