EP0797070A2 - Système de gestion pour galerie de tir - Google Patents

Système de gestion pour galerie de tir Download PDF

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Publication number
EP0797070A2
EP0797070A2 EP97104418A EP97104418A EP0797070A2 EP 0797070 A2 EP0797070 A2 EP 0797070A2 EP 97104418 A EP97104418 A EP 97104418A EP 97104418 A EP97104418 A EP 97104418A EP 0797070 A2 EP0797070 A2 EP 0797070A2
Authority
EP
European Patent Office
Prior art keywords
target
shooting range
shooting
band
computer
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP97104418A
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German (de)
English (en)
Other versions
EP0797070A3 (fr
EP0797070B1 (fr
Inventor
Karl Stefan Riener
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Individual
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Individual
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Filing date
Publication date
Priority claimed from DE1996111041 external-priority patent/DE19611041C2/de
Application filed by Individual filed Critical Individual
Publication of EP0797070A2 publication Critical patent/EP0797070A2/fr
Publication of EP0797070A3 publication Critical patent/EP0797070A3/fr
Application granted granted Critical
Publication of EP0797070B1 publication Critical patent/EP0797070B1/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J11/00Target ranges
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J5/00Target indicating systems; Target-hit or score detecting systems
    • F41J5/04Electric hit-indicating systems; Detecting hits by actuation of electric contacts or switches

