RU2171440C1 - Shot simulating stand - Google Patents

Abstract

FIELD: artillery test equipment. SUBSTANCE: the stand for simulation of a shot of an artillery gun has a jig for attachment of the gun and a hopper for the loading mechanism installed on a common foundation, loading mechanism on artillery powder and an assembly for engagement of the gun muzzle with the power member of the loading mechanism. The assembly for engagement of the gun muzzle with the power member of the loading mechanism is made in the form of a funneled mouth secured on the external wall of the hopper around the power member. The length of the mouth exceeds the probable length of recoil of the gun barrel during a real shot, and its maximum diameter exceeds the amplitude of probable vibrations of the barrel muzzle during counterrecoil. EFFECT: simulated shot of an artillery gun, movement of its barrel, cradle and automated process of reloading. 1 dwg

Description

 The invention relates to the field of testing equipment, in particular to pyrotechnic stands for dynamic testing of artillery pieces.

 Known test bench for guns with a barrel rollback at the request of Germany [1]. It is designed to test the swinging part of a tank gun mounted in the gun turret. The stand includes a loading mechanism, a contact node of the loading mechanism with the muzzle of the barrel and a device connecting the loading mechanism with the cradle of the artillery gun. Here, a mechanical device is used as a loading mechanism. The device that connects the loading mechanism with the cradle of the gun is made in the form of two long rods mounted on one side of the gun turret, and on the other, on the shoulders of the yoke at the free end of the barrel. When the loading mechanism is activated, its rod, acting on the rods, shifts them together with the gun turret and cradle to the muzzle of the gun. At the same time, his body, acting on the muzzle of the trunk, sends him into a rollback, in response to the movement of the tower and the cradle.

 A device for testing the rolling of the gun [2]. It is a hydraulic type loading device. This device is used in the loading scheme, similar to the scheme according to the application of Germany [1], instead of a mechanical type device.

 Known sensor pulses to devices for dynamic testing of guns at the request of Germany [3]. The sensor is a pyrotechnic type loading mechanism with a powder charge. It is intended for use in a test bench [1].

 The test bench at the request of Germany [1], taking into account the fact that the loading mechanism in it is made at the request of Germany [3], is adopted as a prototype.

 The disadvantage of the prototype is: a) the inability to simulate the real movement of the barrel; b) the impossibility of simulating the real direction of movement of the cradle and its loading; c) the impossibility of a complete simulation of a shot of an artillery gun; d) the impossibility of automating reloading processes.

 The inability to simulate the real movement of the trunk and the inability to simulate the real direction of movement of the cradle and their loading is explained by the fact that the used loading scheme provides only the oncoming movement of the barrel and cradle. The impossibility of automating the reloading process is explained by the fact that during the next shot it is necessary to manually charge the loading mechanism and connect the rods after they are disconnected.

 The aim of the invention is to remedy these shortcomings.

 This goal is achieved by the fact that in the stand, made up of a slipway and a hopper mounted on a common foundation, the loading mechanism is made in the form of a stand-alone device located in the hopper, and the outer wall of the hopper is equipped with a funnel-shaped bell.

 The simulation stand of the shot as applied to the tests of the swinging part of the artillery gun is shown in the drawing, where it is indicated: 1 - slipway; 2 - axle; 3 - a radical gear; 4 - hopper; 5 - power element of the loading mechanism; 6 - funnel-shaped bell; 7 - cradle; 8 - recoil devices; 9 - sector of the lifting mechanism; 10 - gun barrel.

 Here, as a slipway for fastening the swinging part of the gun, a real upper machine of the gun of this type is used, which is stationary mounted on the foundation of the stand at the required distance from the hopper. A pyrotechnic power generator is used as a loading mechanism, while its power element (rod 5) is 3-5 cm extended beyond the front surface of the hopper wall.

 As a loading mechanism, a pyrotechnic power generator based on granular artillery gunpowder according to the patent of the Russian Federation N 2077176 [4], which provides automatic charge formation, can be used. The site of contact of the muzzle of the barrel of the gun with the power element (rod) of the loading mechanism is made in the form of a funnel-shaped bell 6, mounted on the outer wall of the hopper around the power element of the loading mechanism, while its length exceeds (by 20-30 cm) the possible length of the barrel during the shot . The maximum diameter of the socket exceeds (by 20 - 30 cm) the amplitude of the possible oscillations of the muzzle of the trunk during rolling. This embodiment of the bell automatically ensures accurate return of the muzzle of the barrel to the point of contact with the power element of the loading mechanism at all possible swing angles.

 To save the muzzle of the barrel from damage during impact after rolling, it is equipped with a special tip. The mass of the powder charge in the loading mechanism depends on the caliber (mass) of the gun and ranges from 0.2 - 0.5 kg. When the loading mechanism of type [4] is triggered, its rod gives the barrel the required rollback speed with any (required) acceleration, while loading the barrel and cradle according to the action pattern and force value is as close as possible to the real conditions. The reloading of the loading device here can be fully automated, and therefore, the entire process of servicing the stand during the simulation of a series of shots can be fully automated.

 If it is necessary to simulate a shot of an artillery cannon assembly with a gun turret, instead of slipway 1, a node is created on which the gun turret is mounted.

 If it is necessary to simulate a shot of a self-propelled or tank gun, together with the chassis, instead of slipway 1, a special platform is created on which a tank or self-propelled gun becomes its own power.

The main technical result in the implementation of the invention will be:
a) equipping military units associated with artillery weapons; here, the possibilities for training gun calculation numbers for servicing the gun are fundamentally expanded in conditions as close as possible to real, combat ones, without spending shells and regular high-power charges;
b) equipping secondary and higher, civil and military educational institutions associated with artillery weapons; here fundamentally improving conditions for studying the principle of action and behavior of tools in conditions as close as possible to real ones, with great savings in time and money, with greater security of the learning process;
c) equipping manufacturers of artillery weapons (field, tank, self-propelled guns); here, the testing conditions of the gun and its components are fundamentally improved and expanded.

Sources of information
1. Test bench for the gun with the rollback of the barrel. / Application N 1948613, Germany, MKI F 41 F 25/00, 1972.

 2. Device for testing the roll of the gun barrel. Application No. 54-40880, Japan, MKI F 41 F 25/00, 1979.

 3. The pulse sensor to devices for dynamic testing of guns. Application N 2059956, Germany, MKI F 41 F 25/00, 1973.

 4. Pyrotenic silo powder generator / Patent of the Russian Federation N 2077176, 1997.

Claims (1)

 A simulated artillery gun firing stand, comprising a slipway for mounting a gun and a hopper for accommodating a loading mechanism mounted on a common foundation, a pyrotechnic type loading mechanism on gunpowder and a muzzle contact unit of the gun barrel with a load element of the loading mechanism, characterized in that the power contact section element of the loading mechanism with the muzzle of the barrel is made in the form of a funnel-shaped bell mounted on the outer wall of the hopper around the power element, when m socket length exceeds the possible length of the barrel during recoil real shot, and its maximum diameter is greater than the amplitude of possible vibrations of the barrel at the muzzle reel.