US2203378A - Firearm - Google Patents

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Publication number
US2203378A
US2203378A US87153A US8715336A US2203378A US 2203378 A US2203378 A US 2203378A US 87153 A US87153 A US 87153A US 8715336 A US8715336 A US 8715336A US 2203378 A US2203378 A US 2203378A
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US
United States
Prior art keywords
connector
sears
trigger
gun
sear
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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
US87153A
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English (en)
Inventor
Val A Browning
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.)
J M & M S Browning Co
Original Assignee
J M & M S Browning Co
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
Priority to BE422300D priority Critical patent/BE422300A/xx
Application filed by J M & M S Browning Co filed Critical J M & M S Browning Co
Priority to US87153A priority patent/US2203378A/en
Application granted granted Critical
Publication of US2203378A publication Critical patent/US2203378A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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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
    • F41A19/00Firing or trigger mechanisms; Cocking mechanisms
    • F41A19/06Mechanical firing mechanisms, e.g. counterrecoil firing, recoil actuated firing mechanisms
    • F41A19/18Mechanical firing mechanisms, e.g. counterrecoil firing, recoil actuated firing mechanisms for multibarrel guns or multiple guns
    • F41A19/19Mechanical firing mechanisms, e.g. counterrecoil firing, recoil actuated firing mechanisms for multibarrel guns or multiple guns with single-trigger firing possibility
    • F41A19/21Mechanical firing mechanisms, e.g. counterrecoil firing, recoil actuated firing mechanisms for multibarrel guns or multiple guns with single-trigger firing possibility having only one trigger

Definitions

  • This invention relates to improvements in firearms and has particular reference to firing mechanism for double barrel guns (either of the side by side or the over and under types) in which the barrels may be fired in succession upon suc cessive intentional pulls of a single trigger.
  • An aim of the present invention is to provide an improved arrangement wherein doubling is absolutely and entirely avoided during the entire period of the jump of the gun upon discharge thereof, that is to say, there is no possibility of accidentally firing the second barrel during either the recoil or the rebound of the gun due to the discharge of the first barrel.
  • a further aim of the invention is to provide an improved arrangement wherein doubling is absolutely avoided and wherein accidental firing of the gun, should it be jarred, is guarded against.
  • a further aim of the invention is to provide an improved arrangement wherein the speed and force with which the hammer falls is accelerated without, however, increasing the pressure with which the hammer bears against the sear when the hammer is in cocked position.
  • a further aim of the invention is to provide a firing mechanism having the above and other advantages which is characterized by its simplicity in construction, its economy in manufacture, its durability, and by its reliability in effectiveness and operation.
  • Figure l is a view looking at the right-hand z'side of the frame of the gun and carrying my improved mechanism, the right-hand hammer being illustrated in uncooked or firing position and the left-hand hammer being shown in cocked position;
  • Fig. 2 is a view similar to Fig. 1 but showing both of the hammers cocked, the right-hand sear also being shown by broken lines in the position which it has assumed after it has been actuated to release the right-hand hammer and during the recoil movement of the gun;
  • Fig. 3 is a detail view of the connector and inertia block, this view being taken substantially on line 33 of Fig. 2;
  • Fig. 4 is a side View of what is shown in Fig. 3.
  • Fig. 5 is a perspective view of the connector.
  • the firing mechanism includes a pair of hammers II and I2 pivoted as at 9. Respectively associated with these hammers are the sears I l and I5 which may be of any suitable construction and which may be located as desired depending upon the form and position of the hammers themselves. These sears are pivoted on a pin [6 carried by the upper tang of the frame. Each of the hammers is normally urged into firing position by a main spring I! encircling a plunger or guide IS.
  • each guide is rounded and engages in a recess or seat 19 in the rear face of the respective hammer.
  • Theforward end of each spring engages against a shoulder on the forward end of the respective guides I8, and the rear ends of the springs engage against the rear tang piece 20 of the frame.
  • the rear ends of the guides l8 have loose sliding movements in tapered openings 2
  • Each of the hammers has, on its upper face, a notch 22 which is adapted to be engaged by a tooth 23 on the respective sear for holding the hammer in cocked position.
  • the sears are normally urged into engagement with the hammers by springs 24 which may be of any suitable form.
