RU99610U1 - EMISSION BLOCK - Google Patents

Abstract

 1. The ejection unit, comprising a beam fixed to the aircraft, a removable cartridge mounted on the beam with mounting locations for jamming cartridges, an impulse supply means for triggering the jamming cartridges, a cartridge retainer relative to the beam, characterized in that the beam is a box-shaped housing, installation places in the cartridge are formed by the walls of the holes made in the upper and bottom parts of the cartridge, respectively, and forming guides for installing jamming cartridges, giving a pulse for triggering a jamming cartridge is made in the form of a contact group located on the bottom of the beam and interacting with the electronic pulse distributor, each contact of which is spring-loaded and interacts with its corresponding jamming cartridge, while the cartridge is completely located inside the beam. ! 2. The ejection unit according to claim 1, characterized in that the beam and cassette are fixed relative to each other by means of a locking connection. ! 3. The ejection unit according to claim 1, characterized in that the beam body is molded as a unit. ! 4. The ejection unit according to claim 1, characterized in that the cassette is provided with a grill covering the installation places and a lid with a handle for transfer. ! 5. The ejection unit according to claim 1, characterized in that the beam is equipped with pins designed to interact with the holes corresponding to them in shape made in the cassette. ! 6. The ejection unit according to claim 1, characterized in that the upper part of the beam is made in the form of a flange. ! 7. The ejection unit according to 1, characterized in that the cartridge is installed inside the beam. ! 8. The ejection unit according to claim 1, characterized in that the cash register

Description

The claimed utility model relates to an ejection unit, which is intended for use in passive jamming devices to protect aircraft from guided missiles, the principle of operation of which (devices) is based on the shooting of jamming cartridges that create directional jamming for homing missiles with the aim of "blinding" and withdrawal from the aircraft trajectory.

From US patent No. 5400690, class F41F 3/042, 1994, a technical solution is known relating to a multi-charged receiver of pyrotechnic cartridges, which is a case with slots for accommodating pyrotechnic cartridges, pyrotechnic units are mounted in the case and electrical ignition devices are placed.

From US patent No. 4063485, class F41F 3/00, 1977, a technical solution is known relating to a jamming system for protecting aircraft from homing missiles, comprising, in particular, an emission unit for pyrotechnic charges creating passive interference. The specified unit includes a supporting beam made in the form of a body electrically connected with the aircraft side, the body is divided into sections provided with guides, each section being designed to accommodate, with the possibility of removal, a multiple-charge interchangeable cartridge containing mounting places for placement in charges, moreover, the mounting places are made in the form of guiding launch tubes, with each section provided with electric means for igniting the charge.

This technical solution was taken as the closest analogue, which has the following significant disadvantages. In particular, the places for charging the charges are made in the form of guide tubes, which are placed on the outside of the casing in the form of a kind of consoles, which causes various kinds of external factors to affect these tubes, which, in turn, leads to a decrease in the strength and reliability of the structure as a whole. This design of the ejection unit does not allow it to be installed flush with the skin of the aircraft, which significantly impairs the aerodynamic characteristics of the flight of the aircraft and, as already noted, exposes the ejection unit to external dynamic loads.

The technical problem to which the claimed utility model is directed is to create a design for a passive jamming unit, which is an integral part of a passive jamming device that provides effective protection of aircraft from guided missiles.

The technical result for which the claimed utility model is intended is to eliminate the above disadvantages inherent in the closest analogue, aimed, in particular, at increasing the reliability of the structure while ensuring high aerodynamic characteristics of the protected aircraft.

Obtaining the technical result is ensured by the fact that the ejection unit contains a beam rigidly fixed to the aircraft, a removable cartridge with mounting positions for jamming cartridges, an impulse supply means for triggering the jamming cartridges, a cartridge retainer relative to the beam, the beam being a box-shaped housing, a cartridge made in the form of a frame, and the installation places in the cassette are formed by the walls of the holes made in its upper and bottom parts, respectively, and forming guides for installing jamming cartridges, and the pulse supply means for triggering the jamming cartridge is made in the form of a contact group located on the bottom of the beam and interacting with the electronic pulse distributor, each contact of which is spring-loaded and interacts with its corresponding jamming cartridge, and the cartridge is completely located inside the beam .

