WO1995024952A1 - Coin operated amusement device - Google Patents

Abstract

In a coin operated amusement device, an inclined track (23) is provided to receive a rolling object. A rotating wheel (33) is rotated at a constant low speed and defines payoff positions (38) distributed around the wheel. Payoffs to the player are provided when an object passes by the wheel in the track opposite a payoff position.

Description

COIN OPERATED AMUSEMENT DEVICE Background of the Invention

This invention relates to a gaming amusement device of a coin actuated type. Coin actuated gaming amusement devices come in many different forms. Most of the gaming devices operate on pure chance and involve very little, if any, skill on the part of the player. Moreover, the devices are complicated mechanically and are quite expensive to build and maintain.

Summary of the Invention

The coin actuated gaming device of the present invention is designed to reward the skill of the player and is relatively simple in design and, accordingly, is relatively inexpensive to manufacture.

In accordance with a first embodiment of the invention, one or two coins receiving slots are arranged to receive coins which are directed to an inclined track so that coins roll along the track toward a slowly rotating target in the form of a wheel which is arranged to rotate in a vertical plane. The track guides the rolling coin past the periphery of the rotating wheel. In a second embodiment, the insertion of a coin releases a number of balls which can then be delivered by a player down a track towards a target. The target wheel defines a plurality of payoff segments or positions of different values which are distributed around the circumference. The width of each payoff position varies inversely with a payoff value. Photodetectors are provided to detect whether a payoff position is opposite to the track when a coin or ball passes the periphery of the wheel. If the coin or ball passes the periphery of the wheel when a payoff position is opposite the track, the player is awarded in accordance with the value of the payoff position. The rotating wheel and payoff positions thereon are visible to the player, who uses his or her skill to try to time the release of the coin or ball into the opening relative to the position of the wheel so as to cause the coin to pass the periphery of the wheel opposite a payoff position on a wheel .

In accordance with the first embodiment of the invention, two coin receiving slots are provided which introduce coins onto separate tracks. The tracks, which are slightly inclined, merge into a single track. This arrangement enables a player to insert two coins very close in time to attempt to cause two coins rolling in the track to pass the periphery of the wheel very close together so as to increase the chances of at least one of the coins being opposite a payoff position.

In a second embodiment of the invention a coin inserted into the coin slot actuates a solenoid in a holding area which dispenses a predetermined number of balls to a player. Two openings in the front of the device allow a player to insert balls into the device and onto a track designed to receive the balls. The balls roll down the track towards the target in the same manner as the coins. The track can be constructed of either parallel walls or a recessed groove sized to receive the balls. Like the embodiment designed to receive coins, the track is also "Y shaped" and is designed to allow a player to release more than one ball at close intervals. The game can be played using one or both openings positioned on the front wall of the cabinet . The balls may be directed from the opening to the track through a simple baffle to the Y shaped track described above. The baffle prevents the ball from being introduced at too high a rate of speed and can be designed to reject balls which are not correctly sized. The balls roll down the track toward the rotating target, and when the balls are directly under the target, photoregisterε measure the relative position of the target to determine if the location correlates with a payoff position. A gravity feed ball collection and return system directs the balls back to a holding area. The balls are retained in the holding area and later dispensed in response to activation of a credit switch.

Brief Description of Drawings Fig. 1 is a perspective view partially broken away, schematically illustrating the first embodiment of the coin operated amusement device of the invention;

Fig. 2 is a perspective view, partially broken away, schematically illustrating the second embodiment of the invention.

Fig. 3 is a view in elevation of the back side of the wheel and optical detection system employed in the system of the invention; Fig. 4 is a block diagram illustrating the electronics of the system of the present invention;

Fig. 5 is a flow chart of the coin drop detection task employed in the system according to the first embodiment of the present invention; Fig. 6 is a flow chart of the bonus switch detection task employed in the system of the present invention;

Fig. 7 is a flow chart of the target payoff segment hit detection task employed in the system of the present invention.