Definitions

  • the present invention relates to a shooting range management system and a method for operating one or more shooting ranges, in particular in competitions at different event locations.
  • the invention further relates to a shooting range with an automatic hit evaluation and a method for carrying out an automatic hit evaluation.
  • Conventional shooting ranges usually consist of several shooting ranges, in which a large number of shots are fired at one or more shooting targets or other target objects.
  • a hit evaluation is carried out at each shooting range after one or possibly several shots, e.g. with the help of an electro-optical scanning device, and displayed to the shooter on a screen at the respective shooting range. This enables each shooter to individually control his shooting performance.
  • Shots are fired at conventional targets, in the form of an endless paper tape be moved into the firing position by an automatic transport device.
  • DE 41 13 677 A1 also describes a shooting range in which bombarded shooting targets are mechanically transported from a target supply to a shooting position and evaluated immediately after bombardment with an optical scanning device.
  • the known shooting ranges are generally designed for independent operation of the individual shooting ranges of a shooting range, but at most only a few shooting ranges are linked to one another. Therefore, the known devices and methods of the type mentioned do not meet the requirements of modern, in particular competitively operated, shooting ranges. In some cases, shooting competitions are already taking place at which different shooting disciplines are held at different event locations. In the future, it can be assumed that competitive sports in general, but shooting competitions in particular, will become increasingly decentralized. This saves in particular the cost-intensive and time-consuming journey of the athletes to a central event location.
  • the object of the invention is to provide a method and a device with which several shooting ranges and several shooting ranges of one or each shooting range can be operated together.
  • the invention then provides a shooting range management system for operating one or more shooting ranges, in particular competitively at different event locations, with at least one event computer for operating and / or monitoring one or more shooting ranges of the or each shooting range and at least one administration computer for managing and evaluating the event data received by the or each event computer.
  • the current shooting mode of each shooting range is determined with the aid of a monitoring device and processed electronically in the form of monitoring signals.
  • the monitoring signals are then transmitted to at least one central administration computer for further use at other shooting ranges.
  • the invention thus creates a type of communication system between different shooting ranges and the shooting ranges of each shooting range, which is particularly suitable for operating a shooting competition at different, locally separated, competition venues. But also for recreational use, several shooting ranges that are spatially separated from one another can communicate with one another with the aid of the shooting range management system according to the invention.
  • each administration computer is preferably connected to a display device for displaying the shooting results, the pictures of the shooters and / or any audience present, as well as a log printer for outputting the shooting results and / or a media adapter on one or any other shooting range.
  • Another object of the invention is to provide a shooting range management system of the type described above to ensure a reliable and objective hit evaluation.
  • the shooting range according to the invention with automatic hit evaluation comprises a transport device for transporting a target band into a firing position, an aperture with an aperture corresponding to the desired target level, which is arranged in front of the target band in the firing direction, and an evaluation device, in particular an electro-optical scanning device, past which the bombarded target band passes becomes.
  • a target field is generated by the above-mentioned aperture arranged in front of the target band, the bombarded target band is preferably scanned electro-optically and the scanned image is processed electronically for further use.
  • a light aperture is preferably arranged in front of a dark target band so that a conventional target appears in the target field from the shooter's point of view.
  • Consumables are also composed of the aperture and the target band.
  • the consumables consist of the targets.
  • a exact target determination is only possible with conventional targets if one target is used per shot. This results in considerable costs for continuous operation.
  • the target range is "used up"; the panel, on the other hand, is only hit accidentally and damaged in the process. It is therefore seldom necessary to replace it.
  • the target tape is transported further depending on the user's request. The user thus has a direct influence on the consumption of the target band and aperture.
  • the diaphragm can be equipped as an aperture band with one or more aperture openings, the aperture band being able to be moved into and out of the firing position by means of a transport device.
  • the transport device is preferably equipped with an electronic scanning device, which is coupled to the control of the evaluation device, and along which the diaphragm band can be moved in order to determine the exact position of the diaphragm opening.
  • the desired aperture opening can also be produced with the aid of a tool, preferably a stamping tool, arranged in the vicinity of the aperture band, the aperture opening also penetrating the target band located directly behind it.
