EP0781975B1 - Mechano-electronic fuze for hand grenade - Google Patents

Mechano-electronic fuze for hand grenade Download PDF

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Publication number
EP0781975B1
EP0781975B1 EP96500067A EP96500067A EP0781975B1 EP 0781975 B1 EP0781975 B1 EP 0781975B1 EP 96500067 A EP96500067 A EP 96500067A EP 96500067 A EP96500067 A EP 96500067A EP 0781975 B1 EP0781975 B1 EP 0781975B1
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EP
European Patent Office
Prior art keywords
mechano
detonator
electronic fuse
fuse according
electronic
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Expired - Lifetime
Application number
EP96500067A
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German (de)
French (fr)
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EP0781975A2 (en
EP0781975A3 (en
Inventor
Leoncio Munoz Bueno
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Instalaza SA
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Instalaza SA
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Publication of EP0781975A3 publication Critical patent/EP0781975A3/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F42AMMUNITION; BLASTING
    • F42CAMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
    • F42C15/00Arming-means in fuzes; Safety means for preventing premature detonation of fuzes or charges
    • F42C15/18Arming-means in fuzes; Safety means for preventing premature detonation of fuzes or charges wherein a carrier for an element of the pyrotechnic or explosive train is moved
    • F42C15/184Arming-means in fuzes; Safety means for preventing premature detonation of fuzes or charges wherein a carrier for an element of the pyrotechnic or explosive train is moved using a slidable carrier
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F42AMMUNITION; BLASTING
    • F42CAMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
    • F42C11/00Electric fuzes
    • F42C11/001Electric circuits for fuzes characterised by the ammunition class or type
    • F42C11/003Electric circuits for fuzes characterised by the ammunition class or type for hand grenades
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F42AMMUNITION; BLASTING
    • F42CAMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
    • F42C11/00Electric fuzes
    • F42C11/04Electric fuzes with current induction

Definitions

  • the object of the present Patent application is a Mechano-Electronic Fuze for hand-grenade, which, in addition to the function for which it was designed, affords a number of advantages described hereinafter, and others that are inherent in its organisation and constitution.
  • the utility of this ammunition is dependent on the power of its explosive charge and on the characteristics of its fuze.
  • the fuze must be absolutely safe during storage, carriage and launching. It must also fire the explosive charge either after a delay once the grenade is launched, or upon the grenade striking a solid object.
  • FR-A-2 483 068 discloses an electronic fuse for a grenade, comprising a detonator, activated by a striker, an ignition means disposed between the detonator and the charge of the grenade, and a separating means between the detonator and the ignition means, and further comprises an electronic circuit for a delayed activation of the detonator.
  • the electronic circuit includes a source of electrical power, which may be constituted by a quarz generator or an accumulator.
  • Appended subclaims are directed towards advantageous embodiments and features of the inventive mechano-electronic fuse.
  • the Mechano-Electronic Fuze for hand-grenade subject of the present Patent application provides improvements and original elements over fuzes conceived for a similar use because:
  • Figure 1 is an external side elevation view of an embodiment of a mechano-electronic fuze adapted to the body of a hand-grenade.
  • Figure 2 is view rotated 90° in relation to the preceding figure.
  • Figures 3, 4 and 5 illustrate the same number of internal views of an embodiment of a mechano-electronic fuze.
  • Figures 6 to 9 illustrate successive stages of the functioning of the mechano-electronic fuze.
  • Figure 10 is a diagram of the electronic module.
  • the Mechano-Electronic Fuze proposed in the present Patent application has been devised to be used in hand-grenades, albeit without limitation. Its external shape is therefore adapted to be fitted in hand-grenades most widely used nowadays, although it may be adapted to any other shape with only slight alterations.
  • the Container (100) in turn includes:
  • the Lever Safety Device (200) may, as aforesaid, have any conventional design. A possible embodiment thereof is described as an example, which would include:
  • the Drive (300) includes:
  • the Slide (400) includes:
  • the Electronic Module (500) includes:
  • the Electronic Module (500) is thereby simplified, and the functioning of the Detonator (601) is not dependent upon mechanical movements. Furthermore, when inoperative, the Detonator (601) remains in closed circuit which, albeit not a short-circuit, is over-safe.
  • the Explosive Chain (600) includes:
  • the Mechano-Electronic Fuze subject of the present Patent application guarantees a safety time after launching during which no power is available to set off the detonation, and a very reliable functioning after a delay, adjustable by design, and precisely controlled.
  • the Mechano-Electronic Fuze subject of the present Patent application ensures that, if the Detonator (601) is detonated and given that the latter must have been kept aligned with the Multiplier (602), the detonation shall pass to the Multiplier (602) and thereafter to the explosive charge in the hand-grenade.
  • this switch may be arranged instead of the analogue delay (518-519).
  • the fuze would be ready to function by impact against the ground or against any obstacle.
  • the fuze would be ready to function by impact against the ground or against any obstacle, and in the event of the impact not taking place or not being sufficient to trigger the impact detector, the explosion would take place after the pre-set delay.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Air Bags (AREA)
  • Toys (AREA)
  • Catching Or Destruction (AREA)
  • Window Of Vehicle (AREA)
  • Surgical Instruments (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)