Description of the Preferred Embodiments

As shown in the drawings and in particular Fig. 1, the gaming device of the present invention comprises a cabinet 11 having a transparent top wall 13 and a front wall 15 with two openings 17 and 19 to receive coins and a transparent front panel 20. Within the cabinet 11 is a flat planar panel 21 which is inclined so as to define a surface which is inclined downwardly extending from the front wall 15 to the back of the cabinet. A Y-branched track 23 is mounted on the inclined surface of the panel 21. The track has two branches 23a and 23b which extend to the front wall 15 to locations beneath the openings 17 and i9. The branches 23a and 23b join into a single trunk section 23c which extends to the back side of the inclined surface. In a first embodiment, the track 23 comprises two closely adjacent transparent parallel vertical walls 25 which have a vertical height about 3/4 of the height of a coin designed to be received in the track. The vertical height of the wall preferably should be less than the diameter of the coins to be received so that the top of coins rolling in the track 23 can be observed above the track through the top transparent top wall 13 and front panel 20. The spacing between the walls 25 should be small enough to maintain a coin received in the track on edge so that it will roll in the track and it should be large enough in the portions 23a and 23b to permit a coin rolling loosely on edge to freely roll in the track without substantial frictional interference from the walls 25. In the trunk section 23c, the walls should be separated by a sufficient distance to enable two coins to roll side by side through the track 23c without substantial friction interference from the walls for reasons to be explained below. This means that the walls of the trunk section 23c will be more widely spaced than in the branches 23a and 23b. Accordingly, if two coins roll down the track branches 23a and 23b and reach the junction between these tracks simultaneously, the coins will roll together side by side through the trunk section 23c of the track.

Consistent with the first embodiment, coins inserted into the openings 17 and 19 are received in coin acceptors 27 which are commercially available devices designed to detect spurious coins or slugs and to reject such spurious coins and only allow genuine coins to pass through the acceptors 27. A coin passing through the coin acceptor 27 will be ejected with a pr .determined velocity by the acceptor toward the track branch 23a or 23b. Below each coin acceptor 27 in each track branch 23a and 23b is a ramp 29 having a slightly concave surface and designed to receive a genuine coin ejected from the coin acceptor 27 toward the track and start the coin rolling in the coin track. The concave surfaces of the ramps 29 serve to eliminate coin bouncing in the track and tend to bring about a stabilized rolling motion of the coin in the track. A coin inserted into one of the branches 23a and 23b will roll down through the junction of the branches and into the trunk section 23c and then roll through the trunk section and out the back end of the trunk section 23c into a coin collector 30. At the back of the inclined panel 21 is a vertically oriented wheel 33 which is in the form of a solid disk and which has a front face 34 facing toward the front end of the cabinet to be at least partly visible by a player standing at the front end of the cabinet. The upper part of the wheel may be partly obscured by a vertical panel (not shown) extending up from the transparent top wall 13 in front of the wheel 33. The lower portion of the wheel is fully visible through the transparent wall 13 and the panel 20. The wheel 33 is rotated on its axis driven by a motor 35 through a gear reduction drive 37 so that the wheel rotates relatively slowly, preferably at a rate of 18 r.p.m. A plurality of payoff positions are distributed around the wheel 33 and these payoff positions are indicated by circles 38 marked on the front of the wheel . The value of each payoff position is indicated in the circle. These circles and their values are visible to the player standing at the front of the cabinet 11 as the wheel rotates .

Fig. 2 depicts a second embodiment of the invention in which balls instead of coins are rolled towards the target. Except for modifications to accommodate balls instead of coins, the embodiment of Fig. 2 is the same as that of Fig. 1. To initiate play of the game, a coin is inserted into the slot 73 and enters an acceptor (not shown) . Coin acceptors suitable for this task are commercially available and well known in the art. If the coin is genuine, the coin is retained and a credit switch 75 is energized which controls an object dispenser or ball release mechanism. The object dispenser, which may comprise a solenoid, is positioned in or adjacent to a holding area 85 located beneath the inclined surface 21. Upon actuation, the object dispenser will release from the holding area a predetermined number of balls. The balls, designed to be used in the game, are directed from the holding area to a dispensing tray 81 which is accessible to the player. When a player is ready, he or she inserts a ball through either openings 79a or 79b, or both. The openings 79a and 79b can be sized to specifically receive balls designed to be used in the game and balls having too large a diameter will not be accepted into the opening. From the opening, the balls are directed to a track 86 designed to receive the balls which further directs the balls towards the wheel. The track 86 is like the track 23 of the embodiment of Fig. 1 except that it is defined by more widely spread walls. The embodiment of Fig. 2 may be provided with an acceptor 83 to receive the balls and guide them to the track. The acceptor 83 serves to control the speed of the balls and can also be designed to prevent balls which do not meet certain specifications -- such as size or weight -- from being used in the device. Accordingly, the acceptor can reject those balls which are not genuine and direct them to the dispensing tray 81. From the acceptor the balls are directed to an inclined track 86 which slopes away from the front wall 15 of the cabinet. The walls of the track are spaced slightly larger than the diameter of the balls and have a height slightly less than the radius of the balls. The track ends beneath the target wheel . In operation of both embodiments, if a coin or ball passes beneath the wheel 33 while a payoff position is opposite the track 23, the occurrence will be detected as a hit and the device will dispense a number of tickets corresponding to the payoff value. Thus, if the payoff value is 5, the player will receive 5 tickets, and if the payoff value is 50, the player will receive 50 tickets. The payoff positions have different widths on the wheel 33 and the higher the value of a payoff position, the narrower the width of the payoff position so that it is much more difficult to obtain a hit on a higher valued position than a lower valued position.

