RU184387U9 - TRANSPORT AND STARTING CONTAINER - Google Patents

Abstract

The utility model relates to weapons, specifically to containers for the vertical launch of missiles from under the deck of a ship. The technical task is to increase the fire resistance of the container. The container contains a housing 1 made of aluminum alloy. A rocket 2 and a powder catapult are placed in the housing 4. A three-layer fire-fighting coating is applied to the housing. Layer 8 (base) has good heat-resistant adhesion to aluminum. Layer 8 includes: kaolin (GOST 19608-84), zirconia (GOST 21907-76), quartz fiber (TU 1593-012-5926-4088-2006-2006), Armosil A (TU 2145-005-95412478-2006) ethyl silicate-40 (GOST 26371-84), trisodium phosphate (GOST 201-76), potassium glass (GOST 18958 -73). Fireproof layer 9, made of material of the Vulkan O brand (TU 5768-001-1687554-2012), is applied to layer 8. Layer 9 has good heat-resistant adhesion to layer 8. A reinforcing layer 10 is applied to layer 9, which includes fiberglass impregnated with epoxy resin with the addition of quartz sand. 3 ill.

Description

The proposed utility model relates to weapons, specifically to containers for launching missiles from under the deck of a surface ship.

Known rocket system according to US patent 8800418, containing a tube for launching a rocket. Also known transport and launch module according to the patent of the Russian Federation No. 2245503. To protect against corrosion, neutral gas cylinders are integrated in the module. Before launching the rocket, the module is filled with gas to reduce corrosion from rocket exhaust. The present invention does not protect the surface of the module from the outside.

The closest to the proposed utility model is, in our opinion, a transport and launch container (hereinafter - TPK) for launching missiles according to the RF patent No. 159373 - a prototype. The specified TPK contains a housing made of aluminum alloy, which is applied anti-corrosion coating. TPK is placed in the cellar under the deck of the ship, the rocket is launched through the hatch in the deck. A powder catapult is built into the TPK, with which the missile is thrown out of the TPK without turning on the rocket engine.

The disadvantage of the prototype is its low fire resistance, which is understood as the ability of the product to withstand an open fire flame for a set time. A fire in the cellar will inevitably cause an explosion of a powder catapult and rockets in the TPK, which will lead to rapid flooding of the ship and to human losses. Attempts to protect TPKs with known heat-resistant coatings do not work, since conventional coatings easily peel off from aluminum when exposed to open flame. The technical task is to increase the fire resistance of TPK, designed for transportation, storage and launch of missiles from under the deck of the ship.

The technical result is achieved in that the transport and launch container, mainly for launching missiles from under the deck of a surface ship, including a hull, on whose surface a protective coating is applied, means for placing the rocket, a powder catapult for the rocket, is characterized in that the coating is fireproof, includes the main, fire-resistant and reinforcing layers, and the main layer located between the surface of the housing and the fire-resistant layer consists of the following components in the following ratios ( wt. %%): kaolin - 10.8, zirconia - 0.4, quartz fiber - 1.4, Armosil A - 9.0, ethyl silicate-40 -1.0, trisodium phosphate -1.1, potassium glass - the rest, while the reinforcing layer that is applied to the fireproof layer contains fiberglass impregnated with epoxy resin with the addition of refractory powder.

The container is characterized in that the fire-resistant layer is made of material of the brand "Vulkan-O" made in accordance with TU 5768-001-1687554-2012. The container is also characterized in that quartz sand is used as a refractory powder.

The device of the utility model is illustrated by drawings. In FIG. 1 shows a longitudinal section of a TPK with a rocket inside; FIG. 2 is a section AA from FIG. 1. In FIG. 3 shows a cross-section of the wall of the housing TPK with a view of the fire-resistant coating.

