SU672307A1 - Curvilinear thin-wall member - Google Patents

Description

(54) CURVOLINEAR THIN-WALL ELEMENT

I

The invention relates to construction, as well as shipbuilding, aircraft manufacturing and mechanical engineering, and can be used as a curvilinear thin-walled I-beam element.

Known metal curvilinear thin-walled elements of an I-section with a flat wall, used for arches, coatings and bridges, consisting of two wedges and a flat curvilinear wall cut from sheet metal 1.

Curved thin-walled elements are also known, consisting of a corrugated wall and two steps 2,

The disadvantages of these known solutions of curvilinear thin-walled elements are relatively low bearing capacity, due to low local stability of the walls compressed in two directions, a large amount of waste when cutting curved walls from sheet metal, high labor intensity of manufacturing, due to the large number of transverse stiffeners, and as a consequence of this, high metal consumption.

The aim of the invention is to increase the carrying capacity of a curved thin-walled element by increasing the local stability of the wall, reducing the consumption of metal and labor-intensiveness and manufacturing.

This goal is achieved by the fact that the curved thin-walled element is made with a corrugated wall and has a perpendicular arrangement of the corrugations relative to the longitudinal axis, while the curvature of the element is directly proportional to the difference in height of the corrugations of the longitudinal edges of the wall.

FIG. 1 shows a curved element; in fig. 2 shows the edge of the corrugated wall along the sa, a longitudinal section; in fig. 3 - the edge of the corrugated wall along the sa, longitudinal section.

The curvilinear thin-walled element has on 1, 2 and 2 and a corrugated wall 3 placed between them.

During the bending operation, the wall 3 experiences compression in the direction perpendicular to the element axis, however, being corrugated, it does not lose local stability. This allows the wall to be made of thin sheet and generally increase the carrying capacity.

curvilinear element, increasing the cross section by increasing the wall thickness.

The absence of transverse stiffeners also reduces the metal consumption and reduces the labor intensity of the assembly and reduces the amount of welding work by 1.5–2 times.

With the same bearing capacity for the manufacture of a curvilinear element with a corrugated wall made with a perpendicular arrangement, the corrugation requires 5-10% less metal than a curved element with a flat wall.

The advantage of making the element with a corrugated wall is also in its wide application in construction, shipbuilding, aircraft construction and mechanical engineering.

Claims (2)

1. Cheremukhin M. A. Selected Works. Mechanical Engineering, M., 1969, p. 138. 2. USSR author's certificate number 159012, cl. E 04 s 2/26, 1962.