In the second embodiment, after the balls pass beneath the wheel 33 they are directed to a holding area 85 located beneath the visible surface 21. The balls are directed to holding area 85 by a collection system 87 which feeds balls to the holding area by gravity. The collection system can comprise a second surface inclined towards the front wall 15 and a system of walls or barricades arranged to guide the balls to the desired location. The collection system 87 could alternatively be comprised of a second track which directs the balls to the holding area 85. Upon reception of a genuine coin and activation of the credit switch 75, the balls are disbursed to player from the holding area by activation of the object dispenser 92. The object dispenser 92, which may comprise a solenoid or gate, distributes the balls to the dispensing tray 81.

In both embodiments as shown in Figs. 1 and 2, a hit is detected by an optical sensing system including a detector 39 which detects when a coin or ball passes through the track underneath the wheel 33. Fig. 3 illustrates the assembly of the target wheel 33, the track 23, and the detector 39 from the back side of the wheel 33. The detector 39 comprises a source of infrared light 41, which shines an infrared beam across the track 23 beneath the wheel 33, and an infrared photodetector 43 positioned on the opposite side of the track 23 to receive the infrared beam from the source 41. A coin, ball or other object passing under the wheel is detected by the object interrupting the beam impinging upon the photodetector 43 and causing the photodetector 43 to produce an output pulse. The payoff position segments are established on the back face of the wheel 31 by dark segments 45 distributed around the wheel 31 and positioned opposite the payoff indicating circles 38 on the front face of the wheel 33. The background of the back face of the wheel 33 between the dark segments 45 is white or other highly light reflecting color or surface. The width of the segments 45 inversely correspond with the payoff value so that the smaller the payoff value, the wider the segment 45 and vice versa. In addition, a home position segment 47 is provided which is also dark on the light background of the wheel 33. The detector of the second embodiment is analogous to that depicted in Fig. 3 except the distance between the walls of the track is greater.

The optical sensing system for both embodiments also includes reflectivity detector 49 to detect the segments 45 and a reflectivity detector 51 to detect the home segment 47. The reflectivity detectors 49 and 51 shine infrared beams toward the back of the wheel 33 and contain a photodetector to detect infrared light reflected back from the back of the wheel. The detector 49 is positioned adjacent to the locus of the segments 45 so that each of the segments 45 will pass by the detector 49 to receive the infrared light beam from the photodetector 49. When the wheel 33 is positioned so that the detector 49 is opposite a space between segments 45, relatively high intensity infrared light will be reflected from the back of the wheel toward the detector 49 and when the detector 49 is opposite to a segment 45, because of the darkness of the segment 45, relatively low intensity infrared light will be reflected back toward the detector 49. The amplitude of the output signal of the detector 49 will thus indicate when a payoff segment 45 is opposite the detector 49. A hit is detected causing a payoff to occur when the pulse generated by an object interrupting the infrared beam from the source 41 to the photodetector 43 coincides with a segment 45 being opposite the detector 49 as indicated by a low amplitude of the output signal from the reflectivity detector 49. The reflectivity detector 51 senses the passing of the home segment 47 by the detector 51 in the same manner that the detector 49 senses the passing of the payoff segments 45.

