RU187983U1 - SHIP LAUNCHER FOR Rocket Launch - Google Patents

Abstract

The utility model relates to installations for the vertical launch of rockets from under the deck of a ship. The technical task is to increase the ease of maintenance, simplifying the design. Launcher (launcher) includes a launcher module 1, installed in the cellar 4 of the ship. The module contains frames: upper 3, lower 8 and intermediate 10. The frames are made of longitudinal and transverse beams forming cells for transport-launch containers (TPK) 2 with missiles 7. Frame 3 is built into the deck of the ship. Cells 5 of frame 3 are equipped with covers 6. Cells of frames 8 and 10 are equipped with elastic gaskets 9 to compensate for horizontal overloads on the TPK. There are electrical connectors 11 on the walls of the TPK 11. The counterparts 12 of the module's electrical connectors are located on the frame 10. The frame 10 is suspended at a height convenient for connection manually elements 12 with elements 11 after loading the TPK into the module. Boxes 13 are used for supplying to the TPK through power supply elements 12 and control signals from the control panel. 3 s.p. f-ly, 4 ill.

Description

The utility model relates to weapons, specifically to systems for the vertical launch of missiles from under the deck of a ship.

Known ship launchers (PU) for the vertical launch of missiles containing missile transport and launch containers (TPK), mounted inside a truss frame equipped with vertical shock absorbers (hereinafter - vertical shock absorbers) and horizontally (hereinafter - horizontal shock absorbers), see , for example, patents of the Russian Federation No. 2213925 or No. 2393409. The disadvantages of these PUs include their high metal consumption, due to the presence of a truss frame, as well as the complexity of horizontal shock absorbers.

The closest, in our opinion, to the proposed utility model is a shipboard launcher according to the patent of the Russian Federation No. 23234131 (prototype). This PU contains the upper supporting frame, which is built into the deck of the ship above the cellar for TPK, and the lower frame, which is fixed at the cellar floor. The frames are made of longitudinal and transverse beams forming cells. TPK is loaded vertically into the PU and fixed in the cell of the upper frame for the flange available at the front end of the TPK. The lower end of the TPK is fixed in the cell of the lower frame. TPKs are equipped with electrical connectors to supply power and control signals to TPK. The counterparts of the electrical connectors are mounted on the lower frame of the control panel.

The disadvantages of the prototype include the inconvenience of installation, since the counterparts of the electrical connectors are located on the lower frame of the control panel. For this reason, the operator has to perform installation work in the “sitting” and “lying” positions. On the other hand, TPK is known according to the patent of the Russian Federation No. 159373, in which the electrical connector is placed on the side wall of the TPK.

The technical task is to increase the convenience of installation and maintenance, simplifying the installation of horizontal shock absorbers.

The technical result is achieved by the fact that the ship launcher for launching missiles from under the deck, comprising at least one launcher module containing a supporting upper frame with cells for hanging and fixing missile containers having electrical connectors on the side walls, a lower frame with cells for fixing of said containers, elastic elements for absorbing overloads on said containers, mating parts of electrical connectors, characterized in that the launch module contains an additional frame, on which ontirovany electroconnectors said mating parts, and additional frame arranged between the upper and lower frames at a height that ensures the compound mates electroconnectors an extra frame with electric connectors on said container, wherein the elastic damping elements for horizontal accelerations are in the form of a resilient rubber-like gasket material.

The launcher is characterized in that the additional frame is mounted on a non-supporting upper frame. The launcher is characterized in that the elastic gaskets are installed in the cells of the lower frame and in the cells of the additional frame. The launcher is characterized in that the elastic gaskets are made of polyurethane.

The utility model is illustrated by drawings, in which the following views are shown: FIG. 1 is a general view of the PU, FIG. 2 is a sectional view aa in FIG. 1, FIG. 3 is a view of the upper (front) end of the TPK in the cell of the upper frame, FIG. 4 is a section BB in FIG. 2.