Abstract

It consists of conventional mechanical carriage and handling safety-devices and safety-devices functioning mechanically and electronically. An original autonomous electric supply system. An electronic rather than a pyrotechnic delay. An explosive chain that changes from being misaligned to being in line, and able to trigger the detonation of the main charge in a hand-grenade. The energy required for it to function is stored in a spring (205) driving an electric generator (501), which improves storage, handling and use safeties, and the repeatability of the delay at any temperature, concurrently very substantially extending its useful life. <IMAGE>

Description

SPECIFICATION FIELD OF THE INVENTION
The object of the present Patent application is a Mechano-Electronic Fuze for hand-grenade, which, in addition to the function for which it was designed, affords a number of advantages described hereinafter, and others that are inherent in its organisation and constitution.
BACKGROUND OF THE INVENTION
One of the most widespread ammunition types in all the armies of the world is, as it has been for a long time, the hand-grenade.
The utility of this ammunition is dependent on the power of its explosive charge and on the characteristics of its fuze. The fuze must be absolutely safe during storage, carriage and launching. It must also fire the explosive charge either after a delay once the grenade is launched, or upon the grenade striking a solid object.
Typical solutions to provide a delay have until now consisted of using either pyrotechnic elements based upon the use of mixtures of materials with which to reach a particular rate of combustion, or mechanical or clockwork delays.
Elements of this kind have the following drawbacks, inter alia:
  • The delay achieved is irregular.
  • Their characteristics are degraded due to an exposure to extreme environmental conditions.
  • Capacity to endure vibrations, shocks, etc is small.
  • Useful life is limited.
  • Safety is not absolute in storage conditions.
The above have resulted in manifold accidents due to both spontaneous explosions under inoperative conditions and unexpected shortenings of the delay upon use.
From DE-A-2 147 172, which is the basis of the preamble of enclosed main claim, there is known a mechano-electric fuse for a hand-grenade with a mechanical drive based on energy stored in a conventional spring. The electrical power required to actuate the detonator is obtained by generating electric energy by means of a pendulum, driven by the spring and acting on one or two piezo-electric elements. This type of electric power generator does not require external power supplies. The known hand-grenade fuse is suitable for delay and/or impact functions.
FR-A-2 483 068 discloses an electronic fuse for a grenade, comprising a detonator, activated by a striker, an ignition means disposed between the detonator and the charge of the grenade, and a separating means between the detonator and the ignition means, and further comprises an electronic circuit for a delayed activation of the detonator. The electronic circuit includes a source of electrical power, which may be constituted by a quarz generator or an accumulator.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a mechano-electronic fuse for a hand-grenade, which is absolutely reliable in its functions over a long period of time and under all circumstances.
This object is achieved by a mechano-electronic fuse according to appended main claim.
Appended subclaims are directed towards advantageous embodiments and features of the inventive mechano-electronic fuse.
The Mechano-Electronic Fuze for hand-grenade subject of the present Patent application provides improvements and original elements over fuzes conceived for a similar use because:
  • It is absolutely safe under inoperative conditions, during storage and handling.
  • It is absolutely safe for some time after launching, this time being pre-set and constant.
  • Neither its safety nor its functioning are altered by electromagnetic fields.
  • It allows the explosive charge in the hand-grenade to be set off both after a delay and by impact, and further by a combination of delay and impact.
