DE3816657A1 - Device for alignment and triggering of a warhead - Google Patents

Abstract

The invention describes a device for a warhead which is equipped with a projectile-forming charge and is aligned and triggered with respect to a low-flying approaching aircraft with the aid of sensors and driving engine evaluation and control electronics. <IMAGE>

Description

The invention relates to a device for alignment and triggering an active body, the directional charge and sensors for Has target location and an evaluation circuit, according to the Sensor signals controllable engines ignites the deflection of the Effect direction from vertical to horizontal.

Such a device is basically from DE-PS 35 09 282 known in the mine with a horizontal or vertical direction of action is described. The mine has four horizontally active sensors, a logic circuit from the output signals Direction of approach of a moving target is determined and from this the Derives ignition timing for at least one controllable engine with whose help the direction of action of the mine is tilted in the target direction. A mine equipped in this way is against successful use Suitable targets either directly over the mine or tangentially to it drive past. The mine is against low-flying aircraft however ineffective due to their sensor arrangement.

The invention is therefore based on the object of a device for specify an active body according to the preamble, the alignment and Triggering the active body in the case of an from any direction Low-flying approaching aircraft over a longer period of use enables.

The task is carried out by a facility with the in the characterizing part of the main claim reproduced features. Beneficial Design forms result from the subclaims.

The particular advantages of the device according to the invention are included therein see that the inventive device for an alignable Active bodies each flying low or tangentially Aircraft can detect and based on the analysis and Comparison with stored target-typical data from the measured  Sizes such as flight direction, airspeed, distance and dimensions of the target calculates whether it is a combatable target and to what time engines to align the effective axis with the target and at what time the active charge itself must be triggered. Due to the proposed measures to save energy, such as for example the wake-up circuit for the main sensors and the Evaluation and control electronics, and because of the possibility of using It is the solar cells to gain energy during the operating time Device suitable for long periods of use.

An embodiment of the invention is shown in the drawing and is described in more detail below. It shows

Figure 1 is a block diagram of a device for aligning and triggering an active body.

Fig. 2 shows a blocking system from several active bodies equipped with the device.

In Fig. 1 is a block diagram of a vehicle equipped with an evaluation and control electronics E RAM active body is shown. The evaluation and control electronics E are initially connected via a data bus B 2 to the first sensor SP , which is equipped as a wake-up sensor with a wide-angle detection range. A passive infrared sensor is used as the sensor. In the provision of the active body, only the first sensor is in operation, while all parts of the evaluation and control electronics E that are not required are switched off and therefore do not consume any energy. Only when the first sensor detects a target is the electronics E switched on completely.

Via the same data bus B 2 as the first sensor SP , the interfaces ST and the safety device SE are connected to the small computer μP . The safety device SE is used in a known manner for the electrical / mechanical blocking S of the output stages VIMP and VPL , via which the controllable engines IMPX / IMPY and the project- forming charge PL are ignited .

The second sensors SX and SY , which are used to record the direction of flight, airspeed, distance and size or shape of the target, are like the memory EAM / ROM , in which typical data sets of target signatures are stored or which are necessary for the computer function. connected to the small computer μ P via the data bus B 1 . In the case of the second sensors SX and SY , provision is made to arrange two sensor groups equally for each imaginary coordinate axis X and Y with respect to the circumference of the detection area. Each sensor group has the function of a relief sensor and, in a known manner, consists of active optical elements arranged in a matrix. To increase the resolution, the four sensor groups SX, SY can be supplemented by further sensor groups DU, SV , so that the individual detection areas are reduced in circumferential direction.

The microprocessor μ P generates the ignition signals ZI and ZPL as output variables , which trigger the controllable pulse engines IMPX / IMPY or the project- forming charge via the respective output stages VIMP and VPL .

Further active bodies of the same type or a central control unit STG can be connected to the interface (s) ST via the data bus BUS . The interface ST also has a connection for manual control devices M.

Finally, an energy storage BAT in the form of a rechargeable battery is provided for the power supply, the energy content of which is recharged via solar cells SOL during the operating time.

Fig. 2 shows a locking system consisting of a number n of identical submunitions RAM 1. . . RAMs that are linked together via a data bus BUS . In addition, a central control unit STG can also be connected to the data bus BUS , which can also be equipped with a friend / foe detection device IFF .

In individual cases, the approaching aircraft is analyzed with the second sensor working as a relief sensor, and its signature is compared with data records obtained and stored before use. If a combatable target is determined, the operating conditions such as flight speed, direction and distance of the aircraft are measured and from this, based on the movement models stored in the RAM / ROM , the selection of a suitable engine and the calculation of its optimal ignition timing are carried out. At the same time, the correct ignition timing for the project-forming charge is determined, at which the effective axis of the charge is aimed directly at the target, taking into account the lead angle.

Claims (4)

1.Device for aligning and triggering an active body, which has a directed charge and sensors for targeting and an evaluation circuit which ignites controllable engines in accordance with the sensor signals, which cause the deflection of the direction of action from the vertical to the horizontal, characterized in that the Active body ( RAM ) has first and second sensors (SP; SX; SY) - based on a vertical active direction after the active body ( RAM ) has been laid - has concentric detection areas which are divided into at least three evenly arranged detection fields, the first sensor (SP) is designed as a passive infrared sensor with a wide-angle detection area and the second sensor (SX, SY) as an active optical sensor with a smaller detection area than the first sensor, and the first and the second sensor with a small computer (µP) of an evaluation - And control electronics (E) is linked such that in the Provision is activated only the first sensor (SP) , which only activates the second sensor (SX; SY) and the small computer (µP) of the evaluation and control electronics (E) , and in the focus the target signature signals (B 1 ) measured by the second sensor (SX, SY ), with the help of a small computer (µP) are compared with stored signals (RAM / ROM) and from these the ignition signals (ZI, ZPL) for the engines (IMPX, IMPY) and the directed charge (PL) are calculated. 2. Device according to claim 1, characterized in that the evaluation and control electronics has an interface (ST) for connecting an operating device (M) . 3. Device according to claim 1 or 2, characterized in that the evaluation and control electronics has an interface (ST) for connecting further active bodies of the same type. 4. Device according to one of claims 1 to 3, characterized in that the evaluation and control electronics (E) are fed by means of solar cells (SOL) attached to the active body housing.