RU114767U1 - SHIPBAR START SYSTEM FOR WEAPONS TORPEDA TYPE - Google Patents

Abstract

1. Ship launching system for weapons such as torpedoes, including launchers located in the superstructure of the ship on the side, symmetrically relative to the center plane of the ship, which are installed with the possibility of firing through the side closable hatches, and each launcher contains a base mounted on the foundation of the ship, and made with the possibility of installing transport and launch containers, a support frame installed on the said base, which is equipped with engagement elements made with the possibility of interaction with the corresponding mating elements of the engagement of the transport and launch containers, on the end part of the support frame are mounted electrical connectors for electrical communication of the ship's launch control system with transport and launch containers, while hatches are made in the deck of the ship above the launchers for loading transport and launch containers onto launchers, characterized in that the longitudinal axis of each of the launchers of the installations is located in a plane orthogonal to the diametrical plane of the ship, while the support frame of each launcher is fixedly fixed on the corresponding base, from the side of the end of the said end part of the support frame a box-shaped element is mounted with the possibility of placing in it electrical communication means connected to the corresponding electrical connectors of the transport and launch containers the ship's launch control system with transport and launch containers and with the ability to provide access to the equipment located inside it from the outside. ! 2. The system according to claim 1, o

Description

The utility model relates to ship launchers for weapons such as torpedoes and can be used to create samples of rocket and torpedo armament of surface ships, in particular, when using single and multi-level modules (packages, cartridges) of transport-launch containers (TPK) on ships, built using stealth technology.

A ship launch system is known, including missile batteries (launchers) located in vertical launchers, partially located under the main deck and closed in their upper part using pivoting wings (RU 2225326 C2, B63G 13/02, F41F 3/02, H01Q 17/00, 2004). The shutters in the closed position form part of the superstructure rising above the level of the main deck. The device comprises on each side of the port side and starboard elevation above the main deck of the superstructure one flat and inclined screen, configured to reflect the incident electromagnetic beam in a direction different from the direction of incidence of the beam, and protruding relative to the surface of the deck to a height of exceeding the height of the deck superstructure. The device has a protective grid that reflects electromagnetic waves and is stretched over the superstructure protruding above the surface of the deck of the ship. These flat inclined reflective screens and a protective reflective grid stretched over them form a structure that covers the superstructure rising above the surface of the main deck, making it invisible to the locator. The use of such a system makes it possible to eliminate the influence of a structure towering above the main deck and being part of rocket batteries in a non-combat (marching) position on the overall radar reflectivity of the ship.

However, the known ship’s launch system has specific target characteristics (in particular, vertical launch of missiles) and does not imply its use for weapons such as torpedoes.

Known rotary torpedo tubes for firing on both sides or located side-by-side (Sychev V.A.Ship weapon. - M.: DOSAAF USSR, - 1984. Zabnev A.F. Torpedo weapon. - M.: Military Publishing House, - 1984. - C .43-46). Known torpedo tubes carry a certain, relatively small number of torpedoes. The launch of torpedoes is possible at strictly defined angles of fire.

The disadvantages of the known torpedo tubes can be attributed to the fact that they have sufficiently large mass-dimensional indicators. In addition, well-known torpedo tubes are designed to accommodate a limited number of launch (firing) tubes.

Known ship launch system for weapons such as torpedoes, including launchers (PU), placed on the upper deck of the ship flush, symmetrically with respect to the diametrical plane (DP) of the ship, each containing firing (launch) tubes, a base mounted on the foundation of the ship, a rotary support, mounted on said base with the possibility of rotation and fixing in predetermined positions relative to the vertical axis, and means for rotating the turntable (RU 2140051 C1, F41F 3/00, 3/08, 1999). In the stowed position (or when loading), the launchers are located close to the board parallel to the ship's DP.

However, the known ship’s launch system provides the possibility of using a relatively small number of firing (launch) tubes located at the same level, and does not imply the placement of transport-launch containers combined into a block on launchers.

The closest set of essential features with the claimed utility model is a ship launch system according to patent RU 2353886 C1 (F41F 3/08, 2009). The known system includes placed onboard and symmetrically relative to the DP of the ship PU, each of which contains a base mounted on the foundation of the ship, and a rotary support mounted on the base with the possibility of rotation and fixing in predetermined positions relative to the vertical axis. Each of the rotary supports is configured to install transport-launch containers (TPK) and includes a support frame provided with engagement elements configured to interact with respective reciprocal engagement elements of the TPK. At the end of the support frame, electrical connectors for the electrical connection of the ship’s launch control system with TPK are mounted. The electrical connectors are closed by a transformable protective casing, made with the possibility of partial overlapping of the end parts of the TPK in the normal position of the latter on the supporting frame. The protective casing consists of two parts, one of which is stationary mounted on the end of the support frame, and the other can be detachably installed in one of three positions, depending on the presence and number of TPK on the PU. The stationary part of the protective casing serves, in particular, to accommodate electrical connectors with appropriate cables in a free (not connected to TPK) state. Each launcher is located in the superstructure of the ship, having a lockable lap port, configured to rotate the launcher from the TPK to a predetermined launch angle. In the deck of the ship above the launchers, hatches were made for loading TPK on the launcher. In the embodiment, the PU is configured to be mounted on a rotary support TPK, combined in a block. In another embodiment, the PU is made with the possibility of installing TPK mounted on a rotary support, combined in a block including two rows of TPK spaced in height.

