This is a National Phase Application in the United States of International Patent Application No. PCT/EP2006/007377 filed Jul. 26, 2006, which claims priority on German Patent Application No. 10 2005 035 580.3, filed Jul. 29, 2005. The entire disclosures of the above patent applications are hereby incorporated by reference.
The invention relates to a hand grenade with an active body containing an active charge, and with an ignition device that acts on a detonator to ignite the active charge.
Known hand grenades are equipped as a rule with a mechanical ignition system with a set ignition delay time. If the hand grenade is released from the hand after a pin is drawn, the active charge is initiated after about 4 seconds. A variation of this time by the shooter of the hand grenade is not possible.
A predetermined ignition delay time of this type restricts the use of the hand grenades i.a. whenever the tactical situation requires a precise triggering of the hand grenade in accordance with the situation (e.g. in house-to-house fighting). A further disadvantage of the set ignition delay time is the possibility for the opponent to throw back a thrown hand grenade or to take cover.
Furthermore a hand grenade whose safety has been released and that has been released from the hand cannot be secured again, so that the user of the hand grenade is particularly endangered if the hand grenade with a pulled pin falls from his hand and he does not succeed in bringing it out of the danger zone within 4 seconds.
The object of the invention is to disclose a hand grenade in which the ignition is triggered without delay after it has been thrown into an appropriate target area, if the tactical situation requires this. Moreover if the hand grenade is accidentally dropped after the safety is released, no endangerment of the shooter should arise.
This object is achieved according to the invention through the features of a hand grenade with an active body (3) containing an active charge (2) and with an ignition device (4) that acts on a detonator (12) to ignite the active charge (2), wherein: (a) the ignition device (4) is an electronic ignition system composed of an ignition trigger (6) and a fuze (8); (b) the fuze (8) including a first ignition circuit (23) is arranged in the active body (3) and the ignition trigger (6) is arranged in a control part (5) that can be removed from the active body (3) before the hand grenade (1) is thrown and that can remain with the user of the hand grenade (1); and the ignition trigger (6) includes a transmitting device (9) that operates by wireless and the fuze (8) includes a receiving device (10) that interacts with the transmitting device (9), so that after the hand grenade (1) has been thrown into a target area, a carrier signal coded with an ignition code is emitted by the transmitting device (9) by means of an ignition trigger element (11) of the ignition trigger (6), which carrier signal is received by the receiving device (10) of the fuze (8), decoded, and utilized to activate the detonator (12) of the hand grenade (1).
In accordance with a second embodiment of the present invention, the first embodiment is further characterized in that the ignition device (4) includes a code generator (13) that with the aid of a random generator produces an ignition code immediately before or at the detaching of the control part (5), which ignition code is stored both in a code memory (14) of the ignition trigger (6) and in a code memory (15) of the fuze (8) and upon activation of the transmitting device (9), serves to code the carrier signal produced by the transmitting device (9).
In accordance with a third embodiment of the present invention, a hand grenade according to the first or second embodiment is provided wherein the ignition device (4) includes a first switching element (16) that at the detachment of the control part (5) from the active body (3) activates a power supply unit (17) for operating the components of the ignition device (4).
In accordance with a fourth embodiment of the invention, a hand grenade according to any one of the first three embodiments of the invention is further characterized in that the control part (5) containing the ignition trigger (6), and the fuze (8), form a connected unit that is secured by a pin (7) and is not connected to the active body (3) until during the preparation for use of the hand grenade (1), and that a separation of the control part (5) and the fuze (8) situated in the active body (3) is only possible after the pin (7) has been pulled.
In accordance with a fifth embodiment of the present invention, a hand grenade according to any one of the first through fourth embodiments is modified so that a safety element (19) is arranged in the control part (5), which safety element (19) secures the ignition trigger element (11) in a starting position until the control part (5) is detached from the fuze (8).
In accordance with a sixth embodiment of the invention, and grenade according to the fourth or fifth embodiments is further modified so that a curved safety piece (21) pre-tensioned by a spring (20) and able to be secured by the pin (7) is arranged on the active body (3), and that the fuze (8) includes a second switching element (22) that interacts with the curved safety piece (21) in such a way that after removal of the pin (7) and the control part (5), when the active body (3) is thrown the curved safety piece (21) opens and the second switching element (22) closes, so that the receiving device (10) is activated, the first ignition circuit (23) is charged, and a first time-delay circuit (24) is initiated.
In accordance with a seventh embodiment of the invention, a hand grenade according to one of the previous embodiments one through six is characterized in that the fuze (8) includes a compressed gas generator (26) that in the absence of the receipt of a coded ignition signal within a period of time that can be determined by a second time-delay circuit (27), can be activated by a second ignition circuit (26) in such a way that the gas pressure produced is sufficient to expel the fuze (8) from the active body (3).