  • The delays are electronically controlled which, unlike currently existing pyrotechnic delays, renders them almost entirely independent of external conditions such as atmospheric temperature, and moreover ensures a great repeatability of the set values.
  • It can be coupled to most hand-grenades now in service without requiring any significant alterations.
  • Its useful life is equivalent to that of conventional explosives used in the main explosive charges of hand-grenades.
  • It is wholly maintenance-free.
The present Patent provides the advantages described above as well as others that will follow easily from the embodiment of a mechano-electronic fuze for hand-grenade, which is described hereinafter in detail for an easier understanding of the characteristics set out above, contemporaneously giving a number of details and attaching to the present specification, to such end, some drawings which show a practical example of the object of the present invention that is meant to illustrate and not to limit its scope.
Brief description of the drawings.
In the drawings:
Figure 1 is an external side elevation view of an embodiment of a mechano-electronic fuze adapted to the body of a hand-grenade.
Figure 2 is view rotated 90° in relation to the preceding figure.
Figures 3, 4 and 5 illustrate the same number of internal views of an embodiment of a mechano-electronic fuze.
Figures 6 to 9 illustrate successive stages of the functioning of the mechano-electronic fuze.
Figure 10 is a diagram of the electronic module.
Description of an embodiment of the invention.
The Mechano-Electronic Fuze proposed in the present Patent application has been devised to be used in hand-grenades, albeit without limitation. Its external shape is therefore adapted to be fitted in hand-grenades most widely used nowadays, although it may be adapted to any other shape with only slight alterations.
A particular embodiment of the conception explained, from among the many possible embodiments, is described below. Such would comprise:
  • A container (100) including all the parts in sight, saving the parts of the Lever Safety Device (200).
  • A Lever Safety Device (200) which keeps the Fuze safe whilst it is handled and launched. This Safety Device is fully conventional and must simply lock the main spring which stores the functional energy required.
  • A Drive (300) supplying the functional energy required by the Mechano-Electronic Fuze.
  • A Slide (400) in turn containing the Electronic Module (500) and incorporating part of the Explosive Chain (600).
  • An Electronic Module (500) producing electric power by means of a generator and using such power for the purposes intended for a fuze.
  • An Explosive Chain (600) including the elements needed to detonate the explosive charge in the hand-grenade under a suitable stimulus.
The Container (100) in turn includes:
  • A Head (101) being the only part of the Mechano-Electronic Fuze projecting, albeit only partially, from the body of the hand-grenade in which it is fitted. It has the necessary elements to register all the elements it houses, an outer thread to be coupled to the body of the hand-grenade, and an inner thread to be connected to the Neck (103). It is externally provided with a ledge (1011) on which the Ring (207) fits and is therefore locked.
  • A Body (102). It is vessel-shaped and made so as to protect the Electronic Module (500) from contingent external electromagnetic influences. The Slide (400) can slide inside the same. It has a thread to be connected to the Neck (103) and an Inner Ledge (1021) preventing the Slide (400) from rotating but allowing it to slide.
  • A Neck (103) serving to solidly and sealingly connect the two main parts of the Container (100), the head (101) and the Body (102). It houses and provides register for the Drive (300).
The Lever Safety Device (200) may, as aforesaid, have any conventional design. A possible embodiment thereof is described as an example, which would include:
  • A cylindrical Bolt (201) inserted in the Head (101). Its central portion has a hole (2011) that may or may not allow the Pinion (401) through, depending upon its position. It is provided with planes or a slot (2012) on either end at the area lying outside the Head (101) to allow its position to be secured. A flat shape (2013) limits its rotation to 90° from its inoperative position.
  • Two O-Rings (202) sealing the hole in the Head (1019) where the Bolt (201) is housed.
