TR202009608A1 - NOZZLE PROTECTION SYSTEM FOR ROCKET PROTECTED AMMUNITION - Google Patents

Abstract

NOZZLE PROTECTION SYSTEM FOR ROCKET PROPOSED AMMUNITION The invention includes an adapter body (10) that limits an opening (16) centered on a thrust axis (x) and can be attached to a rocket nozzle (1) from the inside, with a connection interface (11) it has; a cover (60) mounted to the adapter body (10) from an outer part, covering the hole (64) in a guard position; an adjacent decompression chamber (24) with a trigger-activated detonator chamber (22) facing a front wall (66) of the closure (60) by firing from a peripheral terminal (28) to a distal end (12) of the adapter body (10). It is a nozzle protection system for rocket-propelled ammunition comprising a detachably fixed sleeve (20). The nozzle protection system also includes at least one hinge device (50) equipped with a hinge device (50) which is positioned blockingly in front of the hole (64) of the cover (60) in its protection position and which is retractably rotated from the front of the hole (64) in an open position when the sleeve (20) is separated. revolving curtain (30, 40).

Description

DESCRIPTION NOZZLE PROTECTION SYSTEM FOR ROCKET PROTECTED AMMUNITION TECHNICAL FIELD The present invention is for the protection of rocket propelled ammunition launched using high pressure gas. relates to systems incorporating a protection cover, in particular the nozzle protection system, KNOWN STATE OF THE TECHNIQUE Guided or unguided ammunition that provides thrust using a rocket engine It is enabled to be launched from barrel-like structures with preliminary propulsion systems. This ammunition is taken to the field by an infantryman/operator and rifles and similar systems are It is launched using . High pressure explosion caused by the burning of gunpowder and similar explosives. It is possible to launch ammunition from the barrel with gases. However, ammunition destructive force created by the burning gases of a propulsion system and its nozzle positioned behind must be protected from adverse effects. If before firing to protect the propulsion system As a result of the gases it produces, this cover gains high speed and if it hits the infantry/user If hit, it may cause damage to the infantryman/user.

Release EP129729281 from the launching weapon, e.g. cartridge etc. applied to missiles fired with and in which the gases produced in the barrel are used for an active additional function during the launch phase. explains the method. In the first stage of the ejection barrel, the sleeve is located inside the barrel. wing unit, with wings behind the rear axis of the hive, wing unit positioning It is pushed back axially according to the direction of flight towards its position.

BRIEF DESCRIPTION OF THE INVENTION The purpose of the invention is to provide thrust for a rocket propellant ammunition launched using high pressure gas. A nozzle protection system is obtained that eliminates the risk of damage to the system and the operator. is to be done.

In order to achieve the mentioned objectives, the invention is a system that limits an opening centered on a thrust axis and It has a structure that can be attached to a rocket launcher from the inside with a connection interface. adapter body; adapter from the outside, covering the hole in a protective position a cover mounted on its body; a trigger-activated explosive chamber and an adjacent adapter from a peripheral connection end with the pressure chamber facing a front wall of the cover. rocket propellant comprising a casing separably fixed by firing at a distal end of the body Includes nozzle protection system for ammunition. The bowl protection system also ensures that the lid It is placed in front of the hole in the protection position, blocking it, and when the hive is separated, a A hinge assembly that adjusts to be pulled out of the way of the hole in the open position It includes at least one equipped rotating curtain. Explosive chamber with trigger in the sleeve The high pressure created in the pressure chamber is transmitted to the rocket nozzle by the front wall of the cap. It is blocked before reaching the adapter opening and is placed behind the cover inside the barrel. It is possible to use the resulting pressure to launch the rocket from the barrel without damaging the nozzle. is happening. After the launch, the sleeve is separated from the adapter, leaving the back part of the cap empty. is removed and the nozzle is removed by turning the rotating curtain on the hinge assembly, releasing it. It allows access to the opening. Thus, when the rocket's flight engine is activated It ensures that the cover does not block the thrust by pulling the curtain.

In a preferred embodiment of the invention, the hinge assembly is attached to the rotating curtain on its front wall. It contains a pin that is adapted vertically and extends towards the adapter body. Pin, It allows the rotating curtain to move parallel to the front wall. Thus, compact A cover is provided.

In a preferred embodiment of the invention, the rotating curtain has an outward-facing retaining edge, Immobilize the hinge assembly to a cylindrical connection extension extending to the connection end of the sleeve. It is based on locks. In this way, the one connected to the hive in the protection position The cover on the adapter body has a connection in the inner chamber limited by the sleeve connection extension. It is ensured that it remains motionless on the hinge assembly by relying on its extension from the inside.

