Coin processing machine

Abstract

A coin processing machine includes a coin support plate having a coin support surface defining a coin path extending from an intake location to a coin removal station. Depressions formed in the coin path reduce the likelihood of coins, particularly wet coins, from adhering to and stopping along the coin path.

Claims

1. A coin processing machine that reduces the likelihood of coin jams, comprising: a first coin removal station; a coin support plate comprising a coin support surface on an upper side of the coin support plate, the coin support surface defining a coin path on the coin support surface, the coin path extending from an intake location to the coin removal station, the intake location spaced from the coin removal station along the coin path; a drive member spaced from the coin support surface, the drive member and coin support surface being movable with respect to one another whereby relative movement between the drive member and coin support surface drives a coin on the coin path along the coin path when such coin is present on the coin path; and a plurality of empty depressions formed in the coin support surface, the depressions spaced apart from one another and located in the coin path between the intake location and the first coin removal station wherein coins sliding along the coin path on the coin from the intake location to the first coin removal station pass over some or all of the depressions without falling into the depressions, each depression comprising an open end at the coin support surface and extending into the coin support plate from the open end to a closed end.

2. The coin processing machine of claim 1 wherein the plurality of depressions comprises a plurality of concave surfaces spaced apart from one another.

3. The coin processing machine of claim 2 wherein each depression of the plurality of depressions has a diameter at the coin support surface of about one-quarter inch.

4. The coin processing machine of claim 2 wherein the coin path has a longitudinal direction extending from the intake location to the coin removal station and a width direction transverse to the longitudinal direction, the plurality of depressions spaced apart from one another along the longitudinal dimension and along the width dimension of the coin path.

5. The coin processing machine of claim 1 wherein the coin path has a longitudinal direction extending from the intake location to the coin removal station and a width direction transverse to the longitudinal direction, and the plurality of depressions comprise a plurality of elongate grooves extending in the longitudinal direction of the coin path, the grooves spaced apart from one another in the width direction of the coin path.

6. The coin processing machine of claim 1 wherein the coin path has a longitudinal direction extending from the intake location to the coin removal station and a width direction transverse to the longitudinal direction, and the plurality of depressions comprise a plurality of grooves extending in the transverse direction of the coin path, the grooves spaced apart from one another in the longitudinal direction of the coin path.

7. The coin processing machine of claim 1 wherein the coin processing machine is configured and disposed to process a first diameter coin denomination and a second diameter coin denomination, the second diameter being greater than the first diameter, and a first diameter coin slides on a first portion of the coin path when sliding from the intake location to the first coin removal station, wherein the depressions are located only in the first portion of the coin path.

8. The coin processing machine of claim 1 wherein the coin path extends in a downstream direction from the intake location, the coin processing machine comprises one or more additional coin removal stations spaced along the coin path, the coin path extends from the first coin removal station to the one or more additional coin removal stations, and the depressions are located only in the portion of the coin path extending from the intake location to the first coin removal station.

9. The coin processing machine of claim 1 wherein the coin path extends in a downstream direction from the intake location, and the coin processing machine comprises one or more additional coin removal stations spaced upstream along the coin path from the first coin removal station.

10. The coin processing machine of claim 1 wherein the first coin removal station comprises a through-hole opening from the coin support surface and through the coin support plate.

11. The coin processing machine of claim 1 wherein the first coin removal station comprises an abutment surface disposed generally perpendicular to the coin support surface.

12. The coin processing machine of claim 1 wherein the first coin removal station comprises a device actuatable to selectively block the coin path.

13. The coin processing machine of claim 1 wherein the coin processing machine is of the type capable of processing a smallest diameter coin having a diameter of 0.705 inches or greater, each depression having a width dimension at the coin support surface along the coin path of less than 0.705 inches.

14. The coin processing machine of claim 13 wherein the width dimension of each depression is less than 0.3525 inches.

15. The coin processing machine of claim 14 wherein the width dimension of each depression is not greater than 0.25 inches.

