RO68255B1 - GHOST EXPLOSIVE - Google Patents

Abstract

The invention relates to an explosive claw used for separating anchor cables in dredging operations. According to the invention, the explosive claw comprises a hydraulic piston (A), an assembled body (B), an action device (C), a detonator (D) and a sealed body (E). The hydrostatic piston (A) is driven by the hydrodynamic pressure exerted on the water, producing the reinforcement. Body (B) command the explosion, with a claw mechanism mounted in it. The percussion of the claw is commanded by the action device (C), and, finally, explosive destruction of the anchor is carried out.

Description

The invention relates to an explosive claw, used for separating mines from anchoring cables, in dredging operations.

Submarine explosive devices are known, which include a detonator, which is triggered by the pressure of water exerted on a membrane located in a housing of the device, the membrane pressing a piston which, in turn, acts on the priming mechanisms, producing the explosion of the underwater weapon. .

Known submarine explosive devices have the disadvantage of low operating safety and high cost price.

The explosive claw, according to the invention, removes the disadvantages shown above, in that, in order to remove the mechanical scissors from the dredging end, it comprises a hydrostatic piston, which is actuated by the hydrodynamic pressure exerted at the advancement of the claw in water producing its armature, a body. which are the subassemblies of the claw and control its explosion, an actuator that triggers the percussion of a watertight detonator, which initiates the detonation of the explosive charge and a watertight charged body, which ensures the explosion destruction of the mine anchorage by explosion.

The following is an example of embodiment of the invention in connection with FIG.

1 ... 5, which represents:

FIG. 1, an overview with a partial section of the explosive ice;

FIG. 2, side view of a hydrostatic piston;

FIG. 3, section, vertically, through the actuator;

FIG. 4, section, in vertical plane, by detonator;

FIG. 5, view, in vertical plane, with partial section through the loaded body.

The explosive claw is mounted on the arm of a mechanical, maritime or fluvial dredger, existing or of a type intended for equipping ships or helicopters specialized in dredging. It is mounted on a drill arm, from which the mechanical scissors were dismantled. It consists of a hydrostatic piston A, an assembled body B, an actuator C, a detonator D and a charged body E. The hydrostatic piston A produces the reinforcement of the ice under the action of hydrodynamic pressure, which occurs when it enters the water. It consists of a membrane 1 on which the hydrodynamic pressure is exerted, a rod 2 with which it makes common body, by means of a nut 3 and a spring 4. The assembled body B in which the subassemblies of the ice are mounted and which controls its explosion 5, another cable with ring 6 fastened by a lower body 7 which is assembled with an upper body 8, made of aluminum alloy, inside them being placed, a spring 9, a piston 10, a ball 11 and a cylinder 12, provided with a arm 13 on the outside and with a spring 14 inside and assembled at the end with a claw sleeve 15. When moving the rod 2 under the action of hydrostatic pressure, the ball 11, driven by the spring 9 pre-compressed by means of the piston 16, moves towards the inside of the upper body 8, producing the unlocking of the cylinder 12, which brings the explosive claw to the operating position. When the anchorage of a mine is in contact with the sleeve 15, the movement of the arm 13, the cylinder 12 and the sleeve 15 takes place, which compresses the spring 14. The actuator C, which provides the percussion, is formed by a support 16 of the lever 17 and executes a rotational movement around the axis 18, moving the breaking rod 19 inside the support 16, compressing the spring

20. Detonator D, which initiates the explosive charge detonation, is a watertight construction and comprises a mechanical safety 21, a top cover 22, a piston 23, a ball 24, a bush 25, a spring 26, a spring 27, a spring 27, a spring 28, an inner shell 29, an outer shell 30, a detonated staple 31, and a trotter

32. Breaking rod 19 breaks the retaining wall of lid 22 and sets piston 23 in motion, compressing the spring

26. When the piston piston 23 reaches its minimum diameter near the balls 24, the bolt 27 is released and, under the action of the preloaded spring 28, it strikes the cap 31, producing the detonation, in the chain, of the bolt 32 and of the loaded body E held to destroy the cord. mine anchorage. The body E is watertight and comprises a body 33, a threaded plug 34, two rings, 35 and 36, a lid 37, a gasket 38, a sheath 30, a gasket 40 and an explosive charge 41. To ensure a maximum effect of destruction, the thickness of the surface wall of the contact with the anchoring wire of the mine is minimal, the wire being cut at the ice blast. The explosive ice that did not meet the mine during dredging, when it comes out of the water, returns to its original position, under the action of the pre-compressed spring 4.13 and 15.

The explosive claw according to the invention has the following advantages:

- replaces the mechanical scissors, equipping the mechanical belts, ensuring the explosion cutting of the mine anchorages;

- it is armed only in water, under the action of the forces that appear when advancing during dredging, and if it does not meet the mine, it returns to its original position, for reuse;

- it does not have any fuses under construction which require them to be removed before launch.

Claims (1)

Explosive claw, used for dredging, characterized in that, for the purpose of explosion cutting of the mine anchor cable, it comprises a hydrostatic piston (A), an assembled body (B), an action device (C), a detonator watertight (D) and a watertight charged body (E), 5 hydrostatic piston (A), which is actuated by the hydrodynamic pressure exerted at the water forward producing the claw reinforcement, consisting of a membrane (1), a rod (2) , a nut (3) and a spring (4), the assembled body (B) in which the sub-assemblies of the claw are mounted and which controls its explosion, being formed by two cables with ring (5.6) fixed by a lower body (7) assembled with an upper body (8), within which they are mounted, a spring (9), a piston (10), a ball (11), a cylinder (12), an arm (13), a spring (14) and a claw sleeve (15); the actuator (C), which triggers the percussion of the claw, consisting of a spring (16), a lever (17), a burst rod (19) and a spring (20), the sealed detonator (D) which initiates the detonation of the load explosive, consisting of a mechanical safety (21), a top cover (22), a piston (23), a ball (24), a bush (25) a spring (26), a bolt (27), a spring (28), an inner sheath (29), an outer sheath (30), a detonating staple (31) and a throttle shaft (32); and the watertightly loaded body (E), which ensures the explosive destruction of the mine anchor wire, consists of a body (33), a threaded plug (34), two rings (35, 36), a cap (37), a gasket (38), a sheath (39), a gasket (40) and an explosive charge (40) and for the use of explosive ice by surface vessels or helicopters changes the size of the spring (14) of the assembled body ( B).