Reloader with snap-in tools and quick release shell or shotshell holders

Abstract

To permit operators to change dies quickly and easily and to remove shot shells from any station, inspect them and replace them, bayonet snap in dies may be easily inserted into a tooling section of a reloader and shot shells can be removed from shell plates by pivoting the retainer free.

Description

BACKGROUND OF THE INVENTION

This invention relates to reloaders, and more particularly, to dies and shell or shotshell holders used in reloaders.

In one class of reloader, one or more shell holders mounted to a carriage are adapted to receive a corresponding number of casings. A plurality of tools is mounted opposite the shell holder. The reloaders for shot shells and for cartridges each have such arrangements although the shell holders and dies are different in a shot shell reloader from the shell holder and dies in a cartridge reloader. In a progressive reloader, the shells are moved from station to station while different tools operate on them to reprocess the casings for the shells and reload them. In a single stage reloader, one shell at a time is mounted in a station opposite to a tool holder to perform a loading function at that station and the shells are processed in a plurality of steps by changing tools.

In the prior art carriages for shells, the shells or cartridges are held in place on a shell plate by a retainer or a retainer spring or some other means for holding them securely during the reloading operation.

This type of shell holder has a disadvantage in that it is time consuming and difficult for the operator to remove a shell or cartridge and inspect it at any particular stage, such as for example to detect any difficulties that may have occurred or damage that may have occurred to a shell.

Dies must from time to time be removed and replaced with different dies. This can be a time consuming operation because the dies, particularly the dies for metal casing resizing, must be mounted firmly in place. In the prior art, they are generally threaded into a tool holder and held by a retainer ring that is tightened upon them. The prior art arrangements have a disadvantage because it is time consuming and tedious to change the dies.

SUMMARY OF THE INVENTION

Accordingly, it is an object of the invention to provide a novel reloading apparatus and technique.

It is a further object of the invention to provide a novel die for reloaders.

It is a still further object of the invention to provide a quick release connector to mount dies to a reloader.

It is a still further object of the invention to provide a method for quickly changing dies in a reloader.

It is a still further object of the invention to provide an easy to use shell holder that permits easy removal of the shells.

In accordance with the above and further objects of the invention, a two piece bayonet type tool mount fastens tools to the tool carriage of a shot shell reloader. An inner bayonet male piece holds the tool and enters the tool hole of the carriage from one side and a female socket piece of the two-piece bayonet type holder enters the hole from the other side to lock together. The two-piece mount is thus held firmly in place from the bottom and the top so it can be inserted and removed quickly with ease. In the preferred embodiment, the bayonet piece is the top piece. The bottom female piece may be threaded externally to engage the thread of a tapped hole in the loader for a firmer grip.

A shell holder includes pivotable retaining arms that hold the casings for the shells in place, and are in turn, held in place by another means such as a spring that biases the pivotable retaining arms closed. With this arrangement, during any stage of processing, a casing can be quickly and easily removed by pulling the pivotable retaining arms against the bias of the spring, inspected while free from the holder and then returned to the shell holder by pulling the pivotable retaining arms against the bias of the spring, inserting the shell into the holder and releasing the arms.

As can be understood from the above summary of the invention, the reloader of this invention has several advantages, such as for example: (1) it is relatively easy to insert and remove dies; (2) it is relatively easy to insert and remove shells; (3) it is inexpensive and simple to use.