  • the sears are provided with rearwardly extending tails 25 with which the connector is adapted to be engaged, as hereinafter described more in detail.
  • the under faces of these tails a s viewed when the sears are in hammer holding position, are inclined upwardly and forwardly.
  • the seat or recess 29 in the hammer is elongated in the direction of the length of the hammer and bears such relation to the guide and spring that, when the hammer is in cocked position, the forward end of the guide engages in the lower end of the recess and, as the hammer falls, the forward end of the guide moves upwardly in the recess away from the pivot of the hammer, thus increasing the leverage action.
  • the inner or bottom surface of the recess forms an acute angle a with the guide so that the forward end of the guide moves downwardly (that is, towards the pivot of the hammer) to the position shown in Fig. 2 and in which position the spring holds the hammer against the sear with less pressure than would be the case if the guide engaged the outer end of the seat.
  • this angle is increased until it becomes an obtuse angle and, thereafter, the forward end of the plunger will slip upwardly in the seat to the position shown in Fig. 1.
  • the numeral til designates a trigger of suit able construction, the same being pivoted on a pin ti carried by the lower tang of the frame. This tang is slotted to accommodate the trigger.
  • the numeral 35 designates the connector which is so arranged that, upon successive intentional pulls of the trigger, it will successively release the sears from their respective hammers.
  • this connector is shown as being adjustable so that the order in which the barrels are fired may be selected at will, but it is to be understood that certain features of the present invention may be incorporated in firing or trigger mechanisms not having the selective feature. In the present instance,
  • the connector 35 is pivoted at its lower end to the trigger for swinging movement generally longitudinally of the gun. More particularly, the lower end of the connector is fixed to a shift button 36 mounted for movement in a transverse
  • the connector has, adjacent to, but below its upper end, a forwardly extending sear-engaging-shoulder or surface 38 and has, on its respective side faces, lugs 39 and 39, the upper surfaces or shoulders -,of which are adapted to engage the under sides of the tails of the respective sears. 1e upper surfaces of these lugs are generally in the plane of the shoulder -38 and are spaced rearwardly and to opposite sides thereof.
  • the opposed faces of the tails 25 are cut away so as to provide an interval or notch 25' which is relatively wider than the shoulder 38 so as to prevent this shoulder from engaging both of the sears at the same time.
  • the portion ll: of the connector which extends above the sear-engaging-shoulders is relatively wider than the interval or notch 25 between the tails of the scars in order that thisportion of the connector will not drop into said notch when the connector is shifted transversely.
  • this portion Ml terminates at its upper end in a reduced cylindrical stem ll which is adapted to extend into a bore in an inertia block 42.
  • a spring Associated with the connector 35 is a spring (it which, in the present instance, serves three functionsnamely, it urges the connector forwardly about its pivot 36; it maintains the connector in its selected positions relative to the sears; and it urges the trigger to unpulled position.
  • This spring is in the form of a coil and surrounds a guide or plunger i l supported for sliding movement in ears Q5 and 4t projecting from the rear face of the connector.
  • the s ring l3 engages at its upper end against the under side of the upper ear t5 and engages at its lower end against a' collar tl fixed to the guide, so that the guide is normally forced downwardly against the trigger.
  • the lower end of the guide is rounded and is adapted to selectively engage notches ilt and #39 provided in the upper face of the trigger and extending generally longitudinally of the gun.
  • the inertia member or block Q2 functions to withdraw and maintain the connector out of operative relation with the sears during the forward rebound of the gun after one of the barrels has been fired.
  • this inertia member is in the form of a block or mass mounted for movement on the connector in a direction of the length of the connector.
  • the inertia block has at its forward upper corner a forwardly extending lug 55 having a vertical bore adapted to slidably receive the stem or stud 4
  • Projecting from the lower forward corner of the block are a pair of spaced apart ears 56 which loosely straddle the connector below the lugs 39 and 3B.
  • the inertia block is located at the upper end of the connector so that its full leverage effect may be taken advantage thereof, and the block itself may be of lesser mass than would be the case if the same were located more nearly to the pivot of the connector.
  • a spring 58 which serves to prevent rattling between the connector and the block and which also may be employed to advantage in assisting disengagement of the connector from the sear after the first shot and upon recoil of the gun, as presently described.
