RU2285219C1 - Hydraulic recoil and counterrecoil brake of artillery gun - Google Patents

Abstract

FIELD: artillery guns, in particular, antitank devices, applicable in artillery guns with a high intensity of fire.

SUBSTANCE: the hydraulic recoil and counterrecoil brake has a working cylinder, rod with a piston, and a high-pressure cavity used at recoil and connected to an additional reservoir by a duct, whose inlet is positioned on the lateral surface of the working cylinder. The brake is provided with a casing enveloping the working cylinder with formation of a cavity between the cylinder with formation of a cavity between the cylinder and the casing by means of which the cavity of the working cylinder is connected to the additional reservoir. The duct inlet is positioned in the last quarter of the limiting braking distance.

EFFECT: enhanced reliability of the artillery gun and accuracy of fire due to prevention of the influence of liquid run-over between the working cylinder and the additional reservoir.

2 cl, 1 dwg

Description

The invention relates to structural elements of artillery guns that allow rollback and return to the firing position, and can be used in artillery guns with high firing intensity.

Known hydraulic brakes recoil artillery, containing a brake cylinder filled with brake fluid, in which a rod with a piston (Sadovsky V.G. "Foundations of the artillery material device", M., Military Publishing House, 1956, p.229-241, " Theory and calculation of artillery "I.V. Baev et al., Penza, Penza Higher Artillery Engineering School named after the Chief Marshal of Artillery N.N. Voronov, 1980, p. 315-316, Fig. 5.28).

The use of such brakes limits the intensity of artillery fire. This is due to the fact that during the firing process the brake fluid is throttled during rollback - rolling from one cavity of the working cylinder to another, it heats up. Increasing the volume of fluid to reduce the rate of temperature rise and lower its maximum value leads to an increase in the volume of the working cylinder and creates difficulties when installing the brake on the implement.

Known hydraulic brakes recoil and roll artillery pieces (US Pat. RU 2146035, IPC ⁷ F 41 A 25/00, publ. 2000.02.27, US Pat. RU 2165576, IPC ⁷ F 41 A 25/00, publ. 2001.04.20), containing a working cylinder with a rod with a piston and cavities connected to additional capacity channels. Closest to the claimed and adopted as a prototype is a brake rollback and roll forward artillery pieces (US Pat. RU 2165576), containing a working cylinder, a rod with a piston. Both cavities of the working cylinder — the high-pressure cavity during rollback and the second cavity are connected to an additional capacity (heat exchanger) by a channel, the inlet of which is located on the side surface of the working cylinder.

The presence of an additional tank connected to the cavities of the working cylinder allows you to increase the volume of the working fluid and thereby reduce the rate of heating of the fluid and lower the maximum temperature of the fluid in the working cylinder, which makes it possible to use the brake in artillery guns with high firing rates.

However, fluid overflow (circulation) between the working cylinder and the additional tank affects the recoil length and speed, especially the value of the final speed of the roll, which leads to an increase in the force of impact of the rolling parts on the cradle, which reduces the reliability of the artillery gun and firing accuracy.

The objective of the invention is to increase the reliability of artillery guns and accuracy.

The problem is solved by improving the hydraulic brake rollback and rollback of an artillery gun containing a working cylinder, a rod with a piston and a high-pressure cavity during the rollback, connected to an additional capacity channel, the entrance of which is located on the side surface of the working cylinder.

This improvement lies in the fact that the brake is equipped with a casing covering the working cylinder with the formation of a cavity between the cylinder and the casing, by means of which the cavity of the working cylinder is connected to an additional capacity, while the channel inlet is located in the last quarter of the limiting braking distance.

In addition, as a casing, you can use the cradle of an artillery gun.

Providing the brake with a casing covering the working cylinder with the formation of a cavity between the cylinder and the casing, by means of which the working cylinder cavity is connected to an additional capacity, simplifies the assembly of the brake with a channel, the input of which is located on the side surface of the working cylinder, and allows separate hydraulic testing of the working cylinder, additional capacity and casing.