SUMMARY OF THE DRAWINGS

The above noted and other features of the invention will be better understood from the following detailed description when considered with reference to the accompanying drawings in which:

FIG. 1 is a perspective view of a loader in accordance with an embodiment of the invention;

FIG. 2 is a plan view of a tooling section for the loader of FIG. 1 which may accommodate an embodiment of the invention; .pa

FIG. 3 is a sectional, exploded view of a quick change bayonet style die mount in accordance with an embodiment of the invention of FIGS. 1 and 2 ;

FIG. 4 is a plan view of a portion of the die mount of FIG. 3 ;

FIG. 5 is a plan view of still another portion of the die mount of FIG. 3 ;

FIG. 6 is a sectional view through the die mount of FIGS. 1-5 ;

FIG. 7 is an elevational view, partly broken away, of the female socket portion of another embodiment of die mount;

FIG. 8 in an elevational view of the male portion of the embodiment of die mount of FIG. 7 ;

FIG. 9 is a plan view of a shot shell loader platen in accordance with an embodiment of the invention;

FIG. 10 is a shell plate usable in a loader in accordance with an embodiment of the invention;

FIG. 11 is a simplified plan view of an arrangement of case retainers in accordance with an embodiment of the invention;

FIG. 12 is a plan view of a case retainer spring usable in a shot shell mount in accordance with an embodiment of the invention; .pa

FIG. 13 is a plan view of a case release cam for a shell holder in accordance with an embodiment of the invention; and

FIG. 14 is a plan view of a shell holder in accordance with an embodiment of the invention.

DETAILED DESCRIPTION

In FIG. 1 , there is shown a perspective view of a reloading apparatus 10 having a frame indicated generally at 12 , a drive means 14 , a turret section 16 , a refinishing and loading section 18 and a case ejector assembly 20 . The reloading apparatus 10 is a cartridge reloader which is one type of reloader that may incorporate the invention. However, while the preferred embodiment of quick release die mount is intended for metal casing bullet reloaders, the preferred embodiment of quick release shell holder is intended primarily for shot shell reloaders. The type of reloader incorporating the die mount and/or shell holder is not material to the invention.

The frame 12 of the reloader 10 is adapted to be mounted to a work bench or the like and to support in cooperative arrangement: (1) the drive means 14 mounted below the frame 12 ; (2) the turret section 16 mounted to the drive means 14 ; (3) the tooling and loading section 18 at the top of the frame 12 to cooperate with the turret section 16 ; and (4) the case ejector assembly 20 mounted on the frame 12 to cooperate with the turret section 16 and the frame 12 . A plurality of metallic shells are mounted on the turret section 16 .

To support the other parts of the reloading apparatus 10 , the frame 12 is generally formed as a closed square loop having: (1) a base 22 ; (2) a first upstanding column 24 on one side of the base 22 ; (3) a second vertical upstanding column 26 on the opposite side of the base 22 parallel to the first column 24 ; and (4) a top supporting member 28 parallel to the base 22 and adjoining the upper ends of the vertical parallel upstanding columns 24 and 26 .

To guide the turret section 16 , the base 22 of the frame 12 includes a cylindrical aperture passing through it to receive the top portion of the drive means 14 . To support the case ejection assembly 20 , the base 22 of the frame 12 includes a flat upper surface and a front vertical wall, with the case ejection assembly 20 generally bridging the turret section 16 and the base 22 to eject cartridges from the turret section 16 and collect them in a manner to be described hereinafter. The drive means 14 is pivotably mounted to a lower collar on the frame.

To mount the reloader to a bench or the like, the second vertical upstanding column 26 has a cross-section of an I-beam and a bottom mounting plate adapted to be clamped or bolted to the work bench. This frame is substantially the same as the frame disclosed in U.S. Pat. No. 4,526,084, granted Jul. 2, 1985, to David et al. and assigned to Hornady Manufacturing Company. The disclosure of the aforementioned patent is incorporated herein by reference to it as part of this disclosure.

To move the turret section 16 between the refinishing and loading section 18 and the base 22 , the drive means 14 includes a handle 30 , a rocker arm 32 , a yoke 34 and a pair of linkage arms 36 A and 36 B. The handle 30 is connected to the rocker arm 32 which in turn is mounted for movement within the yoke 34 and the linkage arms 36 A and 36 B.

