EP0158068B1 - Luftdruckwaffe - Google Patents

Luftdruckwaffe Download PDF

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Publication number
EP0158068B1
EP0158068B1 EP85101987A EP85101987A EP0158068B1 EP 0158068 B1 EP0158068 B1 EP 0158068B1 EP 85101987 A EP85101987 A EP 85101987A EP 85101987 A EP85101987 A EP 85101987A EP 0158068 B1 EP0158068 B1 EP 0158068B1
Authority
EP
European Patent Office
Prior art keywords
trigger
air
weapon according
piston rod
pressure
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 - Lifetime
Application number
EP85101987A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP0158068A3 (en
EP0158068A2 (de
Inventor
Walter Heitz
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.)
Mayer and Grammelspacher Dianawerk GmbH and Co KG
Original Assignee
Mayer and Grammelspacher Dianawerk GmbH and Co KG
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 Mayer and Grammelspacher Dianawerk GmbH and Co KG filed Critical Mayer and Grammelspacher Dianawerk GmbH and Co KG
Priority to AT85101987T priority Critical patent/ATE72039T1/de
Publication of EP0158068A2 publication Critical patent/EP0158068A2/de
Publication of EP0158068A3 publication Critical patent/EP0158068A3/de
Application granted granted Critical
Publication of EP0158068B1 publication Critical patent/EP0158068B1/de
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41BWEAPONS FOR PROJECTING MISSILES WITHOUT USE OF EXPLOSIVE OR COMBUSTIBLE PROPELLANT CHARGE; WEAPONS NOT OTHERWISE PROVIDED FOR
    • F41B11/00Compressed-gas guns, e.g. air guns; Steam guns

