RU2803672C1 - Airborne multi-barrel launcher - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: airborne multi-barrel launcher contains a suspension unit, a control unit, and launch guides. The launch guides are made in the form of modules, combined in horizontal and vertical rows and installed in a frame with the lower and the upper bases. Each module consists of three coaxially installed rings with two locking units with mating and receiving parts, which are secured to each other at a given distance. The inner diameter of each ring is equal to the outer diameter of the ammunition. The upper base of the frame interacts with the suspension unit. The first locking unit of the ring is made in the form of rectangular plates, the length of the plate is equal to the diameter of the ring, the mating and receiving parts are rigidly fixed at opposite ends of the plate. The counter part of the second lock assembly is made in the form of a vertical rod, which is fixed at the attachment point of the second lock assembly.

EFFECT: simpler and lighter design, reduced assembly time, and increased number of barrels in the launcher.

5 cl, 7 dwg

Description

The invention relates to the field of aviation weapons and concerns multi-barrel launchers for placing in them the launch of ammunition with the possibility of electrical launch from an aircraft.

Launchers are known that are attached to helicopters (Website "Russian Arms Forum" http:www. russianarms.ru/forum/index.php/topic, 3217.msg53904), containing a control panel, a container mounted on board the helicopter, and in the container There are slots for placing cassettes, a control unit consisting of a control device, plug connectors and stoppers.

The disadvantages of such an installation are: the large weight and size characteristics of the container do not allow the use of launchers for unmanned aerial vehicles; the container is fixed motionless and therefore requires helicopter maneuverability to aim ammunition at the target, which makes it difficult to use; high labor intensity of readjusting nests in a container for a different number, which leads to an increase in the cost of the structure.

The closest in principle of operation and technical solution is a multi-barrel launcher (Patent No. 2539434 C1, IPC F41F 3/065 B64D 7/08 “Launcher for aircraft missiles”), which is a block-modular design, including suspension units for the aircraft, an electrical system for supplying starting impulses and autonomous, easily removable modular units, made with the possibility of extension.

The disadvantages of the known launcher are: the large weight and size characteristics of the launcher do not allow the use of launchers for unmanned aerial vehicles; modules are manufactured in a factory environment, which complicates the process of implementation and application of this design; high labor intensity of manufacturing and building up modular blocks, which leads to an increase in the cost of the structure.

The technical objective of the present invention is to eliminate the above-mentioned disadvantages, namely, reducing the weight of the launcher compared to the prototype, reducing the labor intensity of manufacturing and building up modular units by simplifying the design of the device, and reducing the cost of the launcher.

The technical result of the invention is to simplify and lighten the design, as well as to reduce the cost of manufacturing time and increase the number of barrels in the launcher in relation to a given amount of ammunition.

This technical result is achieved by the fact that in the known multi-barrel aviation launcher, consisting of a suspension unit, a control unit, and launch guides, according to the invention, the launch guides are made in the form of modules interconnected in horizontal and vertical rows and installed in a frame with lower and upper bases, each module consists of at least three coaxially installed rings, equipped with two locking units with mating and receiving parts, secured to each other at a given distance, with the internal diameter of each ring being equal to the outer diameter of the ammunition, the upper base of the frame is designed to interact with suspension unit.

This technical result is achieved by the fact that the rings are made by casting from hard plastic.

This technical result is achieved by the fact that the first locking unit of the ring is made in the form of rectangular plates, the length of the plate being equal to the diameter of the ring, the mating and receiving parts are rigidly fixed to the opposite ends of the plate.

The specified technical result is achieved by the fact that the mating part of the second locking unit is made in the form of a vertical rod, fixed at the attachment point of the second locking unit, with a length equal to less than the total thickness of the plate and ring, and the mating part is in the form of a hole at the attachment point with the plate of the first lock assembly with a diameter equal to the diameter of the rod.

This technical result is achieved by the fact that the plates contain stiffeners.

Execution of a launcher, including launching guides, made in the form of modules, interconnected in horizontal and vertical rows and installed in a frame with lower and upper bases, consisting of three coaxially installed rings, equipped with two locking units with receiving and mating parts, fixed between itself at a given distance, allows you to reduce the weight of the starting device and the complexity of its manufacture.

The claimed technical solution is illustrated in drawings 1-7. In fig. 1 shows a general view of the aircraft launcher; in fig. 2 shows a view of an easily removable starting guide; in fig. 3 shows a ring with two locking units; in fig. 4 shows the fixation of the first lock assembly; in fig. 5 shows the fixation of the second lock assembly; in fig. Figure 6 shows the procedure for expanding the modular design of the launcher; in fig. Figure 7 shows a launcher with ammunition.

The launcher is a structure that includes easily removable launch guides 1, a suspension unit for the aircraft 2, a control unit 3, an upper 4 and lower 5 base. The starting guides 1 are made in the form of modules connected in horizontal and vertical rows and form a frame that performs the main load-bearing function of the structure. To increase reliability, the frame of the structure is fixed at the top and bottom with bases, respectively, top 4 and bottom 5, as shown in Fig. 1.

Each module consists of at least three coaxially installed rings 6, equipped with two locking units with receiving and mating parts. Rings 6 are fixed to each other at a given distance, with the internal diameter of each ring 6 being equal to the outer diameter of the ammunition, as shown in FIG. 2.