In a preferred embodiment, the hinge assembly moves the rotating curtain radially outwards. It has been difficult to adapt. Thus, while inside the hive, it relies on the connection extension. Since the curtain movement is blocked, it remains motionless, and in case the bucket separates, being moved radially outwards by the hinge assembly and withdrawn from the front of the opening is provided. In a preferred embodiment, the hinge assembly has an installed spring and the curtain It is constantly forced into radial outward motion.

In a preferred embodiment of the invention, the rotating curtain rotates in a radial direction relative to each other. The opening that allows access to the opening has a segmented structure. Pieced construction, lighter curtain parts It enables the use of small springs in the hinge assembly and has a compact structure. It provides.

In a preferred embodiment of the invention, the center of the cover is provided on the thrust axis and a rear wall extending surrounding a hole accessing the opening and engaging the adapter body Contains. The rear wall provides sufficient space for the cover to fit onto the adapter part. It provides. Additionally, the hinge assembly should move towards the rear wall on the cover. Installation is provided with.

In a preferred embodiment of the invention, a corresponding outer edge of the rotating curtain is open. position, it is aligned with the outer periphery of the anterior wall. In this way, after launch The revolving curtain crosses the front wall boundary in a way that obstructs the launch direction. is blocked.

In a preferred embodiment of the invention, the rotating curtain moves radially outward on the front wall. A corresponding device is positioned close to the outer edge of the anterior wall, limiting its movement. Includes retaining protrusion. The retaining protrusion allows the hinge assembly to move the curtain radially outwards. In the configuration that forces the curtain to move, the front wall is placed in a way that prevents the curtain from moving forward. It moves the curtain in a limited angular position in the radial direction, preventing it from exceeding its alignment. It forces.

A preferred embodiment of the invention is to fix the cover to the adapter body on the front wall. Includes a mounting screw provided. The mounting screw allows the cover to be easily removed from the front wall. It allows it to be mounted to the adapter body in an accessible manner.

In a preferred embodiment of the invention, the adapter body is located on the thrust axis of the cover and the sleeve. It is coaxially aligned and its outer peripheries together form a cylindrical structure. It has equal diameter. In this way, it is fixed at the rear of a rocket in accordance with its body diameter. This prevents it from adversely affecting flight dynamics.

BRIEF DESCRIPTION OF THE FIGURES Figure 1 shows a nozzle protection system adapted to the nozzle portion of a rocket-propelled munition. is a cross-sectional representation of a representative structure.

Figure 2 is a perspective view of the water protection system of the invention on the water side.

Figure 3 is a representative view of the nozzle protection system with the lid closed before launch. It is a perspective representation of the structure.

Figure 4 is a representative view of the configuration shown in Figure 3 with the lid open after launch. It is a perspective representation of the structure.

DETAILED DESCRIPTION OF THE INVENTION In this detailed explanation, the development of the subject of the invention is described without any restrictions and It is explained with references to examples only to explain the subject better.

A representative application of a nozzle protection system is shown in cross section in Figure 1.

The nozzle (1) provides thrust on a central thrust axis (x) at the rear end of the missile (not shown). is located. An adapter body (10) in a bracelet structure has a hollow cylindrical outer wall (13). A large circular opening (16) is provided on the inside of the nozzle (1) through which the thrust reaches the nozzle (1). It is limiting. A connection interface in the form of a screw thread on the inside surrounding the opening (18) (11) has been formed. The connection interface (11) is connected to the adapter body (10) from one end proximal to the nozzle (1). It allows connection. Disk at one end (12) of the adapter body (10) A sleeve (20) is adapted from a connection end (28) with tight fit at the periphery. Connection The tip (28) tightly surrounds the far end (12) from the outside. Case (20) is a standard ammunition It has a barrel structure and has a circular planar front wall (25) that triggers the trigger when placed in the barrel. (not shown) is facing outwards. Thrust axis (x) at the center of the front wall (25) There is an explosive chamber (22) extending inwards, coaxially with the . In the explosive chamber There is (22) gunpowder. There is a rear wall around the explosive chamber (22) opposite to the front wall (25). a pressure chamber (24) facing the wall (26) with an external cylindrical connection extension (27) It is limited. At the other end of the pressure chamber (24) facing the rear wall (26) at a distance There is a cover (60). The cover (60) is surrounded by the connection extension (27) of the sleeve (20). to the far end (12) of the adapter body (10), blocking the pressure chamber (24) from one end. has been mounted. The cover (60) has a bracelet-like structure and is aligned with the thrust axis (x) in the middle. There is an axial hole (64). The hole (64) is connected to the opening (16) and a rotating curtain. It is covered by a curtain mechanism comprising (30) and a second equivalent rotating curtain (40).