Definitions

  • the invention relates to an air pressure weapon, comprising a barrel, a cylinder tube arranged on this barrel, a piston with a piston rod that is displaceable in the opposite direction to the piston, a piston spring surrounding the piston rod, engaging the piston and supported on an abutment, piston retention means, executed with a hook element in the distal end section of the piston rod and a counter hooking system which can be triggered by a trigger against the action of a trigger return spring and, if applicable, a trigger securing system, the trigger cock, the counter hook system, the trigger return spring and, if applicable, the trigger securing system with an at least partially including these parts
  • Lock case are combined into a prefabricated unit, which is to be combined as a whole with the cylinder tube and the shaft, the lock case above with a cylindrical, to the cylinder tube i m essentially concentric lock case part and downward wall extensions is designed, which engage in a recess of the shaft, and wherein the assembly consisting of the structural unit and the cylinder tube is
  • Such an air pressure weapon is known from DE-PS 960 614.
  • the lock case is formed over its entire length by a U-shaped sheet metal, the web of the U-shape being cylindrically curved and the wall extensions adjoining the cylindrically curved web downward.
  • the assembly of the lock case with the cylinder barrel and the shaft is as follows:
  • the lock case is supported by a guide element with its end near the barrel the piston rod, which is screwed to the cylinder tube by a first screw.
  • the other end of the lock case is supported and centered by an end cover screwed to the distal end of the cylinder barrel.
  • the first screw is inserted into a matching pocket recess of the shaft, which is arranged in front of the recess receiving the lock case.
  • the first screw has an internal threaded hole that is open at the bottom.
  • a second screw is inserted into this internal threaded hole from below through a hole in the shaft, which holds the piston rod guide on the shaft via the first screw and thus the abutment for the lock case which is close to the barrel.
  • the assembly of the weapon is complicated by the large number of parts used to fasten the lock case.
  • the lock case is only indirectly attached to the shaft.
  • the invention has for its object to facilitate the assembly of the weapon, in particular with a view to the fact that the arms dealer should be able to replace parts that are in need of repair.
  • the cylindrical lock case part is closed in a ring on a section near its running length and that the first screw is screwed into the closed section of the cylindrical lock case part.
  • a particular advantage of the solution according to the invention is that the prefabricated unit can be kept in stock in the manufacturing plant and also at the arms dealer, and in the case of a repair order, only the defective unit has to be exchanged for a unit kept in stock. This is done in the simplest way because the small parts of the interlocking system, the trigger return spring and possibly the small parts of the trigger protection system do not need to be detached from one another, but rather remain combined in the structural unit.
  • a further advantage for the manufacturer and also for the arms dealer is that he can install the assemblies including the counter-hooking system, the trigger return spring and, if applicable, the trigger protection system in different weapons, so that only one or a few types of structural units have to be kept in stock, which can then be combined with the different weapons, if necessary using adaptation or lining parts.
  • Fig. 1 the barrel of the weapon is designated 10.
  • the cylinder tube 12 is attached to the shaft. The type of attachment will be discussed later.
  • a structural unit generally designated 13 is inserted in the cylinder tube 12.
  • This assembly 13 comprises a lock case 14, which is made from a one-piece sheet metal blank and can be seen better from FIG. 7.
  • the lock case 14 comprises a cylindrical lock case part 14a and wall attachments 14b, 14c and 14d projecting downward therefrom. If directions are given here, such as "down", it can always be assumed that the gun is set with the barrel in the horizontal direction and the trigger tap points vertically downwards.
  • the cylindrical lock case part 14a is inserted into the cylinder tube 12 through an adapter sleeve 15, wherein various adapter sleeve 15 or concentric groups of such adapter sleeve 15 are available or can be formed in order to insert one and the same assembly 13 into different cylinder tubes 12 to be able to use.
  • the assembly 13 is fixed in the cylinder tube 12 by two diametrical pins 16 and 17 in the axial direction of the cylinder tube; the diametral pins 16 and 17 penetrate overlapping bores of the cylindrical lock case part 14a, the adapter sleeve 15 and the cylinder tube 12. In this way, the cylinder tube 12 and the lock case 14 are connected to a rigid assembly unit which in turn is attached to the shaft 10.
  • the attachment serves, as can be seen from FIG. 1, a screw bolt 18 which is screwed into a threaded bore 19 of the cylindrical lock case part 14a.
  • the cylinder tube 12 as not shown in FIG. 1, is screwed to the shaft 10 in the region of its front end by two further screws.
