EP0075970B1 - Geschütz mit einem Munitionsbehälter und einem verschiebbaren Nachladebehälter - Google Patents

Geschütz mit einem Munitionsbehälter und einem verschiebbaren Nachladebehälter Download PDF

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Publication number
EP0075970B1
EP0075970B1 EP19820200969 EP82200969A EP0075970B1 EP 0075970 B1 EP0075970 B1 EP 0075970B1 EP 19820200969 EP19820200969 EP 19820200969 EP 82200969 A EP82200969 A EP 82200969A EP 0075970 B1 EP0075970 B1 EP 0075970B1
Authority
EP
European Patent Office
Prior art keywords
container
reloading
sensor
lever
pawl
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.)
Expired
Application number
EP19820200969
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German (de)
English (en)
French (fr)
Other versions
EP0075970A1 (de
Inventor
Emil Singenberger
Arto Airio
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.)
Rheinmetall Air Defence AG
Original Assignee
Werkzeugmaschinenfabrik Oerlikon Buhrle AG
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 Werkzeugmaschinenfabrik Oerlikon Buhrle AG filed Critical Werkzeugmaschinenfabrik Oerlikon Buhrle AG
Publication of EP0075970A1 publication Critical patent/EP0075970A1/de
Application granted granted Critical
Publication of EP0075970B1 publication Critical patent/EP0075970B1/de
Expired legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41AFUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
    • F41A9/00Feeding or loading of ammunition; Magazines; Guiding means for the extracting of cartridges
    • F41A9/82Reloading or unloading of magazines

Definitions

  • a gun of this type is known from CH-A No. 596533. With this gun, loading strips with cartridges are pushed into the ammunition container up to the stop on the last loading strip located in the ammunition container during the reloading process, with some front loading strips being caught by the conveying device in the ammunition container. The remaining, rear loading strips must then be pushed back into the reloading container using a special return device.
  • the invention solves the problem of creating a gun in which the reloading process can be carried out more precisely and quickly.
  • a gun has two automatic firearms 1.
  • Each of these firearms 1 is mounted in a side plate 2 so as to be pivotable about a vertical axis X.
  • the side plates 2 are fastened on a platform 3 which is rotatably mounted on a lower mount 3a about a side axis Z.
  • An ammunition container 4 is fastened to each firearm 1 on the side opposite the side plate 2 and can be pivoted about the vertical direction axis X together with the firearm 1.
  • An ammunition container of this type is described in an older Swiss patent CH-A No. 379969.
  • the ammunition containers 4 have cover surfaces 7 which are parallel to a plane through the side axes of the firearms 1. Each cover surface 7 is provided with an inlet opening 8.
  • Reloading containers 10 are arranged behind the ammunition containers 4, in which loading strips 5 with cartridges 6 can be seen.
  • the essentially prismatic reloading containers 10 have rollers 13 on their side walls 10a, by means of which they are displaceably guided in rails 12 with a U-shaped cross section.
  • the rails 12 are fastened on bases 11 which are attached to the platform 3.
  • a cabin 9 for the shooter is located between the two reloading containers 10.
  • the two firearms 1 are pivoted into the 90 "level, so that the top surfaces 7 are directed perpendicular to the platform 3.
  • the reloading containers 10 are shifted forward in the rails 12 to such an extent that their outlet openings 14 are provided Front walls 10b rest against the cover surfaces 7 of the ammunition containers 4 provided with the inlet openings 8.
  • FIG. 3 the structure of the reloading container 10 is shown schematically.
  • the reloading container 10 is in a starting position in relation to the ammunition container 4, which is only indicated in this figure.
  • Both the magazine container 4 and the reloading container 10 are each provided with a pair of cross-sectionally U-shaped rails 17 and 18, of which in FIGS. 3 and 9 only the rear end of one of the rails 17 and the front end of one of the Rails 18 can be seen.