The developed utility model is presented in figure 1, where

"A" - beam, front view;

“C” - beam, top view;

“C” - cassette, top view.

As follows from figure 1, the ejection unit contains a beam 1 (type "a"), which is rigidly fixed to the aircraft flush with the skin of the aircraft, which provides high aerodynamic characteristics. The specified beam is made as a single unit, in the form of a molded box body, which provides high strength and stiffness characteristics of the unit, while the upper part of the body is a flange 2, through which, through the mounting holes 3, the ejection unit is mounted on the aircraft, while - the installation dimensions of the hull coincide with the similar landing dimensions of the cell made in the aircraft.

Inside the beam 1 is a removable cassette 4 (Fig. 1, view “c”), containing mounting locations 5 for jamming cartridges. These installation locations, in contrast to the closest analogue, are formed by the walls of the holes made in the upper and bottom parts of the cassette and forming guides for installing jamming cartridges. The presence of these holes determines the barrelless execution of the cartridge in the form of a frame, which reduces the weight of the cartridge and the entire unit as a whole.

The design of the cartridge is designed to accommodate 14 jamming cartridges.

The cassette is equipped with a grill (not shown in FIG. 1), which closes the mounting positions, fixing the jamming cartridges located in the cassette, thereby eliminating their spontaneous loss. The grill on the cassette is fixed using a bayonet connection.

In the lower part 6 of the beam 1 (view "a") there is a contact group designed to interact with jamming cartridges, and the number of contacts included in it is equal to the number of mounting positions that are located in the cassette in a three-row pattern. Each contact 8 included in the contact group is spring-loaded, which ensures constant contact with the jamming cartridge under the dynamic impact of flight of the aircraft and is designed to transmit an electrical impulse to trigger the jamming cartridge in contact with it.

An electronic pulse distributor (not shown in FIG. 1) is placed in the lateral part 7 of the beam 1, which supplies electric pulses to the contacts of the contact group 8, connected via a harness and connector 9 to the control system of the operation of the ejection unit.

The cartridge 4, equipped with jamming cartridges is inserted inside the beam 1 and is fixed in it by locks 10.

In the lower part of the beam 1, pins 11 are also placed, interacting with the cartridge mating holes, providing mutual centering of the contacts 8 of the block 1 and the jamming cartridges when the cartridge is inserted inside the beam.

The cassette 4 is provided with a lid with a handle (not shown in FIG. 1), which is used to carry an equipped cassette and excludes foreign particles from entering the cassette from the outside.

The device operates as follows.

When an electrical impulse is applied through an electronic distributor to any of the contacts, the corresponding jamming cartridge is triggered, as a result of which its contents are ejected outside the ejection unit, away from the aircraft, creating a directional jamming for homing missiles aimed at the aircraft.

Claims (8)

1. The ejection unit, comprising a beam fixed to the aircraft, a removable cartridge mounted on the beam with mounting locations for jamming cartridges, an impulse supply means for triggering the jamming cartridges, a cartridge retainer relative to the beam, characterized in that the beam is a box-shaped housing, installation places in the cartridge are formed by the walls of the holes made in the upper and bottom parts of the cartridge, respectively, and forming guides for installing jamming cartridges, giving a pulse for triggering a jamming cartridge is made in the form of a contact group located on the bottom of the beam and interacting with the electronic pulse distributor, each contact of which is spring-loaded and interacts with its corresponding jamming cartridge, while the cartridge is completely located inside the beam. 2. The ejection unit according to claim 1, characterized in that the beam and cassette are fixed relative to each other by means of a locking connection. 3. The ejection unit according to claim 1, characterized in that the beam body is molded as a unit. 4. The ejection unit according to claim 1, characterized in that the cassette is provided with a grill covering the installation places and a lid with a handle for transfer. 5. The ejection unit according to claim 1, characterized in that the beam is equipped with pins designed to interact with the holes corresponding to them in shape made in the cassette. 6. The ejection unit according to claim 1, characterized in that the upper part of the beam is made in the form of a flange. 7. The ejection unit according to 1, characterized in that the cartridge is installed inside the beam. 8. The ejection unit according to claim 1, characterized in that the cartridge is made in the form of a frame.