DE957811C - Trip device, in particular for rocket projectiles, bombs or the like - Google Patents

Description

ISSUED FEBRUARY 7, 1957

A 23032XII'62c

The invention relates to a device for projectiles, preferably rocket projectiles, Boraben or the like, which can be attached to one another and which are supplied with an electric current can be, as well as by means of which, in the case of rockets, an ignition charge in each rocket for Inflammation can be brought about. This detonating charge in turn ignites the explosive charge in everyone Rocket.

Known missiles of the type mentioned above are grouped together in such a way that the Missiles lie side by side in a straight line. These groups are then at the bottom of an aircraft wing so attached to one of the outer missiles of each group that each Group seated at right angles to the wing and that the longitudinal axis of the missiles parallel to the longitudinal axis of the aircraft lies. The priming charge of each individual rocket in a group is through separately an electrical cable is connected to a release device inside the aircraft, which is a Includes power source. When the missiles are to be fired, the triggering device is adjusted so that that only the bottom missile in a group can be fired. The one with the above The disadvantage associated with the described device is that in addition to the actual fastening the missiles against each other and on the wing of the

zcugs the missiles are also connected to the triggering device by means of electrical cables must be. However, the use of such lines requires complicated assembly and always represents a distinct source of error. The gases emitted from the rockets can be the cause of damage to the aircraft wing from these lines.

The object of the invention is the use of lines for electrically fired Avoid missiles. This is achieved by creating a device in which between the Missiles themselves have an electrical line established as soon as they are attached to one another is such that when a group of missiles is attached to the wing of the aircraft, only the primer charge the bottom rocket can be supplied with power.

A device for projectiles, in particular

ao rocket projectiles, bombs or the like, which are equipped with holding devices that allow to attach the projectiles to one another in such a way that they have parallel or approximately parallel axes are linked, and each have contact groups that include one or more contacts, which can be supplied with electrical power is characterized according to the invention by a second group of contacts comprising one or more contacts and by a switching device that works with these two groups and with a power consumer on the floor is connected and which is provided with an actuator which is followed by the next Projectile is actuated and when actuated, the switching device is switched on and connects the second contact group to the first contact group when it is not actuated is, the switching device is in a second position in which it receives the electricity consumer connects to the first contact group.

The invention is described in more detail with reference to the drawing, namely shows

Fig. Ι a schematic view of the front part of two rockets attached to one another, the each has a device according to the invention and

Fig. 2 shows an aircraft wing, under which a group with the device according to the invention tagged missile is suspended.

Both Fig. Ι and Fig. 2 of the drawing show two missiles 1 and 2, each one Head 3, an intermediate part 4 comprising the device according to the invention, an engine part 5 and a nozzle part 6 with four guide surfaces 7. The guide surfaces are each with Slits 8 provided, by means of which the upper guide surfaces of each missile on the lower guide surfaces of the can be attached in the same group overlying missile. The top missile will attached to the wing of the aircraft with the aid of a fastening device 10, which in the Slots 8 of the two upper wings 7 of the missile 1 engages. The front part of rocket 1 is on a holder 11 attached to the wing 9. The lower one Surface of the holder 11, which is used as a contact surface for the The outer surface of the intermediate part 4 is curved so that it adapts to the shape of this outer surface, and also has two protruding flanges 12 and 13 which fit into corresponding grooves between the outer wall of the intermediate part 4 and provided on this intermediate part 4 outer Intervene guides. On the outer wall of the intermediate part 4 is located diametrically opposite these guides 14 and 15 a holding member 16, the is provided with two protruding flanges 17 and 18 and also has a curved surface which adapts to the outer surface of the intermediate part 4 of the missile 2. The flanges 17 and 18 therefore engage in guides 14 and 15 the rocket 2. All rockets are provided with these interacting parts 14 to 18, which either form part of the intermediate part 4 or are attached to it in any way could be. The unit that is formed from parts 4 and 14 to 18 is thus for every missile the same. These parts do not need to be used with the embodiment shown in the drawing to match, but may be of any suitable form provided that they are fastening the missiles to one another by interlocking the parts 14, 15 and the parts 17, 18 enable. The rear part of the holder 11 is with two electrical contacts 19 and 20 provided, which are isolated from each other. These contacts are connected by means of lines 21 and 22 a trip device 23 is connected, which is provided with a battery 24 and a switch 25 is. The contacts 19 and 20 are connected to two contacts 26 and 27 on the missile 1. Even these contacts are isolated from each other. They are also arranged in such a way that, ζ. Β. by means of Spring action, reliable conductive connection between both contacts 19 and 26 as well as 20 and 27 can be produced. Two lines 28 and 29 connect the contacts 26 and 27 with two contact pins 30 and 31 which are fixedly attached to a body 32 which is non-conductive can be and sits on a rod 33. In the position shown in Fig. 1 are 'the Contact pins 30 and 31 of the missile 1 with two contacts 34 and 35 connected by means of lines 36 and 37 are connected to two contacts 38 and 39. These latter two contacts are not insulated on the outside of the middle part 4. Contacts 38 and 39 are exactly that Arranged in the same way as the contacts 19 and 20 and are also insulated from one another. Under the contact pins 30 and 31 are still two contacts 40 and 41, which through the Lines 42 and 43 with an electrical ignition device 44 for the ignition charge, not shown are provided, which is a drive charge, also not shown, for the rocket engine should ignite. In the intermediate part 4 of the missile, the rod 33 is arranged to be movable transversely to the missile axis. Its lower end is with a screw

