SU1251981A1 - Flanged section - Google Patents

Description

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The invention relates to rolling production and can be used in the production of various flange profiles with a constant and variable thickness of elements.

The purpose of the invention is to increase the stability of the profile during its operation and reduce the metal intensity.

The drawing shows the proposed flange profile.

The profile consists of a head 1, a neck 2 and a sole 3. On the lateral surfaces of the neck 2, vertical spads are made periodically along the profile. The depth h of the valleys 4 is 0.01-0.20 of the thickness S, of the cervical profile. The width of the L depressions 4 is 1-3. Depth h Depths The distance t between adjacent (adjacent) depressions is chosen in the range of 1-10 depressions b of depressions.

It is possible to perform the depressions 4 on the opposite surfaces of the neck 2 displaced one relative to the other by a value of 0.25-0.50 spacing t between adjacent depressions.

The depressions 4 are made with a gradually decreasing depth from the head 1 of the profile to its sole 3 within the predetermined range.

The depth h 1 of the depressions 4 lies in the range O, 01–0.20 of the thickness 5 of the neck 2 profile.

The lower limit of the range, equal to 0.01 S ,, allows you to achieve metal savings without the high material costs of manufacturing and operating work rolls. Decreasing the range limit does not allow achieving the goal of reducing the metal intensity of the profile.

An upper limit of 0.20 S allows for the highest possible sampling of the metal in depth from

trench without violating the required.

strength characteristics of the profile. An increase in the range limit drastically reduces the strength of the profile neck in the sections of the valleys, and also complicates the calibration and manufacture of work rolls.

The width L of the valleys 4 is 1: 3 of their depth h.

The choice of the value of the limit equal to h is based on the achievement of the smallest possible sample of metal over the cross section of the depression, as well as the possibility of the location of the largest number of cavities on the surface of the neck. Diminish50

55

operation profiled rolls.

In order to increase the stability of the n fil during its operation, the depressions are applied on the surface of the cervix in such a way that their depth decreases from the head 1 to the bottom 3 within the target range. At the same time, due to the uniform sampling of metal along those profiles, the center of the body weight of the neck, and hence the profile, in this section is shifted to the sole 3 by a certain amount. Offset c

five

0

five

0

five

0

Sewing the range dramatically reduces the manufacturability of the neck profile forming process, increases the energy intensity of the metal deformation process, and also complicates the surface treatment of the rolls to obtain cavities of the required size and configuration.

The choice of the value of the limit of 3h is based on the achievement of the maximum possible sampling of metal over the section of the depression. An increase in the range is irrational due to an increase in the mismatch of the metal extracts over the neck section, which can lead to a distortion of its geometric dimensions and configuration. In addition, an increase in the range reduces the strength characteristics of the neck in the areas of application of cavities.

The distance t between adjacent valleys is selected in the range of 1-10 width L of the depression.

The choice of the lower limit of the range equal to b makes it possible to obtain the maximum possible density of depressions on the surface of the neck and, accordingly, a greater reduction in the metal intensity of the profile. A decrease in the range leads to a sharp increase in the energy intensity of the deformation process, the complexity of manufacturing the profiled surface of the work rolls, and also reduces the local strength of the section of the profile neck.

The choice of the upper limit of the range equal to 10 b makes it possible to obtain minimal metal savings without changing the performance and strength characteristics of the profile. The increase in the range does not allow to obtain a tangible economic effect due to a decrease in the metal intensity of the profile in comparison with the expenditure

operation of profiled rolls.

In order to increase the stability of the profile during its operation, the depressions 1Н 4 are deposited on the surface of the neck 2 in such a way that their depth smoothly decreases from the head 1 of the profile to its sole 3 within a predetermined range. At the same time, due to the uneven selection of the metal along the height of the profile, the center of the body of the cervix, and consequently the profile, in this section is shifted to the sole 3 by a certain amount. Center offset

The weight of the profile makes it possible to increase its operational stability and to increase the reliability of its operation as rail tracks.

The best design of the metal over the cross section of the cervical profile of the depression on the opposite surfaces of the cervix are offset relative to each other by an amount equal to 0.25-0.50 distances Editor E. Papp Order 4562/9

Tehred E. Chizhmar

Corrector L

Circulation 518 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. d. D / 5

Production and printing company, Uzhgorod, st. Project, 4

nor t between adjacent valleys. An increase or decrease in the range leads to a decrease in the strength characteristics in a given neck section, an increase in stretch mismatch over the neck section, which can lead to a distortion of its configuration, as well as an increase in the intensity of the profile deformation process.

Proofreader L. Pilipenko

Claims (3)

1. FLANGE PROFILE, consisting of a head, neck and sole, characterized in that, in order to increase the stability of the profile during its operation and reduce metal consumption, transverse depressions periodically repeating along the profile length are made on the lateral surfaces of the profile neck and adjacent sections of its head, equal to 0.01-0.20 thickness of the neck, and a width of 1-3 their depths, while the distance between adjacent depressions is 1-10 of their width. 2. Pop 1 profile, distinguished by the fact that the depth of the troughs gradually decreases from the profile head to its sole. 3. Profile according to paragraphs. 1 and 2, characterized in that the depressions on the opposite surfaces of the neck of the profile are displaced one relative to another by an amount equal to 0.250.50 of the distance between adjacent depressions. SU, „1251981 t