  • A Lever (203) whose shape adapts to the palm of the hand. Its end fits in the planes or slot (2012) on the Bolt (201) thereby for the Lever (203) and Bolt (201) to turn together. The shape of this Lever (203) and the ends of the Spring Axis (204) projecting from the Head (101) prevent the Lever (203) from prematurely releasing the Bolt (201) even if the hand-grenade is gripped with little strength.
  • A Spring Axis (204) fitted in the Head (101).
  • A coiled Spring (205) with two arms, turning about the Spring Axis (204) and tending to lift the Lever (203).
  • A Pin (206) inserted in the Head (101) and preventing the Lever (203) from turning.
  • A Ring (207) designed to expedite removal of the Pin (206). In the embodiment described, albeit without limitation, this part is independent of the pin (206). Its shape and arrangement ensure that no involuntary removal of the Pin (206) may occur. In order to avoid its displacement, it fits in the ledge (1011) of the Head (101) when it is inoperative.
The Drive (300) includes:
  • A Spiral Spring (301) supplying the energy for the Mechano-Electronic Fuze to work. One of its ends is fixed to the Vessel (302) and the other to the slot (3031) on the Crown (303).
  • A Vessel (302) containing and limiting the Spiral Spring (301). Once mounted, it is locked to the Neck (103).
  • A movement transmission system capable of adapting the movement generated by the Spiral Spring (301) to the Generator (501) input needs, and comprising in the case being described, albeit without limitation, a gear train including:
  • A Crown (303) having an inner gearing and an outer thread connecting it to the Screw (402) of the Slide (400). It is actuated directly by the Spiral Spring (301) and is engaged at its slot (3031).
  • An Intermediate Pinion (304) including two cogwheels (3041 and 3042) each having a different number of sprockets. It conveys the rotation of the Crown (303) to the Pinion (401) adequately modifying the number of turns.
The Slide (400) includes:
  • A Pinion (401) having a very long gearing (4011) to allow the Slide to travel (400). It is firmly connected to the Shaft (5011) of the Generator (501) and meshes with the output cogwheel (3042) of the Intermediate Pinion (304).
  • A Screw (402) which is screwed to the Crown (303). It allows the Pinion (401) to turn inside it.
  • A Jacket (403) containing the Electronic Module (500) and locking it to the Screw (402). It is tubular in shape (4031) at its lower end to serve as a position finder for the Detonator (601) and as a closure for the Barrier (603).
The Electronic Module (500) includes:
  • A Generator (501) actuated through its shaft (5011) by the Pinion (401) to generate electric power for the Electronic Module (500) to work. It is connected to the Board (502) by means of Conductors (5012).
  • A printed circuit Board (502) to which all electronic components, such as condensers, diodes, resistors, transistors and analogue switches are welded, as required for it to function as described in the relevant section (numbered from 511 to 523) and conductor paths to connect such elements.
  • A Commutator (503) keeping the Detonator (601) short-circuited when inoperative.
There are alternatives to the embodiment described as the preferred embodiment which could be advantageous. Some are as follows:
Replacing the Commutator (503) with its electric relay forming part of the Electronic Module (500) and keeping the Detonator (601) short-circuited when inoperative. It would thus be possible for the Detonator (601) to remain short-circuited when inoperative, whereas the release of such short-circuit would not depend upon a mechanical type drive.
Eliminating the Commutator (503). The Electronic Module (500) is thereby simplified, and the functioning of the Detonator (601) is not dependent upon mechanical movements. Furthermore, when inoperative, the Detonator (601) remains in closed circuit which, albeit not a short-circuit, is over-safe.
Including an impact detector of any universally known and sufficiently tested types (ball, floating hammer, etc.) adds the possibility of it functioning by impact or a combination of impact and delay, without substantially altering the description of the concept of this Mechano-Electronic Fuze.
The Explosive Chain (600) includes:
  • An electrically stimulated Detonator (601). This connects with the Electronic Module through the Conductors (601). It registers in the tubular shape (4031) of the Jacket (403) and is fixed thereto. This element can be any of those available in the market.
  • A hollow cylindrical Multiplier (602) allowing the tubular shape (4031) of the Jacket (403) and the Detonator (601) through. It is fixed to the Body (102).
  • A Barrier (603) made with shapes and of a resisting material such as to be able to endure the detonation of the Detonator (601) in its inoperative -misaligned-position without such detonation being transmitted to either the Multiplier (602) or the explosive charge in the hand-grenade.
Functioning.
  • a) During storage and carriage of a hand-grenade equipped with the Mechano-Electronic Fuze subject of the present Patent application, the Pin (206) prevents the Lever (203) from moving, and the Bolt (201) therefore remains lodged against the forward movement of the Pinion (401). The Bolt (201) therefore prevents the forward movement of the Slide (499) that is in turn screwed to the Crown (303) and thus any movement of the mechanism is fully disabled, although the Spiral Spring (301) tends to turn the Crown (303). The Detonator (601) is short-circuited through the Commutator (503) and is moreover misaligned with respect to the Multiplier (602) and enclosed between the Barrier (603) and the tubular shape (4031) of the Jacket (403).In the highly unlikely event of the Detonator (601) exploding in such position, the Multiplier (602) is protected by the Barrier (603) and the shock wave generated by the Detonator (601) shears the bottom (1022) of the Body (102) and the bottom of the body of the hand-grenade, being lost into the open air without causing further damage. This is why the detonation of the explosive charge in the grenade would never be induced, i.e. negative functioning is disabled.Given the superposition of safeties described hereinbefore, the Mechano-Electronic Fuze for hand-grenade subject of the present Patent application is completely safe. Since the possibility of the hand-grenade exploding by chance becomes dependent only on the main charge, this possibility is hugely minimised.
  • b) In order to use the hand-grenade, the latter is taken making sure that it is held firmly and with the Lever (203) directed towards the palm of the hand. The Ring (207) is removed from the housing (1011) and is used to remove the Pin (206). Thereafter, all that prevents the Spring (205) from turning the Lever (203) is the palm of the launcher's hand.The process is absolutely conventional up to this point.
  • c) When launching takes place and the hand-grenade leaves the launcher's hand, the Spring (205) pushes the Lever (207), making it turn, and due to its fit within the planes or slot (2012), the Bolt (201) also turns. When the Bolt (201) reaches the limit imposed by the plane (2013), the hole (2011) is directed so as to allow the Pinion (401) through.When the Pinion (401) is released, the entire Slide (400) may move forward and this allows the Crown (303). to turn.Since the Spiral Spring (301) forces the Crown (303) to turn at all times, the latter starts to turn.The rotation of the Crown (303) has two simultaneous and independent effects. On the one hand, and through the thread connecting it with the Screw (402), it pulls from the latter until both parts abut. Since the Screw is firmly connected to the Slide (400) both of them move together. Given that the Detonator (601) is connected to the Jacket (403), it moves together with the whole Slide (400) and on reaching the end of its travel is aligned with the Multiplier (602) -inserted therein-.
  • d) At the same time, when the Slide (400) reaches the end of its travel, the Inner Ledge (1201) actuates the Commutator (503) which opens the short-circuit of the Detonator (601).
  • e) Furthermore, and by means of the Intermediate Pinion (304), the rotation of the Crown (303) causes the Pinion (401) to rotate. This rotation is independent of the forward movement of the Slide (400) due to the length of the gearing (4011) of the Pinion (401). Given that the Pinion is firmly connected to the shaft (5011) of the Generator (501), it forces it to turn and the Generator (501) generates electric power. The power reaches the Board (502) through the Conductors (5012).
