EP3874223A1

EP3874223A1 - Igniter unit and munition

Info

Publication number: EP3874223A1
Application number: EP19780234.1A
Authority: EP
Inventors: Vikorn Kadavanich; Karl-Friedrich Giebel
Original assignee: Rheinmetall Waffe Munition GmbH
Current assignee: Rheinmetall Waffe Munition GmbH
Priority date: 2018-10-30
Filing date: 2019-09-30
Publication date: 2021-09-08
Anticipated expiration: 2039-09-30
Also published as: IL282828A; US20210396500A1; JP7348279B2; EP3874223B1; DE102018127036B4; DE102018127036A1; WO2020088865A1; JP2022506211A; PL3874223T3; KR20210084573A; US11460277B2; KR102587163B1

Abstract

The invention relates to an igniter unit (1) for a munition (100), comprising a housing (10) and at least one pyrotechnic charge (20, 22), the igniter unit (1) comprising a control and communication device (40) arranged in the housing (10) and at least one interface (30; 70, 72) connected to the control and communication unit (40) and arranged in the housing (10).

Description

DESCRIPTION

IGNITION UNIT AND AMMUNITION

The invention relates to a detonator unit for ammunition comprising a housing and at least one pyrotechnic charge.

The invention further relates to an ammunition comprising such a detonator unit.

Active charges of ammunition, such as decoys or camouflage bodies, are ignited by detonator units which comprise an impulse cartridge (SQUIB). The pulse cartridges are pyrotechnic charges that cause the sleeve to be ejected. If the ammunition is, for example, decoys or camouflage bodies, the pyrotechnically active components (active charges) of the decoy or camouflage body are also ignited to form an apparent target. Typically, the SQUIBS are controlled by a defined current of e.g. 4A ignited. The function and design of the SQUIBs and the detonator units are standardized in a wide range to ensure interoperability. Ammunition case and detonator unit form one unit. After the active charge has been fired, the detonator unit with the ammunition case remains in the dispenser system, for example in a launcher or a launcher system.

Detonator units for camouflage and decoy bodies are known for example from US 5,631, 439 A and from US 201 1/0146483 A1.

In the case of camouflage and decoy ammunition, their outer shape is internationally standardized so that different active charges that have the same sleeve cannot be distinguished in a dispenser system once they have been loaded. There is therefore a considerable risk of loading false or otherwise ineffective camouflage or decoy bodies. In the worst case, this can lead to the triggering of an apparent target that is not effective for the current threat, but also to malfunctions due to overlay or to long long times. If the detonator units, together with the ammunition intended for firing, in which they are installed, are loaded in the dispenser, there is none other than a manual check

Possibility more to understand what kind of ammunition is loaded in the dispenser or how old the loaded ammunition is. For this reason there are international ones

Efforts to create a standardized system for data exchange between ammunition and dispenser.

Proceeding from this, the object of the invention is to create a possibility for data transfer between dispenser and loaded ammunition, which enables identification of the ammunition loaded in a dispenser.

This object is solved by the features of claim 1. Furthermore, this object is achieved by the features of claim 10. Advantageous refinements and developments are the subject of the respective subclaims.

According to the invention, an igniter unit for ammunition is created which comprises a housing and at least one pyrotechnic charge, the igniter unit comprising a control and communication device arranged on or in the housing and at least one interface arranged in the housing and connected to the control and communication unit having.

Furthermore, according to the invention, ammunition is created which comprises such or, as described below, detonator unit.

The housing is preferably a cup-shaped metal part that has an opening that can be closed by a housing base on one side. The housing is preferably a rotationally symmetrical component. The housing has an interior.

The at least one pyrotechnic charge is preferably a conventional pyrotechnic charge which is contained in an impulse cartridge, such as a so-called SQUIB. The igniter unit can have such a pulse cartridge.

The control and communication device is designed in such a way that it can be used to control and communicate the detonator unit, for example via a dispenser system, such as a launcher or a launcher system. The control and communication device is designed as an electronic component and preferably has at least one chip, which preferably comprises a data memory. Furthermore, the control and communication device can comprise an energy store. Data of the igniter unit, such as parts or lot numbers, can be stored on the control and communication device. Likewise, data relating to ammunition connected to the detonator unit can also be stored or in advance be stored in it. For example, the day of manufacture, the type of ammunition or the active charge, the maximum service life or other ammunition-related data can be stored on the control and communication device and read from it. It is also possible to carry out a function check of the igniter unit via the control and communication device and to check whether it is still functioning properly. In addition, the data in the control and communication device can also be noted on the outside of the ammunition, as has been customary up to now.

