US3417657A - Toothed rotor mechanisms for automatic guns fed from two cartridge belts - Google Patents

Toothed rotor mechanisms for automatic guns fed from two cartridge belts Download PDF

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Publication number
US3417657A
US3417657A US648930A US64893067A US3417657A US 3417657 A US3417657 A US 3417657A US 648930 A US648930 A US 648930A US 64893067 A US64893067 A US 64893067A US 3417657 A US3417657 A US 3417657A
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Prior art keywords
cartridge
rotor
teeth
feed mechanism
toothed
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US648930A
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English (en)
Inventor
Maillard Bernard
Hug Paul
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Brevets Aero Mecaniques SA
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Brevets Aero Mecaniques SA
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Priority claimed from LU51456A external-priority patent/LU51456A1/xx
Priority claimed from LU53051A external-priority patent/LU53051A1/xx
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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
    • F41A9/00Feeding or loading of ammunition; Magazines; Guiding means for the extracting of cartridges
    • F41A9/37Feeding two or more kinds of ammunition to the same gun; Feeding from two sides
    • 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
    • F41A9/29Feeding of belted ammunition
    • F41A9/30Sprocket-type belt transporters
    • F41A9/31Sprocket-type belt transporters with cartridge stripping means

Definitions

  • a feed mechanism including two tubular toothed rotors is actuated, from an oscillating pinion operated by the recoil of the gun, through two torsion rods housed in said rotors and coupled together in series.
  • the present invention relates to feed mechanisms for automatic guns including two toothed rotors adapted to cooperate respectively with two cartridge belts, means belng provided for coupling one or the other of these rotors with a common driving mechanism, advantageously operated by the recoil movements of a movable portion of the gun, whereby said gun can be fed from one or the other of said belts, which belts may be fitted with ammunltions of different kinds, for instance explosive shells for one of the belts and armor piercing projectiles for the other belt.
  • the chief object of our invention is to provide a feed mechanism which is better adapted to meet the requirements of practice than those existing at the present time, especially from the point of view of simplicity and safety of operation.
  • Such a feed mechanism includes two tubular toothed rotors for conveying corresponding cartridge belts respect1vely toward two pulling systems from either of which the extracted cartridges are moved into a common feed passage leading to the gun, one or the other of said rotors being rotated from a common driving device actuated, on the firing of every cartridge, by the recoil movement of a heavy part of the gun, and possibly of the whole of said gun, with respect to a stationary cradle.
  • the chief feature of our invention consists in making use, for rotating one or the other of the rotors from the common driving device, of two torsion rods housed respectively in said two rotors and coupled together in positive and permanent fashion at their ends located on one side of the device so as to form a transmission having a capacity of torsion greater than that of each torsion rod, coupling means being provided for, on the one, hand, angularly coupling with said common driving device either of the free ends of said transmission and, on the other hand, angularly coupling the other free end of said transmission with the rotor in which is housed the torsion rod to which belongs said last mentioned free end of the transmission, abutment means being advantageously provided for limiting the angular displacement of each rotor to a given pitch for every shot that is fired.
  • Another feature of our invention consists in arranging the feed mechanism of the type in question in such manner that both of the cartridge belts enter the feed mechanism at the upper part thereof, that the elimination of the empty links takes place laterally on either side of the feed mechanism and preferably in the downward direction, and that the cartridges torn away from their links are pushed toward a middle delivery passage located at the lower part of the feed mechanism.
