CZ36418U1 - Ammunition assembly for drones - Google Patents

Description

Ammunition assembly for drones

Field of technology

The technical solution refers to the field of construction of a set of special ammunition for self-destructing drones. Ammunition according to the technical solution is intended both for shooting training and for practical use during combat deployment.

Current state of the art

A large number of munitions for use in combat deployment, including rockets and bombs, are known, but in the field of using a special solution, there are very few munitions that can be used in drones, especially drones that self-destruct when used.

As a rule, a combination of a drone and established ammunition is used (e.g. mortar shells, hand grenades, etc., which are somehow attached to the drone and are transported by it to the designated place (e.g. in the Czech Republic this solution is protected by a utility model, author Svachouček).

In principle, it is therefore a new means of combat, several solutions for combat drones are known, but at least the principles of ammunition.

The goal of the technical solution is to design and solve the construction of a set of ammunition suitable for use in drones, not just one type, but a set of ammunition, where the suitability of use is decided by the drone operator with regard to combat activity. Ammunition must be suitable for use in drones and for carrying out combat activities, it must be efficiently manufactured, using appropriate materials and technologies, while maintaining safety during transport and handling and full functionality during combat deployment.

The essence of the technical solution

The subject of the technical solution is a set of ammunition (cumulative, HE (high explosive), HE with increased effect on the target, incendiary, chemical, smoke, etc.) in calibers from 50 mm to 150 mm, for training and combat deployment.

The ammunition is marked on the body in accordance with STANAG standards, including the appropriate color stripe around the body.

Specifically, the subject of the presented solution is an assembly of ammunition for combat, self-destructing drones, which can be stored in the front part of the drone, and which includes a warhead with a jacket, the upper part of which is equipped with a head igniter of the ammunition and in the lower part is equipped with a bottom ignition element with an initiator and with a burner providing the possibility of self-destruction on command from the operator. The burner is preferably connected to the initiator by means of a blow-through channel. The head igniter is mechanical with its own initiation system, or it is a piezo igniter.

In the first version (see pictures 1 to 4), the firing charge and the explosive charge are inserted into the casing, while the initiator is the detonator.

In the second embodiment (see figure 5), a pyrotechnic ignition component and a smoke-blocking component are inserted into the casing, while the initiator is the igniter.

The detonator can preferably be initiated from both sides.

-1 CZ 36418 UI

The explosive charge is a plastic explosive based on pentrite (PETN) and/or hexogen (RDX) and/or octogen (HMX), while a plastic segment with steel balls with a diameter of 2.5 to 5.5 mm is preferably inserted along the explosive charge , which is separated from the explosive charge itself by a pipe.

In the lower part of the casing, at least four openings for the exit of smoke can be created, in the case of using a smoke-proof composition.

The ammunition assembly is advantageously completed with a blow-through tube adjusted between the head igniter and the firing charge, or between the head igniter and the pyrotechnic ignition component. The blast tube is also equipped with a separating disk with at least two holes, and this disk is placed between the firing charge and the explosive charge, or between the pyrotechnic ignition component and the smoke detector component.

Clarification of drawings

Fig. 1 shows 70 mm caliber ammunition with a cumulative effect for destroying armored vehicles such as tanks, tankers, BVP, self-propelled howitzers, etc.

Fig. 2 shows ammunition filled with high explosive, suitable for destroying light armored vehicles, machine gun nests, troops in trenches, troop headquarters, convoys of vehicles, etc.

Fig. 3 shows ammunition filled with explosive thermobaric explosive, suitable for destroying light armored vehicles, machine gun nests, troops in trenches, troop headquarters, convoys of vehicles, etc.

Fig. 4 shows ammunition filled with explosive plastic explosives with an increased fragmentation effect on the surroundings, suitable for destroying machine gun nests, troops in trenches, troop headquarters, etc.

Fig. 5 shows ammunition filled with a smokeless substance, suitable for obscuring a place of interest or a target, etc.

Examples of implementing a technical solution

Example 1

The 70 mm ammunition, which is shown in Fig. 1, has a warhead with a jacket 1 made of duralumin. In the production process, a high explosive molding is inserted into the shell 1 - the starting charge 5 and then a molding made of high explosive based on RDX (hexogen) - explosive filling 11. which is supplemented with a conical molding made of Cu material - cumulative insert 10. Assembly of the body filled in this way it is covered by a lid 8, which is made of duralumin and in the front part is equipped with a head igniter 7 of the ammunition, which contains its own ignition initiation system, which can advantageously also be a piezo igniter. In the lower part, the body is further equipped with a nut 3, which is equipped with a penetration channel 4, which connects the electric fuse 2 with a bilaterally initiated detonator 6. The nut 3 is attached to the ammunition body with a screw 24. By a suitable combination of the material of the shell, its thickness, the shape of the cumulative insert and subsequently, the shape and length of the ammunition can achieve the required properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantages of production.

