AU2003204698C1 - Device and method for continuously shuffling cards - Google Patents
Device and method for continuously shuffling cards Download PDFInfo
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- AU2003204698C1 AU2003204698C1 AU2003204698A AU2003204698A AU2003204698C1 AU 2003204698 C1 AU2003204698 C1 AU 2003204698C1 AU 2003204698 A AU2003204698 A AU 2003204698A AU 2003204698 A AU2003204698 A AU 2003204698A AU 2003204698 C1 AU2003204698 C1 AU 2003204698C1
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Abstract
The present invention provides an apparatus and a method for moving playing cards from a first group of cards into a second group of cards, wherein the second group of cards is randomly arranged or shuffled. The apparatus (21) comprises a card receiver (26) for receiving the first group of cards, a single stack of card-receiving compartments (28) generally adjacent to the card receiver, the stack generally vertically movable, an elevator (80, 82, 112) for moving the stack, a card-moving mechanism (30) between the card receiver and the stack for moving cards one at a time into a selected one of the compartments, another card moving mechanism (34) for moving cards from one of the compartments to a second card receiver (36) and a microprocessor (360) that controls the card moving mechanisms and the elevator.
Description
Regulation 3.2(2) AUSTRALIA Patents Act 1990 COMPLETE SPECIFICATION STANDARD PATENT Application Number: Lodged: Invention Title: DEVICE AND METHOD FOR CONTINUOUSLY SHUFFLING CARDS The following statement is a full description of this invention, including the best method of performing it known to us: I TITLE: DEVICE AND METHOD FOR CONTINUOUSLY SHUFFLING CARDS BACKGROUND 1. Field The present invention relates to devices for handling cards, including cards known as 6 "playing cards." In particular, it relates to an electromechanical machine for continuously shuffling playing cards, whereby a dealer has a substantially continuously readily available supply of shuffled cards for dealing. 2. Related Art Wagering games based on the outcome of randomly generated or selected symbols are 11 well known. Such games are widely played in gaming establishments and include card games wherein the symbols comprise familiar, common playing cards. Card games such as twenty-one or blackjack, poker and the like are excellent casino card games. Desirable attributes of casino card games are that they are exciting, that they can be learned and understood easily by players, and that they move or are played rapidly to their wager-resolving outcome. 16 From the perspective of players, the time the dealer must spend in shuffling diminishes the excitement of the game. From the perspective of casinos, shuffling time reduces the number of wagers placed and resolved in a given amount of time, thereby reducing revenue. Casinos would like to maximize the amount of revenue generated by a game without changing games, particularly a popular game, and without increasing the minimum size of wagers. One approach 21 to maximizing revenue is speeding play. It is widely know that playing time is diminished by shuffling and dealing. This approach has lead to the development of electromechanical or mechanical card shuffling devices. Such devices increase the speed of shuffling and dealing, thereby increasing playing time, adding to the excitement of a game by reducing the time the dealer or house has to spend in preparing to play the game. 26 U.S. Patent 4,515,367 (Howard) is an example of a batch-type shuffler. The Howard 2 patent discloses a card mixer for randomly interleaving cards including a carriage supported ejector for ejecting a group of cards (approximately two playing decks in number) which may then be removed manually from the shuffler or dropped automatically into a chute for delivery to a typical dealing shoe. U.S. Patent 5,275,411 (Breeding) discloses a machine for automatically shuffling a single 6 deck of cards including a deck receiving zone, a carriage section for separating a deck into two deck portions, a sloped mechanism positioned between adjacent corners of the deck portions, and an apparatus for snapping the cards over the sloped mechanism to interleave the cards. U.S. Patent 3,879,954 (Erickson et al.) discloses the concept of delivering cards one at a time, into one of a number vertically stacked card shuffling compartments. The Erickson patent 11 also discloses using a logic circuit to determine the sequence for determining the delivery location of a card, and that a card shuffler can be used to deal stacks of shuffled cards to a player. U.S. Patent 5,241,140 (Huen) discloses a card dispenser which dispenses or deals cards in four discrete directions onto a playing surface, and U.S. Patents 793,489 (Williams), 2,001,918 (Nevius), 2,043,343 (Warner) and 3,312,473 (Friedman et al.) disclose various card holders 16 some of which include recesses (e.g., Friedman et al.) to facilitate removal of cards. U.S. Patents 2,950,005 (MacDonald) and 3,690,670 (Cassady et al.) disclose card sorting devices which require specially marked cards, clearly undesirable for gaming and casino play. U.S. Patents 5,584,483 and 5,676,372 (Sines et al.) describe batch type shufflers which include a holder for an unshuffled stack of cards, a container for receiving shuffled cards, a 21 plurality of channels to guide the cards from the unshuffled stack into the container for receiving shuffled cards, and an ejector mounted adjacent to the unshuffled stack for reciprocating movement along the unshuffled stack. The position of the ejector is randomly selected. The ejector propels a plurality of cards simultaneously from a number of points along the unshuffled stack, through the channels, and into the container. A shuffled stack of cards is made available 3 to the dealer. U.S. Patent 5,695,189 (Breeding et al.) is directed to a shuffling machine for shuffling multiple decks of cards with three magazines wherein unshuffled are cut then shuffled. Aside from increasing speed and playing time, some shuffler designs have provided added protection to casinos. For example, one of the Breeding (U.S. Patent 5,275,411) shufflers 6 is capable of verifying that the total number of cards in the deck has not changed. If the wrong number of cards are counted, the dealer can call a misdeal and return bets to players. A number of shufflers have been developed which provide a continuous supply of shuffled cards to a player. This is in contrast to batch type shuffler designs of the type described above. The continuous shuffling feature not only speeds the game, but protects casinos against 11 players who may achieve higher than normal winnings by counting cards. An example of a card game in which a card counter may significantly increase the odds of winning by card counting is Blackjack. U.S. Patent 4,586,712 (Lorber et al.) discloses a continuous automatic shuffling apparatus designed to intermix multiple decks of cards under the programmed control of a 16 computer. The Lorber et al. apparatus is a carousel-type shuffler having a container, a storage device for storing shuffled playing cards, a removing device and an inserting device for intermixing the playing cards in the container, a dealing shoe and supplying means for supplying the shuffled playing cards from the storage device to the dealing shoe. The Samsel, Jr. patent (U.S. Patent 4,513,969) discloses a card shuffler having a housing with two wells for receiving 21 stacks of cards. A first extractor selects, removes and intermixes the bottommost card from each stack and delivers the intermixed cards to a storage compartment. A second extractor sequentially removes the bottommost card from the storage compartment and delivers it to a typical shoe from which the dealer may take it for presentation to the players. U.S. Patent 5,382,024 (Blaha) discloses a continuous shuffler having a unshuffled card 4 1 receiver, a shuffled card receiver adjacent to and mounted for relative motion with respect to the unshuffled card receiver. Cards are driven from the unshuffled card receiver and are driven into the shuffled card receiver forming a continuous supply of shuffled cards. However, the Blaha shuffler requires specially adapted cards, particularly, plastic cards, and many casinos have demonstrated a reluctance to use such cards. 6 U.S. Patent 5,000,453 (Stevens et al.) discloses an apparatus for automatically and continuously shuffling cards. The Stevens et al. machine includes three contiguous magazines with an elevatable platform in the center magazine only. Unshuffled cards are placed in the center magazine and the spitting rollers at the top of the magazine spit the cards randomly to the left and right magazines in a simultaneous cutting and shuffling step. The cards are moved back 11 into the center magazine by direct lateral movement of each shuffled stack, placing one stack on top of the other to stack all cards in a shuffled stack in the center magazine. The order of the cards in each stack does not change in moving from the right and left magazines into the center magazine. U.S. Patent 4,770,421 (Hoffman) discloses a continuous card shuffling device including a 16 card loading station with a conveyor belt. The belt moves the lowermost card in a stack onto a distribution elevator whereby a stack of cards is accumulated on the distribution elevator. Adjacent to the elevator is a vertical stack of mixing pockets. A microprocessor preprogrammed with a fixed number of distribution schedules is provided for distributing cards into a number of pockets. The microprocessor sends a sequence of signals to the elevator corresponding to 21- heights called out in the schedule. Single cards are moved into the respective pocket at that height. The distribution schedule is either randomly selected or schedules are executed in sequence. When the cards have been through a single distribution cycle, the cards are removed a stack at a time and loaded into a second elevator. The second elevator delivers cards to an output reservoir. Thus, the Hoffman patent requires a two step shuffle, i.e., a program is 5 1 required to select the order in which stacks are moved onto the second elevator. The Hoffman patent does not disclose randomly selecting a pocket for delivering each card. Nor does the patent disclose a single stage process which randomly arranges cards into a degree of randomness satisfactory to casinos and players. Although the Hoffman shuffler was commercialized, it never achieved a high degree of acceptance in the industry. Card counters 6 could successfully count cards shuffled in the device, and it was determined that the shuffling of the cards was not sufficiently random. U.S. Patent 5,683,085 (Johnson) describes a continuous shuffler which includes a chamber for supporting a main stack of cards, a loading station for holding a secondary stack of cards, a stack gripping separating mechanism for separating or cutting cards in the main stack to 11 create a space and a mechanism for moving cards from the secondary stack into the spaces created in the main stack. U.S. Patent 4,659,082 (Greenberg) discloses a carousel type card dispenser including a rotary carousel with a plurality of card compartments around its periphery. Cards are injected into the compartments from an input hopper and ejected from the carousel into an output hopper. 