EP1544568A1 - Arme à feu - Google Patents

Arme à feu Download PDF

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Publication number
EP1544568A1
EP1544568A1 EP04029680A EP04029680A EP1544568A1 EP 1544568 A1 EP1544568 A1 EP 1544568A1 EP 04029680 A EP04029680 A EP 04029680A EP 04029680 A EP04029680 A EP 04029680A EP 1544568 A1 EP1544568 A1 EP 1544568A1
Authority
EP
European Patent Office
Prior art keywords
closure
barrel
weapon
closure head
firearm according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP04029680A
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German (de)
English (en)
Other versions
EP1544568B1 (fr
Inventor
Heinz-Eckhard Dr. Engel
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Individual
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Individual
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Publication date
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Publication of EP1544568A1 publication Critical patent/EP1544568A1/fr
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Publication of EP1544568B1 publication Critical patent/EP1544568B1/fr
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    • 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
    • F41A5/00Mechanisms or systems operated by propellant charge energy for automatically opening the lock
    • F41A5/02Mechanisms or systems operated by propellant charge energy for automatically opening the lock recoil-operated
    • F41A5/16Mechanisms or systems operated by propellant charge energy for automatically opening the lock recoil-operated having a barrel moving forwardly after the firing of a shot
    • 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
    • F41A3/00Breech mechanisms, e.g. locks
    • F41A3/12Bolt action, i.e. the main breech opening movement being parallel to the barrel axis
    • F41A3/14Rigid bolt locks, i.e. having locking elements rigidly mounted on the bolt or bolt handle and on the barrel or breech-housing respectively
    • F41A3/16Rigid bolt locks, i.e. having locking elements rigidly mounted on the bolt or bolt handle and on the barrel or breech-housing respectively the locking elements effecting a rotary movement about the barrel axis, e.g. rotating cylinder bolt locks
    • F41A3/18Rigid bolt locks, i.e. having locking elements rigidly mounted on the bolt or bolt handle and on the barrel or breech-housing respectively the locking elements effecting a rotary movement about the barrel axis, e.g. rotating cylinder bolt locks hand-operated
    • 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
    • F41A3/00Breech mechanisms, e.g. locks
    • F41A3/12Bolt action, i.e. the main breech opening movement being parallel to the barrel axis
    • F41A3/36Semi-rigid bolt locks, i.e. having locking elements movably mounted on the bolt or on the barrel or breech housing
    • F41A3/44Semi-rigid bolt locks, i.e. having locking elements movably mounted on the bolt or on the barrel or breech housing having sliding locking elements, e.g. balls, rollers
    • F41A3/46Semi-rigid bolt locks, i.e. having locking elements movably mounted on the bolt or on the barrel or breech housing having sliding locking elements, e.g. balls, rollers mounted on the bolt
    • 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
    • F41A9/38Loading arrangements, i.e. for bringing the ammunition into the firing position
    • F41A9/47Loading arrangements, i.e. for bringing the ammunition into the firing position using forwardly-sliding barrels or barrel parts for loading
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41CSMALLARMS, e.g. PISTOLS, RIFLES; ACCESSORIES THEREFOR
    • F41C7/00Shoulder-fired smallarms, e.g. rifles, carbines, shotguns
    • F41C7/02Pump-action guns, i.e. guns having a reciprocating handgrip beneath the barrel for loading or cocking
    • F41C7/025Pump-action guns, i.e. guns having a reciprocating handgrip beneath the barrel for loading or cocking having hand-operated sliding barrels