In the example of a specific design, the control unit includes two identical modules 1 mounted below the deck of the ship. Each module can accommodate up to twelve TPK 2. The module contains an upper bearing frame 3, built into the deck of the ship. Cellar 4 is located under the deck. Frame 3 is made of longitudinal and transverse beams forming launching cells 5 for suspending TPK 2. Cells 5 have covers 6. In cell 5, it is suspended by the front (upper) end of TPK with rocket 7. The module also contains a lower frame 8, which is fixed by the cellar floor. Frame 8 consists of longitudinal and transverse beams forming cells for the lower ends of the TPK. Elastic gaskets 9 made of polyurethane are fixed in the cells to absorb the horizontal overloads at the lower end of the TPK.

The module includes an additional frame 10, which is suspended from the supporting frame 3. The frame 10 is placed between the frames 3 and 8. The frame 10 contains longitudinal and transverse beams forming cells for TPK. In the cells of the frame 10 are fixed elastic gaskets 9 to absorb the horizontal overloads on the walls of the TPK.

On the side walls of the TPK there are electrical connectors 11. On the frame 10 there are mating parts 12 of the electrical connectors of module 1. The frame 10 is located at a height that allows the elements 12 to be connected to the elements 11 after loading the TPK into module 1. The switching boxes 13 are used to supply power to the TPK and signals from start automation equipment (ASA).

The cells of the frame 3 are equipped with clamps 14 for the flange at the front end of the TPK. The latches 14 are mounted on the frame 15, which is mounted on the dampers 16 to absorb the vertical overloads on the TPK. The dampers 16 are mounted on the frame 3, which is built into the deck of the ship.

The launcher is used in the following order. TPK with missiles delivered to the ship. Here, the TPK is loaded in a known manner vertically into the cells 5 with the covers 6 open. When lowering the TPK into the cell 5, the frame 10 orientates the TPK, directing its lower end to the cell of the frame 8. At the end of the load, the flange at the front end of the TPK is fixed to the frame 15 using latches 14 The lower end of the TPK is fixed using the elements 9 in the cell of the frame 8. The side walls of the TPK are fixed using the elements 9 in the cell of the frame 10. Then connect the elements 12 on the frame 10 with the elements 11 on the TPK in a known manner, for example, using standard cables. Since the frame 10 is located at a convenient height for the operator, installation and maintenance work on the electrical equipment of the control unit takes place under normal conditions. The launch of rockets from under the deck of the ship is carried out in a known manner (see patent No. 23224131).

New in the proposed utility model is that the elements of the electrical equipment PU are placed at a height convenient for humans, which increases the convenience and quality of installation. Moreover, the elastic elements for horizontal depreciation of TPK are made in the form of gaskets made of polyurethane, which simplifies the design of PU.

The modular design of the PU allows you to install any number of modules on the ship, depending on its displacement.

According to the described scheme, a prototype of a PU was manufactured at the applicant’s enterprise and its tests were carried out, which were completed with a positive result. Ease of installation significantly increased, its quality increased. At the same time, polyurethane gaskets absorbed horizontal overloads on TPKs up to 15 g, which fully corresponds to the technical requirements.

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

Claims (4)

1. A ship launcher for launching missiles from below the deck, comprising at least one launcher module comprising a supporting upper frame with cells for hanging and fixing missile containers having electrical connectors on the side walls, a lower frame with cells for fixing said containers, elastic elements for depreciation of overloads on the indicated containers, mating parts of electrical connectors, characterized in that the starting module contains an additional frame on which the indicated mating parts are mounted electroconnectors, the additional frame being placed between the upper and lower frames at a height that provides the connection of the mating parts of the electrical connectors on the additional frame with the electrical connectors on these containers, while the elastic elements for absorbing horizontal overloads are made in the form of elastic gaskets made of rubber-like material. 2. Launcher according to claim 1, characterized in that the additional frame is mounted on a supporting upper frame. 3. Launcher according to claim 1, characterized in that the elastic gaskets are installed in the cells of the lower frame and in the cells of the additional frame. 4. Launcher under item 1, characterized in that the elastic gaskets are made of polyurethane.

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