  • the loading strips 5 are guided over rollers, each of which contains a set of cartridges 6 (FIGS. 8 and 9).
  • the front wall 10b (FIG. 9) of the reloading container 10 is provided with a pin 16 and the top surface 7 of the ammunition container 4 is provided with a corresponding blind hole 15 (FIG. 3).
  • the pin 16 projects into the blind bore 15, the rear ends of the rails 17 also touching one another with the front ends of the rails 18.
  • a device for moving the reloading container 10 from the initial position into the reloading position and back is designated by 200 in FIGS. 3 and 13.
  • This device 200 is operatively connected to a device 201 for fixing the reloading container 10 in the two positions mentioned.
  • These two devices 200 and 201 are arranged on a stationary base plate 19 which is assigned to the bases 11 in a manner not shown and are described in detail later with reference to FIG. 4.
  • a safety barrier 202 (FIG. 12) is on the side wall 10a of the reloading container 10 brought and cooperates with the two devices 200, 201 mentioned.
  • the safety barrier 202 is schematically shown below the reloading container 10. The correct position of the safety barrier 202 can be seen in FIGS. 11 and 12.
  • the safety barrier 202 is also described later with reference to FIGS. 4 and 12.
  • a number of further mechanisms are present within the reloading container 10, which are shown schematically in one plane in FIG. 3 and are later described individually with reference to FIGS. 5, 6 and 7. 3, only the first two loading strips 5 are shown with the cartridges arranged perpendicular to the bottom 1 oc of the reloading container 10.
  • the outermost cartridges 6-1 to 6-5 of the first five sets of cartridges located in each of the loading strips 5 are additionally shown displaced by 90 ° to the actual arrangement.
  • These are assigned a device 203 (FIG. 8) for pushing out the loading strips 5 with the cartridge sets from the reloading container 10, which in reality from the side walls 10b of the reloading container 10 in each case on the outermost cartridges of the individual cartridge sets located in the loading strips 5 intervenes.
  • the subsequent loading strips 5 touch each other.
  • a blocking device 204 for loading strips 5 acts, which on the one hand is operatively connected to the above-mentioned device 203 for pushing out the loading strips 5, but on the other hand also interacts with another device 205 for switching off the loading strip conveyor.
  • the device 205 (FIG. 11) for switching off the loading strip conveyor can be actuated by a sensor device 206 (FIGS. 10 and 11) which has a sensor 20.
  • a triggering device 207 for the sensor 20 is shown in FIG. 3, which interacts with the safety barrier 202 in a manner described later.
  • the device 200 for displacing the reloading container 10 has a cylinder 25 arranged on the base plate 19, in which a piston 26 is displaceably arranged and can be acted upon via lines 27, 28.
  • the piston 26 is connected in an articulated manner to a slide 30 via a rod 29.
  • the slide 30 is prevented from moving forward by a pawl 34 arranged pivotably on the base plate 19.
  • the slide 30 is supported with its support surface 31 on a latch surface 35.
  • the pawl 34 (FIG. 13), which forms part of the device 201 for fixing the reloading container 10, can be pivoted from the position shown against the force of a spring 36 by a piston rod 38.
  • the piston rod 38 is assigned to a piston 37 which is arranged displaceably in a cylinder 39 and can be acted upon via a line 47 against the force of a spring 40 surrounding the piston rod 38.
  • the cylinder 39 is fixed on the base plate 19.
  • the slide 30 (FIGS. 4 and 13) is provided with a locking groove 32, into which the pawl 34 can be locked in the front end position of the piston 26 and the slide 30.
  • an arm 41 of a two-arm angle lever 42 engages in a further groove 33 of the slide 30.
  • the angle lever 42 is pivotally articulated on a bearing 43 of the reloading container 10.
  • On the other arm 44 of the angle lever 42 a rod 45 is articulated.
