1966 e. 1.. MITTELSTEADT 3,283,643
DECAPPING AND RESIZING TOOL Filed June 19, 1964 INVENTOR.
645/11 L. MTI'ELSTEADT A 7 TOP/VERY United States Patent 3,283,643 DECAPPING AND RESIZING TOGL Glen L. Mittelsteadt, Waseca, Minn., assignor to Herters Inc., Waseca, Minn, a corporation of Minnesota Filed June 19, 1964, Ser. No. 376,503 4 Claims. (Cl. 86-36) This invention relates to reloading tools and specifically to a decapping and resizing tool for use in reloading ammunition.
An object of this invention is to provide a novel and improved decapping and resizing tool arranged and constructed for floating alignment with the cartridge case to be reloaded as the latter is inserted into the cavity of the tool during the decapping and resizing operation.
A more specific object of this invention is to provide a novel and improved decapping and resizing tool including a cartridge case receiving member having a decapping and resizing unit mounted therein, and being mounted for slight radial displacement with respect to the die body member whereby the cartridge case receiving member is capable of self alignment with the cartridge case as the latter is inserted into the former during the decapping and resizing operation.
A further object of this invention is to provide a decapping and resizing tool of the class described wherein the decapping and resizing unit is capable of axial adjustment relative to the cartridge case receiving member for accommodating different sized cartridge cases.
These and other objects and advantages of the invention will more fully appear from the following description made in connection with the accompanying drawings, wherein like character references refer to the same or similar parts throughout the several views, and in which:
FIG. 1 is a perspective view showing a reloading tool press incorporating my novel reloading tool;
FIG. 2 is a side elevational view of my novel decapping and resizing tool; and
FIG. 3 is a vertical sectional view of my novel decapping and resizing tool.
Referring now to the drawings, and more specifically to FIG. 1 it will be seen that one embodiment of my novel decapping and resizing tool, designated in its entirety by thereference numeral 10, is illustrated mounted on areloading tool press 11, constructed of a suitable rigid metallic material and including a horizontal mounting orflange plate 12. Thishorizontal mounting plate 12 is suitably apertured at 13 to permit mounting of the tool press upon a work bench or other type of support structure. A vertically disposed flange 14- is integrally formed with themounting plate 12 and has integrally formed therewith an inclined reinforcingrib 15.
lntegrally formed with themounting plate 12 is a vertically disposedplunger guide member 16 which extends downwardly beyond themounting plate 12 and which is provided with a cylindrical bore therein for accommodating the plunger or ram of the tool press. An arcuate channel member is integrally formed with theplunger guide member 16 and the upstanding flange 14 and forms a continuation of theplunger guide member 16 for guiding the tool press plunger. Thus the bore of theplunger guide member 16 and the arcuate guide channel of the arcuate channel member 17 define a continuous vertically disposed guide surface for guiding the tool press plunger during movement of the latter,
Thetool press plunger 18, as pointed out above, is vertically slidable in the continuous vertically disposed guideway and is provided with a suitable linkage (not shown) which is operated by anactuating handle 19. The linkage for reciprocating the plunger orram 18 is preferably of the type disclosed in my US. Patent No. 3,087,- 372. It will be noted that the upper terminal portion ice of theplunger 18 is provided with a shell holder 20 having aslot 21 therein for accommodating the lower end of a spent cartridge shell therein. It is also pointed out that the shell holder 20 is detachably connected to theplunger 18 and may be removed and replaced with a shell holder for accommodating a different kind or size of shell to be loaded.
Thetool press 11 is also provided with aconventional die holder 22 which is integrally formed with the upper terminal portion of the channel member 17 and with the reinforcingrib 15. This dieholder 22 is provided with a threadedrecess 23 therein which is disposed in coaxial relation with respect to the longitudinal axis of theplunger 13 and receives the decapping and resizingtool 10 therein.
The decapping and resizingtool 10 includes a generally cylindrically shaped elongatedie body member 24 formed of a suitable hardened steel and having a uni formly sizedcylindrical bore 25 therethrough. It will be noted that the exterior lower end portion of thedie body member 24 is threaded as at 26 for threaded engagement with the threadedrecess 23 of the dieholder 22. The upper exterior portions of thedie body member 24 are knurled as at 27 to facilitate mounting thereof in the die holder recess 23.
