- Slot Machine Electronic Cheat Devices
- Hacking Slot Machines With Battery
- Cheating Devices For Slot Machines
- Cheating Devices For Slot Machines
8 Liner Cheats: Do EMP jammers still work on these old-school machines?
'He says he has developed an anti-cheating device for slot machines,' Nevada Deputy Atty. Jennifer Carvalho testified. 'However, that device can be readily converted to a cheating. Carmichael was in the slot machine cheating business for over 20 years. 30 years ago, when Carmichael got started, the state-of-the-art slot machine cheating tool was a 'top-bottom joint', which is just a piece of metal that slides into the coin release slot. This triggers un-earned payouts in massive amounts—or at least it did in 1980. Cheating a slot machine through the power of random numbers. Using a cell phone app to exploit the PRNG in a slot machine lead to huge casino losses. Read more in this piece from Wired. Find many great new & used options and get the best deals for Slot Machine EMP Jammer Cheat Device Stopper Pot O Gold 8 Liner Cherry Master at the best online prices at.
Gambling machineshave evolved so much in over the last century, they are hardlyrecognizable compared to the original devices of the early 1900s.With each new development in technology, an equally wizeneddevelopment comes from the more duplicitous side of the tracks –the cheaters who aim to cheat gambling machines out of money.
The most famousslot machine cheating scandals took place in the 1970s and 1980s; thesame time period when mechanical reels were being swapped out for theelectronic variety. No doubt, it was a rash of suspected cheating onthose old mechanical games that led to the push for computerizedslots. Likewise, it was the infantile technology that went into theearliest digital slots that made them so easy to exploit.
Do Old School 8 Liner Cheats Still Work?
Since the turn of the century, it's become nearly impossible to cheat at slot machines. I say nearly, because there are still groups out there that manage to exploit games for smaller, virtually undetectable amounts of cash. But compared to the old-school cheating mechanisms like Carmichael's infamous 'monkey paw' and more recent 'EMP Jammers', the games have become far too advanced for all that.
Or have they?
Down south in theUS state of Texas there remain some very interesting machines knownas Eight-Liners. These aren't slot machines, exactly. Texas lawforbids slot machines and almost every other form of casino gambling.These 8-liners are legal, for the most part, so long as they followstrict payout rules.
What are Eight-Liners?
An 8-liner is agambling machine that takes its name from the way winningcombinations can be lined up. Much like a classic 3-reel slotmachine, it features a 3×3 grid of reel positions that revolvevertically when the spin button is pressed. A symbol will stop ineach position. If three matching symbols align in any of the 3horizontal, 3 vertical or 2 diagonal lines (8 lines in all, hence thename), the result is a win.
Players don'twin a multiplier of a monetary bet, though. Like I said, these aren'tslot machines, or gambling machines, for that matter. According toTexas state law, the prizes must be merchandise, not cash, and nosingle prize can be valued above $5.00.
That hardly makesit worth cheating 8-liners in the first place, unless you considerthe truth of the matter, which is that a significant portion of all8-liner gaming halls operate 'under the table', so to speak. Onthe surface, these gaming halls appear to be legitimate, but behindclosed doors, cash bets are taken and cash winning are paid. And whenthis happens, you can bet your bottom dollar someone is looking for away to cheat eight-liners.
Are EMP Jammers an Option?
An EMP jammer isa small device that creates a transient electromagnetic disturbance ,or electromagnetic pulse (EMP), that radiates outward. Any electronicdevice within close proximity will be disrupted (or jammed) by theEMP.
The theory isthat by using an EMP jammer, the player can disrupt the normaloperation of an 8-liner machine, causing it to trigger a payout evenwhen the correct symbols do not appear on the game's machine.According to some people I've spoken to, yes, an EMP jammer willstill work on old-school gaming machines. However, if there are nocoins in the hopper, you're not going to gain anything from it.
Inherent Danger from All Sides
More importantly, 8 liner cheats can get you in more trouble than meets the eye. First of all, as I stated above, these games are not legal if played for cash. If you find them available for cash in an illegal gaming hall, how much do you want to risk the operators of that establishment figuring out that you're cheating? These are criminals to begin with. If you think they'll let you go with a slap on the wrist and boot to the rear, think again.
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The present invention relates to anti-cheating devices for gaming machines. More particularly, but not by way of limitation, the present invention relates an anti-cheating device for a slot machine, or the like, which detects or prevents the entry of a cheating device.
Gaming machines such as slot machines, draw poker machines, bingo machines, and the like are prevalent in casinos around the world. Such machines deal primarily in cash, tend to accumulate rather large sums of cash before collections are made, and, since all of the money is not removed from a machine in service, theft is difficult to detect. Thus, these machines are prime targets for tampering.