Description of the function: when hitting the target, the initiation element in the head igniter 7 is initiated, and its output - detonation fumes and shock wave initiates the detonator 6 in the bottom ignition device. The detonator 6 initiates the action charge 5 and then the main explosive charge 11 of the ammunition, which generates a cumulative beam that destroys the object of interest.

-2 CZ 36418 UI

The bottom ignition element - a device that contains its own detonator 6, is inserted into the ammunition assembly after the ammunition has been stored and fixed in the drone, when the wires of the burner 2 are then connected to the drone's circuit. If the operator misses the target, he has the option to activate the electric torch 2 using the remote control, which subsequently initiates the detonator 6 and the entire drone is destroyed.

Example 2

The 70 mm ammunition shown in Fig. 2 has a jacket 1 made of duralumin. During the production process, a high-explosive molding is inserted into casing 1 - the starting charge 5 and then an RDX (hexogen)-based explosive molding - explosive charge 11, which is supplemented by a blow-through tube 9 made of duralumin. The impact tube 9 is further equipped with a separating disk 18, which is between the explosive charge 5 and the explosive 11, when the disk 18 is equipped with min. through two holes 17 for transferring the detonation from the starting charge 5 to the explosive charge 11 of the ammunition, which is made of plastic explosive based on RDX. The assembly of the body filled in this way is covered by a lid 8, which is made of duralumin and in the front part is equipped with a mechanical or piezo igniter 7 of ammunition, which contains its own ignition initiation system with the output of a shock wave and detonation products (i.e. an igniter without an explosive charge). The output from the head igniter 7 is directed by the casing 21. The body is further equipped in the lower part with a nut 3, which is equipped with a blow-through channel 4, which connects the electric burner 2 with a bilaterally initiated detonator 6. The nut 3 is attached to the ammunition body with a screw 24. A suitable combination material of the jacket, its thickness, shape and composition of the fillings, and consequently the shape and length of the ammunition, it is possible to achieve the required properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantages of production.

Description of the function: when hitting the target, the initiation element in the head igniter 7 is initiated, and its output - detonation fumes and shock wave initiates the detonator 6 in the bottom ignition device. The detonator 6 initiates the action charge 5 and then the main explosive charge 11 of the ammunition, which generates a pressure wave and an increased thermal effect that destroys the object of interest. The bottom ignition element - a device that contains its own detonator, is inserted into the ammunition assembly after the ammunition has been stored and fixed in the drone, when the wires of the burner 2 are subsequently connected to the drone's circuit. If the operator misses the target, he has the option to use the remote control to activate the electric torch 2, which then initiates the detonator and the entire drone is destroyed.

Example 3

The 70 mm ammunition shown in Fig. 3 has a jacket 1 made of duralumin. In the production process, a high-explosive molding is inserted into the jacket 1 - the starting charge 5 and further moldings from a high-explosive thermobaric explosive based on RDX (hexogen), PETN (pentrite) and HMX (octogen) - explosive charge 11, which is supplemented by a blow-through tube 9 from duralumin.

The blast tube 9 is further equipped with a separation disk 18, which is between the action charge 5 and the thermobaric explosive 11. when the disk 18 is equipped with a min. through two holes 17 for transferring the detonation from the firing charge 5 to the thermobaric charge 11 of the ammunition. The assembly of the filled body is covered by a lid 8, which is made of duralumin and in the front part is equipped with a mechanical or piezo igniter 7 of the ammunition, which contains its own ignition initiation system with the output of a shock wave and detonation products (i.e. an igniter without an explosive charge). The output from the head igniter 7 is directed by the casing 21. The body is equipped in the lower part with a nut 3, which is equipped with a blow-through channel 4, which connects the electric burner 2 with a bilaterally initiated detonator 6. The nut 3 is attached to the body of the ammunition with a screw 24. A suitable combination of material shell, its thickness, the shape and composition of the fillings, and consequently the shape and length of the ammunition, it is possible to achieve the desired properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantages of production. Description of the function: when hitting the target, the initiation element in the head igniter 7 is initiated, and its output - detonation fumes and shock wave initiates the detonator 6 in the bottom ignition device. The detonator 6 initiates the action charge 5 and then the main explosive charge 11 of the ammunition, which generates a pressure wave and an increased thermal effect that destroys the object of interest. Bottom fuse - a device that contains its own

-3 CZ 36418 UI detonator 6, is inserted into the ammunition assembly after storing and fixing the ammunition in the drone, when the wires of the detonator 2 are subsequently connected to the circuit of the drone. If the operator misses the target, he has the option to activate the electric torch 2 using the remote control, which subsequently initiates the detonator 6 and the entire drone is destroyed.