  • f) The Diode (511) prevents the electronic circuit from being discharged if there is a short-circuit outside the Board (502). The Condenser (512) stores the power generated by the Generator (501).The Resistor (513) works as a drain for the Condenser (512).The Resistor (514) and the Condenser (515) form an first-rate analogue delay which regulates a time after launching in which no power is available for the Detonator (601).
  • g) After the time pre-set in the analogue delay (514-515) elapses, the latter actuates the Analogue Switch (516) which allows the power to pass to the Condenser (521). The Resistor (518) and the Condenser (519) form another first-rate analogue delay which controls the time at which the Mechano-Electronic Fuze must set the Detonator (601) going.This delay (518-519) is now mentioned to improve the understanding of the circuit, but actually begins to count at the same time as the one (514-515) described above.
  • h) When the time pre-set by the analogue delay (518-519) elapses, the latter actuates the Analogue Switch (520). The Analogue Switch (520) causes the Transistor (522) to be commutated.
  • i) When the Transistor (522) is commutated, it has all the power stored in the Condenser (521) discharged to the Detonator (601).
  • j) As already described above, the Commutator (503) which shall have kept the Detonator (601) short-circuited to earth during all the storage, carriage and handling time, shall have changed its state when the Slide (400) completes its forward movement, breaking the short-circuit and connecting the Detonator (601) to the Transistor (522). If the Commutator (503) has indeed changed its state, when the Condenser (521) discharges through the Transistor (523), this discharge will, in parallel, reach the Resistor (523) and the Detonator (601), which is actuated.If, however, the Slide (400) does not complete its travel, the Commutator (503) will continue to keep the Detonator (601) short-circuited and separated from the Condenser (521) and the power will therefore be lost through the Resistor (523), which acts as a drain.
  • Now, therefore, the Mechano-Electronic Fuze subject of the present Patent application guarantees a safety time after launching during which no power is available to set off the detonation, and a very reliable functioning after a delay, adjustable by design, and precisely controlled.
    Furthermore, the Mechano-Electronic Fuze subject of the present Patent application ensures that, if the Detonator (601) is detonated and given that the latter must have been kept aligned with the Multiplier (602), the detonation shall pass to the Multiplier (602) and thereafter to the explosive charge in the hand-grenade.
    The functioning of the alternative solutions noted in the System Description would be as follows:
    Replacement of the Commutator (503) with an electric relay: this coincides with that of the preferred solution up to point g), whereupon, in addition to allowing the power through to the Condenser (521), the relay is also actuated, changing its state and releasing the Detonator (601) short circuit, connecting it to the Transistor (523). Points d) and j) are eliminated.
    Eliminating the Commutator (503): When inoperative, the Detonator (601) is in closed circuit through the Resistor (523). In operation, points d) and j) are eliminated.
    Inclusion of an impact detector: this switch may be arranged instead of the analogue delay (518-519). Thus, after the safety-devices are released, the fuze would be ready to function by impact against the ground or against any obstacle.
    It can also be arranged in parallel with the analogue delay (518-519). Thus, after releasing the safety-devices, the fuze would be ready to function by impact against the ground or against any obstacle, and in the event of the impact not taking place or not being sufficient to trigger the impact detector, the explosion would take place after the pre-set delay.
    Given that the concept of an impact detector is widely disseminated, that manifold specific embodiments of such device are known, and that the inclusion of such element acting as a switch would not alter the substance of the object of the present Patent application, it is not described at length.

