EP3575733A1 - Schussziel zur feuerwaffen-schiessausbildung - Google Patents

Schussziel zur feuerwaffen-schiessausbildung Download PDF

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Publication number
EP3575733A1
EP3575733A1 EP18174516.7A EP18174516A EP3575733A1 EP 3575733 A1 EP3575733 A1 EP 3575733A1 EP 18174516 A EP18174516 A EP 18174516A EP 3575733 A1 EP3575733 A1 EP 3575733A1
Authority
EP
European Patent Office
Prior art keywords
bale
target
training target
firing
bales
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.)
Withdrawn
Application number
EP18174516.7A
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English (en)
French (fr)
Inventor
Pascal Tendon
Jacques Koerfer
Gédale Senato
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Swiss Defense Solutions Sarl
Original Assignee
Swiss Defense Solutions Sarl
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Swiss Defense Solutions Sarl filed Critical Swiss Defense Solutions Sarl
Priority to EP18174516.7A priority Critical patent/EP3575733A1/de
Priority to EP19739386.1A priority patent/EP3803260B8/de
Priority to PCT/IB2019/054399 priority patent/WO2019229644A1/fr
Priority to US17/058,716 priority patent/US20210207931A1/en
Publication of EP3575733A1 publication Critical patent/EP3575733A1/de
Withdrawn legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J7/00Movable targets which are stationary when fired at
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J13/00Bullet catchers
    • F41J13/02Bullet catchers combined with targets

Definitions

  • the present invention generally relates to a firearms training target.
  • Firearms training targets for capturing or trapping at least part of the bullets, bullet fragments and other bullet residues after impact are known in the state of the art. Such targets are notably discussed in the publications DE 93 21 164 U1 , DE 43 17 742 A1 , DE 20 2004 005 719 U1 , WO 2009/035401 A2 and US 2017/0248393 A1 .
  • these targets pose a significant risk of injury to the shooter because of the possible bursts generated during the impact of bullets and / or ricochets, especially during poorly adjusted shots.
  • These marksmanship targets do not provide adequate protection from the point of view of fencer security, and are therefore primarily used for distance shootings that reflect poorly or poorly the actual conditions of firearm engagement. by police or security forces, for example.
  • a general object of the present invention is therefore to improve firearms training targets.
  • an object of the present invention is to provide a firearms shooting target which provides optimum protection for shooters.
  • an object of the present invention is to propose a firearm shooting target whose environmental impact resulting from its use is reduced and which makes it possible to facilitate the treatment of the waste resulting from the shooting training. including the possible recovery and recycling of bullets, bullet fragments and other bullet residues.
  • Another object of the present invention is to provide a firearms shooting target which is both robust, easy to maintain and therefore economical to use.
  • the present invention responds, in particular, to these objects by providing a firing training target, the characteristics of which are listed in claim 1, namely a firearm shooting target comprising a bale collecting casing, said collecting casing bale comprising a lattice structure disposed within the bale-collecting housing in front of a bottom wall of the bale-collecting housing, which lattice structure is for dissipating the kinetic energy of incident bales and has a plurality of baffle plates; deviation intended to deflect the trajectory of the incident bales, said deflection plates being arranged in at least a first inclined plane with respect to the bottom wall.
  • the firing training device further comprises a protective screen placed in front of the lattice structure of the bale-collecting box, on the trajectory of the bales incidental, and intended to stop any bursts of bullets produced during the impact of the bales on the lattice structure.
  • the target according to this first aspect of the invention is characterized in that a front edge of the bale-collecting housing is covered with a protective frame against the direct impacts of bales, said protective frame being mounted interchangeably on said bullet collecting box.
  • the protective frame is interposed between the front edge of the bale receiver housing and the shield.
  • the protective screen may in particular be secured to the protective frame and the front edge of the bale-collecting housing by a set of fastening elements arranged on the left and right side edges of the training target. with the firing, said fixing elements being preferably arranged outside the bale-collecting box, on either side of the left and right side walls of the bale-collecting box.
  • the protective frame can be supported on the front edge of the bale-collecting housing by a set of notches and corresponding extensions provided on the protective frame and on the front edge of the bale collector housing, the protective frame being preferably provided with notches cooperating with corresponding extensions provided on the front edge of the bale collector housing.