  • this spring is in the form of a compression coil located in a recess 59 in the inertia block and bearing against the rear face of the connector.
  • the purpose of permitting the block to move lengthwise of the connector is to guard against accidental actuation of a sear and release of its hammer in the event the gun should be dropped.
  • the inertia member be rigidly fixed to the connector and the gun dropped, there is a liability that the mass comprising the trigger, the connector, and the inertia member would be moved with respect to the firearm and release a hammer, resulting in accidental firing of the gun. With my improved arrangement, this will not occur, for should the gun be dropped, the
  • inertia block would move independently of the connector and trigger, and the connector and trigger of themselves have not sufiicient mass to jar off the sear. It is observed that movement of the inertia block along the connector away from the pivot of the connector is limited by the engagement of the upper surface of the block against the under surface of the upper tang of the frame.
  • the connector has been transversely adjusted by means of the button 36 so that the right-hand hammer ll will be released upon the first pull of the trigger, causing a discharge of the cartridge in that barrel .(the under barrel in the present instance) associated with that hammer.
  • the lower end of the guide 44 engages in the notch 48 in the trigger (see Fig. 3);
  • the connector spring 43 holds the connector with its face 49' engaging the rear end of the tail of the right-hand sear (see Figs. 2 and 4);
  • the front sear-engagingshoulder 38 is positioned beneath the right-hand sear l4 so as to raise the same on the first pull ;of the trigger (see Figs.
  • the left-hand lug 39' of the connector will move beneath the left-hand sear l5 as shown in Fig. 1 so that this sear will be actuated upon a second voluntary pull of the trigger.
  • the forward face of the left-hand lug 39' will stop against the rear end of the tail 25 of the left-hand sear, and then upon release of the trigger, the spring 43 will snap the connector downwardly and forwardly into operative position with the left-hand sear.
  • the shift button and connector are moved to the left on the gun (to the right as viewed in Fig. 3) and to a position where the lower end of the guide 54 engages the left-hand notch 49.
  • the operation of the gun on successive pulls of the trigger is the same as that just described except that, on the first intentional pull, the shoulder 38 of the connector will result in the release of the left-hand hammer and, on the next intentional pull of the trigger, the right-hand lug 39 will lift the right-hand sear.
  • the sear of that hammer which has been released prevents, during the entire period of such recoil movement, the connector from advancing into operative relation to the other sear, and during the forward or rebound movement of the gun the inertia block holds the connector, during that entire rebound period, out of operative relation to the other sear so that at no time during the jump of the gun, which includes both the recoil and the rebound, can the gun be doubled, no matter what the conditions may be, how the gun is held, or what the relation between the shooters finger and the trigger may be.
  • the forward sear-engaging-shoulder 3B is perpendicular to the length of the connector and, when in engagement with the underside of the tail of a sear, this shoulder is inclined forwardly and upwardly, this being of advantage in that camming rearwardly of the connector by the sear is avoided.
  • the spring 58 may be of assistance in this connection. It will be seen that, upon the recoil of the gun, the inertia block will tend to lag somewhat with respect to the connector (there being a little lost motion between these parts), thus compressing the spring 58, with the result that, when the recoil of the gun is stopped by the shoulder of the shooter, the spring will give an added impetus to the inertia block and connector rearwardly and insure that the connector is disengaged from the sear.
  • the numeral 65 designates the usual locking bolt for locking the gun in closed position, the same being mounted for sliding movement in the frame or receiver beneath the usual bearing in and engage the forward face of the connector imthe operative position shown in Fig. 2.
  • the numeral 63 designates the usual safety mediately above the lower tang of the frame, thereby moving the connector rearwardly.
  • the locking bolt will move .forwardly, permitting the connector to move to piece or slide mounted for longitudinal movement on the upper tang of the frame.
  • It has a de- 15, pending finger 6i extending through a slot 68 in the tank, and carried by this finger is a positioning spring 69 having a hump adapted to selectively engage in the detent notches it and H.
  • this .slide is adapted to cooperate with the connector so as to hold the same in safe position.