    Claims (13)

    1. A mechano-electronic fuse for a hand-grenade, including a spring (301) for storing mechanical energy,
         a mechanical drive (300) coupled with said spring to drive a means for generating electrical power required to actuate a detonator (601),
      characterized in that
         said means for generating electrical energy is constituted by an electrical generator (501) comprising a rotable shaft (5011) for its drive, which is driven by said mechanical drive (300).
    2. A mechano-electronic fuse according to claim 1,
      characterized in that
      a slide (400) is provided, which is driven by said mechanical drive.
    3. A mechano-electronic fuse according to claim 2,
      characterized in that
      said detonator (601) moves together with said slide (400), and reaches at an end of the travel of the slide a position as to be aligned with a multiplier (602).
    4. A mechano-electronic fuse according to claim 3,
      characterized in that:
      that a barrier (603) is provided, which protects the multiplier (602) from the detonator (601) in their misaligned positions.
    5. A mechano-electronic fuse according to any of claims 2 to 4,
      characterized in that
      said slide (400) activates at the end of ist travel a commutator (503), which opens a short circuit of said detonator (601).
    6. A mechano-electronic fuse according to any of claims 1 to 5,
      characterized in that
      said mechanical drive comprises a rotary crown (303) biased for rotation by said spring (301) and rotably connected to said shaft (5011).
    7. A mechano-electronic fuse according to claims 2 and 6,
      characterized in that
      said rotary crown is in thread connection with a screw (402) firmly connected to said slide (400) as to linearly move that slide by rotation of said crown.
    8. A mechano-electronic fuse according to claim 7,
      characterized in that
      said crown (303) is rotably connected to said shaft (5011) of the generator by an intermediate pinion (304) including two cog-wheels (3041, 3042) for conveying the rotation of the crown to a pinion (401) firmly connected to said shaft, wherein said pinion has a long gearing as to allow the slide (400) to travel.
    9. A mechano-electronic fuse according to claim 1 or 5,
      characterized in that
      said detonator (601) is connected to said generator (501) via an electronic circuit.
    10. A mechano-electronic fuse according to claim 9,
      characterized in that
      said electronic circuit provides double timing as to firstly prevent activation of the detonator during the first instants of flight of the hand-grenade and then ensures activation after a pre-set time.
    11. A mechano-electronic fuse according to claim 1, 5, 9, or 10,
      characterized in that
      said detonator (601) is connected to said generator (501) via an electronic circuit that includes an impact detector as to activate said detonator after release of the mechaniocal drive means as to drive said generator by Impact.
    12. A mechano-electronic fuse according to any of claims 9 to 11,
      characterized in that
      the electronic circuit includes means (523) ensuring a self-discharge of electric power in the event that after generation of electric power required to activate the detonator (601) the latter is not detonated.
    13. A mechano-electronic fuse according to claim 1 to 12,
      characterized in that
      there is provided a means (201, 203, 205) enabling the mechanical drive (300) to drive the electrical generator (501) only after the hand-grenade in which the mechano-electronic fuse is fitted, is launched.
    EP96500067A 1995-12-29 1996-05-30 Mechano-electronic fuze for hand grenade Expired - Lifetime EP0781975B1 (en)