Definitions

  • the invention relates to a firearm, in particular a one-shot or Mehrschüssige Bolt action rifle.
  • Such a weapon is known for example from DE-OS-22 63 378.
  • the one on one Guide rod sliding bearing barrel has a closure part end, in the closed position the weapon form-fitting with a likewise longitudinally displaceable Locking head is brought into engagement.
  • a spring mounted slide a pawl actuated, which has a locking pin on the closure head releases. This is together with the run of a compression spring in the direction against pressed a stop.
  • two positively coupled shutter rollers are pivoted, so that the closure head can be detached from the closure part.
  • the latter slides continue along with the barrel while the breech head stops.
  • GB-PS-756 769 dispenses with a closure device on the run and used Instead, a coil spring, the longitudinally movable barrel permanently against presses a stop surface in a housing. So that the weapon in the closed position is secured and can not be accidentally opened, engages behind a swivel stored locking element a recess in the barrel assembly. To open the Weapon is released with the weft hand, the locking element from its rest position. Subsequently, the barrel assembly over the forend against the closing force the coil spring is moved forward to the empty cartridge case to be able to eject.
  • a guide tube axially displaceably mounted barrel also by a coil spring permanently pressed against a housing-side stop and by means of an am front end of the guide tube arranged locking device locked.
  • radially displaceable locking pins are provided, which in corresponding Locking recesses in the guide tube and engage in the barrel.
  • the latter carries one Gas cylinder, the one between and the front end of the guide tube Piston volume limited, the gas wells with the inner bore of the gun barrel fluidly connected. If a cartridge shot down, this penetrates emerging gas both in the gas cylinder and in the locking recesses.
  • the Locking pins are counter to a spring force from the locking recesses in the barrel pushed out and moves the gas cylinder together with the barrel to the front; the emptiness Cartridge sleeve is ejected via an ejector mechanism. Once the gas pressure falls off the barrel of the coil spring is immediately brought into its closed position. The locking pins again engage in their locking recesses.
  • US-PS-3 020 662 discloses a bolt action rifle, wherein the running end of the axially displaceable mounted barrel via a bayonet-type closure form-fitting with a fixed in the housing closure head is connected.
  • the entire barrel must have a laterally projecting Repetierhebel turned around its axis and then moved forward. therefore the locking and unlocking of the weapon takes place as in a conventional closure chamber, only that the often disturbing Repetierhebel not backwards, but still forward is moved.
  • the aim of the invention is to overcome these and other disadvantages of the prior art avoid and develop a firearm with longitudinally moving barrel that easy is constructed and easy to handle.
  • the entire mechanics including the Closure device and the locking device should from as few Parts exist that are manufactured and assembled inexpensively with little effort can be.
  • the aim is also a always play and rattle-free closing Weapon, which at the moment of firing a tipping and torque-free power flow guaranteed.
  • the rifle should always work reliably.
  • the invention provides that the closure device is substantially axially symmetrical and / or rotationally symmetrical to the running axis and the Determining the closure head in the running radial and / or radial-acting Closing organs, by longitudinal movement of the barrel with corresponding Closure elements in the running are engageable, and that the closure head axially displaceable and / or rotatable on a coaxial with the running axis Carrier is stored, the stationary on or in a fixed to the shaft Housing is arranged.
  • Closure device allows together with the longitudinally movable barrel a extremely simple and compact design of the weapon.
  • the realize entire closure device with only a few parts, which - as well as the Run itself - as simple turned parts can be produced. This not only works cheap on the manufacturing costs.
  • the weapon is quick to assemble and can due to the relatively easy to implement movements always work reliably. Wear and susceptibility are low.
  • the locking device in the region of the closure device is trained. This can further simplify the entire construction, in particular, even if the locking device is axially symmetrical and / or rotationally symmetrical.
  • the firearm generally indicated at 10 in FIG. 1 has a shank 11 with a Shaft main body 12, the rear has a rifle piston 13 and the front side in a forend 14 passes. Between the shaft main body 12 and the rifle butt 13 is a pistol grip 15 is formed, the convenient operation of a Deduction 16 allows. The latter is for the purpose of firing a shot (not shown) clamping and release mechanism with a (also not shown) cock in conjunction, which actuates a firing pin 18.
  • Rifle barrel 30 is arranged above the shaft main part 12 .
  • This carries circumferentially an elongated sliding sleeve 22, with a trained parallel to the running axis A slide bore 23 positively a cross-sectionally polygonal, preferably square, guide pin 28th is pluggable.
  • Whose rear end is fixed to or in a housing 90, which is firmly connected to the shaft main body 12.
  • the free end of the guide pin 28 carries a cross-sectional widening 29, for example in the form of a screw, whose head is wider than the maximum width of the guide pin 28, so that the Sliding sleeve 22 finds it a front stop.
  • the cross-sectional broadening is preferred 29 of a (not shown) pivotally mounted, sprung transversely Pawl formed at rest with a locking arm of at least a side surface of the guide pin 28 protrudes.
  • the rearward end 32 is formed by a closure sleeve 33, which with a Threaded bore 37 screwed onto the tubular body of the barrel 30 or with this is one piece. Opposite the threaded bore 37, the sleeve 33 has a centric Recess 34 for receiving a closure head 41 during the firing an end formed in the barrel 30 cartridge chamber 31 terminates and thereby forms the abutment for a cartridge P to be fired. For this purpose is frontal in the center of the closure head 41 a thrust plate 42 with an axial bore 43 for introduced the firing pin 18.
  • a side (not shown) extractor claw as well an eccentrically arranged, axially sprung (also not shown) ejector serve the ejection of the remaining after the shot cartridge case the weapon 10.
  • the rear end of the closure sleeve 33 has concentric with the axis A of a Butting surface 38, which in the closed position of the barrel 30 at a corresponding Stop surface 94 in the housing 90 comes to rest and at the moment of firing the entire recoil force directly on the housing 90 and thus on the Shank 11 transmits.
  • the closure head 41 has a rear cylindrical shaft 44 with a centric Inner bore 45. Thus he sits limited axialverschiemp on a coaxial with the Running axis A of the barrel 30 formed cylindrical support 50. This is the end attached to a flange 92, which is open in the weft direction S housing 90th closes on the back.
  • the carrier 50 and the flange 92 may also be in one piece be with the housing 90, or it forms the carrier 50 so that this releasably with the housing 90 is connectable.
  • a likewise central axial bore 52 in the carrier 50 takes the spring-loaded Impact pin 18, which is the shot hole with a tip 19, the axial bore 43rd pierces in the closure head 41.