The upper base of the frame 4 is designed to interact with the suspension unit 2, as shown in Fig. 1.

The rings are made of hard plastic by casting, which ensures a lightweight structure, while at the same time having high strength characteristics (Website “Wear-resistant plastics for the manufacture of parts” https://dzen.ru/a/ynwflw6ydzvywhcf), accordingly, the weight of the structure is reduced and its reliability is increased.

The first lock assembly is made in the form of a rectangular plate 7, the length of which is equal to the diameter of the ring 6. The receiving and mating parts of the lock are rigidly fixed to the opposite ends of the plate 7, as shown in Fig. 3. The receiving part 8 has a shape and diameter equal to the shape and diameter of the mating part 9, which allows it to fit tightly into the receiving part without a gap between the side surfaces, as shown in Fig. 4, and provides reliable fixation of the horizontal mounting of the rings.

The counter part of the second lock assembly is made in the form of a vertical rod 10 with a length equal to less than the total thickness of the plate and ring. The receiving part is made in the form of holes. The first hole 11 is made from the bottom of the ring 6 at the attachment point of the second lock assembly. The second receiving part is made on the plate 7 at the attachment point of the first locking unit and is a hole with a body 12 machined inside for the rod 10, with a height equal to the height of the plate 7, as shown in Fig. 3. The diameter of the mating part of the second locking assembly is equal to the diameter of the rod 10. The rod penetrates holes 11 and 12 from top to bottom and secures the rings vertically, as shown in Fig. 5, ensuring high vertical rigidity of the structure and a tight fit of the abutting rings.

Each module contains stiffeners 13, as shown in FIG. 2, and provides greater strength to the structure as a whole. In a specific example, the role of stiffeners is performed by screw rods screwed into holes with internal threads on the plate of the first locking unit on both sides, the diameter of which is equal to the diameter of the rod.

Control unit 3 consists of easily detachable electrical connectors of a standard design (BRO. 364.022 TU) 14, located on the external panel, and electrical circuits for transmitting starting pulses and rotating the launcher, located inside the block.

The assembly of an aviation multi-barrel launcher is carried out sequentially. First, launch guides 1 are assembled, the length of which is determined depending on the size of the ammunition. For the guides, at least three rings 6 are used, each containing two locking units. Rings 6 are attached at a given distance and connected by stiffening ribs 13, as shown in Fig. 2.

Once the assembly of the launch rails is completed, the frame of the launcher is assembled. First, the launch guides 1 are installed in horizontal rows, for which the mating part 9 of the first lock assembly is inserted into the receiving part 8 until it stops, as shown in Fig. 4.

Then the launch guides 1 are installed vertically, placing the lower parts of the second row of guides above the top of the first row with the vertical rod 10 passing through the holes 11 and 12 until it stops, as shown in Fig. 5.

Then install the control unit 3 to the upper row of the frame and attach the lower 5 and upper 4 bases and fix them with a washer and nut. A suspension unit 2 is attached to the upper base 4, as shown in FIG. 6.

The launcher is then loaded with ammunition (with the possibility of electric start) and the electrical wires 15 are connected to the electrical connectors 14, and to maintain the center of gravity of the ammunition, the direction of the shot is placed equally on both sides, as shown in FIG. 7.

The launcher is installed on the aircraft. In flight, as combat impulses pass through, ammunition is launched sequentially. If necessary, unused electrically powered ammunition can be removed from the launch guides by disconnecting them from the electrical connectors 14.

Thus, a multi-barrel aircraft launcher containing a suspension unit, a control unit, launch guides, interconnected in horizontal and vertical rows using two locking units, makes it possible to solve the technical problem of simplifying and lightening the design, as well as reducing the time required for manufacturing and increasing the number of barrels in the launcher in relation to a given amount of ammunition.

Available components for its production and ammunition available in service make it possible to organize its production and use in the shortest possible time without additional costs.

Claims (5)

1. An aviation multi-barrel launcher, consisting of a suspension unit, a control unit, launch guides, characterized in that the launch guides are made in the form of modules interconnected in horizontal and vertical rows and installed in a frame with lower and upper bases, each module consists of at least three coaxially installed rings, equipped with two locking units with mating and receiving parts, fixed to each other at a given distance, with the internal diameter of each ring being equal to the outer diameter of the ammunition, the upper base of the frame is made to interact with the suspension unit. 2. Aviation multi-barrel installation according to claim 1, characterized in that the rings are made by casting from hard plastic. 3. An aviation multi-barrel installation according to claim 1, characterized in that the first locking assembly of the ring is made in the form of rectangular plates, while the length of the plate is equal to the diameter of the ring, the mating and receiving parts are rigidly fixed to the opposite ends of the plate. 4. An aviation multi-barrel installation according to claim 1, characterized in that the mating part of the second locking unit is made in the form of a vertical rod fixed at the attachment point of the second locking unit, with a length equal to less than the total thickness of the plate and ring, and the mating part is in in the form of a hole at the attachment point with a plate of the first locking unit with a diameter equal to the diameter of the rod. 5. Aviation multi-barrel installation according to claim 3, characterized in that the modules contain stiffeners.