  • the position of the diaphragm opening in the diaphragm band can also be determined by scanning the opening in the target band.
  • a further object tape - seen in the weft direction - in front of the aperture the object tape being able to be moved into and out of the shooting position via a transport device and preferably on one with which Control of the evaluation device coupled - electronic scanning device can be passed.
  • the slide contains one or more Recesses, which correspond to the outline of the desired target objects, for example an animal shape, and map the target objects onto the aperture surface behind.
  • FIG. 1 shows an example of a shooting range management system which is provided for the organization of shooting competitions for sport shooters, which take place at different competition locations.
  • the shooting range management system according to the invention is suitable for any, even recreational, operation of several shooting ranges in one shooting range and several different shooting ranges.
  • FIG. 10 shows a media institution 1, which is connected via a line 99 to an administration computer 11 - hereinafter called the competition computer.
  • the media agency exchanges 99 data about the competitions that it distributes over the line.
  • the competition computer 11 is connected to a wide area network (WAN) 16 via a line 98.
  • the competition computer 11 exchanges the data from the other systems participating in the competition via the line 98.
  • the WAN 16 can be a publicly accessible network. All other systems participating in the competition are connected to the WAN 16.
  • Another competition computer 12 is connected to the WAN 16 via a line 97.
  • the competition computer 12 exchanges the data from other systems participating in the competition via the line 97.
  • a competition computer 13 is connected to the WAN16 via a line 96.
  • the competition computer 13 exchanges the data with the other systems participating in the competition via the line 96.
  • a competition computer 14 is connected to the WAN 16 via a line 95.
  • the competition computer 14 exchanges the data via line 95 with other systems participating in the competition.
  • the competition computer 13 is connected to a LAN 51 via a line 79 and uses line 79 to exchange data of the systems participating in the competition via the LAN 51.
  • the competition computer 14 is connected to the LAN 51 via a line 78 and exchanges data via the line 78 via the LAN 51 of the systems participating in the competition.
  • a media institution 15 is connected to the WAN 16 via a line 94 and exchanges data via the line 94 with the system participating in the competition, the data of which are disseminated via the media institution.
  • An event computer 20 - hereinafter called the shooting range computer - is connected to the WAN 16 via a line 93.
  • the firing range computer 20 uses line 93 to exchange data relating to the competitions over the WAN 16 with other systems involved in the respective competition.
  • the firing range computer 20 is connected to the local area network (LAN) 21 via a line 89 and exchanges data with other subordinate systems via the line 89.
  • the shooting range computer 20 is also connected to the shooting ranges 28 and 29 via a line 85 and exchanges competition data with the shooting ranges 28 and 29 via the line 85.
  • Another shooting range computer 22 is connected to the LAN 21 via a line 87 and exchanges data via the line 87 with the other systems participating in the competition via the LAN 21.
  • the shooting range computer 22 is also connected via a line 81 to the shooting ranges 23 and 24 and exchanges competition data with the shooting ranges 23 and 24 via the line 81.
  • a shooting range computer 25 is connected to the LAN 21 via a line 86 and exchanges data via the line 86 with the other systems participating in the competition via the LAN 21.
  • a shooting range computer 30 is connected to a line 92 with the WAN 16 and uses line 92 to exchange data over the WAN 16 with the other systems participating in the competition. Furthermore, the shooting range computer 30 is connected to a shooting range 31 via a line 84 and exchanges data with the shooting range 31 via the line 84.
  • Another shooting range computer 40 is connected to the WAN 16 via a line 91 and exchanges data via the line 91 with the other systems participating in the competition via the WAN 16.
  • the shooting range computer 40 is also connected to a shooting range 41 via a line 83 and exchanges data with the shooting range 41 via line 83.
  • a shooting range computer 50 is connected to the WAN 16 via a line 90 and exchanges data with the other systems participating in the competition via the line 90 via the WAN 16.
  • the firing range computer 50 is also connected via a line 88 to a media institution 52 and exchanges data with the media institution 52 via line 88 for further distribution.
  • FIG. 2 shows a section of a shooting range management system of the type described in FIG. 1, namely the internal structure of the three most important functional elements of the competition system using the example of an administration computer, an event computer and an associated shooting range.
  • a media adapter 101 is connected to a management computer 106 via a line 110.
  • the media adapter 101 forwards the data of the competition from the administration computer 105 to the media for distribution.
  • a large-screen display 102 is connected to the management computer 106 via a line 111.
  • the administration computer 105 displays the course of the competition and the competition results for the public at the location of the administration computer 106 via the large-screen display 102.
  • a LAN adapter 103 is connected to the management computer 106 via a line 112.
  • the management computer uses the LAN adapter 103 to exchange data with the other systems connected to the LAN.
  • a result display 104 is connected to the management computer 106 via a line 113.