  • the present invention also fulfills the above-mentioned purposes by providing a firing training target whose characteristics are listed in independent claim 6, namely a firearm shooting target comprising a bullet-collecting casing, said casing bale collector comprising a lattice structure disposed within the bale-collecting housing in front of a bottom wall of the bale-collecting housing, which lattice structure is for dissipating the kinetic energy of incident bales and includes a plurality of plates deflection means for deflecting the trajectory of the incident bales, said baffles deviation being arranged in at least a first plane inclined relative to the bottom wall.
  • the firing training target further comprises a protection screen placed in front of the lattice structure of the bale-collecting box, on the trajectory of the incident bales, and intended to stop any bursts of bales produced during the impact of the bales. balls on the lattice structure.
  • the target according to this second aspect of the invention is characterized in that it is movable and supported by a positioning device for adjusting a ground position of the firing target. Furthermore, the positioning device is arranged on a lower part of a foot of the shooting training target, which foot is provided with a protective skirt protecting said positioning device against direct impacts bales.
  • the positioning device may in particular be a rolling device comprising a set of wheels, at least one of which is orientable.
  • the protective skirt may comprise a projecting front edge placed in front of the positioning device, which projecting front edge preferably comprises two essentially vertical deflection plates and forming an inverted "V".
  • the firing training target according to the invention may also advantageously comprise a covering made of a resilient material, in particular a synthetic material such as polyurethane, the protective screen being preferably made of the same resilient material as the dressing. More specifically, according to an advantageous variant of the first aspect of the invention, this covering may in particular cover the aforementioned set of fasteners disposed on the left and right side edges of the shooting training target.
  • the protection screen comprises an inwardly directed back section of the firing target and the lattice structure therein, which back section is arranged. to take support against the lattice structure and forming a plurality of corresponding compartmentalized zones.
  • Each compartmentalized zone preferably has an opening at its bottom to permit gravity discharge of bales, bullet fragments and other bale residues to a collection area.
  • the deflection plates are arranged in such a way that, after impacting the lattice structure, the bullets and fragments of bullets are driven by gravity firstly towards a rear part of the casing.
  • Bale collector forming a gap between the lattice structure and the bottom wall and to a collection zone located in a lower part or below said space.
  • the firing training target further comprises a collection bin disposed in said collection area for collecting bales, fragments of bales and other bale residues, which collection bin may in particular be removably disposed so as to to be removed from the firing training target during maintenance operations.
  • the trellis structure comprises a first series of deflection plates arranged in a first plane inclined with respect to the bottom wall and at least a second series of deflection plates arranged according to a second inclined plane with respect to the bottom wall and distinct from the first inclined plane, which second series of deflection plates is disposed between the first series of deflection plates and the bottom wall, the first and second series of deflection plates being preferably arranged so as to be contiguous.
  • the first and second inclined planes may in particular be inclined planes with respect to the same horizontal plane, an angle formed between the first and second inclined planes being preferably of the order of 90 °.
  • the bale collecting box and the lattice structure may also advantageously be made of metallic material, preferably ballistic steel.
  • the Figure 1 shows an overall perspective view of a preferred embodiment of a firearms training target according to the present invention, which target is designated generally by the reference numeral 1.
  • This target 1 consists of various elements of which only a part is visible on the Figure 1 , including a protective screen 50 disposed on a front portion of the target 1 substantially facing the shooter (s) and thus on the trajectory of incident bales fired towards the target 1.
  • the protective screen 50 is placed in front of a bale-collecting box and a lattice structure housed inside said bale-collecting box, elements which are not directly visible in the Figure 1 preferably coated with a covering 51-56 comprising several covering elements 51, 52A, 52B, 53, 54, 55 and 56.
  • This covering 51-56, as well as the protective screen 50 is advantageously made of a resilient material, preferably a synthetic material such as polyurethane, which material is particularly suitable and resistant to use.
  • the Figure 2A shows a front view of the target 1 shown in the Figure 1 and the Figures 2B and 2C cross-sectional views of said target 1 taken respectively in a vertical sectional plane AA passing through a right lateral edge of the target 1 and in an inclined cross-sectional plane BB passing through the target 1, which cutting plans AA and BB are reported on the Figure 2A .
