DE19645906C1 - Net casting jig or framework - Google Patents

Abstract

The net is fitted with ballast weights (6) around the edge. These are shaped to fit over the radial jets (5) linked to an enclosed space (4) which is pressurised by a piston (2). The piston is rapidly moved by a pyrolytic charge (1). The gasses evolved by the pyrolytic charge are contained by the housing and the piston. The ballast weights can be retained by stops which shear at a set force. Springs under the ballast mounting are tensioned by the pressure inside the main chamber and assist in the controlled launch of the ballast weights when the retaining stops are sheared.

Description

The invention relates to a device for spanning networks according to the Generic term of claim 1.

Networks that can be spanned quickly can be used in a variety of ways for example when catching animals, as a rescue device and more recently to ward off Violent acts and break-ins. In all cases the purpose is pursued, the animal or the To catch or catch people. Considerable network sizes of 10 and needed more meters in diameter. For stretching such large networks, whereby the radial ejection of ballast weights, which the network uses their kinetic energy pull and unfold from its container, the prior art knows a number of Possibilities, such as from the publications DE 44 39 762 C1 and WO 95/00814 or DE 31 46 166 A1 and DE 43 13 281 C2. From DE 44 37 412 C2, a so-called network dispenser is known in which the pyrotechnic Combustion gases held by the sabot after being launched into a gastight seal to maintain gas pressure and to be able to additionally apply a reaction-inhibiting fluid.

However, these aforementioned embodiments have the disadvantage of being driven out the ballast weights either cold gas is used, for example from commercially available CO₂ cartridges or pyrotechnic propellants are used. In the first case, that's enough the pressure and the amount of gas available are often not enough to get a network fast and reliable clamping and in the second case, security problems arise through the open, explosive combustion of the propellant and the escape of the Combustion gases. With some known conceptions there is also a conflict with the Explosives and weapons law of the Federal Republic of Germany. In In any case, the use of pyrotechnic propellants may only be specific trained and trained personnel are used.

The present invention has for its object a device of the beginning to create the type mentioned in the activation of the grid by pyrotechnic propellants can be used safely because no open Explosion or hot gas can no longer escape.

This object is achieved by the measures indicated in claim 1. In the Refinements and refinements are specified in the subclaims  and exemplary embodiments are explained in the description. The figures of the Drawing supplement these explanations.

Show it:

Fig. 1 one embodiment of a network management device with ejection and ejection Kraftele by air pressure in a schematic representation;

Fig. 2 shows another embodiment of a network ejection device with force element and ejection by spring force in a schematic Dar position.

The general idea of the invention is to solve the problem, the Bal load weights no longer directly from the combustion gases of a gas ge accelerate nerators, but through a secondary power source, the one can be mechanical or pneumatic device and now in turn of a pyrotechnically operated, closed piston cylinder system is operated. The combustion gases remain after the so-called Working stroke in the closed combustion chamber or become slow and blown off without endangering people or property.

The exemplary embodiment outlined in FIG. 1 for the ejection of the ballast weights of a network is accelerated by means of a pneumatic device. The air pressure required for this is generated by a force element 1 set as a pump, which is ignited and as a result the piston 2 in the primary cylinder 3 moves rapidly forward and compresses the air in the secondary cylinder 4 . Through the radial nozzles 5 , the compressed air reaches the attached ballast weights 6 , which are ejected by the air pressure after a locking device 7 has been overcome.

During the compression process, the air absorbs energy that it releases to the environment when the ballast weights have already left their seats. If this loss of energy cannot be tolerated, the pneumatic system can also be completely or partially filled with a liquid, for example water. Since this cannot be compressed, it transmits the movement of the working piston 2 directly to the weights 6 that have been inserted.

In principle, there is the possibility of ejecting the ballast weights with spring force. In this case, the overall arrangement is heavily loaded by the pressure of the tensioned spring, which can lead to deformations, voltage losses and malfunctions in the course of the storage period. In addition, maintenance work is considerably complicated by the tensioned spring. Knowing these conditions, in another, shown in Fig. 2, Ausfüh approximate example of the invention, the spring 13 is stored in a relieved and relaxed state and is only tensioned when the net fishing device is activated by means of the pyrotechnic force element 11 . It should be noted that the tensioning process does not run too quickly so that the spring does not break. If the force element 11 is activated, the piston 12 moves and tensions the spring 13 . When the spring is fully tensioned, the piston 12 releases the lock 14 , whereupon the ballast weight is ejected by the spring.

Of course, various configurations and further training are still possible, for example, instead of a pneumatic system, a Fluidsy stem be advantageous, but it is essential that primary power source and seconds därkraftquelle in a housing in direct operative connection to each other hen.

Claims (8)

1. Device for spanning nets for catching and securing purposes by radial ejection of ballast weights using pyrotechnic functional elements, characterized in that the energy for accelerating the radial weights ( 6 ) is generated by a self-contained pyrotechnic primary power source and this is a secondary power source ( 4 ) feeds, which acts directly on the radial weights ( 6 ). 2. Device according to claim 1, characterized in that the Se kundärkraftquelle ( 4 ) is formed by a pneumatic system, within which the required working pressure is generated by the linear movement of a pyrotechnically operated piston. 3. Device according to claim 1 and 2, characterized in that the combustion chamber for the pyrotechnic force element ( 1 ) forms the rear end of a cylinder (Z) receiving two power sources ( 1 and 4 ), the volume of both power sources ( 1 , 4 ) are fixed by a piston ( 2 , 12 ) displaceable in the cylinder axis. 4. Device according to one of claims 1 to 3, characterized in that the piston ( 2 , 12 ) is assigned a brake element at the end of its operative movement. 5. Device according to one of claims 1 to 4, characterized in that each of the hollow and open at one end radial weights ( 6 ) of the network is in each case on a short, in the weft direction tube (R) is inserted, which is an end piece of the pneumatic secondary power source ( 4 ). 6. Device according to one of claims 1 to 5, characterized in that the secondary power source ( 4 ) is formed by a fluid system with a in compressible liquid - for example water. 7. Device according to one of claims 1 to 6, characterized in that the secondary power source ( 4 ) is formed by a steel spring arrangement ( 13 ), the steel springs ( 13 ) are not tensioned in the idle state. 8. The device according to claim 7, characterized in that the steel springs ( 13 ) are tensioned by the linear movement of the piston ( 12 ) of a pyrotechnic force element ( 11 ) and after completion of the Spannvor ganges and release of a mechanical lock ( 14 ) the ballast weights ( 6 ) eject the network.