NO151134B - TARGET SHOOTING INSTALLATION - Google Patents

Description

The invention relates to a facility of the kind specified in the introduction to patent claim 1, for target shooting, with a device for automatically detecting the hitting position on a target.

Such a facility, which is described in US-PS 4,303,853, makes redundant the indicators that are required at each firing point in normal facilities for target shooting, or each disc, to determine the hitting position and show this position on the disc using a marker, or change firing disc.

In addition, an extra person is required for each shooting range, who is responsible for carrying out predetermined shooting series and triggering the change from one shooting target to the next.

By "shooting series" is meant, among other things, different shooting disciplines and programs, where different total number of shots, different maximum times for completing the exercise, individual shots or different shot sequences in rapid shooting, different target types e.g. ring disc or figure disc etc.jwill be used.

The purpose of the invention is to carry out a facility of this kind in such a way that the person responsible for firing can also be dispensed with, while at the same time having a complete guarantee that the selected firing series are carried out correctly.

This purpose is achieved by means of a plant which is designed in accordance with the characterizing part of patent claim 1. Advantageous embodiments appear from the associated claims.

The invention makes it possible for a target shooting system of the type indicated by means of a shooting site card that is fed into the processor to connect all system parts, especially the detection device, when it becomes necessary to make the target object that has been hit visible in the target plane, and above all to program the instruction device so that its output signals correspond to the firing sequence information on the card. In this way, the instructions and indications can take place fully automatically, so that there is no need for personnel for monitoring. One only needs to change the shooting range card to quickly and safely change the facility to a new shooting series, e.g. from indication of the hitting position on a ring board after each individual shot, to a figure board according to e.g. a double shooting sequence, each of 3 shots within 30 sec. etc.

Below it is also possible to print out the shooting results in addition to the optical device.

An appropriate embodiment of the invention consists in having the shooting range card display an information field that cooperates with reading units for the processor, as it is also appropriate to design the card as a plug-in card, where the results can be printed directly using a printing unit that is integrated with the processor. Below, the relevant information can be applied to the card in the usual way, e.g. in the form of a hole code, a bar code, a magnetic track code, etc. Similarly, the processor can be structured in a generally known manner, especially when it comes to reading units, decoders, amplifiers, etc.

An embodiment of the invention will now be described with reference to the drawing, where fig. 1 shows a schematic overview of a facility according to the invention for target shooting, fig. 2 on a larger scale, a shooting range map calculated for the facility in fig. 1, while fig. 3 schematically shows the processor for the firing system, which constitutes the actual invention.

According to fig;:l, the facility according to the invention, for target shooting, comprises a target system 100 for automatic detection of the hitting position, here with a visible target target 1, which preferably can be exchanged automatically for another target target, not shown. The shooting disc 1 is provided with a target figure 2, and is carried here e.g. vertically pivotable on a pin 1' in the stand 3, as the twist causes the second target, which here lies behind the first, to swing forward in the plane of the target. This is carried out by a motor-driven turning means 20, which presses on the pin 1'. Both shooting discs are connected forwards and backwards to a measuring chamber not further marked, where e.g. there are four sound sensors or other organs that are affected by a hit. These sensors are connected to a signal amplifier 5 via wires 14.

Such a disc system can otherwise be made in the manner described in the aforementioned US-PS 4,303,853, to which reference is made.

From this patent it also appears that the sound sensors occupy a defined position in a Cartesian or polar coordinate system, and where the hit points and the hit position are obtained with the help of them, so that this does not need to be described further here either.

For this calculation of the hit points and hit position, a calculation unit 6 is used, which is connected after the amplifier 5. An output from this calculation unit 6 is connected via a wire 7 to an indicator unit 8, which comprises a hit score indicator 9 and a hit position indicator 10. Furthermore, the instruction unit 8 is provided with a point printing device 21. The hit point indicator 9 is formed here by e.g. a digital indicator for the relevant point value which is calculated by the calculation unit 6 and is passed on in the form of corresponding output signals, here e.g. "4", which in the case of a five-ringed target figure of the kind shown on shooting disc 2, means a hit in the fourth ring from the outside.