  • the management computer 106 uses the result display 104 to display the course of the competition and the competition results in small format.
  • a log printer 105 is connected to the management computer 106 via a line 114.
  • the administration computer 106 outputs all competition-relevant data in paper form for documentation purposes via the log printer 105.
  • a billing system 108 is connected to the management computer 106 via a line 117.
  • the management computer 106 passes on data for monetary competition settlement via line 117.
  • the accounting system 108 calculates the costs incurred by the competition participants.
  • the management computer 106 is connected to a WAN adapter 107 via a line 115.
  • the management computer 106 exchanges data with the WAN adapter 107 via the line 115.
  • the WAN adapter 107 is connected to the WAN 16 via a line 116.
  • WAN adapter 107 exchanges data with the WAN via line 116.
  • the WAN adapter 107 connects the management computer 106 to area-oriented networks. This includes the publicly accessible data networks and the telephone network.
  • the WAN 16 is connected to a WAN adapter 122 via a line 136.
  • the WAN adapter 122 exchanges data with the WAN 16 via the line 136.
  • the WAN adapter 122 is connected to a result computer 126 via a line 132.
  • the result computer 126 uses line 132 to exchange data with the WAN 16 via the WAN adapter 122.
  • a log printer 121 is connected to the result computer 126 via a line 131.
  • the result computer 126 sends data for logging on paper to the log printer 121 via the line 131.
  • An audience camera 120 is connected to the result computer 126 via a line 130.
  • the audience camera 120 captures the image and sound of what is happening around the actual competition and transmits it in the form of data to the result computer 126 for further distribution over the WAN 16. There, the data can be received by all systems connected to the WAN 16 and used further.
  • a media center audience 123 is connected to the result computer 126 via a line 133.
  • the result computer 126 exchanges data with the media center audience 123 for forwarding to the audience located at the location of the result computer 126.
  • the result computer 126 can fetch the data from the same location or fetch it from the other locations via the WAN 16.
  • a LAN adapter 124 is connected to the result computer 126 via a line 134.
  • the line 89 is connected to the LAN adapter 124. Exchanges via line 89 the result computer 126 communicates data with the other systems connected to the LAN.
  • a media adapter 125 is connected to the result computer 126 via a line 135.
  • the media adapter 125 outputs the data transmitted via the line 135 to the media institutions for further distribution.
  • the result computer 126 is connected to an evaluation 140 via the line 85.
  • the evaluation 140 determines the hits at the shooting range 28 and coordinates the data exchange between the result computer 126 and the subsystems connected to the evaluation 140.
  • a rifle camera 141 is connected to the line 152 with the evaluation 140.
  • the rifle camera captures the image of the location of the firing of the shot and passes this on to the evaluation 140 via line 152.
  • the image can be called up from all systems connected to WAN 16.
  • a target 142 is connected to the evaluation 140 via a line 153.
  • Target 140 exchanges data with evaluation 140 via line 153.
  • the data to be exchanged include the hit data itself, the release data, when hits can be recognized as valid and all other data as is necessary for regular competition management in accordance with the UIT guidelines.
  • a media center stand 143 is connected to the evaluation 140 via a line 154.
  • Media center booth 143 receives data from the course of the competition via line 154 and displays it in the vicinity of target 142 in accordance with the wishes of the user.
  • a media center contactor 144 is connected to the evaluation 140 via a line 151.
  • the media center shooter 144 represents the course of the competition at the location of the shot, according to the wishes of the user.
  • a gunner 164 is at the firing point. He fires his shots at target 142 over route 161. The location of the shot is determined in the competition rules of the UIT depending on the different shooting disciplines.
  • a target camera 145 captures the image of the target 142 over a distance 162.
  • the target camera 145 is connected to the evaluation 140 via a line 155.
  • the target camera transmits the image data via line 155 to the evaluation 140 for further distribution over the WAN 16 and for distribution to the local output media protocol printer 121, media center audience 123, media adapter 125, media center booth 143 and media center shooter 144 in accordance with the settings of the user.
  • An identification system (ID system) 148 is connected to the evaluation 140 via a line 156.
  • the ID system 148 identifies the shooter 146 before the start of the competition and forwards its data to the evaluation 140 for distribution.
  • a contactor fuse 147 is connected to the evaluation 140 via a line 150.
  • the shooter security system 147 reports to the evaluation 140 that the shooter 146 has entered and left the place where the shot was fired.
  • FIG. 3 shows the side view of the functional elements of a shooting range according to the invention.
  • a film 202 so-called target film or target tape, is unwound from a cylinder 201 and guided to a cylinder 200, on which it is wound.
  • a pair of rollers 203 are located between the two cylinders 200 and 201, a fixation 204, a hit scanner 214, a position scanner 215, a light source 210, a light source 211 and a bullet trap 212 with an impact detector 213.
  • the cylinder 200 is connected to the line 153 via a line 241.
  • the hit scanner 214 is connected to the line 153 via a line 240.
  • the pair of rollers 203 is connected to the line 153 via a line 242.