  • the rod 45 is provided on the end facing away from the angle lever 42 with a pin 46 which engages in a fork-shaped arm 49 of a three-armed lever 50 belonging to the safety barrier 202.
  • the lever 50 is pivotally mounted about an axis 51 on the side wall 1 Ob of the reloading container 10.
  • a roller 53 is mounted, which can get into a groove 54 of the base plate 19 in the illustrated starting position of the reloading container 10 by pivoting the lever 50.
  • a spring-loaded pawl 55 is also pivotally mounted on the lever 50, which engages behind a nose 56 arranged on the side wall 10a of the reloading container 10 and secures the lever 50 against unintentional pivoting.
  • a bolt 58 is also supported on the lever 50 under the pressure of a spring 59, which is supported in the side wall 10a of the reloading container 10, with its end facing away from the safety barrier 202 protruding into the interior of the reloading container 10 and a part the trigger device 207 described later for the sensor 20 forms.
  • both cams 63 and 64 are fastened to the rod 45 and to the reloading container 10, between which a spring 65 is supported.
  • the spring 65 tends to push the rod 45 forward and thus on the one hand pivot the arm 41 of the angle lever 42 out of the groove 33 of the slide 30, and on the other hand also the lever 50 of the safety barrier 202 in the direction of arrow A (according to FIG 4) to pivot.
  • the device 203 for pushing out the loading strips 5 with the cartridge sets has a loading arm 71.
  • a number of pawls 72 possibly twelve pawls 72-1 to 72-12, are pivotally articulated on the loading arm 71.
  • the number of pawls 72 corresponds to the maximum possible number of loading strips or the capacity of the reloading container 10.
  • Each pawl 72 is associated with a spring 73 which tends to press the pawl 72 clockwise against a control rail 74.
  • This control rail 74 has three inclined elongated holes 75, into each of which a bolt 76 protrudes.
  • the bolts 76 are fastened in the side wall 10a of the reloading container 10 in a manner not shown.
  • the loading arm 71 is guided in a manner not shown in the side walls 10a of the reloading container 10 slidably.
  • To move the loading arm 71 is on a front jump 77 a chain 78 with its two ends 79, 80 attached.
  • the chain 78 is guided over three deflection rollers 81, 82 and 83 and over a drive sprocket 84.
  • This drive sprocket 84 is rigidly connected to a gear 85 which is in engagement with a rack 86.
  • the rack 86 is connected via a piston rod 87 to a piston 88 which is slidably arranged in a cylinder 89.
  • the piston 88 can be acted upon via two lines 90, 91.
  • the rack 86 is provided with a locking groove 92, into which a spring-loaded pawl 93 engages.
  • the rack 86 In the illustrated initial position of the reloading container 10 and the device 203 for pushing out the loading strips 5, which corresponds to FIG. 3, the rack 86, and thus also the loading arm 71, is blocked in its forward displacement.
  • the pawl 93 is connected to a spring-loaded bolt 94 protruding from the reloading container 10 and can be lifted out of the latching groove 92 by this.
  • the bolt 94 interacts with a run-up surface 95 and is displaceably adjusted by this.
  • the loading arm 71 (FIGS. 5 and 9) is provided with a roller 70 which is assigned to a run-up surface 96 of the blocking device 204 for loading strips 5.
  • the blocking device 204 operable by the roller 70 will be described later.
  • a rod 99 is also articulated on the control rail 74 (FIGS. 5, 10 and 11) and is connected at its other end in an articulated manner to a lever 100 which is only partially shown in FIG. 5.
  • This lever 100 forms part of the device 205 for switching off the loading strip conveyor, which is described below with reference to FIG. 6 together with the sensor device 206 and with the triggering device 207 for the sensor 20. 6, the aforementioned sensor 20 is slidably mounted in the loading arm 71.