The linear dimension of the threadedlower end 26 of the diebody member 24 is greater than the axial dimension of the threadedrecess 23 thereby permitting adjustment of the die body member relative to the dieholder 22. Therefore means are provided on the die body member for locking the same in an adjusted position relative to thedie holder 22. This means includes an internally threaded, externally knurled locking ring orelement 28 which, as best seen in FIG. 2, may be tightened against the upper surface of thedie holder 22. This locking ring is also provided with a small threaded recess for threadedly accommodating aset screw 29 for locking the locking ring against displacement relative to the threadedportion 26 of the die body member.
An elongate hollow cartridgecase receiving member 30 is positioned within thedie body member 24 and has a uniformly cylindrically shaped external surface having a diameter approximating but slightly smaller than the internal diameter of thedie body member 24. Thus the cartridgecase receiving member 30 is capable of slight radial displacement relative to the diebody member 24. It will be noted that the receivingmember 30 while approximating the length of thedie body member 24 has a slightly greater linear dimension than the latter and is provided with an outturned annular flange orstop element 31 at its lower end which engages the corresponding lower end of the die body member and limits upward movement of the receiving member.
It will be seen that the receivingmember 30 also has a bore therethrough in which the major portion thereof is shaped to define a cartridge receiving recess orcavity 32 for very snugly seating a cartridge case C therein. The upper portion of the bore of the cartridgecase receiving member 30 is threaded as at 33, as best seen in FIG. 3, and this internal threaded portion of the receiving member 30' is of uniform diameter.
An elongate decapping and resizingunit 34 is connected to and projects through the cartridgecase receiving member 30. This decapping and resizingunit 34 includes an upper portion which is externally threaded as at 35 for threaded engagement with the threadedportion 33 of the receivingmember 30 and which terminates upwardly in an enlargedknurled turning head 36.
Although not shown in the drawing, the lower terminal end of the threadedportion 35 of theunit 34 has a downwardly or axially facing threaded recess therein for threadedly engaging the upper end of an elongate stem orrod 37 which has a threaded lower end 38. The
threaded lower end 38 ofrod 37 is also provided with a split or slotted socket which receives the upper end of anelongate decapping pin 39 which is also constructed of suitable hardened tempered steel. The lower end ofrod 37 has an elongatehollow expander member 40 detachably mounted thereon. This expander member is provided with a bore therethrough, the upper end of which is threaded and threadedly engages the lower threaded end 38 of therod 37 and serves to lock the decappingpin 39 to the lower end of therod 37. It will be noted that the lower end portion of the expander member is of reduced cross sectional configuration and terminates downwardly in a substantially conical surface 42 to facilitate entry thereof into the neck of the cartridge case to be resized.
Since the decapping and resizingunit 34 may be axially adjusted relative to the receivingmember 30, means are provided for locking theunit 34 in an axially adjusted position. To this end, an externally knurled internally threadedlocking ring member 43 threadedly engages the threadedportion 35 of theunit 34 and is tightened into engaging relation with respect to the upper end of thedie body member 24. When thelocking ring member 43 is tightened against the upper end of thedie body member 24, the stop element orflange 31 of the receivingmember 30 is urged into clamped relation against the lower end of thedie body member 24. Thus the decapping and resizingunit 34 as well as the cartridgecase receiving member 30 are clamped against axial movement relative to thedie body member 24 by the cooperative action of thelocking ring 43 and theflange 31.
During operation of the decapping and resizingtool 10, the tool will be first properly positioned upon thedie holder 22 of thetool press 11. Normally, the lower end of the decapping and resizing tool will be disposed closely adjacent the lower surface of thedie holder 22, as best seen in FIG. 2. A spent cartridge case C will be mounted in the shell or cartridge holder 20' of thetool press plunger 18 while the latter is in the lower or retracted position. Thereafter an operator will actuate theplunger 18 by the actuatinghandle 19 to cause upward or extensible movement of the plunger and the cartridge case will be inserted into the recess orcavity 32 of the receivingmember 30.
In some instances, the plunger may become axially disaligned with respect to the die holder recess or the decapping and resizingtool 10. When this condition occurs, the cartridge case C cannot be precisely seated in the cavity or recess of a conventional decapping and resizing tool. In conventional tools, the die body member thereof is constructed to define the cartridge case receiving recess and since the die body is rigid with the die holder, no radial adjustment of the tool can be produced. Therefore if the cartridge is mounted on a plunger which is disposed in disaligned relation with respect to the tool, seating of the cartridge case in the tool recess is sometimes diflicult or in some instances cannot be accomplished.