As alternatives to a rotating wheel it is contemplated that the target may comprise a belt or conveyor system or a static structure which simulates the movement of payoff sections by the sequential display of illuminated elements.

As shown in Fig. 4, the output signals generated by the detector 39 and reflectivity detectors 49 and 51 are applied to a central processing unit 53 which has the task of determining that a pulse from the detector 39 is received at the same time that the output signal amplitude from the reflectivity detector 49 is low indicating that the detector 49 is opposite a payoff segment 45. When a hit is detected, the CPU 53 controls a ticket dispenser 55 to dispense the number of tickets corresponding to the value of the corresponding payoff position segment. The CPU 53 determines the value of the payoff by means of signals received from the home position reflectivity detector 51 combined with the signal received from the detector 49. To make this determination, the CPU in response to the signal received from the detector 49 counts each segment 45 as it reaches the detector 49. To make this count, the CPU responds to the negative going transitions of the wave form corresponding to the leading side of the segments 45 as they cross into the infrared beam generated by the detector 49. The waveform generated by the detector 49 in response to the payoff segments 45 will be a squarewave and the squarewave will have a negative going transition corresponding to the leading edge of each segment and will also have a positive going transition corresponding to the trailing edge of each segment. The CPU 53 maintains a wheel position count and increments the wheel position count in response to each positive transitions of the waveform from the detector 49. Alternatively, the CPU could respond to the positive transitions in the waveform to achieve the same result . In addition to incrementing the wheel position count maintained by the CPU 53, the CPU will also respond to the signal from the detector 51 to reset the wheel position count to zero each time the home segment 47 passes by the detector 51. Thus, a unique wheel position count will be generated by the CPU for each of the different segments 45. The CPU maintains a register of payoff values at addresses indexed by the different wheel position counts. When a hit is detected, the CPU reads out the value from the register corresponding to the current wheel position count maintained by the CPU and then uses this value to control the number of tickets dispensed by the ticket dispenser 55.

Also represented in Fig.^' 4 are additional tasks necessary to the embodiment of Fig. 2 of the invention, which may be controlled by the CPU. In the embodiment of Fig. 2, when a coin is accepted by the acceptor a credit switch is activated. In response to the credit switch, an object dispenser is directed to release a predetermined number of objects retained in the holding area. The CPU can also be designed to activate the electronic detection devices and motor in response to the credit switch.

The player uses his skill to obtain a payoff from the device by attempting to time the insertion of the coin, ball or other object into the openings on the front of panel 15 so as to cause the inserted object to roll past the target wheel 33 opposite a payoff position segment . By viewing the rotating wheel and by experience, the player can make an estimate of the correct time to insert the coin, ball or rolling object. To increase the chances of a payoff, the player can insert an object in both of the openings 17 and 19 to attempt to make the object reach the junction between the branches 23a and 23b near to the same time, but not at the same time, so that the objects roll through the trunk section 23c of the track in tandem and thus increase the chances of a payoff position segment being opposite the track when one of the objects rolls past the wheel 33.

In the preferred embodiment of the invention, when the CPU 53 detects a hit, the CPU deenergizes the motor 35 which automatically brakes to a stop, thus stopping the wheel 33 when a hit is made. After a time delay, the CPU 53 reenergizes the motor to start the wheel again. While the wheel is stopped, the CPU will not register any valid hits by objects passing through the detector 39 even through the wheel is stopped opposite a payoff position segment . Alternatively, the wheel could be rotated continuously with tickets being dispensed in response to each hit as the wheel continuously rotates.

In any of the contemplated embodiments, a bonus payoff feature can be provided wherein a bonus is awarded if the object scores a hit in a selected bonus payoff position or positions. The bonus awarded can be one or more free bonus plays. One manner of awarding a bonus can involve actuating a bonus button 57 on the front of the cabinet. In this arrangement, in response to the bonus button 57 being actuated, the roll of a coin on an object will be simulated by a bonus timer in the CPU. The bonus timer is designed to determine a time interval corresponding to the length of time it takes a coin or other object to roll through the track 23. A hit is determined in response to a bonus button actuation if the bonus timer times out while a payoff position is opposite to the track

23 as determined by the detector 49. In other words, if the detector 49 is producing a low output signal at the time that the bonus timer times out in response to a valid bonus button actuation, the player will be awarded with a hit as if he had inserted an object and obtained a hit. In an alternative embodiment, the player may be provided with an additional ball or balls which can be inserted onto the track in the conventional manner. In the bonus sequence which involves the distribution of additional playing balls, the object dispenser 39 is directed to release an additional ball or balls in response to the activation of the bonus switch.