  • the senor 20 In the position shown (FIG. 6), the sensor 20 is in its rearmost position in relation to the loading arm 71. In FIG. 9, the sensor 20 is located somewhat further forward. A spring 103 arranged inside the sensor 20 is supported in a compressed manner between the sensor 20 and a stop 104 of the loading arm 71. The sensor 20 is held in this position by a pawl 105 pivotally mounted on the side wall 10a of the reloading container and loaded by a spring 102, on the nose 106 of which the sensor 20 is supported with a stop 107. A front part 108 of the pawl 105 projects into a fork-shaped part 109 of a bolt 110 which is displaceably mounted in the reloading container 10 and which forms part of the triggering device 207 for the sensor 20.
  • the bolt 110 (FIGS. 6 and 11) is adjustable against the force of a spring 111 by a release lever 112. As a result of this adjustment, the pawl 105 (FIG. 9) can be pivoted out of engagement with the sensor 20 against the force of the spring 102.
  • the spring 103 is able to move the sensor 20 into a front position relative to the loading arm 71, in which the stop 113 of the sensor 20 interacts with a stop 104 of the loading arm 71.
  • a probe arm 115 is pivoted.
  • a spring 116 which is arranged in a blind bore 117 of the sensor 20, tends to push the probe arm 115 downwards down to the rails 18, 17 (FIG. 3) provided for the loading strips 5 or up to the to press not shown loading strip ends.
  • a sensor pawl 120 which is spring-loaded in a manner not shown and which is provided with a front stop 121 and a rear stop 122 is pivotably mounted about a vertical pin 119.
  • a lower surface of the sensor pawl 120 is designated by 123.
  • the sensor pawl 120 (FIGS. 6 and 11) interacts with a sensor rail 125.
  • the sensor rail 125 has two inclined elongated holes 126, into each of which a pin 127 attached to the loading arm 71 projects.
  • the sensor rail 125 can thus be adjusted backwards and downwards relative to the loading arm 71 from the position shown, a lug 131 of the sensor rail 125 having to overcome the force of a spring 132.
  • the sensor rail 125 (FIGS. 10 and 11) has a laterally beveled stop 128, indicated in FIG. 6, which interacts with the front stop 121 of the sensor pawl 120.
  • Another stop on the sensor rail 125 is designated 129 and the upper surface thereof 130.
  • the sensor rail 125 (FIGS. 6, 10 and 11) also has a number, possibly six, of cutouts 133 on its lower side.
  • the number of cutouts 133 corresponds to the maximum possible number of loading strips or the capacity of the ammunition container 4.
  • An arm 136 of a three-armed pawl 135 can snap into the recesses 133 (FIGS. 6 and 11) of the sensor rail 125.
  • the pawl 135 is pivotally articulated on the lever 100 of the device 205 for switching off the loading strip conveying, which has already been mentioned.
  • a second arm 137 of the pawl 135 interacts with a roller 139 fastened to the side wall 10a of the reloading container 10.
  • a tension spring 140 is attached to a third arm 138 and to the lever 100, which strives to pivot the pawl 135 counterclockwise (viewed in FIG. 6).
  • the third arm 138 is also assigned a stop 141 attached to the lever 100.
  • the lever 100 (FIGS. 6 and 11) is designed with two arms and can be pivoted about an axis 142, associated with the side wall 10a of the reloading container 10.
  • a rod 144 is articulated on the lower arm 143 of the lever 100 and is surrounded by a strong plate spring assembly 145.
  • This plate spring assembly 145 is supported on the one hand on a shoulder 146 of the rod 144 and on the other hand on a plate 147 on the bottom 10c of the reloading container 10.
  • the rod 144 protrudes slidably through a bore 148 of the plate 147.
  • the plate spring assembly 145 tends to pivot the lever 100 either counterclockwise or clockwise (viewed in FIG. 6). 6 shows the lower position of the rod 144, in which the plate spring assembly 145 tries to pivot the lever 100 clockwise and brings the control rail 74 into the stop position via the rod 99 (FIG. 5).