spring 45 is provided which limits its downward movement. This is shown in FIG. 1 in connection with the missile 2. A spring 46 around the upper part of the rod 33 pushes it downwards. The upper end of the rod enters a recess 47 in the holder. The holder 16, which is located on each missile, is also provided with a similar recess 48 for the rod 33 of the missile suspended below. The upper end of the rod 33 has a bore 49. The lower end of the rod 33 rests on the surface of the intermediate part 4 of the missile 2. The upper contacts 26 and 27 of the intermediate part 4 of the missile 2 are electrically conductively connected to the contacts 38 and 39 . The rod 33 of the last-mentioned intermediate part engages in the recess 48 of the rocket i. Since no further rocket is attached under rocket 2, the rod in the intermediate part of rocket 2 assumes the position shown in FIG. 1, ie it is pressed down by spring 46 until spring 45 comes into contact with body 32. In this position, the two contact pins 30 and 3 1 of the intermediate part of the rocket connected to the contacts 40 and 41 so that the ignition device 44 is connected to the contacts. 26 and 27 The contacts 38 and 39 of the rocket described last are then not connected to the contacts 26 and 27.
The arrangement described above works as follows: It is assumed that no missile is initially attached to the holder 11 and the fastening device 10. As soon as a missile is attached to the fastening device 10 and the holding part 11, the flanges 12 and 13 are inserted into the guide grooves formed by the guides 14 and 15 on the upper part of the missile, while at the same time the fastening device 10 is inserted into the slots 8 is introduced on the guide surfaces 7.

Once the missile 1 has been brought into its furthest rearward position, are located the contacts 19 and 20 in connection with the contacts 26 and 27. Under the action the spring 46, the rod 33 takes its lower position

+5 on, i.e. That is, the contacts 26 and 27 are · with connected to contacts 40 and 41. These latter contacts are with the electrical igniter 44 connected. The ignition device 44 is thus in direct connection with the triggering device 23. In this position, the upper end of the rod 33 is located in the recess 47 that its weakest part is at the interface between the lower surface of the holding part ι r and the top surface of the missile is located. The upper end of the rod that has a latch or forms a latch can easily be torn off. The attachment of the rocket 2 to the rocket 1 will through the flanges 12 and 13 on the holding part 16 of the Missile 1 causes the in the grooves which are formed by the guides 14 and 15 of the missile 2 are introduced, while at the same time the guide surfaces 7 of the missile 1 in the upper Slots 8 of the two upper guide surfaces 7 of the rocket 2 are pushed in. Through the attachment the rocket 2, the rod 33 in the rocket 1 is guided into its upper position, whereby the release device 23 via the contact pins 30 and 31 with the contacts 34 and 35 of the Missile 1 is connected. The trip device is thus with the lower contacts 38 and 39 of the Missile 1 connected. The missile 1 thus receives with regard to the electrical line merely functions as a link to the rocket 2. When the rod 33 comes to its upper position, its weaker part is in the Recess 47, which means that the part of the rod exposed to shearing off is the whole Has strength, making it difficult to shear. The rocket 2 is pushed in so far that their contacts 26 and 27 come into contact with the contacts 38 and 39 of the missile 1. Since the Missile 2 is no longer connected to any other missile, its rod 33 takes the lower position, so that the triggering device 23 with the ignition device 44 of the rocket 2 is connected. Other missiles can be attached in the manner described above in each case only the electrical ignition device of the missile installed last with the release device 23 comes into connection. By closing the switch 25, the last attached missile fired, whereby by the initial movement of the missile the upper part its rod 33 is sheared off at its weakest point, while the remaining missiles, there their rods are further inserted into the associated holders, remain in their positions; To When the first missile is fired, the next lower missile is ready to be launched and so on Rods and pins have the advantage that ioo the electric ignition device of the lowest rocket is always connected to the triggering device and that, due to the design of the rods, the lowest rocket is always the weakest on the the rest is connected.

Of course, the rods 33 can be designed as desired or even by another Mechanism or other connecting device to be replaced that of a missile the same Give properties like the rod described above. The weaker part on the top The end of the rod can also be designed as desired. Furthermore, of course, the switching device, which is shown in Fig. 1, replaced by a switching device of any other type will. It would also be possible to have one of the lines through the missile itself or part of it to replace, provided that the latter is made of a material that conducts electricity is.

Claims (1)

PATENT CLAIM: Release device, especially for rocket projectiles, Bombs or the like, which are suspended by means of holding devices, in particular on aircraft are in such a way that the storeys allel or almost parallel to each other and electrically-powered contact groups comprising one or more contacts have, characterized by a second contact group (38, 39), each one or comprise several contacts, as well as by a switching device (30, 31) with the two contact groups (26, 27 or 38, 39) and a power consumer (44) in the floor is connected and which has an actuator (33) which is followed by the next Projectile is actuated and when it is actuated, the switching device (30, 31) into the brings one of their switching positions in which they the second contact group (38, 39) with the first contact group (26, 27) connects, and when it is not actuated, the switching device holds in its second position in which it holds the electricity consumer (44) with the first Contact group (26, 27) connects. 1 sheet of drawings © 609 578/76 7.56 (609 782 1.57)