However, in the known ship’s launch system, the launcher is rotary, which complicates and increases the cost of the launch system as a whole. The choice of the rotary type of launcher is due to the fact that the known launch system is designed for ships of small displacement (for example, corvettes), on which, according to the layout conditions, it is impossible to place stationary (semi-rotary) launchers for weapons like torpedoes.

The problem solved by the utility model is the creation of a fairly simple ship launch system for weapons such as torpedoes, placed on ships of relatively large displacement (for example, frigates), providing adaptability to single and multi-level modules (packages) of transport and launch containers, and - to use on a surface ship built using stealth technology.

This problem is solved due to the fact that in the ship’s launch system for weapons such as torpedoes, including launchers installed in the superstructure of the ship, symmetrically relative to the diametrical plane of the ship, which are mounted with the possibility of firing through onboard lockable lapports, each launcher containing a base mounted on the ship’s foundation, and the support frame, mounted on the aforementioned base, configured to transport launch containers I am equipped with engagement elements adapted to interact with the corresponding engaging response elements of the transport and launch containers, electrical connectors of the ship’s launch control system with transport and launch containers are mounted on the end part of the support frame, while loading hatches are made in the ship’s deck above the launchers transport and launch containers for launchers, according to a utility model, the longitudinal axis of each of the launchers is located and in a plane orthogonal to a diametrical plane of the ship. In this case, the supporting frame of each launcher is fixedly mounted on the appropriate base. On the side of the end of the said end part of the support frame, a box-shaped element is mounted with the possibility of placing in it transport-launch containers connected to the corresponding electrical connectors of the means of electrical communication of the ship launch control system with transport-launch containers and with the possibility of providing access from the outside to the equipment located inside it.

Along with this, the launcher is made with the possibility of installation on the supporting frame of transport-launch containers, combined in a block.

In addition, the launcher is made with the possibility of installing on the supporting frame of the transport and launch containers, combined in a block comprising two rows of transport and launch containers spaced apart in height.

The technical result of using the utility model is that it allows to simplify the design and reduce the weight of the launcher and thus reduce the complexity of manufacturing a launch system for weapons such as torpedoes and reduce its cost while providing the ship launch system adaptability to single and multi-level modules (packages) transport and launch containers. Along with this, as a result of simplification of the launcher design, the maintenance of the launcher system is simplified, which improves operational characteristics.

Figure 1 schematically shows a ship launch system for weapons such as torpedoes, General view, cross section; figure 2 is the same, view along A in figure 1; figure 3 - launcher for weapons such as torpedoes, view according to B in figure 2, rotated (option when four TPK are installed on the launcher); figure 4 - mounted on the supporting frame box element with the means of electrical communication of the ship launch control system with TPK, longitudinal section along BB in figure 3 (electrical connectors with cables are conventionally shown in a state not connected to the TPK); figure 5 is a device for mounting TPK on PU, cross section along G-G in figure 3.

In an embodiment of the invention, the ship launch system is located on a surface ship constructed using stealth technology. The ship’s launch system for a torpedo-type weapon contains, for example, two launchers 1 placed on-board, symmetrically with respect to the diametrical plane 2 of ship 3 in the superstructure 4 of the ship. The longitudinal axis of each of the launchers is located in a plane orthogonal to the diametrical plane of the ship. Launchers 1 are installed with the possibility of firing (launching) through onboard lockable lapports 5. Lazport 5 is made with an opening providing an exit of weapons such as a torpedo from the onboard part of the superstructure during firing. Thus, the ship’s launch system in the initial position is completely hidden in the ship’s hull, and at the time of the shot (launch) is opened only from the side of the lapport, which allows to increase the survivability of ship’s weapons.