  • the closure head 41 is part of a closure device 40, which is designed in the manner of a radial collar closure. She points in With respect to the barrel axis A radially acting closure members 60, which through the Longitudinal movement of the barrel 30 and a coupled thereto, radially to the axis A extending adjusting movement with a corresponding closure element 65 in the closure sleeve 33 are engageable, so that the run 30 at the moment of Firing fee is always securely closed.
  • the closure members 60 are e.g. hardened detent balls 61, the circumference in a Row of radial openings 48 in the shaft 44 of the closure head 41 used are.
  • the closure element 65 in the closure sleeve 33 is an edge in the inner circumference the recess 34 formed circumferential recess 66, which is the detent balls 61 positively receives in the closed position of the barrel 30.
  • the repulsive force is via the closure head 41, the balls 61st and the closure sleeve 33 concentric with the axis A and thus tilting and torque-free in the housing 90 and introduced from this into the shaft 12.
  • the actuation of the detent balls 61 takes place in the radial direction R over the cylindrical Carrier 50, which is provided for this purpose at its free end with a control member 54.
  • This is, for example, a conical surface sloping down in the weft direction S. 54 with a narrower cylindrical extension 55. The latter emerges when Closing the weapon 10 expedient in a stepped bore 46 in the lock head 41st one.
  • the conical surface 54 can also circumferentially separate oblique or Wrench surfaces are formed, which correspond to the detent balls 61 in Active compound stand.
  • the stop for the axial movement of the closure head 41 on the carrier 50 forms an off-center transverse pin 56 which penetrates the shaft 44 perpendicular to the axis A and can move within a lateral key surface 57 in the carrier 50.
  • an anti-rotation of the closure head 41 is created, but this is not absolutely necessary.
  • On the shaft circumference of the closure head 41 a locking sleeve 63 is mounted longitudinally displaceable. This has at the rear a re-entrant collar 64, which engages behind a step-shaped shoulder 49 of the closure head 41.
  • a coaxial with the barrel axis A trained coil spring 58 pushes the sleeve 63 permanently in the weft direction S forward, so that the collar 64 comes in an open run 30 at the level 49 to rest.
  • the closure head 41 is thereby pushed into its front stop position (see Fig. 3) and held there with the weapon 10 open.
  • the radial openings 48 are closed by the sleeve 63, so that the resting on the outer circumference of the cylindrical support extension 55 balls 61 can not escape to the outside.
  • the locking sleeve 63 prevents as a fuse element so that not only the Falling out of the balls 61 with the barrel 30. It also fixes the closure head 41 positively in its front stop position with the weapon open 10. Will If you push it back by hand, the balls 61 from the cone surface 54 of the carrier 50 is pressed radially outward against the sleeve 63. A Movement of the closure head 41 in the closing direction Z is therefore not initially possible.
  • the closure head 41 is already positively engaged with the barrel 30, the Weapon 10, however, is not completely closed yet.
  • the rear Impact surface 38 of the barrel 30 and the stop surface 94 in the housing 90 is still a (Not shown in detail) remaining distance available.
  • This one is very for security important, because the firing pin 18 is arranged so that the tip 19 of the Shock bottom 42 just can not reach. This will only be possible if the detent balls 61 lie completely on the outer circumference of the carrier 50 and the Verschlußmuffe 33 with its abutment surface 38 positively against the stop surface 94 in Housing 90 comes to plant.
  • the barrel 30 is now in its rear Stop position.
  • the weapon 10 is completely closed and ready to fire.
  • the (not shown) cocking and tripping mechanism for the tap for example be formed within the main body part 12 or in the housing 90, so that at Retracting the barrel 30 automatically in the closed position of the cock cocked becomes (so-called self-tensioner).
  • the clamping mechanism rests in the closed position for example, on the impact surface 38, i. once the barrel 30 to open the weapon 10 in the weft direction S moves forward, the cock is relaxed, what for the safety is very important.
  • the executable Opening or closing movement takes place in only one direction, namely along the Barrel axis A, i. the guide shaft of the shooter engaging the fore-end 14 must neither embrace nor perform any other actuating movements in other directions.
  • a locking device 80 is provided. This consists of one or more Latching elements 81, e.g. Locking balls in the transverse bores 82 of the sliding sleeve 22nd are guided and whose diameter d is greater than the thickness D of the transverse bores 82 receiving wall 24 of the sliding sleeve 22 (see Fig. 4). By doing of the sliding sleeve 22 enclosed guide pin 28 are locking recesses 83rd brought in.
  • the sliding sleeve 22 carries an axially displaceable mounted actuator 84.
  • the sliding sleeve 22 facing Top 86 receiving cavities 87 are provided. Not shown Stops limit the axial movement of the bracket 84 forward and backward.
  • the transverse bores 82 in the sliding sleeve 22, the locking recesses 83 in the guide pin 28 and the receiving recesses 87 in the console 84 are so to each other arranged that the Rastkuglen 81 always then non-positively and positively in the locking recesses 83 are pressed once the barrel 30 its rear stop position has reached.
  • the console 84 closes here with its flat inner surface 86th the transverse bores 82 from the outside and fixes the locking balls 81 in the Locking recesses 83.
  • the latter are shaped so that the sliding sleeve 22 and thus the Run 30 are acted upon in the closing direction Z with a clamping force, so that the run 30 always rests without play and rattling in the housing 90.
  • the receiving recesses 87 lie in the closing direction Z offset behind the transverse bores 82nd
  • the console 84 against the compression spring 85 against the front against her stop moves.
  • the receiving recesses 87 under the transverse bores 82 of the sliding sleeve 22 are located (see Fig. 5)
  • the locking balls 81 dodge down, creating the detent between the guide pin 28 and the sliding sleeve 22 is released.
  • Further advancing the Forearm 14 in the weft direction S takes the console 84 over its stop the Sliding sleeve 22 with, so that the barrel 30 moves forward.
  • the detent balls 81 are now from the guide pin 28 in the receiving recesses 87 of the Console 84 held.
  • the closure sleeve 33 releases from the housing 90. It pulls the Locking head 41 on the lying in the radial openings 48 balls 61 after at the front until they can slide radially on the conical surface 54 of the carrier 50. The pressed by the compression spring 58 forward locking sleeve 63 covers the Radial openings 48 and thereby fixes the closure head 41 in its front End position. The barrel 30 finally releases the capping head 41 completely; the Cartridge bearing 31 is opened (see Fig. 6).
  • the Forearm 14 in the closing direction Z runs the barrel 30 and the closure sleeve 33 back into the housing 90.
  • the console 84 Once the console 84 has reached its rear end position, engage the locking balls 81 non-positively and positively in the locking recesses 83 of the Guide mandrel 28 a.