To lower the turret section 16 when the handle 30 is in a substantially vertical position as shown in FIG. 1 , the linkage arms 36 A and 36 B connect the rocker arm 32 pivotably to the frame 12 and the rocker arm 32 is connected pivotably to the yoke 34 . The yoke 34 is connected at its top to the turret section 16 . To move the yoke 34 upwardly and thus drive the turret section 16 upwardly, the rocker arm 32 rotates about the linkage arms 36 A and 36 B when the handle 30 is pulled forward and down to a more horizontal position from that shown in FIG. 1 . The drive means 14 is substantially the same as that shown in the aforesaid patent to David et al. and to that used in the Pro-7 Progressive reloaders sold by Hornady Manufacturing Company, Box 1848, Grand Island, Nebr. 68801.

To progressively reload a plurality of shells, the turret section 16 includes a carriage 38 , a shell holder 40 and an advancing mechanism (not shown in FIG. 1 ) for moving the shell holder 40 . The shell holder 40 is shown supporting certain shell or cartridge casings in different stages of refinishing and reloading. The carriage 38 is connected to the yoke 34 to be raised and lowered thereby through the frame 12 and supports the shell holder 40 , with the advancing mechanism being within the carriage to move the cartridge casings from station to station during the reloading process.

The refinishing and loading section 18 rests upon the top supporting plate 28 and contains the tools to refinish casings, one of which is a sizing tool 41 shown in perspective and exploded in FIG. 1 . The tools are each mounted by a quick change bayonet mount to the supporting plate 28 . Beneath the top supporting plate 28 is the base 22 , supporting: (1) the case ejection assembly 20 to automatically eject cartridges; and (2) an automatic primer to prime the shells. The case ejection assembly 20 includes a cartridge catcher assembly 29 , a kicker assembly 31 , partly hidden in FIG. 1 and a cam 53 .

The sizing tool 41 is mounted to the supporting plate 28 by the top bayonet piece 72 A and washer 98 A which cooperate with a socket piece of the bayonet mount. The socket piece of the bayonet mount (not shown in FIG. 1 ) is beneath the supporting plate 28 and engages the top bayonet piece 72 A to hold the two together with the retaining ring or washer 98 A being compressed between the bayonet piece and the supporting plate 28 when the bayonet piece 72 A is snapped within the socket piece of the bayonet mount. The sizing tool 41 has external threads that engage internal threads in the top bayonet piece 72 A and has a retaining nut 43 which holds the sizing die to the bayonet mount. The other tools are mounted in a similar manner.

The turret section 16 includes a shell plate 40 having a plurality of case recepticals (FIG. 10 and FIG. 14 ) and case retainers. The case retainers are biased closed but may be easily opened to remove a case and inspect it. For this purpose, the case retainers include biased pivotable fingers to hold the recepticals closed but enable easy movement to manually open them to remove the case or to replace the case.

In FIG. 2 , there is shown a fragmentary top view of the reloading apparatus 10 , showing the refinishing and loading section 18 . A plurality of die mounts 80 A- 80 E are mounted at circumferentially spaced locations to holes in the top supporting member 28 so that as the carriage 38 ( FIG. 1 ) moves the shell support between the base 22 and the top supporting member 28 , the shells mounted thereon may be progressively acted upon, with each shell being moved one station at each operation to progressively perform the next operation on the next of the shells mounted within the shell holder 40 (FIG. 1 ).

The different stations are mounted to the top of the top supporting member 28 to cooperate with the shells in the shell holder 40 ( FIG. 1 ) and may for example include a sizing and depriming tool, a neck expanding tool, a powder charge supply station to supply powder after the shell has been formed, a bullet serrating and/or crimping tool and a taper crimping tool in the case of pistol bullets, each tool being mounted to a different one of the die mounts 80 A- 80 E. Beneath the top supporting member 28 (FIG. 1 ), there is a base 22 to mount the reloading apparatus 10 to an appropriate work bench.

