RU205552U1 - Hexagonal honeycomb cartridge for rockets - Google Patents

Abstract

The utility model relates to military equipment, namely to the guides of launchers for launching missiles and rockets. The issue of increasing the rigidity of a cassette with a honeycomb structure with a two-row arrangement of guides and an eccentric action of a longitudinal force is considered. The cross-sectional shape represents the described regular hexagon along the outer contour with the same number of honeycomb guides on each face without gaps in the light. It is closed. In this case, the main moments of inertia around any central axis are the same, and the radius of gyration is greatest. Consequently, the material is rationally distributed over the section, and the developed shape is optimal.

Description

The utility model relates to military equipment, namely, launchers of rockets with cluster guides in the form of a honeycomb structure, which have a screw groove. The technical result of the utility model is the development of a rational form of the structure of the cross-section of the cassette, in which, according to [1], the main moments of inertia around any central axis are the same, and the radius of gyration is greatest. In this case, for the same area, the rigidity of the cassette increases. With an eccentric application of a longitudinal force during a shot, the amount of cassette displacement will not depend on the location of the center of gravity of the projectile on a circle drawn from the center of gravity of the cross section. Consequently, the number of factors influencing the spread of the initial disturbances will decrease.

The purpose of the utility model is to develop a closed cross-sectional shape of a cassette with a honeycomb two-row structure, having a central hole, the same main central moments of inertia and the largest radius of gyration.

This goal is achieved by creating a cassette that has the shape of the described regular hexagon on the outside. Each side has the same number of guides.

The essence of the claimed utility model lies in the fact that the proposed honeycomb structure of the cross-section of the cassette with a two-row arrangement of guides, characterized in that it has the outside shape of the described regular hexagon. Each side has the same number of honeycomb guides without a gap in the light. The cross section is closed. The cassette is monolithic and there is no need to connect the guides into the package using stiffening diaphragms. As an example, Fig. 1 shows a variant with four guides at each face of the hexagon. There are 26 of them in total. In fig. 1, the screw groove is not shown conventionally. In the inner row, there is only one free edge in six holes. Therefore, they use a screw groove with a smaller twist angle. In a honeycomb structure of this shape, the main moments of inertia around any central axis are the same, and the radius of gyration is greatest.

The closest to the claimed utility model is a two-row cassette with a honeycomb structure of guides and a screw groove [2]. Its disadvantage is the rectangular cross-sectional shape. With an increase in the number of guides, the difference between the main central moments of inertia of the cross-section of the cassette increases and, therefore, the material is not rationally distributed over the cross-section.

In the installation "Smerch" and "Tornado" [3], the package of guides is made in the form of a channel with a wall located horizontally. Their joint work is partially provided by stiffening diaphragms. However, a non-closed open cross-sectional shape, as is known from the course of resistance of materials [1], is not rational with the eccentric action of the longitudinal force during the shot. The reason for using the form in the form of a channel is the restrictions imposed by the location of the mechanism for lifting the package of guides.

Known model of the marine version of the MLRS family GRAD with a cross-section of the package with the arrangement of tubular guides along an open ring in one row, connected into a single whole by a powerful diaphragm of rigidity, called "Tornado 2" [4]. It has the same disadvantage as in [3].

References

1. Darkov A.V. Resistance of materials: textbook for universities. / A.V. Darkov, G.S. Spiro. - M: Higher school, 1975 .-- 654 p.

2. Patent RU 2728207 C1. Published on October 28, 2020

3. Gurov S.V. Multiple launch rocket systems. - Tula "Peresvet", 2006. - S. 87-102.

4. Zabolotsky V., Kostrichenko V. Hounds of the oceans. The history of the ships of the project 61. - M .: Voennaya kniga, 2005. - P. 21. - 192 p.

Claims (1)

A cassette of guides with a screw groove and a cross-section in the form of a continuous honeycomb two-row structure without a gap in the light, intended for a multiple launch rocket system, characterized in that the cross-section has the shape of the outwardly described regular hexagon with the same number of guides on each side.

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