Also, in the each of the embodiments, display lamps 58 are provided distributed along the track 23 or 86 extending along both the branches and the trunk section. When a coin is inserted into opening 17 or 19, or a ball through either opening 79a or 79b, an indicator switch in the coin acceptor 27 or the ball acceptor 83 is actuated indicating that an object has been inserted. If the wheel at this time is not rotating, the insertion of the object will start the wheel rotating. As an alternative to the embodiment of Fig. 2, activation of a credit switch 75 to release the balls to dispensing tray 81 can serve to actuate rotation of the target wheel. The actuation of an indicator switch starts roll timers in the CPU 53. The roll timers control sequential energization of the display lamps 58 so that they are energized in synchronism with an object rolling through the track. For example, the roll timers cause the display lamps 58 to be turned on at the same an object rolls by each display lamp. The player can see these display lamps being energized traveling down the track 23 or 83 in synchronism with the rolling object. This sequential energization of the display lamps thus makes the play more enjoyable by the player. The sequential energization of the display lamps 58 can also be effected in response to a bonus button actuation.

As described above, the operation of the device is controlled by a central processing unit 53, which has a multi-task operating system so that the central processing unit can perform several different tasks simultaneously. These tasks include a drop detection task which responds to an indicator switch being closed in response to an object being inserted into openings 17 or 19 or openings 79a or 79b, a bonus switch detection task, which responds to a bonus switch being actuated by the bonus button 57 when the player has been awarded the bonus and an object hit detecting task which functions to detect when a hit has occurred or, in the alternative, when a bonus hit has occurred and to cause the appropriate number of tickets to be dispensed to the player. In addition to the above tasks, which are performed on a time shared basis essentially simultaneously, the CPU also provides a wheel control function which keeps track of the position of the wheel by counting the payoff positions in the wheel position counter as they pass by the detector 49. The wheel position function is performed as an interrupt. Whenever the central processing unit receives a negative going transition from the detector 49 indicating that the leading edge of a payoff position has reached the spot opposite to track 23, the program task currently being executed by the CPU 53 will be interrupted and the wheel position counter will be incremented. Similarly, when the home position detector 51 detects that the home position has reached the spot opposite the track 23, the CPU in response to receiving this signal from the detector 51 will interrupt the task being performed and reset the wheel position counter to zero. In the embodiment of Fig. 2 of the invention the

CPU may also control the actuation of the credit switch upon receiving a signal from the coin acceptor that a coin that has been inserted is genuine. The credit switch in turn can activate the object dispenser located adjacent to or in holding area 85. In the embodiment of Fig. 2, the credit switch can also be designed to initiate the motor.

A block diagram illustrating the object drop detection task of the first embodiment is illustrated in Fig. 5. As shown in Fig. 5, the detection task waits in routine 61 for the switch actuation. When an object switch is actuated by the insertion of a coin into a opening 17 or 19, the detection task moves to step 63, in which the program selects a section of memory and tags the selected memory section as being active. Following step 63, the program advances to step 65 in which two roll timers in the selected memory section are activated. Following step 65, the program enters decision step 67 in which the program determines whether or not the motor 35 is on. If the motor is not on, the program branches to step 69 to start the motor. Following step 67 if the motor was on, or step 69 if the motor was off, the program enters routine 71 in which the program initiates the sequential energization and deenergization of the display lamps 58 distributed along the track 23. The CPU 53 will then control, the turning on of the display lamps 58 in accordance with the count in the first roll timer proceeding along the track from front to back so that the display lamps turn on in synchronism with the coin rolling down the track 23. The CPU 53 controls the extinguishment of the display lamps 53 behind a coin in accordance with the count in the second roll timer proceeding along the track 23 from front to back in synchronism with the coin rolling in the track 23, so that as the coin rolls through the track 23, the display lamps 58 will simulate a moving object moving with the coin along the track 23. The corresponding display lamps 58 on the two branches 23a and 23b of the track 23 are energized in parallel so that the simulated object moves along both branches 23a and 23b simultaneously. Following step 71, the task returns to routine 61 to await the next object switch actuation. It can be readily appreciated that the second embodiment would require the additional steps of energizing and actuating a credit switch after the coin switch actuation. Except for the differences in initiation of the sequence, the detection task of the embodiment depicted in Fig. 2 is the same as that described above. The embodiment of Fig. 2 may also incorporate an option to energize the motor upon actuation of the credit switch.