The snap-on bayonet mount may be used on any tool mounting station and it may be used on other types of equipment besides that shown in FIG. 2 . The use of such tool station or stations is conventional and known in the art and other arrangements are known and may be used instead of the arrangement shown in FIG. 2 . Moreover, a single tool may be mounted in a single stage reloader for one step in the processing of a plurality of shells and then changed for the next step. In FIG. 2 , a single stamped metal wrench 82 is shown in either of its two positions for mounting or removing a tool.

In FIG. 3 , there is shown a sectional exploded view of a quick-change bayonet style die mount 80 A having a top bayonet piece 92 A, a bottom socket piece 94 A, and a washer 98 A. As shown in this view, the bottom socket piece 94 A fits into an opening 190 in the top supporting member 28 where it is engaged by the top bayonet piece 92 A. The top bayonet piece 92 A snaps in place within the bottom socket portion 94 A and is locked therein by twisting so that the top and bottom pieces are mounted securely to the top supporting member 28 . The wave washer retaining ring 98 A fits between the upper portion of the top bayonet portion 92 A and the top supporting member 28 . With this arrangement, a die may be mounted to extend through the opening 190 in the top supporting member 28 to engage casings below during operation of the reloader. In the preferred embodiment, the dies include external threads to engage internal threads in the top bayonet piece 92 A for mounting thereto.

To receive the bottom socket piece 94 A and the top bayonet piece 92 A of the die mount 80 A, the hole 190 extends through the horizontal top flat supporting member 28 and thus has a vertical longitudinal axis through the socket and bayonet. At the upper portion of the hole 190 there is a counterbore 132 within the supporting plate 28 and at the bottom portion of the hole 190 there is another counterbore 134 .

To mount to the top bayonet piece 92 A within the hole 190 of the supporting member 28 , the bottom socket piece 94 A of the quick-change bayonet mount 80 A includes a tubular outer wall 100 , an outwardly extending bottom flange 102 , five longitudinal radially-inwardly vertically-downwardly extending stems 104 A- 104 E ( 104 A and 104 B being shown in FIG. 3 ), five corresponding radially-inwardly circumferentially-extending detents 106 A- 106 E ( 106 A and 106 B being shown in FIG. 3 ) and five corresponding hook or latch members 108 A- 108 E ( 108 A and 108 B being shown in FIG. 3 ). The downwardly extending stems 104 A- 104 E are circumferentially spaced apart from each other and extend downwardly from the top of the tubular wall 100 to engage locking members of the upper bayonet piece 92 A. The engaging edges are more than half way down the axis of the tubular wall and form an inwardly extending detent 106 A into which a corresponding latch or hook member from the upper bayonet portion 92 A may fit to prevent upward or counter-clockwise movement of the top bayonet piece 92 A with respect to the bottom socket piece 94 A of the mount 80 A.

The radially outwardly extending bottom flange 102 fits within the bottom counterbore 134 of the top supporting member 28 to provide a flush bottom surface and resist upward movement of the die mount and the wave washer retaining ring 98 A fits within the counterbore 132 and resists movement in a clockwise or counter-clockwise direction when the two pieces of the bayonet type mount are snapped together. The dimensions of the two pieces, the counterbores and the washer are such as to tightly compress them when the bayonet members are locked in place with the detent of the upper piece 92 A fitting within the locking surfaces of the bottom piece 94 A.

To mount to the bottom socket piece 94 A within the opening 190 , the top bayonet member 92 A includes a cylindrical tubular wall 110 , five radially outwardly extending flange members 112 A- 112 E ( 112 A and 112 B being shown in FIG. 3 ), five flattened portions 114 A- 114 E ( 114 A being shown in FIG. 3 ) circumferentially spacing the radially outwardly extending flange members 112 A- 112 E, a plurality of downwardly extending stems 116 A- 116 E ( 116 B being shown in FIG. 3 ) ending in a corresponding plurality of hook members 118 A- 118 E ( 118 A being shown in FIG. 3 ) and an angular groove 120 separating the flange members 112 A- 112 E from the tubular wall 110 . The tubular wall 110 has an outer diameter that closely fits within the central opening of the tubular bottom piece 94 A and an upward flange that compresses the Smalley wave washer retaining rings 98 A downwardly in the counterbore 132 with the upward surface of the latch or hook members 118 A- 118 E being circumferentially spaced and fitting beneath and against the surfaces 108 A- 108 E of the detent members 106 A- 106 E of the bottom piece 94 A.