  • the cylindrical lock case part 14a as can be seen from FIG. 7, is closed by a dovetail-like flap-notch pair 20 and thereby stabilized.
  • a piston rod 21 is received in the cylinder tube 12.
  • the piston rod 21 carries a piston, not shown, which together with the left end of the cylinder tube 12, also not shown, forms a compression chamber.
  • a piston tube united with the piston extends to the right; the right end of this piston tube can be seen in Fig. 1 and designated 22.
  • the piston rod 21 is surrounded by a guide sleeve 23, which is connected at its right end in FIG. 1 to a centering disk 24 and a piston spring support disk 25 by flanging.
  • the centering disk 24 is inserted into the cylindrical lock case part 14a.
  • a piston spring 26 is supported on the piston spring support disk 25 and, with its left end, not shown in FIG. 1, presses against the piston.
  • a hook element 28 with a hooking surface 28a is formed by a cutout 27. This hook element 28 can be retained against the action of the compressed piston spring 26 by a counter-hooking system 29 belonging to the structural unit 13.
  • the counter-hooking system 29 comprises a trigger insert 30 which is pivotally mounted about the diametral pin 16.
  • the axis of the diametrical pin 16 intersects approximately with the axis of the piston rod 21.
  • a counter-hook element 31 is attached to the trigger insert 30, which is hooked in FIG. 1 to the hook element 28 in the area of the hooking surface 28a.
  • a trigger tap 32 is pivotally mounted on a bearing pin 33 between the two parallel wall extensions 14c of the lock case 14.
  • the bearing pin 33 passes through a clearance 34 of the trigger insert 30, so that the trigger insert 30 can be pivoted about the diametral pin 16.
  • the trigger insert 30 has a window 35, in which a roller pin 36 seated on the trigger tap 32 engages with a certain play.
  • a trigger return spring 37 engages the trigger 32, which tries to pivot the trigger 32 clockwise around the bearing pin 33.
  • the trigger return spring 37 is supported on a tab 14e of the lock case 14.
  • the roller pin 36 is under the action of the trigger return spring 37 on the upper boundary edge of the window 35 of the trigger insert 30.
  • the trigger insert 30 therefore transmits the full spring force of the piston spring 26, which is of the order of 80 kp, to the diametral pin 16.
  • the hooking surface 28a is substantially tangential to the axis of the Diametral pin 16 is located, and also the hook element 28 is substantially on the axis of the piston rod 21, the force of the piston spring 26 is absorbed in the structural unit without significant transverse forces.
  • the bearing pin 33 of the trigger valve 32 lies essentially in the longitudinal center between the diametral pin 16 and the roller pin 36 and that the roller pin 36 lies essentially perpendicularly below the hooking surface 28a. Furthermore, the bearing pin 33 is offset downwards with respect to the piston rod axis 21. This choice of system points has proven to be favorable with regard to the secure holding of the tensioned piston rod 21 on the one hand and to triggering with a relatively low trigger force on the trigger valve 32 on the other hand. This is essential if you consider that a force of 80 kp must be transmitted between the hook element 28 and the counter hook element 31 and that, on the other hand, the force on the trigger 32 must be kept low to prevent the weapon from shaking.
  • the game existing between the roller pin 36 and the window 35 allows the trigger tap 32 to be moved counterclockwise by the trigger finger without taking the trigger insert 30 until the roller pin 36 comes into contact with the lower edge of the window 35.
  • This movement game is called an "anticipation”.
  • a trigger safety lever 39 is also pivotally mounted about a bearing pin 38 and carries a manual actuation flag 40 at its upper end.
  • This manual actuation lug 40 projects through a cover 41 which closes the lock case 14 at its rear end and which is provided with an opening 42 for this purpose.
  • a trigger lock stop 44 is pivotally mounted on the trigger lock lever 39 about a pivot axis 43.
  • a leg spring 45 simultaneously biases the trigger safety lever 39 in the direction of the edge of the sheet metal tab 14e and the trigger securing stop 44 in the direction of a contact edge 46 of the trigger securing lever 39.
  • the trigger securing stop 44 of the trigger securing lever 39 faces a counter stop 47 of the trigger tap 32, so that the trigger tap 32 cannot be pivoted counterclockwise, so the trigger is blocked and the weapon is secured.
  • the fuse To initiate the shot, the fuse must first be released; For this purpose, the trigger safety lever 39 must be pivoted counterclockwise around the bearing pin 38, so that the trigger safety stop 44 is disengaged from the pivot path of the counter stop 47 of the trigger valve 32 around the bearing pin 33.
  • the trigger safety lever 39 is connected to an index spring 49 via a pin 48.
  • a depression 50 of the index spring 49 comes to rest on the diametral pin 16, as shown in FIG. 3, so that the trigger lock lever 39 in the position of FIG. 3 against the action of the leg spring 45 is held.