    Applications Claiming Priority (2)

    Application Number Priority Date Filing Date Title
    ES9502554 1995-12-29
    ES009502554A ES2136485B1 (en) 1995-12-29 1995-12-29 MECHANICAL-ELECTRONIC SPLET FOR HAND GRENADE.

    Publications (3)

    Publication Number Publication Date
    EP0781975A2 EP0781975A2 (en) 1997-07-02
    EP0781975A3 EP0781975A3 (en) 1998-03-18
    EP0781975B1 true EP0781975B1 (en) 2001-08-29

    Family

    ID=8292596

    Family Applications (1)

    Application Number Title Priority Date Filing Date
    EP96500067A Expired - Lifetime EP0781975B1 (en) 1995-12-29 1996-05-30 Mechano-electronic fuze for hand grenade

    Country Status (6)

    Country Link
    EP (1) EP0781975B1 (en)
    AT (1) ATE204987T1 (en)
    DE (1) DE69614816T2 (en)
    DK (1) DK0781975T3 (en)
    ES (1) ES2136485B1 (en)
    PT (1) PT781975E (en)

    Cited By (2)

    * Cited by examiner, † Cited by third party
    Publication number Priority date Publication date Assignee Title
    DE10316875A1 (en) * 2003-04-11 2004-11-04 Diehl Munitionssysteme Gmbh & Co. Kg Mechano-electric detonator for a hand grenade
    WO2024145706A1 (en) 2023-01-06 2024-07-11 Condor S.A. Indústria Química Electronic time warhead fuze

    Families Citing this family (3)

    * Cited by examiner, † Cited by third party
    Publication number Priority date Publication date Assignee Title
    ES2176060B1 (en) * 1999-10-27 2004-02-01 Instalaza Sa IMPROVEMENTS IN MECHAN-ELECTRONIC SPOOLS FOR HAND GRENADES.
    DE10241724B4 (en) * 2002-09-10 2007-06-14 Diehl Bgt Defence Gmbh & Co. Kg Electrogenerative ignition device for an explosive device
    US7387156B2 (en) 2005-11-14 2008-06-17 Halliburton Energy Services, Inc. Perforating safety system

    Family Cites Families (7)

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    Publication number Priority date Publication date Assignee Title
    DE2147172A1 (en) * 1971-09-22 1973-03-29 Karlsruhe Augsburg Iweka ELECTRIC AMMUNITION DETECTOR, IN PARTICULAR FOR HAND GRENADES
    FR2483068B1 (en) * 1980-05-21 1986-09-26 Ruggieri Ets ELECTRONIC ROCKET FOR HAND OR RIFLE GRENADE
    FR2510250A1 (en) * 1981-07-24 1983-01-28 France Etat Hand contact sensor for grenade detonator - uses oscillator with coil wound within detonator cap whose inductance is varied by proximity of hand
    FR2559895B1 (en) * 1984-02-20 1988-09-09 Serat HAND GRENADE
    US4986185A (en) * 1989-05-08 1991-01-22 The United States Of America As Represented By The Secretary Of The Navy Grenade device
    FR2721394B1 (en) * 1994-06-16 1996-08-09 France Etat Armement Device for igniting a pyrotechnic charge of the igniter plug type, in particular for hand grenade having three operating modes.
    FR2745080B1 (en) * 1996-02-21 1998-05-15 Ruggieri DELAYED IGNITION PLUG FOR PYROTECHNIC APPARATUS

    Cited By (5)

    * Cited by examiner, † Cited by third party
    Publication number Priority date Publication date Assignee Title
    DE10316875A1 (en) * 2003-04-11 2004-11-04 Diehl Munitionssysteme Gmbh & Co. Kg Mechano-electric detonator for a hand grenade
    DE10316875A8 (en) * 2003-04-11 2005-02-10 Diehl Munitionssysteme Gmbh & Co. Kg Mechano-electric detonator for a hand grenade
    DE10316875B4 (en) * 2003-04-11 2005-07-21 Diehl Bgt Defence Gmbh & Co. Kg Mechano-electric detonator for a hand grenade
    US7197983B2 (en) 2003-04-11 2007-04-03 Diehl Munitionssysteme Gmbh & Co. Mechano-electrical fuse for a hand grenade
    WO2024145706A1 (en) 2023-01-06 2024-07-11 Condor S.A. Indústria Química Electronic time warhead fuze

    Also Published As

    Publication number Publication date
    DE69614816D1 (en) 2001-10-04
    ES2136485B1 (en) 2000-05-16
    EP0781975A2 (en) 1997-07-02
    DK0781975T3 (en) 2001-12-10
    DE69614816T2 (en) 2002-04-25
    EP0781975A3 (en) 1998-03-18
    ES2136485A1 (en) 1999-11-16
    PT781975E (en) 2002-02-28
    ATE204987T1 (en) 2001-09-15

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