• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Summary The present invention relates to a projectile stop device (1) which comprises a foundation (3) constituting a floor (7) and a rear cradle (5) of the projectile stop device. Furthermore, it comprises intermediate walls (9) projecting in a direction substantially perpendicular to the rear cradle (5), the intermediate walls comprising a rear edge (10a) connected to the foundation (3), and a lower edge (10b). Stop material (11) is arranged between the intermediate walls (9). A stop material retaining layer (S) is arranged between the intermediate walls, and a pressure-resistant cradle (19) comprising a number of horizontal half-profiles (15) is connected to the front edges (10b) of the intermediate walls. The pressure-resistant cradle (19) further comprises a rear surface connected to the stop material retaining layer (S) and a front surface. The invention also relates to a projectile stop arrangement. (Fig. 1A)
    公开号:SE1450491A1
    申请号:SE1450491
    申请日:2014-04-24
    公开日:2015-10-25
    发明作者:Gerth Moberg
    申请人:Stapp Internat Ab;
    IPC主号:
    专利说明:

    TITLE Projectile stop device and projectile stop arrangement.
    TECHNICAL FIELD The present invention relates to a projectile stopping device according to the preamble of claim 1. The invention also relates to a projectile stopping arrangement according to the preamble of claim 13. The projectile stopping device and the projectile stopping arrangement relate to installations on firing ranges.
    TECHNICAL TECHNIQUE In practice shooting and shooting with powder-powered projectiles on firing ranges, the shots are aimed at target surfaces in the form of e.g. ring-marked square moths or figure-like moths in different sizes and shapes. Behind the malt boards there is usually a projectile stopper.
    A stop element for outdoor use is usually made of earth nests or gravel that has been excavated up to a longitudinal axis or, as an alternative, the stop element is a natural slope. The spread of the stop element is determined by the malo area and beyond this the safety mat specified for the type of firearm and pushed. To avoid ricochets from the stuffing material in e.g. earth embankments, these are supplemented with projectile stop material on the part of the stop element that has been subjected to shelling. This material is carefully selected for the type of firing and stops the projectiles and maintains them within the stop element.
    More advanced projectile stop elements include a frame of rocks surrounding a layer of granular material, with a rubber front layer. EP0683375 A1 discloses an absorption projectile stop member of the type which is insertable into a container. All rocks except the cradle that are water against the shooters consist of ballistic plates. The surface of the projectile stop element water against the shooters consists of a rubber cover. Granular material is arranged behind the cover. Means for resisting the pressure of the granular material are arranged between the granular material and the cover. These members include vertical elements of hardened steel or rubber. Alternatively, the resistance means comprise a plurality of blocks which are made of plastic material and which have a very high ductility. The blocks can also be made by using pressed and glued elastomeric granular material. A layer allowing passage of the undeformed projectiles is provided. The layer does not probe or deform permanently after the passage of the projectiles.
    The projectile stop element described in EP0683375 is intended for indoor use.
    Therefore, the construction is not adapted for outdoor use. The height of the stop element is intended for outdoor shooting because the shooting distance outdoors is generally longer than the shooting distance indoors. A further disadvantage of the projectile stop element described in EP0683375 is that the means for relieving the pressure of the granular material may rotate and deform during penetration.
    US2006 / 0131813 discloses a device for installation on firing ranges. The device has a cover, which cover has an L-shaped concrete slab, an elastic top layer and a flexible bottom layer. The bottom layer extends along a sloping bottom surface and over an upwardly projecting support member to a front side. The top layer is attached to the bottom layer at the front side to form a container. A non-liquid granular material is packed in the container. The sloping bottom surface is inclined at an angle relative to a horizontal plane. The angle is less than a race angle of the granular material.
    The device shown in US2006 / 0131813 is intended for outdoor use. It has the disadvantage that it is so large and heavy that it cannot be moved to another area. Once installed, it must remain there. In addition, the device has the disadvantage that the rubber front layer will give probes and deform during penetration of the projectiles. This is due to the solid rubber material that is pressed to the side and baked by the penetrating projectile. The rubber front layer also tends to assume a curving shape after penetration.
    There is thus a need for an improved projectile stop member which obviates the above-mentioned disadvantages.
    SUMMARY OF THE INVENTION The object of the present invention is to provide an inventive projectile stopping device in which the previously mentioned problems are avoided.