  • the fixation 204 is connected to the line 153 via a line 243.
  • the impact detector 213 is connected to the line 153 via a line 244.
  • the position scanner 215 is connected to the line 153 via a line 245.
  • the light source 211 is arranged in such a way that it illuminates the film 202 in such a way that its light rays strike the position scanner 215.
  • the light source 210 is arranged so that it illuminates the film 202 in such a way that its light rays strike the hit scanner 214.
  • the roller pair 203 positions the film 202 in accordance with the specification of the evaluation 140.
  • the fixation 204 fixes the film 202 in its current position.
  • the fixation 204 is preferably designed as a stamping tool. Thus, the shot hole can always be evaluated relative to the known position of the punch holes.
  • the hit scanner 214 evaluates the hits in the film 202.
  • the position scanner 215 determines the position of the film 202 in the vicinity of the cylinder 201.
  • the bullet trap 212 catches the projectiles.
  • the hit scanner 214 exchanges data with the evaluation 140 via the line 240.
  • the cylinder 200 exchanges data with the evaluation 140 by means of the line 241.
  • the pair of roles 203 exchanges data via the line 242 with the evaluation 140.
  • the fixation 204 exchanges data with the evaluation 140 by means of the line 243.
  • the impact detector 213 exchanges data with the evaluation 140 via the line 244.
  • the position scanner 215 exchanges data with the evaluation 153 via the line 245.
  • a film 222 so-called aperture band, is unwound from a cylinder 221 and guided to a cylinder 220, on which it is wound.
  • a flatbed scanner 233, a target surface 234, a light source 230, a fixation 224 and a pair of rollers 223 are located between the two cylinders 220 and 221.
  • the flatbed scanner 233 can be moved into the target area 234 and record the hits there.
  • the light source 230 illuminates the target area 234 according to the rules of the UIT.
  • the fixation 224 fixes the film 222 in its current position if necessary.
  • the pair of rollers 223 positions the film 222 in accordance with the specifications of the evaluation 140.
  • the cylinder 220 is connected to the line 153 via a line 253.
  • the pair of rollers 223 is connected to the line 153 via a line 252.
  • the fixation 224 is connected to the line 153 via a line 254.
  • the flatbed scanner 233 is connected to the line 153 via a line 250.
  • the cylinder 220 exchanges data with the evaluation 140 via the line 253.
  • the roller pair 223 exchanges data with the evaluation 140 via the line 252.
  • the fixation 224 exchanges data with the evaluation 140 via the line 254.
  • the flatbed scanner 233 exchanges data with the evaluation 140 via the line 250.
  • the target camera 145 continuously captures the image of the target, in particular the cutout 234, which forms the actual target surface.
  • a tool 231 is arranged in such a way that an opening can be worked into the film 222 and at the same time into the film 202, the diameter of which corresponds to the diameter of the target surface of the desired shooting discipline.
  • the tool 231 is connected to the line 153 via a line 250.
  • the tool exchanges data with the evaluation 140 via the line 250.
  • An arrow 161 marks the direction of flight of the projectiles to the target area 234.
  • the facility can be equipped with a third film, so-called object film or object tape.
  • a film 262 so-called object tape, is unwound from a cylinder 261 and guided to a cylinder 260, on which it is wound.
  • a fixation 264 and a pair of rollers 263 are located between the two cylinders 260 and 261.
  • the film 262 is provided with openings which can expose the shooter to the actual target area and block it again.
  • a motif can also be depicted as a target on the film 262, together with the above openings or independently. When the film 262 is moved, a moving target can be formed.
  • the film 262 can also be designed as a projection surface and the motif can be imaged by projection.
  • the target area 234 can be designed such that multiple targets are visible from the shooter's perspective. This will required for the shooting disciplines "running boar” and "duel”.
  • Inaccuracy in the lateral guidance of the film 202 can be recognized with a position scanner 215 and taken into account in the calculation of the hit position.
  • the fixation 204 can additionally lock the film 202 until it is transported.
  • fixation 204 is designed as a punching tool, in addition to the effect of the retention, a marking can be applied in the film 202. If the film is locked in at least two places, its position in the target area can be determined later.
  • a movable flat bed scanner 233 can also carry out the hit evaluation in the target area 234.
  • An additional printer can mark the individual hits after the evaluation.
  • FIG. 4 shows a section of the target film from the front.
  • the film 300 may have a perforation 301. It can either be on one side or on both sides.
  • the perforation 301 can also be omitted.
  • white was chosen as the film color.
  • a film color is according to the rules of U.I.T. to choose for the dark part of the targets.
  • the film 300 may have a continuous mark 302.
  • the marking 302 can optionally only be present on one side or also on both sides.
  • the marking 302 can also be omitted.
  • the marking 302 must be placed that it is not in the shooting range of the shooter and can be detected by the hit scanner 214.
  • the rings of the targets can also be used according to the rules of the U.I.T. be depicted on film 300.
  • FIG. 5 shows the most important functional elements of the target field from the shooter's perspective. The housing is not shown.
  • the cylinder 200 winds up the film 202.
  • the cylinder 201 rolls the film 202 off.
  • the hit scanner 241 scans the film 202.