16 The rotation of the carousel is produced by a stepper motor with each step being equivalent to a compartment. In use, the carousel is rotated past n slots before stopping at the slot from which a card is to be ejected. The number n is determined in a random or near random fashion by a logic circuit. There are 216 compartments to provide for four decks and eight empty compartments when all the cards are inserted into compartments. An arrangement of card edge grasping drive 21 wheels are used to load and unload the compartments. U.S. Patent 5,356,145 (Verschoor) discloses another card shuffler involving a carousel or "rotatable plateau." The Verschoor shuffler has a feed compartment and two card shuffling compartments which each can be placed in first and second positions by virtue of a rotatable plateau on which the shuffling compartments are mounted. In use, once the two compartments 6 are filled, a drive roller above one of the shuffling compartments is actuated to feed cards to the other compartment or to a discharge means. An algorithm determines which card is supplied to the other compartment and which is fed to the discharge. The shuffler is continuous in the sense that each time a card is fed 5 to the discharge means, another card is moved from the feed compartment to one of the shuffling compartments. U.S. Patent 4,969,648 (Hollinger et al.) discloses an automatic card shuffler of the type that randomly extracts cards from two or more storage wells. The shuffler relies on a system of solenoids, wheels and belts to move cards. 10 Cards are selected from one of the two wells on a random basis so a deck of intermixed cards from the two wells is provided in a reservoir for the dealer. The patent is principally directed to a method and apparatus for detecting malfunctions in the shuffler, which at least tends to indicate that the Hollinger et al. shuffler may have some inherent deficiencies, such as "misalignments of 15 extraction mechanisms." The size of the buffer supply of shuffled cards in the known continuous shufflers is large, i.e., 40 or more cards in the case of the Blaha shuffler. Randomness is determined in part by the recurrence rate of a card previously played in the next consecutively dealt hand. The theoretical 20 recurrence rate for known continuous shufflers is believed to be about zero percent. A completely random shuffle would yield a 13.5% recurrence rate using four decks of cards. SUMMARY OF THE INVENTION Preferred embodiments of the present invention provides an 25 electromechanical card handling apparatus and method for continuously shuffling cards. The apparatus and, thus, the card handling method or process, is controlled by a programmable microprocessor and may be monitored by a plurality of sensors and limit switches. With the card handling apparatus and method of the present invention is 30 well suited for use in the gaming environment, particularly in casinos, the apparatus and method may find use in handling or sorting sheet material generally.
7 In one embodiment, the present invention provides an apparatus for moving playing cards from a first group of unshuffled cards into a shuffled group of cards. The apparatus comprises a card receiver for receiving the first group of cards, a single stack of card-receiving compartments generally adjacent to the 5 card receiver, the stack generally vertically movable, an elevator for raising and lowering the stack, a card-moving mechanism between the card receiver and the stack for moving cards, one at a time, for the card receiver to a selected compartment, and a microprocessor that controls the card-moving mechanism and the elevator so that the cards are moved into a number of randomly selected 10 compartments. Sensors monitor and trigger operation of the apparatus, including the microprocessor, card moving mechanisms, and the elevator. The controlling microprocessor, including software, selects or identifies where cards will go as to the selected slot or compartment before card handling operations begin. For example, a card designated as card 1 may be directed to slot 5, a card 15 designated as card 2 may be directed to slot 7, a card designated as card 3 may be directed to slot 3, etc. An advantage of the present invention is that it provides a programmable card handling machine with a display and appropriate inputs for controlling and adjusting the machine. Additionally, there may be an elevator speed adjustment 20 and sensor to adjust and monitor the position of the elevator as cards wear or become bowed or warped. These features also provide for interchangeability of the apparatus, meaning the same apparatus can be used for many different games and in different locations thereby reducing the number of back up machines or units required at a casino. Since it is customary in the industry to 25 provide free backup machines, a reduction in the number of backup machines needed presents a significant cost savings. The display may include a use rate and/or card count monitor and display for determining or monitoring the usage of the machine. Another advantage is that preferred embodiments of the present invention 30 provide an electromechanical playing card handling apparatus for automatically and randomly generating a continuous supply of shuffled playing cards for dealing. Other advantages are a reduction of dealer shuffling time, and a reduction or elimination of problems such as card counting, possible dealer 8 manipulation and card tracking, thereby increasing the integrity of a game and enhancing casino security. Yet another advantage of the card handling apparatus of the present invention is that it converts a single deck, multiple decks, any number of 5 unshuffled cards or large or small groups or discarded or played cards into shuffled cards ready for use or reuse in playing a game. To accomplish this, the apparatus includes a number of stacked or vertically oriented card receiving compartments one above another into which cards are inserted, one at a time, so a random group of cards is formed in each compartment and until all the cards 10 loaded into the apparatus are distributed to a compartment. Upon demand, either from the dealer or a card present sensor, or automatically, the apparatus delivers one or more groups of cards from the compartments into a dealing shoe for distribution to players by the dealer. The present invention may include jammed card detection and recovery 15 features, and may include recovery procedures operated and controlled by the microprocessor. Another advantage is that the apparatus of the present invention provides for the initial top feeding or loading of an unshuffled or discarded group of cards thereby facilitating use by the dealer. The shuffled card receiving shoe portion is 20 adapted to facilitate use by a dealer. An additional advantage of the card handling apparatus of the present invention is that it facilitates and speeds the play of casino wagering games, particularly those games wherein multiple decks of cards are used and popular, rapidly played games (such as twenty-one or blackjack), making the games more 25 exciting for players. In use, the apparatus of the present invention is operated to process playing cards from an initial, unshuffled new or played group of cards into a group of shuffled or reshuffled cards available to a dealer for distribution to players. The first step of this process is the dealer placing an initial group of cards, comprising 30 unshuffled or played cards, into the card receiver of the apparatus. The apparatus is started or starts automatically by sensing the presence of the cards and, under the control of the integral microprocessor, it transfers the initial group of cards, randomly, one at a time, into a plurality of compartments. Groups of 9 cards in one or more compartments are delivered, upon the dealer's demand or automatically, by the apparatus from that compartment to a card receiving shoe for the dealer to distribute to a player. According to preferred embodiments of the present invention, the 5 operation of the apparatus is continuous. That is, once the apparatus is turned on, any group of cards loaded into the card receiver will be entirely processed into one or more groups of random cards in the compartments. The software assigns an identity to each card and then directs each identified card to a randomly selected compartment by operating the elevator motor to position that randomly 10 selected compartment to receive the card. The cards are unloaded in groups from the compartments, a compartment at a time, as the need for cards is sensed by the apparatus. Thus, instead of stopping play to shuffle or reshuffle cards, a dealer always has shuffled cards available for distribution to players. The apparatus of the present invention is compact, easy to set up and 15 program and, once programmed, can be maintained effectively and efficiently by minimally trained personnel who cannot affect the randomness of the card delivery. This means that the machines are more reliable in the field. Service costs are reduced, as are assembly and set up costs. Other features and advantages of the present invention will become more 20 fully apparent 10 I and understood with reference to the following specification and to the appended drawings and claims. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front perspective view depicting the apparatus of the present invention as it might be disposed ready for use in a casino on a gaming table. 6 Figure 2 is a perspective view, partially broken away, depicting the rear of the apparatus of the present invention. Figure 3 is a front perspective view of the card handling apparatus of the present invention with portions of the exterior shroud removed. Figure 4 is a side elevation view of the present invention with the shroud and other 11 portions of the apparatus removed to show internal components. Figure 5 is a side elevation view, largely representational, of the transport mechanism and rack assembly of the apparatus of the present invention. Figure 5a is a side elevation view, drawn from area 5a in Figure 5, showing more detail of the rack assembly, particularly the shelves forming the top and bottom of the compartments of 16 the rack assembly. Figure 6 is an exploded assembly view of the transport mechanism shown in Figure 5. Figure 7 is a top plan view, partially in section, of the transport mechanism. Figure 8 is a top plan view of one embodiment of the pusher assembly of the present invention. 21 Figure 8a is a perspective view of another embodiment of the pusher assembly of the present invention. Figure 9 is a front elevation view of the rack and elevator assembly. Figure 10 is an exploded assembly view of one embodiment of a portion of the rack and elevator assembly.