  • the trigger safety lever 39 is arranged and movable with its manual actuator 40 in the longitudinal median plane of the weapon, so that it can be operated equally well by right-handed and left-handed people.
  • the trigger lock lever 39 and the index spring 49 can be released in a few simple steps simply by removing the cover 41, knocking out the bearing pin 38 and then removing the trigger lock lever 39 with the trigger lock stop 44 and the leg spring 45 and the index spring 49. If a deduction protection is not required, this can be done subsequently removed from the assembly 13 or vice versa installed in this.
  • the trigger cock 32 according to FIG. 4 can be pivoted in the counterclockwise direction, the counter stop 47 of the trigger cock 32 being able to pass the trigger safety stop 43 of the trigger safety lever 39.
  • 4 shows the state in which the trigger insert 30 begins to rotate counterclockwise around the diametral pin 16, so that the counter-hook element 31 begins to unhook from the hook element 28 while overcoming the self-locking which has existed until then.
  • Fig. 5 the trigger insert 30 has been pivoted so far by the trigger tap 32 that the counter-hook element 31 has completely lifted off the hook element 28 and the piston rod 21 has been pushed to the left under the action of the piston rod spring 26 (Fig. 1) under compression of the Air in the above-mentioned compression chamber, the compressed air then driving the projectile through the barrel.
  • a locking slide 51 is guided displaceably in the axial direction of the piston rod 21, namely in that the locking slide 51, as can be seen in FIG. 2, bears against the cylindrical lock case part 14 with cylindrically curved guide surfaces and on the other hand on the diametral pins 16 and 17 .
  • a compression spring 52 as can be seen in FIG. 2, is received on the one hand by a slot 53 in the cylindrical lock case part 14a and on the other hand by a bead 54 in the locking slide 51.
  • the locking slide 51 is biased by the compression spring 52 in Fig. 1 to the left.
  • a downwardly angled flag 55 of the locking slide 51 is designed as a link button, which interacts with a link track 56 on the upper edge of the trigger insert 30.
  • the slide track 56 has an upper step 56a and a lower step 56b.
  • the link button 55 is held to the right by the shoulder 56c between the steps 56a and 56b against the action of the compression spring 52.
  • a window 57 is arranged in the link button 55, which allows the free end of the index spring 49 to pass through.
  • the link button 55 passes through the link stage 56a, so that when it is subsequently released of the trigger valve 32, as shown in FIG. 6, the link button 55 initially prevents the trigger insert 30 from swinging up into the position shown in FIG. 1 by acting on the link stage 56a.
  • the state shown in FIG. 6 is that which occurs after the shot has been fired and the trigger 32 has been released before the weapon is cocked again.
  • the piston rod 21 is moved to the right against the action of the piston rod spring 26.
  • the piston rod is shifted to the right, for example, by kinking the barrel (not shown) via a tension rod that articulates the barrel with the piston tube 22.
  • Fig. 6 now reveals that when the piston rod 21 is shifted to the right in the course of the tensioning process, the hook element 28 is non-contact via the counter-hook element 31 runs away. Only when the piston rod 21 strikes the locking slide 51 with its right end is the sliding switch 55 with the locking slide moved so far to the right against the action of the compression spring 52 that the sliding switch 55 can finally fall into the lower sliding step 56b, ie, that the trigger insert 30 can pivot clockwise under the effect of the trigger return spring 37 mediated via the trigger, so that the counter-hook element 31 reaches the hooking position in relation to the hook element 28. If the introduction of voltage is now terminated, for example via the tilting run, the piston spring 26 can relax somewhat again and the piston rod can go back to the left until the hook element 28 comes into contact with the counter hook element 31.
  • the length of the upper link stage 56a is thus decisive for the necessary span that is necessary to get the trigger insert 30 ready for hooking at all.
  • the necessary span is also of importance insofar as this span means that when the weapon is cocked, ie when the piston rod 21 is moved to the right in FIG. 6 the piston rod 21 inevitably entrains the index spring 49 to the right so that the trigger safety lever 39 is again pivoted to the right into the trigger safety position according to FIG. 1 via the index spring 49. This means that each time the tension is inevitable Trigger safety lever 39 is brought into the trigger safety position according to FIG. 1. Once the weapon is cocked and the trigger lock lever is in the trigger lock position as shown in FIG. 1, it is possible to pivot the trigger lock lever 39 as often as required into the trigger release position and back again into the trigger lock position.
  • the trigger securing stop 44 can now deflect against the action of the leg spring 45 about the pivot axis 43, the trigger securing lever 39 can be pivoted into the trigger securing position, and the trigger securing stop 44 then pivots again over the counter stop 47 of the trigger tap 32 when the trigger tap 32 is released. Then the state according to FIG. 1 is reached again.
