Pistol structure

Background of the Invention

This invention relates to structures for converting a pistol such as a Colt automatic pistol to a fixed barrel gun. Automatic pistols of this known general type include a slide and barrel both mounted for recoiling movement relative to the receiver of the gun, with successive rounds of ammunition being fed to the barrel from a magazine inserted into a recess in the handle of the gun.

Summary of the Invention

A gun converted in accordance with the present invention includes an improved connection between the barrel and receiver of the gun having greater strength and rigidity than has been attained by prior devices, to allow optimum accuracy and reliability of the converted gun, and to do so with a very simple structure. Further, the converted gun can be very easily returned to its original condition when desired for use as an automatic pistol. The conversion kit includes a barrel assembly which is rigidly anchored to the receiver by extension of connector parts from the barrel into the recess in the receiver which normally contains the ammunition magazine of the automatic pistol. The connector structure may have a portion which acts when tightened to expand against two opposite side walls of the recess and thus assure against any lateral shifting movement of the barrel relative to the receiver.

The apparatus may also include an element to be received at the underside of the barrel and which is attached to the receiver by a projection on the element containing an opening through which a pin connected to the receiver extends.

Brief Description of the Drawings

In the drawings:

• Fig. 1 is a side elevation of a Colt Model "0" .45 caliber automatic pistol prior to conversion;
• Fig. 2 is an exploded perspective showing the receiver of the Fig. 1 pistol and the parts used for converting the gun;
• Fig. 3 is a vertical front to rear section through the converted gun;
• Fig. 3A is an enlargement of part of Fig. 3;
• Figs. 4, 5 and 6 are vertical sections on lines 4-4, 5-5 and 6-6 of Fig. 3;
• Fig. 7 is a bottom view on line 7-7 of Fig. 3;
• Fig. 8 is a vertical section on line 8-8 of Fig. 3;
• Fig. 9 is a plan view on line 9-9 of Fig. 3, with the slide and bolt in retracted positions;
• Fig. 10 is a perspective view of the rear portion of the barrel and related parts;
• Fig. 11 is a view similar to Fig. 3, but showing a variational arrangement;
• Fig. 12 is a section on line 12-12 of Fig. 11;
• Fig. 13 is a horizontal section on line 13-13 of Fig. ll; and
• Fig. 14 is a perspective view of a portion of the variational arrangement of Fig. 11.

Description of the Preferred Embodiments

The Colt Model "O" .45 caliber automatic pistol of Fig. 1 includes a receiver or frame 10 having a handle portion 11 containing a generally vertical recess 12 within which a magazine 13 containing a series of rounds of ammunition 14 is received. The magazine is insertible upwardly into the recess through its lower open end from the broken line position of Fig. 1. A slide 15 is mounted to the top of the receiver for front to rear recoiling movement when a round is fired. During such rearward movement of the slide, the barrel 16 recoils slightly rearwardly and downwardly. The gun is fired by actuation of a trigger 17 within a trigger loop 18 of the receiver, to release the hammmer 19 and thereby fire the round. In Fig. 3, the receiver 10 is shown with the slide 15, barrel 16, magazine 13 and other related parts removed therefrom, and with the elements of a conversion kit embodying the present invention attached to the receiver. As illustrated in Fiq. 2, these parts include a barrel assembly 20, a slide 21, connector structure 22 for attaching the barrel assembly rigidly to the receiver, and a unit 23 received vertically between the receiver and barrel.

The magazine receiving recess 12 in handle portion 11 of receiver 10 extends along an axis 24 which may be inclined to advance forwardly as it advances upwardly. The recess is of essentially uniform cross-section transversely of axis 24, and is defined by two parallel side walls 25 and 26 having parallel vertical inner wall surfaces 27 and 28 disposed parallel to axis 24 and to axis 120 of barrel 20, and two transverse forward and rear walls 29 and 30 of the receiver, with the former of these having a curving wall surface 31 at the front of the recess, and with the rear transverse wall 30 having a planar surface 32 at the back of the recess. At the upper ends of walls 25, 26 and 30, the receiver has a planar horizontal upper surface with portions 33 and 34 extending in a front to rear direction along opposite sides of the magazine recess, and with a portion 35 of the same upper horizontal surface extending transversely across the back of the recess. The upper surface 36 of front wall 29 of the recess may be curved concavely and partial cylindrically (Fig. 2). At their outer sides, side walls 25 and 26 of the receiver form horizontally extending grooves 37 and ribs 38 (Fig. 6) which extend parallel to axis 27 of the barrel to guide slides 15 and 21 for front to rear movement relative to the receiver. As seen in Fig. 5, the receiver at a location forwardly of transverse portion or wall 29 may form forward continuations 25' and 26' of the two side walls 25 and 26 of the magazine recess, with grooves 37 and ribs 38 continuing forwardly to the plane of Fig. 5 and a short distance forwardly therebeyond. Between the locations 39 and 40 of Fig. 3, the receiver may have a forward portion 41 containing an upwardly facing approximately semi-cylindrical recess 42 of the cross sectional configuration illustrated in Fig. 4.