  • a third feature of our invention for use in a feed mechanism including two distinct systems each for detaching "ice the cartridges from the corresponding cartridge belt and feeding them through a respective guideway to a common outlet passage through which they are led to the gun, consists in providing each of these guideways with at least one movable lever adapted to shift, against the action of resilient return means and under the thrust of a cartridge running through the guideway supposed to hem operation from a guideway closing position to a guideway clearing position, the movable lever located in the other guideway (not in operation) then remaining in its closing position where it compels the cartridges coming from the guideway in operation to penetrate into the delivery passage common to both of the guideways.
  • FIG. 1 is a side view, with portions in vertical section of a feed mechanism made according to the present invention
  • FIG. 2 is a cross-sectiona1 view on the line II-II of FIG. 3;
  • FIG. 3 is a horizontal section on the line III- III of FIG. 1 in the position for which the gun is fed with cartridges from one of the cartridge belts;
  • FIG. 4 is a cross-sectional View on the line IVIV of FIG. 3;
  • FIG. 5 is a vie-w similar to FIG. 3, but more diagrammatic, and in the position for which the gun is fed with cartridges from the other cartridge belt;
  • FIG. 6 is a cross-section on the line VIVI of FIG. 3;
  • FIG. 7 is a cross-section on the line V Il-VI'I of FIG. 3;
  • FIG. 8 shows an enlargement of a detail of FIG. 7
  • FIG. 9 is a cross-section on the line IXIX of FIG.- 3.
  • the feed mechanism includes two toothed rotors for feeding cartridges supplied by means of two cartridge belts B and B the cartridges of each belt being connected together through links M.
  • the cartridges of belt B are explosive shell cartridges and that the cartridges of belt B are fitted with armor piercing projectiles.
  • the automatic gun comprises a relatively hea vy portion recoiling, upon every shot, against the action of resilient return means.
  • the gun proper may for instance constitute this recoiling portion moving with respect to a stationary support or cradle S, with the interposition of a resilient element (not shown by the drawings) which absorbs the recoil of the gun and ensures its return into shooting position.
  • the cartridge feed mechanism is operated, every time a cartridge is shot, by the recoil of the gun, including the barrel 1 and the breechcase 2 fixed thereto.
  • the casing 3 of the feed mechanism is slidable on the top of breechcase 2, said casing being connected to support S by a holding member 4, whereby the whole of the feed mechanism remains stationary during firing.
  • the relative movement of the gun with respect to the feed mechanism is used, during the recoil strokes of said gun, to actuate the feed mechanism through a cam 5 carried by easing 2 and acting upon a driving device belonging to the feed mechanism and which will be hereinafter fully described.
  • the feed mechanism includes two tubular toothed rotors 6 and 7 having their axes parallel to the longitudinal plane of symmetry of the gun and disposed symmetrically to each other with respect to said longitudinal plane.
  • Said rotors '6 and 7 comprises, respectively, three toothed reels 612 (for rotor '6) and 7a (for rotor 7).
  • the feed mechanism is arranged, as shown by FIG. 2, so that the two cartridge belts B and B enter it at the upper part thereof through two inlet passages 8 separated from each other by-a deflector 9 and that the empty links escape laterlly and downwardly on either side of the feed mechanism, through evacuation passage 10. Furthermore the cartridges torn away from their links are pushed toward a delivery passage 11 located in the middle bottom portion of the mechanism and the sidewalls of which project into breechcase 2 so as to guide the cartridges detached from their links into an introduction position where they lie upon the introduction edges 11a of passage 11.
  • the resilient transmission includes two torsion rods 12 and 13 (FIG. 3) housed respectively in rotors 6 and 7 and extending substantially over the whole length of the feed mechanism.
  • torsion rods 12 and 13 are coupled together in a positive and permanent fashion through their respective ends 12a and 13a located at the rear of the mechanism, so as to constitute a resilient transmission having a total torsion capacity equal to twice that of each of the torsion rods 12 and 13; for instance on the ends 12a and 13a of torsion rods 12 and 13 we fix two identical pinions 14 and 15 connected together by an intermediate pinion 16.