In this way, the hole (64) is separated from the pressure chamber (24) with the help of the rotating curtain (30, 40).

A hinge device (50) rotates the curtains (30, 40) onto the cover (60). It articulates. To ensure this, there is a provision for the rotating curtain (30) in the hinge assembly. There is a second pin (53) corresponding to the corresponding pin (52) and the second rotating curtain (40).

The pins (52, 53) are in the form of screws and they connect the rotating curtains (30, 40) from their front ends to the corresponding pins. While the rotary joints are attached to the front wall (66) from the near ends (32, 42), they are attached to a part of the cover (60) from the rear ends. extending towards the rear wall (68) and connecting to the first and second hole (14, 15) on the adapter body (10). is passing. Pin (52) and second pin (53) with a corresponding spring (54) and auxiliary spring (55) It was installed by pre-loading. Thus, the pins (52, 53) are articulated by rotating radially. It forces the rotating curtain (30) and the second rotating curtain (40) to radial rotation in the opposite direction to each other.

In Figure 2, the adapter body (10) is shown in perspective by (1). Bracelet There is an opening (16) in the middle of the adapter body (10) in its structure, with a narrow diameter hole (64). is reaching. The hole (64) corresponds to the rotating curtains (30, 40) located on the other front wall (66). It is covered with the coming parts. In Figure 2, the second rotating curtain (40) corresponds to the hole (64). The coming internal extension (43) can be seen. The connection extension (27) of the bucket (20) connects both the pressure chamber and (24) extends to include the cover (60) and extends from the circular connection end (28). It sits on the wall (13). The nozzle guard configured in this way as a kit with sleeve (20) The system is connected to the device (1) through the connection interface (11).

In Figure 3, the cover (60) has a protection from the front wall (66) facing the pressure chamber (24). It is shown in perspective in its position. The rotating curtain (30) and the second rotating curtain (40) are pin (52) and second pin (52) of the hinge assembly (50), which is adapted radially aligned to the edge, respectively. It is adapted to the front wall (66) with a rotary joint using its pin (53). Rotating curtain (30) and The second rotating curtain (40) is two pieces similar to each other and in mirror symmetry. Rotating curtain (30) one It has a circular joint slot (36) at its distal end (38). At the far end (38) the front wall (66) It has an aligned holding edge (37) that has a curvature compatible with the outer diameter (66). Other On the side, it has an elongated semicircular-like proximal end (32) with a gradually tapering interior. The extension (33) is included. An outer edge with a slot on the outside (39) It extends. Similarly, in mirror symmetry, the rotating curtain (30) is attached from its inner edge (31). The second rotating curtain (40) having an opposing inner edge (41) located at a distal end (48) It rotates to the front wall (66) with a second pin (53) that passes into a circular joint slot (46) where It is articulated. Having a curvature compatible with the outer diameter (66) of the front wall (66) at the far end (48). It has an aligned holding edge (47). On the other hand, an elongated semicircular close There is an internal extension (43) at the tip (42) that gradually tapers on the inside. On the outside there is a An outer edge (49) with a slot extends. In the guard position shown in Figure 3 The rotating curtain (30) and the second rotating curtain (40) extend on the same axis. In this situation, The mutual internal extensions (33, 43) overlap each other and cover the hole (64) in a blocking manner. 53) is forced to rotate radially outward.

In Figure 4, the cover (60) is shown in an open position. In this case, the rotating curtain (30) and The second rotating curtain (40) is mounted in a radially opposite direction to each other with the help of the hinge device (50). are rotated and moved away from each other. The curtains (30, 40) are removed from their corresponding outer edges. (39, 49) on the front wall (66), respectively, the retaining protrusion (63) and the second wall extending close to the outer periphery. The holder is stopped by leaning on the protrusion (66). Curtain (30) due to spring (54) force The holder is constantly leaning on the protrusion (63). In this case, the internal extensions (33, 43) fit into the hole (64). The tangent extends. The hole (64) is opened and the impulse coming from the nozzle is allowed to pass through the cover (60). is given.