Example 4

The 70 mm ammunition shown in Fig. 4 has a jacket 1 made of duralumin. In the production process, a high explosive molding is inserted into the shell 1 - the starting charge 5 and then a molding made of high explosive based on RDX (hexogen) - the explosive charge 11, which is supplemented by a penetration tube 9 made of duralumin. The impact tube 9 is further equipped with a separating disk 18, which is between the explosive charge 5 and the explosive 11, when the disk 18 is equipped with min. through two holes 17 for transferring the detonation from the starting charge 5 to the explosive charge 11 of the ammunition, which is made of plastic explosive based on RDX. A segment made of inert plastic is also inserted into the body of the ammunition, in which steel balls 16 with a diameter of 3.5 mm are inserted, this segment is separated from the explosive charge itself by a tube 23, which is made of plastic or duralumin . The assembly of the filled body is covered by a lid 8, which is made of duralumin and in the front part is equipped with a mechanical or piezo igniter 7 of the ammunition, which contains its own ignition initiation system with the output of a shock wave and detonation products (i.e. an igniter without an explosive charge). The output from the head igniter 7 is directed by the casing 21. The body is equipped in the lower part with a nut 3, which is equipped with a blow-through channel 4, which connects the electric burner 2 with a bilaterally initiated detonator 6. The nut 3 is attached to the body of the ammunition with a screw 24. A suitable combination of material shell, its thickness, the shape and composition of the fillings, and consequently the shape and length of the ammunition, it is possible to achieve the required properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantages of production. Description of function: when hitting the target, the initiation element in the head igniter 7 is initiated, and its output - detonation fumes and shock wave initiate the detonator 6 in the bottom ignition device. The detonator 6 initiates the action charge 5 and then the main explosive charge 11 of the ammunition, which generates a pressure wave and a large content of steel fragments that destroy the object of interest.

The bottom ignition element - a device that contains its own detonator 6, is inserted into the ammunition assembly after the ammunition has been stored and fixed in the drone, when the wires of the burner 2 are subsequently connected to the drone's circuit. If the operator misses the target, he has the option to activate the electric torch 2 using the remote control, which subsequently initiates the detonator 6 and the entire drone is destroyed.

Example 5

The 70 mm ammunition shown in Fig. 4 has a jacket 1 made of duralumin. In the production process, a high explosive molding is inserted into the shell 1 - the starting charge 5 and then a molding made of high explosive based on RDX (hexogen) - the explosive charge 11, which is supplemented by a penetration tube 9 made of duralumin. The impact tube 9 is further equipped with a separating disk 18, which is between the explosive charge 5 and the explosive 11. when the disk 18 is equipped with min. through two holes 17 for transferring the detonation from the starting charge 5 to the explosive charge 11 of the ammunition, which is made of plastic explosive based on RDX. A segment is also inserted into the body of the ammunition, which is made of potting epoxy resin, into which steel balls 16 with a diameter of 5.5 mm are inserted, this segment is separated from the explosive charge itself by a tube 23, which is made of plastic or duralumin . The assembly of the filled body is covered by a lid 8, which is made of duralumin and in the front part is equipped with a mechanical or piezo igniter 7 of the ammunition, which contains its own ignition initiation system with the output of a shock wave and detonation products (i.e. an igniter without an explosive charge). The output from the head igniter 7 is directed by the casing 21. The body is equipped in the lower part with a nut 3, which is equipped with a blow-through channel 4, which connects the electric burner 2 with a bilaterally initiated detonator 6. The nut 3 is attached to the body of the ammunition with a screw 24. A suitable combination of material shell, its thickness, the shape and composition of the filling, and subsequently the shape and length of the ammunition, it is possible to achieve the required properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantages of production. Function description: at

-4 CZ 36418 UI Upon impact with the target, the initiating element in the head igniter 7 is initiated, and its output of detonation fumes and shock wave initiates the detonator 6 in the bottom ignition device. The detonator 6 initiates the action charge 5 and then the main explosive charge 11 of the ammunition, which generates a pressure wave and a large content of steel fragments that destroy the object of interest.

The bottom ignition element - a device that contains its own detonator 6, is inserted into the ammunition assembly after the ammunition has been stored and fixed in the drone, when the wires of the electric torch 2 are subsequently connected to the drone circuit. If the operator misses the target, he has the option to use the remote control to activate the electric torch 2, which then initiates the detonator 6 and the entire drone is destroyed.