  • the barrel 30 is actively locked and can not be accidentally to be moved.
  • the weapon 10 can not by the firing pin 18th be opened because the spring force of the (not shown here) firing pin spring is smaller than the (to) holding force of the barrel lock 80. An opening of the weapon 10 is only over the forend 14 possible, the overcoming the compression spring 85 of the Guide hand in the weft direction S must be moved.
  • the closing force of the locking device 80 is about the number and the formation of the locking elements 81st established.
  • the compression spring 85 determines the force with which the weapon 10 is opened must become. However, this is not very large overall, because the compression spring 85 only is responsible for the barrel lock and not - such. at (semi) automatic Weapons - for holding the weapon 10 at the moment of firing.
  • the (still not shown) tensioning mechanism be coupled with the console 84. Will this unlock the barrel 30 actuated via the forend 14, the cock relaxes; the firing pin 18 can not be operated anymore. So that when closing the weapon 10 no Foleschuß can solve unintentionally, the trigger 16 in a conventional manner with a breaker (not shown).
  • the closure device 40 is in the nature of a Rotary cylinder closure formed.
  • the closure head 41 is axially displaceable and rotatably mounted on the coaxial with the axis A trained carrier 50. He has Radially peripheral closure members 60 in the form of (not shown) radial pins or an outer toothing 67, by the longitudinal movement of the barrel 30 and a coupled thereto rotational movement of the closure head 41 about the barrel axis A. corresponding closure elements 65 in the closure sleeve 33 into engagement can be brought. The latter has this in the inner circumference to the radial pins or the External teeth 67 gegentechnische internal teeth 68, so that the weapon 30 in the Moment the firing is always safely closed.
  • the internal toothing 68 of the closure sleeve 33 is in the weft direction S in front of the recess 34, which at the opposite end in front of the chamber 31 is limited by a flat stop surface 35.
  • the distance a between the Internal teeth 68 and the stop surface 35 is slightly larger than the axial Length L of the external toothing 67 of the closure head 41.
  • Its outer diameter b is slightly smaller than the inner diameter c of the recess 34, so that the closure head 41 completely engage in the recess 34 and the Closing the weapon 10 with its external teeth 67, the internal teeth 68th can engage.
  • a slotted guide 70 is provided which a or may be formed on both sides. It consists of a in the shaft 44 of the Locking head 41 formed guide recess 72 and a guided therein Control member 74.
  • the latter is preferably a cross pin, the shaft 44 and the carrier 50 passes perpendicular to the axis A.
  • a concentric to the barrel axis A lying hole 75 in the transverse pin 74 is from the top 19 of the (not shown here) Striker 18 passes through, so that the control member 74 is secured in position.
  • the guide recess 72 has a front slot 76 and a circumferential direction thereto angularly offset rear slot 77, both parallel to Running axis A and a helical transition region 78 with each other are connected.
  • the angular distance of the slots 76, 77 with respect to the Barrel axis A corresponds to half the tooth pitch of the outer and inner teeth 67, 68, wherein the closure head 41 in its front stop position on the carrier 50 aligned in a first angular position so to the rotatably mounted barrel 30 is that the teeth of the external toothing 67 to the longitudinal grooves of the internal toothing 68 are aligned and vice versa.
  • the front stop position for the shutter head 41 is from the rear End of the slot 77 or - in the absence of the slot 77 - at the rear end of helical transition region 78 adjacent transverse pin 74 defined, wherein the Slot 77 at the same time an additional rotation for the lock head 41st forms.
  • the coaxial with the barrel axis A formed coil spring 58 engages as Closure head spring directly on the shaft 44 of the closure head 41 and pushes this permanently in the weft direction S forward.
  • the closure sleeve 33 When closing the loaded weapon 10, the closure sleeve 33 initially inverts via the position-fixed closure head 41, wherein the outer teeth 67 unhindered the internal teeth 68 of the sleeve 33 penetrates. Once in the Cartridge 31 inserted cartridge P the impact bottom 42 in the closure head 41st achieved, this is against the compression spring 58 from the front stop position pushed out on the support 50 to the rear until the transverse pin 74 of the slotted guide 70 passes in the rear slot 77 to the helical transition groove 78. The still interlocking teeth 67, 68 prevents premature Rotation of the closure head 41, the still in its first angular position is fixed.
  • the radially sprung extractor claw snaps of the closure head 41 into the Auszieherrille (not shown) of the cartridge P a.
  • the ejector pin is pressed; the cartridge P sits in the thrust floor 42 the closure head 41.
  • the shutter head 41 becomes out of the first Angular position out by half the pitch of the teeth 67, 68 in a second Angle rotated until the transverse pin 74 is located in the front slot 76.
  • the External teeth 67 now engages behind the internal teeth 68 in the sleeve 33, whereby the closure head 41 is engaged with the closure sleeve 33.
  • the closure head 41 When closing the unloaded weapon 10, the closure head 41 is initially supported on the stop surface 35 in front of the cartridge chamber 31, wherein also here the ejector pin for a play-free engagement of the closure head 41 in the closure sleeve 33rd provides.
  • the stop surface 35 can also be cone-shaped for safe cartridge feed be educated.
  • the closure head 41 then has an angular equal to the front side Beveled surface 36.
  • the sprockets 67, 68 on the closure head 41 and in the Closure sleeve 33 can pass unhindered, the edges of the entrance contours preferably designed as a chimney 69.
  • the caused by the rear end 32 kinematic sequence for closing The weapon 10 is made to open by executing the running motion in the weft direction S.
  • the movement phases of the closure elements shown above run in the opposite order.
  • the Lock head 41 again its front stop position and its first angular position achieved on the carrier 50.
  • the formed between the sliding sleeve 22 and the guide pin 28 locking device 80 ensures that the gun at the moment of firing always securely locked or locked and that the barrel 30 in its rear Stop position with a defined force without play rests on the housing 90.
  • FIG. 9 Another advantageous embodiment of the locking device 80 - for the independent protection is claimed - is not shown in Figs. 9 and 10 im Area of the linear guide 20, but in the region of the closure device 40th formed, namely between the closure head 41 and the stationary support 50. Functionally identical components are for better understanding with the same Provided with reference numerals.
  • radially acting latching or locking elements 81 are provided which when closing the weapon 10 via a coupled with the longitudinal movement of the barrel 30, radial adjusting movement with the closure head 41 and the carrier 50 in engagement can be brought.
  • the latter is circumferentially with a series of transverse bores 82nd provided in the radially aus basice locking balls 81 are used.
  • the one on the carrier 50 axially displaceable and rotatably guided shaft 44 of the closure head 41 is on Inner circumference of the inner bore 45 with a circumferential groove 83 or - depending on Number of locking balls 81 - with a corresponding number of discrete locking recesses provided that record the locking balls 81 when locking the weapon 10.