In a specific example, the TPK comprises a housing 1 made of an aluminum alloy. A rocket 2 and a powder catapult are placed in the housing. The catapult contains a pneumatic cylinder 4 (hereinafter referred to as the cylinder), which has a stem 5. The cylinder is connected to a gas generator 6 (the device of a powder catapult is described in more detail in RF patent No. 2289036). The rod 5 is equipped with a hook 7 for the rocket.

The fireproof coating (hereinafter referred to as the coating), which consists of three layers, is applied to the body. The bottom layer 8 is the main one, it is a mixture of the following components (wt. %%): kaolin (GOST 19608-84) - 10.8, zirconia (GOST 21907-76) -0.4, quartz fiber (TU 1593-012-5926-4088- 2006-2006) - 1.4, Armosil A (TU 2145-005-95412478-2006) - 9.0, ethyl silicate-40 (GOST 26371-84) - 1.0, trisodium phosphate (GOST 201-76) - 1.1, potassium glass (GOST 18958- 73) - the rest. The composition of the components for the base layer is selected empirically. As tests have shown, the composition found (hereinafter referred to as the Primer) has excellent adhesion to aluminum alloys. The middle layer 9 is made of fire-resistant material of the brand Vulcan-O, which has good adhesion to the primer. The composition of the Vulcan-O material is given in TU 5768-001-1687554-2012. The upper reinforcing layer 10 is made of fiberglass impregnated with epoxy resin, in which quartz sand is added. The reinforcing layer is applied to the fire resistant layer to protect the coating from vibration and shock loads.

The applicant’s enterprise manufactured prototypes of TPK with a fire-resistant coating described above. The primer coating technology for aviation aluminum alloys has the know-how. Field tests showed excellent results. TPK cases with the specified coating were kept in a steady flame of burning kerosene for an average of 40 minutes without penetration of the flame inside.

A utility model is used in the following order. In the port, the TPK with missiles is loaded onto the ship and placed vertically in the cells of the ship’s launcher (see our patent No. 2224131). To launch a rocket from under the deck of a ship, a powder charge is ignited in a catapult. Hot gases rush into the cylinder. The piston with the rod moves sharply to the beginning of the cylinder (to the left according to the drawing of Fig. 1). The hook carries the rocket and throws it from the TPK up to a height of 30 meters. Then turn on the rocket engine remotely (not shown) and direct it to the target.

In response, the enemy in the cellar of the ship may cause a fire (for example, from an enemy shell). Fire protection protects TPK from fire, which could cause an explosion of a powder catapult and missiles. The proposed coating is able to withstand a fire flame for up to 40 minutes, providing the time necessary to save the crew and, possibly, the ship itself (the so-called ship survivability).

The proposed solution is new in comparison with analogues, since the fire-resistant layer is fixed on the aluminum housing of the TPK using an intermediate base having good adhesion to aluminum and to fire-resistant material. The composition of the adhesive base is found empirically. The fireproof layer is protected from mechanical damage by a reinforcing layer, including quartz sand, which improves the mechanical and fireproof properties of the coating. The proposed coating for explosive TPK, placed under the deck of the ship, significantly increases the survivability of the ship, necessary to save the crew.

The new, industrially applicable TPK device described above is proposed for legal protection by a utility model patent.

Claims (2)

1. Transport and launch container, mainly for launching missiles from under the deck of a surface ship, including a housing, on the surface of which a protective coating is applied, means for placing the rocket, a powder catapult for the rocket, characterized in that the protective coating is made of at least three layers includes the main, fireproof and reinforcing layers, and the main layer located between the surface of the housing and the fireproof layer consists of the following components in the following proportions, wt. %: kaolin - 10.8, zirconia - 0.4, quartz fiber - 1.4, Armosil A - 9.0, ethyl silicate-40 - 1.0, trisodium phosphate - 1.1, potassium glass - the rest, while the reinforcing layer deposited on the fireproof layer contains fiberglass with impregnation of epoxy resin, in which a refractory powder is added. 2. The container according to claim 1, characterized in that quartz sand is used as a refractory powder.

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