  • the upper portion of the inertia block is cut away so as to accommodate the lower end of the finger 61 and to provide a forwardly facing abutrnent 12 on the block and with which abutment the finger 8 1 is adapted to engage.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted on said trigger and having a forward searengaging-surface and a rear sear-engaging-surface, said surfaces being arranged to successively engage the sears upon successive intentional pulls of the trigger, means normally urging said connector forwardly into operative position with said sears, means between said scars and connector whereby one of the sears holds said connector out of operative position with respect to the other sear during recoil of the gun after firing the first barrel thereof, and inertia means carried on the upper end of said connector and adapted to lag behind the gun and hold the connector out of operative relation to said sears upon forward rebound of the gun.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted to said trigger and having sear-actuatingportions adapted to respectively and successively engage the sears upon successive intentional pulls of the trigger, spring means normally urging said connector forwardly into operative relation to said sears, means for moving said sears beyond the extent of forward movement of said connector when the sears are disengaged from the connector, said sears and connector having interengaging portions so arranged that one of the sears, when disengaged from its hammer, will prevent said connector from moving forwardly into operative relation to the other sear during recoil of the gun, and inertia means carried by said connector for holding the same out of operative relation to said sears upon rebound of the gun.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted to said trigger and having a forward sear actuating-surface, a rear sear-actuating-surface, and an upwardly extending front face arising from said first surface, said surfaces being arranged to respectively engage the sears upon successive intentional pulls of the trigger and said face being arranged to engage the rear end of the sear with which said front face is associated during recoil of the gun upon firing the first barrel thereof, spring means normally urging said connector forwardly into operative relation to said sears, means for moving said sears forwardly beyond the extent of forward movement of said connector when the sears are disengaged from said connector, and inertia means carried on the upper end of said connector causing said connector to lag behind the gun and maintaining the connector out of operative relation to the sears upon forward rebound of the gun.
  • said connector being mounted on said trigger for selective positioning relative to said sears whereby the sears may be operated in selective order, means for selectively positioning said connector relative to said sears, and an inertia weight carried by said connector for causing the connector to lag behind the gun and maintain the connector out of operative relation to the scars on forward rebound of the gun.
  • hammers, sears respectively associated therewith a trigger, a connector pivoted on said trigger for swinging movement longitudinally of the gun and having portions adapted to respectively and successively engage the sears upon successive intentional pulls of the trigger, said connector being mounted on said trigger for selective lateral positioning relative to the scars whereby the sears may be operated in selective order, a spring normally urging said connector forwardly into operative relation to said sears, said connector and scars having engaging portions so that one of said sears, upon firing of the gun and rebound thereof, prevents said connector from moving forwardly into operative relation to the other sear, said connector being weighted so as to constitute an inertia block which will lag behind the gun and hold the connector out of operative relation to the sears on forward rebound of the gun.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted on said trigger for swinging movement longitudinally of the gun and mounted on said trigger for lateral selective movement with respect to said sears, said connector having a forward sear-engaging-portion adapted to be selectively positioned relative to said sears and also having a pair of rear sear-engaging-portions adapted to respectively engage said sears, a spring normally urging said connector forwardly into operative relation with said sears, means for maintaining said connector against forward movement into operative relation with the second sear after the first sear has been actuated and during recoil of the gun irrespective of the po sition of the trigger during such recoil period, and inertia means on said connector adapted to lag behind the gun and maintain the connector out of operative relation to the sears during the forward rebound of the gun.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted on said trigger for swinging movement longitudinally of the gun and supported for lateral selective positioning with respect to said sears, said connector having a forward sear-actuatingsurface adapted to be selectively positioned with respect to said sears and a pair of rear searactuating-surfaces to opposite sides of said first surface and arranged to respectively cooperate with said sears, said connector having an upwardly extending face arising from said first mentioned surface and arranged to engage the rear end of the sear with which said first surface is associated during recoil of the gun upon firing thereof, a spring normally urging said connector forwardly into operative relation to said sears, an inertia weight on said connector for maintaining the latter out of operative relation to said sears during rebound of the gun, and means for selectively positioning said connector relative to said sears,
  • hammers sears respectively associated therewith, a trigger, a connector pivoted on said trigger for swinging movement longitudinally of the gun and mounted on the trigger for lateral selective positioning relative to said sears, said connector having sear-actuatingportions adapted to respectively and successively engage the sears upon successive pulls of the trigger, said trigger having on its upper face and rearwardly of said connector a pair of laterally spaced, longitudinally extending notches, a guide supported by said connector for movement lengthwise of the connector and having its lower end adapted to selectively engage in said notches, and a spring about said guide and normally urg ing the same downwardly and said connector forwardly.