11 Figure 11 depicts an alternative embodiment of the shelves or partitions for forming the stack of compartments of the present invention. Figure 12 is a simplified side elevation view, largely representational, of the card handler of the present invention. Figure 13 is a perspective view of a portion of the card handling apparatus of the present 6 invention, namely, the second card receiver at the front of the apparatus, with a cover portion of the shroud removed. Figure 14 is a schematic diagram of an electrical control system for one embodiment of the present invention. Figure 15 is a schematic diagram of the electrical control system. 11 Figure 16 is a schematic diagram of an electrical control system with an optically-isolated bus. Figure 17 is a detailed schematic diagram of a portion of Figure 16.
12 DETAILED DESCRIPTION This detailed description is intended to be read and understood in conjunction with appended Appendices A and B, which are incorporated herein by reference. Appendix A provides an identification key correlating the description and abbreviation of certain motors, 6 switches and photoeyes or sensors with reference character identifications of the same components in the Figures, and gives the manufacturers, addresses and model designations of certain components (motors; limit switches and sensors). Appendix B outlines steps in a homing sequence, part of one embodiment of the sequence of operations. With regard to means for fastening, mounting, attaching or connecting the components of 11 the present invention to form the apparatus as a whole, unless specifically described as otherwise, such means are intended to encompass conventional fasteners such as machine screws, rivets, nuts and bolts, toggles, pins and the like. Other fastening or attachment means appropriate for connecting components include adhesives, welding and soldering, the latter particularly with regard to the electrical system of the apparatus. 16 All components of the electrical system and wiring harness of the present invention are conventional, commercially available components unless otherwise indicated, including electrical components and circuitry, wires, fuses, soldered connections, chips, boards and control system components. Generally, unless specifically otherwise disclosed or taught, the materials for making the 21 various components of the present invention are selected from appropriate materials such as metal, metallic alloys, ceramics, plastics, fiberglass and the like, and components and materials may be similar to or adapted from components and material used to make the card handling apparatus disclosed and described in copending application Serial No. _ __, entitled "Device and Method For Forming Hands of Randomly Arranged Cards", filed on the same date 13 as the present application and incorporated herein by reference. In the following description, the Appendices and the claims, any references to the terms right and left, top and bottom, upper and lower and horizontal and vertical are to be read and understood with their conventional meanings and with reference to viewing the apparatus generally from the front as shown in Figure 1. 6 Referring then to the Figures, particularly Figures 1, 3 and 4, the card handling apparatus 21 of the present invention includes a card receiver 26 for receiving a group of cards to be randomized or shuffled, a single stack of card-receiving compartments 28 (see also Figures 4 and 9) generally adjacent to the card receiver 26, a card moving or transporting mechanism 30 (see Figures 3 and 4) between and linking the card receiver 26 and the compartments 28, and a 11 processing unit, indicated generally at 54 in Figure 3, that controls the apparatus 21. The apparatus 21 includes a second card mover 34 (see Figures 4, 8 and 8a) for emptying the compartments 28 into a second card receiver 36. Referring to Figures 1 and 2, the card handling apparatus 21 includes a removable, substantially continuous exterior housing shroud 40. The shroud 40 may be provided with 16 appropriate vents 42 for cooling. The card receiver or initial loading region, indicated generally at 26 is at the top, rear of the apparatus 21, and the second card receiver 36 is at the front of the apparatus 21. Controls and/or display features 32 are generally at the rear or dealer-facing end of the machine 21. Figure 2 provides a view of the rear of the apparatus 21 and more clearly shows the display and control inputs and outputs 32, including power input and communication 21 port 46. Figure 3 depicts the apparatus 21 with the shroud 40 removed, as it might be for servicing or programming, whereby internal components may be visualized. The apparatus includes a generally horizontal frame floor 50 for mounting and supporting operational components. A control (input and display) module 56 is cantilevered at the rear of the apparatus 14 1 21, and is operably connected to the operational portions of the apparatus 21 by suitable wiring or the like. The control module 56 may carry the microprocessor (not shown), or the microprocessor is preferably located on processing unit 54 on the frame 50 inside the shroud 40. The inputs and display portion 44 of the module 56 are fitted to corresponding openings in the shroud 40, with associated circuitry and programming inputs located securely with the shroud 40 6 when it is in place as shown in Figures 1 and 2. CARD RECEIVER Referring to Figures 3 and 4, the card receiver or loading region 26 includes a card receiving well 60. The well 60 is defined by upright, generally parallel card guiding side walls 62 and a rear wall 64. It includes a floor surface 66 pitched or angled downwardly toward the I I front of the apparatus 21. Preferably, the floor surface is pitched from the horizontal at an angle ranging from approximately five to twenty degrees, with a pitch of seven degrees being preferred. A removable, generally rectangular weight or block 68 is freely and slidably received in the well 60 for free forward and rearward movement along the floor surface 66. Under the influence of gravity, the block 68 will tend to move toward the forward end of the well 60. The 16 block 68 has an angled, card-contacting front face 70 for contacting the back (i.e., the bottom of the bottommost card) of a group of cards placed into the well, and urges cards (i.e., the top card of a group of cards) forward into contact with the card transporting mechanism 30. The card contacting face 70 of the block 68 is at an angle complimentary to the floor surface 66 of the well 60, for example, an angle of between approximately 10 and 80 degrees, and preferably at an 21 angle of 40 degrees. This angle and the weight of the block keep the cards urged forwardly against the transport mechanism 30. The selected angle of the floor 66 and the weight of the block 68 allow for the free floating rearward movement of the cards and the block 68 to compensate for the rearward force and movement generated as the top or forwardmost card contacts the transport mechanism 30 and begins to move. The well 60 includes a card present 15 sensor 74 to sense the presence or absence of cards in the well 60. Preferably, the block 68 is mounted on a roller 69 for easing the movement of the block 68, and/or the floor 66 and the bottom of the block may be formed of or coated with friction reducing material. As shown in Figure 6, the block 68 may have a thumb or finger receiving notch 71 to facilitate moving it. CARD RECEIVING COMPARTMENTS 6 The assembly or stack of card receiving compartments 28 is depicted in Figures 4, 9 and 10, and may also be referred to as a rack assembly. Referring back to Figure 3, the rack assembly 28 is housed in an elevator and rack assembly housing 78 generally adjacent to the well 60, but horizontally spaced therefrom. An elevator motor 80 is provided to position the rack assembly 28 vertically under control of a microprocessor, in one embodiment, generally part of 11 the processing unit 54. The motor 80 is linked to the rack assembly 28 by a timing belt 82. Referring to Figure 10, which depicts a portion of the rack assembly 28 and how it may be assembled, the rack assembly 28 includes a bottom plate 92, a left hand rack 94 carrying a plurality of half shelves 96, a right hand rack 98.including a plurality of half shelves 100 and a top plate 102. Together the right and left hand racks 94, 98 and their respective half shelves 96, 16 100 form the individual plate-like shelf pieces 104 for forming the top and bottom walls of the individual compartments 106. The rack assembly 28 is operably mounted to the apparatus 21 by a left side rack plate 106 and a linear guide 108. It is attached to the guide by a guide plate 110. The belt 82 links the motor 80 to a pulley 112 for driving the rack assembly 28 up and down. -A hall effect switch assembly 114 is provided to sense the bottom position of the rack assembly 28. 