  • the target area 234 is optically limited by the aperture 222 to the dimensions of the desired disk size. There is an opening in the aperture 222 which provides a view of the film 202. The shooter thus sees an image from the firing position that corresponds to the image of a conventional target.
  • Figure 6 shows the target field from the shooter's perspective.
  • the film 202 and the aperture 222 form the target.
  • the fixations 204 which are not visible during the shooting operation, punch small holes in the film 202.
  • FIG. 7 shows film 202 after bombardment.
  • Hole 1202 represents the shot hole.
  • the two holes 1204 are created by locking film 202 in place during the firing.
  • the position of the shot hole 1202 relative to the two holes 1204 is measured. Since the absolute position of the two holes 1204 during the When the shot was fired, the position of the shot hole 1202 can be calculated using the means of the geometry.
  • the shooting range management system enables the organization of shooting competitions without letting the individual athletes travel to an event location.
  • the travel cost factor is therefore no longer applicable.
  • the competition between the individual shooters is thus detached from a central event location.
  • the system ensures that individual shooters cannot have any undesirable influence on the result of the competition.
  • the system consists of at least one competition computer and several shooting range computers. There is at least one shooting range calculator at every location with a shooting range. One or more shooting ranges are connected to the individual shooting range computers. Several shooting range computers can be networked at one shooting range. Several shooting range computers can communicate directly with each other over a WAN.
  • a camera continuously captures the image of the shooter at the shooting range from the point of view of the target. Another camera continuously captures the image of the shooting range from the shooter's point of view. The image data is accessible to the other competition participants at any time.
  • a conventional target with rings and target play gel does not have to be used as the target. In all cases, the shooter only sees a dark point from the shooting distance, which is surrounded by a bright area.
  • the automatic shooting range represents the shooting target composed of two elements. From the shooter's point of view, there is no difference to a conventional target.
  • the hit evaluation starts automatically. After the hit situation has been determined, the evaluation passes the hit data on to the result computer. This represents the hit in the 'Sagittarius' media center. If there is an 'Audience' media center, the hit is also displayed there. If a log printer is available, the hit data is logged there. If other result computers are connected to a local network, the data is transferred to the connected result computer.
  • the hit data is transferred from the results computer to the administration computer.
  • the administration computer coordinates the competition.
  • the media adapter is connected to the management computer. This passes on the competition data to the media authorities.
  • the competition dates consist of the Shooting results and the pictures taken of the shooters and shooting ranges as well as the audience.
  • the system is equipped with media centers at all locations.
  • the data of the competition and the image and sound data of the competition itself and of the shooter and audience are available in the form of data in the overall system.
  • the dates are preferably selected so that an exciting overall impression of the entire competition is created.
  • the shooter will preferably only want his own shot data to be displayed.
  • the data is transferred to the local media for further processing via the media adapter.
  • the competition data with the sound and image data are transferred.
  • the print media will preferably only receive individual still images and the result data.
  • Participation fees and winnings can be calculated automatically from the collected competition data.
  • the construction of the shooting range ensures that the shooting result can be evaluated automatically and the evaluation result can be checked at any time by manual intervention.
  • the shooting range is set up so that there is minimal target sighting.
  • the panel can either be fixed or be designed as a film or tape.
  • the target film is led behind the aperture. It is stretched between two roles.
  • the roll for winding the used film is driven by a motor.
  • the roll with the bombarded film is driven either by a spring or by another motor so that a constant tension is applied to the target film.
  • a constant torque acts on the cylinder on which the unused diaphragm material is wound against the unwinding device.
  • the aperture can be omitted.
  • the target is projected onto the target film. If the projector is precisely adjusted to the target area, the evaluation can then be carried out as described above. Alternatively, the evaluation can also take place behind the target film using a movable scanner. If the target film is translucent, the scanner can capture the projected image of the target and the hit.
  • a material should be used as the target film, which is preferably dimensionally stable under all operating conditions.
  • a perforation or a marking on the target film is used with a scanner to determine the position. If there is a shoe hole in the film, its position is determined relative to the position of the perforation or relative to the position of the marking. Since the absolute position of the film is known at the time the projectile hits the film, the exact position of the hit can be determined.
  • the shooting range according to the invention is suitable for the following disciplines:
  • the shooter fires one or more shots at a target, which remains at rest during sighting and firing. This is the simplest operating mode of a shooting range.
