RU2384381C1 - Steel cylindrical envelope - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: steel cylindrical shell contains two surfaces made of corrugated sheet, bump of which are mutually perpendicular, herewith bumps of one of cylindrical surfaces are directed lengthwise of cylinder generatrix and vertexes of corrugation, crimps of both surfaces are contact to each other. Additionally ratio of shells parametres are received experimentally.

EFFECT: reduced metal consumption and increases rigidity of shells.

3 cl, 1 dwg, 1 ex

Description

The invention relates to products from sheet metal, in particular from cold-formed corrugated sheets.

Such sheets can have corrugations of various shapes - semicircular, triangular, trapezoidal, etc. The range of corrugated sheets is quite widely presented in the reference book, under the editorship of I.S. Trishevsky "Production and application of bent profiles of hire", M., "Metallurgy", 1975, p. 494-510. One of the types of corrugated sheet profiles are wavy sheets (see ibid. - p. 509-510).

Sheet metal is often used for the manufacture of various cylindrical products - pipes, containers, tanks, etc., and for the same purpose you can use a corrugated sheet, which, with the same thickness as a smooth sheet, has significantly greater rigidity (bending resistance).

Known cryogenic vessel containing the inner and outer shells, located between them an insulating package of mounted on each other profiled plate disks with a Central hole (see AS USSR No. 970028, class. F17C 3/08, publ. In BI No. 40 , 1982). However, this vessel has a very limited use, which narrows the scope of its use.

The closest analogue to the claimed object is a steel cylindrical shell, mentioned in A.S. USSR No. 1362537, cl. B21D 5/06, publ. in BI No. 48, 1987

This shell has a forming surface made of corrugated sheet profile, and is characterized in that the corrugations are made with a triangular cross section, the parameters of which are determined by the thickness of the sheet. A disadvantage of the known shell is the relatively low stiffness, which forces to increase the thickness of the sheet profile with a corresponding increase in metal consumption for the manufacture of the shell.

The technical task of the present invention is to reduce the consumption of metal for the production of various cylindrical products by increasing their rigidity.

The proposed steel cylindrical shell contains a forming surface of corrugated sheet, and this shell contains two surfaces of corrugated corrugated sheets, the corrugations of which are mutually perpendicular to each other, while the corrugations of one cylindrical surface are directed along the generatrix of the cylinder and the tops of the corrugations of both surfaces are in contact, the height of the corrugations equal to 12 ... 20 thicknesses of the corrugated sheet, and the distance from the center of the cylinder to the circumference of the contact of the corrugations is (14 ... 20) · h _n , h _n - the height of the corrugations n outer surface; the height of the corrugations at the cylindrical surfaces may not be the same, and the cylindrical surfaces themselves are made of different grades of steel.

The given ratios of shell parameters are obtained experimentally and are empirical.

The essence of the proposed technical solution is to optimize the basic parameters of the cylindrical shell, as well as the possibility of manufacturing its surfaces from various steels, which greatly expands the scope of use of this product. In addition, the implementation of surfaces from sheet profiles with wavy corrugations facilitates the manufacture of a cylinder with transverse corrugations (compared, for example, with triangular corrugations) and minimizes the possibility of cracking during bending of the sheet.

The proposed shell is schematically shown in the drawing.

The inner surface 1 is made, for example, with transverse (relative to the generatrix of the cylinder) corrugated corrugations 2, and the outer surface 3 - with longitudinal corrugated corrugations 4; height of corrugations respectively h _a and h _11, wherein the height of the corrugations is equal to 12 ... 20 thicknesses S of the sheet corresponding to the surface, and the distance from the center O of the cylinder to the circumference 5 of contact (in the frontal projection line xx) of the corrugations 2 and 4 l = (14 ... 20) H _n

An experimental verification of the inventive cylindrical shell was carried out at OJSC "Magnitogorsk Iron and Steel Works".

For this purpose, various shell options were made: with longitudinal and transverse corrugations of the outer surface, with corrugations of various heights, with values of h _n = h _in and h _n ≠ h _in , from sheet profiles of different thicknesses, with different values of l, and also from identical and different steel sheet corrugated surfaces. The experimental results were evaluated by the rigidity of the shells when loads were applied to them along the axis of the cylinders and perpendicular to their generators.

The best results (maximum rigidity) were obtained for shells with recommended parameters; deviations from the proposed ratios worsened the achieved indicators.

So, at the height of the corrugations (5 ... 11), the stiffness (the magnitude of the deforming forces) decreased 2.7 ... 1.2 times, and at their height more than 20 S it was difficult to manufacture cylinders with transverse corrugations, and in some cases cracking was observed when the profiles were bent on the tops of the corrugations. At l> 20 h _n , the shell stiffness also decreased, and at l <14 h _n, bending of the profiles with the above consequences was difficult.

The difference in the height of the corrugations h _n ≠ h _in at their recommended height (12 ... 20) S did not adversely affect the rigidity of the shells. With positive results, shells were also tested, the inner surface of which is made of stainless steel, and the outer one is made of ordinary carbon steel,

moreover, the difference in the values of their temporary resistance σ _in was within 20 ... 65%. The thickness range of surfaces S was 0.5 ... 2.0 mm.

Tests of the known cylindrical shell selected as the closest analogue (see above) showed that for the same S (for the claimed shell is the total thickness) h and outer cylinder diameters, the stiffness of the proposed shell and the known one made of the same steel varied almost 2.5 times. Thus, the experiments confirmed the acceptability of the technical solution found to achieve the goal and its advantage over the known object.

Feasibility studies have shown that the use of the present invention in the manufacture of cylindrical shells for various purposes reduces metal consumption by at least two times.

Concrete example

The cylindrical shell has the form shown in the drawing.

The surface of the shell has S = 1.2 mm, with the inside made of 08X18H10T stainless steel, and the outer one made of st. 45.

Shell parameters: h _in = 14S≈17 mm, h _n = 18S = 18 · 1.2≈22 mm; l = 16h _n = 16 · 22 = 352 mm.

The shell is intended for the manufacture of containers transporting sulfuric acid with a volume of 400 dm ³ .

Claims (3)

1. Steel cylindrical shell, characterized in that it contains two forming surfaces of corrugated corrugated sheets, the corrugations of which are mutually perpendicular to each other, while the corrugations of one cylindrical surface are directed along the generatrix of the cylinder and the tops of the corrugations of both surfaces are in contact, the height of the corrugations is 12 ... 20 the thickness of the corrugated sheet, and the distance from the center of the cylinder to the circumference of the contact of the corrugations is (14 ... 20) · h _H , where h _H is the height of the corrugations of the outer surface. 2. The shell according to claim 1, characterized in that the height of the corrugations at the cylindrical surfaces is not the same. 3. The shell according to claim 1, characterized in that the cylindrical surface is made of different steel grades.