21 Figure 9 depicts a rack assembly 28 having 19 individual compartments 106 for receiving cards. Generally speaking, a larger number of individual compartments is preferred over fewer compartments, with 17 to 19 compartments being most preferred, but it should be understood that the present invention is not limited to a rack assembly of seventeen to nineteen compartments. Preferably, the compartments 106 are all substantially the same size, i.e., the 16 I shelves 104 are substantially equally vertically spaced from each other. Figure 7 shows, in part, a top plan view of one of the shelf members 104 and that each includes a pair of rear tabs 124 located at respective rear corners of the shelf member 104. The tabs 124 are for card guiding, and help make sure cards are moved from the transporting mechanism 30 into the rack assembly 28 without jamming by permitting the leading edge of the card to be guided downwardly into the 6 compartment 106 before the card is released from the card moving mechanism 30. Generally, it is desirable to mount the shelves as close to the transporting mechanism 30 as possible. Figure I1 depicts an alternative embodiment of plate-like shelf members 104 comprising a single-piece plate member 104'. An appropriate number of the single-piece plates, corresponding to the desired number of compartments 106 would be connected between the side I1 walls of the rack assembly 28. The plate 104' depicted in Figure I1 includes a curved or arcuate edge portion 126 on the rear edge 128 for removing cards or clearing jammed cards, and it includes the two bilateral tabs 124, also a feature of the shelf members 104 of the rack assembly 28 depicted in Figure 7. The tabs 124.act as card guides and permit the plate-like shelf members 104 forming the compartments 106 to be positioned as closely as possible to the card 16 transporting mechanism'30 to ensure that cards are delivered correctly into a compartment 106 even though they may be warped or bowed. Referring back to Figure 5, an advantage of the plates 104 (and/or the half plates 96, 100) forming the compartments 106 is depicted. As shown in more detail in Figure 5a, each plate 104 includes a beveled or angled underside rearmost surface 130 in the space between the shelves or 21 plates 104, i.e., in each compartment 106. Referring to Figure 5, the distance between the forward edge 134 of the plate 104 and the forward edge 132 of the bevel 130 is preferably less than the width of a typical card. The leading edge 136 of a card being driven into a compartment 106 hits the beveled surface 130 and falls down on the top of cards already in the compartment 106 so that it comes to rest properly in the compartment 106 or on the uppermost card of cards 17 already delivered to the compartment. To facilitate a bevel 130 at a suitable angle 137, a preferred thickness for the plate-like shelf members 104 is approximately 3/32 of an inch, but this thickness and/or the bevel angle can be changed or varied to accommodate different sizes of cards, such as poker and bridge cards. Preferably, the bevel angle 137 is between approximately ten and 45 degrees, and more preferably is between approximately fifteen and twenty degrees. 6 Whatever bevel angle and thickness is selected, it is preferred that cards should come to rest with their trailing edge at least even with and, preferably rearwardly of edge 132 of the plate-like shelf members 104. The front of the rack assembly 28 is closed by a removable cover 142, which may be formed of opaque, transparent or semi-transparent material such as suitable metal or plastic. II CARD MOVING MECHANISM Referring to Figures 4, 5 and 6, a preferred card transporting or moving mechanism 30 linking the card receiving well 60 and the compartments 106 of the rack assembly 28 includes a card pickup roller assembly 150. The card pick-up roller assembly 150 is located generally at the forward portion of the well 60. The pick-up roller assembly 150 may include friction rollers 16 15IA, 15IB (see also Figure 6) supported by a bearing mounted axle 152 extending generally across the well 60 whereby the card contacting surface of the roller is in close proximity to the forward portion of the floor surface 66. The roller assembly 150 is driven by a pick up motor 154 operably coupled to the axle 152 by a suitable continuous connector 156 such as a belt or chain. The card contacting surface of the roller may be generally smooth, it may be textured or it 21 may include one or more finger or tab-like extensions, as long as card gripping and moving is not impaired. With continued reference to Figures 4, 5 and 6, the preferred card moving mechanism 30 includes a pinch roller card accelerator or speed-up system 160 located adjacent to the front of the well 60 generally between the well 60 and the rack assembly 28 forwardly of the pick-up 18 roller assembly 150. As shown in Figure 7, it is the speed-up system 160 which nests close to the shelves 104 between the tabs 124 of the shelves. Referring back to Figures 4, 5 and 6, the speed-up system 160 comprises a pair of axle supported, closely adjacent speed-up rollers, one above the other, including a lower roller 162 and an upper roller 164. The upper roller 164 may be urged toward the lower roller 162 by a spring assembly 166 (Figure 4) or the roller 162 and 6 164 may be fixed in slight contact or near to contact and formed of a generally firm yet resilient material which gives just enough to admit a card. Referring to Figure 4, the lower roller 162 is a driven by a speed-up motor 166 operably linked to it by a suitable connector 168 such as a belt or a chain. The mounting for the speed-up rollers also supports a rearward card in sensor 172 and a forward card out sensor 176. Figure 5 is a largely representational view depicting the 11 relationship between the card receiving well 60 and the card transporting mechanism 30, and also shows a card "C" being picked up by the pickup roller assembly 150 and being moved into the pinch roller system 160 for acceleration into a compartment 104 of the rack assembly 28. In one embodiment, the pick-up roller assembly 150 is not continuously driven, but rather indexes and includes a one-way clutch mechanism. After initially picking up a card and 16 advancing it into the speed-up system 160, the pick-up roller motor 154 stops when the leading edge of a card hits the card out sensor 176, but the roller assembly 150 free-wheels as a card is accelerated from under it by the speed-up system 160. The speed-up pinch system 160 is continuous in operation once a cycle starts. When the trailing edge of the card passes the card out sensor 176, the rack assembly 28 moves the next designated compartment into place for 21 receiving a card. The pick up motor 154 then reactuates. Additional components and details of the transport mechanism 30 are depicted in Figure 6, an exploded assembly view thereof. In Figure 6 the inclined floor surface 66 of the well 60 is visible, as are the axle mounted pickup and pinch roller assemblies 150, 160, respectively, and their relative positions.