  • the actuation of the detent balls 81 takes place in the radial direction R over the concentric to Laufachse
  • a trained firing pin 18, with its cylindrical body 111 limited axially movable in the central bore 52 of the carrier 50 is guided.
  • the firing pin 18 as a control element a sloping in the closing direction Z cone surface 112, in a relation to the Body 111 in diameter reduced straight cylinder portion 113 passes.
  • the firing pin tip 19 also secures the transverse pin 74 of the link guide 70 here. It protrudes with its weapon 10 closed with its free end in the axial bore 43 of the Locking head 41 into it. Between the transverse pin 74 and the main part 111 of the Striker 18 is concentric to the axis A, a coil spring 114 is inserted, acting as a firing pin spring and the firing pin 18 permanently in Closing direction Z pushes.
  • the firing pin 18 may be a transversely to the barrel axis A lying Locking pin 115 are used, the firing pin main body 111 in a Slot 116 extends perpendicular to the axis A.
  • the locking pin 115 is fixed in a (not shown) transverse bore in the carrier 50 is pressed or by a on the Carrier 50 attached retaining ring 117 secured against falling out. At the latter is supported by the closure head spring 58, the lock head 41 permanently in Weft direction S charged.
  • the locking pin 115, the slot 116 and the locking ring 117 are dispensable, since the firing pin 18 in the closing direction of Z on the conical surface 112 resting locking balls 81 is secured.
  • the protection in the weft direction S assumes the stepped diameter transition 119 from the main body 111 to Striker tip 19, which at the same time also a support surface for the firing pin spring 114 forms.
  • closure head spring 58 is not on the outer circumference of the carrier 50th placed on, but protected from external influences within the inner bore 45th the closure head 41 and the shaft 44 is arranged.
  • the spring 58 is supported in this case on the bottom 47 of the inner bore 45 and on the end face 51 of the carrier 50 from.
  • the sliding in the closing direction Z sliding surface 112 is not formed for the detent balls 81 as a circumferential conical surface, but - depending on the number of detent balls 81 - one or more (not closer shown) wedge surfaces is formed, because it has been shown that already one or two detent balls 81 sufficient to a sufficiently secure locking of the weapon 10 to reach.
  • the formation of a conical surface 112 is indeed manufacturing technology easier.
  • the wedge surfaces arranged symmetrically to the running axis A can the detent balls 81 provide an additional side guide, which is the reliability the weapon 10 further increased.
  • Fig. 9 shows the weapon 10 in the closed and locked state.
  • the closure sleeve 33 of the barrel 30 is located with the abutment surface 38 positively on the Stop surface 94 in the housing 90 at.
  • the closure head 41 is located in his second angular position and engages with the outer teeth 67 the Internal toothing 68 of the closure sleeve 33.
  • the groove 83 is in Shank 44 above the holes 82 in the carrier 50.
  • the (not shown) tap is in his pivoted back position, whereby the firing pin spring 112, the firing pin 18 against the weft direction S can push to the rear.
  • the Weapon 10 may be provided, for example, a (not shown) cocking slide, which presses the striking spring for the cock when actuated.
  • the tap strikes the firing pin 18, the opposite the firing pin spring 114 is pushed in the weft direction S.
  • the severed Tap remains under the pressure of the relatively strong striker spring on the housing flange 92 lie and holds the firing pin 18 against the pressure of the firing pin spring 114 in its forward position. Lose with the rash of the firing pin 18 the detent balls 81 their radial support. They slide down on the cone surface 112 on the cylinder portion 113 and thereby release the closure head 41.
  • the closure sleeve 33 takes the Locking head 41 via the teeth 67, 68 as long with, until this from the Slotted guide 70 is rotated from the second angular position in the first angular position. Subsequently, the closure sleeve 33 or its internal toothing 68 gives the Locking head 41 completely free, that of the closure head spring 58 in its front Sliding stop pushed and held there. This will be the cross holes 82 covered in the carrier 50 of the shaft 44 (see Fig. 10). The detent balls 81 can not fall out. The barrel 30 passes along the linear guide 20 in his front stop position.
  • the locking device 80 not only locked the weapon 10. It is also similar to manufacturing tolerances and wear-related dimensional changes, i. the weapon 10 is always closed without play and rattling.
  • the firearm 10th can be opened immediately after the firing, without any Operating element must be pressed. If the weapon 10 also as a bolt action rifle with a magazine (not shown) formed, for example, in a recess 96 can be used in the housing 90 (see Fig. 1), so can without time delay and without attitude change a so-called quick second shot delivered become. Moreover, no spring force has to overcome to open the weapon 10 more which has a very favorable effect on the handling.
  • the fore-end 14 is opposite the embodiment of Fig. 4 to 6 - rigid with the sliding sleeve 22 and thus with play connected to the barrel 30, which is the handling and in particular the "feeling" for the Weapon 10 further improved. Even if you have the weapon 10 on the barrel 30 or am Forearm 14 receives the shutter 40 can not open accidentally. The Active and passive security of the weapon 10 is very high.
  • the Locking device 80 as well as the closure device 40 substantially is formed rotationally symmetrical to the axis A, which is extremely favorable Frame size and on the manufacturing and assembly costs.
  • the locking and unlocking takes place synchronously with the running movement in only one direction, namely perpendicular to the running axis A. Further swiveling, turning or lifting movements of the locking or locking elements 81 are not required here.
  • the entire kinematics of Gun 10 is extremely simple and therefore hardly prone to failure.
  • FIG. 11 Another embodiment of a combined closure and locking unit is shown in Fig. 11.
  • Their closure device 40 is substantially as above described carried out only with the difference that the closure head 41 with its shaft 44 axially displaceable and rotatable in the axial bore 52 of the carrier 50 is stored.
  • the shaft 44 In the outer circumference of the shaft 44 is symmetrical to the axle A ever a slide guide 70 with a guide recess 72 and a transverse pin 74th educated. The latter are fixed perpendicular to the axis A fixed in the carrier 50.
  • the shaft 44 receives the firing pin 18 in its central inner bore 45, which has a uniform diameter from the tip 19 to the main part 111.
  • the inner bore 45 is accordingly equal diameter in the axial bore 43 in the closure head 41 via.
  • End bears the firing pin 18 in diameter wider tail 118, which is slidably guided in the axial bore 52 of the carrier 50.
  • the Stop for the axial movement of the firing pin 18 forms the transverse to the barrel axis A. lying locking pin 115 of the tail 118 in a slot 116 vertically to the barrel axis A protrudes.
  • the locking pin 115 is in the axial bore 52 of the Carrier 50 secured against falling out.