    This object is achieved by a projectile stop device comprising a foundation forming a floor and a rear cradle of the projectile stop module, intermediate cradles extending in a direction substantially perpendicular to the rear cradle, the bulge cradles comprising a rear edge connected to the foundation and a front edge. The projectile stop device further comprises the stop material device arranged in the inner cradles, a stop material retaining layer arranged in the middle cradle and a pressure-resistant cradle comprising a number of tangled half-profiles connected to the front edges of the intermediate cracks. The pressure-resistant cradle further comprises a rear surface connected to the stop material retaining layer and a front surface.
    The projectile stop device has the advantage that only the half-profiles which have a large number of penetrations need to be replaced during maintenance work. The half-profiles that are more or less intact may remain.
    Another advantage is that the row of half-profiles is resistant to the load from the stop material.
    Yet another advantage is that projectiles that penetrate a half profile expand through the stop material so that the projectiles will be caught between the row of half profiles and the rear cradle. Yet another advantage of the present invention is that the half profiles are not deformed by the penetrating projectiles. In contrast to a solid front layer, no material is pushed to the side and baked by the penetrating projectiles. Thus, even though the half-profiles receive many entrance halls, the half-profiles will still retain their rigidity.
    Yet another advantage of the present invention is that the projectile stop device can be designed as a module. By grouping at least two projectile stop devices together, any desired projectile stop arrangement can be obtained. The projectile stop arrangement is also flexible and can easily be rearranged to a different shape or to a different location.
    Yet another advantage of the present invention is that it is possible to use existing cradles, floors and ceilings for mounting a projectile stop device or projectile stop arrangement indoors. Existing cradles and floors then form the foundation for the projectile stop device or projectile stop arrangement.
    According to another feature, a stop material retaining layer in polymeric material is arranged between the intermediate walls, which makes it possible to replace worn half profiles at the same time as the stop material can essentially remain in place in the projectile stop device.
    According to another feature, the front edge of the partitions is challenged with a V-shaped profile of ballistic material. This has the advantage that projectiles that hit this V-profile are steered away from the nnellan cradles and slowed down in the stop material. This meant that projectiles could not follow the partitions in parallel without deceleration.
    According to yet another feature, the tip of the V-shaped profile is provided with a wing of ballistic material whereby polymeric profiles can be connected. The polymeric profiles have the advantage that mounting of the pressure-resistant cradle can be easily mounted in the device.
    According to another feature, the mechanical integrity of the partitions between ceiling and floor can be fulfilled by the V-shaped steel profiles. This has the advantage that the intermediate walls can consist of profiles in polymeric material, ballistic plates or a combination of these. This makes the device flexible during assembly and execution.
    According to another feature, the half-profiles are provided with a spar and a tongue for connecting the half-profiles to each other. This has the advantage that there are no gaps between the half-profiles. The half profiles are also easy to install and remove.
    According to another feature, the half-profiles are made of a polymeric material or of an annealed polymeric material. This has the effect that the penetrated plastic material and the half profiles will melt in the penetrated area due to the friction that arises during the penetration of a projectile. This is advantageous because the half-profiles will not bend or deform by the penetrating projectiles, and the physical mat of the half-profile will be kept intact as it is not created with sufficient force from the passage of the projectile through the partially narrow plastic to press the plastic profile laterally or into the stop material.
    The half-profiles preferably comprise a longitudinal disc-shaped geometry.
    The half-profiles further comprise a cell-divided inner structure surrounded by outer cradles. The half-profiles can be provided with a spar and a tongue which serve to connect the vertical half-profiles to each other and to prevent openings. According to another feature, the half-profiles have a cross-sectional length of - 150 mm and a cross-sectional width of 100-400 mm, and more preferably a cross-sectional length of 35-80 mm and a cross-sectional width of 115-175 mm. This has the advantage that all the half-profiles are sufficiently rigid to withstand the pressure from the stopper material. At the same time, the half-profiles have relatively thin cradles, which results in less material access and lower costs.
    According to another embodiment, preferably intended for outdoor mounting, the projectile stop device comprises a roof which projects Iran from the rear cradle and tackles a surface in front of the projectile stop device. The roof has the advantage that the projectile stop device is protected against e.g. rain and snow. The roof also has the advantage that ricochets and misdirected shots can be stopped and intercepted by the roof.