  • a moveable film suffices, which the projectiles penetrate and whose penetration points are then measured.
  • the target is often taken out of sight of the shooter by folding away or by turning away.
  • the goals are always visible in the same place.
  • the evaluation of the shot targets is difficult in duel shooting. So far, the disks have either been removed manually from the target body and then evaluated using various methods. By manually collecting the targets, the shooting range is blocked for a relatively long time. With automatic collection, the entire mechanism for covering the target is transported from the target area to the location where the shot is fired. There the user removes the disc and evaluates it.
  • the shooting range described here enables fully automatic operation of the target with subsequent automatic hit analysis.
  • the shooting range can be turned horizontally.
  • the aperture is designed so that the desired number, usually five, of target fields is no longer displayed side by side.
  • a third film with a correspondingly large cut-out optionally gives a view of the actual destination and then blocks the view again.
  • the target film 202 is driven after the bombardment to the hit scanner 214 and evaluated there for all targets.
  • the aperture 262 can additionally be scanned by a scanner. If the aperture 262 has also been penetrated by a projectile in the target field, the hits are not counted.
  • the shooting ranges can only be provided for one target area at a time. There is then only one opening for a target area in the aperture film 262. The aperture film 262 is moved in front of the target area and moved away again depending on commands from the higher-level result computer 126. In order to be able to display several targets at the same time, a corresponding number of shooting ranges are set up next to one another, which receive the commands to release and lock the target field at the same time.
  • the shooting range presented here results in considerable improvements for shooting operations.
  • the shooting operation is not interrupted for an unnecessarily long time because there is no need to collect targets.
  • the expensive shooting range is better utilized.
  • a conventional flap can be used to cover the target.
  • Impact detector 213 reports the impact of a projectile and the time of impact. It can thus be determined exactly where and at what point in time the outline of the animal was in the film 222. During the subsequent hit evaluation of the film 202, the exact hit position relative to the movement of the film 222 can be determined.
  • the shooting range can be operated in different modes. Depending on the operating mode used, the consumption of the target film is different:
  • the target film is transported after the shot has been fired and evaluated so that the transport path corresponds to the target height of the desired shooting discipline. This mode ensures that there can only be one hit in an area on the film. The manual hit evaluation is always clear in this operating mode.
  • the target film is transported back so far that the shot hole is no longer in the target field.
  • the hit assignment can only be made manually by comparing all previous hits with the associated transport routes.
  • the order of the hits on the film corresponds to the order in which the shot was fired.
  • Manual hit evaluation is always clear in this operating mode as long as the target area used is surrounded by a bulletproof frame. If a shooting range for larger targets is used for a shooting discipline with smaller targets, this is not always guaranteed. The consumption of film material depends on the shooting results. Overall, it is lower than with the previous operating mode.
  • the target film is transported back to such an extent that the shot hole is no longer in the target area's mirror.
  • the hit evaluation can only be carried out manually by comparing all previous hits with the associated transport routes. If there are hits in the aperture within the target field but outside the target area, it is no longer possible to manually evaluate hits. The consumption of film material depends on the shooting results. Overall, it is lower than with the previous operating modes.
  • the target film is transported just as far as it is specified by the operator after the shot has been fired and evaluated. Manual hit evaluation is only possible if the transport route is long enough.
  • the consumption of film material corresponds to the setting.
  • the diaphragm is formed by a second film, the so-called diaphragm film.
  • the aperture film is also provided with markings and the opening to allow a view of the target film. This enables the relative position of the aperture to the target film to be determined with a scanner.
  • the aperture film can optionally be provided without markings and without openings. After each transport, the aperture film is locked in its target position. Then the aperture for punching out the aperture is punched out of the aperture film and the target film with a punch in one operation.
  • the target area is continuously monitored by the camera. Monitoring the target area can be used for two purposes. The impact of a projectile can be recognized by comparison with previous images. The hit evaluation can then be started.
  • the hit evaluation can be started according to various criteria. In the simplest case, the evaluation is started after every hit. In the most complicated case, the hit evaluation is only started when the impact of another projectile would no longer result in a reliable evaluation.
  • the camera Since the camera continuously records the target area, it can be determined after each hit whether a hole pattern is created when the same caliber is hit again would, which can either lead to ambiguous evaluation results or so large free fields arise in the target film that a projectile can penetrate without causing a change in the target film.