The evolution of cheating devices has, thus far, kept pace with the evolution of gaming machines. Techniques and devices were developed for tampering with purely mechanical slot machines. Methods included the use of magnets, drilling or cutting holes in the enclosure of the machine, using counterfeit 'slugs', or even a coin on a string. As gaming machine manufacturers replaced mechanical assemblies with electronic alternatives, cheating devices were developed to cheat these machines as well. For example, a generation of gaming machines employed mechanical devices to time the reels but used electronic circuitry to pay-out coins. A known cheating device used on this generation of machine would provide a contact closure causing the circuitry to continuously activate the feeder motor. The user of such a device could simply operate the feeder motor until the coin hopper was empty.
Over the past several years, gaming machine manufacturers have replaced the vast majority of mechanical components employed in such machines with electronic circuitry. Programmable circuits, especially microprocessor devices, have allowed manufacturers to incorporate a number of anti-cheating devices and methods which deter such cheating. For example, modern slot machines include a coin comparator which compares the magnetic signature of an inserted coin against the signature of a reference coin. Access to the coin counter is gained only if the compare is successful. If there is not a match, the inserted coin is directed to the coin return and the machine does not give a credit for the deposited coin. Such devices are effective in preventing a person from using counterfeit coins or slugs. A further example of an existing anti-tampering device is the optical coin counter used in the majority of modem slot machines. This device provides three LED's which emit light across a coin path to three detectors. After a coin has been successfully compared, it falls through the coin path, sequentially disrupting the light striking the detectors. If a coin does not properly break the beams (e.g., traveling in the wrong direction through the coin counter as would a coin on a string), the counter produces an output which 'tilts' the slot machine thereby alerting casino workers and disabling the machine.
While these devices perform satisfactorily to prevent tampering in limited areas, they are wholly ineffective in discouraging cheating by the sophisticated thief using specially made cheating tools. Such tools are typically inserted either through the coin slot or through the coin chute and used to manipulate features internal to the gaming machine. For example, it is known that a tool may be formed from a thin elongated sheet of plastic which may be inserted in the coin slot. Without disclosing the mechanics of defeating the existing anti-cheating devices, it has been demonstrated that such a tool can be used to accumulate in excess of 40 credits per second on many slot machines. A user of such a tool can rapidly accumulate hundreds, or even thousands, of credits and then simply press the 'cash out' button to receive cash from the machine.
In another example of sophisticated cheating, a tool is inserted through the coin chute to temporarily disable the coin detector on the feeder which pays out a jackpot. Such feeders attempt to feed a coin until a coin is detected or for several seconds if no coin is detected. Thus, with such a tool in place, a user will receive several coins for each coin the machine attempts to payout. With a modem slot machine, a person can accumulate credits by simply inserting coins and then, with a cheating tool in place, press the 'cash out' button to receive several times the amount actually inserted in the machine. While most gaming machines are programmed to initiate a service call if too many consecutive attempts to feed a coin are unsuccessful, an experienced thief can receive as many as forty coins for each coin the machine attempts to pay out, without detection by the machine.
While a given cheating device may only be usable on a specific model of gaming machine, modifications may be made to create a similar tampering device for all known gaming machines. Thus, a thief armed with a relatively small assortment of tools can quickly cheat an array of machines, taking substantial amounts of cash in a relatively short period of time. Cheating tools tend to be relatively small and often formed mainly from transparent materials. An experienced thief can easily carry and use such tools with little risk of detection.
It is thus an object of the present invention to provide an anti-cheating device which prevents or detects the insertion of a cheating device through the coin slot of a gaming machine.
It is a further object of the present invention to provide an anti-cheating device for a gaming machine which prevents or detects the insertion of a cheating device through the coin chute.
It is still a further object of the present invention to provide an anti-cheating device for a gaming machine which may be easily incorporated into an existing machine.
The present invention provides an anti-cheating device for a gaming machine which satisfies the needs and alleviates the problems mentioned above. In a preferred embodiment, the anti-cheating device prevents or detects the insertion of a cheating device through the coin slot. Known cheating devices which successfully defeat both the coin comparator and the coin counter employ, by necessity, an elongated, substantially rigid foundation. Thus, the insertion of such a device may be prevented by providing a nonlinear coin path, or alternatively, such a device may be detected by sensing for the presence of such an elongated object in the coin path.
For the purposes of this invention, the terms 'anti-cheating' and 'anti-tampering' are used interchangeably as are the terms 'cheat' or 'cheating' and 'tamper' or 'tampering'. The terms 'cheat' or 'cheating' and 'tamper' or 'tampering' are in used reference to the manipulation of a gaming machine to cause the machine to pay-out money either when no money is due to be paid out or in excess amounts when the machine attempts to legitimately pay-out money. The terms 'anti-cheating' and 'anti-tampering' refer to devices or methods for preventing cheating or tampering.