    According to an additional feature, the roof, preferably intended for outdoor installation, is fixed to the foundation and the partitions. This has the advantage that the roof is stable and firm.
    According to yet another feature, the roof, preferably intended for outdoor house installation, comprises a roof bottom layer, made of a series of half-profiles, and a roof top layer. This has the advantage that projectiles that penetrate a half profile will be separated when they hit the roof bearing. The parts ricochet, but are stopped by the half-profiles because the projectile parts cannot escape through the entrance hall in the half-profiles.
    According to yet another feature, the roof top layer is made of a ballistic plate. This has the advantage that projectiles that penetrate a half profile cannot pass through the roof.
    According to a further feature, there is a space between the roof bottom layer and the roof top layer. This has the advantage that there will be space for the captured projectiles.
    According to yet another feature, the roof includes a manhole cover. This has the advantage that service work and change of stop material becomes easier to perform. According to another feature, a moisture-proof layer is arranged against the foundation. This has the advantage that less moisture penetrates into the stop material and that the moisture which penetrates into the stop material does not penetrate via the foundation. This also has a smaller environmental impact because moisture in the stopper material due to condensation or varnish can leach lead and other harmful substances from collected projectiles and this leaching can have a negative effect on the surrounding environment.
    According to an additional feature, a perforated drainage device is arranged in connection with the wet point of the moisture-saving layer. This has the advantage that existing moisture in the stuffing material can be drained in a controlled manner, which facilitates the disposal of any environmentally harmful substances.
    According to another feature, a surface layer intended for template projection can be arranged against the pressure-carrying cradle. This has the advantage that different types of molds can be easily used for the device.
    According to a further feature, the gap between the roof bottom layer and the roof top layer is 50 mm - 300 mm, and preferably 100 mm. The advantage of this distance is that there is sufficient space to handle the pressure that arises from the projectile and which hits the roof bearing and also reduce the tearing on the back of the half profiles caused by splinters (scrapnel).
    According to another, the foundation is a standard ground element element. This has the advantage that the projectile stop arrangement is economically advantageous and that the foundation is relatively small and can be arranged anywhere on the ground. The foundation can easily be moved to another position when desired.
    The object of the present invention is also achieved by a projectile stop arrangement as defined in the introduction; The projectile stop arrangement can be characterized by the features of claim 13. This has the advantage that a sliding line can be protected in all directions without the need for any protective cradles or similar devices. By grouping at least two projectile stop devices together, any desired projectile stop arrangement arrangement can be maintained.
    The projectile stop arrangement is also flexible and can be easily rearranged to another shape or easily moved to another location.
    BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be described in detail with reference to the schematic figures, in which: Figure 1A shows a perspective view of a projectile stopping device according to an embodiment of the present invention.
    Figure 1B shows a side view of a projectile stop device according to an embodiment of the present invention.
    Figure 1C shows a cross-sectional view of the projectile stop device according to an embodiment seen from the section A-A in Figure 1B.
    Figure 2 shows a perspective view of a half profile.
    Figure 3A shows a perspective view of an I-shaped projectile stop arrangement according to an embodiment of the present invention.
    Figure 3B shows a perspective view of a U-shaped projectile stop arrangement according to an embodiment of the present invention.
    Figure 3C shows a perspective view of a C-shaped projectile stop arrangement according to an embodiment of the present invention. DETAILED DESCRIPTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings regarding the embodiments, in which case any details which are irrelevant are not shown in the drawings for the sake of clarity and understanding of the invention.
    For the sake of clarity, the figures are not depicted to scale.
    Reference numerals mentioned in the claims should not be construed as a limitation of the scope protected by the claims and their sole function is to make the claims easier to understand.
    As will be appreciated, the invention may be modified in various obvious respects, all without departing from the scope of the appended claims.
    Consequently, the drawings and the description thereof are to be regarded as illustrative in nature, and not limiting.
    The front side of the projectile stop device is defined as the side facing the shooter and the rear side of the projectile stop device 20 is defined as the side opposite the front side.