  • the diametrical pins 16 and 17 assume a multiple function: on the one hand they establish the connection between the lock case 14 and the cylinder barrel 12, on the other hand they take over the guidance of the locking slide 51 in the lock case 14.
  • the diametrical pin 16 assumes the storage function for the trigger insert 30 ;
  • the diametral pin 16 assumes a latching function in connection with the index spring 49.
  • the diametral pin 16 assumes the function of a travel limit stop for the locking slide 51, which has a stop edge 58 in relation to the diametrical pin 16.
  • the installation of the diametral pin 17 during assembly of the assembly in the cylinder tube is completely uncritical. But also the installation of the diametral pin 16 can be easily carried out by providing a mounting pin instead of the diametral pin 16 when assembling the assembly 13 and then replacing the assembly pin by the diametral pin 16 in a corresponding device when installing the assembly in the cylinder tube, whereby the diametral pin 16, while being driven in, pushes the assembly pin out in front of it.
  • the counter-hooking system is modified compared to the embodiment according to FIGS. 1 to 7.
  • the piston rod 21 is designed at its right end with a rotationally symmetrical hook 60 which moves into a holding sleeve 61 when the weapon is cocked.
  • the rotationally symmetrical hook 60 presses the rolling elements 62 radially outward through the rolling element receiving pockets 63 into the control slots 64 of a control sleeve 65.
  • the control sleeve 65 is initially so far on the left that the control slots 64 are in register with the rolling element receiving pockets 63. As soon as the rotationally symmetrical hook body 60 has passed the rolling bodies 62, they can again approach the tapered shaft of the piston rod 21 radially inward, so that the control sleeve 65 can now be carried along by the piston rod 21 advancing to the right via a diametrical pin 66, which is a Elongated hole 67 penetrates the holding sleeve 61. As soon as the control sleeve 65 has reached the position shown in FIG.
  • a lock holder 68 with a lock holder nose 69 engages behind a retaining edge 70 of the control sleeve 65, so that the control sleeve is retained against the action of the compression spring 71, in a position in which As shown in FIG. 8, the control slots 64 are out of register with the rolling element receiving pockets 63, that is to say the rolling elements 62 cause the holding sleeve 61 to become hooked with the rotationally symmetrical hook head 60.
  • the trigger valve 32 is mounted on the lock case by a bearing pin 33 and engages with a driver pin 72 in an elongated hole 73 of the lock holder 68.
  • the trigger 32 When the trigger movement of the trigger 32 around the bearing pin 33 begins, the trigger 32 initially takes the retaining lug 69 only slowly, ie via the driver pin 72 and the elongated hole 73. H. with a small ratio, with downwards, since the distance between the driving pin 72 and the bearing pin 33 is very small.
  • a pressure point cartridge 74 is now additionally attached to the trigger tap 32.
  • This includes an adjustable cartridge case 75 and slidably mounted therein, a pressure pin 76 which is under the action of a compression spring 77.
  • the pressure point spring 77 is set relatively hard.
  • the trigger safety system works in the same way as in the previously described embodiment.
  • FIGS. 1 to 7 and the arrangement according to FIG. 8 can optionally be used in one and the same weapon.
  • FIG. 9 shows a modification to FIG. 8. Analog parts are designated by the same reference numerals as in FIGS. 1 to 8, each increased by the number 100.
  • the trigger tap 132 is biased by a spring 180 into a rest position, which is determined by supporting a support hook 181 on the tab (fixed stop) 114e.
  • the lock case 114 there are two cooperating hooks 182, 183 around associated pivot bolts 182a and 183a, respectively pivotally mounted, a bushing being provided on pivot pin 182a for better mounting.
  • the hook 182 because it interacts directly with the trigger tap 132, is referred to as the first or tap-side hook 182, while the other hook 183 is referred to as the second or control sleeve-side hook 183, because it interacts directly with the control sleeve 165.
  • the cock-side hook 182 is subject to the action of a spring 182b which is supported on the tab 114e, while the control sleeve-side hook 183 is subjected to the action of a leg spring 183b. Both hooks are loaded counterclockwise by the respective spring.
  • Fig. 9 the weapon is cocked.
  • the piston rod 121 is held in its tensioned position by the rolling elements 162 against the action of the helical compression spring 126, the rolling elements 162 in the rolling element receiving pockets 163 being pressed inwards by the control sleeve 165 to such an extent that the rolling elements 162 prevent the hook body 160 from moving to the left of Fig. 9 secure.
  • the control sleeve 165 is secured in the position shown in FIG.
  • the trigger 132 If the trigger 132 is pressed starting from the cocked position of the weapon according to FIG. 9, the trigger 132 rotates counterclockwise around the pivot pin 133 and the cock-side hook 182 becomes clockwise about the pivot pin 182a via the advance stop 172 against the action of the helical compression spring 182b pivoted.
