DD300566A5 - Method for releasing a mechanically strained buoyancy body - Google Patents

Abstract

The invention relates to a method for releasing a mechanically strained buoyancy body, which finds use in the exercise of simulation of the detonation of a mine destruction charge. The invention has for its object to develop a method for releasing a mechanically strained buoyancy body, which allows a always with the same, only a small footprint claiming, components repeatable and by remote operation variable simulation of the detonation of a mine destruction charge. According to the invention, this object is achieved in that in a ballast body a pyrotechnic propellant which is known per se and triggered by an electrical ignition pulse acts on a displaceably mounted surface with inclined surfaces, releasing a spring-loaded passport piece with behind-turned head adapted to this plate and thus the buoyancy body. wherein the plate after completion of Zuendvorganges and release of the buoyancy body is retrieved by one or more times arranged compression spring elements in the starting position and can be carried out a new tension.

Description

For this 1 page drawings

Field of application of the invention

The invention relates to a method for releasing a mechanically strained buoyant body, which is used in the practice-related simulation of the detonation of a mine destruction charge.

Characteristic of the known state of the art

Various release mechanisms are known, which are able to release under water loads held. The release mechanism can be operated by different means. Thus, as described in DE-OS 3001 212, by defining a release time, an independent release of a buoy. This buoy remains connected to the release of a control path via a pivoting clamping hook and elastic straps with the mine. The time of release is fixed and determined by the dissolution time of a single crystal used. Due to this specified time of increase, the variant of the invention according to OE-OS 3001212 can not be used for every application.

Another underwater release device is described in DE-OS 2413 490. It uses an electrically remote-controlled explosive charge, which acts on a release mechanism.

On receipt of a signal, explosive devices propel a piston against a release arm that is pivotally supported. This release arm is located at one end on a piston, and with the other a slip hook is released during piston movement. The load to be released attacks with its direction of force at the point of the slip hook of the slip hook and is thus able to move it. The rotation of the slip hook leads to a release of the load.

By a suitable determination of the arm lengths and the pivot points of the release arm and Slipphaken low support and actuation forces at large Haliekräften are reasilierbar.

However, this solution has the disadvantage that this mechanical release mechanism assumes a stretched shape and thus a further space is required for the movement space of the slip hook.

Thus, these known technical solutions of the requirement that the volume of a Übungsminenvernichtungsladung is primarily required for a large buoyant body, do not do it justice.

Object of the invention

The aim of the invention is to develop a method for releasing a mechanically strained buoyant body, which allows a simulation according to the simulation of the detonation of a mine destruction charge without the use of explosives.

Explanation of the essence of the invention

The invention has for its object to develop a Vsi drive to release a mechanically strained buoyancy body that allows a consistently with the same, only a small footprint claiming components repeatable and variable by remote simulation of the detonation of a mine destruction charge.

Erfinduniisgemaß the object is achieved in that in a Eallastteil a known, triggered by an electric ignition pulse pyrotechnic propellant acts on a slidably mounted plate with inclined surfaces, which releases a plate adapted spring-loaded fitting with behind-turned head and thus the buoyant body, said the plate after completion of the ignition and release of the buoyant body is retrieved by one or more times arranged compression spring elements in the starting position.

The propellant is located in holes opposite the plate in the housing and is triggered with an ignitor, as it is used in the mine destruction charge. Propellants and holes are provided with corresponding threads. When the propellant is triggered, a gas pressure develops which abruptly transfers from the bores to the plate. If the gas pressure of the propellant exceeds the sum of the forces of the compression spring elements, the frictional forces between the plate and the back-turned head of the spring-biased fitting and the inertial forces of the plate, there is a displacement of the plate in the direction of the compression spring elements, wherein the support is omitted. The spring-biased fitting moves independently, and the compression spring elements push the plate back into the position assumed before the propellant sets are triggered. The bias of the buoyant body and the ballast parts is canceled and initiated the release of the buoyant body.

After completion of the ignition and release of the buoyancy body, the tension can be easily re-established by the fitting is pressed against the plate. The inclined surfaces of the plate and the back-turned head facilitate the necessary movement of the plate against the forces of the compression spring elements.

If the head turned backwards is above the surface of the plate, it is pushed by the compression spring elements under the back-turned head. With the movement of the back-turned head, the tensile forces of the spring-biased fitting are rebuilt and maintained by the support of the spring-biased fitting on the plate. The necessary tension is restored. After replacement of the consumed propellant and connection to the ignitor reusability is established.