  • the trigger lever 112 (FIGS. 6 and 9) of the trigger device 207 for the sensor 20 is guided with play on the front wall 1 above the reloading container 10 and protrudes with its front end 151 out of the front wall 1 whether against the ammunition container 4.
  • the release lever 112 is held in a foremost position shown in FIG. 6, in which its cam 153 bears against the front wall 1 Ob, by a tension spring 152 which is fastened on the one hand to the release lever 112 and on the other hand to the front wall 10b.
  • the surface of the release lever 112 cooperating with the rod 110 is designated 154 in FIG. 6.
  • the trigger lever 112 also has an inclined ramp surface 155 (FIG. 11) which interacts with the already mentioned bolt 58, which is supported on the lever of the safety barrier 202 according to FIG. 4.
  • the blocking device 204 for the loading strip 5 has a beam 157 which is pivotally mounted in the reloading container 10 about an axis 156 and on which a support slide 158 is articulated on one side of the axis 156 and a catch lever 159 is articulated on the other side.
  • the support slide 158 is guided between two stops 160 and provided with the run-up surface 96 assigned to the roller 70 of the loading arm 71 (cf. also FIG. 5).
  • the support lever 158 is pressed down by the roller 70, while the catch lever 159 is pivoted upward above the bar 157 and engages with its nose 161 in front of the first loading strip 5 or in front of its recess 5a.
  • the first recess 5a is positioned behind a rail 67 which has recesses 68 for recesses 5a of further loading strips 5 and which can be adjusted downwards against the force of a spring 69 when the loading strips 5 are displaced, so that the recesses 5a of the individual loading strips 5 can each slide away from one recess 68 into the other.
  • a damping device 162 is articulated on the central part of the catch lever 159 (FIGS. 7 and 9). This is provided with a spring 163 which is arranged in the interior of a cylinder 164 fixed to the container, which surrounds a piston rod 165 articulated with the catch lever 159 and is supported on the one hand on the cylinder 164 and on the other hand on a piston 166 connected to the piston rod 165.
  • the pivoting of the bar 157 (FIG. 9), or the adjustment of the catch lever 159 upward in front of the first loading strip 5, can also be carried out by a further roller 169 which is mounted on the left end of a rod 170.
  • the other end of the rod 170 is provided with a pivotally mounted pawl 171, which can be latched into a hook 172 fastened to the bottom 1 oc of the reloading container 10.
  • the pawl 171 is connected via a pin 173 and an elongated hole 174 to a swivel arm 175 which, together with the lever 100 shown and described in FIG. 6, can be pivoted about the axis 142.
  • a spring 177 is fastened on the pawl 171 on the one hand and on a container-fixed eyelet 176 on the other hand, by means of which the pawl 171 together with the rod 170 is pulled into the front position shown.
  • the pawl 171 (Fig. 7) and the pivot arm 175 are also provided with mutually associated stops 181, 182.
  • a loading arm 71 with control rail 74 and a lever 100 with rod 99 are mounted on each of the two side walls 1 Oa, on the other hand sensors 20, sensor rail 125, pawl 135 and plate spring assembly 145 and guide 144 with lever 143 are only present on one side (FIG 8-1).
  • the trigger mechanism 207 (FIG. 6) as well as the bolt 110 and the pawl 105 are also only present on one side (FIG. 9, 11).
  • the structure described has the following effect: If ammunition is to be refilled from the reloading container 10 into the ammunition container 5, the firearm 1 with the magazine container 4 is pivoted into the position shown in FIG. 2. The reloading container 10 is then brought from the initial position shown in FIG. 3 into the front reloading position. For this purpose, the fixation of the reloading container 10 in the starting position is first released by the device 201 shown in FIG. 4, in that the piston 37 is acted on and the pawl 34 is pivoted out of the way of the slide 30.
  • the safety barrier 202 is in the position shown in FIG. 4, so that the reloading container 10 is connected to the slider 30 via the arm 41 of the angle lever 42.