  • the device for driving the feed mechanism is to be operated by cam during the recoil movement of the gun.
  • This driving device actuates a rotary member 17 (FIGS. 3 and 4) rotated, every time a shot is fired, through an angle equal to, or just a little greater than one pitch, that is to say 21r/n (n 'being the number of teeth of each of the wheels of rotors 6 and 7).
  • this driving device essentially comprises the following elements:
  • each rotor 6 or 7 and the corresponding torsion rod 12 or 13 there is provided, between each rotor 6 or 7 and the corresponding torsion rod 12 or 13, an intermediate tubular'piece (25 for rotor 6 and 26 for rotor 7) on which the corresponding rotor is freely rotatable.
  • torsion rod 12 is angularly couple-d by means of splines with the corresponding end of intermediate piece 25 and the end 13b of torsion rod 13 is similarly coupled by means of splines with the corresponding end of intermediate piece 26.
  • the other ends of said intermediate pieces 25 and 26 are respectively coupled with the hubs of the coupling pinions 14 and 15 of the torsion rods through the intermediate of abutment means 27 and 28, having with respect to the corresponding intermediate pieces 25 and 26, the above mentioned angular play X intended to permit the desired operation for torsion rods 12 and 13 (play X visible in FIG. 6).
  • Oscillating control pinion 17 is freely rotatable and slidable with respect to intermediate piece 25 and it is provided, on its side, with teeth 29 adapted to cooperate in a non reversible manner with corresponding teeth provided on the side of a toothed wheel 30 freely rotatable with respect to said intermediate piece 25.
  • the whole of pinion 17 and teeth 29 is urged axially toward toothed wheel 30 by spring 31.
  • Toothed wheel 30 is constantly in mesh with a similar toothed wheel 32 freely rotatable in the intermediate tubular piece 26 corresponding to toothed rotor 7.
  • This transmission system further comprises reversing coupling means as above mentioned, which must permit of driving through pinion 17 either rotor 6 or rotor 7.
  • FIG. 3 Said coupling means are shown by FIG. 3.
  • a sliding sleeve 33 adapted to rotate together with said intermediate piece by means ,of a sliding key.
  • Said sleeve 33 carries at its ends two dog clutch sets of teeth 33a and 33b.
  • Teeth 33a are adapted to cooperate with corresponding teeth provided on toothed wheel 30 and teeth 33b are adapted to cooperate with corresponding teeth provided on the corresponding edge of rotor 6.
  • a sliding sleeve 34 adapted to rotate together with said intermediate piece by means of a sliding key.
  • Said sleeve 34 carries, at the ends thereof, dog clutch sets of teeth 34a and 34b.
  • Teeth 34a are adapted to cooperate with corresponding teeth carried by toothed wheel 32 and teeth 34b are adapted to cooperate with corresponding teeth provided for this purpose on the corresponding edge of rotor 7.
  • a rocking bar 35 operable by a lever 36 is provided for imparting sliding displacements in opposed directions respectively to sleeves 33 and 34. This permits of bringing into operation simultaneously, either the teeth 33a of sleeve 33 cooperating with toothed wheel 30 and the teeth 34b of sleeve 34 cooperating with rotor 7 (case of FIG. 3) or the teeth 33b of sleeve 33 cooperating with rotor 6 and the teeth 34a of sleeve 34 cooperating with toothed wheel 32 (case of FIG. 5
  • the transmission system drives toothed rotor 7 due to the fact that the rotation of pinion 17 is transmitted through toothed wheel 30, sleeve 33, intermediate tubular piece 25, torsion rod 12, pinions 14, 15 and 16, torsion rod 13, tubular piece 26 and sliding sleeve 34. Toothed rotor 7 is thus resiliently driven through both of the torsion rods 12 and 13 in torsional prestressed state,'the drive becoming imperative in case of the angular play X being absorbed, as above stated.
  • the transmission system drives toothed rotor 6 due to the fact that the rotation of pinion 17 is transmitted through toother wheel 30, toothed wheel 32, sleeve 34, intermediate piece 26, torsion rod 13, pinions 16, 15 and 14, torsion rod 12, intermediate piece 25 and sliding sleeve 33. Toothed rotor 6 is thus driven, either resiliently or, on the contrary, imperatively if play X is absorbed.
  • torsion rods 12 and 13 introduce the sum of their respective torsions in the drive of the toothed rotor which is to be operated.