In FIG. 4 , there is shown a bottom view of the bottom piece 94 A showing the flange 102 and tubular wall 100 with the hook or latch members 108 A- 108 E and stems 104 A- 104 E circumferentially spaced from each other. In the preferred embodiment, the outer diameter of the tubular wall 100 is 1.147 inches. However, other diameters may be used and the detents may take other forms known in the art. Generally, instead of a horizontal circumferential hooking member, the stem may be terminated to mate with a detent not having a stem in the top portion and the socket portion may be held by internal threads in the hole 190 as best shown in FIG. 7 .

In FIG. 5 , there is shown a top view of the top bayonet member 92 A showing the outwardly extending flange portions 112 A- 112 E circumferentially spaced by the cut away flat portions 114 A- 114 E connected to serve as a lining means for the stems and hooks 116 A- 116 E and 118 A- 118 E. In the preferred embodiment, the flange members 112 A- 112 E are 0.125 inches in depth and the tubular wall 110 ( FIG. 3 ) is 1.150 inches in depth. The width of detent portions extends 11 degrees around the circumference and are separated by flat portions 49 degrees. The flange members 112 A- 112 E have an outer diameter of 1.365 inches.

In FIG. 6 , there is shown a sectional view of the quick change die mount 80 A assembled to the support member 28 illustrating the internal threads of the top bayonet portion 92 A that may be used to mount an externally threaded die to the upper bayonet portion 92 A and the manner in which the portion 92 A locks the hook or latch member 118 A beneath the detent 106 A of the bottom portion 94 A to lock the bayonet portions together. In the embodiment of FIG. 6 , the hook and detent members hold the two parts together quickly and easily. Flat portions 112 A- 112 E on the outer flange of the bayonet portion 92 A permit easy grasping by a wrench for loosening and tightening the bayonet portion with the tool. Thus, a die may be threaded into the top bayonet portion 92 A and snapped in place with the bayonet portion fitting within the bottom socket portion 94 A and the two locked together, or in the alternative, the quick release mount may be mounted in place and a die threaded and locked thereto in a manner similar to the previous connection of dies to a loader but permitting quick removal of the die for checking.

In FIG. 7 , there is shown an elevational view of another embodiment of a bottom portion or socket 95 A of the bayonet die mount 80 A. In this embodiment, external threads are provided to permit the socket 95 A to be threaded into a conventional loader. As shown in the broken away portion, the detent is a single, downwardly-extending rib or stem rather than the rectangular notch of the embodiment of FIGS. 3 and 6 to receive a hook or latch 119 A (FIG. 8 ).

In FIG. 8 , there is shown another embodiment of a top bayonet member 93 A which matches the bayonet member 92 A in the embodiment of FIG. 3 except that instead of a hook 118 A to engage the rectangular notch 106 A serving as a detent, the bayonet member 93 A includes a single parallelopiped shaped radially extending latch 119 A to slide beneath and engage a detent 107 A of the bottom socket 95 A. Similarly, there are four other latches 119 B- 119 E in the bayonet member 93 A ( 119 A, 119 B and 119 E being shown in FIG. 8 ), each of which engages a corresponding one of four other detents 107 B- 107 E of the socket 95 A ( 107 A and 107 B being shown in FIG. 7 ) to operate in the same manner as the mount of FIG. 3 . Also in the embodiments of FIGS. 7 and 8 , the outward flange is not circumferentially spaced by flat portions but does have wrench flats cut into it.