  • the Figure 2B also suggests a positioning device 160/161 comprising a set of wheels 160 and 161 secured to a foot 120 of the target 1, characteristics constituting a second aspect of the invention and which advantageously facilitate the movement of the target 1 for placement at a marksmanship training site.
  • This set of wheels 160, 161 is also partially visible in front view on the Figure 2A as well as in its entirety on the Figure 5C .
  • the foot 120 is covered with the covering element 54, as well as a base (not visible on the Figures 1 and 2A-2C ) on which the bale collection housing 100 rests, which base is coated with the covering element 53.
  • the covering 51-56 also comprises covering elements 55, 56 bearing information or distinctive signs, such as a covering element 55 with a logo on the lower part of the target, placed on and in front of the lower part. of the protective screen 50, and a trim element 56 carrying information, such as a target number.
  • Two other covering elements 52A and 52B are still arranged on the front part of the target 1, respectively on the left and right side edges of the protective screen 50.
  • the Figure 2C similarly discloses a portion of the lattice structure, designated 200, which is disposed within the bale collection housing 100 and in front of which is placed the shield 50.
  • the right side wall 104 of the bale collector box 100 is again visible on the Figure 2C as well as a left side wall 103 and a bottom wall 105 of the bale collection housing 100, which are thus covered on their outer face, as already mentioned, by the covering element 51.
  • a fixing plate 25 is furthermore disposed on the back of the target 1 in the exemplary embodiment illustrated.
  • the target 1 comprising the bale-collecting casing 100, the lattice structure 200 disposed inside said bale-collecting casing 100 in front of the bottom wall 105, as well as the protection screen 50 placed in front of the lattice structure 200 ensure efficient and optimal capture of incident bales as well as fragments of bales and any other bullet residue.
  • the lattice structure 200 is intended to dissipate the kinetic energy of the incident bales, and for this purpose comprises a plurality of deflection plates 201, 202 (partially visible on the Figure 2C ) intended to deflect the trajectory of the incident bales, which plates 201, 202 are arranged in at least a first plane inclined with respect to the bottom wall 105, while the protective screen 50 is intended to stop any bursts of balls produced during the impact of the bales on the lattice structure 200.
  • the Figure 3 is an exploded perspective view of the target 1 according to the Figure 1 which illustrates the main constitutive components of the target 1, in particular the bale collection housing 100, the lattice structure 200 therein, and the protective screen 50.
  • the target 1 reveals its internal structure (or skeleton) 10, which is illustrated more specifically in the Figures 4 to 6 and preferably comprises the ball-collecting box 100 mounted on a base 110, itself secured to the foot 120 which is advantageously provided with a set of wheels 160, 161 as already mentioned.
  • This positioning device 160/161 is particularly useful for allowing the ground position of the firing training target 1 to be adjusted and thus providing the possibility to dynamically and flexibly adjust the firing training scenarios in which the target 1 according to the invention is likely to be used.
  • This 160/161 positioning device is all the more appropriate as it allows easier handling of the shooting training target 1, despite a weight of up to several hundred kilograms.
  • the positioning device 160/161 consists of a rolling device comprising a set of three wheels including two fixed wheels 160 placed in the front position and a swivel caster 161 placed in the rear position, which is pivotally mounted and is provided with a brake / blocking mechanism.
  • a rolling device comprising a set of three wheels including two fixed wheels 160 placed in the front position and a swivel caster 161 placed in the rear position, which is pivotally mounted and is provided with a brake / blocking mechanism.
  • any other suitable positioning device can be adopted, whether it is rolling or operating according to any other principle for moving, positioning or repositioning the shooting training target.
  • the bale collecting casing 100 may have a substantially parallelepipedal shape comprising, in addition to the left and right side walls 103 and 104 and the bottom wall 105, upper and lower walls 101 and 102.
  • the bale collection housing 100 is mounted by its bottom wall 102 to the base 110, itself mounted on its foot 120.
  • the bale collection housing 100 is thus erected vertically on its base 110 so that its open side is oriented towards the front substantially in the direction of the firing position, it being understood that the target according to the invention allows firing with a wide range of angles of incidence relative to the plane formed by the bottom wall 105 of the target 1.
