RU1817716C - High-rigidity section - Google Patents

Abstract

The invention relates to the processing of metals by pressure, c. in particular, the production of cold-formed sections of rolled products. The purpose of the invention is to expand the operational capabilities of sheet profiles with periodically repeating corrugations. The high rigidity profile contains closed longitudinal corrugations with rounded corners at the base and at the apex in the cross section of the corrugation and is characterized in that the corrugations are made with a height equal to H (0.60-0.65X1 + VBL - the elongation of the profile material is minimal; B and L - accordingly, the width and length of the corrugation, while the value of the radii of curvature is

Description

The invention relates to the processing of metals by pressure and can be used in the manufacture of cold-formed corrugated sheet profiles.

The purpose of the invention is to expand the operational capabilities of high rigidity profiles.

This goal is achieved by the fact that for a profile containing corrugations with curves at their bases and at the apex, the corrugations are made with a height equal to N (0.60 - 0.65X1 + 5) 5 V BL where d is the minimum allowable elongation profile material; B and L are the width and length of the corrugation, respectively, while the radius of curvature is (1.25-1.40) N, and the step of the corrugations (the distance between their longitudinal axes) along the width of the profiles t (7.2-7 , 8) H. When analyzing known technical solutions, no structural features of the device were found that distinguish the claimed device from

prototype. Therefore, it can be concluded that the distinguishing features of the subject invention have significant differences. The mathematical dependencies cited are obtained by processing the experimental data and are empirical. Closed corrugations of high hardness profiles of the DRI are formed by locally drawing sections of the strip blank. Therefore, the main parameters of the corrugations (their depth, as well as height and width) are largely determined by the ability of a particular metal to be drawn and, above all, by its relative elongation (e). Due to the fact that up to now there are no reliable theoretical formulas for calculating the limiting parameters of DRI, the above-mentioned parameters of their corrugations are selected with a margin to exclude possible cracking and distortion of the geometry of the DRI caused by excessive local stretching of the metal. AT

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As a result, the height of the corrugations of existing DRI does not exceed 45 mm, which significantly reduces the possibility of their use. The essence of the technical solution found is that the proposed DRI contains corrugations of the maximum allowable height H, the value of which depends on their width and length and magnitude 5, and the values of the radii of curvature of the cross section of the corrugations and their pitch along the width of the DRI are determined depending from N. This design of the profile allows you to use it, for example, as a pallet for packs of sheets (that is, replace the currently used wooden pallets with metal ones), since when mechanically loading these packs for transport For clearance, a clearance between the bottom of the pallet and the floor is 70-80 mm, which is ensured by the corresponding height of the DRI corrugations. An experimental verification of this profile was carried out in sheet-rolling shops of the Magnitogorsk Iron and Steel Works. To this end, on the 1-5x300x1650 roll-forming unit, DZH was made from steels with a borehole from 40 to 56 kgf / mm2, 3-4 mm thick and 1.0-1.3 m wide. During the experimental profiling, the main parameters of the corrugations with the specified B and L (their height H, radii of curvature R and the width step t see Fig. 1) with an assessment of the geometry of the profiles and the presence of cracks on them. It was found that satisfactory flatness in the absence of cracks is achieved at 60 ... 0.65) (1+) (5VBL (q value is determined according to relevant standards governing the mechanical properties of specific steels), R (1.25-1.40) 1-1 and t (7.2-7.8) H. The pallets made of DRI with the indicated parameters did not deform when installing packs of sheets weighing from 18 to 37 tf (the maximum load depended on the size and DRI material).

An increase in H, as well as a decrease in R, led to the appearance of defective (in geometry and cracks) profiles. A decrease in t distorted the cross-section of the DRI (led to unrecoverable deflection and twisting), and an increase to a decrease in the permissible load P on the pallet. The value of Pmax is an important characteristic of the pallet, since packs of sheets are often transported in two layers, and stored in 3-4 rubles. A decrease in H and an increase in R (below and above the above optimal values) were not performed in the experiments: the clearance (see above) due to the height of the corrugation of the pallet cannot be less than 70 mm; an increase in R inevitably leads to a decrease in hard

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sti and capacity of the pallet. Comparative tests on the rigidity of the prototype object (profile 1370x2x2000x35x5 mm) and a DRI pallet with optimal parameters 5 mm thick made of one steel with kgf / mm2 and d 22% showed that the profile of this configuration can withstand a load of almost 2 times. The same tests showed that the bottom of the 1370x2x2000x35x5 mm profile is not suitable for mechanized loading (for example, in railway wagons) due to the low height of the corrugations. Thus, the experiments confirmed the acceptability of the claimed object to achieve the goal and its advantages over the known object.

In FIG. 1 shows a high rigidity profile; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

The profile contains two rows of longitudinal closed corrugations 1, separated by its width and length by flat sections 2, and has flat edges 3 and end sections 4. The height of the corrugations N (0.60-0.65) (1+ 5) t 5 5 VBL. . the radii of curvature at the apex and base of the cross section are the same and equal to R (1.25-1.40) H; corrugation pitch along the profile width t (7.2-7.8) H, along the length -i. - The thickness of the profile S, its width B; the length and width of the corrugations, respectively, L and B. Before installing the pack on the pallet, it is laid on the floor with the tops of the corrugations down, then fasten the pack with the pallet, passing the packing tape across (through sections. N) and, if necessary, along the pallet ( through ll-ll sites). Ready packaging is lifted by a loader, the legs (forks) of which extend between the corrugations in sections N.

Example 1. DRI length m, parameters; , 3 m, mm, mm, mm is made of steel with (. Corrugation parameters:, 6 () d V BL) 0.6- (1 + 0.3) -0.3-300-650 103 mm; R-1.25, 25-103 129 mm; t 7.2,, 2-103 742 mm (round up to whole values), L 850 mm.

PRI me R 2. VZH s, 5 m with parameters:, 15 m,, 6 mm, mm made of steel s. Corrugation parameters:, 625 (1 + 0.25) -0.25-330-700 94mm; , 32-94 124 mm,, mm, Yu, 9 m.

Example 3. DRI from steel with d 20% and dimensions, 6 m,, 2 m, mm, B 350 mm, mm,, 65 (1 + 0,, 2-350-750 80 mm, R-1, mm,, mm, I20 mm.

The technical and economic efficiency of this facility compared to the prototype is in the possibility of using the first of them as

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a metal pallet (instead of a wooden one) for packs of sheet metal, which reduces costs.

Claims (1)

SUMMARY OF THE INVENTION A high rigidity profile containing closed longitudinal corrugations with rounded edges at the base and at the apex in the cross section of the corrugation, is distinguished by the fact that the corrugations are made with a height H (0.60 ... 0.65X1 + VBL, where b - the minimum allowable value is the relative elongation of the material, profile; B and L are the width and length of the corrugation, respectively, while the radius of curvature is (1.25 ... 1.40) N, and the step of the corrugations along the width of the profiles is t (7.2 ; .. 7.8) H. dd & - & t / e FIG. 2