In another preferred embodiment, the anti-cheating device detects the presence of a cheating tool inserted through the coin chute by providing an array of emitters and detectors about the coin chute. Disruption of an energy beam emitted by the emitters and normally striking the detectors will, based on the machine owner's preference, result in one or more of: a 'tilt' condition of the machine; an immediate flag of the machine for service; a disabling of the coin feeder; and/or an alarm. Sensing is automatically disabled as the machine properly feeds coins out the chute to avoid false indications of tampering.
Further objects, features, and advantages of the present invention will be apparent to those skilled in the art upon examining the accompanying drawings and upon reading the following description of the preferred embodiments.
FIG. 1 provides a front view of a gaming machine wherein a preferred embodiment inventive anti-cheating device is incorporated in its general environment.
FIG. 2 provides a front internal view of a gaming machine.
FIG. 3 provides a rear view of the door of a gaming machine having a coin handling assembly attached thereto.
The theory isthat by using an EMP jammer, the player can disrupt the normaloperation of an 8-liner machine, causing it to trigger a payout evenwhen the correct symbols do not appear on the game's machine.According to some people I've spoken to, yes, an EMP jammer willstill work on old-school gaming machines. However, if there are nocoins in the hopper, you're not going to gain anything from it.
Inherent Danger from All Sides
More importantly, 8 liner cheats can get you in more trouble than meets the eye. First of all, as I stated above, these games are not legal if played for cash. If you find them available for cash in an illegal gaming hall, how much do you want to risk the operators of that establishment figuring out that you're cheating? These are criminals to begin with. If you think they'll let you go with a slap on the wrist and boot to the rear, think again.
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Royal Vegas Canada has been our editor's #1 pick for three consecutive years ! Great compatibility of course (iphones, mobiles and tablets) but also an exciting range of games and promotions. Excellent support teams and quick cashouts… What else to ask for ?
Visit http://RoyalVegas.com
The present invention relates to anti-cheating devices for gaming machines. More particularly, but not by way of limitation, the present invention relates an anti-cheating device for a slot machine, or the like, which detects or prevents the entry of a cheating device.
Gaming machines such as slot machines, draw poker machines, bingo machines, and the like are prevalent in casinos around the world. Such machines deal primarily in cash, tend to accumulate rather large sums of cash before collections are made, and, since all of the money is not removed from a machine in service, theft is difficult to detect. Thus, these machines are prime targets for tampering.
The evolution of cheating devices has, thus far, kept pace with the evolution of gaming machines. Techniques and devices were developed for tampering with purely mechanical slot machines. Methods included the use of magnets, drilling or cutting holes in the enclosure of the machine, using counterfeit 'slugs', or even a coin on a string. As gaming machine manufacturers replaced mechanical assemblies with electronic alternatives, cheating devices were developed to cheat these machines as well. For example, a generation of gaming machines employed mechanical devices to time the reels but used electronic circuitry to pay-out coins. A known cheating device used on this generation of machine would provide a contact closure causing the circuitry to continuously activate the feeder motor. The user of such a device could simply operate the feeder motor until the coin hopper was empty.
Over the past several years, gaming machine manufacturers have replaced the vast majority of mechanical components employed in such machines with electronic circuitry. Programmable circuits, especially microprocessor devices, have allowed manufacturers to incorporate a number of anti-cheating devices and methods which deter such cheating. For example, modern slot machines include a coin comparator which compares the magnetic signature of an inserted coin against the signature of a reference coin. Access to the coin counter is gained only if the compare is successful. If there is not a match, the inserted coin is directed to the coin return and the machine does not give a credit for the deposited coin. Such devices are effective in preventing a person from using counterfeit coins or slugs. A further example of an existing anti-tampering device is the optical coin counter used in the majority of modem slot machines. This device provides three LED's which emit light across a coin path to three detectors. After a coin has been successfully compared, it falls through the coin path, sequentially disrupting the light striking the detectors. If a coin does not properly break the beams (e.g., traveling in the wrong direction through the coin counter as would a coin on a string), the counter produces an output which 'tilts' the slot machine thereby alerting casino workers and disabling the machine.
While these devices perform satisfactorily to prevent tampering in limited areas, they are wholly ineffective in discouraging cheating by the sophisticated thief using specially made cheating tools. Such tools are typically inserted either through the coin slot or through the coin chute and used to manipulate features internal to the gaming machine. For example, it is known that a tool may be formed from a thin elongated sheet of plastic which may be inserted in the coin slot. Without disclosing the mechanics of defeating the existing anti-cheating devices, it has been demonstrated that such a tool can be used to accumulate in excess of 40 credits per second on many slot machines. A user of such a tool can rapidly accumulate hundreds, or even thousands, of credits and then simply press the 'cash out' button to receive cash from the machine.