16. The coin processing machine of claim 1 wherein each depression has a width dimension at the coin support surface extending along the coin path of not greater than 0.25 inches.

Description

BRIEF SUMMARY OF THE DRAWINGS

(1) FIG. 1 is a top view of the coin support plate of a coin processing machine having a first type coin removal station and recesses on the coin path extending to the coin removal station;

(2) FIGS. 2 and 3 are top views of a portion of the coin support plate shown in FIG. 1 but with alternative recess geometries;

(3) FIG. 4 is a top view of a coin support plate similar to the coin support plate shown in FIG. 1 but having a number of second-type coin removal stations;

(4) FIG. 5 is a top view of a coin rail having a number of third-type coin removal stations and recesses on the coin path extending to the coin removal stations; and

(5) FIG. 6 is a top view of the coin sorting plate of a conventional coin processing machine.

DETAILED DESCRIPTION

(6) FIG. 1 illustrates a coin processing machine similar to the coin processing machine shown in FIG. 6 but modified in accordance with the present disclosure. Identical components are numbered with the same reference numbers. To simplify the drawing the wall 14 is not shown in FIG. 1.

(7) The coin processing machine shown in FIG. 1 is designed to process US denomination coins, including the penny, nickel, dime, quarter, and dollar coins. The coin processing machine has a coin support plate 10 that includes a number of closely spaced apart depressions 112 formed in the coin support surface 12. The depressions 112 are formed in the radially outer portion of the coin path 16 adjacent the wall 14. Coins sliding on the coin support surface 12 along the coin path 16 from the intake location 17 to the coin removal station 18 pass over and are not received into the depressions 112. Thus the depressions 112 do not apply forces to the coins that would otherwise change the nominal path of travel of coins along the coin path.

(8) In the illustrated embodiment the depressions 112 are disposed only in the portion of the coin path 16 covered by a US dime moving along the coin path against the peripheral wall 14.

(9) Each illustrated depression 112 is about one-quarter inch in diameter, about 0.050 inches deep, and are spaced apart about 0.050 inches from adjacent depressions 112. The size and spacing of the depressions 112 are selected such that a current series US dime (a dime having a nominal diameter of 0.705 inches) could completely or partially overlay more than one depression 112. The size, shape, depth, number, and spacing of the depressions 112 vary in other embodiments based on the size of the coins being sorted, the length of the coin path, the radial width of the coin path to include the depressions, location of coin sensors, and other design considerations.

(10) It has been found that modifying the coin plate 10 to include the depressions 112 greatly reduce the likelihood of a wet coin stopping on the coin support surface 12. It is theorized that reducing the surface area of the support plate in contact with the coin decreases the drag on the coin. Because dimes are most likely to cause jamming, providing depressions 112 covering only the portion of the coin support plate that will be moved over by dimes was found to be essentially as effective in reducing coin jams as would providing depressions 112 on the entire coin path. However, the depressions 112 could be formed on a greater or lesser portion of the coin path if desired.

(11) In alternative embodiments, the depressions 112 are replaced or formed by narrow, radially spaced arcuate grooves formed on the support surface 12, the grooves in a possible embodiment being concentric with the wall 14 or otherwise parallel with the coin path 16. See FIG. 2. Other groove or depression geometries and spacings could be used to reduce the instantaneous surface area of the support plate in contact with a coin on the coin path.

(12) In yet other possible embodiments, the grooves or depressions 112 could be formed as circumferentially spaced, radially-extending grooves. See FIG. 3.

(13) The distance between grooves or depressions 112 may be less than the width of the smallest diameter coin intended to be used with the coin processing machine. In other embodiments the distance between grooves or depressions 112 may be greater than the width of the smallest diameter coin intended to be processed by the coin processing machine—that is, the support surface 12 would support the entire coin for relatively short portions along the coin path 16. These full support portions are preferably too short for the drag on the wet coin to substantially slow sliding of the coin along the coin path.

