RU2220802C2 - Method for making bent shapes having rigidity ribs in bottom part - Google Patents

Abstract

FIELD: plastic metal working, namely production of thin-web shapes in rollers of shape bending mill. SUBSTANCE: method comprises steps of bending up flanges of shape and forming corrugations in its bottom part during transitions while finally making corrugations during prefinal transition; realizing uniform bending up of flanges and uniform shaping of corrugations before prefinal transition while applying normal sliding effort to flanges in interstand space in zone spaced by distance consisting 1/3 of flange width from their ends; upsetting corrugations preliminarily shaped before prefinal transition until their final height; simultaneously with upsetting performing reduction of bottom part of blank by value equal to 0.05 of blank thickness and sizing shape during final transition. EFFECT: prevention of edge waviness of bent flanges of shape. 3 dwg, 2 ex

Description

 The invention relates to the processing of metals by pressure, in particular the production of thin-walled profiles in the rollers of a roll-forming mill and can be used in the production of bent thin-walled profiles, mainly symmetrical profiles of channel and trough types with large dimensions of horizontal and side shelves having stiff corrugations in the bottom ( profile wall), for the needs of transport and agricultural engineering, as well as aviation, automobile industry and construction.

 The claimed invention is aimed at solving the national economic problem, which consists in improving quality by preventing edge waviness and increasing the stiffness of the profile, as well as in expanding the technological capabilities of the shaping process by expanding the range of profiles and obtaining the radius of coupling of the corrugations with the wall is less than acceptable.

 A known method (according to the USSR AS 1169772, B 21 D 5/06 of 07/30/85. Bull. 28. A method of manufacturing bent sections of rolled products), according to which, in order to improve the quality of rolled by reducing the waviness of the edges and longitudinal deflection, edges the workpieces are displaced in the vertical plane by the calculated distance.

 However, this method is not suitable for the production of profiles with a large shelf width due to the edge waviness that occurs during the traditional profiling with a shelf width of more than 40 ... 50 thicknesses of the workpiece material (Kokado D., Onoda E. "On the occurrence of edge waviness with cold profiling of arcuate groove sections with side flanges // Translation of the VCP of scientific and technical literature and documentation A67428, M., 1978, 31 s; p.2, Fig. 19).

 The known method (according to the patent of the Russian Federation 1431158, class B 21 D 5/06, 13/10 dated 12/15/94. Bull. 23. Method for the production of bent profiles of the type of channels with corrugations of rigidity. / Antipanov V.G., Gridnevsky V. I., Kochubeev V.N. et al.) The production of bent sections of the type of channels with stiffness corrugations, in which, in order to improve the quality of the profiles by eliminating cracking at the base of the corrugations and preventing corrugation of the foldable shelves, the corrugations are formed in the pre-finish passage.

This method is accepted by us as a prototype. The prototype and the claimed invention have the following similar essential features:
1. Bending of shelves is carried out by transitions.

 2. The final design of the corrugations is carried out in the pre-transition.

 The disadvantage of this method is that in the known method, the bending of the shelves to the final transition is performed at an angle close to the specified one (80 degrees at a given angle of 90 degrees), however, it is the folding of the shelf that causes longitudinal deformation, leading to edge waviness. Obtained at the first 3-5 transitions, the longitudinal deformation of the shelves cannot be compensated for without corresponding deformation of the bottom of the workpiece and, therefore, with a shelf width of more than 40 thicknesses of the initial workpiece, the known method does not allow to obtain a high-quality profile. In the manufacture of trough profiles, the presence of horizontal shelves further increases the width of the foldable shelf, which leads to an increase in its longitudinal deformation. This is a significant technological limitation in the processes of forming profiles of the specified type.

 The known method does not allow to obtain profiles with radii of corrugation of the corrugations with the wall plane significantly less than the allowable bending radius for a given workpiece material in order to increase the rigidity of the profile, since corrugation is formed in one transition due to material drawing, i.e., the stretched zone of the interface section receives tensile deformation, and therefore, less favorable deformation conditions are created in comparison with the free flexible, for which the allowable bending radii are determined. In addition, the known method does not allow obtaining corrugations of rigidity of high height, which can be made in several transitions (forming in one transition leads to the destruction of the workpiece or transverse corrugation).