The interface is arranged on or within the housing of the igniter unit. All electrical and electronic components important for the ignition, storage and communication are preferably arranged on or within the housing and are protected there against environmental influences. This protection also ensures higher electromagnetic compatibility (EMC), which prevents the electronics, for example of a dispenser, from being disturbed.

According to the invention, it can be a wired or a wireless interface, such as a radio interface.

Furthermore, the detonator unit according to the invention can be integrated into different existing ammunition and can be provided or supplemented with the corresponding ammunition-related data based on the respective active charge.

The inventive integration of the control and communication unit and the interface in the housing of the detonator unit also ensures that no space is lost within the ammunition with existing dimensions for the effective loading of the ammunition.

In addition, simple assembly is provided in the ammunition processing, since all electronic components are installed in the detonator unit and these generally do not differ in terms of their external dimensions from the existing detonator units. There are also cost advantages, since existing igniter units can be supplemented with a control and communication unit and the interface.

The detonator unit according to the invention is preferably designed in such a way that it can also be integrated in a downwards-compatible manner into existing dispenser systems, in particular counter-measure-dispenser systems (CMOS) such as launchers or launcher systems. The igniter unit is preferably designed such that it corresponds to the mechanical as well as the electrical conditions of existing dispenser systems. In an advantageous development of the igniter unit, it can be provided that the igniter unit has a printed circuit board, the printed circuit board being electrically connected to the interface, the control and communication device and the at least one pyrotechnic charge. The interface represents a positive pole. In a preferred embodiment of the igniter unit, it can be provided that the printed circuit board is electrically connected to the housing. The housing can be the mass (negative pole).

This ensures that the circuit board is designed as a central element to which the further electrical and electronic components are connected. This eliminates the need for complex and complicated wiring.

The control and communication device can preferably be formed on the printed circuit board.

In an embodiment of the igniter unit, it can be provided that the interface is a wired interface. It is therefore an interface that represents an electrical connection in the sense of a galvanic connection. The interface is preferably designed to form a galvanic connection between the interface and the dispenser. Against this background, a galvanic connection is a connection via electrically conductive material.

The interface can preferably be an ignition contact. In an advantageous further development, the invention enables the interface to act both as an interface for the control and communication device and as an ignition contact of the igniter unit.

In an advantageous development of the igniter unit, it can be provided that the igniter unit further comprises a zener diode connected to the printed circuit board, which is connected to the printed circuit board, the control and communication device and the at least one pyrotechnic charge such that a communication link between a breakdown voltage of the zener diode the interface and the control and communication device is designed. This defines a LOW side that can be controlled via a voltage below the breakdown voltage. The control and communication device can thus be controlled with a voltage below the breakdown voltage. This voltage can also be used to communicate with the control and communication device below the breakdown voltage. The zener diode is preferably connected in series. It can further be provided that the communication connection is designed as a bidirectional single-wire connection and the control and communication device can be operated in a single-wire communication mode below the breakdown voltage of the Zener diode.

Operation below the breakdown voltage creates a LOW side for communication with the control and communication device via the interface, which enables communication with the control and communication device without influencing an ignition on a HIGH side.

The Zener diode connected to the circuit board is preferably connected to the circuit board, the control and communication device and the at least one pyrotechnic charge such that an ignition connection is formed between the interface and the at least one pyrotechnic charge above the breakdown voltage of the Zener diode.

According to an advantageous development, the interface thus forms an ignition contact and a control and communication connection.

Furthermore, it can be provided that the control and communication device, printed circuit board, the Zener diode and at least part of the at least one pyrotechnic charge are encapsulated in the housing by a housing base. The components arranged in the housing are encapsulated in a water- and dust-tight manner against environmental influences. For this purpose, the igniter unit comprises, for example, at least one seal and / or is sealed with potting compound at the points to be sealed.

In an advantageous embodiment, the igniter unit can have additional contacts as an interface for communication of the control and communication device.