  • This clockwise swiveling movement of the cock-side hook 182 is strongly reduced by the fact that the advance stop 172 is very close to the swivel pin 133.
  • the support surface 182c slides very slowly over the counter support surface 183d.
  • the sleeve-side hook 183 can be pivoted clockwise about the pivot pin 183a by the control sleeve 165 via the inclined flanks 183c and 165b against the action of the leg spring 183b, so that the nose 183c and the flank 165b of the opening 165a and the control sleeve 165 can accordingly snap to the left under the action of the helical compression spring 171.
  • the control slots 164 reach the area of the rolling element receiving pockets 163, so that the rolling elements 162, for example, three can step radially outwards at 120 ° intervals and are actually also pressed outwards by the hook body, the piston rod 121 then following to the left with the piston (not shown) under the pressure of the tensioned piston spring 126 , whereby the shot is released in the manner described above.
  • the hook body 160 first overflows the rolling bodies 162 which radially outward escape into the control slots 164 and then arrives on the overtravel against the diametral pin 166.
  • the diametral pin 166 is taken to the right and with it the control sleeve 165, which is connected to it for common axial movement. The movement of the control sleeve 165 to the right takes place against the resistance of the helical compression spring 171.
  • An end edge 165d of the control sleeve 165 comes into engagement with a stop surface 182f of the cock-side hook 182, so that it is pivoted clockwise around the pivot pin 182a against the action of the helical compression spring 182b.
  • This swiveling of the cock-side hook 182 clockwise during the span of the control sleeve has the result that the surface 182e detaches from the right end edge 183e of the sleeve-side hook 183 and this sleeve-side hook 182 then again counterclockwise under the action of its leg spring 183b can pivot and its locking tab 183c can enter the opening 165a.
  • the control sleeve 165 goes back to the left as soon as the hook body 160 is allowed to go back to the left by the span over the span.
  • the support surface 182c engages under the counter-support surface 183d under the action of the helical compression spring 182b. The state of the cocked weapon shown in FIG. 9 is thus restored.
  • the support surface 182c and the counter support surface 183d are perpendicular to the hinge pin 182a. This is essential for the support surface 182c and the counter-support surface 183d to be able to slide past one another when being pulled off without the pivoting movement of the sleeve-side hook 183 occurring. This is essential for a light and therefore sensitive print.
  • FIG. 10 it can be seen that under spring tension the hook body 160 generates a force component on the control sleeve 165 via the rolling elements 162 and a slightly inclined inclined surface 165e of the control sleeve 165, which overlaps the force of the helical compression spring 171. Since the clamping force acting on the piston rod 121 is very large due to the spring 126, a relatively large force also acts on the control sleeve 165, which tries to pull it to the left when the weapon is cocked. This force is absorbed by the interaction of the flanks 183c and 165b, and also by the interaction of the support surface 182c and the counter support surface 183d, which is secured by the spring 182b.
  • the resistance that the trigger tap 132 presents to the finger acting on it essentially depends on the sliding resistance that the abutting surfaces, support surface 182c and counter-support surface 183d generate.
  • This resistive force is small, firstly because the location of the support surface 182c and the counter support surface 183d from the pivot point 183a is significantly further (approximately twice) than the nose 183c, so that the support force between the support surface 182c and the counter support surface 183d is small is.
  • the hook 182 when the hook 182 is pivoted, the hook 183 need not be moved because of the special position of the support surface 182c and the counter support surface 183d relative to the pivot bolt 182a.
  • the advance stop 172 acts at a very small distance from the pivot pin 133.
  • the invention makes it possible, even with airguns with high shot energy, ie. H. with strong tension spring 126 to create a smooth, sensitive, adjustable trigger that is necessary for precise aiming.
  • the trigger 132 remains at rest with all manipulations on the weapon except for the trigger operation, in which the gunner's finger acts on the trigger.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Toys (AREA)
  • Fluid-Pressure Circuits (AREA)
  • Emergency Lowering Means (AREA)
  • Respiratory Apparatuses And Protective Means (AREA)
  • Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)
  • Fluid-Damping Devices (AREA)
  • Portable Nailing Machines And Staplers (AREA)
EP85101987A 1984-02-24 1985-02-22 Luftdruckwaffe Expired - Lifetime EP0158068B1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT85101987T ATE72039T1 (de) 1984-02-24 1985-02-22 Luftdruckwaffe.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19843406757 DE3406757A1 (de) 1984-02-24 1984-02-24 Luftdruckwaffe
DE3406757 1984-02-24