 The technical problem solved by this invention is to prevent the edge waviness of the foldable shelves, expanding the technological capabilities of the shaping process and increasing the rigidity of the profile.

 This problem is solved by a combination of existing and new significant features.

 The essence of the invention is to uniformly bend the shelves with holding them with a normal sliding force from deployment in the interstand space and uniformly form stiffening corrugations in height with the radius of mating with the wall of at least the allowable radius for this material before the final transition, in which the corrugation is sedimented while the bottom is crimped parts of the future profile by 0.05 of the thickness of the workpiece with calibration of the profile in the finishing transition.

 The technical result of the proposed solution is to prevent edge waviness in the process of forming thin-walled wide-shelf profiles by keeping bent shelves from being deplanated in the interstand space and unloading the shelves in the pre-finish transition by compressing the bottom of the workpiece, by expanding the technological capabilities of the process by providing the possibility of forming high channel channels and wide-shelf trough profiles, in increasing the rigidity of the profile by reducing rad pair of corrugations with the bottom of the profile.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known method, the folding of the profile shelves and the formation of corrugations on a horizontal wall is carried out by transitions with the final design of the corrugations in the pre-transition. A feature of the proposed method is that the corrugations are formed evenly before the pre-finish transition with the application of a normal sliding force to the shelves in the inter-stand space at a distance of 1/3 of the width of the shelf from their ends, and the corrugations preformed to the final transition with corrugation radii no less than permissible, precipitated in the pre-transition to a final height with simultaneous compression of the bottom of the workpiece by a value equal to 0.05 of the thickness of the workpiece, and calibrate the profile in the finishing transition .

 The prevention of edge waviness is achieved by uniformly bending the shelves and forming the corrugation stiffness along the transitions (which creates favorable conditions for maintaining the flatness of the flanges, in contrast to forming corrugation stiffnesses in only one transition, since a sharp shrinkage of the material is a kind of catalyst for the loss of stability of the shelf), and also by preventing the deployment of foldable shelves in the interstand space. The application of normal force to the shelves having a longitudinal tensile deformation allows their partial unloading at preliminary transitions due to the longitudinal bending of the entire profile in the interstand space, increasing the stiffness of the cross section by applying normal sliding force to the shelves, and at the finishing transition the difference between the wall and shelf deformations reduces due to the transverse compression of the wall and sediment corrugation stiffness.

 Expansion of technological capabilities of the process is achieved by providing conditions for defect-free forming of profiles with shelf widths of more than 40 ... 50 material thicknesses by applying a sliding force to foldable shelves, as well as by providing conditions for forming corrugations of rigidity of considerable height and shapes other than arc (for example , rectangular, triangular corrugations), with mating radii smaller than those allowed for the preparation of a given material and thickness by uniformly forming the corrugation profile along the transition followed give them a draft Predchistovaya transition for interfacing with decreasing radius compression bottom portion of the preform to prevent movement of material transversely of the longitudinal deformation and impart wall to reduce the difference of the longitudinal strain shelves and walls. The proposed method allows to produce profiles of the trough type according to this scheme.

 An increase in the stiffness of the profile is achieved by reducing the mating radii of the corrugations and the wall by upsetting the latter under cramped conditions, which create due to the transverse compression of the wall by 0.05 of the workpiece thickness in the pre-transition.

 An additional technical effect can also be a reduction in the number of transitions (by 1-3 transitions with a shelf width of 40 to 80 workpiece thicknesses), which implies a reduction in technological costs.

 Figure 1 presents a diagram of the formation of a profile with stiff corrugations in the bottom; figure 2 - wiring diagram to ensure the application of a sliding force in the interstand space; figure 3 - sectional profiles made in the Federal State Unitary Enterprise "Ulyanovsk NIAT" according to the claimed method.

