RU2537353C1 - Hydraulic telescopic shock absorber of acs - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: shock absorber contains external cylinder with a support ball device and eye ring. In the external cylinder the internal and intermediate cylinders are installed, they are linked with above piston cavity. The above piston cavity is provided with shutoff valves connected with the discharge nozzle and drainage nozzle. The shutoff valve has control device for its forced opening. The damping device contains ring piston resting against spring, and bypass channels with adjusting ring.

EFFECT: possibility to adjust rigidity of the damper, stability of contact between the casing and ground support, increased accuracy of shooting.

1 dwg

Description

The invention relates to vibration damping devices for self-propelled guns, in particular to telescopic hydraulic shock absorbers with a spring-pneumatic compensation chamber.

A device is known "Gas-filled double-tube hydraulic telescopic shock absorber" (Patent RU No. 2244180; class P16P 9/06; opus. 10.01.2005), comprising a housing with a working cylinder located in it, in which a piston is mounted on the rod. The working cylinder and the rod support are fixed from axial movements by a nut having a threaded connection to the body along the outer diameter. A cuff is placed in the nut, made with sections protruding toward the piston and contacting sealing lips with the stem and nut. The housing is closed by a lid having a threaded connection with it and adjacent to the nut. A sealing sleeve with two sealing lips covering the stem is installed in the cap.

The disadvantage is that the use of gas as a working element requires constant maintenance, monitoring and refueling.

Of the known closest in technical essence is the "Telescopic shock absorber" (Patent RU No. 2364773; CL P16P 5/00, F16F 9/44, F16F 9/34, publ. September 20, 2009). The shock absorber comprises a housing, a cylinder, a compensation cavity in communication with the cylinder cavity by throttle openings, a rotatable externally controllable sleeve providing a change in the cross section of the throttle openings, a rod, a piston with a bypass valve and a recoil valve, a compression valve, a guide sleeve. The rotary sleeve is installed in the rod cavity and is mounted on the end of the compression spring. The other end of the spring faces the piston and is fixed to the stem. On the surface of the sleeve in contact with the surface of the throttle holes, calibrated channels of various sections are made. By rotating the rod in the guide sleeve, the channels alternately form through holes with throttle openings with different cross-sectional areas.

The disadvantage is the ineffective operation of the shock absorber in the resonance region of oscillation. This leads to an increase in hydraulic resistance, a decrease in the smoothness of its work.

The self-propelled guns during shooting experience vibrations of the hull, which knock down the established aiming at the target, reducing the accuracy and efficiency of shooting. In this regard, the most important task is to create a new design of a telescopic hydraulic shock absorber that provides jacking of the self-propelled gun body by a predetermined value and a damping device adjustable in rigidity.

The technical result of the claimed telescopic hydraulic shock absorber of the self-propelled guns is to provide jacking of the body during the self-propelled gun shooting and vibration damping during the shot, with the possibility of adjusting the damper stiffness depending on the stiffness of the reference ground, which leads to improved accuracy, stability of contact of the wheel with the supporting platform.

The specified technical result is achieved by the fact that the telescopic hydraulic cylinder contains inner cylinders with stuffing box seals having a piston cavity, which is connected to valve devices having a discharge and bleed line, and through adjustable channels with a damping device.

Figure 1 shows the proposed telescopic hydraulic shock absorber self-propelled guns. It contains an external cylinder 1 with a supporting spherical device 5 and an eye 15, in which internal 4 and intermediate 2, 3 cylinders are connected, communicating with the supra-piston cavity 6 with shut-off valves 7, 8 connected to the discharge fitting 9 and the bleed fitting 10, characterized in that the shutoff valve 8 has a controlled device for forcing it to be opened, as well as a damping device consisting of an annular piston 11 resting against the spring 12, and bypass channels 13 with a control ring 14.

The proposed telescopic hydraulic shock absorber self-propelled guns operates as follows. In the hydraulic shock absorber connected to the eye of the self-propelled guns through an injection nozzle 9, oil is supplied under pressure, which creates a force in the inner 4 and intermediate cylinders 2, 3, pushing them out of the outer cylinder to the stop in the ground of the shock absorber support platform, which is attached to the ball support device 5 By providing hanging ACS enclosures. When fired, body vibrations are transmitted to the outer housing 1 of the damper, which, moving relative to the rigidly mounted telescopic cylinders of the inner 4 and intermediate 2, 3, compresses the oil, which, flowing through the adjustable channels 13, presses on the piston 11, compressing the spring 12 and the air located under the piston. After a shot under the action of a compressed spring 12 and air, the piston 11 presses on the oil, through it on the cylinders 2, 3, returning them to their original position. Accordingly, the body of the self-propelled guns connected to the outer cylinder returns to its original position for the next shot. Damper stiffness can be adjusted by rotating the damper eye. In this case, the radial holes in the adjustable channels 13 overlap with the coaxial holes of the adjustable ring 14. Thereby, the area of the adjustable channels is reduced, increasing the stiffness of the damper. Using an adjustable bleed valve 8 and fitting 10, the telescopic hydraulic shock absorber is installed in the stowed position.

The proposed telescopic hydraulic suspension shock absorber ensures stability of the SAO during firing, which significantly affects the accuracy and efficiency of firing.

Claims (1)

A telescopic hydraulic shock absorber of a self-propelled artillery installation, comprising an external cylinder with a support ball device and an eye, in which internal and intermediate cylinders are connected, communicating with a supra-piston cavity with shut-off valves connected to a discharge fitting and a bleed fitting, characterized in that the shut-off valve has a controllable device its forced opening, as well as a damping device consisting of an annular piston resting against a spring and bypass channels fishing ring with adjusting ring.