RU2102675C1 - Automatic mortar remote cocking mechanism - Google Patents

Abstract

FIELD: weaponry. SUBSTANCE: the mechanism is furnished with an air cylinder, whose rod is linked with a slider by means of an adjustable spring-loaded retainer. The retainer has lugs installed in the grooved of the guide pipe fixed coaxially with the air cylinder on its flange, and through a guide roller it is engageable with the cable of the remote cocking mechanism. EFFECT: improved design. 2 dwg

Description

 The invention relates to the field of military equipment and can be used in the construction of military vehicles, including tanks, transporters, infantry fighting vehicles, etc.

 Remote cocking and reloading mechanism (Infantry fighting vehicle. Technical description and operating instructions 765-sb8 TO, 1986. p. 54 Fig. 2, allows to work with the AGS-17 from the operator’s place without leaving the object. The disadvantage of the mechanism is relatively large force (up to 60 kgf) and stroke (430 mm), which create inconvenience to the operator’s work and increase, due to this, the time required to perform manual reloading of the grenade launcher (up to 10 seconds) This mechanism is the closest in technical essence to the claimed technical solution and is selected in as a prototype.

 The aim of the invention is to increase the speed and ease of use of the remote cocking mechanism of an automatic grenade launcher. This goal is achieved by the fact that the remote cocking mechanism is equipped with a pneumatic cylinder, the rod of which is connected by means of an adjustable spring-loaded clamp to the slider, the bypass roller of which is mounted to interact with the cable, and the protrusions of the slider are installed in the grooves of the guide tube fixed coaxially with the pneumatic cylinder on its flange.

 This design of the remote cocking mechanism of the automatic grenade launcher can improve performance and ease of use. This is achieved by the high speed of the remote cocking mechanism and the convenience of its control (rational organization of the ergonomic motor field.).

 Comparative analysis with the prototype shows that the claimed installation of an automatic grenade launcher on an armored object is characterized in that the remote cocking mechanism is equipped with a pneumatic cylinder, the rod of which is connected via an adjustable spring-loaded clamp with a slide, the bypass roller of which interacts with the cable extension of the remote cocking mechanism, and the protrusions are installed in the guide grooves pipes fixed coaxially with the pneumatic cylinder on its flange. Thus, the claimed technical solution meets the criterion of "novelty."

 Comparison of the claimed solution with other analogues did not allow us to identify signs that distinguish the claimed technical solution from the prototype and give the above technical result.

 In FIG. 1 shows a structural diagram of the claimed device, in FIG. 2 is an arrow view of the guide tube of the mechanism.

 The automatic grenade launcher 1 is fixed by means of a rotary support 2 on the roof of the armored turret 3. A cable extension 4 connects the spring-loaded bolt 5 with the remote manual cocking handle 6. The rod 7 of the pneumatic cylinder 8 is connected via a ball clamp 9 to the slider 10, the protrusions of which are placed in the grooves B of the guide pipe 11 fixed rigidly on the flange of the pneumatic cylinder 8. The roller 12 is fixed on the slider 10, and the rollers 13 are fixed on the bracket 14, mounted motionless on the roof of the tower 3. pneumocylinder 15, pressure gauge 16, electric Evaluation valves 17 and a 2-position electrical switch 18 are part of the remote control system.

 To remotely recharge the grenade launcher 1 mounted externally on the roof of the tower 3, the switch 18 is turned on. Compressed air from the cylinder 15 is supplied through the electro-pneumatic valve 17 to the rod cavity of the pneumatic cylinder 8. The piston moves down together with the slide 10 fixed to the end of the rod by means of a ball clamp 9 adjusted by preloading springs for a certain release force. The bypass roller 12, mounted on the slider 10, acts on the cable extension 4, pulling it out of the receiver cover of the grenade launcher 1, while the bolt 5 moves to the right (see Fig. 1), compressing the coil springs. The manual cocking handle (understudy) 6 in this case is on the stop of the bracket 14. The rod 7 moves with the slider 10 until the bolt 5 lands on the hard stop of the grenade launcher barrel 1. At the moment the shutter 5 stops on the hard stop, the ball lock 9 which leads to the unlocking of the rod 7 and the slider 10. The shutter 5 under the action of the mainsprings sharply moves to the left, dragging along the extension cord 4, which through the bypass roller 12 moves the freed slider 10 up along the grooves of the guide rail 11 to be fixed stop. Thus, the operation of remote reloading of the grenade launcher 1 is carried out. To bring the recharge drive to its original position, it is necessary to switch the toggle switch 18 to the left contact. In this case, compressed air from the rod cavity of the cylinder 8 through the electro-pneumatic valve 17 enters the atmosphere, and through the second electro-pneumatic valve 17 is fed into the piston cavity of the cylinder 8, causing the piston to move upward until the rod 7 is locked by the latch 9 with the slider 10. After that, the switch 18 is installed to the neutral position, and compressed air from the piston cavity of the cylinder 8 through the electro-pneumatic valve 17 goes into the atmosphere. The remote drive is ready for a second trip.

 The use of the proposed mechanism for remotely charging an automatic grenade launcher can increase: the speed of the device (from 10 seconds to 2 seconds to reduce the recharge time), ease of use (by eliminating the time-consuming manual reload operation).

Claims (1)

 The remote cocking mechanism of an automatic grenade launcher, made in the form of a cable drive with a manual cocking handle, characterized in that it is equipped with a pneumatic cylinder, the rod of which is connected by means of an adjustable spring-loaded clamp with a slider, a bypass roller of which is mounted to interact with the cable of the remote cocking mechanism, and slider protrusions installed in the grooves of the guide pipe, fixed coaxially with the pneumatic cylinder on its flange.

Images