In accordance with an eighth embodiment of the invention, a hand grenade according to the seventh embodiment is modified so that the second ignition circuit (28) is likewise activated by the second switching element (22).
In accordance with a ninth embodiment of the invention, a hand grenade according to the embodiments one to eight is modified so that the control part (5) is a head part of the hand grenade (1) that can be connected to the fuze (8) via a screw connection.
In accordance with a tenth embodiment of the present invention, a hand grenade according to one of embodiments one to nine is characterized in that the carrier signals for transmitting the ignition code are high-frequency, light-, or sound signals.
In accordance with an eleventh embodiment of the present invention, a hand grenade according to one of the first through tenth embodiments is characterized in that the control part (5) is connected to the fuze (8) via a force-closed connection (25) and/or positive-engagement connection in such a way that even when the pin (7) has been pulled, the curved safety piece (21) cannot be swiveled into a released position, and it is only possible to release the curved safety piece (21) when the control part (5) is removed from the fuze (8).
Thus, the various embodiments two through eleven pertain to further particularly advantageous embodiments of the invention.
The invention is based essentially on the concept of using, as the ignition device, an electronic ignition system composed of an ignition trigger and a fuze, whereby the ignition trigger remains with the shooter as the hand grenade is thrown and the hand grenade can be ignited by wireless only when the shooter activates the ignition trigger.
To this end the ignition trigger includes a transmitting device that operates by wireless, and the fuze arranged in the active body includes a receiving device that interacts with the transmitting device, so that after the hand grenade has been thrown into a target area, a carrier signal coded with an ignition code is emitted by the transmitting device by means of an ignition trigger element of the ignition trigger (e.g. a pushbutton), which carrier signal is received by the receiver of the fuze, decoded, and utilized to activate the detonator of the hand grenade.
In a first form of embodiment of the invention it is provided that the ignition device includes a code generator that with the aid of a random generator produces an ignition code immediately before or only at the detaching of the control part, which ignition code is stored both in a code memory of the ignition trigger and in a code memory of the fuze and upon activation of the transmitting device, serves to code the carrier signal produced by the transmitting device. Only this code then causes a triggering of the fuze.
Both for safety reasons and also for energy-saving reasons, it has proved to be advantageous if the ignition device includes a first switching element that activates a power supply unit for operating the components of the ignition device (e.g. of the code generator) only at the detachment of the control part from the active body.
In a further form of embodiment of the invention, in the transport state the control part containing the ignition trigger, and the fuze form a connected unit that is secured by a pin and is not connected to the active body until during the preparation for use of the hand grenade. A separation of the control part and the fuze situated in the active body is only possible thereby after the pin has been pulled.
For safety reasons it has further proved advantageous if a safety element is arranged in the control part, which safety element secures the ignition trigger element in a starting position until the control part is detached from the active body.
Furthermore it has proved expedient for safety reasons if a curved safety piece pre-tensioned by a spring and able to be secured by the pin is arranged on the active body, and that the fuze includes a second switching element that interacts with the curved safety piece in such a way that after removal of the pin and the control part, when the active body is thrown the curved safety piece opens and the second switching element closes, so that the receiver is activated, the first ignition circuit is charged, and a first time-delay circuit is initiated.
In order to prevent safety problems from developing as soon as the hand grenade is accidentally dropped with the pin pulled, it has further proved to be advantageous if the control part is connected to the fuze via a force-closed connection and/or positive-engagement connection in such a way that even when the pin has been pulled, the curved safety piece cannot be swiveled into a released position. It is only possible to release the curved safety piece when the control part has also been removed from the fuze.
In order to prevent a hand grenade that has not ignited in the target area from being activated accidentally, in a further form of embodiment of the invention it is provided that the fuze includes a compressed gas generator that in the absence of the receipt of a coded ignition signal within a period of time that can be determined by a second time-delay circuit, can be activated by a second ignition circuit in such a way that the gas pressure produced is sufficient to expel the fuze from the active part. The second ignition circuit can likewise be activated by the second switching element thereby.
The carrier signals for transmitting the ignition code can be high frequency-, light-, or sound signals.
The hand grenade according to the invention can be—depending on its type of application and task—a concussion-, fragmentation-, flash-, incendiary-, smoke-, or tear gas grenade.
Further details and advantages of the invention are revealed by the following exemplary embodiments illustrated by figures. They show:
In
The ignition device 4 is composed essentially of an control part 5 forming the head part of the hand grenade 1 and having an electronic ignition trigger 6, and a fuze 8 secured by a pin 7 and connected to the control part 5 e.g. via a screw connection.