19 Referring to Figures 4 and 5, the transport assembly 30 includes a pair of generally rigid stopping plates including an upper stop plate and a lower stop plate 180, 182, respectively. The plates 180, 182 are fixedly positioned between the rack assembly 28 and the speed-up system 160 immediately forward of and above and below the pinch rollers 162, 164. The stop plates 180, 182 stop the cards from rebounding or bouncing rearwardly, back toward the pinch rollers, 6 after they are driven against and contact the cover at the front of the rack assembly 28. PROCESSING/CONTROL UNIT Figure 14 is a block diagram depicting an electrical control system which may be used in one embodiment of the present invention. The control system includes a controller 360, a bus 362, and a motor controller 364. Also represented in Figure 14 are inputs 366, outputs 368, and 11 a motor system 370. The controller 360 sends signals to both the motor controller 364 and the outputs 368 while monitoring the inputs 366. The motor controller 364 interprets signals received over the bus 362 from the controller 360. The motor system 370 is driven by the motor controller 364 in response to the commands from the controller 360. The controller 360 controls the state of the outputs 368 by sending appropriate signals over the bus 362. 16 In a preferred embodiment of the present invention, the motor system 370 comprises motors that are used for operating components of the card handling apparatus 21. Motors operate the pick-up roller, the pinch, speed-up rollers, the pusher and the elevator. The gate and stop may be operated by a motor, as well. In such an embodiment, the motor controller 364 would normally comprise one or two controllers and driver devices for each of the motor used. 21 However, other configurations are possible. The outputs 368 include, for example, alarm, start, and reset indicators and inputs and may also include signals that can be used to drive a display device (e.g., a LED display - not shown). Such a display device can be used to implement a timer, a card counter, or a cycle 20 counter. Generally, an appropriate display device can be configured and used to display any information worthy of display. The inputs 366 are information from the limit switches and sensors described above. The controller 360 receives the inputs 366 over the bus 362. Although the controller 360 can be any digital controller or microprocessor-based 6 system, in a preferred embodiment, the controller 360 comprises a processing unit 380 and a peripheral device 382 as shown in Figure 16. The processing unit 380 in the preferred embodiment may be an 8-bit single-chip microcomputer such as an 80C52 manufactured by the Intel Corporation of Santa Clara, California. The peripheral device 382 may be a field programmable micro controller peripheral device that includes programmable logic devices, 11 EPROMs, and input-output ports. As shown in Figure 15, peripheral device 382 interfaces the processing unit 380 to the bus 362. The series of instructions stored in the controller 360 is shown in Figure 15 and 16 as program logic. 384. In a preferred.embodiment, the program logic 384 is-RAM or ROM hardware in the peripheral device 382. (Since the processing unit 380 may have some memory 16 capacity, it is possible that some of the instructions are stored in the processing unit 380.) As one skilled in the art will recognize, various implementations of the program logic 384 are possible. The program logic 384 could be either hardware, software, or a combination of both. Hardware implementations might involve hardwired code or instructions stored in a ROM or RAM device. Software implementations would involve instructions stored on a magnetic, 21 optical, or other media that can be accessed by the processing unit 380. Under certain conditions, it is possible that a significant amount of electrostatic charge may build up in the card handler 21. Significant electrostatic discharge could affect the operation of the handler 21. It may, therefore, be helpful to isolate some of the circuitry of the 21 I control system from the rest of the machine. In one embodiment of the present invention, a number of optically-coupled isolators are used to act as a barrier to electrostatic discharge. As shown in Figure 16, a first group of circuitry 390 can be electrically isolated from a second group of circuitry 392 by using optically-coupled logic gates that have light-emitting diodes to optically (rather than electrically) transmit a digital signal, and photo detectors to 6 receive the optically transmitted data. An illustration of electrical isolation through the use of optically-coupled logic gates is shown in Figure 17, which shows a portion of Figure 16 in detail. Four Hewlett-Packard HCPL-2630 optocouplers (labeled 394, 396, 398 and 400) are used to provide an 8-bit isolated data path to the output devices 368. Each bit of data is represented by both an LED 402 and a photo detectors 404. The LEDs emit light when forward biased, and the 11 photo detectors detect the presence or absence of the light. Data is thus transmitted without an electrical connection. SECOND CARD MOVING MECHANISM Referring to Figures 4, 8 and 8a, .the apparatus 21 includes a second card moving mechanism 34 comprising a reciprocating card unloading pusher 190. The pusher 190 includes a 16 substantially flexible pusher arm 192 in the form of a rack having a plurality of linearly arranged apertures 194 along its length. The arm 192 is operably engaged with the teeth of a pinion gear 196 driven by an unloading motor 198 controlled by the microprocessor. At its leading or card contacting end, the pusher arm 192 includes a blunt, enlarged card-contacting head end portion 200. The end -portion 200 is greater in height than the spacing between the shelf members 104 21 forming the compartments 106 to make sure that all the cards contained in a compartment are contacted and pushed as it is operated, even bowed or warped cards, and includes a pair outstanding guide tabs 203 at each side of the head 200 for interacting with the second card receiver 36 for helping to insure that the cards are moved properly and without jamming from 22 1 the compartments 106 to the second card receiver 36. The second card moving mechanism 34 is operated periodically (upon demand) to empty stacks of cards from compartments, i.e., compartments which have received a complement of cards or a selectable minimum number of cards. SECOND CARD RECEIVER 6 When actuated, the second card moving mechanism 34 empties a compartment 106 by pushing cards therein into a second card receiver 36, which may take the form of a shoe-like receiver, of the apparatus 21. The second card receiver 36 is shown in Figures 1, 4, 14 and 16, among others. Referring to Figures 12 and 13, the second card receiver 36 includes a shoe-like terminal 11 end plate 204 and a card way, indicated generally at 206, extending generally between the rack assembly 28 and the terminal end plate 204. When a compartment 106 is aligned with the card way 206, as shown in Figure 12, the card way 206 may be thought of as continuous with the aligned compartment. Referring to Figure 4, an optional cover operating motor 208 is positioned generally under the card way 206 for raising and lowering a powered cover 142 if such a cover is 16 used. Referring back to Figures 4, 12 and 13, the card way 206 has a double curved, generally S-shaped'surface and comprises a pair of parallel card guiding rails 210, 212, each having one end adjacent to the rack assembly 28 and a second end adjacent to the terminal end 204. Each rail 210, 212 has a card receiving groove 213. A S-shaped card support 211 is positioned 21 between the rails 210, 212 for supporting the central portion of a card or group of cards as it moves down the card way 206. A pair of card biasing springs 215 are provided adjacent to the rails 210, 212 to urge the cards upwardly against the top of the grooves 213 to assist in keeping the all the cards in the group being moved into the second receiver 36 in contact with the pusher 23 1 190. The curves of the card way 206 help to guide and position cards for delivery between cards already delivered and the card pushing block 214, which is generally similar to the block 68. The second curve portion 207 in particular helps position and align the cards for delivery between cards already delivered and the card pushing block 214. The second card receiver 36 is generally hollow, defining a cavity for receiving cards and 6 for containing the mirror image rails 210, 212, the motor assembly 208 and a freely movable card pushing block 214. Referring to Figure 12, the block 214 has an angled, front card contacting face 216, the angle of which is generally complementary to the angle of the terminal end plate 204. The block 214 has a wheel or roller 218 for contacting the sloping or angled floor 220 of the second card receiver 36 whereby the block moves freely back and forth. The free 11 movement helps absorb or accommodate the force generated by the dealer's hand as he deals, i.e., the block 214 is free to bounce rearwardly. A suitable bounce limit means (such as a stop 221 mounted on the floor 220 or a resilient member, not shown) may be coupled near the block 214 to limit its rearward travel. Referring to Figure 4, a suitable receiver empty sensor 222 may be carried by the terminal plate 204 at a suitable location, and a card jammed sensor 224 may be 16 provided along the card way 206 adjacent to the guide rails 210, 212. The receiver empty sensor 222 is for sensing the presence or absence of cards. The sensor 223 senses the location of block 214 indicating the number of cards in the buffer, and may be operably linked to the microprocessor or directly to the pusher motor 198 for triggering the microprocessor to actuate the pusher 190 of the second transport assembly 34 to unload one or more groups of cards from 21 the compartments 106. As depicted in Figure 13, the terminal plate 204 may include or be adjacent to a sloped surface 204'. The sloped surface 204' has a raised portion closest to the terminal plate 204, and one or more suitable notches 205' may be provided for receiving a dealer's fingers and/or thumb 24 1 to facilitate dealing and to help preserve the flatness of the cards. The sloped surface 204', the terminal plate 204 and a removable card way cover 209 may be formed as a unit, or as separatable individual pieces for facilitating access to the inside of the second receiver 36. Figure 12 is a largely representational view depicting the apparatus 21 and the relationship of its components including the card receiver 26 for receiving a group of new or 6 played cards for being shuffled for play, including the well 60 and block 68, the rack assembly 28 and its single stack of card-receiving compartments 106, the card moving or transporting mechanism 30 between and linking the card receiver 26 and the rack assembly 28, the second card mover 190 for emptying the compartments 106 and the second receiver 36 for receiving randomized or shuffled cards. 