  • the bottom wall 105 is advantageously provided with an opening 105A (see Figures 5B and 6 ) for optional connection to a suction device (not shown) via a line 106, also visible on the Figure 2B .
  • this pipe is 106 closed by a removable cap 107. This arrangement allows, once connected to the suction device, to optionally extract and extract the fumes and other fumes produced inside the bale collection housing 100.
  • the upper wall 101 of the bale collection housing 100 is here equipped with a mounting bracket 101A provided with mounting holes 101B to ensure in particular the fixing of the covering member 56 as well as an upper part of the protective screen 50.
  • the lower wall 102 of the bale collection housing 100 is likewise equipped with a fixing support 102A also provided with a mounting hole 102B to ensure in particular the fixing of the covering element 55 as well as a lower part of the protective screen 50.
  • a front edge of the bale collection housing 100 (in this case the edge consisting of the front edges of the top, bottom and side walls 101 to 104) is advantageously covered by a protective frame 150 according to a first aspect of the invention, which is interchangeably mounted on the bale collecting casing 100.
  • This protective frame 150 thus constitutes a sacrificial element which is intended to protect the front edge of the bale collection casing 100 against the direct impacts. of balls, thus greatly limiting the direct damage to the bale collection housing 100 which might require the replacement of one or the other of the walls 101 to 104.
  • the protective frame 150 is interposed between the front edge of the bale collection housing 100 and the protective screen 50 (see also Figures 2B and 2C ).
  • the protective screen 50 may advantageously be secured to the protective frame 50 and the front edge of the bale collection housing 100 by a set of fastening elements arranged on the left and right side edges of the the target 1, preferably outside the bale collection housing 100, on either side of the left and right side walls 104 and 103.
  • the fasteners each comprise a fastening rod 20, preferably a threaded nylon rod, extending from the shield 50 to the bottom wall 105, and two retaining elements 20A, 20B, preferably nylon nuts, placed at each end of the fastening rod 20, namely a front retaining element 20A and a rear retaining element 20B in the vicinity, respectively of the protection screen 50 and the bottom wall 105, or more exactly of the fixing plate 25 disposed on the back of the target 1.
  • left-hand and right-hand cross braces 21 are interposed between the front retaining elements 20A and the protective shield 50 to ensure that the protective shield 50 is properly plastered against the frame. 150 and the front edge of the bale-collecting housing 100.
  • left-back and right-hand cross members 152 are placed on the left and right rear side edges of the bale-collecting housing 100.
  • the left rear cross members 151 and 152 are structured to present indentations at the positions where are arranged the fixing rods 200, here eleven in number on each side edge.
  • the covering 51-56 partially covers the fastening elements 20 / 20A / 20B disposed on the left and right side edges of the target 1. More specifically, the covering element 51 covers the left and right lateral edges of the target 1, including the fixing rods 20. In addition, left and right trim elements 52A, 52B are placed in front of the front retaining elements 20A, thus masking these elements 20A placed at the front end of the fixing rods 20.
  • the above-mentioned protective frame 150 may advantageously be supported on the front edge of the bale-collecting housing 100 by a set of notches and corresponding extensions provided on the protective frame 150 and on the front edge of the bale-collecting housing 100.
  • the protective frame 150 is provided with a set of eight notches 150A (two per edge) cooperating with corresponding extensions 100A provided on the front edge of the bale collection housing 100, namely a pair of extensions 100A on each front edge of the top, bottom and side walls 101 to 104.
  • the foot 120 of the firing target 1 is advantageously provided with a protective skirt 120A-B, which covers at least the front and side portions of the foot 120 and the positioning device 160/161 arranged on the lower part of said foot 120.
  • the protective skirt 120A-B is intended to protect the positioning device 160/161 against the direct impacts of bales, being however understood that this is a protection against possible firing, poorly adjusted, and that the firing surface, able to capture and effectively trap bales is formed by the bale collection housing 100, the lattice structure 200 therein, as well as the protective screen 50 placed on the front of the firing training target 1, in front of the lattice structure 200.