Example 6

The 70 mm ammunition shown in Fig. 5 has a jacket 1 made of duralumin. During the production process, a molding of pyrotechnic ignition composition 20 and moldings of smoke composition 13 are inserted into casing 1, which are supplemented by a blow-through tube 9 made of duralumin. The whipping tube 9 is further equipped with a separating disc 18, which is between the ignition layer 20 and the smoke layer 13. when the disc 18 is equipped with min. with two holes 17 for transferring the initiation from the ignition component 20 to the smoke cartridge 13. The assembly of the filled body is covered by a lid 8, which is made of duralumin and in the front part is equipped with a mechanical or piezo igniter 7 of the ammunition, which contains its own ignition initiation system with a flame output ( i.e. a lighter without an explosive charge). The output from the head igniter 7 is directed by the case 21. In the lower part, the body of the ammunition is equipped with min. four openings 22, for the exit of smoke. In the lower part, the body is equipped with a nut 3, which is equipped with a through-hole channel 4, which connects the electric burner 2 with a bilaterally initiated igniter 6. The nut 3 is attached to the body of the ammunition with a screw 24. By a suitable combination of the shell material, its thickness, shape and subsequently even the shape and length of the ammunition, it is possible to achieve the required properties, not only in terms of the functionality and properties of the ammunition, but also the economic advantage of production.

Description of the function: upon hitting the target, the initiation element in the head igniter 7 is initiated, and its output - combustion gases and flame initiate the igniter 19 in the bottom igniter. The igniter 19 ignites the ignition component 20 and then the main smoke cartridge 13 of the ammunition, which generates the required smoke.

The bottom ignition element - a device that contains its own igniter 19, is inserted into the ammunition assembly after the ammunition has been stored and fixed in the drone, when the wires of the burner 2 are subsequently connected to the drone's circuit. If the operator misses the target, he has the option to activate the electric torch 2 by remote control, which subsequently initiates the igniter 19 and the drone is disabled.

Industrial applicability

Ammunition according to the proposed design can be produced on ordinary machinery for the production of ammunition and the processing of pyrotechnic materials, both in the classic way by pressing - high explosives, by compaction - plastic explosives, or using similar technologies.

Claims (11)

PROTECTION CLAIMS 1. Ammunition assembly for combat, self-destructing drones, characterized by the fact that it can be stored in the front part of the drone, and that it includes a warhead with a jacket (1), which is equipped with a head igniter (7) of ammunition in the upper part and in the lower part it is equipped with a bottom ignition element with an initiator (6, 19) and a burner (2) providing the possibility of self-destruction at the command of the operator. 2. Ammunition assembly according to claim 1, characterized in that the burner (2) is connected to the initiator (6, 19) by means of a blow-through channel (4). 3. Ammunition assembly according to claim 1 or 2, characterized in that the head igniter (7) is mechanical with its own initiation system or a piezo igniter. 4. Ammunition assembly according to one of the preceding claims 1 to 3, characterized in that a primer (5) and an explosive charge (11) are inserted into the casing (1), and the initiator is a detonator (6). 5. Ammunition assembly according to one of the preceding claims 1 to 3, characterized in that a pyrotechnic ignition component (20) and a smoke control component (13) are inserted into the casing (1), and the initiator is an igniter (19). 6. Ammunition assembly according to claim 4, characterized in that the detonator (6) can be initiated from both sides. 7. Ammunition assembly according to claim 4 or 6, characterized in that the explosive charge (11) is a plastic explosive based on pentrite (PETN) and/or hexogen (RDX) and/or octogen (HMX). 8. Ammunition assembly according to claim 4 or 6 or 7, characterized in that a segment of plastic material with steel balls (16) with a diameter of 2.5 to 5.5 mm is inserted along the explosive charge (11), which is separated from own explosive charges (11) through the tube (23). 9. Ammunition assembly according to claim 5, characterized in that at least four holes (22) are formed in the lower part of the shell (1) for the exit of smoke. 10. Ammunition assembly according to one of the preceding claims 4 to 9, characterized by the fact that it is supplemented with a blow-through tube (9) arranged between the head igniter (7) and the firing charge (5), or between the head igniter (7) and the pyrotechnic ignition composition (20). 11. Ammunition assembly according to claim 10, characterized in that the impact tube (9) is equipped with a separating disk (18) with at least two holes (17), and this disk (18) is located between the action charge (5) and the explosive charge (11), or between the pyrotechnic ignition layer (20) and the smoke layer (13).