11 OPERATION/ USE Appendix B outlines one embodiment of the operational steps or flow of the method and apparatus of the present invention. The start input is actuated and the apparatus 21 homes (see Appendix B). In use, played or new cards to be shuffled or reshuffled are loaded into the well 60 by moving the block 68 generally rearwardly or removing it. Cards are placed into the well 60 16 generally sideways, with the plane of the cards generally vertical, on one of the long side edges of the cards (see Figures 5 and 12). The blodk 68 is released or replaced to urge the cards into an angular position generally corresponding to the angle of the angled card contacting face of the block, and into contact with the pick-up roller assembly 150. As the cards are picked up, i.e., after the separation of a card from the remainder of the group of cards in the well 60 is started, a 21 card is accelerated by the speed-up system 160 and spit or moved through a horizontal opening between the plates 180, 182 and into a selected compartment 106. Substantially simultaneously, movement of subsequent cards is underway, with the rack assembly 28 position relative to the cards being delivered by the transport mechanism 30 being selected and timed by the 25 1 microprocessor whereby selected cards are delivered randomly to selected compartments until the cards in the well 60 are exhausted. In the unlikely event of a card jam during operation, for example, if one of the sensors is blocked or if the pusher hits or lodges against the rack assembly 28, the apparatus 21 may flow automatically or upon demand to a recovery routine which might include reversal of one or more motors such as the pick-up or speed-up motors, and/or 6 repositioning of the rack assembly 28 a small distance up or down. Upon demand from the receiver sensor 223, the microprocessor randomly selects the compartment 106 to be unloaded, and energizes the motor which causes the pusher 190 to unload the cards in one compartment 106 into the second card receiver 36. The pusher is triggered by the sensor 223 associated with the second receiver 36. It should be appreciated that 11 each cycle or operational sequence of the machine 21 transfers all of the cards placed in the well 60 each time, even if there are still cards in some compartments 106. In one embodiment, the apparatus 21 is programmed to substantially constantly maintain a "buffer" (see Figure 12 wherein the buffer is depicted at "B") of a selected number of cards, for example 20 cards, in the second receiver. A buffer of more or less cards may be selected. 16 In operation, when sensor 74 detects cards present, the entire stack of unshuffled cards in the card receiver 26 is delivered one by one to the card receiving compartments 106. A random number generator is utilized to select the compartment which will receive each individual card. The microprocessor is programmed to skip compartments that hold the minimum number of cards allowed by the program. At any time during the distribution sequence, the microprocessor 21 can be instructed to activate the unloading sequence. All compartments 106 are randomly selected. It is to be understood that because cards are being fed into and removed from the apparatus 21 on a fairly continuous basis, that the number of cards delivered into each 26 compartment 106 will vary. Preferably, the microprocessor is programmed to randomly select the compartment 106 to be unloaded when more cards are needed. Most preferably, the microprocessor is programmed to skip compartments 106 having seven or fewer cards to maintain reasonable shuffling speed. 6 It has been demonstrated that the apparatus of the present invention provides a recurrance rate of at least 4.3%, a significant improvement over known devices. In one exemplary embodiment, the continuous card shuffling apparatus 21 of the present invention may have the following specifications or attributes which may be taken into account when creating an operational program. 11 Machine Parameters - 4 Deck Model: 1. Number of compartments 106: variable between 13-19; 2. Maximum number of cards/compartment: variable between 10-14; 3. Initial number of cards in second card receiver: 20-24; 4. Theoretical capacity of the compartments: 147-266 cards (derived from the number of 16 compartments x the preferred maximum number of cards/compartment; 5. Number of cards in the second card receiver 36 to trigger unloading of a compartment: variable between 6-10; 6. Delivery of cards from a compartment 106 is not tied to a predetermined number of cards in a compartment (e.g., a compartment does not have to contain 14 cards to be unloaded). .21 The minimum number of cards to be unloaded may range from between 4 to 7 cards and it is preferred that no compartment 106 be completely full (i.e., unable to receive additional cards) at any time. In use, it is preferred that the apparatus 21 incorporates features, likely associated with 26 the microprocessor, for monitoring and recording the number of cards in each group of cards being moved into the second card receiver 36, the number of groups of cards moved, and the total number of cards moved (e.g., a use monitoring feature). In one embodiment, taking into account the above set forth apparatus attributes, the 31 apparatus 21 may follow the following sequence of operations: Filling the machine with cards: 1. The dealer loads the well-60 with pre-shuffled cards; 2. Upon actuation, the apparatus 21 randomly loads the compartments 106 with cards from 36 the well, one card at a time, picking cards from the top of the cards in the well; 3. When one of the compartments 106 receives a predetermined number of cards, unload 27 that compartnent 106 into the second card receiver 36; 4. Continue with #2. No compartment loading during second receiver loading.; 5. When a second compartment 106 receives a predetermined number of cards, unload that compartment 106 into the second card receiver 36, behind cards already delivered to the second receiver 36; 6 6. The dealer continues to load cards in the well 60 which are randomly placed into the compartments 106; and 7. Repeat this process until the initial number of cards in receiver 36 has been delivered. Continuous operation 11 1 The dealer begins dealing; 2. When the number of cards in the second card receiver 36 goes down to a predetermined number sensed by sensor 223, unload one group of cards from one of the compartments 106 (randomly selected); 3. As cards are collected from the table, the dealer loads cards into the receiver 60. These 16 cards are then randomly loaded into compartments 106. In case a compartment has received the maximum number of cards allowed by the program, if selected to receive another card, the program will skip that compartment and randomly select another compartment; and 4. Repeat #2 and #3 as play continues. It is preferable that the ratio of cards out or in play 21 to the total number of cards available should be low, for example approximately 24:208. Although a description of preferred embodiments has been presented, various changes including those mentioned above could be made without deviating from the spirit of the present invention. It is desired, therefore, that reference be made to the appended claims rather than to 26 the foregoing description to indicate the scope of the invention. Comprises/comprising and grammatical variations thereof when used in this specification are to be taken to specify the presence of stated features, integers, steps or components or groups thereof, but do not preclude the presence or addition of one or more other features, integers, steps, components or groups thereof.
28 Appendix A Motors, Switches and Sensors Item Name Description 6 1 ICPS Input Card Present Sensor 2 RCPS Rack Card Present Sensor 3 RHS Rack Home Switch 4 RPS Rack Position Sensor 5 UHS Unloader Home Switch 11 6 DPS Door Present Switch 7 RUTS Rack Unload Trigger Sensor 8 CIS Card In Sensor 9 COS Card Out Sensor 10 GUS Gate Up Switch 16 11 GDS Gate Down Switch 12 SWRTS Shoe Weight Release Trigger Sensor 13 SES Shoe Empty Sensor 14 SJS Shoe Jam Sensor 15 SS Start Switch 21 Name Description POM Pick-off Motor SUM Speed-up Motor RM Rack Motor 26 UM Unloader Motor SWM Shoe Weight Motor GM Gate Motor SSV Scroll Switch - Vertical SSH Scroll Switch - Horizontal 31 AL Alarm Light Display Noritake * CU20025ECPB - UU Power SupplyShindengen * ZB241R8 Linear GuideTHK * RSR12ZMUU + 145 M 36 Comm. PortDigi * HR021 - ND Power SwitchDigi * SW 323 - ND Power EntryBergquist * LT - 101 - 3P 29 Appendix B HoiingPower-up . - Unloader Home 6 2. Door Present 3. Gate Closed 4. Card Out Sensor (COS) Clear 5. Rack Empty and Home 6. Input Shoe Empty 16 7. Shoe Empty 8- Card in Sensor (CIS) Clear. Shoe Jam Sensor Clear 21
Claims (24)
1. An apparatu fr continuous shufflng playing cards, said apparatus including; a card receiver for receiving a first.group of cards; a single stack of card-receiving Wparrnents general adjacent the card receiver, said stack gnerally vedicalIy mORnvable, and means FMr moving the stack; a first card-movhig mechanism between the card receiver and the -stack; a piocessirig unit #hat contrals the rard-rnaving mechanism and the means for moving the stack so that cards placed in the- ard receiver are moved into a seLected number -of compartments; arnd a second card receiver for receivingcards from the compart ents, . The pppaus according to dlaim 1, further including a second card moving mechardam for emptying the compartments into the second card recseivr Z, The apparatus according to claim 1 or claim 2, further including.a card present sersor operably coupled to the second card receiver.