Each launcher contains a base 7, mounted motionless on the foundation 8 of the ship. On the base 7, the support frame 9 is fixedly mounted. The support frame 9 is configured to mount transport and launch containers 6 with torpedoes (anti-torpedoes) on it and is equipped with engagement elements adapted to interact with the respective engagement response elements of the transport and launch containers. In an embodiment of the invention, the TPK is mounted on the launcher by means of hinged bolts 10 fitted with nuts, mounted on the TPK and included in the grooves of the corresponding fittings 11 of the support frame 9. In the embodiment, the launcher 1 is configured to install transport and launch containers 6 on the support frame 9 combined in a block (other applicable terms - a package, module or cartridge), including, for example, two rows of transport-launch containers spaced apart in height. In an embodiment of the invention, the PU serves to accommodate packages (modules, cassettes), for example of two or four TPK. Along with this PU allows the ability to install on the supporting frame 9 of one TPK or a package of three TPK. Thus, the ship’s launch system provides adaptability to single- and multi-level modules (packages) of transport-launch containers, provides the ability to increase the combat effectiveness of such launch systems and, accordingly, carrier objects. Along with this, it is possible to expand the range of ship weapons (for example, by type and size of torpedoes and anti-torpedoes).

On the end part of the support frame 9, electrical connectors 12 are mounted for the ship’s launch control system with launch vehicles 6. On the side of the end of the end part of the support frame 9 there is a box element (essentially a protective casing or accessory box) 14 it connects to the electrical connectors of the transport and launch containers means of electrical communication of the ship launch control system with transport and launch containers and with the possibility of providing from the outer side of access to the equipment located inside the element 14 (essentially, electrical connectors 12 with corresponding cables). To do this, on the end wall of the box-shaped element 14, a pivotable cover (not shown) is provided with a sealing seal that is pivoted inside the box-like element.

The ship’s launch system is configured to load transport and launch containers 6 onto the launchers 1 through the corresponding hatches 14, which are made in the deck 15 of the ship 3 above the launchers.

The use of a ship launch system for weapons such as torpedoes is as follows.

The loading of transport and launch containers 6 to launchers 1 located in the superstructure 4 of the ship is carried out through hatches 13, made in the deck 15 of the ship above the launchers. Before loading on the launcher 1, removable catcher supports are installed in the standard sockets, and removable deck catchers (not shown) are installed in the standard sockets around the open hatch 13. TPK loading onto the launcher is carried out using an external lifting device using a special loading device (not shown in the drawing), which together with the aforementioned catchers ensures the given TPK positioning when the latter are loaded horizontally on the ship’s launcher, thereby reducing the overloads acting on the TPK during loading in conditions of external influences, for example, wind loads, sea waves. When installing the TPK block (package) to the launcher, by means of the hinged bolts 10 transport and launch containers and fittings 11 of the support frame 9, the TPK block (package) is mounted on the launcher. After loading the TPK block on the PU, removable support-catchers and removable deck-mounted catchers are removed. Further, the mentioned removable devices are used to load the next PU of the ship or transferred to the pier. After installing the TPK block (package) on the launcher, the transport and launch containers through electrical connectors 12 are connected to the ship’s launch control system. After connecting the electrical connectors 12, the launcher is ready to launch a torpedo (anti-torpedoes).

Thus, due to the particular design of the ship’s launch system for torpedo-type weapons, the utility model allows us to simplify the design and reduce the weight of the launcher, and thus reduce the complexity of manufacturing the launch system for weapons such as torpedoes and reduce its cost while providing the ship’s launch system with adaptability to single and multi-level modules (packages) of transport and launch containers. Along with this, as a result of simplification of the launcher design, the maintenance of the launcher system is simplified, which improves operational characteristics.

Claims (3)

1. The ship’s launch system for weapons of the torpedo type, including launchers placed on the ship’s superstructure, symmetrically with respect to the ship’s diametrical plane, which can be fired through airborne lockable lapports, each launcher containing a base mounted on the ship’s foundation and made with the ability to install transport and launch containers, a support frame mounted on the aforementioned base, which is equipped with gearing elements, made and with the possibility of interaction with the corresponding engaging response elements of the transport and launch containers, electrical connectors of the ship’s launch control system with transport and launch containers are mounted on the end part of the support frame, while hatches for loading transport and launch containers on the launch deck are made launchers, characterized in that the longitudinal axis of each of the launchers is located in a plane orthogonal to the diametrical plane ship, while the supporting frame of each launcher is fixedly mounted on the corresponding base, from the side of the end of the mentioned end part of the supporting frame, a box-shaped element is mounted with the possibility of placing in it the transport and launch containers of the ship’s launch control system with transport and launch containers and with the possibility of providing from the outside access to the equipment located inside it. 2. The system according to claim 1, characterized in that the launcher is made with the possibility of installation on the supporting frame of transport-launch containers, combined in a block. 3. The system according to claim 2, characterized in that the launcher is configured to install transport and launch containers on the support frame, combined in a unit comprising two rows of transport and launch containers spaced apart in height.