  • the closure head spring 58 is also concentric with the axis A in the axial bore 52 of the carrier 50. It rests against the rearward end of the shaft 44 and the tail 118 of the firing pin 18 and thereby simultaneously serves as Striker pin 114, i. while the closure head 41 in its front Stop position is pressed, the firing pin 18 slides permanently into Closing direction Z to the rear. An additional spring is therefore not required.
  • the locking device 80 is at least one transverse to the axis of rotation A. slidably mounted locking pin 120 formed, the spring loaded in a transverse bore 53 sits in the carrier 50 and at its the axle A end facing with a frusto-conical tip 122 is provided.
  • FIG. 11 shows the weapon 10 in the open position, i. of the Locking head 41 is in its front stop position and in the first Angle position by the transverse pin 74 end in the rear slot 77 of the Guide recess 72 abuts.
  • Fig. 11 shows the weapon 10 in closed and locked Position.
  • the closure head 41 is in its second angular position with the Verschlußmuffe 33 into engagement with its abutting surface 38 is positively against the Stop surface 94 in the housing 90 abuts.
  • the locking pin 120 with its cone tip 122 in the rear slot 77 of the guide recess 72nd intervenes. Due to the spring load and the cone shape of the tip 122 of the Locking head 41 in the closing direction Z pulled permanently backwards, causing the Run 30 via the teeth 67, 68 with a defined clamping force against the Housing 90 is pressed.
  • the weapon 10 is thus also always play and rattle free here closed. Production- or wear-related inaccuracies are caused by the Locking device 80 permanently balanced. The during the firing occurring forces are always tilt and torque-free in the housing 90th derived. The formation of additional locking recesses is not required, which the entire structure further simplified.
  • the actuation of the latching pin 120 can via an operative connection, not shown by Run the run 30 or by the (not shown) cocking slide on the Top of the pistol grip 15 is arranged and a total of three locking positions can take.
  • a first forward position is the (still not visible) Tension spring tensioned and the closure device 40 by the locking pin 120 of Locking device 80 locked.
  • a middle position position is the Striker relaxed, the weapon 10 but still locked. Only when you have the Clamping moves in a third rear position, the locking element 120 and the closure head 41 is disengaged so that the weapon 10 over the forend 14 can be opened.
  • the firearm according to the invention 10 is designed as a kit and with only a few simple steps tool-free in two about the same length main assemblies H1, H2 can be dismantled, in the assembled state be moved axially to each other when loading or repetition. It serves the Forearm 14 directly as an actuating handle for the barrel 30th
  • the first assembly H1 essentially comprises the shaft main body 12 with rifle butts 13 and pistol grip 15, the firmly anchored in the shaft main body 12 housing 90, arranged on the carrier 50 closure head 41 with firing pin 18 and Ejector mechanism, the (still not shown) clamping and release mechanism and - depending on the version of the weapon 10 - a (also not shown) insertion magazine, if necessary inserted into a recess 96 provided in the housing 90 for this purpose can be (see Fig. 1).
  • the second assembly H2 consists essentially of the forearm 14, the barrel 30 and the sliding sleeve fixed thereto 22.
  • a Scope mount 100 for a riflescope 102 mounted (see Fig. 1). This is sitting For example, in a trained in the scope mount 100 prism rail 104.
  • other shots be used. It is important that the riflescope 102 directly on the barrel 30th is fixed and is moved when repeating with the barrel 30. This ensures that that the match determined at the time of shooting matches Breakpoint is always maintained, i. Manufacturing tolerances between the moving Sharing does not affect the repeatability of the shots.
  • the forend 14 closes flush with the Shaft main part 12, whereby the shaft 11 an overall uniform appearance having. Moreover, the linear guide of the fore-end 14 is complete obscured, i. The weapon 10 is visually unlikely of a conventional weapon differ, except that the length compared to conventional bolt action rifles is significantly reduced.
  • the sliding sleeve 22 and the closure sleeve 33 formed as a one-piece profile piece 130, which - as before the closure sleeve 33 - is screwed on the end of the tubular body of the barrel 30 or with this can be one piece.
  • the top 132 of the profile piece 130 is also parallel to the Running axis A, the prism rail 104 of the scope mount 100 incorporated.
  • the profile piece 130 of FIG. 12 is preferred for the formation of the firearm 10 as Single loader designed. This eliminates the recess 96 in the housing 90 for the Insertion magazine and the guide pin 28 closes immediately in the area of the trigger 16 to the housing 90 at. The latter is relatively flat due to the omission of the magazine educated. Furthermore, the forend 14 is relatively short, the fixed to the in bottom portion defined in cross-section slightly conical profile piece 130 is.
  • the sleeve 10 has a total of delicate outer contour on, how one was used to it so far only by Kipplaufwaffen. Simultaneously simplified However, the construction quite considerably, although the weapon 10 like a bolt action rifle can be opened and closed.
  • the profile piece 130 takes over here a total of 5 functions. It takes up the barrel 30, serves as a support for the forend 14 and the scope 102, it is part of the closure device 40 and it serves as a sliding sleeve 22 for the linear guide 20. The design effort is so significantly reduced compared to conventional weapons.
  • a variant of the embodiment of FIG. 12, not shown, may provide that the firearm 10 is designed as a double box.
  • the firearm 10 is designed as a double box.
  • two rifle barrels 30 inserted parallel to each other.
  • the closure devices 40 side by side, each for themselves is formed concentrically with the respective running axis A.
  • the locking device 80 can also double in the area of linear guides 20 or in the field of Shutter devices 40 may be formed. But you can also do a joint Form locking device 80.
  • a receiving profile 140 forms.
  • the latter is extended relative to the profile piece 130 in the closing direction Z. formed and at its bottom 133 with an insertion opening 143 for the Magazine provided.
  • an ejection window 145 is inserted, by the one after the shot remaining cartridge case from the weapon 10th can be ejected.
  • the insertion opening 143 and the ejection window 145 have in the interior of the receiving profile 140 has a common longitudinal bore 146, the concentric with the axis A lies.
  • the trained between the closure head 41 and the carrier 50 slotted guide 70 corresponds in construction to the embodiments of FIGS. 7 to 10, so that on it will not be discussed in detail.
  • the insertion opening 143 are two on both sides in cross-section rectangular sliding bores 23 are introduced, which are parallel to the Running axis A extend over the entire length of the receiving profile 140.
  • the (not shown here) is preferably forked Guide mandrel 28 slidably guided so that the barrel 30 via the receiving profile 140th and the front stock 14 fixed thereto between the front stop and the rear stop on the housing 90 can be moved back and forth.
  • the Sliding holes 23 and the guide pin 28 thus also form a linear guide here 20 for the run 30th
  • Fig. 14 the weapon 10 is closed and locked.