  • the piston 26 of the device 200 is acted on via the line 27 and moved forward together with the slide 30, the reloading container 10 being carried along and being guided forward in rails 12 (FIG. 2).
  • the release lever 112 As soon as the front end 151 of the release lever 112 (FIG. 6) protruding from the front wall 1 of the reloading container 10 (FIG. 6) abuts against the magazine container 4, the release lever 112 is pushed backward against the force of the spring 152 as it moves forward, against the force of the spring 152 Ramp surface 155 abuts against the pin 58, which projects into the interior of the reloading container 10 according to FIG. 4 and is placed under the lever 50 of the safety barrier 202. The trigger lever 112 (FIG. 6) then lifts the rod 110 against the surface 154 Force of the spring 111 on, whereby the pawl 105 is pivoted against the force of the spring 102 and the sensor 20 is released.
  • the spring 20 pushes the sensor 20 forward relative to the loading arm 71 until its stop 113 abuts against the stop 104 of the loading arm 71. If, during this forward movement of the sensor 20, the front stop 121 of the sensor pawl 120 abuts against the stop 128 of the sensor rail 125, the sensor pawl 120 is pivoted around the pin 119 and is guided forward past the sensor rail 125 until the rear stop 122 of the sensor pawl 120 the stop 129 of the sensor rail 125 is brought forward.
  • the device 203 for pushing out the loading strips 5 with cartridges 6 is then started (FIG. 5). Since, during the forward movement of the reloading container 10, the bolt 94 has already been raised above the run-up surface 95 and the pawl 93 has been disengaged from the latching groove 92 of the piston rod 87, there is nothing standing in the way of the piston 88 being moved forward. The piston 88 is acted upon via the line 91 and pushes the rack 86 forwards via the piston rod 87.
  • the gear 85 with the drive sprocket 84 is rotated counterclockwise (viewed in FIG. 5), whereby the loading arm 71 is pushed forward over the chain 78.
  • the pawls 72-1 to 72-4 pivoted against the springs 73 by the cartridges 6-2 to 6-5 in FIG. 5 again become like the other pawls 72-5 to 72-12 pressed against the control rail 74 and then push against the advanced cartridges 6 (the pawl 72-1 against the cartridge 6-1, the pawl 72-2 against the cartridge 6-2, etc.).
  • the sensor 20 With the loading arm 71, the sensor 20 (see FIG. 6) and the sensor rail 125 are moved forward until the scanning arm 115 of the sensor device 206 against the last loading strip located in the ammunition container 4, not shown in the drawing 5 bumps.
  • the suddenly braked sensor 20 and the loading arm 71 moving further forward are set in a mutual relative movement, during which the sensor 20 with the rear stop 122 of the sensor pawl 120 abuts the stop 129 of the sensor rail 125 and the sensor rail 125 opposite Loading arm 71 pushes back and down. This relative movement is limited by elongated holes 126 and bolts 127.
  • the sensor pawl 120 slides with its lower surface 123 over the upper surface 130 of the sensor rail 125, and the sensor rail 125 continues to move forward in the lowered position together with the loading arm 71 until one of its recesses 133 engages with the arm 136 of the three-armed jack 135 arrives. Which of these recesses 133 comes into engagement with the pawl 135 depends on how far forward the sensor 20 had to extend before it was braked within the ammunition container 4, i.e. when the sensor rail 125 is lowered relative to the forwardly moving loading arm 71.
  • the lever 100 of the device 205 for switching off the loading strip conveyor is pivoted counterclockwise (viewed in FIG. 6) and comes into a position in which the plate spring assembly 145 also strives has to pivot the lever 100 counterclockwise.
  • the control rail 74 (FIG. 5) in the reloading container 10 is pressed forwards and upwards via the rod 99 articulated on the lever 100. This relative movement is limited by slots 75 and the bolts 76 fixed to the container. The pawls 72 are pivoted against the force of the spring 73 and the loading strip conveyor is thus interrupted.