Publications (3)

Publication Number Publication Date
EP0158068A2 EP0158068A2 (de) 1985-10-16
EP0158068A3 EP0158068A3 (en) 1988-07-13
EP0158068B1 true EP0158068B1 (de) 1992-01-22

Family

ID=6228740

Family Applications (1)

Application Number Title Priority Date Filing Date
EP85101987A Expired - Lifetime EP0158068B1 (de) 1984-02-24 1985-02-22 Luftdruckwaffe

Country Status (5)

Country Link
US (1) US4649893A (es)
EP (1) EP0158068B1 (es)
AT (1) ATE72039T1 (es)
DE (2) DE3406757A1 (es)
ES (1) ES8606631A1 (es)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4887583A (en) * 1988-06-16 1989-12-19 Lin Hsien Chang Braking device for safety toy-gun
US5025771A (en) * 1989-09-19 1991-06-25 Hanson Brooks K Crossbow
US5349939A (en) * 1992-08-13 1994-09-27 Brass Eagle Inc. Semi-automatic gun
FR2754048B1 (fr) * 1996-10-02 1998-11-27 Trabut Pierre Louis Georges Appareil et procede pour eduquer la perception du tireur sportif. (l'appareil est appele par la suite "perfotir")
US8839771B2 (en) * 2012-08-30 2014-09-23 Shu-Mei Tseng Safety for a trigger mechanism of an air gun

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US944188A (en) * 1908-11-30 1909-12-21 William A Heilprin Air-gun.
US1503913A (en) * 1922-04-01 1924-08-05 Eugene E Miles Air gun
DE960614C (de) * 1950-06-28 1957-03-21 Fritz Walther Abzugseinrichtung fuer Luftdruckwaffen
DE900427C (de) * 1951-11-30 1953-12-28 Dianawerk Mayer & Grammelspach Luftdruckwaffe mit Waelzkoerpersperrung des Luftkolbens
US3315397A (en) * 1965-11-29 1967-04-25 Clarence W Gilliam Flare gun having quick disconnect coupling
US3839999A (en) * 1971-05-26 1974-10-08 Victor Comptometer Corp Gun with safety member mounted therein
DE2261476C3 (de) * 1972-12-15 1981-05-27 J.G. Anschütz GmbH, 7900 Ulm Abzugsvorrichtung mit Abzugsbügel für eine Schußwaffe, insbesondere für eine Druckluftschußwaffe
US3958549A (en) * 1973-05-04 1976-05-25 Forenade Fabriksverken Air rifle having a detachable rear body
US4403436A (en) * 1981-09-08 1983-09-13 Weatherby, Inc. Trigger mechanism for multiple barrel firearm providing barrel selection

Also Published As

Publication number Publication date
US4649893A (en) 1987-03-17
ES540665A0 (es) 1986-04-16
ES8606631A1 (es) 1986-04-16
ATE72039T1 (de) 1992-02-15
DE3585242D1 (de) 1992-03-05
EP0158068A3 (en) 1988-07-13
DE3406757A1 (de) 1985-08-29
EP0158068A2 (de) 1985-10-16

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