RU2516938C1 - Jet round with optical target sensor - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: target sensor is arranged inside nose fuse case. Protective jacket, nose retainer, pyro drive, electronic time and bottom retainer are arranged on fuse case. Said case is composed of shell-type body of revolution following, preferably, the fuse outer outlines. Said case is arranged on fuse outer side. Said case consists of three and more segments. Nose retainer is arranged at protective jacket head part. Pyro drive is arranged at fuse case to allow axial displacement of nose retainer. Electronic timer outputs are connected with pyro drive outputs. Bottom retainer interacts with bottom parts of protective jacket segments to lock the latter at fuse case in radial direction. Protective case segments have structural elements interacting with mating structural elements of fuse case to rule out displacement of segments relative to fuse case at activated head and bottom retainers.

EFFECT: expanded operating performances.

3 dwg

Description

: The invention relates to the field of armaments and can be used to protect the optical elements of a reactive ordnance with an optical target sensor from temperature and aerosol effects.

A known method of protecting the lenses of an optical device (RF patent No. 2419118, IPC G03B 17/55, H04N 5/225, publ. 10/27/2010). The method includes heating the external transparent element of the optical device and simultaneously supplying air from the external environment to the zone in front of the external transparent element of the optical device from its outer side through an air throttle located around the perimeter of the external transparent element of the optical device. EFFECT: protection of lenses and protective glasses of lenses against dust, atmospheric precipitation, including snow, as well as protection of lenses and optical glasses from the formation of condensation on them.

A device is known (RF patent No. 2287, MGZh G01J 5/02, publ. 10.11.2006) combined acoustic-aerodynamic protection of the lenses of thermal control devices, including a source of energy - compressed gas, providing as an acoustic effect on the pre-lens space with coagulation of small aerosol particles, and aerodynamic effects with the removal of these particles outside this space.

The disadvantages of the known methods and devices for protecting optical elements, as applied to optical fuses of reactive ammunition, include: design complexity, lack of protection of the optics inoperative, the need for significant structural space to accommodate elements of aerodynamic blowing, the need for additional power supply, the limited scope of application of for the complexity of providing aerodynamic protection of optical elements under various conditions of use of ammunition passes.

The task to which the proposed technical solution is directed is to create a reactive munition with an optical target sensor, the optical elements of which are protected from temperature and aerosol effects when the munition is launched and on the trajectory, until the optical target sensor is used.

The technical result achieved by the claimed invention is to increase the resistance of rocket munitions with an optical target sensor to the thermal and aerosol effects of the combustion products of rocket engines during multiple launch rockets, as well as on the trajectory, expanding the functional characteristics of rocket munitions with an optical target sensor.

The solution to this problem is achieved by the fact that in the proposed reactive munition with an optical target sensor mounted inside the head fuse housing, according to the invention, a protective casing is installed on the fuse case, which is a shell-type rotation body, mainly repeating the outer fuse rims mounted on the outside of the fuse, consisting of at least two, preferably three or more segments, with connector lines, mainly in the longitudinal plane of the fuse and discontinuity with the optical channel outlets formed in the fuze housing; a head locking element mounted on the head of the protective casing, interacting with the upper parts of the segments of the protective casing and preventing them from moving in the radial direction; a pyrodriver mounted on the fuse body and providing axial movement of the head locking element; electronic-temporary device, the conclusions of which are connected by conclusions from the pyrodrive; the lower locking element interacting with the lower parts of the segments of the protective casing and fixing the segments of the protective casing on the fuse case from movement, at least in the radial direction, while the segments of the protective casing have structural elements that interact with mating structural elements on the fuse case, eliminating the possibility of movement these segments relative to the fuse case with installed head and lower retaining elements and providing at the same time undocking and movement of said segments relative to each other and fuse body upon removal of the head of the locking element.

The search did not reveal technical solutions, the totality of the signs of which coincides with the totality of the proposed technical solution. This new set of features is a new technical solution that provides a technical result - the creation of reactive ammunition with an optical target sensor, with increased resistance to temperature and aerosol effects. The proposed solution does not follow explicitly for a specialist from the achieved level of technology, which allows us to conclude that the claimed invention meets the criterion of "inventive step".

The invention is illustrated by drawings, in which Fig. 1 is a schematic illustration of a reactive ordnance with an optical target sensor, with a protective device for optical elements; figure 2 is a General view of the optical sensor of the target, figure 3 shows the reactive ammunition after the shooting of the head locking element of the protective casing.

Missile ordnance 1 with a head fuse 2, with an optical target sensor 3 includes a protection device comprising a protective casing 4, consisting of two or more segments 5, having a connector line preferably in the longitudinal plane of the fuse; a head locking element 6 mounted on the head of the segments 5, and a lower locking element 7, preventing the segments 5 from moving in the radial direction; pyrodrive 8 of the head locking element 6; electronic-temporary device 9 connected to the leads of the pyrodrive 8. On the inner surface of the segments 5, structural elements are made that mesh with the structural elements on the outer surface of the fuse 10, preventing the longitudinal movement of the segments 5 relative to the fuse 10 when the lower locking element 7 is installed and the head locking element 6, but the engagement does not prevent the radial movement of the segments 5 with the removed head locking element 6.

Jet ammunition with an optical target sensor operates as follows.

A protective casing 4 is mounted on the main fuse case 2 of the rocket-propelled munition 1 in such a way that the segments 5 overlap the optical channels 11 of the target’s optical sensor 3. After starting, after a predetermined time interval has elapsed, the electronic-time device 9 supplies power to the pyrodrive 8, while the head locking element 6 is shot, moved in the longitudinal direction and out of interaction with the segments 5. After the shooting of the head locking element 6 segments 5 of the protective casing under the influence oncoming airflow disclosed - are moved relative to each other, held on the housing 10 to a fuse position, due to the lower fixing element 7 and then discharged, freeing the optical channels 11.

Using the proposed technical solution will increase the resistance of a reactive ordnance with an optical target sensor to the thermal and aerosol effects of the combustion products of engines of reactive ordnance during projectile launch and on a trajectory, and expand the functional characteristics of a reactive ordnance.

Claims (1)

A munition with an optical target sensor mounted inside the head fuse body, characterized in that a protective casing is installed on the fuse body, which is a shell-type rotation body, mainly repeating the outer fuse contours, mounted on the outside of the fuse, consisting of at least two preferably three or more segments, with connector lines, mainly in the longitudinal plane of the fuse and overlapping the outlet openings of the optical channel made in the fuse case, a head locking element mounted on the head of the protective casing, interacting with the upper parts of the segments of the protective casing and preventing them from moving in the radial direction, a pyrodrive installed on the fuse case and providing axial movement of the head locking element, electronically temporary device, the conclusions of which are connected by the leads from the pyrodrive, the lower locking element interacting with the lower parts of the segments of the protective casing and fixing segments of the protective casing on the fuse case from movement, at least in the radial direction, while the segments of the protective casing have structural elements that interact with mating structural elements on the fuse case, eliminating the possibility of moving these segments relative to the fuse case when the head and lower retainers are installed elements and providing the possibility of undocking and moving the said segments relative to each other and the explosion body body when removing the head locking element.

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