FR2528968A1 - Primer arming device for bombs - has blocking mechanism working with programmable clock-work timer - Google Patents

Abstract

The arming device has a blocking mechanism, consisting of rods (4, 5) moving axially in housings in the bomb body. Their heads contact the base of a cylinder (1) which has in its side surface, a notch (8) which can selectively face a fin (6). This is part of a hood (7) and projects radially from the hood interior. It holds the cylinder in a position where the notch is opposite the fin. In the cylinder base is a pair of holes (13), extending through part (12) of a disc connected to a spring operated, programmable arming timer (9).

Description

The present invention relates to a series of improvements to the means for arming priming devices for bombs of the superfreezing type, the explosion of which occurs by impact and to bombs incorporating a firing primer and a rotating detonator holder , more particularly for bombs used by aviation, improvements whose waste is to maintain
h the priming device inoperative before launching the bomb and making it operative at the critical moment of the explosion.

 Generally speaking, the mechanisms for setting up a bomb initiation device are controlled by an external propeller which displaces an axis. However, currently, planes drop their bombs at extremely low altitudes in order to have the best chance of hitting the target. This leads to the need to brake the bomb in its fall by means of a parachute which will be all the greater when the drop altitude is low, which allows greater precision and ensures a greater delay for the aircraft is moving far enough before the explosion. The volume of the parachute and the detection of the bomb make the conventional arming mechanism ineffective, the ignition of which was obtained by the energy of the external propeller. For this reason, the improvements which the invention proposes introduce into as a fundamental element a spring watch functioning as a programmable timer whose speed of rotation is constant and independent of the movement of the bomb in its fall.

 The priming device in question was specially designed for bombs incorporating an ignition initiator and a rotating detonator, with a striker which intervenes jointly with this ignition initiator. This striker is kept blocked until the arming of the priming device, at the same time as the detonator holder is also kept isolated from the ignition initiator, and they are only placed face to face when it occurs. arming the priming device.

These arming means forming the subject of the invention consist of a cylinder housed inside the body of the priming device, against the lower base of which the locking ends of the striker and of the detonator holder are applied. , which
tend to move in an upward direction under the effect of the respective springs, for the release of the respective mechanisms which they block.

 This cylinder is housed inside the body of the priming device with the possibility of axial displacement and rotation. But the axial displacement is prevented by a retaining fin which emerges from the internal face of a cap which fulfills the function of a sliding sleeve for the cylinder, while the rotation is caused by a mechanical spring timer , -also housed inside the body of the priming device, whose motor axis carries a plate. Two appendages emerge from this plate and are inserted into the cylinder housings to carry out the drive.

 When you drop the bomb, the mechanical timer starts and produces the rotation of the plate and the drive of the cylinder located under the plate. The cylinder rotates, while being retained axially by the lateral fin associated with the cap, until a notch of its periphery is located opposite said fin. At this time, the cylinder is propelled upwards, so that the rods pressed against its underside rise at the same time and release the locking mechanisms of the striker and the detonator holder, as indicated above.

 Another improvement brought by the invention refers to the blocking mechanisms for the mechanical spring timer which keep this timer inoperative until the moment of launching and then cause it to start up at the critical moment when launching takes place.

For this purpose, the mechanical spring timer has, in its movable part, a hole in which is housed a first rod which tends to come out of its housing under the effect of a spring and which is retained by the action, on the head opposite its operative end, a second rod arranged perpendicular
lairement at the first and also assisted by a spring which tends to move it so as to obstruct the first rod. This second
rod is held in blocking situation by a pin on which rests its head in safety function. This pin separates from the priming device when the bomb is launched, so that the second rod moves releasing the first, and the first in turn moves releasing the mechanical spring timer. its rotation with the drive of the cylinder to the limit of the time delay; when the cylinder rises, the rod of the detonator holder releases the detonator holder, it rotates and faces the ignition initiator. At the same time, the other rod releases the striker which is in the condition of being projected against the ignition initiator by the inertia of the impact or is directly propelled against the initiation by the effect of a spring.

 To complete the description and in order to allow a better understanding of the characteristics of the invention, a single drawing board with a single figure is attached and forms an integral part of the specification. This figure shows a non-limiting embodiment of a priming device for aviation bombs, more specifically the section of the device corresponding to the arming means, produced in accordance with the improvements which are the subject of the present invention.