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)
EP97104418A 1996-03-20 1997-03-14 Système de gestion pour galerie de tir et procédé d'opération d'un système de tir inter-local Expired - Lifetime EP0797070B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE1996111041 DE19611041C2 (de) 1996-03-20 1996-03-20 Schießanlagen-Managementsystem und Verfahren zum Durchführen eines überörtlichen Schießbetriebes
DE19611041 1996-03-20

Publications (3)

Publication Number Publication Date
EP0797070A2 true EP0797070A2 (fr) 1997-09-24
EP0797070A3 EP0797070A3 (fr) 1999-02-03
EP0797070B1 EP0797070B1 (fr) 2002-06-12

Family

ID=7788905

Family Applications (1)

Application Number Title Priority Date Filing Date
EP97104418A Expired - Lifetime EP0797070B1 (fr) 1996-03-20 1997-03-14 Système de gestion pour galerie de tir et procédé d'opération d'un système de tir inter-local

Country Status (3)

Country Link
EP (1) EP0797070B1 (fr)
AT (1) ATE219236T1 (fr)
DE (1) DE19655170B4 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1130351A2 (fr) 2000-03-01 2001-09-05 Karl Stefan Riener Dispositif pour la détermination de la position et/ou du mouvement d'une arme ainsi que dispositif de sécurité pour une arme à feu
EP2290315A2 (fr) * 2008-01-25 2011-03-02 Eintech Corporation Système pour exercice de tir et procédé correspondant
WO2018222052A1 (fr) * 2017-05-31 2018-12-06 Travision As Système et dispositifs de commande et de surveillance pour champ de tir

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0072004A2 (fr) * 1981-08-10 1983-02-16 Australasian Training Aids (Pty) Ltd. Installation de signalisation et de contrôle pour cibleries
DE4005940A1 (de) * 1990-02-26 1991-08-29 Bke Bildtechnisches Konstrukti Opto-elektronisches treffer-erkennungs- und anzeige-system und zugehoerige schiesstrainingsanlage
DE4113677A1 (de) * 1991-04-26 1992-10-29 Disag International Juergen Sp Verfahren und vorrichtung zum auswerten von schiessscheiben
FR2683356A1 (fr) * 1991-10-31 1993-05-07 France Etat Armement Procede et dispositif de detection et de determination de la position de formes.
DE4207933A1 (de) * 1992-03-12 1993-09-16 Spieth Ernst K Gmbh Anordnung zur anzeige und auswertung von treffern auf schiessscheiben
DE29512828U1 (de) * 1995-08-09 1995-10-19 Knestel Elektronik GmbH, 87496 Hopferbach Scheibenstand für Sportschützen

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3806644A1 (de) * 1988-03-02 1989-09-14 Werner Langhans Schiessanlage
DE19507121A1 (de) * 1994-03-10 1995-09-14 Karl Riener Scheibentransportanlage für einen Schießstand

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0072004A2 (fr) * 1981-08-10 1983-02-16 Australasian Training Aids (Pty) Ltd. Installation de signalisation et de contrôle pour cibleries
DE4005940A1 (de) * 1990-02-26 1991-08-29 Bke Bildtechnisches Konstrukti Opto-elektronisches treffer-erkennungs- und anzeige-system und zugehoerige schiesstrainingsanlage
DE4113677A1 (de) * 1991-04-26 1992-10-29 Disag International Juergen Sp Verfahren und vorrichtung zum auswerten von schiessscheiben
FR2683356A1 (fr) * 1991-10-31 1993-05-07 France Etat Armement Procede et dispositif de detection et de determination de la position de formes.
DE4207933A1 (de) * 1992-03-12 1993-09-16 Spieth Ernst K Gmbh Anordnung zur anzeige und auswertung von treffern auf schiessscheiben
DE29512828U1 (de) * 1995-08-09 1995-10-19 Knestel Elektronik GmbH, 87496 Hopferbach Scheibenstand für Sportschützen

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1130351A2 (fr) 2000-03-01 2001-09-05 Karl Stefan Riener Dispositif pour la détermination de la position et/ou du mouvement d'une arme ainsi que dispositif de sécurité pour une arme à feu
EP1130351A3 (fr) * 2000-03-01 2001-11-21 Karl Stefan Riener Dispositif pour la détermination de la position et/ou du mouvement d'une arme ainsi que dispositif de sécurité pour une arme à feu
EP2290315A2 (fr) * 2008-01-25 2011-03-02 Eintech Corporation Système pour exercice de tir et procédé correspondant
EP2290315A4 (fr) * 2008-01-25 2013-01-02 Eintech Corp Système pour exercice de tir et procédé correspondant
WO2018222052A1 (fr) * 2017-05-31 2018-12-06 Travision As Système et dispositifs de commande et de surveillance pour champ de tir

Also Published As

Publication number Publication date
ATE219236T1 (de) 2002-06-15
DE19655170B4 (de) 2004-10-28
EP0797070A3 (fr) 1999-02-03
EP0797070B1 (fr) 2002-06-12

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