DE3709742C2 - - Google Patents

Description

The invention relates to an electrical energy supply device according to the preamble of claim 1.

Such a device is from DE-PS 29 04 501 in the form of a hollow cylindrical, radially stressed piezo generator. In particular, the invention relates to a power supply direction for spin-stabilized shot and then aerodynamic decelerated sub-ammunition, such as from issue 9/1986 of the magazine WEHRTECHNIK (page 47 bottom left) is known.

The invention is based, an easy to assemble the task but to create a highly functional energy supply facility, which in particular even after swirl reduction via a necessary function time period for the operation of the sensor and ignition circuits provides required electrical energy.

According to the invention, this object is achieved by that the generic power supply device according to the characteristic Drawing part of claim 1 is designed.  

After this solution the thermally activated technology is used rechargeable batteries, which are used by means of an external Initiation of ignited fire by thermoelectric reaction or due to the liquefaction of an electrolyte by chemoelectric Response a relatively heavy-duty electrical voltage source provided. Such a thermoelectric battery can be constructed according to DE-OS 34 38 155. But it is preferred to activate bare thermal batteries, such as those used in DE-OS 26 09 562 known or from the company Eagle Picher as thermal batteries are brought to the market.

Additional alternatives and further training as well as further features and advantages of the invention result from the further claims and, also taking into account the statements in the context version, from the description below one in the drawing below Restriction to the essentials is highly abstract but approximate Preferred implementation example outlined to scale game to the solution according to the invention.

The only figure in the drawing shows in broken longitudinal section the installation of a Power supply device in a submunition.

The sectional view shows the submunition 11 in the vicinity of its cylinder wall 12 when its energy supply device 13 is not activated. This consists of a thermal battery 14 with an activation device 16 arranged coaxially to it in front of its ignition element 15 . The battery 14 and its activation device 16 are arranged with their longitudinal axis 17 parallel to the longitudinal axis of the ammunition 11 , but offset against this ammunition axis towards the wall 12 , arranged in a cavity 18 in the ammunition structure 19 next to the sensor and security device 20 .

The function of the activation device 16 is initially blocked by means of a locking member 21 , which, as shown, is a scanning pin 22 in the simplest case. After the ammunition 11 has been moved , that is to say when it has been fired from a tube, ejected from a carrier body or released from a transfer assembly, a scanning opening 23 is released in front of the pin 22 , which in the example shown in the drawing is still adjacent to the structure 19 Swirl blade 24 is covered, which can only lift off the structure wall 12 and only when the spent ammunition 11 rotates in free flight. Due to the centrifugal forces that occur, the locking pin 22 , which is displaceably mounted transversely to the ammunition axis and thus to the swirl axis and which scans the opening 23, can be displaced radially outward through the opening 23 then opened (and held in a displaced position or simply flung out completely). In any case, the pin 22 releases, for example with its locking end 25 , the activating device 16 so that it can initiate the ignition element 15 and thus activate the battery 14 for the electrical power supply.

The activation device 16 preferably consists of a stamp 26 with a piercing needle 27 for initiating the ignition element 16 by mechanical impulse application. For this purpose, when the activation device 16 is released by the scanning pin 22 , the plunger 26 is pushed until it is braked by the ignition element 15 by means of a force element 28 , which in the preferred embodiment shown is a prestressed cylinder spring 29 which is in the pot-shaped cavity 30 of the plunger 26 is supported and guided from the rear engaging. The hollow punch 26 itself preferably experiences a longitudinal guide parallel to the swirl axis of the ammunition 11 in a hollow cylinder 31 , which has a flange 32 on the outside for mounting in the ammunition structure 19 as well as for the radially oriented guide of the stylus 22 .

This also results in a particularly easy installation option for the activation device 16 into the mounting cavity 18 from an adjacent brake screen packing space 33 , with the tensioned spring 29 being locked by the pin 22 which is pushed laterally in front of the punch 26 before the pin with its Ignition element 15 provided battery 14 is inserted behind the activation device 16 secured in this way.

Claims (6)

1. Electrical energy supply device ( 13 ) for twist-stabilized ammunition ( 11 ), characterized in that a centrifugal force radially displaceable to the longitudinal axis of the ammunition locking member ( 21 ) for a force element ( 28 ) in the direction transverse to the centrifugal direction loaded loading needle ( 27 ) is provided, in the feed path of which the ignition element ( 15 ) for the incendiary device of an activatable thermal battery ( 14 ) is arranged. 2. Power supply device according to claim 1, characterized in that a force element ( 28 ) is provided in a hollow punch ( 26 ) guided biased spring ( 29 ) with arrangement of the initiating needle ( 27 ) on the punch ( 26 ). 3. Power supply device according to claim 2, characterized in that the stamp ( 26 ) is guided in a hollow cylinder ( 31 ). 4. Power supply device according to claim 3, characterized in that the hollow cylinder ( 31 ) is equipped with a flange ( 32 ) for mounting on the ammunition structure ( 19 ) and for guiding the locking member ( 21 ). 5. Energy supply device according to one of the preceding claims, characterized in that the locking member ( 21 ) is designed as a scanning pin ( 22 ) behind a functionally releasable scanning opening ( 23 ) in the structural wall ( 12 ) of the ammunition ( 11 ). 6. Power supply device according to claim 5, characterized in that the scanning opening ( 23 ) is covered by a swirl wing ( 24 ) which can be pivoted outwards on the structural wall ( 19 ) of the ammunition ( 11 ).