  • the feed mechanism comprises, in each of the guideways connecting the points where the carriages are torn away from belts B and B to the common delivery passage 11, at least one movable lever 37a or 37b adapted to shift, against the action of a return spring 38a or 38b working in compression and under the thrust of a cartridge travelling through the guideway supposed to be in operation, from a guideway closing position to a guideway clearing position, the movable lever 37b or 37a located in the other guideway (not in operation) then remaining in its closing position, in which it compels the cartridges coming from the guideway in operation to penetrate into delivery passage 11.
  • levers 37a and 37b in their guideway closing position, thefeed of cartridges taking place from the left hand cartridge belt B to which corresponds the glideway provided with lever 37a.
  • Cartridge B which has just been extracted from its link, rests upon a fixed guide 3a rigid with the casing and when said cartridge is urged toward evacuation passage 11 by rotor 6 it compels lever 37a to lift against the action of spring 3811 (position shown in dot-and-dash lines in FIG. 2) and thus displacement of said cartridge B which comes into position B above evacuation passage 11.
  • cartridge B is, on the one hand, pushed toward said evacuation passage 11 by lever 37a returned into its guideway closing (lower) position by spring 38a and, on the other hand, compelled to penetrate into said evacuation passage 11 by lever 37b kept in guideway closing (lower) position by spring 38b.
  • said automatic stopping means include, as shown by FIG. 6, two feeler members 40b subjected to the action of a spring 41 urging them to pivot upwardly, said feeler members being prevented from pivoting by the presence of the cartridges travelling toward the corresponding extraction position (case of the feeler lever 40a on the left hand side of FIG. 6).
  • Each feeler lever is adapted, when it pivots upwardly (case of feeler lever 40b in FIG. 6) to cause, through a rocker arm (42a or 42b) turning together with the corresponding feeler lever, the pivoting of a last shot stopping lever 43 which then permits the lever 44 of the trigger system (FIG. 1) to escape, thus making the trigger system inoperative.
  • the operator then ceases to act upon said trigger system and lever 44 returns to its normal position, as shown in solid lines in FIG. 1.
  • the single control member 39 consists of a handle actuating
  • a cam 47 capable of pushing back the rocker arm 42a or 42b precedingly driven by the rota tion of the feeler lever 40a or 40b corresponding to the exhausted cartridge belt, this movement of rocker arm 42a or 42b permitting the return of the last shot stopping lever 43 to its initial position under the action of a return spring 48.
  • control member 39 permits of both controlling sliding sleeves 33 and 34 and resetting the automatic stopping means.
  • a feed mechanism as above described further includes means for limiting, on every shot that is fired, the rotation of the operating rotor to one pitch (that is to say to an angle equal to Zar/n; n being the number of teeth of the wheels of the toothed rotor).
  • n being the number of teeth of the wheels of the toothed rotor.
  • the feed mechanism is to be used with an open breech automatic gun of the type in which, when the breech is closed, the first cartridge to be introduced rests upon the upper edge of the breechblock 49* of the gun (case of FIG. 7), whereas, when the breech is open, that is to say in the rear position, where it is held by the sear when the gunner has stopped firing, the first cartridge to be inserted rests upon the edges 11a of evacuation passage 11, breechblock 49 being then located at the rear of said evacuation passage and being ready, on its return stroke toward the front, to catch said first cartridge to introduce it into the cartridge chamber of the gun (case of FIG. 9).
  • the first group of elementary means may be made as illustrated by FIGS. 7 and 8.
  • One of the wheels 6a, 7a of each rotor is associated with a retractable abutment 50a, 50b capable of shifting from an active position (wherein it forms an abutment for a tooth of said rotor toothed wheel which has just completed an angular movement of one pitch) to a neutral position (for which it permits movement of said tooth, that is to say a new angular displacement of the rotor).
  • Retractable abutments 50w and 50b are subjected to the action of return means, for instance a common spring 51, constantly urging said retractable abutments toward their active positions.
