RU2527637C1 - Damper of artillery gun recoil parts - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: damper comprises cylindrical case accommodating helical return spring, guide bush and four leaf springs. Helical return spring one end thrusts against said case and its opposite end rests on bumper flange. Four leaf springs are fitted in guide bush splines. Bumper flange oval edge slides the working surfaces of leaf springs. The latter are arranged at the angle to flange displacement direction.

EFFECT: simplified and compact design, smooth absorption of shock loads.

1 dwg

Description

The invention relates to damping devices and is intended to absorb the residual shock load of the retractable parts on the cradle of the artillery gun to the end of the coast.

Known dampers that can work with various kinds of elastic elements in the form of springs, torsion bars, friction clutches, etc.

A torsion damping device is known, comprising a housing and torsion bars located therein, connected at one end to the housing, at the other end equipped with a lever, interacting with a shock absorbing rod, and characterized in that the kinetic energy of the vehicle is dissipated due to alternating processes of elastic torsion working parts of torsion elements and spontaneous restoration of their shape, carried out under the influence of cylindrical cams of the rod on the levers of torsion bars arranged in groups in a certain order, ensuring their sequential inclusion in the work (RF patent No. 63,369 U1, class E01F 15/00, 2006, published May 27, 2007). However, this damping device has a complex structure, limited capabilities, which reduces the effectiveness of the application.

Of the known closest in technical essence is a damping device, which includes a piston with a rod located in a cylindrical cartridge, a spring filled with a viscous fluid, a hydraulic chamber and a movable sleeve in the form of a cylinder having a variable pitch helical groove on the outer surface and attached to the tail parts of the stem with the possibility of coaxial mutual movement. The sleeve provides for the flow of fluid inhibition of the links with increasing effect during the working stroke. A longitudinal groove is made in the tail end of the stem with the formation of an end valve between it and the sleeve, which ensures quick and smooth movement of the piston with the stem during reverse stroke (RF Patent No. 2109184 C1, class F16F 9/00, E05F 3/00, 1997, published on April 20, 1998). This damping device has a relatively complex design of the damper itself, the inertia of the action, which leads to a decrease in efficiency.

The technical result of the invention is to simplify the design of the device, the compactness of the installation of elastic elements, inertialess action and smooth absorption of shock load.

The technical result is achieved through the use of a system of elastic elements with a linear and nonlinear law of change in stiffness, which converts the residual kinetic energy of the rolling parts into heat when the work is performed by compression and friction.

The damper (see drawing) contains a cylindrical housing 1, inside of which there is a cylindrical return spring 4, resting at one end into the housing, and the other into the flange of the chipper 6, while a guide sleeve 2 is installed inside the housing, in the spline grooves of which four spring springs are inserted 3 with an emphasis in the grooves of the housing 1, and the oval edge of the flange slides along the working surfaces of the spring springs 3, installed at an angle to the direction of movement of the flange, the preliminary compression of the springs is regulated by nut 5.

Damper works as follows. The housing 1 of the damper is screwed into the tides of the cradle of an artillery gun. At the end of the run, the chipper 6 perceives the residual impact of the rolling parts, passing it to the elastic elements. The flange of the chipper, compressing the cylindrical return spring 4, deforms the spring springs 3 with the oval edge of the flange, ensuring a smooth stop of the recoil parts without "pecking" the artillery gun and knocking down the aiming point. The absorption of shock energy occurs due to the deformation of all springs and the friction of the oval edge of the flange on the surface of the spring springs.

Claims (1)

A spring damper that includes a cylindrical housing, inside of which there is a cylindrical return spring resting at one end into the housing, and the other into the flange of the chipper, characterized in that a guide sleeve is installed inside the housing, in the spline grooves of which four spring springs are inserted with an emphasis in grooves of the case, and the oval edge of the flange slides along the working surfaces of the spring springs installed at an angle to the direction of movement of the flange, the preliminary compression of the springs is regulated by a nut.