In FIG. 9 , there is shown a simplified plan view of a base or platen 22 including a flat support 91 and a carriage 38 . The carriage 38 is at the center of the support member 91 and includes three sections, a drive shaft 90 , a stationary cylinder 45 and a rotatable column 44 . The drive shaft 90 controls the position of the support member 91 and movement of the carriage 38 . The cylinder 45 remains stationary with respect to the flat support member 91 and is adapted to have mounted to it a case release cam to be described in connection with FIG. 13 and the rotatable column 44 carries the shell plate 40 ( FIG. 1 ) and rotates it circumferentially with respect to the stationary cylinder 45 .

In FIG. 10 , there is shown a plan view of a shell plate 40 adapted to be mounted to the rotatable column 44 ( FIG. 9 ) for movement therewith in a manner to be described more fully in connection with FIG. 14 . The shell plate 40 includes a central opening 140 , six case receptacles, 142 A- 142 F and a corresponding six pivot openings 148 A- 148 F. Each of the case receptacles 142 A- 142 F includes as its component parts a corresponding one of the curved contact portions 144 A- 144 F and arm portions 146 A- 146 F. The receptacles 142 A- 142 F are spaced circumferentially from each other about the central opening 140 so that the central opening 140 fits around the rotatable column 44 ( FIG. 9 ) for movement therewith and carries in a circular path the circumferentially spaced receptacles 142 A- 142 F.

The contact portions 144 A- 144 F are each mounted as a part of the receptacle opening to receive the shot shell cartridges and carry them with the shell plate in a circular path from station to station while the casings are reworked and filled with powder and shot in a manner known in the reloader art. The arm portions 146 A- 146 F extend radially outwardly to form a partial enclosure for the cases and thus hold the cases in position when case retainers to be described hereinafter close the receptacles. The openings 148 A- 148 F are adapted to receive these case retainers which pivot about with them as pivot points. For this purpose, the pivot openings 148 A- 148 F are circumferentially spaced from each other, intermediate the receptacles 142 A- 142 F with each of the pivot openings 148 A- 148 F being mounted in juxtaposition with a corresponding one of the receptacles 142 A- 142 F.

In FIG. 11 , there is shown an array 150 of case retainers, 150 A- 150 F, arranged as they would be positioned with respect to the shell plate 40 , each having a corresponding one of pivot points 152 A- 152 F which fits within a corresponding one of the openings 148 A- 148 F ( FIG. 10 ) of the shell plate 40 to cooperate with a corresponding one of the receptacles 142 A- 142 F ( FIG. 10 ) of the shell plate 40 .

Each case retainer, such as for example the case retainer 150 A, is identical to the others and includes in addition to a corresponding one of the pivot pins 152 A- 152 F, a corresponding one of case fingers 154 A- 154 F and a corresponding one of spring arms 158 A- 158 F. The corresponding ones of the case fingers and spring arms are mounted together to pivot about the corresponding pivot point so that movement of a spring arm moves its corresponding finger grip. Since each of the case retainers 150 A- 150 F are identical, the case retainer 150 A will be described in detail.

As shown in FIG. 11 , the case finger 154 A includes a finger grip 156 A mounted near its end to permit manual movement thereof to pull it free from a case so that the case may be inspected. It is connected at the pivot pin 152 A to the spring arm 158 A. The spring arm 158 A is a relatively straight elongated member. At the end of the spring arm 158 A is a spring post 160 A which receives a spring that biases the curved portion of the corresponding case finger 154 A against a case held within a corresponding receptacle 142 A ( FIG. 10 ) of the shell plate 40 . With this arrangement, each of the case retainers 150 A- 150 F includes a case finger 154 A- 154 F that holds a case in place except when pulled against the bias of the spring by the finger grip ( 156 A- 156 F) to release the case or when the case plate carries its receptacle to a location for ejection or removal of the shell under the control of a case release cam mounted to the stationary cylinder 45 ( FIG. 9 ) as will be described hereinafter.