  • Retractable abutments 50a and 50b are controlled by two levers 37c and 37d analogous to the above mentioned levers 37a and 37b and carrying each a control cam (52a for lever 37c and 52b for lever 37d) adapted to cooperate with the corresponding retractable abutment 5021 or 50b to shift it from its active position to its neutral position against the action of a return spring 51 when the lever 370 or 37d that is,eonsidered shifts from the position for which it permits the passage of the cartridges through the corresponding guideway (position of lever 370 in FIG. 7) to the position for which it closes said guideway (position of lever 37d in FIG. 7).
  • a control cam 52a for lever 37c and 52b for lever 37d
  • Each retractable abutment 50a, 5011 consists of a pawl pivoting about a spindle 53a, 53b, respectively, and provided, near its end, with a lateral recess d permitting the passage of the teeth of toothed Wheel 6a or 7a, which teeth then come into contact with the base of this lateral recess when the pawl is in active position (as clearly visible for pawl 50a in FIG. 7 and on an enlarged scale in FIG. 8) whereas the teeth in question can move on in rotation when the pawl is in neutral position (case of the pawl 50b in FIG. 7).
  • lever 37c rotates downwardly and its control cam 52 compels pawl 50a to come, against the action of return spring 51, into its neutral position for which it permits a further rotation of toothed wheel 6a.
  • This further rotation is also limited to one pitch due to the upward movement of lever 37c produced by the passage of the cartridge moved forward by this further angular rotation, said cartridge being, at the end of the pitch, temporarily blocked by breechblock 49 in closing position.
  • the second group of elementary means for limiting to one pitch the rotation of the toothed rotors said means being intended to operate when shooting has been stopped with breechblock 49 in opening position, it may be made as illustrated in FIGS. 3 and 9.
  • the upper portion of the feed mechanism casing 3 carries, above evacuation passage 11 a push-piece 54 slidable vertically in a guide frame 55 between an upper position and a lower position determined, respectively, by two lateral abutments 56a, 56b disposed at the same level and with which cooperate either of two external shoulders located respectively at the ends of said push-piece 54.
  • the latter is subjected to the action of a return spring 57 urging it toward its lower position, shown in solid lines in FIG. 9.
  • Pivoting abutments 59a and 59b are subjected to the action of return means urging them from an active position (illustrated in solid lines in FIG. 9) for which said abutments stop, through their free ends, the outlets of the corresponding cartridge guideways, to a neutral position (illustrated in dot-and-dash lines in FIG. 9) for which said abutments are partly retracted upwardly, thus forming marginal cams in the outlets of the two cartridge guideways.
  • Said return means advantageously consist of a spring 60 (weaker than spring 57) housed in the central portion of push-piece 54 and bearing upon a push rod 61 adapted to cooperate with heels 62a and 62b carried by pivoting abutments 59a and 59b, respectively.
  • the operation is as follows, the gun breechblock 49 being supposed to be in the opening position as illustrated by FIG. 9.
  • Cartridge B which rests upon the edges 11a of delivery passage 11 is ready to be introduced into the gun on the next frontward stroke of breechblock 49.
  • Push-piece 54- is close to its lowermost position for which it would bear upon side abutments 56a and 56b and the pivoting abutments 59a and 59b are applied through their heels against cartridge B which is located before cartridge B in delivery passage 11 by spring 57 acting, through axes 58a and 58b, in opposition to return spring 60.
  • Said pivoting abutments 59a, 59b are therefore compelled to remain temporarily in their active positions where they close the outlets of the two guideways leading to delivery passage 11.
  • the first cartridge B fed by the rotor that is in operation bears against the oblique plane formed by the corresponding pivoting abutment 59a or 59b in retracted position and, through a cam effect, said cartridge B compels push-piece 54 to move upwardly against the thrust of its return spring 57 until cartridge B (which rested upon the top face of breechblock 49) moves down into introduction position where it bears upon the edges 11a of delivery passage 11.