  • the protective skirt 120A-B comprises a projecting front edge placed in front of the positioning device 160/161, which projecting front edge here comprises two essentially vertical deflection plates 120A and advantageously forming an inverted "V" as illustrated in the view of the Figure 5C .
  • the protective skirt 120A-B also comprises two other essentially vertical deflection plates 120B placed on the left and right lateral edges of the foot 120. In this way, the protective skirt 120A-B offers increased protection against the direct impact of bullets that could damage the positioning device 160/161.
  • the Figure 5B is a cross-sectional view of the internal structure 10 of the target 1 taken along a vertical sectional plane CC passing through a median portion of the internal structure 10 of the target 1, which section plane CC is transferred to the Figure 5A and which more precisely illustrates the lattice structure 200 according to a preferred embodiment of the invention.
  • This lattice structure 200 thus comprises (see also the Figures 4 , 5A and 6 ) a first series of deflection plates 201, which is arranged in a first inclined plane P1 with respect to the bottom wall 105, as well as at least a second series of deflection plates 202 arranged along a second inclined plane P2 with respect to at the bottom wall 105 and distinct from the first inclined plane P1, which second series deflection plates 202 is disposed between the first series of deflection plates 201 and the bottom wall 105.
  • These first and second sets of deflection plates 201, 202 are preferably arranged such that the incident bales can not directly impact the bottom wall 105 and are first deflected by the lattice structure 200.
  • the first and second series of deflection plates 201, 202 are arranged to be contiguous as illustrated in particular in the Figures 5B and 6 .
  • the first and second inclined planes P1, P2 are inclined planes with respect to the same horizontal plane P0 (see FIG. Figure 5B ), the angle ⁇ formed between the first and second inclined planes P1, P2 is preferably of the order of 90 °.
  • the lattice structure 200 may further comprise at least two vertical support plates 205, as illustrated, arranged substantially perpendicular to the bottom wall 105, which vertical support plates 205 are provided with first and second series of notches 205a, 205b for receiving the first and second series of deflection plates 201, 202.
  • These deflection plates 201, 202 may in particular be mounted on the vertical support plates 205 by simple fitting of said deflection plates 201, 202 in the notches 205a, 205b provided for this purpose, which greatly facilitates the assembly and the possible change of damaged plates.
  • the lattice structure 200 is removably mounted inside the bale collector casing 100 and may furthermore comprise a mechanism for securing the trellis structure 200 to the bale collector casing 100.
  • this fastening mechanism comprises a plurality of (i.e. three) transverse horizontal bars 210 (visible in particular in the Figure 6 as well as partially in the Figure 2C ), which pass through mounting holes 205A formed in the vertical support plates 205, mounting holes 205A which are particularly visible in the Figure 5B .
  • These horizontal transverse bars 210 may in particular be fixed to the bottom wall 105 and be integral at their ends with the left and right lateral walls 103 and 104 of the bale collector casing 100, as illustrated, corresponding mounting orifices being provided for this purpose both in the bottom wall 105 and in the left and right lateral walls 103 and 104 (orifices 103A and 104A which are represented in particular in the FIGS. Figures 2B , 4 and 6 ). As illustrated, these transverse bars 210 are advantageously disposed between the deflection plates 201, 202 and the bottom wall 105 so as not to be exposed to the direct impacts of bales.
  • the protective screen 50 comprises a front section 50A directed towards the outside of the target (section 50A which is substantially flat) and a back section 50B (see in particular Figures 2C and 8 ) directed towards the interior of the firing target 1 and the lattice structure 200 therein, which back section 50B is arranged to bear against the lattice structure 200 and form a plurality of corresponding compartmentalized zones 250 (see also Figures 4 , 5A and 5B where these compartmentalized zones 250 are visible).
  • each compartmentalized zone 250 preferably has an opening 250A at its bottom (see Figure 5B ) to permit gravity discharge of bales, bullet fragments and other bale residues to a collection area.
  • the deflection plates 201, 202 are advantageously arranged so that, after impact on the lattice structure 200, the bullets and bullet fragments are driven by gravity all firstly towards a rear part of the bale-collecting casing 100 forming space 300 between the lattice structure 200 and the bottom wall 105 (see in particular Figures 2C and 5B ), then to a collection area 310 located in a lower part of the space 300 or, as illustrated, below said space 300.