 The method is carried out in the following sequence (figure 1). A blank with cut corners is used to improve the entry into the rollers in the first and then subsequent stands (item 1 of FIG. 1), where the shelves are bent at equal angles along the transitions, while the stiff corrugations are molded with an equal height to the final transition inclusively. At the same time, in the inter-stand spaces, the shelf is exposed to sliding normal forces from the side of rectilinear, mainly round cross-sectional sections of the wires installed at the level of the corresponding roller gauge lines (at a distance of 1/3 of the workpiece width from the edge of the shelf). Testing the production technology of wide-shelf channels at Ulyanovsk NIAT FSUE shows that when linear wiring is located at a distance of less than 1/4 of the width of the shelf from its end for some profiles, it leads to the bending of the shelf in the longitudinal direction (reducing the stiffness of the cross section, exit from the wiring) and when installed at a distance of about half the width of the shelf or more from the end of the shelf, there is no retention of the peripheral sections of the shelf from deployment. These patterns were established during the formation of 16 wide-shelf channel-type profiles from the general range of mastered channel profiles in an amount of more than 80 units.

In the prefabricated transition, the profile is bent at a given angle by the lateral sides of the forming roller, and by setting the caliber of the roller and adjusting the gap, the rectilinear and angular sections of the profile are compressed by 0.05 thickness of the workpiece, which, taking into account flat deformation, ε _p + ε _n = 0 where ε _p - longitudinal deformation; ε _n - deformation in thickness) and corrections for elastic components and tool stiffness provide a longitudinal strain of the order of 1 ... 1.5% (with the accumulated strain in the peripheral sections of the shelves not more than 1.5 ... 2.5%) , and the corrugation draft by the value Δh in the conditions of tight bending makes it possible to obtain the mating radii less than acceptable under normal bending. The limiting values for the radii of the corrugation of the corrugations with the wall in order to avoid destruction of the material during tight bending are the values of 0.1 ... 0.2 of the thickness of the workpiece; corrugation height in order to avoid the need to increase the number of transitions should not exceed 15 ... 20 material thicknesses.

 An additional effect is the absence of springing, since the angular zone undergoes additional plastic compression deformation.

 The finishing transition in the inventive method is calibrating, however, its main function is to set the direction of movement of the profile in order to ensure straightness and create favorable conditions for the redistribution of stresses and strains along the section of the profile in the pre-transition. Between the finishing and finishing passes, normal force is not applied in the interstand space, since there is no shelving.

 The proposed method allows to obtain high-quality profiles with a width of foldable shelves up to 70 ... 80 thickness of the workpiece within six technological transitions.

 An additional device for the implementation of the proposed technical solution are inter-stand wiring (figure 2), performed, for example, in the form of cylindrical rods 1, providing a sliding force to the workpiece 2 and mounted on brackets 3 with the possibility of adjusting their spatial position between the rollers 4.

 Examples of specific performance. They produced channel-type profiles with sizes of 100x40x0.6 mm and 50x35x0.6 mm (Fig. 3) for six and four transitions, respectively. The longitudinal deflection did not exceed 0.6 mm / m; there was no edge waviness.

 Thus, the above information indicates the industrial applicability of the proposed technical solution, which can be used in the production of bent thin-walled profiles, mainly symmetrical profiles of channel and trough types with large sizes of horizontal and side shelves having stiff corrugations in the bottom (on the profile wall), for the needs of transport and agricultural engineering, as well as the aviation industry, the automotive industry and construction.

 The claimed invention does not adversely affect the state of the environment.

Claims (1)

A method of manufacturing bent profiles with stiff corrugations in the bottom, comprising bending the shelves of the profile and forming the corrugations in the bottom according to transitions with the final design of the corrugations in the prefabricated transition, characterized in that the folding of the shelves and the molding of the corrugations is carried out before the finishing transition evenly with normal sliding force to the shelves in the inter-stand space at a distance of 1/3 of the width of the shelf from their ends, and the corrugations that were previously formed to the finish transition with corrugation radii not less than permissible precipitated in the pre-transition to a final height with simultaneous compression of the bottom of the workpiece by an amount equal to 0.05 of the thickness of the workpiece, and calibrate the profile in the finishing transition.

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