In a further development, the detonator unit can have an additional interface for the effective charging of the ammunition, via which information relevant to the function and effect can be exchanged.

In an advantageous development of the ammunition, it can be provided that the ammunition is a decoy, deflector and / or a camouflage body.

Furthermore, it can be provided that a further control and communication device is arranged in a sleeve of the ammunition, via which the ammunition can communicate with the dispenser. In addition, it is possible for the control and communication device to be formed from more than one component, that is to say, for example, several printed circuit boards.

The invention will be explained below using exemplary embodiments with reference to the drawings.

Show it:

1 a shows a schematic side view of a detonator unit according to the invention for ammunition according to an embodiment of the invention;

1 b shows a schematic bottom view of the igniter unit according to the invention

Fig. 1 a;

Fig. 2 is a schematic plan view of the igniter unit according to the invention

Fig. 1 a;

3 shows a schematic sectional illustration of the igniter unit according to the invention according to FIG. 1 a;

4 shows a schematic sectional illustration of an igniter unit according to the invention in accordance with a further embodiment;

5a shows a schematic side view of an igniter unit according to the invention in accordance with a further embodiment; and

5b shows a schematic bottom view of the igniter unit according to the invention

Fig. 5a.

1 a shows a schematic side view of an embodiment of the igniter unit 1 according to the invention. The igniter unit 1 has a housing 10 and at least one charge and here two pyrotechnic charges 20 22 in the example. This is essentially cylindrical and has a flange on the side opposite the pyrotechnic charges 20, 22.

1 b shows a schematic bottom view of the igniter unit according to the invention from FIG. 1 a. As can be seen from FIG. 1 b, the housing 10 is essentially rotationally symmetrical. The underside of the housing 10 is closed by a housing base 15. The housing base 15 has openings through which the pyrotechnic charges 20, 22 extend. In order to seal the housing base 15 against the pyrotechnic charges 20, 22, seals 16, 17 are arranged in the region of the openings. FIG. 2 shows a schematic top view of the igniter unit 1 according to the invention from FIG. 1a. On the top of the housing, a label 12 and a lot number 13 are arranged. An interface 30 is arranged in the middle of the upper side of the housing 10.

3 shows a schematic sectional illustration of the igniter unit 1 according to the invention. As already discussed above, the igniter unit 1 has both a housing 10 and at least one pyrotechnic charge 20, 22. In addition, the igniter unit 1 comprises a control and communication device 40 arranged in the housing 10 and at least one interface 30 arranged in the housing 10 and connected to the control and communication unit 40. The control and communication device can be formed from one or more structural units, such as printed circuit boards.

In the area of the interface 30, the housing 10 has an opening so that the interface 30 can be contacted from outside the igniter unit 1.

The igniter unit 1 also has a printed circuit board 50. The circuit board 50 is connected to the interface 30. This forms a positive pole. Furthermore, the lyre plate 50 is connected to the housing 10. The housing 10 represents the mass and forms a negative pole. For this purpose, the housing is correspondingly coupled to the ammunition and provided in a dispenser. Furthermore, the pyrotechnic charges 20, 22 are each electrically connected to the printed circuit board 50.

The control and communication unit 40 is electrically connected to the circuit board 50. Control and communication device 40 is designed such that control and communication of the igniter unit 1 is possible, for example, via a dispenser system, such as a launcher or a launcher system. The control and communication device 40 is designed as an electronic component and has at least one chip. Furthermore, the control and communication device 40 can comprise an energy store. At least data of the detonator unit 1 and possibly additionally of an ammunition connected to the detonator unit 1 are stored on the control and communication device 40.

The interface 30 is a wired interface and forms an ignition contact for the igniter unit.

The igniter unit 1 comprises a zener diode 60 connected to the circuit board 50. The zener diode is connected to the circuit board 50, the control and communication device 40 and the pyrotechnic charges 20, 22 in such a way that a breakdown voltage of the zener diode 60 establishes a communication connection between the interface 30 and the control and communication device 40 is formed. This communication connection is designed as a bidirectional single-wire connection. Below the breakdown voltage of the Zener diode 60, the control and communication device 40 can be operated in a single-wire communication mode.

An ignition connection between the ignition contact 30 and the pyrotechnic charges 20, 22 is formed above the breakdown voltage of the Zener diode 60.