Barrel assembly 20 may include a barrel proper 43 and a part 44 secured rigidly to barrel 43 by a threaded connection 45. Alternatively, elements 43 and 44 may be formed integrally. A projectile fired by the gun is discharged through bore 46 in the barrel. During firing, the rear end of the barrel assembly is closed by a bolt 47 carried by the rear portion of slide 21. This bolt may be of conventional construction, having circularly spaced lugs 48 engaging lugs 49 in part 44 to rigidly retain the bolt in barrel closing and sealing position within part 44. The bolt is actuable between active and released positions by manually turning it relative to the slide about axis 27 by an actuating handle 50 and then pulling it rearwardly.

Connector structure 22 for securing the barrel assembly to the receiver includes an assembly of parts which project downwardly through recess 12 in receiver 10 to clamp element 44 downwardly against the receiver. These parts include a projection 51 secured rigidly to and preferably integral with part 44 and extending downwardly into the magazine recess, a connecting element 52, an elongated rod 53 threadedly connected at 54 to element 52, a bottom plate 55 extending across the lower end of recess 12, a member 56 threadedly connected at 57 to rod 53, and an actuating handle 58 for turning part 56. Projection 51 is bifurcated (Fig. 10) to form two spaced downwardly projecting walls 59 having outer planar surfaces 60 bearing against side wall surfaces 27 and 28 of the magazine recess in receiver 10. Element 52 is received between walls 59, and is configured to exert downward force on the walls and at the same time cam them laterally apart and against surfaces 27 and 28. For this purpose, element 52 has a portion with an externally cylindrical surface 61 engaging a correspondingly cylindrical surface 62 formed within projection 51 at the inner sides of walls 59. The cylindrical surface 61 of element 52 extends from one end 63 of that part to the location 64 of Fig. 3, with the element 52 having a slightly enlarged convexly rounded forward portion 65 beyond location 64. Element 52 is inserted rearwardly into the space between walls 59 of projection 51, to the Fig. 3 position in which a transverse essentially annular shoulder 66 on the forward enlarged portion 65 of element 52 engages a forward vertical planar surface 67 of projection 51. A small upper horizontal flat surface 68 may be formed on the enlarged portion 65 of element 52 to engage a flat horizontal unders formed on projection 51 and thereby retain element 52 against rotation from a position in which the axis of its threads 54 lies in a proper vertical plane for connection to rod 53.

Bottom plate 55 extends across the lower end of recess 12, and has a peripheral flange 70 extending along the opposite sides, front and rear of bottom plate 55 to form upwardly facing shoulder surfaces 71 engaging the bottom edge surfaces 170 of the receiver about recess 12 to apply upward force to the receiver and limit upward movement of bottom plate 55 relative to the receiver. Above flange 70, the bottom plate may have a portion 72 projecting upwardly into the recess and fitting closely therein to locate plate 55 against horizontal movement relative to the receiver handle.

Part 56 extends upwardly through a passage 73 in bottom plate 55 which is disposed at an inclination corresponding to axis 74 of rod 53. Rod 53 is threadedly connected into a passage in part 56 at 75, and may be locked in a desired setting relative to part 56 by a jam nut 76 threadedly connected onto the rod and tightenable against the upper surface of part 56. An annular shoulder 77 formed on part 56 between an externally cylindrical portion 78 and a larger diameter externally cylindrical lower portion 79 of part 56 engages a corresponding annular shoulder 177 on bottom plate 55 to apply upward force from part 56 to plate 55 when part 56 and rod 53 are turned relative to element 52. Handle part 58 is connected to part 56 by a transverse pin 80 for relative pivotal movement about the axis 81 of the pin between the full line locking position of Fig. 3 and the broken line released position of that figure. In its locking position, handle 58 is received within a groove 82 in the underside of bottom plate 55 and extending in a front to rear direction relative to the gun, with the vertical side surfaces 83 of the handle engaging vertical side walls 84 of the groove to lock the handle and thus part 56 against rotation about axis 74 of rod 53.