  • the loading arm 71 moves to the left and pushes the front loading strips 5 to be reloaded to the front, ie to the left in FIG. 3, until they come into contact with the last loading strips 5 present in the ammunition container 4.
  • the sensor 20 is in the opposite Loading arm 71 retracted position by the pawl 105 with the nose 106 on the sensor-side stop 1 07 has been secured again.
  • the pawl 120 of the sensor 20 has been pushed with its stop 121 past the stop surface 128 of the sensor rail 125, so that the sensor rail 125 is moved back to its starting position by the spring 132 and when the loading arm 71 is moved back to the rearmost position in FIG 3 can be pushed back on the far right.
  • the loading arm 71 is moved backwards in the reloading container 10 with the pawls 72 pivoted in by the control rail 14.
  • the piston 88 shown in FIG. 5 is acted upon via the line 90 and moved backwards together with the piston rod 87 and the rack 86.
  • the pawls 72 of the loading arm 71 moved backwards via the chain 78 slide over the outermost cartridges 6 of the loading strip 5.
  • the probe arm 115 also slides over the ends of the loading strips.
  • the reloading container 10 is also in its. Starting position withdrawn, the piston 26 being acted upon via the line 28.
  • the piston rod 29 acts on the container bottom 10c via slide 30 and lever 42, the pawl 34 being pivoted away by the slide 30 on the inclined contact surface of the locking groove 32 and pressed against the spring 36.
  • the three-armed lever 50 of the safety barrier 202 (FIG. 4) is pivoted in the direction of the arrow A and the pawl 55 is brought out of engagement with the nose 56.
  • the roller 53 engages in the groove 54 in the base plate 19.
  • the rod 45 is pressed forward under the pressure of the spring 65 over the fork-shaped arm 49 of the lever 50 and thus the angle lever 42 is pivoted clockwise (viewed in FIG. 4), so that the arm 41 of the angle lever 42 is disengaged from the groove 33.
  • the reloading container 10 cannot be moved forward at all.
  • the sensor 20 cannot extend from the reloading container 10, because by pivoting the lever 50, the bolt 58 (FIGS. 4 and 6) supported on the lever 50 under pressure of the spring 59 (FIG. 4) from inside the reloading container 10 is moved. The release lever 112 (FIG. 6) will then not raise the rod 110 even if the spring 152 is possibly overcome, since there is no bolt 158 opposite its contact surface 155. Thus, the sensor 20 remains secured.

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  • General Engineering & Computer Science (AREA)
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EP19820200969 1981-09-29 1982-07-28 Geschütz mit einem Munitionsbehälter und einem verschiebbaren Nachladebehälter Expired EP0075970B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH624481 1981-09-29
CH6244/81 1981-09-29

Publications (2)

Publication Number Publication Date
EP0075970A1 EP0075970A1 (de) 1983-04-06
EP0075970B1 true EP0075970B1 (de) 1985-03-20

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EP19820200969 Expired EP0075970B1 (de) 1981-09-29 1982-07-28 Geschütz mit einem Munitionsbehälter und einem verschiebbaren Nachladebehälter

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EP (1) EP0075970B1 (enrdf_load_stackoverflow)
JP (1) JPS5869399A (enrdf_load_stackoverflow)
DE (1) DE3262667D1 (enrdf_load_stackoverflow)

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US7832389B2 (en) 2005-10-11 2010-11-16 Kee Action Sports I Llc Magnetic drive bypass system for paintball loader
