RU181015U1 - SHIP STARTING UNIT COMPARTMENT COVER - Google Patents

Abstract

The utility model relates to weapons, specifically, to the armored caps of launchers (PU), can be used in shipborne installations of vertical launch. The technical task is to simplify the armor of the lid, reduce its weight and cost, increase efficiency. Ship PU contains a frame 1. The frame includes compartments 3. The lid of the compartment contains a casing 4 connected to the frame using a torsion bar 5. The armor plate 8 is fixed on top of the casing (hereinafter - sheet). Sheet 8 is made of secondary titanium alloy. The outer side of the sheet 8 is hardened by special technology to the hardness and toughness of the structural armor. The sheet 8 is fixed with a gap with respect to the lid body using bolt connectors 13 and distance bushings 9. To protect the lid from corrosion, the connectors are equipped with insulating gaskets 14. As the tests showed, the armored lid in the form of an exploded design of a titanium armor plate and a steel case connected between each other with a gap, provides the required armor protection of the PU compartment from bullets and fragments. Moreover, the lid has a reduced weight and cost in comparison with analogues. 3 s.p. f-ly, 3 ill.

Description

The proposed utility model (PM) relates to weapons, can be used in launchers (PU) for the vertical launch of missiles.

Known launch tube with a safe cover according to US patent No. 8968126. Also known is a launch tube for launching missiles with a protective cover according to US patent No. 5062345. These inventions are not suitable for use in vertical launch launchers, which should have armor protection from bullets and fragments.

Closest to the proposed PM is, in our opinion, a modular shipboard PU according to the patent of the Russian Federation No. 2557123, 2015 - a prototype. The specified PU includes a launch module, built into the deck of the ship. The module contains missile cells having armored covers. The covers are opened and closed by means of actuators. Drives are controlled using equipment that is placed in appropriate compartments. These compartments are equipped with covers, which should have armor protection from bullets and fragments. In the prototype, the armor protection of the cover is made in the form of a sheet on which tiles of armored ceramics, for example, boron carbide, aluminum oxide, etc. are fixed using a binder. The armor plate (armor plate) made in this way is attached to the inside of the lid with a gap.

The disadvantages of the prototype include the relatively high complexity of the manufacture of armor in the form of a layer of tiles of armored ceramics. In addition, the armor plate attached to the lid from the inside does not protect it from the outside. The noted shortcomings complicate the design of PU covers, increase their cost and weight, and reduce the effectiveness of PU protection. The technical task is to simplify the armored cover of the ship's launcher, reduce its mass and cost, increase the effectiveness of protection.

The technical result is achieved in that the compartment cover of the ship’s launcher, comprising a housing, an opening mechanism, an armor protection comprising an armor-proof sheet made on one side armored, attached to the lid body with a gap, is characterized in that the armor-protective sheet is made of secondary titanium alloy with the ability to provide at least one side of the sheet, the properties of the structural armor, is attached to the lid case from the outside with the armor-resistant side of the sheet up using electrically insulating unifiers.

The cover is characterized in that the gap between the armor plate and the cover body is 25-30 mm. The cover is characterized in that the electrically insulating connectors comprise distance bushings provided with electrically insulating gaskets. The lid is characterized in that its opening mechanism comprises a torsion bar, one end of which is fixed to the compartment frame, and the other end is attached to the eye of the lid body.

The utility model is illustrated by drawings. In FIG. 1 shows a general view of a PU module with an open lid of one compartment; FIG. 2 is a sectional view of the compartment lid; FIG. 3 is a sectional view of one insulating connector (AA in FIG. 2).

In an example of a specific embodiment, the PU module includes a frame 1, which is built into the deck of the ship. Frame 1 contains cells 2 for missiles and compartments 3 for placement of electrical and hydraulic equipment PU. Compartments 3 are equipped with covers 4. Covers have a body made of steel. The mechanism for opening the lid is made in the form of a torsion bar 5, which is attached at one end to the eye 6 of the lid body, and the other end is fixed to the frame 1 of the module. For fixing the cover in the open position, a locking mechanism 7 is provided.

The armor protection of the cover is made in the form of an armor plate 8 made of secondary titanium alloy. At least one side of the sheet 8 is processed using special technology to give the secondary alloy the properties of structural armor. This technology is the subject of the know-how of a titanium producer. In a specific case, a high-strength titanium alloy of the VST-2B grade is used to manufacture sheet 8. The strength properties of the secondary titanium alloy for structural armor are described in RF patent No. 2425164.

Sheet 8 is mounted on the cover 4 from the outside, with the armor-resistant side up, to protect the cover from bullets and fragments from above. To increase the efficiency of protection, the sheet is installed with a gap by means of spacer sleeves 9. The size of the gap between the cover and the sheet, established experimentally, is 25 - 30 mm. To fix the lid in the closed position, a flap 10 is used. To protect the compartment from moisture, a seal 11 is provided. For convenience of closing, there is a handle 12 on the lid. Bolts 13 with nuts are used to secure the sheet 8. To protect the cover from electrical corrosion, which occurs when metals with different conductivity come in contact (in this case, iron and titanium), the screw pairs 13 are provided with electrically insulating gaskets 14.

A utility model is used as follows. To open the compartment lid, turn the closure 10. As a result, the torsion bar 5 places the lid in a vertical position, where it is fixed by mechanism 7. With the lid 4 open, electrical and hydraulic equipment in the compartments are serviced. To close the lid, remove it from the stopper 7 and lower it by pressing the knob 12. To fix the lid in the closed position, turn the closure 10.

In the case of exposure to the cover of damaging factors, for example, artillery fragments and bullets of small arms, the protection in the form of an armor plate made of titanium alloy is activated, fixed externally to the cover body with a gap.

According to the scheme described above, to test the bulletproof and anti-splinter resistance of the cover, ten prototypes of the cover were made with the following parameters of the spaced structure of the armor plate and cover:

Tests showed a good result. The cover in the form of an exploded design of titanium armor plate and a steel case, fastened together with a gap by means of spacers, passed the test. According to the test results there is an official protocol.

The proposed utility model has several advantages compared to the prototype. The armor protection of the lid is simpler in design and technologically advanced. The cover has a lower cost and weight. Armor protection is more effective, since the armor plate protects the compartment cover of the ship’s PU, and not vice versa. Electrical insulating spacers protect the armor plate mounts from electrical corrosion. The mechanism for opening the lid in the form of a torsion bar is simple and technological. The solutions found ensure the operability of PU under the influence of bullets and fragments. At the same time, the cost of the PU cover is significantly reduced, given the low price of the secondary material for the titanium alloy.

The new device described above that meets the criterion of industrial applicability is proposed for legal protection by a utility model patent.

Claims (4)

1. The cover of the compartment of the ship’s launcher, comprising a housing, an opening mechanism, armor protection, including an armor-proof sheet made on one side armored, attached to the lid body with a gap, characterized in that the armor-protective sheet is made of secondary titanium alloy with the possibility of at least one side of the sheet, the properties of structural armor, is attached to the body of the lid from the outside with the armor-resistant side of the sheet upwards using electrical insulating connectors. 2. The cover according to claim 1, characterized in that the gap between the armor plate and the cover body is 25-30 mm. 3. The cover according to claim 1, characterized in that the electrical insulating connectors contain spacers equipped with electrical insulating gaskets. 4. The lid according to claim 1, characterized in that the mechanism for opening it comprises a torsion bar, one end of which is fixed to the compartment frame, and the other end is attached to the lug of the lid body.

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