Fig. 6 is a flow chart illustrating the operation of the bonus switch detection task according to the first alternative. In this task, the program waits in routine 81 for the actuation of the bonus switch by pushing of the bonus button 57. When the bonus switch is actuated, if the player has been awarded a bonus, the task proceeds from routine 81 to the step 83 in which the program selects a memory section, tags the selected memory section as active and flags the selected memory section as being a bonus section. Following step 83, the task enters step 85 in which two bonus timers are started in the memory section selected in step 83. Following step 85, the program moves into decision step 87 in which the program determines whether or not the motor 35 is on. If the motor is not on, the program branches to step 89 in which the motor is started. From step 87 if the motor was on, or from step 89 if the motor was off, the program proceeds into routine 91, in which the sequential energization and deenergization of the display lamps 58 under the control of the bonus timers are initiated. The CPU then carries out the sequential energization and deenergization of the display lamps in accordance with the bonus timer counts in the same manner as described above in connection with roll timers. As a result, simulated motion by the display lamps 58 down the track 23 will occur. In this manner, when the player presses the bonus switch button after he has been awarded the bonus, he can observe the simulated motion in the display lamps distributed along the track 23 as if a coin were rolling down the track 23 and can observe when the simulated object motion reaches the wheel 33. Following step 91, the task returns to routine 81 to await the next bonus switch actuation. In the embodiment depicted in Fig. 2, an alternative bonus sequence can progress by providing the player with an additional ball or balls. In this alternative, when a player is awarded a bonus, the actuation of a bonus switch controls the release of an additional ball from the holding area.

Fig. 7 illustrates a flow chart for the object hit detection task. As shown in this flow chart, the program waits in step 101 for a signal from the photodetector 43 indicating that an object has rolled past the target wheel 33. When an object is detected in step 101, the object hit detection task moves into decision step 103, in which the program determines whether or not a payoff segment is hit by ascertaining whether or not the signal from the detector 49 is low. If the decision step 103 determines that the signal from the detector is not low, there is no payoff segment hit, and the program proceeds into task 105 in which the selected memory is tagged inactive and the program returns to step 101. On the other hand, if in step 103, the program determines that the output signal from the detector 49 is low, the task branches to step 107 in which the motor 35 is stopped, whereupon the task proceeds into routine 109. In routine 109, the program determines the payoff segment value by obtaining the count in the wheel position counter and then using this value to look up the value of the target segment hit stored in the memory. The program then proceeds into routine 111 in which the number of tickets corresponding to the value obtained in routine 109 are dispensed. Following the routine 111, the task proceeds into step 113 wherein the selected memory section is tagged inactive, whereupon the program proceeds into step 115 in which the wheel is restarted. The task then returns to routine 101.

In accordance with the bonus sequence involving a simulated coin or object roll, a bonus hit is detected by the object hit detection task in the following manner. If the selected memory section is flagged as a bonus section, the task will advance from the routine 101 to the decision step 103 when the first bonus timer times out. Then in the decision step 103, it will be determined whether or not the output from the detector 49 is high or low to determine whether a hit or miss has occurred at the time the first bonus timer times out just as if an object had caused the task to advance to the decision step 103. The task then proceeds through the remaining steps of the object hit detection task to effect a payoff of the ticket award when a bonus hit has occurred in the same manner as for the object hit as described above.