    Figures 1A and 1B show a perspective view and a side view of a projectile stopping device 1 according to an embodiment of the present invention. Figure 1C shows a cross-sectional view of the projectile stop device according to the embodiment seen from the section A-A in Figure 1B. The projectile stop device 1 comprises a foundation 3 made of concrete. The foundation 3 can be a standard ground support element such as a prefabricated concrete support unit in L- or 1-shape for larger heights. The foundation 3 forms a rear cradle 5 and a floor 7 of the projectile stop device 1. The height of the projectile stop module 1 can be between 0.6 m - 8 m, and preferably between 1.2 m - 5 m. Intermediate cradles 9 are connected to the foundation 3 and strainer in the direction of the shooter. The partitions 9 comprise a rear edge 10a, which is connected to the foundation 3, and a front edge 10b. The distance between the partitions can vary between 400mm and 2400mm and preferably between 800mm and 1200mm. The intermediate walls 9 can have a width of about 150 mm-1500 mm, and preferably 400 mm-1200 mm.
    The projectile stop device 1 is also provided with a stop material 11, the function of which is to catch and absorb the projectiles. The stop material 11 is preferably a polymeric material or a rubber granulate material, but other materials capable of capturing and retaining the projectiles can also be used. The stop material 11 is arranged between the intermediate walls 9.
    The projectile stop device 1 further comprises a pressure-resistant cradle 19. The pressure-resistant cradle 19 serves to withstand the pressure from the stop material 11 in order to hold the stop material 11 in place and to prevent projectiles from penetrating the projectile stop device 1 from escaping. The pressure-resistant cradle 19 comprises a number of adjacent half-profiles 15. The projectile stop device further comprises a stop material retaining layer S arranged between the intermediate cradles 9. The pressure-resistant cradle 19 is connected to the front edges 10b of the intermediate cradles. The stop material retaining layer S serves to hold the stop material 11 in place during maintenance work of the projectile stop device 1, when single or sectional all penetrated half profiles 15 are removed and replaced with new half profiles. The V-shaped profile is arranged with the tip 12a towards the shooter to divert projectiles Than to follow the intermediate walls 9 in parallel and guide them to the stop material. The V-shaped profile 12 is dimensioned to maintain the mechanical integrity of the projectile stopping device, which means that the intermediate walls 9 may comprise half-profiles 15 of the same type as the pressure-resistant cradle 19.
    Furthermore, during installation, the V-shaped profile 12 can preferably be mounted indoors 11 between the existing floor and ceiling or between the existing roof and the concrete foundation.
    The V-shaped profile 12 may further comprise a wing 16 arranged against the tip 12a of the steel profile and directed towards the shooter. At least one profile 17 of polymeric material can further be arranged against this wing 16. The polymeric profile serves to facilitate assembly of the pressure-resistant cradle.
    The half-profiles 15 are preferably made of a polymeric material or a reinforced polymeric material, but can in principle be made of any rigid material heist which resists the load from the stop material 11 and which can be penetrated by projectiles. Figure 2 shows a perspective view of a half profile 15.
    The half-profiles 15 preferably comprise a longitudinal disc-shaped geometry.
    The half-profiles further comprise a cell-divided inner structure surrounded by outer cradles. The half-profiles 15 can be provided with a spar 21 and a tongue 23 which serves to connect the vertical half-profiles 15 to each other and to prevent openings. The half-profiles 15 can have a cross-sectional length of 30- 150 mm and a cross-sectional width of 100-400 mm. Preferably, the half-profiles 15 have a cross-sectional length of about 35-80 mm and a cross-sectional width of 115-17 mm. The half-profiles 15 can have a thickness of 2- 15 mm, and more preferably of 3-5 mm. The half profiles 15 can also be provided with internal stiffening cradles or flanges (not shown). The profiles can also be of 2 or more composite parts in the same material or in combination of 2 or more materials. The cavities of the profiles can also be filled with penetrable material for stiffening purposes.
    The projectile stop device 1 may be provided with a moisture-retaining layer 41 of polymeric material. This layer 41 prevents water Than the ground from being absorbed by the stop material 11. The moisture-proof layer 41 also prevents rainwater that has entered the projectile stop module 1 from leaching into the ground. This prevents unwanted lead and other contaminants from projectiles or stopping materials from being leached out of water and spreading in an uncontrolled manner in the surrounding million. The bearing 41 is mounted on the foundation 3 and can also thank a lower part of an inner side of the rear cradle 5. The rainwater can be collected in a perforated drainage pipe arranged in the lower part of the projectile stop device 1. The drainage pipe can be provided with a coupling 43 to the next module or with a bushing (not shown) mounted in the bearing 41. Another solid tube leading to a collecting vessel or a filter can be connected to the bushing (not shown).