  • a frame hammers pivoted therein, sears respectively associated with said hammers, a trigger, a connector pivoted to said trigger for swinging movement longitudinally of the gun and through which said sears are successively operated upon successive intentional pulls of the trigger, a spring normally urging the connector forwardly into operative relation to said sears, and an inertia block mounted on the upper free end of said connector for movement longitudinally thereof, movement of said inertia block away from the pivot of the connector being limited by said frame.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted to said trigger for swinging movement longitudinally of the gun and having searengagingshoulders adapted to respectively engage beneath said sears so as to successively disengage the same from their hammers on successive intentional pulls of the trigger, a spring normally urging said connector forwardly into operative relation to said sears, an inertia block supported on the outer end of said connector for maintaining the connector out of operative relation to the sears during the forward rebound of the gun after the first barrel has been fired,
  • said inertia block being mounted on said connector for limited movement relative thereto in the direction longitudinally of the gun, and a spring between said connector and block normally urging the latter rearwardly of the connector.
  • hammers sears respectively associated therewith, a trigger, a connector pivoted to said trigger for swinging movement longitudinally of the gun through which said sears are successively operated upon successive intentional pulls of the trigger, an inertia block, and means slidably connecting said block to said connector.

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US87153A 1936-06-25 1936-06-25 Firearm Expired - Lifetime US2203378A (en)

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US87153A US2203378A (en) 1936-06-25 1936-06-25 Firearm

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3280494A (en) * 1965-07-19 1966-10-25 Browning Ind Inc Single trigger mechanism for double-barrelled shotguns
US3421243A (en) * 1967-09-18 1969-01-14 Browning Ind Inc Firing mechanisms for double barrel,single trigger firearms
US3786588A (en) * 1971-08-13 1974-01-22 Franchi Spa Luigi Arrangement for pre-selecting the sequence of firing of a double-barrelled gun having a single trigger
US3808724A (en) * 1971-06-01 1974-05-07 Remington Arms Co Inc Firing mechanism for firearms
US3863375A (en) * 1973-07-13 1975-02-04 Browning Arms Co Trigger system
US4091556A (en) * 1976-11-11 1978-05-30 Katsenes Philip K Trigger sequencer for twin barrel guns
US4315377A (en) * 1979-10-29 1982-02-16 Jenkins Jack J Single trigger firing of double barrel side-by-side or over-under firearms
US4399628A (en) * 1980-10-29 1983-08-23 Le Armerie Italiane F.Lli Gamba S.N.C. Firing mechanism for firearms
US20080120887A1 (en) * 2004-10-12 2008-05-29 Vito De Gregorio Hunting and Sporting Firearm

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3280494A (en) * 1965-07-19 1966-10-25 Browning Ind Inc Single trigger mechanism for double-barrelled shotguns
US3421243A (en) * 1967-09-18 1969-01-14 Browning Ind Inc Firing mechanisms for double barrel,single trigger firearms
US3808724A (en) * 1971-06-01 1974-05-07 Remington Arms Co Inc Firing mechanism for firearms
US3786588A (en) * 1971-08-13 1974-01-22 Franchi Spa Luigi Arrangement for pre-selecting the sequence of firing of a double-barrelled gun having a single trigger
US3863375A (en) * 1973-07-13 1975-02-04 Browning Arms Co Trigger system
US4091556A (en) * 1976-11-11 1978-05-30 Katsenes Philip K Trigger sequencer for twin barrel guns
US4315377A (en) * 1979-10-29 1982-02-16 Jenkins Jack J Single trigger firing of double barrel side-by-side or over-under firearms
US4399628A (en) * 1980-10-29 1983-08-23 Le Armerie Italiane F.Lli Gamba S.N.C. Firing mechanism for firearms
US20080120887A1 (en) * 2004-10-12 2008-05-29 Vito De Gregorio Hunting and Sporting Firearm

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