The ignition trigger 6 includes a high-frequency transmitting device 9 (
For coding the carrier signal produced by the transmitting device 9, a code generator 13 is arranged in the fuze 8, which code generator 13 with the aid of a random generator (not shown) produces an ignition code immediately before or at the detachment of the control part 5, which ignition code is stored in a code memory 14 of the ignition trigger 6 and also in a code memory 15 of the fuze 8.
Moreover the ignition device 4 includes a first switching element 16 that when the control part 5 is detached from the active body 3, activates a power supply unit 17 to operate the components of the ignition device 4 (e.g. the code memory).
Furthermore a safety element 19 pre-tensioned by a spring 18 is provided in the control part 5, which safety element 19 secures the ignition trigger element 11 in a starting position until the control part 5 is detached from the fuze 8 and thus from the active body 3.
At the fuze 8, a curved safety piece 21 pre-tensioned by a spring 20 and likewise secured by the pin 7 is arranged, which curved safety piece 21 interacts with a second switching element 22 in such a way that after removal of the pin 7 and the control part 5, when the active body 3 is thrown the curved safety piece 21 opens and the second switching element 22 is closed, so that the receiving device 10 is activated, a first ignition circuit 23 is charged, and a first time-delay circuit 24 is initiated.
As can be taken from
As can likewise be taken from
The function-and control sequence of the hand grenade 1 according to the invention is detailed below.
In the transport state, the control part 5 and the fuze 8 of the ignition device 4 form a firmly connected unit. The pin 7 thereby secures both the control part 5 on the fuze 8 and the curved safety piece 21 on the fuze housing 29.
In the preparation for use, the ignition device 4 is then connected to the respectively selected active body 3.
During the subsequent preparation for the normal use of the hand grenade 1, the respective shooter grasps the curved safety piece 21 together with the active body 3 and pulls the pin 7. By these means the safety of the curved safety piece 21 is partially released. However, the curved safety piece 21 in this phase still remains in its position even when the curved piece is released, since an upper part 30 embodied in the shape of a hook is pressed by the spring 20 in a force-closed manner against the floor 31 of a groove-shaped recess of the control part 5.
The shooter now presses the curved safety piece 21 somewhat in the direction of the fuze housing 29 and detaches the control part 5 from the fuze 8 by a short turning movement. This causes the ignition trigger element 11 to be released by the safety element 19 and the power supply unit 17 in the fuze 8 to be activated, so that the ignition trigger code is generated by the code generator 13 and this code is then stored in the code memory 15 of the fuze 8 and in the code memory 14 of the ignition trigger 6. Moreover the curved safety piece 21 is released.
The hand grenade 1 according to the invention is now ready to throw. The active body 3 with fuze 8 is situated in the throwing hand of the shooter and the control part 5 with ignition trigger 6 is in the other hand. Then the active body 3 equipped with the fuze 8 is thrown in the direction of the target, whereby the control part 5 remains in the hand of the shooter.
During the throw of the active body 3, the curved safety piece 21 becomes free and is pivoted outwards by the spring 20 and detaches itself from the fuze 8. By these means the second switching element 22 is closed and the receiving device 10 is switched on, the two ignition circuits 23 and 28 are charged, and the first and the second time-delay circuits 24 and 27 are initiated.
After the time determined by the first time-delay circuit 24 (e.g. 800 ms) has elapsed, the fuze 8 is ready for triggering, i.e. when the ignition trigger element 11 on the control part 5 is activated, the detonator 12 is triggered directly or after a pre-settable time (e.g. 200 ms) by transmission of the ignition code by the transmitting device 9 to the receiving device 10 (the coding—and transmission method corresponds to the method described in publication DE 40 27 150 C1).
If no ignition code is received by the receiving device 10 of the fuze 8 within a certain time (e.g. 30 min) set by the second time-delay circuit 27, which time is preset structurally or can be pre-selected by the shooter, the fuze is expelled from the active body 3 with the aid of the compressed gas generator 26 and optionally the detonator 12 is triggered subsequently.
Number | Date | Country | Kind |
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10 2005 035 580 | Jul 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/007377 | 7/26/2006 | WO | 00 | 9/4/2009 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/014684 | 2/8/2007 | WO | A |
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3712218 | Fay | Jan 1973 | A |
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5246372 | Campagnuolo et al. | Sep 1993 | A |
6761117 | Benz | Jul 2004 | B1 |
7373849 | Lloyd et al. | May 2008 | B2 |
20060230972 | Ouliarin | Oct 2006 | A1 |
Number | Date | Country |
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1 806 214 | Jul 1969 | DE |
4027150 | Jan 1992 | DE |
199 45 790 | May 2000 | DE |
2 563 001 | Oct 1985 | FR |
Number | Date | Country | |
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20100043663 A1 | Feb 2010 | US |