    The projectile stop device comprises a roof 33 which projects from the rear cradle and tackles a surface in front of the projectile stop device. The roof can be an integral part of the foundation 3, such as a unit forming floor 7, rear cradle 5 and roof 33, all made of concrete. According to one embodiment, the roof 33 may comprise a roof top layer 35 made of ballistic steel plates.
    Furthermore, the roof may comprise a roof base layer 37 made of a row of half-profiles 15. The half-profiles 15 may be the same as the half-profiles which form the front, pressure-resistant cradle 19 and they are suitably mounted in a similar manner. The roof is aptly connected to the foundation 3 and the partitions. A misdirected projectile hitting the roof bottom layer 37 with the half profiles 15 will penetrate a half profile and expand towards the ballistic plate 35. Due to the enlarged size of the projectile, it will be trapped in the space 39, without being able to bounce back through the entrance hall. The space 39 can also be filled with e.g. a padding and / or absorbent material. The roof 33 can project from the rear cradle 5 and thank a surface in front of the projectile stopping device 1. The purpose of the roof 33 is to protect the projectile stopping device 1 and to prevent misdirected shots from passing over the projectile stopping device 1 into the surroundings. The roof may further comprise a manhole cover.
    It is possible to perform service and assembly work internally in the projectile stop device through the manhole cover M mentioned above, i.e. in the space bounded by foundation 3, the intermediate walls 9 and the 13 pressure-resistant cradle 19. Through the manhole cover M the stop material 11 can also be supplied or removed from the space, in case the roof 33 is freely accessible to Iran from above and for example does not consist of a ceiling.
    According to one embodiment, a surface layer can be arranged in front of the front surface of the pressure-carrying cradle 19 for template projection.
    As described above, existing cradles, floors and ceilings can be used for mounting a projectile stop device or projectile stop arrangement indoors.
    Existing cradles and floors then form the foundation for the projectile stop device or the projectile stop arrangement. According to another embodiment, however, the projectile stopping device can be constituted by a movable modular unit comprising a foundation which constitutes a floor, a rear cradle and a roof. In this case, it is possible to provide a projectile stopping arrangement comprising at least two projectile stopping devices 1, where at least two projectile stopping devices are grouped together, thereby forming an I-shape, L-shape, U-shape, C-shape, F-shape, T-shape or E -form.
    Figure 3A shows a perspective view of an I-shaped projectile stop arrangement 100 according to an embodiment of the present invention. Several projectile stop devices 1 are arranged p5 in a line next to each other and thereby form an I-shaped projectile stop arrangement 100.
    The projectile stop arrangement 100 comprises breathing devices 45 and the intermediate projectile stopping devices 47. The breathing devices 45 according to this embodiment each have a right-angled foundation 3 which forms a breathing horn. The projectile stop arrangement 100 shown in Figure 7 includes intermediate projectile stop devices 47 and two breathing devices 45.
    The projectile stop devices 1 can also be grouped together so as to form an L-shaped, U-shaped or C-shaped projectile stop device 200 and 300 (see Figures 3B and 3C). The breathing devices 45 according to this embodiment have a right-angled foundation 3. The projectile stop arrangement 200, 300 according to these embodiments also comprises horn devices 49. The horn devices 49 have a right-angled foundation 3 which forms horns of the projectile stop arrangement 200, 300.
    Additional shapes of the projectile stop arrangement 100, 200, 300 can be obtained by positioning projectile stop devices next to each other, such as e.g. in E-form, F-form or 1-form.
    It is not necessary to provide the breathing devices 45 with a right-angled foundation 3. In principle, the breathing devices 45 may have a construction similar to the intermediate projectile stop devices 47.
    According to a further embodiment, the projectile stop device is 1 water. This meant that the foundation 3, instead of having a shape of an upright L with a front side and a rear side, has the front of an upturned T, with two front sides and no rear side. The projectile stop device 1 is symmetrical about the rear cradle 5 of the foundation 3. This embodiment has the advantage that projectile stop devices 1 can be grouped in room systems where firing can be performed on [Dada sides of the respective projectile stop devices 1.
    The present invention is, of course, not limited in any way to the preferred embodiments described above, but many possibilities for modifications, or combinations of the described embodiments, thereof, will be apparent to a person of ordinary skill in the art without departing from the spirit of the present invention. the invention as defined in the appended claims.