  • the target 1 may also include a collection bin 350 (see Figures 10 and 11 ) located in the zone of collection 310 to collect bullets, bullet fragments and other bullet residues.
  • first and second sets of deflection plates 201, 202 in different planes P1, P2 is particularly advantageous. Indeed, the incident bales are subjected, during the impact on the lattice structure 200, several successive rebounds against the deflection plates 201, respectively 202, drastically reducing their kinetic energy.
  • the balls are thus strongly decelerated by these multiple bounces on the deflection plates 201, 202 so that the bales, fragments of bullets and other bullet residues are thus driven at low speed towards the rear part of the bale collecting case 100 and the collection zone 310, thus preventing the agglomeration of fragments and bullet residues in a compact pile difficult to remove, a phenomenon commonly referred to as a "lead nest" and which typically occurs if the bale is deflected without being decelerated sufficiently .
  • the collection zone 310 is located below the bale collection housing 100, in the base 110, the lower wall 102 of the bale collection housing 100 which rests on the base 110 being provided with a or several orifices 102a (see Figure 6 ) communicating with the collection area 310.
  • the collection pan 350 is preferably arranged to be removable to be removed from the firing target 1 during maintenance operations.
  • the collection tray 350 By arranging the collection tray 350 in the base 110, as illustrated by the preferred embodiment variant, it ensures optimum accessibility of the collection tray 350 and thus facilitates maintenance operations.
  • the collection zone 310 (and the collection bin 350 advantageously located therein) is preferably accessible from the rear of the target 1, which is in particular made possible, in the context of the illustrated embodiment, by the arranging the collection zone 310 in a rear part of the base 110.
  • the Figures 7 to 9 illustrate more precisely an advantageous structure of the protective screen 50 according to a preferred variant of the invention.
  • the protective screen 50 is thus advantageously constituted of a plurality of elements nested 500, 505, 510 secured to each other via a set of interlocking fastening elements designated by numerals 501a, 502a, 506a, 506b, 507a, 507b, 511a and 512a in the variant of illustrated preferred embodiment.
  • This arrangement ensures optimum imbrication of the elements 500, 505, 510 with each other, and in particular avoids an unexpected disengagement of said elements following the shots.
  • the nested elements 500, 505, 510 are provided with mounting holes 500A, 505A, 510A, to ensure the attachment of the protective screen 50 on the front portion of the target 1, in particular by means of the fastening elements 20 / 20A / 20B already mentioned.
  • Mounting holes 500B and 510B are also provided on the top and bottom portions of the shield 50 for attachment respectively to the top and bottom walls 101 and 102 of the bale collection housing 100.
  • the protective screen 50 comprises a plurality of identical and interchangeable interleaved intermediate elements 505 (here eight in number) each comprising at least one upper interlockable fastening element 506a, 507a (for example a groove) intended to cooperate with a complementary interlocking fastening element of another adjacent element (500 or 505) of the protective screen 50 placed immediately above.
  • each intermediate element 505 comprises at least one lower interlockable fastening element 506b, 507b (for example an edge) intended to cooperate with a complementary interlocking fastening element of another adjacent element (505 or 510) of the screen protection 50 placed immediately below.
  • each intermediate element 505 comprises a front portion 506 facing outwardly of the target 1 and a back portion 507 directed inwardly of the target 1 and the lattice structure 200 therein, the facade portion 506 being offset relative to the back portion 507 so as to form a shoulder on which comes to support a neighboring element.
  • This shoulder also contributes to ensuring optimal support of the elements 500, 505, 510 on each other.
  • each intermediate element 505 advantageously comprises a pair of upper interlockable fastening elements 506a, 507a and a pair of lower interlockable fastening elements 506b, 507b complementary to the pair of elements.
  • upper interlocking fasteners 506a, 507a in this case an upper groove and a lower edge on each of the front and back portions 506, 507.
  • each intermediate member 505 preferably has flares 507c at each lower and upper end, flares 507c which are directed inwardly of the target 1 and the lattice structure 200 therein for taking These flares 507c thus contribute to forming corresponding bosses on the back section 50B of the protection screen 50, which bosses bear against the lattice structure 200. In this way, the bosses 507c thus contribute to forming corresponding bosses on the back section 50B of the protection screen 50. Protection screen 50 is also mechanically supported on its back section 50B against the trellis structure 200, which helps to strengthen the shield 50 and allow it to better withstand the passage of bales incident.