  • the barrel 30 is located in its rearward stop position by the receiving profile 140 with his rearward abutment surface 38 concentric with the axis A of the stop surface 94th of the housing 90 (not shown).
  • the closure device 40 holds the weapon 10 closed by the closure head 41 with its radial external teeth 67th the internal teeth 68 in the closure sleeve 33 of the receiving profile 140 frontally engages behind.
  • the (also not shown in detail here) locking device 80 ensures that the weapon 10 is actively locked and not accidentally can be opened.
  • the receiving profile 140 can over the Forearm 14 along with the barrel 30 and the magazine in the weft direction S after moved forward.
  • the receiving profile 140 takes on the carrier 50th axially displaceably mounted closure head 41 via the closure elements 65 a Piece far with, until the cross pin 74 of the guide slot 70 from the front slot 76th enters the helical transition region 78.
  • the lock head rotates 41 in the recess 34 from its second angular position to the first angular position, whereby the external teeth 67 and the internal teeth 68 disengaged arrive (Fig. 15).
  • the closure sleeve 33 in the receiving profile 140 releases the closure head 41.
  • the Weapon 10 can be fully opened via the forend 14. It slides the Locking head 41 first on the carrier 50 in its front stop position, i. the transverse pin 74 slides in the guide recess 72 of the slide guide 70 to the end of the rear slot 77 or - depending on the embodiment - to the rear end of the helical groove 78. Subsequently, the closure head 41 passes through - the inner toothing 68, which is continued therein, is secured against rotation - the longitudinal bore 146 to the barrel 30 finds its front stop via the receiving profile 140. An im Bumper bottom 42 of the closure head 41 sitting empty cartridge case is of the Ejector pin ejected through the ejection window 145 therethrough.
  • the dimensions of the individual modules selected are that the closure head 41 can not detach from the receiving profile 140, i.e. the external teeth 67 and the internal teeth 68 permanently act as Rotation.
  • the weapon 10 can therefore immediately after opening again getting closed.
  • the closure head 41 takes with its radial teeth 67, a cartridge P advancing in the magazine (not shown) is conveyed this during retraction of the barrel assembly H2 through the closure sleeve 33rd passed directly into the cartridge chamber 31 of the barrel 30.
  • the closure head 41 while also slightly backward.
  • Another important advantage is the ability to run 30 at any time to be able to replace another without having to change the module H1. As a result, for example, change the caliber with just a few simple steps. Also, the closure head 41 can be relatively easily replaced when the Carrier 50 releasably fixed to the housing 90 and the housing flange 92. Thus, the entire weapon 10 both dealer side and customer designed as a kit become.
  • the receiving profile 140 is no longer cuboid, but designed for economic production as a tubular sleeve, the concentric to the axis A and at its bottom 133 end with two feet 148th is provided. The latter are laterally with outwardly open sliding grooves 25 for receiving the preferred forked guide pins 28 provided. Between the feet 148 extends in the axial direction A, the insertion opening 143 for the magazine. This will between the feet 148 and laterally between the fork-shaped guide pins 28 led. The ejection window 145 is inserted laterally into the tube sleeve 140.
  • the guide pin 28 and the carrier 50 are smaller set near the pistol grip 15 back in the housing 90, the latter and the Shaft main part 12 in the region of the trigger 16 are formed so that the Receiving profile 140 in the closed position of the weapon 10 between the trigger carrier 17th and the shutter carrier 50 is located. Neither the linear guide 20 nor the Insert magazine are thus visible from the outside.
  • the weapon 10 has an extreme sleek and elegant appearance, which equals that of a dump weapon. Nevertheless, it is a full-fledged multi-lobe forearm reptiser, It is extremely easy and convenient to use compared to conventional weapons is. In the open position of the weapon 10 (Fig. 18) can be quickly and easily the Change magazine, which is now accessible from below in the receiving profile 140. is no magazine desired, you can easily the weapon 10 as a single loader use.
  • the invention is not limited to one of the above-described embodiments, but changeable in many ways.
  • the transition from the recess 34 in the closure sleeve 33 to the cartridge chamber 31 in the barrel 30 as réellekegel 35 be designed, on the one hand, the introduction of a cartridge P in the Cartridge 31 facilitates and on the other hand a centering for the closure head 41 forms. This is the end face with a corresponding inclined surface 36th Mistake.
  • the guide pin 28 is not in the weft direction S extends, but formed by two parallel running, fork-shaped spars is fixed to the end of the closure sleeve 33 or the profile piece 130 and are positively guided with their free ends in or on the housing 90.
  • the latter is for this purpose laterally with corresponding slide holes or Gleitnuten Mistake.
  • the spars 28 side of the housing 90th set and on both sides in the outer wall of the closure sleeve 33, the profile piece 130 or the receiving profile 140 to lead.
  • the bifurcated training of Guide mandrel 28 increases the stability and precision of the linear guide 20.
  • a further embodiment provides that those provided in Figs. 9 and 10 Locking depressions 83 in the shaft 44 omitted.
  • the locking of the weapon 10 takes place in In this case, only via the between the cone surface 112 radially outwardly displaced balls 81 and the inner circumference of the shaft 44 resulting Friction.
  • this is sufficient to hold the weapon 10 in Closed position to lock reliably, again here the cone surface 112th compensates for all manufacturing tolerances and wear-related dimensional changes.
  • the caused by the guided in the transverse bores 82 balls 81 conditional movement play, can elegant by a between the abutment surface 38 and the stop surface 94th Balancing arranged elastic O-ring.
  • the slidably guided in the carrier 50 firing pin 18 may also be referred to as so-called be formed flying firing pin. Or you lead the firing pin 18 - as in Fig. 9 indicated by dashed lines - in two parts.
  • the (still not shown) ejector pin in the impact bottom 42 of the closure head 41 also comes through the inventive design of the weapon 10 a special role too.
  • This relies on closed weapon 10 spring loaded on Cartridge bottom of an inserted into the cartridge chamber 31 cartridge P, so that the Locking head 41 when it engages with the recess 34 and its second Has reached angular position, and the barrel 30 are pressed apart.
  • This has to Consequence, that the rear end face of the external toothing 67 is always free of play on the front end face of the internal gear 68 abuts, i. the closure head 41, the closure sleeve 33 and the barrel 30 form a biased in the axial direction A. Unit, when reaching the closed position of the locking device 80th is pulled positively against the housing 90.
  • the ejector pin has an effect positive for the timing of the repeating process, which always smoothly and runs smoothly.
  • the modules H1 and H2 are kept free of play. The entire kinematics always works reliably. If you assign the ejector pin moreover offset radially outwards, he can not only on the bottom of the cartridge, but at unloaded weapon 10 on the stop surface 35, i. also the uncharged one Weapon 10 is permanently closed without play.