  • This downward movement of cartridge B permits a corresponding and simultaneous downward movement of cartridge B which thus releases the corresponding pivoting abutment 59a or 59b and permits push-piece 54 to come back into its lowermost position under the action of its return spring 57.
  • the whole is again in its initial position illustrated in solid lines in FIG.
  • pivoting abutments 59a and 59b closing the outlets of the two guideways and thus temporarily stopping the two rotors through the cartridges present in said guideways.
  • the angular stroke of the rotors is limited to one pitch for every shot that is fired.
  • a feed mechanism which comprises, in combination,
  • both of said transmission means including in common two torsion rods, a first one and a second one, respectively journalled in said rotors coaxially therewith and having corresponding respective first ends angularly coupled together,
  • said first transmission means being adapted angularly to couple the second end of said first torsion rod with said driving part and the second end of said second torsion rod with said second rotor
  • said second transmission means being adapted angularly to couple the second end of said second torsion rod with said driving part and the second end of said first torsion rod with said first rotor
  • a feed mechanism including two pinions secured to the respective first ends of said torsion rods and a pinion journalled in said frame interconnecting said two pinions together.
  • a feed mechanism according to claim 3 wherein said driving part is a pinion journalled in said frame, further including means operative by the reciprocating movement of said gun movable portion for imparting a rotation of one pitch to said pinion in response to every reciprocation of said gun movable portion with respect to said gun fixed portion.
  • a feed mechanism according to claim 4 wherein said transmission means are adapted to provide, between said driving part and said rotors, an angular play corresponding to a portion only of said pitch, this play tending to be maintained by said torsion rods.
  • a feed mechanism comprising, coaxially interposed between said first rotor and the corresponding torsion rod, a first tubular piece on which the corresponding rotor is freely rotatable, and
  • said second transmission means comprise, coaxially interposed between said second rotor and the corresponding torsion rod, a second tubular piece on which the corresponding rotor is freely rotatable,
  • said driving part being a pinion coaxial with said first tubular piece and freely rotatable and longitudinally slidable thereon, said pinion being provided, on one side thereof, with a set of non-reversible teeth,
  • the feed mechanism comprising a first toothed wheel freely rotatable on said first tubular piece, provided on its side with a set of nonreversible teeth adapted to cooperate with the above mentioned set of non-reversible teeth,
  • first dog clutch sleeve slidable longitudinally on said first tubular piece but angularly fixed with respect thereto, said dog clutch sleeve being provided at its respective ends with two sets of teeth, a first one adapted to cooperate with a corresponding set of teeth provided on the opposite side of said first toothed wheel and a second one adapted to cooperate with a corresponding set of teeth provided on the opposite edge of the corresponding toothed rotor,
  • a second dog clutch sleeve slidable on said second tubular piece, this last mentioned sleeve being slidable longitudinally on said second tubular piece but angularly fixed with respect thereto, said second dog clutch sleeve being provided at its respective ends with two sets of teeth, a first one adapted to cooperate with a corresponding set of teeth provided on the opposite side of said second toothed wheel and a second one adapted to cooperate with a corresponding set of teeth provided on the opposite edge of the corresponding toothed rotor, and
  • control means of a reversing type for imparting sliding displacements in opposite directions to said dog clutch sleeves, said control means being arranged in such manner as to make it possible simultaneously to engage either the first set of teeth of said first sleeve with said first toothed wheel and the second set of teeth of said second sleeve with the corresponding rotor, or the second set of teeth of said first sleeve with the corresponding rotor and the first set of teeth of said second sleeve with said second toothed wheel.