The hitting position indicator 10 consists on the other side of lamps 11, which are equally distributed around the circumference of the target circle which is imitated on the indicator unit and shows the hitting position sectorally by lighting up. For the hit T indicated on the shooting disc 2 in fig. 1, the lamp 11' in the lower sector should therefore be lit. There is also a further optical indicator 15, with a linearly progressive indication of the hit point position on the indicator unit 8. This further optical indicator is connected to a further output on the calculation unit 6 via a line 16 and to a converter unit 17 which is connected to this line.

It should be noted that the present invention can also use an indicator unit with a different design.

In order for the calculation unit 6, respectively the indicator unit 8, to be able to be ordered to only detect, respectively indicate the result according to a predetermined shooting series and, if necessary, also change discs in accordance with this series, so that this happens automatically and without the support of any helper, the shooting system's operation arranged to be controlled by a processor 30, which can be activated and programmed by means of a shooting range card 31, which carries data for a shooting series. This processor 30 is connected to the calculation unit 6 via a signal transmission channel 32 and to the motor-driven device 20 for changing disks via a signal transmission channel 33.

Such a processor 30 can be made up of conventional electrotechnical components, but requires, according to fig. 3, reading units 34 and 35 to be able to read the information entered on the shooting area card 31's information field 36 (fig. 2). Furthermore, it appears from fig. 3, that the processor 30 is provided with an easily accessible input slot 37, for manual input and output of the cards 31. In addition, the processor 30 comprises a decoding circuit, not shown, and an amplifier circuit, which transforms the coded information on the card 31 into corresponding electrical control signals that can be guided further to the calculation unit 6, respectively to the setting device 20.

In the same way as the processor 30, the cards 31 can be of different types. It is, however, appropriate that such a shooting range card 31 consists of a material that is suitably stiff for input, and that can be applied to the relevant information, e.g. in the form of hole code,

barcode or multiple track code.

For each case, the system which is designed in accordance with the invention thus allows the automatic selection of different point instructions according to the predetermined shooting series, while at the same time the correct target is set. This not only makes it possible to do without the auxiliary personnel that have been necessary until now, but it also makes the entire shooting process considerably easier and also ensures faster execution of the entire shooting event.

A further improvement of the system according to the invention is achieved by the processor 30 being integrated with a printing unit 39 (fig. 3) which is connected via wires 7' (fig. 1) to the output wires 7 of the calculation unit 6, so that the hit points can be printed on the shooting range card 31 This printing unit 39 can in this way be used alternately or in parallel with the point printing unit 21 in the instruction unit 8, which further increases the plant's versatility.

Claims (4)

1. Installation for target shooting, with a device for automatically detecting the hitting position of a shooting disc (1) in a disc system (100) with preferably two discs, which can be alternately moved into a disc plane by means of drive means (20), as the detection device comprises a group of sound-sensitive sensors, which occupy a defined position in relation to a reference coordinate system and which, in order to detect and indicate hit points and hit position, are connected to an electrical calculation unit with a subsequent optical indication device, characterized in that it comprises a processor (30), which can be activated by a shooting site card (31) with applied data about a shooting series and which sets the operation of the facility to the selected shooting series, the processor (30) being in working connection with the calculation unit (6) and with the drive (20) for the shooting disc - the system. 2. Installation in accordance with claim 1, characterized in that the shooting range card (31) has an information field (36) which interacts with reading units (34,35) for the processor (30). 3. Installation in accordance with claim 1 or 2, characterized in that the shooting range card (31) is designed as a plug-in card. 4. Installation in accordance with claim 1, characterized in that it comprises a printing unit (39) which is integrated in the processor (30) and which is arranged to be able to print the result values from the calculation unit (6) on the shooting range card (31).