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Toys (AREA)
  • Portable Nailing Machines And Staplers (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Telescopes (AREA)
EP04029680A 2003-12-15 2004-12-15 Arme à feu Not-in-force EP1544568B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE20319451U 2003-12-15
DE20319451U DE20319451U1 (de) 2003-12-15 2003-12-15 Schußwaffe

Publications (2)

Publication Number Publication Date
EP1544568A1 true EP1544568A1 (fr) 2005-06-22
EP1544568B1 EP1544568B1 (fr) 2012-01-25

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ID=34485642

Family Applications (1)

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EP04029680A Not-in-force EP1544568B1 (fr) 2003-12-15 2004-12-15 Arme à feu

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US (1) US7571671B2 (fr)
EP (1) EP1544568B1 (fr)
AT (1) ATE543069T1 (fr)
DE (1) DE20319451U1 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2363679A1 (fr) 2010-03-01 2011-09-07 H. Krieghoff GmbH Jagd- und Sportwaffen Arme de tir, notamment arme de chasse
DE102012102017A1 (de) 2012-03-09 2013-09-12 Heinz-Eckhard Engel Schusswaffe
AT519457B1 (de) * 2017-08-08 2018-07-15 Sonja Hirsnik Verschluss-System für eine Feuerwaffe

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US7726058B2 (en) * 2005-05-04 2010-06-01 Richards Marlowe R Muzzleloader firearm with quick-release breech plug
DE202005008397U1 (de) * 2005-05-25 2006-09-28 Engel, Heinz-Eckhard, Dr. Verschlußvorrichtung für eine Schußwaffe
DE102007006107A1 (de) 2007-02-02 2008-08-07 H. Krieghoff Gmbh Schusswaffe
AT510442B1 (de) 2011-08-24 2012-04-15 Wilhelm Bubits Pistole mit verriegelung durch verriegelungskörper
USD718405S1 (en) 2013-07-01 2014-11-25 Magpul Industries Corporation Firearm foregrip
US9121664B2 (en) 2013-11-08 2015-09-01 Magpul Industries Corporation Forend for a pump action firearm
US9341421B2 (en) 2014-02-20 2016-05-17 Smith & Wesson Corp. Rifle having a fixed magazine
USD750188S1 (en) 2014-04-14 2016-02-23 Magpul Industries Corporation Hand guard for a firearm
US9513076B2 (en) * 2014-05-15 2016-12-06 Savage Arms, Inc. Firearm with reciprocating bolt assembly
USD757879S1 (en) 2014-12-12 2016-05-31 Magpul Industries Corporation Hand guard upper for a firearm
USD757203S1 (en) 2014-12-12 2016-05-24 Magpul Industries Corporation Hand guard for a firearm
USD757878S1 (en) 2014-12-12 2016-05-31 Magpul Industries Corporation Hand guard for a firearm
USD757204S1 (en) 2014-12-16 2016-05-24 Magpul Industries Corporation Hand guard for a firearm
US9964369B2 (en) * 2015-02-26 2018-05-08 Michael Lee Garrow Auto-loading firearm
US10156414B2 (en) * 2015-11-09 2018-12-18 American Classic Arms, LLC Accommodating firearm bushing
RU178859U1 (ru) * 2017-05-19 2018-04-19 Николай Борисович Кретов Роликовый элемент запирающего механизма автоматического оружия
RU178995U1 (ru) * 2017-06-13 2018-04-24 Николай Борисович Кретов Запирающий механизм автоматического оружия
US10401101B2 (en) * 2017-10-03 2019-09-03 William Clifford KIRKHAM Firearm systems and methods for accommodating different bullet casing lengths
US11493299B2 (en) * 2018-08-29 2022-11-08 New Revo Brand Group, Llc Firearm vise and support device
US10907922B2 (en) * 2019-04-18 2021-02-02 Steven D. Waldner Invisible rifle wall mount
US11371789B2 (en) * 2019-08-06 2022-06-28 James Matthew Underwood Roller delayed firearm operating system
US11543195B2 (en) 2020-07-03 2023-01-03 James Matthew Underwood Roller and bearing delayed firearm operating systems
US11846476B2 (en) 2021-10-07 2023-12-19 James Matthew Underwood Ejector for firearm
US12092416B1 (en) * 2022-03-16 2024-09-17 Theodore R. Schumacher Delayed blowback device

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US2628536A (en) 1945-10-10 1953-02-17 Wilbur A Schaich Gas-operated automatic firearm with forwardly moving barrel
US2699006A (en) 1947-05-13 1955-01-11 Maerk Mikkel Firearm of the repearter gun type
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US3680241A (en) * 1970-05-20 1972-08-01 Olin Corp Impact ignition shotgun for firing caseless ammunition
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FR623209A (fr) * 1927-06-21
US2628536A (en) 1945-10-10 1953-02-17 Wilbur A Schaich Gas-operated automatic firearm with forwardly moving barrel
US2699006A (en) 1947-05-13 1955-01-11 Maerk Mikkel Firearm of the repearter gun type
GB756769A (en) 1953-04-08 1956-09-12 Breda Maccanica Bresciano S P Fire-arm
US3020662A (en) 1959-01-09 1962-02-13 Merkel Adam Repeating magazine rifle with rotatable and forwardly movable barrel
GB1224724A (en) * 1968-01-26 1971-03-10 Heckler & Koch Gmbh Improvements in firearms
US3680241A (en) * 1970-05-20 1972-08-01 Olin Corp Impact ignition shotgun for firing caseless ammunition
DE2263378A1 (de) 1972-12-23 1974-07-11 Gerold Domhan Verschluss- und schlosseinrichtung fuer ein- oder mehrschuessige repetierbuechsen fuer jagdliche zwecke
GB2083598A (en) * 1980-09-11 1982-03-24 Moody James Carleton A rifle
US4897949A (en) * 1985-12-23 1990-02-06 Whiteing Roland G Firearms

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2363679A1 (fr) 2010-03-01 2011-09-07 H. Krieghoff GmbH Jagd- und Sportwaffen Arme de tir, notamment arme de chasse
DE102012102017A1 (de) 2012-03-09 2013-09-12 Heinz-Eckhard Engel Schusswaffe
DE102012102017B4 (de) * 2012-03-09 2014-02-06 Heinz-Eckhard Engel Schusswaffe
AT519457B1 (de) * 2017-08-08 2018-07-15 Sonja Hirsnik Verschluss-System für eine Feuerwaffe
AT519457A4 (de) * 2017-08-08 2018-07-15 Sonja Hirsnik Verschluss-System für eine Feuerwaffe

Also Published As

Publication number Publication date
ATE543069T1 (de) 2012-02-15
EP1544568B1 (fr) 2012-01-25
US20050188578A1 (en) 2005-09-01
US7571671B2 (en) 2009-08-11
DE20319451U1 (de) 2005-05-04

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