The location of the channel inlet in the last quarter of the limiting braking distance makes it possible to ensure a sufficient fluid exchange between the working cylinder and the additional capacity to exclude intensive overheating of the brake fluid during firing and to exclude the influence of fluid overflows on the recoil length and speed, especially on the value of the final speed.

The invention is illustrated in the drawing, which schematically shows the proposed spindle type brake in the rollback position (the arrow shows the rollback direction).

The hydraulic brake for recoil and artillery gun roll contains a working cylinder 1 filled with brake fluid, a rod 2 with a piston 3 dividing the working cylinder 1 into two cavities 4 and 5 - a high-pressure cavity during rollback. The cavity 5 is connected to an additional capacity 6 by a channel 7, the input 8 of which is located on the lateral surface 9 of the working cylinder 1 in the last quarter of the limiting braking path during rollback. The brake is equipped with a casing 10, covering the working cylinder 1 with the formation of a cavity 11 between the cylinder 1 and the casing 10, by means of which the cavity 5 of the working cylinder is connected to an additional capacity 6. In the above embodiment, an artillery cradle is used as a casing 10. A cavity 12 is made in the rod 2, in which a spindle 13 of variable cross section is located, mounted on the end cover 14 of the working cylinder 1. A sleeve 15 covers the spindle 13 with the formation of a gap 16 of variable cross section. In the piston 3, inclined holes 17 are made connecting the cavity 12 of the rod 2 with the cavity 5 of the working cylinder. In an additional tank, there is a compensator 18 with a piston 19 and a spring 20.

Hydraulic brake rollback and roll artillery works as follows.

When rolling back, the rod 2 moves to the right according to the drawing. Part of the working fluid from the cavity 5 of the working cylinder 1 flows into the cavity 12 of the rod 2 through the holes 17, part through the holes 17 and the gap 16 into the cavity 4 of the working cylinder 1. Part of the working fluid through the inlet 8, cavity 11 and channel 7 enters an additional tank 6, moving the piston 19, compressing the spring 20 of the compensator 18, and is cooled by mixing with the liquid in the container 6. After the piston 3 blocks the connection of the cavity 5 with the input 8, i.e. in the last quarter of the rollback, the flow of the working fluid into the additional tank 6 is stopped, which eliminates the influence of fluid spills on the length of the rollback.

When rolling rod 2 moves to the left according to the drawing. The working fluid flows into the cavity 5 of the working cylinder from the cavity 12 of the rod 2, from the cavity 4 of the working cylinder through the annular gap 16. In this case, after the piston 3 passes through the inlet 8 and connects the cavity 5 with the additional capacity 6, the liquid from the additional capacity 6 enters the cavity 5 of the working cylinder and cools the fluid in it. The speed of rolling is determined only by the conditions of the flow of fluid from the cavity 12 of the rod 2 and the flow of fluid between the additional capacity 6 and the cavity 5 of the working cylinder 1 does not affect the speed of rolling.

Thus, the use of the proposed retracement and recession brakes allows cooling of the working fluid, which is necessary for its use in artillery guns with high firing rates. At the same time, the influence of fluid overflow (circulation) between the working cylinder and the additional tank on the recoil length and the reel speed, especially on the value of the final reel speed, is eliminated to reduce the force of impact of the retractable parts on the cradle and increase the reliability of the artillery gun and firing accuracy.

Claims (2)

1. Hydraulic brake rollback and rollback of an artillery gun containing a working cylinder, a rod with a piston and a high-pressure cavity during a rollback connected to an additional capacity by a channel, the input of which is located on the side surface of the working cylinder, characterized in that the brake is equipped with a casing covering the working cylinder with the formation of a cavity between the cylinder and the casing, through which the cavity of the working cylinder is connected to an additional capacity, while the channel inlet is located in the last quarter of the limit path braking. 2. The hydraulic brake according to claim 1, characterized in that an artillery cradle is used as a casing.