In FIG. 12 , there is shown a plan view of a case retainer spring 170 forming a closed hexagonal shaped loop having six apexes or sharp corners 172 A- 172 F, each adapted to engage a corresponding one of the posts 160 A- 160 F (FIG. 11 ), with the post being within the loop 170 . The case retainer spring is of wire and is flexible so that any of the posts may move it when its corresponding finger grip 156 A- 156 F is pulled to release a shell for inspection. Four of the sides of the hexagon loop 170 are equal and two are longer, resulting in the apex 172 C extending further from the center of the hexagon than the other apexes 172 A, 172 B, 172 D, 172 E and 172 F. The apex 172 C is positioned at the station for ejecting or removing shells and for inserting new cases.

In FIG. 13 , there is shown a plan view of a case release cam 180 having four edges 182 - 186 and a flat top and bottom sides with an opening 190 passing between the top and bottom side to hold a spacer 192 on the bottom side. The spacer 192 slides with respect to the rotatable column 44 ( FIG. 9 ) and the curved edge 182 is adhered fixedly to the stationary cylinder 45 ( FIG. 9 ) so that the case release cam is stationary with respect to the support surface 91 ( FIG. 9 ) of the platen 22 and the case retainer spring 170 (FIG. 12 ). With this arrangement, the shell plate and case retainers orbit about it. The edges 184 , 186 and 188 serve as cam surfaces for the spring posts 160 A- 160 F to force them to move radially outwardly against the spring bias at the ejection station and permit ejection or replacement or addition of a casing at the apex 172 C of the case retainer spring 170 (FIG. 12 ).

In FIG. 14 , there is shown a plan view of the platen 22 of FIG. 9 , the shell plate 40 of FIG. 10 , the case retainers 150 A- 150 F of FIG. 11 , the case retainer spring 170 of FIG. 12 and the case release cam 180 of FIG. 13 mounted together in operating position. In operation, shells are held within the receptacles 142 A- 142 F and moved together with the rotatable column 44 and the shell plate 40 while being held in their corresponding receptacles by corresponding ones of the case retainers 150 A- 150 F.

However, when the case retainer posts 160 A- 160 F reach the apex 172 C of the case retainer spring 170 , the corresponding one of the case retainer posts 160 A- 160 F are moved radially outwardly along the edge 184 , pivoting the case retainer about its corresponding pivot point 152 A- 152 F to open the corresponding receptacle and permit ejection or removal of a shell or insertion of a new case for a shell. At each of the stations, operations are performed on the shell in a manner known in the reloader art. While in the preferred embodiment, the shell carrier is designed for shot shell reloading, a similar mechanism, although probably with only five receptacles, can be used for bullet shell reloading and any other suitable type of reloading or other operation. As can be understood from the above description, the die holder of this invention has several advantages, such as for example: (1) it permits fast and easy removal of dies or other tools; and (2) it avoids wear and tear on die mounts. The shell carrier of this invention also has several advantages such as for example: (1) it is relatively easy to remove a shell and inspect it by pulling on the hand grip of the shell retainer finger; and (2) there is less chance of complications when removing the shell such as a retainer spring that comes loose when being stretched since the retainer spring is on the inside of the carrier and may not be touched by the user.

While a preferred embodiment of the invention has been described with some particularity, many modifications and variations in the preferred embodiment are possible within the light of the above teachings. Therefore, it is to be understood that, within the scope of the apended claims, the invention may be practiced other than specifically described.

Claims

1. A tool mount for a reloader comprising:a first member; a second member; said second member being adapted to receive a tool for the reloader; said first member being adapted to be positioned in juxtaposition with a support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface adapted to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means adapted to connect said first member to the support plate of the reloader; and a third fastener means adapted to connect said second member to the tool.

2. A tool mount in accordance with claim 1 in which said first and second members have aligned central openings and said first fastener means connects the first member to the second member with the longitudinal axis of said central openings aligned.

3. A tool mount in accordance with claim 1 in which said first member fits at least partly within said second member.

4. A tool mount in accordance with claim 1 in which said first member includes external threads adapted to engage internal threads within an opening of said reloader.