  • the protective shield 50 further includes an upper end member 500 disposed in the upper portion of the shield 50 and nested in an upper portion of a first intermediate member 505, or upper intermediate member, and a lower end element 510 disposed in the lower part of the protection screen 50 and nested in a lower part of a last intermediate element 505, or low intermediate element.
  • the upper end element 500 has at least one lower interlockable fastening element 501a, 502a (here in the form of ridges) complementary to and cooperating with the upper interlockable fastening element 506a, 507a of the upper intermediate element 505, while the lower end element 510 has at least one upper interlocking fastening element 511a, 512a (here in the form of grooves) complementary to and cooperating with the lower interlockable fastening element 506b, 507b of the intermediate low element 505
  • the elements The top 500 and bottom 510 terminals each have, in the image of the intermediate elements 505, a façade portion 501, respectively 511, directed towards the outside of the target 1 and a back portion 502, respectively 512, directed towards the the interior of the target 1 and the lattice structure 200 therein, which are likewise offset to form a shoulder of the same dimension as the shoulder formed on each of the intermediate elements 505.
  • Figures 7 to 9 illustrate an alternative embodiment where grooves 506a, 507a, 511a, 512a are formed on the upper part of the elements 505 and 510 and where ridges 501a, 502a, 506b, 507b are formed on the lower part of the elements 500 and 505, the number as well as the arrangement and configuration of interlocking fastening elements can be modified. Any other arrangement or any other configuration or combination of interlocking interlocking elements is possible within the scope of the present invention.
  • FIGS 10 and 11 illustrate more precisely the collection area 310 of the target 1 accommodating the collection tank 350, variant presented as a preferred embodiment.
  • this collection zone 310 is advantageously located in the base 110 of the target 1, below the bale collecting box 100, and the collection tank 350 is removably disposed in said base 110.
  • locking 114 of the collection container 350 can be provided in order to lock the collecting container 350 against the bottom wall 102 of the bale collecting box 100.
  • This locking device 114 may in particular comprise a support 115 rendered for example integral with the foot 120 (support 115 which is also shown on the Figures 5B and 6 ) and an associated locking lever 116 (itself represented on the Figure 3 ) cooperating with the support 115 and a lower portion of the collection tank 350 to selectively lift it towards and press against the bottom wall 102 of the bale collection housing 100 to lock or lower it and thus release it from the collector housing 100 balls and allow its removal from the target 1.
  • the support 115 and the locking lever 116 are arranged in such a way that a rotational movement of the locking lever 116 according to the actuating direction R shown in the Figure 10 , in this case from left to right, results in a vertical upward movement of the collection pan 350, thereby pressing it against the bottom wall 102 of the bale collecting casing 100 (not shown in FIGS. Figures 10 and 11 ), the rear portion of the base 110 acting as a guide for the collection tank 350.
  • an opposite rotational movement of the locking lever 116 in this case from the right to the left, results in a vertical movement down the collection tray 350, thus releasing it from the bottom wall 102 of the bale collection housing 100.
  • the locking lever 116 is shown in its locking position (right) in solid lines.
  • the locking lever is also shown in its unlocking position (left) in broken lines and is designated in this position by the reference numeral 116 'for the sake of distinction.
  • the collection bin 350 is likewise represented in the Figures 10 and 11 in its locked position in solid lines and in its unlocked position in broken lines.
  • the covering 51-56 of the target 1 can advantageously be made of a resilient material, in particular a synthetic material such as polyurethane, the protective screen 50 being preferably made of the same resilient material as the trim 51-56.
  • a resilient material in particular a synthetic material such as polyurethane
  • the protective screen 50 being preferably made of the same resilient material as the trim 51-56.
  • Polyurethane is a particularly suitable material for this application and robust to use.
  • Other resilient substitute materials could however be used, such as synthetic foams or rubber.
  • bale collecting casing 100 and the lattice structure 200 can advantageously be made of ballistic steel or other metallic material having sufficient properties to provide increased resistance to repeated firing.