4. The apparatug according to claim .3, wherein cards are moved from the compartments into the second card receiver in.response to a reading 1romn the card. present sensor. 5, A cardIer Mcuding a ard staging area norreceiving cards to be handled; a :plutaity of cardraecevrng compartments said compartments being generally vertically stacked and the card staging area and the comipartmenig being relatively movable a card mover generady between the staging area and the compartments for moving a card from the staging. area into one of the compartments; 31 a rhicroprocessor progranirted to identify each catd in the cArdstaging -area and to actuate the card mover to move an identified card to a rndarmy selected domipartment, wherein the microprocessor is programrnab to delver a selected .number of cards to a compartment, :and a means response to the microprocessor for moving the compartments.
6. The card handler according to claim 6, further including inputs operabl'y :couphd to the microprocessor fot inputng inf:rmator into the micropocessor. 7, A p Laying rad. handler including a goneralfy vertically orientated stack of compartments for accumplating cards in at least on compartment; a microprocessor programmed to. randomly select the. cornpartmrent which receives each card in a manner sufficient to accompUish randomly :arrangjing the cards in each compadtmert, wherein the microprocessor is prograrnmabe to delleer a selected nu;ibes if cards tb a sesedetd tunber of compartm ents, a card staging area for receiving a stack of cards to be handled, wherein the stack of compartments is movable with respect to -the card. aging area; card moving means responsive to output signals from the microprocessor for moving between the staging area and the statk; of compartmnts; and a card mover for moving cards from the stack of compartments to a Second cad receiver 6. The handler according to ceain 7, further including a data stotagO. medium acessible by the microprocessor, wherein the data stOrage tmdiurm has a program stored: on it, and wherein the progran lis configured to cause the microprocessor to cause the ard moving meant to move cards komthe stagsig area to random conpatrmehai,
9. The handler according to claim :, wherein the second card receIer. 32 icudes acurved-card way. 10 The handler according to cIm 9, wherein thedsecond card receiver includes a card guidemeans adjacent to the card way. 11 The handler according to claim 10, wherein the guide means includes biasing means for urging cards into contact with the oand Way as the cards are moved from a compad0ment to the sEcond card receiver.
12. Thrkhandler accordingto claim 8frthor including moans for mcniforih:g, ric6rdirig -and displaying the use of the handler.
13. The handler acccrdig to. any one of claims A to 12,. further including at least one sensor for mnonitoring the movnent of cards.
14. The handler according to any one of claims B to 13, wherein the data storage medium is further -configured to cause the microprocessor to detect a card jam. 1:. A method of substantially continuously replenishing a group Of processed agrds, said method including the steps of: providing a first card receiver for receiving cards to be: processed; providing a single stack: of card-receiving compartments .generally adjacert to the first card receiver, said stack generally vertically movable, and means for moving the -stack; providing a cdarhcoving: n dchanism bctweeti the first card receiver and the stack, and moving cards from the first card receiver to the comnpartmen'ts; providing a second card receiver for receiving processed cards, and providing a second card moving mechanism for moving cards from the compartments to the second card receiver.
18. The method- according to claim 15, further -including providing a procnmssng aniftor controlling the card-moving mechanism and the moans for 33 Moving the stack o that cads .in the ffrt card receiver are Tied into random compartments, 1T The method according to. cair n1 further including using tho processing unit to designate each card and select a compartment for :receiving each designated card, .18. The method accordingg to dbii 17, Wherein the designation aihd selection is performed before card moving operations begins 19, A device: for dolHerfng cohtiiuoOsly shuffled dards including: : card recover for:recing at least one stack of anshuffied cards; a pluralty of individdal compartments which are each capable of reOcivfihg a group ofcards; ffirt means for moving each card in the stack individuay from the card Teceiver to one of the compartments; second means .for moving cards from one of the compartnenti to a delivery shoe upon demand; and a procesiing unit programied to controlthe mean for movrg each card, wherein the processing unit. randomly assigns each carcin the stack to a compartment, and controls the second means for moving cards from e f the: compartments to the delivery shoe upon demand, the deivery shoe enabbng the removal of individual -cads for dealog:, su thai as cards are removed from the delivery shoe, the second moving ridnsficr rnoving cards moves additional cards to the deivery shoe, so as to provide a substantially continuous supply of cards for dealing,
20. A method. of continuously fonning randomized cards inclUding the steps oK providing a group of unshufflod cards; providing a plurality of mixing compadtments which are each capable of receiving more than one card; randomly assigning each.car4in the group to one of the Qom p artm.ents, wherein each compsrtmsnt reocsves a prsdatermind numbartof cards; deliering each aard in the group to its assigned coipartment: and delivering cards in ore of the compartments to a delvery shoe which provides idividua[ cards for dealing, and as cards are removed from -the delivery shoe, delivering cards ftrom an additional one of said ompartments to the delivery shoe, so as to provide a substantially continuous supply of cards for dealing. :21 The. method according to claim 20, Wherein between seventeen and nineteen campartmernt are provided 22 The method according to claim 20, wherein the :group of cards is a dock :of cards sicele:ed from the group Cornistigri. of a standard 52 card deck, a standard deck with one or more wild cards, a standard deck with one or more.jokers, a special deck and a partial deck, :23. The method according toi claim 20, wherein every Oartinthe group is assigned to A compartment before the Tinst caid ls delivered. 24 The method according to claim 20, wherein nineteen compartments: are prnvidad.
25. An apparatus for continuously shuffling playing cards, said apparatus including: a first card receiver for receiving a first group of cards; a single stack of card-receiving compartments generally adjacent to the first card receiver, said stack. generary :vertically movable, wherein the. campartments translate substantially. vertically, and means for mroving the stack; a cardkmoving mechanism between the first card receiver and the ntack: a prooossing unit that controls the crdbmoving mccha:ism and tle means for rnvAn the aitak go that cards paced hi the firat: card receiver are :roved into selected cOmpartroents; a second.card receiver for receiving cards from. the compartments;and a second card-moving. mechanism between the compartments and the second card receiver for moving Oar frdom the orparments to the second card receive. 26, The apparatus according to claim 25 further .including a card present sensor operably coupled to the sedohd caird receieK
27. The apparatus according to claim 26, wherein cards are moved from thc compartments it the second uaid r eeiver in response to a reading orom the card present sensor. :28. A card handler includinT a card staging area for receiving cardslo be handled; a plurtyty of card-tpceiving compartmerds; said coripartrents .genersfly verticadly- stacked, the: staging eAre4 OWd the copartmehts being rolativety movable, wherein the compartments translate substantiany vertically: a ard rmdver generaty between the staging rea and the compartments for moving a card from- the staging -area into one: of the oompartrments; a incrop.rocessor programmed to identify each card in the staging area aid to actuate the dard mover: to move an identified card i a randonity telected oornpartment, wherein the microprocessor is programmable, to deliver a selected number of cards to a compartment and mpans respansivo to the microprocessor for moving the compartnients. 36 .29, Thu card handler according to clairm 28, further inchUding irputs operably -coupled to the microprocessor for inputting information intb the t icruprocessor. .30. A playing-card handler including: a generally vetticaly orientd &ack of compartmentsfor adcumutirg cards -in at least one compartment, wherein the compartments translate substantally vertiklly; a rncroproeisor pigagmmed to: rindorhily sekect the compartmnt which receives each card in :a. manner sufficient to accomplish randomly arranging the cards in each compartment, Waerenrf tihe microprocesor is programT1ablO t deliver a seectad number 6f cards to a seleted number:of compartments. a asrd staging area for rbeivirg a stack of cards to be: handled, wherein the stack of compartments. s rnovalae with respect to the carcl staging area; a first card mover responsive to output signals frorii the rrmpicroprocessor for moving cards between the staging area :and the stack of compartments; arid a second card mover for roving cards from the stack of oorpartmerds to a second card receiver 31, The apparatus according to claim 3O further including a data storage medium accessible by the microprocessor, wherein the data storage medium has a prograrr stored on it, and whereifn the prograis confiyured to cause the microprocessor to cause the card moving means to. move cards forn the staying area to random compartments. 2 The -apparatus according to claim 31, wherein the second:card receiver inOudes a curved card way. The- apparatus according to claim 32, wherein the second card receiver includes a card. guide mean adjacent to he card way,
34. The apparatus according to clanoi 33, whoroin the- guide means includes biasing means for urging cards into contact with the card way as the cards are moved from a compartment to the secbhd card receive
35. The apparatus according to any one of claims 30 to .34, further jnclUding means for moritoing, recording an~d disfayihg the use of the apparatus. ae. The apparatus of any one: of clms .30 to 35, further including at least one sensortfr monitoring the movement of cards.