  • a feed mechanism comprising a common delivery passage, two guideways extending between the points where the cartridges are detached from the respective cartridge belts and said common delivery passage, a movable lever in each of said guideways, resilient return means working in compression, adapted to act on said levers respectively, each of said levers being adapted to shift, under the eifect of the thrust exerted thereon by the next cartridge travelling through the guideway in operation, from a lowermost position, in which it closes said guideway to an uppermost position in which it permits passage of said cartridge, the movable lever present in the other guideway then remaining in its lowermost position where it compels by abutment the cartridges travelling through the guideway in operation to penetrate into the common delivery passage.
  • a feed mechanism including an automatic stopping system to interrupt firing when one of the cartridge belts is exhausted, which further comprises a single control member for simultaneously operating said clutch means and rearming said automatic stopping system.
  • a feed mechanism including an automatic stopping system to interrupt firing when one of the cartridge belts is exhausted, which further comprises a single control member for simultaneously operating said dog clutch sleeves and rearming said automatic stopping system, wherein the automatic Stopping system comprises two feeler levers and a spring tending to pivot upwardly, said feeler levers prevented from pivoting by the presence of the cartridges arriving at the place where they are detached from the cartridge belt, a rocker arm fixed on the axis of the corresponding feeler lever, respectively, to cause, through the corresponding rocker arm, pivoting of a least shot stopping lever which then permits the escape of the lever of the trigger system,
  • a cam capable of pushing back the rocker arm precedingly driven by the swinging movement of the feeler lever corresponding to the exhausted cartridge belt, this pushing back of said rocker arm having for its eifect to permit the return of the last shot stopping lever into its initial position.
  • a feed mechanism according to claim 1 wherein the two cartridge belts enter said feed mechanism at the top through two inlet passages, discharge of the empty links taking place laterally on either side of said feed mechanism, the common feed passage to which are fed the cartridges released from their links being located at the lower part of the mechanism.
  • a feed mechanism which further comprises means for limiting, on every shot that is fired, the rotation of the rotor in operation to one pitch, that is to say to an angle equal to 21r/n, n being the number of teeth of each of the wheels of said rotor.
  • a feed device intended for use on an open breech automatic gun of the kind of those where, when the breech is closed, the first cartridge to be introduced rests upon the upper face of the gun breechblock, whereas when the breech is opened, the first cartridge to be introduced rests upon edges provided at the end of the delivery passage, the breechblock being then at the rear of said delivery passage and ready, during its frontward return stroke, to catch said first cartridge to be introduced to engage it into the cartridge chamber of the gun, wherein, the means for limiting the rotation of the rotors to one pitch for every shot that is fired are arranged to be operative both when the breechblock is closed and when it is open.
  • a feed mechanism according to claim 13 comprising, to constitute said first group,
  • a retractable abutment adapted to shift from an active position where it forms an abutment for one tooth of this rotor toothed Wheel, at the end of an angular stroke of one pitch to a neutral position where it permits rotation of said tooth
  • tWo levers each bearing a control cam adapted to cooperate with the corresponding retractable abutment to shift said abutment from its active position to its neutral position, against the action of resilient return means, when the lever that is considered shifts from the position where it permitted the passage of the cartridges through the corresponding guideway to the position where it closes said guideway.
  • each retractable abutment consists of a pivoting pawl provided near its end with a lateral recess permitting the passage of the teeth of the corresponding rotor toothed wheel, said teeth then coming into contact with the base of this lateral recess when the pawl is in active position, whereas said teeth can move forward in rotation when the pawl is in neutral position.
  • a feed mechanism which comprises, to constitute said second group of means for limiting the rotation of the rotor to one pitch for every shot that is fired,