  • the fastening elements of the protective screen 50 may take a shape other than fixing rods, such as elements for securing by simply clipping or any other means.
  • the positioning device of the target could take any other form or adequate configuration, and use other components as casters as illustrated.
  • spherical rolling devices or air-lift devices could be adopted to provide mobility and movement of the target.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
EP18174516.7A 2018-05-28 2018-05-28 Schussziel zur feuerwaffen-schiessausbildung Withdrawn EP3575733A1 (de)

Priority Applications (4)

Application Number Priority Date Filing Date Title
EP18174516.7A EP3575733A1 (de) 2018-05-28 2018-05-28 Schussziel zur feuerwaffen-schiessausbildung
EP19739386.1A EP3803260B8 (de) 2018-05-28 2019-05-28 Schiessübungsziel für schusswaffen
PCT/IB2019/054399 WO2019229644A1 (fr) 2018-05-28 2019-05-28 Cible d'entraînement au tir par armes à feu
US17/058,716 US20210207931A1 (en) 2018-05-28 2019-05-28 Firing target for firearms shooting training

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CN115451756A (zh) * 2022-10-27 2022-12-09 山东方能毅装备科技有限公司 一种陆地标靶用自动控制装置

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CH480610A (de) * 1967-11-28 1969-10-31 Stahlton Ag Schiessanlage mit Anordnung zur Abschirmung der Gefahrenzone gegen Geschosse
DE4317742A1 (de) 1993-05-27 1994-12-01 Spieth Ernst K Gmbh Geschoßfang und Geschoßfangkasten für einen solchen Geschoßfang
DE9321164U1 (de) 1993-05-27 1996-05-02 Ernst K. Spieth Gmbh, 73730 Esslingen Geschoßfang und Geschoßfangkasten für einen solchen Geschoßfang
US5947477A (en) * 1997-03-07 1999-09-07 Turnipseed; Kent Breakdown shooting target
DE202004005719U1 (de) 2004-04-10 2004-08-26 SCHÜTZ, Andreas Geschossfangvorrichtung
WO2009035401A2 (en) 2007-09-11 2009-03-19 The Smith Of Odin A bullet trap with inclined plates
KR20150049577A (ko) * 2013-10-30 2015-05-08 오인규 탄두 회수 장치
US20160116260A1 (en) * 2013-05-09 2016-04-28 In Gyu Oh Apparatus for collecting warheads
US20170248393A1 (en) 2016-02-25 2017-08-31 Konstantinos Soukos Ecological shooting training panel for any type and caliber ammunition

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH480610A (de) * 1967-11-28 1969-10-31 Stahlton Ag Schiessanlage mit Anordnung zur Abschirmung der Gefahrenzone gegen Geschosse
DE4317742A1 (de) 1993-05-27 1994-12-01 Spieth Ernst K Gmbh Geschoßfang und Geschoßfangkasten für einen solchen Geschoßfang
DE9321164U1 (de) 1993-05-27 1996-05-02 Ernst K. Spieth Gmbh, 73730 Esslingen Geschoßfang und Geschoßfangkasten für einen solchen Geschoßfang
US5947477A (en) * 1997-03-07 1999-09-07 Turnipseed; Kent Breakdown shooting target
DE202004005719U1 (de) 2004-04-10 2004-08-26 SCHÜTZ, Andreas Geschossfangvorrichtung
WO2009035401A2 (en) 2007-09-11 2009-03-19 The Smith Of Odin A bullet trap with inclined plates
US20160116260A1 (en) * 2013-05-09 2016-04-28 In Gyu Oh Apparatus for collecting warheads
KR20150049577A (ko) * 2013-10-30 2015-05-08 오인규 탄두 회수 장치
US20170248393A1 (en) 2016-02-25 2017-08-31 Konstantinos Soukos Ecological shooting training panel for any type and caliber ammunition

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115451756A (zh) * 2022-10-27 2022-12-09 山东方能毅装备科技有限公司 一种陆地标靶用自动控制装置
CN115451756B (zh) * 2022-10-27 2023-08-04 山东方能毅装备科技有限公司 一种陆地标靶用自动控制装置

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