(14) FIG. 4 schematically illustrates a coin support plate 10 like that shown in FIG. 2 that defines a coin path 16 (to simplify the drawing the coin path 16 is shown as extending along a straight line rather than a curved or arcuate line). The support plate 10 includes a first coin removal station 18a on the coin path 16 that removes dimes from the coin support plate 10 and downstream coin removal stations 18b-18e that remove pennies, nickels, quarters, and dollars respectively from the coin support plate 10. Each coin removal station 18 includes a recess 410 that receives the coin associated with the coin removal station, the recess 410 being defined at least in part by an abutment wall 412 that guides a coin in the recess 410 off the coin support plate 10. Such coin removal stations 18a-18e are disclosed in my U.S. Pat. No. 8,475,242 that issued Jul. 2, 2013, which patent is incorporated by reference herein and so will not be described in greater detail. The abutment wall 412 applies a force to a coin on the coin path that falls into the recess 410 that changes the path of the coin and forces the coin to move off the coin path. Larger-diameter coins move over the recesses 410 associated with smaller-diameter coin removal stations without being received within them.

(15) Thus the recesses 410 are sized to receive at least one denomination or diameter of coin of the coins for which the coin processing machine is intended to be used.

(16) The portion 16a of the coin path 16 extending from the intake location 17 to the dime removal station 18a includes the depressions 112 as shown in FIG. 2 (to simplify the drawing, the depressions are not shown in FIG. 4). Unlike the recess 410 at the dime removal station 18a, the depressions 112 as previously described are sized to not receive dimes within them and so do not affect the path of dimes moving along the coin path over the depressions 112.

(17) The portion 16b of the coin path 16 extending downstream from the dime removal station 18a does not include any depressions 112 in the support surface 10 between adjacent coin removal stations because dimes do not travel on that portion of the coin path.

(18) In other embodiments of the coin processing plate 10 shown in FIG. 5, depressions 112 are formed along the entire coin path 16 from the intake location 17 to the most downstream coin removal station 18, or are located between some, but not necessarily all, adjacent pairs of coin removal stations 18. The depressions 112 may be located in the portion of the coin path covered by the minimum-diameter coin traveling along that portion of the coin path, could be located in the portion of the coin path covered by the maximum diameter coin traveling along that portion of the coin path, or may be located in the portion of the coin path covered by an intermediate diameter coin traveling along that portion of the coin path.

(19) FIG. 5 schematically illustrates a coin rail 510 having a coin support surface 12 that defines a linear coin path 16 extending from an intake location 17. The coin path 16 extends along the left side of the coin rail 510 as viewed in FIG. 5. Spaced along the coin path 16 are coin removal stations 18a, 18b, 18c, 18d, 18e. Each coin removal station 18 is a device that is selectively actuated to rotate and present an abutment surface extending into the coin path to remove a coin passing the coin station from the coin rail 510. Selection, timing, and actuation of each coin removal station 18 to remove a coin from the coin rail is conventional and so will not be described in further detail.

(20) Each coin removal station 18 is associated with a respective denomination of coin. In this embodiment the dime removal station 18a is the most downstream coin removal station. There are depressions (not shown) like the depressions 112 formed in the coin support surface 12 like those described previously above along the coin path 16 from the intake location 17 to the dime removal station 18e to reduce the risk of wet dimes stopping along the coin path 16.

(21) The above embodiments are illustrated in part by a coin processing machine having drive fingers attached to the drive members to drive the coins on the coin support plate. Other ways of driving coins along a coin path are known and can be adapted for use with the drag reduction features described above.

(22) While this disclosure includes one or more illustrative embodiments described in detail, it is understood that the one or more embodiments are each capable of modification and that the scope of this disclosure is not limited to the precise details set forth herein but include such modifications that would be obvious to a person of ordinary skill in the relevant art and fall within the purview of the following claims.