Slide 21 may be formed of a single piece of metal having two parallel side rail portions 85 received at the outer sides of the two side walls 25 and 26 of receiver 10 and having ribs 86 adapted to project into grooves 37 of the receiver, and grooves 87 adapted to receive ribs 38 of the receiver in a manner guiding slide 21 for front to rear sliding movement relative to the receiver between the active firing position of Fig. 3 in which bolt 47 closes the rear end of the barrel assembly and the rearwardly retracted position of Fig. 9 in which the chamber is open for removal of a spent shell from the rear end of the barrel and loading of another round thereinto. The bolt is mounted to the slide by reception within a portion 88 of the slide interconnecting side rails 85 at their rear ends, this portion 88 containing a passage 89 within which the bolt is carried for limited rotary movement relative to portion 88 about axis 27. At their forward ends, the side rails 85 of the slide are connected together by a transverse portion 90 of the slide, having an upper surface 91 curved cylindrically in correspondence with the undersurface of barrel 43 to engage that undersurface and move slidably relative to the barrel. In the rearmost position of the slide (Fig. 9), a vertical rear shoulder surface 191 on portion 90 of the slide engages a vertical forward surface 92 on the rear part 44 of the barrel assembly to prevent further rearward movement of the slide.

The unit 23 at the underside of the barrel includes a forward member 95 and a connector part 96 rigidly secured thereto. Part 95 has an upper partial cylindrical surface 97 curved in correspondence with and adapted to engage the external surface of barrel 43 (Fig. 4), and an essentially semi-circularly curved undersurface 98 dimensioned to fit closely within curved surface 42 in the receiver. The element 96 may be rigidly connected to part 95 in any convenient manner, as by a threaded connection at 99. Element 96 projects rearwardly from the part 95, and contains a cylindrical opening 100 whose axis 200 extends horizontally and lies within a vertical plane disposed tranversely of axis 120 of the barrel. The usual slide stop member 101 which is present in the standard automatic pistol as represented in Fig. 1 interfits with this opening 100 in unit 23 to lock that unit in fixed position relative to the receiver. As seen in Fig. 5, the slide stop has a portion 102 received adjacent the outer surface of the receiver and carrying a cylindrical pin portion 103 which extends through and is a close fit within circular opening 100 in unit 23 and in two aligned openings 104 formed in the opposite side portions of the receiver.

In converting the gun of Fig. 1 to the condition of Fig. 3, the slide, barrel, etc. of the original gun are first removed from receiver 10, after which unit 23 is placed in its Fig. 3 position and locked therein by insertion of pin 103 of slide stop 101 through opening 100. With hammer 19 cocked rearwardly, slide 21 may then be inserted forwardly relative to the receiver, with the ribs and grooves 37, 38, 86 and 87 interfitting as discussed. Connecting element 52 may then be inserted rearwardly between walls 59 of projection 51 at the underside of barrel assembly 20, after which the barrel assembly can be moved downwardly relative to the receiver to move projection 51 and element 52 into magazine recess 12. Rod 53 can then be inserted upwardly through the opening in bottom plate 55, with the rod connected to part 56 as illustrated in Fig. 3, and this entire assembly can be moved upwardly into the magazine recess to bring the upper threaded end of the rod into engagement with the threaded bore in connecting element 52. Part 56 and roè 53 are then turned by rotation of handle 58, with the handle in its broken line position of Fig. 3, so that by virtue of the threaded connection 54 between the rotating rod 53 and the non-rotating connecting element 52 the rod and part 56 are progressively pulled upwardly relative to the receiver. This upward force is applied to bottom plate 55 by part 56, with the rotation being continued until the bottom plate is in tight engagement with the lower end of the recess, and rear part 44 of the barrel assembly is pulled tightly downwardly against the upper horizontal surfaces 33 and 34 of the receiver. To attain effective and rigid engagement between the barrel assembly and receiver, part 44 of the barrel assembly has two horizontal planar surfaces 104 at opposite sides of the magazine recess for engaging and abutting tightly downwardly against magazine surfaces 33 and 34.

As the connecting element 52 is pulled downwardly, the inclined disposition of the engaging cylindrical surfaces of element 52 and walls 59 of projection 51 (at 105 in Fig. 6) causes these surfaces to function as camming surfaces acting to progressively force walls 59 relatively apart to an increased width condition in which the outer surfaces 60 of walls 59 bear very tightly against side wall surfaces 27 and 28 of the magazine recess to enhance the effectiveness of the rigid interconnection between the barrel assembly and receiver.

When the rod 53 and connected parts have been turned to a position in which the desired rigid connection between the barrel assembly and receiver has been attained, handle 58 is swung upwardly from its broken line position of Fig. 3 to its full line position of that figure in which the handle is received within groove 82 and bottom plate 55 to lock the parts in that adjusted position. The threaded connection between rod 53 and part 56 is preadjusted to a condition in which the handle will in the properly tightened condition of the parts be aligned vertically with and move upwardly into groove 82, with jam nut 76 being utilized for locking the rod and part 56 in this desired relative setting. The gun may at any time be easily reconverted to its original condition by removal of the parts of the conversion kit and reassembly of the standard parts on the receiver.