US7921835B2 (en) 2005-09-15 2011-04-12 Kee Action Sports I Llc Wireless projectile loader system
US8047191B2 (en) 2004-04-28 2011-11-01 Kee Action Sports I Llc Mechanical drive assist for active feed paintball loader
US8061342B2 (en) 1999-12-16 2011-11-22 Kee Action Sports I Llc Paintball loader
US8091541B2 (en) 2004-10-14 2012-01-10 Kee Action Sports I Llc Device for feeding balls into the ball chamber of a handgun
US8104462B2 (en) 2002-04-12 2012-01-31 Kee Action Sports I Llc Differential detection system for controlling feed of a paintball loader
US8402959B1 (en) 2008-03-19 2013-03-26 Kee Action Sports I Llc Magnetic force feed projectile feeder drive mechanism
USRE45986E1 (en) 1999-12-16 2016-04-26 Gi Sportz Direct Llc Spring loaded feed mechanism for paintball loader

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US7428899B2 (en) 2004-10-14 2008-09-30 Kee Action Sports I Llc Device for storing projectile balls and feeding them into the projectile chamber of a gun
US8251050B2 (en) 2005-10-11 2012-08-28 Kee Action Sports I Llc Magnetic drive bypass system for paintball loader
DE202009007415U1 (de) 2009-05-25 2010-08-26 Rheinmetall Waffe Munition Gmbh Modularer Waffenträger
WO2014205313A2 (en) 2013-06-21 2014-12-24 Kee Action Sports I Llc Compressed gas gun having built-in, internal projectile feed mechanism
US11796280B2 (en) 2019-11-26 2023-10-24 Kore Outdoor (Us), Inc. Projectile loader having streamlined external body and internal opening mechanism
USD961002S1 (en) 2019-12-30 2022-08-16 Kore Outdoor (Us), Inc. Projectile loader
CA3197665A1 (en) 2020-09-30 2022-04-07 Kore Outdoor (Us), Inc. Compressed gas projectile launching devices
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US8561600B2 (en) 1999-12-16 2013-10-22 Kee Action Sports I Llc Paintball loader
USRE45986E1 (en) 1999-12-16 2016-04-26 Gi Sportz Direct Llc Spring loaded feed mechanism for paintball loader
US9212864B2 (en) 1999-12-16 2015-12-15 Kee Action Sports I Llc Paintball loader
US8061342B2 (en) 1999-12-16 2011-11-22 Kee Action Sports I Llc Paintball loader
USRE43756E1 (en) 1999-12-16 2012-10-23 Kee Action Sports I Llc Rapid feed paintball loader with pivotable deflector
US9464862B2 (en) 2002-04-12 2016-10-11 Gi Sportz Direct Llc Paintball loader drive system
US8746225B2 (en) 2002-04-12 2014-06-10 Kee Action Sports I Llc Paintball loader drive system
US8104462B2 (en) 2002-04-12 2012-01-31 Kee Action Sports I Llc Differential detection system for controlling feed of a paintball loader
US8047191B2 (en) 2004-04-28 2011-11-01 Kee Action Sports I Llc Mechanical drive assist for active feed paintball loader
US8091541B2 (en) 2004-10-14 2012-01-10 Kee Action Sports I Llc Device for feeding balls into the ball chamber of a handgun
US7770569B2 (en) 2004-10-14 2010-08-10 KEE Action and Sports I LLC Procedure and device for feeding balls into the projectile chamber of a handgun
US8448631B2 (en) 2005-09-15 2013-05-28 Kee Action Sports I Llc Wireless projectile loader system
US7921835B2 (en) 2005-09-15 2011-04-12 Kee Action Sports I Llc Wireless projectile loader system
US7832389B2 (en) 2005-10-11 2010-11-16 Kee Action Sports I Llc Magnetic drive bypass system for paintball loader
US8402959B1 (en) 2008-03-19 2013-03-26 Kee Action Sports I Llc Magnetic force feed projectile feeder drive mechanism

Also Published As

Publication number Publication date
DE3262667D1 (en) 1985-04-25
JPS5869399A (ja) 1983-04-25
JPS6329200B2 (enrdf_load_stackoverflow) 1988-06-13
EP0075970A1 (de) 1983-04-06

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