The control and communication device 40, the printed circuit board 50, the zener diode 60 and at least some of the two pyrotechnic charges 20, 22 are encapsulated in the housing 10 by a housing base 15.

In order to seal the interior of the housing 10, seals 16, 17 can be arranged in the region of the housing base 15 around the pyrotechnic charges 20, 22.

As shown in FIG. 3, the zener diode 60 is arranged between the circuit board 50 and the housing base 15. The control and communication device 40 is arranged on the other side of the circuit board. However, it is equally conceivable that this arrangement is reversed. It is also possible for the control and communication device 40 to be integrated on the printed circuit board 15. In the same way, however, it is also possible for it to be distributed over several structural units such as printed circuit boards.

FIG. 4 shows a modified embodiment of the igniter unit, which is based on the igniter unit according to FIGS. 1a - 3. In this case, the igniter unit 1 has, as an interface 30, contacts (interfaces) 70, 72 in addition to the ignition contact to form a control and communication connection with the control and communication device 40. The housing 10 has additional openings in the region of the contacts 70, 72 in order to be able to contact them.

FIGS. 5a and 5b show a further modified embodiment of the igniter unit 1, which is based on an igniter unit according to FIGS. 1a-4. According to FIGS. 5a and 5b, the detonator unit 1 has an additional interface 80 for the effective loading of the ammunition, with information relevant to function and effect being exchangeable via the additional interface 80. REFERENCE SIGN LIST

Igniter unit

casing

labeling

Lot number

Case back

, 17 seal

, 22 pyrotechnic charge

interface

electrical line connection

Control and communication device

Circuit board

Zener diode

contacts

additional interface

Claims

PATENT CLAIMS

1. Detonator unit (1) for ammunition (100), comprising a housing (10) and at least one pyrotechnic charge (20, 22), characterized in that the detonator unit (1) is a control and communication device arranged in the housing (10) (40) and at least one interface (30; 70, 72) arranged on or in the housing (10) and connected to the control and communication unit (40).

2. igniter unit (1) according to claim 1, characterized in that the igniter unit (1) has a circuit board (50), the circuit board (50) with the interface (30, 31, 32), the control and communication device (40 ) and the at least one pyrotechnic charge (20, 22) is in each case electrically connected.

3. igniter unit (1) according to any one of the preceding claims, characterized in that, the interface (30) is a wired interface.

4. igniter unit (1) according to any one of the preceding claims, characterized in that, the interface (30) is an ignition contact.

5. igniter unit (1) according to one of claims 2 to 4, characterized in that the igniter unit (1) further comprises a Zener diode (60) connected to the printed circuit board (50), which in this way with the printed circuit board (50), the control and communication device (40) and the at least one pyrotechnic charge (20, 22) is connected such that a communication link is formed between the interface (30) and the control and communication device (40) below a breakdown voltage of the zener diode (60).

6. igniter unit (1) according to any one of the preceding claims, characterized in that the communication connection is designed as a bidirectional single-wire connection and below the breakdown voltage of the zener diode (60), the control and communication device (40) can be operated in a single-wire communication mode.

7. igniter unit (1) according to any one of the preceding claims, characterized in that the igniter unit (1) further comprises a Zener diode (60) connected to the circuit board (50), which in this way with the circuit board (50), the control and communication device (40) and the at least one pyrotechnic charge (20, 22) is connected that above one

Breakdown voltage of the Zener diode (60) an ignition connection between the ignition contact (30) and the at least one pyrotechnic charge (20, 22) is formed.

8. igniter unit (1) according to any one of the preceding claims, characterized in that the control and communication device (40), circuit board (50), the Zener diode (60) and at least part of the at least one pyrotechnic charge (20, 22) in the housing (10) are encapsulated by a housing base (15).

9. igniter unit (1) according to any one of the preceding claims, characterized in that the igniter unit (1) as an interface has additional contacts (70, 72) for communication of the control and communication device (40).

10. Detonator unit (1) according to one of the preceding claims, characterized in that the detonator unit (1) has an additional interface (80) for the effective loading of the ammunition, via the function and effect-relevant information can be exchanged.

11. Ammunition comprising a detonator unit (1) according to one of claims 1 to 9.

12. Ammunition according to claim 10, characterized in that the ammunition is a decoy, deflector or camouflage body.