However, since the receivingmember 30 is capable of slight radial displacement, with respect to thedie body member 24, this receiving member is capable of a limited self aligning floating action with respect to the plunger mounted cartridge case so that very easy insertion of the cartridge case into the recess orcavity 32 may be readily accomplished. The cartridge case C will be urged into the recess and theexpander member 40 as Well as the decappingpin 39 will be inserted through the upwardly opening neck of the cartridge case. Additional upward movement of theplunger 18 causes the larger upper portion of theexpander member 40 to resize or expand the neck of the cartridge case While thepin 39 engages and removes the spent primer cap of the cartridge. Thereafter, theactuating handle 19 is oppositely swung to retract theplunger 18 and the resized and decapped cartridge C is removed from the cartridge or shell holder 20 and the next cartridge to be resized and decapped will be mounted upon the cartridge holder 20 and the operation repeated.
Thus it will be seen from the foregoing description that I have provided a novel and improved decapping and resizing tool including a receiving member mounted within but capable of radial floating movement relative to the die body member so that the cartridge receiving recess of the tool is capable of a self aligning floating action with respect to a plunger mounted cartridge case to be resized and decapped.
It will also be noted from the foregoing description that my novel decapping and resizing tool is arranged and constructed so that the cartridge case receiving member and the decapping and resizingunit 34 are also capable of relative adjustment with respect to the die body member but are also held against axial displacement from a pre-adjusted position relative to the die body member.
Thus it will be seen that I have provided a novel decapping and resizing tool which is not only of simple and inexpensive construction but which functions in a more efficient manner than any hereto-fore known comparable device.
It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the various parts without departing from the scope of my invention. What is claimed is: 1. A tool for resizing and decapping spent ammunition comprising an elongate normally vertically oriented body member having a substantially cylindrical bore extending axially therethrough and having means thereon to permit mounting thereof on a manually operable reloading tool press, an elongate hollow cartridge case receiving member having a substantially cylindrically shaped exterior surface and being positioned within the bore of said body member, and being capable of slight radial displacement relative to the axis of said body member, the interior of said receiving member having one end portion thereof shaped and contoured to receive a cartridge case in snug fitting relation therein,
means on the lower end of said case receiving member and engaging the adjacent end of said body member,
an elongate decapping and expanding unit projecting through said receiving member and having means thereon adjacent one end thereof releasably engaging cooperating attachment means on the adjacent upper end of said case receiving member,
and adjustable locking means on said unit engaging said body member and cooperating with said means on the lower end of said receiving member for clamping said unit and receiving member within said body member.
2. tool for resizing and decapping spent ammunition comprising an elongate normally vertically oriented body member having a substantially cylindrically shaped bore extending axially therethrough and having means thereon to permit mounting of said body member on a manually operable reloading tool press,
an elongate hollow cartridge case receiving member having a substantially cylindrically shaped exterior surface and being positioned within the bore of said body member, and being capable of slightly radial displacement relative to the axis of said body member, the interior of said receiving member being shaped and contoured to receive a cartridge case in snug fitting relation therein,
an outturned flange on the lower end of said receiving member engaging the adjacent end of said mounting member,
an elongate decapping and expanding unit projecting through said receiving member and having means thereon releasably engaging cooperating means on the upper end portion of said receiving member, and an adjustable lock ring on said unit being axially adjustable relative thereto and engaging said body member and cooperating with said flange on said receiving member for clamping said unit and receiving member Within said body member. 3. The tool as defined in claim 2 wherein said receiving member has a linear dimension slightly greater than the linear dimension of said body member.
4. A tool for resizing and decapping spent ammunition comprising an elongate body member having a substantially cylindrical bore extending axially therethrough and having means thereon to permit mounting thereof on a manually operable reloading tool press,
an elongate hollow cartridge case receiving member having a substantially cylindrically shaped smooth exterior surface and being positioned within the bore of said body member, said case receiving member having a longitudinal dimension at least as great as the longitudinal dimension of said body member, the interior of said case receiving member having one end portion thereof shaped and contoured to receive a cartridge case in snug fitting relation therein,
References Cited by the Examiner UNITED STATES PATENTS 1,864,880 6/1932 Zimmerman 86-23 2,700,915 2/1955 Pattison 86-43 X 2,741,148 4/1956 Thompson 8643 X 3,175,456 3/1965 Goodsell 8623 BENJAMIN A. BORCHELT, Primary Examiner.
R. V. LOTTMANN, P. A. SHANLEY,
Assistant Examiners.