DE2152219A1 - FULLY AUTOMATIC, OPTICAL-ELECTRONIC HIT IMAGE DISPLAY - Google Patents

Description

Fully automatic, opto-electronic hit image display add-on to patent (application P 2048280.8) The invention relates to a method and a VoXrichtung for fully automatic, opto-electronic hit image display and is an addition to that filed by the same applicant on October 1, 1970 Patent application P 2048280.8.

According to the invention on which this earlier application is based in the target plane one of several parallel light barriers for each target coordinate existing light barrier band is generated and the width of the light barriers is selected so that that it is at most twice as large as the required measurement accuracy. To carry out of the method is proposed as a source of illumination for the light barrier tape to use a surface emitter and the receiving optics of the individual light beams to be trained so that their pupil is equal to the required width of the light barrier as well as the width of the light barrier through a diaphragm placed in the image plane is limited. An electronic photo receiver is placed behind the image field, its rise and fall times are small compared to the transit time of the missile.

Behind every receiver there is an electronic amplifier with a connection Signal memory arranged. Each light barrier tape is an electronic counter allocated, which scans the memories belonging to this band in sequence and displays the memory that has been used. With the method and the device according to registration P 2048280.8, the point of penetration of a missile through the Target plane can be determined with great accuracy. In practice shows that missiles do not necessarily penetrate this plane with their axis perpendicular, but pass the hit image plane with a spatial incline. For the Assessment of the missile trajectory, it is of extraordinary interest to this inclination to know.

It is the object of the present invention to provide a method and a Developing directions that will allow you to determine which angle the axis of the missile when penetrating the target plane with the horizontal and with a straight line connecting from the point of launch to the point of penetration Forms vertical plane.

The method according to the invention is a further development of the method for fully automatic, opto-electronic hit image display according to patent (P 2048280.8) and consists in the fact that to determine the spatial inclination of the axis of the missile during its flight time when penetrating the hit image plane Puncture coordinates several times, e.g. B. ten times, determined and the results saved will.

It is useful here to switch the measuring device between each two inquiries always reset to 0.

In this way you get a number of coordinates that differ during of the flight of the missile through the hit image plane continuously change and one Allow back calculation to the inclination of the missile axis.

The method can be implemented in a simple manner if the When the missile enters the hit image plane, a sampling counter is switched on which opens the gates of the photocells one after the other at regular intervals and closes In order to carry out the process according to the invention, the must in the main patent (P 2048280.8) in claims 2-5 placed under protection device get extended.

According to a further idea of the invention, this is done in the way that each photo receiver has several, for example XeSqe ten, Memory allocated are each connected to the common pulse line via a gate circuit are. All gates are also connected to one by a common control line Sampling switch connected, which at regular intervals the gate circuits of the Photocells open and close.

The structure and mode of operation of the new circuit are based on the enclosed Illustrations explained in more detail.

1 shows the hit image plane with the flight path of the missile, FIG. 2 shows the hit image plane with trajectory in vertical section, FIG. 3 shows the circuit.

The hit image plane is denoted by 10. On the right side and one surface radiator 19, 29 is attached to the lower side of the hit image plane. Opposite the surface emitter 19 is a row of receivers 20, opposite the surface emitter 29 a row of receivers 30 is arranged. The missile path 18 penetrates the hit image plane at point 29, the position of which is determined by the xy coordinates. The track 18 of the Missile must be imagined as a spatially curved curve. In vertical section through the hit image plane 10 according to FIG. 2 is the projection of the missile path 18 in a vertical plane laid by the connecting straight line between the launch point and the penetration point shown. At the piercing point 21, the axis of the missile 8 forms an angle (with the horizontal plane, which is denoted by 20. In a similar way one can project the trajectory into a horizontal plane perpendicular to the plane of the hit image and the deviation of the trajectory from the point of launch through the connecting line - Determine the intersection point of the vertical plane.

The circuit diagram in Figure 3 represents the circuit diagram for a photo receiver The receiver is denoted by 2. An amplifier 4 is connected to it. place a memory As with the main login here are everyone Receiver allocated ten memories 5.15 ... 95. The memories are interposed from entrance gates 3, 13 ... 93 to a # pulse line 12 coming from amplifier 4 connected. In the same way, the memories are each one with the interposition further (output) gate 7.17 ... 97 connected to a common output line 22, which in turn via the service 23 to a coordinate computer 6 and from this leads to a quick storage 9. Furthermore, all entrance gates 3, 13 ... 93 are through a common power 14 is connected to a sample counter 1 and likewise all of them Exit gates 7.17 ... 97 via a common line 16.

The sampling counter is driven by a clock generator 11. Of the The clock generator is used to receive photos when the tip of the missile enters The associated light barrier is switched on and switches itself on after penetrating the hit image level off again automatically.

Each photo-receiving element of the target 10 delivers its signal "darkened" or "not darkened" - via a matching amplifier 4 to a gate circuit. This gate circuit gives the information of each individual Poto cell to z. B. ten Storage locations continue serially, provided the corresponding clock from the sampling counter 1 permitted this. It is determined in this way for each light receiving point the temporal course of dark and light in z. B. ten steps. Is the missile with its axis perpendicular to the measuring plane, the same photo elements are always created be darkened and thus the same memory locations are occupied. Lies If the missile is inclined in space, the darkening of the cells moves from the scanning 1 to scan 10 from one group of light receivers to another. In this way, a chronologically accurate mapping of the passage is determined of an arbitrarily lying missile in space in the memory locations. The evaluation this information is provided according to known methods of data processing and storage technology.

Claims (1)

Patent claims 1. Process for fully automatic, opto-electronic hit image display according to patent (application P 2048280.8), characterized in that for determination the spatial inclination of the missile's axis during the flight time of the Missile determined by the hit image plane the penetration coordinates several times and are saved regularly. 2. The method according to claim 1, characterized in that the measuring device is always reset to 0 between two queries, 3. experience after claims 1 and 2, characterized in that when the missile enters in the hit image level a sample counter is switched on, which is in regular The gate circuits of the photocells opens and closes one after the other. 4. Device for performing the method according to the claims 1 - 3, based on claims 2 - 5 of the patent (P 2048280.8), characterized in that that the photo receivers (2) several, z. B. ten, memories (5.15 ... 95) are allocated, with each photocell via a gate circuit (3.13 ... 93) and a common pulse line (12) are connected, and that all gates (3, 13 ... 93) are connected by a common control line (14) are connected to a sampling counter (1) that operates at regular intervals opens and closes the gates one after the other. 5. Apparatus according to claim 4, characterized in that the memory (5.15 * .. 95) with the interposition of a further gate circuit (7.17 ... 97) a common output line (22) are connected to a coordinate computer (6) with downstream quick storage (9) leads, and that. all Output gates (7.17 ... 97) through a common line (16) also with the sampling counter (1) are connected. 6. Device according to claims 4 and 5, characterized in that that the sampling counter (1) is controlled by a clock generator (11). Lee rTs side