5. A tool mount in accordance with claim 1 in which said second member is tubular and fits within said first member, said second member having internal threads adapted to receive external threads of the tool for the reloader.

6. A tool mount for a reloader comprising:a first member; a second member; said second member being adapted to receive a tool for the reloader; said first member being adapted to be positioned in juxtaposition with a support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface adapted to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means adapted to connect said first member to the support plate of the reloader; and a third fastener means adapted to connect said second member to the tool; each of said first and second members including a different larger radius means than the inner circumference of an opening in the reloader about which the tool mount is to be fastened.

7. A tool mount in accordance with claim 6 in which the second fastener means includes screw threads.

8. A tool mount in accordance with claim 6 in which the third fastener means has screw threads adapted to match screw threads on the tool.

9. The combination of a reloader having a support plate with an opening and a tool mount for the reloader comprising:a first member; a second member; said second member being adapted to receive a tool for the reloader; said first member being adapted to be positioned in juxtaposition with the support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface sized to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means for connecting said first member to the support plate of the reloader; and a third fastener means adapted to connect said second member to the tool.

10. The combination of claim 9 in which said first and second members have aligned central openings and said first fastener means connects the first member to the second member with the longitudinal axis of said central openings aligned.

11. The combination of claim 9 in which said first member fits at least partly within said second member.

12. The combination of claim 9 in which said first member includes external threads adapted to engage internal threads within an opening of said reloader.

13. The combination of claim 9 in which said second member is tubular and fits within said first member, said second member having internal threads adapted to receive external threads of the tool for the reloader.

14. The combination of a reloader having a support plate with an opening and a tool mount for the reloader comprising:a first member; a second member; said second member being adapted to receive a tool for the reloader; said first member being adapted to be positioned in juxtaposition with a support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface adapted to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means adapted to connect said first member to the support plate of the reloader; and a third fastener means for connecting said second member to the tool; each of said first and second members including a different larger radius means than the inner circumference of an opening in the reloader about which the tool mount is to be fastened.

15. The combination of claim 14 in which the second fastener means includes screw threads.

16. The combination of claim 14 in which the third fastener means has screw threads adapted to match screw threads on the tool.

17. The combination of a tool mount for a reloader and a tool for the reloader comprising:a first member; a second member; said second member being adapted to receive the tool for the reloader; said first member being adapted to be positioned in juxtaposition with a support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface adapted to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means adapted to connect said first member to the support plate of the reloader; and a third fastener means for connecting said second member to the tool.

18. The combination of claim 17 in which said first and second members have aligned central openings and said first fastener means connects the first member to the second member with the longitudinal axis of said central openings aligned.

19. The combination of claim 17 in which said first member fits at least partly within said second member.

20. The combination of claim 17 in which said first member includes external threads adapted to engage internal threads within an opening of said reloader.

21. The combination of claim 17 in which said second member is tubular and fits within said first member, said second member having internal threads sized to receive external threads of the tool for the reloader.

22. The combination of a tool mount for a reloader and a tool for the reloader comprising:a first member; a second member; said second member being adapted to receive the tool for the reloader; said first member being adapted to be positioned in juxtaposition with a support plate of the reloader; first fastener means for permitting easy connection of the first member to the second member; said second member fitting within said first member and said first fastener means including an inwardly extending abutment having a first engaging surface; said abutment extending radially inwardly; said second member including an abutment having an engaging surface adapted to mate with the engaging surface of the abutment of said fastener means; said abutment of said second member extending radially outwardly from said second member, wherein said first and second members are capable of locking together when said first and second members are rotated with respect to each other; a second fastener means adapted to connect said first member to the support plate of the reloader; and third fastener means for connecting said second member to the tool; each of said first and second members including a different larger radius means than the inner circumference of an opening in the reloader about which the tool mount is to be fastened.

23. The combination of claim 22 in which the second fastener means includes screw threads.

24. The combination of claim 23 in which the third fastener means has screw threads matching screw threads on the tool.