In addition to the above described tasks, the CPU 53 increments an object counter each time an object is detected passing the wheel by the detector 39 and at the same time, adds the roll time registered in the first roll timer to an accumulator in which the roll time is added to the sum of previously accumulated roll times. The roll times added together in the accumulator will each represent the actual time that it takes an object to roll through the track. The average roll time for an object is determined by dividing the sum of the accumulated roll times by the number of objects counted by the object counter. From this average, a time increment is determined to set the rate of sequencing of the display lamps 58 to be synchronized with an object rolling down the track 23 or 86. The time increment is computed by dividing the average roll time by a divisor corresponding to the length of the track. This divisor is approximately equal to the number of equally spaced display lamps distributed along one object roll path from the object switch through one of the branches and through the trunk section to the object detector 39. The CPU 53 energizes the next display lamp in the sequence proceeding along the track after expiration of this time increment following the energization of the previous display lamp in the sequence. The CPU also deenergized each display lamp after expiration of this time increment following the deenergization of the previous display lamp in the sequence. In this manner, the motion of the simulated object by the display lamps 58 corresponds with the actual average roll time of the objects. The average roll time is also used to determine the timing out of the first bonus timer so as to correspond with the actual average roll time of the objects.

If a selected memory section is active when a object switch or the bonus switch is actuated, the object drop detection task selects another memory section and tags it active so that more than one memory section can be selected and tagged as active while two or more objects are rolling in the track 23 or so that a bonus play may be carried out while one or more objects is simultaneously rolling in the track 23. The object hit detection task acts on the oldest active selected memory section so that the correct memory section gets tagged inactive and so that the correct roll time gets accumulated in the accumulator.

In the above described embodiments the player is awarded a payoff for her skill by receiving tickets and bonus play. Instead of rewarding the player's skill by tickets, the players could be rewarded by coins or cash automatically dispensed to the player.

The above description is of a preferred embodiment of the invention and modification may be made thereto without departing from the spirit and scope of the invention which is defined in the appended claims.

Claims

Claims We claim:

1. A coin operated amusement device comprising means defining a track to guide rolling objects in a predetermined path, target means which periodically position at predetermined time intervals a payoff segment at a location opposite to a distal end of said track means, detection means to determine when an object rolling in said distal end of said track means passes said target means opposite said payoff segment.

2. A coin operated amusement device comprising means defining a track to guide rolling objects in a predetermined path, a payoff wheel positioned opposite to said path and defining at least one payoff segment at an angular position on said wheel, means to rotate said wheel on the axis of said wheel, and detection means to determine when an object rolling in said path passes said wheel opposite said payoff segment .

3. The coin operated amusement device of claim 2 wherein said means defining a track comprise parallel walls and said rolling objects comprise coins.

4. A coin operated amusement device as recited in claim 1, further comprising, collection means wherein said collection means direct said rolling objects to a holding area and dispensing means wherein said objects are made accessible to a player from said holding area.

5. A coin operated amusement device as recited in claim 4, wherein said rolling objects comprise balls.

6. A coin operated amusement device as recited in claim 2, wherein said wheel defines a plurality of payoff segments distributed around said wheel and wherein said object detecting means detects when an ; object rolling in said path passes said wheel opposite one of said payoff positions.

7. A coin operated amusement device as recited in claim 1, further comprising value determining means wherein said payoff segments have different values and wherein said value determining means determines the value of the payoff segment opposite an object

> detected by said object detecting means.

8. A coin operated amusement device as recited in claim 7, further comprising means to dispense a payoff corresponding to the value determined by said value determining means.

9. A coin operated amusement device as recited in claim 8, wherein said dispensing means dispenses said payoff in the form of tickets.

10. A coin operated amusement device as recited in claim 2, wherein said means defining a track have at least two branches to receive rolling objects and a trunk section connected to said branches extending

> past said wheel whereby rolling objects received in any of said branches will roll through said trunk section past said wheel .

11. A coin operated amusement device as recited in claim 3, further comprising means to define a coin slot and means to accept coins received in said coin slots and to cause the received coins to roll in said

> track.

12. A coin operated amusement device as recited in claim 2, wherein said track means is inclined to cause said objects to roll through said track past said wheel by gravity.

13. A coin operated amusement device as recited in claim 2, wherein said track means is mounted in a cabinet, said cabinet defining an object receiving slot and having means to direct an object received in i said slot into said track, said cabinet having a transparent front wall so that objects rolling in said track are visible through said wall .

14. A coin operated amusement device as recited in claim 1, wherein payoff indicators are displayed on the front surface of said target means indicating the location of payoff segments on said target means and

• wherein said target means is positioned and located to be at least partly visible from the front side of said cabinet.

15. A coin operated amusement device as recited in claim 1, wherein said target means define a plane oriented substantially perpendicular to a plane defined by said track means wherein the players can see said payoff segments as they approach the distal end of said track means.