During the operation. The missile is placed in a barrel in a guard position. This Meanwhile, the retaining edges (37, 47) in contact with the inner wall of the connection extension (27) It prevents the movement of the incoming rotating curtain (30, 40). Cover (60) in protection position Access to the hole (64) is prevented by curtains (30, 40). By releasing the trigger, the explosive in the explosive chamber (22) gunpowder is exploded and high pressure is created in the pressure chamber (24). Connection The tip (28) broke off and the adapter body (10) and the nozzle (1) and its cap (60) were pulled out of the sleeve (20). is taking. In this case, the curtain (30) and the front curtain (40) are freed from the sleeve (20). The retaining edges (37, 47) are released at the exit from the barrel. Rotating curtain (30) and The second rotating curtain (40) is open by rotating on the axis of the corresponding pin (52) and the second pin (53). moves into position. Thus, immediately before ejection from the barrel by explosion in the sleeve (20) Then the hole (64) is opened and the opening (16) remains empty and the obstacle in front of the pipe exit is removed. is being removed. When the rocket engine is activated, the gases at the nozzle exit pass through the opening (16). It is possible to take it out.

REFERENCE NUMBERS 1 Nozzle 40 Second rotating curtain 11 Connection interface 42 Close end 12 Distal end 43 Internal extension 13 External wall 46 Joint housing 14 First hole 47 Holding edge Second hole 48 Far end 16 Angle 49 Outside edge Sleeve 50 Hinge assembly 22 Explosive chambers 24 pressure chambers front wall 26 Rear wall 2? Link extension 28 Terminals revolving curtain 52 Pins 53 Second pin 54 Sagittarius 55 Auxiliary spring 60 Covers 61 Periphery 62 mouth 31 Inner edge 32 Close end 33 Internal extension 36 Joint slots 37 Holding edge 38 Far end 39 Outside edge 63 Retainer protrusion 64 Holes 65 Second retaining protrusion 66 Front wall 67 Mounting screw 68 Rear wall

Claims (1)

CLAIMS An adapter body (10) that limits an opening (16) centered on a thrust axis (x) and has a connection interface (11) that can be attached to a rocket nozzle (1) from the inside; a cover (60) mounted on the adapter body (10) from an external side, covering the hole (64) in a protective position; A trigger-activated explosive chamber (22) and an adjacent pressure chamber (24) facing a front wall (66) of the cover (60) are connected by firing from a peripheral connection end (28) to a remote end (12) of the adapter body (10). It is a nozzle protection system for rocket propelled ammunition containing a separably fixed casing (20), and its feature is that the cap (60) is placed in the protection position in a way that blocks it in front of the hole (64), and when the casing (20) is separated, it is withdrawn from the front of the hole (64) in an open position. It consists of at least one rotating curtain (30, 40) equipped with a pivoting hinge device (50). It is a nozzle protection system in accordance with claim 1, and its feature is that the hinge assembly (50) contains a pin (52, 53) that is adapted vertically to the rotating curtain (30, 40) on its front wall (66) and extends towards the adapter body (10). . It is a nozzle protection system in accordance with any of the previous claims and is characterized by its reliance on a cylindrical connection extension (27) extending to the rotating end (28) in a way that locks the hinge assembly (50) motionlessly. It is a nozzle protection system in accordance with any of the previous claims and is characterized by the fact that the revolving curtain (30, 40) has a structure with opening parts that rotate in the radial direction relative to each other and allow access to the opening (16). It is a nozzle protection system in accordance with any of the previous claims, and is characterized by a rear wall (68) that extends surrounding a hole (64) provided in the central thrust axis (x) of the cap (60) and reaches the opening (16) and passes into the adapter body (10). It contains. It is a nozzle protection system in accordance with any of the previous claims and is characterized in that a corresponding outer edge (39, 49) of the revolving curtain (30, 40) is set in the open position aligned with the outer periphery of the front wall (66). It is a nozzle protection system in accordance with any of the previous claims, and its feature is that it includes a corresponding retaining protrusion (63, 65) positioned close to the outer edge of the front wall (66) in a way that limits the radial outward movement of the rotating curtain (30, 40) on the front wall (66). . 8- It is a pipe protection system in accordance with any of the previous claims, and its feature is that it contains a mounting screw (67) provided on the front wall (66) to fix the cover (60) to the adapter body (10). 9- It is a pipe protection system in accordance with any of the previous claims, and its feature is that the adapter body (10), the cover (60) and the sleeve (20) are coaxially aligned on the thrust axis and their outer peripheries have essentially equal diameters, forming a cylindrical structure together.