    权利要求:
    Claims (14)
    [1]
    Intermediate walls (9) extending in a direction substantially perpendicular to the rear cradle (5), the intermediate walls comprising a rear edge (10a) connected to the foundation (3), and a leading edge (10b), - stop material (11) arranged between the intermediate cradles (9), 2. stop material retaining layer (S) arranged between the intermediate cradles, and 3. a pressure-resistant cradle (19) comprising a number of sloping half-profiles (15) connected to the front edges (10b) of the intermediate cradles, further comprises a rear surface connected to the stop material retaining layer (S) and a front surface.
    [2]
    Projectile stop device according to claim 1, vane in the front part (10b) of the intermediate cradles comprises a V-shaped profile (12) of ballistic material, vani the tip of the vane (12a) adjacent to the pressure-resistant cradle (19).
    [3]
    The projectile stopping device of claim 2, the vane of the profile tip (12a) further comprising a wing (16).
    [4]
    A projectile stopping device according to claim 3, wherein at least one profile (17) of polymeric material is arranged to the wing (16) of the steel profile and is further connected to the pressure-resistant cradle (19).
    [5]
    Projectile stopping device according to one of the preceding claims, wherein the half-profiles are provided with a spar (21) and a tongue (23) for connecting the half-profiles (15) to each other.
    [6]
    Projectile stop device according to any one of the preceding claims, wherein the half-profiles are (15) made of a polymeric material or of a reinforced polymeric material. 16
    [7]
    A projectile stopping device according to any one of the preceding claims, the conventional projectile stopping device comprises a roof (33) projecting from the rear cradle (5) and abutting a surface in front of the projectile stopping device.
    [8]
    Projectile stop device according to claim 7, vane in the roof (33) is connected to the foundation (3) and the intermediate walls (9).
    [9]
    A projectile stopping device according to any one of claims 7 or 8, the vane of the roof (33) comprises a manhole cover (M).
    [10]
    Projectile stopping device according to one of the preceding claims, used in a moisture-retaining layer (41) is arranged between the base member (3) and the stopping material (11).
    [11]
    The projectile stop device according to claim 10, further comprising at least one drainage pipe (43) arranged in connection with the moisture-saving layer (41).
    [12]
    Projectile stopping device according to one of the preceding claims, which is arranged in a surface layer in front of the front surface of the pressure-carrying cradle (19) for general projection.
    [13]
    A projectile stopping device (1) according to any one of the preceding claims, usually comprising a movable nodule unit comprising a foundation (3) constituting a floor (7), a rear cradle (5) and a roof (33).
    [14]
    A projectile stop arrangement (100; 200; 300) comprising at least two projectile stop devices (1) according to claim 13, wherein in at least two projectile stop devices (1) are grouped together, thereby forming an I-shape, L-shape, U-shape, C- shape, F-shape, T-shape or E-shape. 1/4
    类似技术:
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    US9891029B2|2013-05-09|2018-02-13|In Gyu Oh|Apparatus for collecting warheads|KR101917785B1|2016-10-26|2019-01-29|한국항공우주연구원|Non-motorized type flying unit for observation|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1450491A|SE538045C2|2014-04-24|2014-04-24|Projectile stop device and projectile stop arrangement|SE1450491A| SE538045C2|2014-04-24|2014-04-24|Projectile stop device and projectile stop arrangement|
    UAA201611836A| UA118872C2|2014-04-24|2015-04-17|Projectile arresting device and projectile arresting arrangement|
    RU2016145931A| RU2016145931A|2014-04-24|2015-04-17|CAPTURE FOR FLYING BODIES AND CAPTURE DESIGN FOR FLYING BODIES|
    DK15782693.4T| DK3134701T3|2014-04-24|2015-04-17|PROJECT STOPPING DEVICE AND PROJECT CLEANING DEVICE|
    US15/305,210| US9733050B2|2014-04-24|2015-04-17|Projectile arresting device and projectile arresting arrangement|
    CA2946391A| CA2946391A1|2014-04-24|2015-04-17|Projectile arresting device and projectile arresting arrangement.|
    PCT/SE2015/050448| WO2015163810A1|2014-04-24|2015-04-17|Projectile arresting device and projectile arresting arrangement|
    EP15782693.4A| EP3134701B1|2014-04-24|2015-04-17|Projectile arresting device and projectile arresting arrangement|
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