37. The apparatus according to one of laim s 30 to 3, wherein the data storage medium s further configured to cause the microprocessor to detect a cardjamn. 3. A device: for delivering shuffled cards Including A first: card receiver forreeiving at least one tack of unshuffled cards; a plurality of individual compartments, where in the cormpartments move in translation, a first caid never for moving each card in the stack individually from the first card receiver to one of the compartments; a second card mover for moving cards from one of the compare menti to a secondcard remiver upon demand; and a processing unit programmed to control the first card mover. and the movement of the compartments, wherein the- processing unit random assigns each card in the stack to a compartment, and controls .the second .card mover.
39. Amethod.of forming randomized cards including; providing a group of unshuffled cards; providing a plurality of mixing compartment, whercif the uornpartments move in translation; iandrly .assgninq each card Inthe group to one of the compartments wherein each compartment receives a predetermined numberof cards; 38 deivering eaoh card in the group to its assigned compartment; and :deivering cards ir a compartment to a dealer vpon demand
40. The .method according to clain 3G, wherein between seventlcn and nineteen compartments are provided. 41, The method according to claim 39 or claim 40, where~n the group of cards is-a deck of cards selected from the uroup consisting of a Slandand 52 card deck,:a standard deck with one or rmoredld. cards, a standard deck with one or more jokers, a special deck and a partial deck.
42. The method according to any one .of claims 30 to 4, wherein every :card- in the grroup is: assigned to a compartmont before the first card is delivered.
43.. The method according. to claim 40, wherein nineteen compartments ac provided.
44. A card shuffling apparatus iricluding at least twotcard-receiving compartments, wherein each:cardareceiving compartment can receive more than one card; and a microprocessor programnmed to radomly select the compartment which receives each card, wherein the microprocessor control delyety of a selected number of cards to a selected number of compartments; a first card receiver for receding a group of cards; a first card moving mechanism, operably connected to: the microprocessor, for moving a card from the first: card receiver to :a selected compartment; and a compartment moving mechanism, operably connected to the microprocessor, for translating the compartments, 45, The pparatis -of ciairm 44, further including a secphd cardtceitr-fr receiving cards from the compartments- .39
46., The pparetus of dai 45, father including a second card mdOving mechanism, operably coriected to the microprocessor, for moving cards from a selkeled cOmpartment to the second card receiver. 47 A method for continuously shuffling cards with a card: shufflin.g apparat having a first card receiver a pkiraty- of card receiving compartments that translate and a second card receiver, the method including. placintgcards iti hb st craad receiver, selecting a card receiving compartment to receive a card; moving at least one card'ih the fitsf card receiver to the selected tonmpartmant; and unloading a compartment to the second card receiver when the compartment has received a predotermined number of cards.
48. A rack assembly for use in :an automatic: card shuffler; the. rack assembly including: at least two card receiving compartments, wherein each compartment has a top surface and a card supporin surface and can receive morr than one val wherein eadh card compartment comprises a plate member that includes a bevelled surface.
49. A device according L claim 19, wherein the stack of card corresponds to all of the cards required for a game a number of oards may be removed from the device, which number ia less than al the.cards in the stack, for use in a round of play of a game, and wherein after the round of play, the number of cards: are returned. -to the first card received, to be randomly signed to a compartment and moved by said first means into said stack, so that al. the 'alds niquirsd for the game are again avaIlable to be rnoevd by said suonrd means to said:dniivery shde upor deraid.
50. A.device according to caim 19 or 49 Wherein the cardsae randomly distributed uaing-a random number generator. 40: -51. A method according to any one of claims 20 to 24, wherein the group of cards corresponds to all the cds requited for a game, a nOrnbr of Cards :ay be removed frorn the seocwd -card receiver which number is less thar all the cards in the stuck for use in a round of piay ofa game, and wherein after the found of play, thO rIuibeir Of cards are -returned to be randomly assigned to :and received in a compartment, so that all the cards required for the game are: again available to be moved to said second card receive pon demand.
52. A method according -to any one of claims 20 to 24 or clim 51l wherein the etep of random ly asigning uses a random number generator.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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AU2003204698A AU2003204698C1 (en) | 1998-04-15 | 2003-06-13 | Device and method for continuously shuffling cards |
AU2006233163A AU2006233163C1 (en) | 2001-11-27 | 2006-10-24 | Device and method for continuously shuffling and monitoring cards |
AU2008203301A AU2008203301A1 (en) | 2001-11-27 | 2008-07-24 | Device and method for continuously shuffling and monitoring cards |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09060598 | 1998-04-15 | ||
AU36464/99A AU3646499A (en) | 1998-04-15 | 1999-04-15 | Device and method for continuously shuffling cards |
AU2003204698A AU2003204698C1 (en) | 1998-04-15 | 2003-06-13 | Device and method for continuously shuffling cards |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU36464/99A Division AU3646499A (en) | 1998-04-15 | 1999-04-15 | Device and method for continuously shuffling cards |
Related Child Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2006233163A Addition AU2006233163C1 (en) | 2001-11-27 | 2006-10-24 | Device and method for continuously shuffling and monitoring cards |
AU2008203301A Addition AU2008203301A1 (en) | 2001-11-27 | 2008-07-24 | Device and method for continuously shuffling and monitoring cards |
Publications (3)
Publication Number | Publication Date |
---|---|
AU2003204698A1 AU2003204698A1 (en) | 2003-07-17 |
AU2003204698B2 AU2003204698B2 (en) | 2007-03-15 |
AU2003204698C1 true AU2003204698C1 (en) | 2012-05-31 |
Family
ID=38134681
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU2003204698A Expired AU2003204698C1 (en) | 1998-04-15 | 2003-06-13 | Device and method for continuously shuffling cards |
Country Status (1)
Country | Link |
---|---|
AU (1) | AU2003204698C1 (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4586712A (en) * | 1982-09-14 | 1986-05-06 | Harold Lorber | Automatic shuffling apparatus |
US5605334A (en) * | 1995-04-11 | 1997-02-25 | Mccrea, Jr.; Charles H. | Secure multi-site progressive jackpot system for live card games |
-
2003
- 2003-06-13 AU AU2003204698A patent/AU2003204698C1/en not_active Expired
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4586712A (en) * | 1982-09-14 | 1986-05-06 | Harold Lorber | Automatic shuffling apparatus |
US5605334A (en) * | 1995-04-11 | 1997-02-25 | Mccrea, Jr.; Charles H. | Secure multi-site progressive jackpot system for live card games |
Also Published As
Publication number | Publication date |
---|---|
AU2003204698B2 (en) | 2007-03-15 |
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