 By observing this figure, it is noted that the arming means proposed by the invention consist of a cylinder 1 housed inside the chamber 2 defined in the body 3 of the priming device. On this cylinder, more particularly its lower face or base, rest the rod 4 corresponding to the locking mechanisms of the striker and the rod 5 of blocking of the rotating detonator holder.

 The cylinder 1 tends to be projected above the rods 4 and 5, more concretely by the springs associated with these rods, but this axial movement is prevented by a retaining fin 6 which emerges internally from a cap 7 associated with the body 3 of the priming device and which contributes to the conformation of chamber 2.

 In order to be able to effect its axial displacement, the cylinder 1 has a notch 8 in an area of its periphery which is at a good distance from the retaining fin 6 when the bomb is dropped. By a rotation of the cylinder, the notch faces the retaining fin 6 at the moment when 1-a libdra- tion of the means for blocking the striker and the detonator holder occurs, that is to say at the moment arm the ignition device.

 The cylinder 1 is rotated using a mechanical spring timer 9, also housed in the body 3 of the priming device. Its motor axis 10 is integral with a plate 11 equipped with two appendages 12 parallel to the axis and diametrically opposite, fitting into the housings 13 of the cylinder 1 for its drive.

 Before launching the bomb, the mechanical spring timer 9 is kept out of service by the effect of a rod 14 which is inserted in a housing 15 of the movable part of the timer preventing its rotation. This rotation can occur by the effect of its spring. The rod 14 tends to come out of its housing 15 under the effect of a spring 16 which acts on its head 17.

Its axial movement is prevented by a second! X.e rod 18, perpendicular to the previous one, which rests on the head of -the rod 14, as shown in the figure. The rod 18 in turn tends to move relative to the axis, releasing the head 17 from the first rod, under the effect of a spring 19 similar to the previous one and also acting on the head 20 of the rod. For its part, this second rod 18 is retained by a pin 21 which passes through the body 22 in which the rod 18 slides, so that the assembly is kept in a static blocking situation.

 According to the description given, when the bomb is dropped, the pin 21 separates from the priming device.

For this purpose, this pin must be associated with any fixed part of the aircraft. The spring 19 then pushes the rod 18 outwards, which releases the rod 14 pushed upwards by the spring 16. The rod 16 leaves the housing 15 of the mechanical timer 9 and the latter begins its programmed rotation.

 In its rotation, by means of appendages 12, the timer 9 drives the cylinder 1 to a limit position where the notch 8 faces the retaining fin 6.

At this time, the rods 4 and 5 project upwards the cylinder 1, while moving in an upward direction by releasing the respective mechanisms for blocking the striker and the detonator holder.

The latter rotates facing the ignition initiator, the striker being able to be thrown against the initiator at the time of impact.

Claims (2)

1. Device for arming initiation devices for aviation bombs, applicable to bombs of the super-braking type whose explosion occurs by impact and to bombs incorporating a firing primer and a rotating detonator holder, the latter being capable of to face the ignition initiator when the blocking mechanisms of the striker of the ignition initiator as well as of the rotating detonator have been released, characterized in that the blocking mechanisms, consisting of rods (4, 5) moving axially in conduits provided in the body of the bomb, have their heads in contact with the base of a cylinder (1) which has in its lateral surface a notch (8) which can face, by turning, to a fin (6) or a complementary flange which belongs to a cap (7), the fin or the flange emerging radially from the internal surface of the cap and retaining the cylinder (1) until it occupies a position where the notch faces the fin (6), the cylinder having, in the base opposite to that in contact with the rods (4, 5) indicated, a pair of holes (13) opposite with respect to the axis of the cylinder, in each of which an appendage penetrates (12) of a disc coupled to a mechanical spring timer (9) which is programmable and whose rotation, by driving the cylinder (1), will cause the release of the mechanisms for blocking the striker from the firing initiator and the detonator holder, which arms the bomb and puts it in such a condition that it explodes when it hits the target. 2. Device according to claim 1, characterized in that the blocking of the mechanical spring timer (9) is obtained by means of a pair of rods (14, 18) disposed slidingly, perpendicularly to one another. other, in complementary housings, one (18) of the rods preventing by its free end the other rod (14) from rising, said other rod (14) preventing the rotation of the timer (9) by its penetration into a hole in the timer, the two rods (14, 18) being loaded by springs (16, 19) and the rod (18) mentioned first being separated by its spring (19) from its position for retaining the other rod (14) upon extraction of a pin (21) which passes through the part (22) in which the rod (18) mentioned first is slidably disposed.