The method according to the invention makes it possible to simulate a detonation of a mine-burning charge without the use of explosives in an exercise-like manner, wherein the illustration of the successful completion of the destruction of the mine is carried out with the aid of a buoyant body. The operation without explosives offers the advantage of a great handling simplicity and the always repeatable use of the same components. The constructive solution used takes up no additional space.

The release of the buoyancy body for training purposes is triggered in the same way, by remote control, such as the ignition of the mine destruction charge. The time of release of the mechanically strained buoyancy body can be made variable and is not dependent on time constraints.

A further advantage is that in this described method of releasing a mechanically strained buoyant body there is no general need for the sealing of sensitive trigger mechanism against seawater.

Only the propellants are waterproof. The installation and removal of the propellant can be done quickly and easily by the appropriate design of the thread of propellant and drilling.

The invention will be explained in more detail using an exemplary embodiment.

The figures shown in the drawings show

Figure 1: schematic arrangement of the components in the clamped state Figure 2: view of the release-ready housing

(sectional view) Figure 3: Top view of the housing ready for release

(cut representation).

exemplary

The Übungsminenvernichtungsladung for the process for releasing a mechanically strained buoyancy body used according to Figure 1 consists of the ballast parts 2 and 3 and the buoyancy body 1 as the main components.

The mechanical tension is in accordance with Figure 2 by means of a spring-biased fitting 4 with behind-turned head 8, which is based on a displaceably mounted plate 6, prepared. An unintentional displacement of the plate 6 counteract compression spring elements 7. They are available in duplicate and ensure, as the back-turned head 8 can not release unintentionally, a secure clamping of the buoyancy body 1 in each position of use. The arrangement of the compression spring elements 7 in the housing 5 is shown in FIG. For a secure bracing, it proves to be advantageous if the applied tensile force of the spring-biased fitting 4 is chosen to be greater than the buoyancy of the buoyancy body 1 and approximately equal to the weight of the entire Übungsminenvernichtungsiadung.

Furthermore, from Figure 3, the installation of two electrically triggerable propellant charges 10 in Bohrui conditions 9 of the housing 5 can be seen. The holes 9 and the compression spring elements 7 are opposite to the opposite Se th the plate 6, so that the plate 6 gegon the inner ends of the holes 9 is printed. The outer ends d 3t holes 9 are partially designed as threaded holes in which the thread 11 of the propellant charges 10 screwed sii d and the holes 9 in the housing 5 close to the outside. A watertight seal is not available, and special sealants are not necessary. Only the propellant charges 10 must be made watertight in accordance with the pressure conditions of the insert. Upon actuation of the propellant charges 10 by an electrical ignition pulse they develop in the holes 9 a pulse-like gas pressure acting on the voltage applied to the openings of the holes 9 plate 6. Exceeds the gas pressure acting on the plate 3 force sum of the compression spring, inertia and frictional forces, it is abruptly moved, the support of the back-turned head 8 is lifted on the plate 6. The spring-biased fitting 4 is withdrawn before knocking back the plate 6 in its initial position out of the housing 5. The tension of the buoyancy body 1 is so

canceled. To shift the plate 6, a stocking amount of 250 mg to 400 mg of a pyrotechnic propellant per propellant 10 is sufficient. The constructive design a'ler parts and the type of blowing agent determine the stocking quantity. By moving the back-turned head 8 against the inclined surface of the plate 6 until it again engages under the back-turned head, a renewed tension of the buoyancy body 1 can be achieved. The compression spring elements 7 ensure the required movement of the plate 6 during the tensioning.

Claims (4)

1. A method; .ur release of a mechanically strained buoyancy body (1), which is located to simulate the detonation of a mine destruction between two ballast files (2,3), characterized in that in a Baiastteil (2) a εη known, from a electrical ignition pulse triggered pyrotechnic propellant charge (10) on a displaceably mounted plate (6) acts with inclined surfaces, the one of this plate (6) adapted spring-loaded fitting (4) with behind-turned head (8) and thus the buoyancy body (1) releases the plate (6) after completion of the ignition and release of the buoyant body (1) by one or more times arranged compression spring elements (7) is brought back to the starting position and a renewed mechanical tension can take place. 2. The method according to item 1, characterized in that the propellant charge (10) in bores (9) relative to the plate (6) in the housing (5). 3. The method according to item 1 and 2, characterized in that din propellant charges (10) and bores (9) are provided with corresponding threads. 4. The method according to claim 1, characterized in that the buoyancy body (1) can be mechanically clamped again by the de-energized head (8) against the inclined surface of the plate (6) is pressed and the compression spring elements (7) first a retreat and then allow movement of the plate (6) in the starting position and a support of the spring-biased fitting (4) on the plate (6).