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US648930A 1966-07-01 1967-06-26 Toothed rotor mechanisms for automatic guns fed from two cartridge belts Expired - Lifetime US3417657A (en)

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Application Number Priority Date Filing Date Title
LU51456A LU51456A1 (de) 1966-07-01 1966-07-01
LU53051A LU53051A1 (de) 1967-02-23 1967-02-23

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US (1) US3417657A (de)
BE (1) BE700225A (de)
CH (1) CH469959A (de)
DE (1) DE1578364C3 (de)
ES (1) ES342526A1 (de)
GB (1) GB1158822A (de)
IL (1) IL28209A (de)
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3596556A (en) * 1969-04-07 1971-08-03 Gen Electric Feeder drive
US3662646A (en) * 1969-10-24 1972-05-16 Gen Electric Feeder
US3680432A (en) * 1970-05-25 1972-08-01 Maremont Corp Machine gun having dual feeding means for selectively feeding cartridges
US4015511A (en) * 1974-08-19 1977-04-05 General Electric Company Feeder
US4397216A (en) * 1981-02-02 1983-08-09 General Electric Company Feeder mechanism
US5383389A (en) * 1993-06-29 1995-01-24 Martin Marietta Corporation Ammunition indexing mechanism

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0184008B1 (de) * 1984-11-19 1988-01-13 Werkzeugmaschinenfabrik Oerlikon-Bührle AG Ueberwachungseinrichtung von Spätzündern für ein fremdangetriebenes Geschütz
DE3627360C1 (de) * 1986-08-16 1992-04-09 Rheinmetall Gmbh Doppel-Patronen-Wechsel-Zufuehrer fuer eine fremdangetriebene Maschinenwaffe
FR2721386B1 (fr) * 1994-06-16 1996-08-14 Giat Ind Sa Ensemble de transmission destiné à une arme automatique.

Citations (3)

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US2821888A (en) * 1949-11-18 1958-02-04 Maillard Bernard Belt feed mechanisms for automatic firearms
US3230828A (en) * 1962-12-21 1966-01-25 Bervets Aero Mecaniques S A Belt feed mechanisms for automatic firearms
US3277787A (en) * 1963-11-26 1966-10-11 Mach Tool Works Oerlikon Admin Device on an automatic firearm for the selective firing of two kinds of ammunition from two separate belts

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2821888A (en) * 1949-11-18 1958-02-04 Maillard Bernard Belt feed mechanisms for automatic firearms
US3230828A (en) * 1962-12-21 1966-01-25 Bervets Aero Mecaniques S A Belt feed mechanisms for automatic firearms
US3277787A (en) * 1963-11-26 1966-10-11 Mach Tool Works Oerlikon Admin Device on an automatic firearm for the selective firing of two kinds of ammunition from two separate belts

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3596556A (en) * 1969-04-07 1971-08-03 Gen Electric Feeder drive
US3650175A (en) * 1969-04-07 1972-03-21 Gen Electric Rotary sprocketed feeder for belted ammunition
US3662646A (en) * 1969-10-24 1972-05-16 Gen Electric Feeder
US3680432A (en) * 1970-05-25 1972-08-01 Maremont Corp Machine gun having dual feeding means for selectively feeding cartridges
US4015511A (en) * 1974-08-19 1977-04-05 General Electric Company Feeder
US4397216A (en) * 1981-02-02 1983-08-09 General Electric Company Feeder mechanism
US5383389A (en) * 1993-06-29 1995-01-24 Martin Marietta Corporation Ammunition indexing mechanism

Also Published As

Publication number Publication date
DE1578364B2 (de) 1975-01-23
NL6709126A (de) 1968-01-02
SE310139B (de) 1969-04-14
GB1158822A (en) 1969-07-23
BE700225A (de) 1967-12-01
DE1578364A1 (de) 1971-10-07
IL28209A (en) 1971-12-29
DE1578364C3 (de) 1975-09-04
CH469959A (fr) 1969-03-15
ES342526A1 (es) 1968-11-01

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