The variational arrangement of Figs. 11 through 14 is essentially the same as that of Figs. 2 through 10 except for the differences discussed below. In Figs. 11 through 14, the rear part 44a of the barrel assembly, which corresponds to part 44 of the first form and is threadedly connected to barrel proper 43a, has a projection 5la at its underside which engages a connecting element 52a in camming relation. Rod 53a may be the same as the rod 53 of the first form of the invention, and be connected at its lower end to elements identical with those represented at 55, 56, 58 and 76 for engaging the lower end of the receiver 10a and applying upward force thereto. Element 52a is of U-shaped configuration, with projection 51a extending thereinto, and is shaped at its upper end to have two portions 110 projecting toward one another and having inclined camming undersurfaces 111 engageable with inclined surfaces 112 on an enlarged lower portion 113 of projection 51a, so that part 52 can pull projection 51 and the magazine downwardly against the upper edge of the magazine, with the camming surfaces 111 and 112 acting to spread the opposite side portions 114 of part 52a relatively laterally apart upon exertion of such downward force, causing the parallel vertical outer planar surfaces 115 of portions 114 to bear tightly against the side wall surfaces 27a and 28a of the magazine recess in the receiver. When the parts have been pulled to a properly tightened condition, the handle 58 at the lower end of rod 53a can be swung to locking position as in the first form of the invention.

The downward force exerted by part 44a is applied to the receiver through surfaces on part 44a and the receiver engaging in front of and behind the magazine recess 12a. These surfaces include a downwardly facing horizontal surface 116 formed on the rear portion of part 44a and extending across that rear portion of the part behind projection 51a and engaging downwardly against upwardly facing surface 35a on the receiver. In front of projection 51a, part 44a has a curved surface 117 engaging the concavely curved upwardly facing surface 36a formed on the receiver at that location. In this form of the invention, the part 44a preferably does not contact the upper edge surfaces extending along opposite sides of the magazine recess and corresponding to surfaces 33 and 34 referred to in describing the first form of the invention.

Slide 21a of the second form of the invention may be the same as the slide used in the first form of the invention except for deletion of the transversely extending portion 90 at the front of the slide. Such omission of this portion allows the slide to be removed rearwardly from the receiver while the barrel remains attached thereto. In order to limit this rearward movement except when removal is desired, one of the side rails 85a of the slide carries a detent element 118, which is connected to the side rail by a pin 119 for pivotal movement about a vertical axis relative to the side rail, and which has a portion 120 projecting laterally inwardly beyond the inner surface of the side rail to a position for engagement with forwardly facing shoulder 121 on part 44a of the barrel assembly to prevent rearward movement of the slide beyond the position in which portion 120 engages shoulder 121. A spring 122 yieldingly holds the detent element in its active position for limiting rearward movement of the slide, and the detent can be pivoted to a position in which its portion 120 will not engage shoulder 121 and can move rearwardly past that shoulder by manual inward depression of a portion 123 of the detent element against the tendency of spring 122.

In assembling the arrangement of Figs. 11 through 14, unit 23 is first connected to the receiver in the same manner as discussed in connection with the first form of the invention, after which barrel assembly 43a can be moved into position with its projection 51a extending downwardly into the magazine recess in the receiver, and with element 52a connected to projection 51a. Rod 53a and its connected parts may then be attached to element 52a, with the rod and connected parts being tightened to pull part 44a of the barrel assembly tiqhtly downwardly against the receiver surfaces in front of and behind the magazine recess, with simultaneous automatic camming of U-shaped part 52a to an increased width condition bearing tightly against the opposite side walls of the magazine recess and attaining a highly effective overall rigid connection between the barrel and receiver. The slide may then be inserted forwardly onto the receiver, with the side rails 85a of the slide moving along opposite sides of the barrel assembly and slideably engaging the ribs and grooves of the receiver, and with the detent element 118 being deflected to pass part 44a and move to a position in front of that part and then automatically being returned by its spring 122 to a position thereafter preventing rearward movement of the slide beyond the discussed limiting position except when and if the detent element is intentionally released for removal of the slide.

In the first form of the invention, recoiling forces are transmitted from an inclined rear surface 151 on projection 51 to the correspondingly inclined planar rear wall surface 32 of magazine recess 12. The inclination of these engaging surfaces tends to cam the barrel downwardly relative to the receiver under the influence of recoiling forces to assure maintenance of a rigid connection between the parts upon firing. In the second form, the recoiling forces are similarly transmitted from an inclined rear planar surface 151a of projection 51a to the correspondingly inclined rear wall of the magazine recess.