In another example of sophisticated cheating, a tool is inserted through the coin chute to temporarily disable the coin detector on the feeder which pays out a jackpot. Such feeders attempt to feed a coin until a coin is detected or for several seconds if no coin is detected. Thus, with such a tool in place, a user will receive several coins for each coin the machine attempts to payout. With a modem slot machine, a person can accumulate credits by simply inserting coins and then, with a cheating tool in place, press the 'cash out' button to receive several times the amount actually inserted in the machine. While most gaming machines are programmed to initiate a service call if too many consecutive attempts to feed a coin are unsuccessful, an experienced thief can receive as many as forty coins for each coin the machine attempts to pay out, without detection by the machine.
While a given cheating device may only be usable on a specific model of gaming machine, modifications may be made to create a similar tampering device for all known gaming machines. Thus, a thief armed with a relatively small assortment of tools can quickly cheat an array of machines, taking substantial amounts of cash in a relatively short period of time. Cheating tools tend to be relatively small and often formed mainly from transparent materials. An experienced thief can easily carry and use such tools with little risk of detection.
It is thus an object of the present invention to provide an anti-cheating device which prevents or detects the insertion of a cheating device through the coin slot of a gaming machine.
It is a further object of the present invention to provide an anti-cheating device for a gaming machine which prevents or detects the insertion of a cheating device through the coin chute.
It is still a further object of the present invention to provide an anti-cheating device for a gaming machine which may be easily incorporated into an existing machine.
The present invention provides an anti-cheating device for a gaming machine which satisfies the needs and alleviates the problems mentioned above. In a preferred embodiment, the anti-cheating device prevents or detects the insertion of a cheating device through the coin slot. Known cheating devices which successfully defeat both the coin comparator and the coin counter employ, by necessity, an elongated, substantially rigid foundation. Thus, the insertion of such a device may be prevented by providing a nonlinear coin path, or alternatively, such a device may be detected by sensing for the presence of such an elongated object in the coin path.
For the purposes of this invention, the terms 'anti-cheating' and 'anti-tampering' are used interchangeably as are the terms 'cheat' or 'cheating' and 'tamper' or 'tampering'. The terms 'cheat' or 'cheating' and 'tamper' or 'tampering' are in used reference to the manipulation of a gaming machine to cause the machine to pay-out money either when no money is due to be paid out or in excess amounts when the machine attempts to legitimately pay-out money. The terms 'anti-cheating' and 'anti-tampering' refer to devices or methods for preventing cheating or tampering.
In another preferred embodiment, the anti-cheating device detects the presence of a cheating tool inserted through the coin chute by providing an array of emitters and detectors about the coin chute. Disruption of an energy beam emitted by the emitters and normally striking the detectors will, based on the machine owner's preference, result in one or more of: a 'tilt' condition of the machine; an immediate flag of the machine for service; a disabling of the coin feeder; and/or an alarm. Sensing is automatically disabled as the machine properly feeds coins out the chute to avoid false indications of tampering.
Further objects, features, and advantages of the present invention will be apparent to those skilled in the art upon examining the accompanying drawings and upon reading the following description of the preferred embodiments.
FIG. 1 provides a front view of a gaming machine wherein a preferred embodiment inventive anti-cheating device is incorporated in its general environment.
FIG. 2 provides a front internal view of a gaming machine.
FIG. 3 provides a rear view of the door of a gaming machine having a coin handling assembly attached thereto.
FIG. 4 provides a front view of a partially assembled coin handling assembly with a representative cheating tool inserted therein.
FIG. 5 provides a perspective view of a coin counter typically employed in a gaming machine.
FIG. 6 provides a perspective view from the left side and front of a preferred embodiment of the inventive anti-cheating coin director.
FIG. 7 provides a perspective view from the right side and front of a preferred embodiment of the inventive anti-cheating coin director.
FIG. 8 provides a front view of a prior art coin director typically employed in a coin counter.
FIG. 9 provides a perspective view of another preferred embodiment of the inventive anti-cheating coin director.
FIG. 10 provides a perspective view of yet another preferred embodiment of the inventive anti cheating coin director.
FIG. 11 provides a perspective view of a coin hopper and coin feeder employed in a gaming machine.
FIG. 12 provides a rear view of a preferred embodiment of an emitter/detector assembly incorporated in the inventive anti-cheating device.
Slot Machine Electronic Cheat Devices
FIG. 13 provides an electrical schematic diagram of the emitter/detector assembly incorporated in the inventive anti-cheating device.
Before explaining the present invention in detail, it is important to understand that the invention is not limited in its application to the details of the construction illustrated and the steps described herein. The invention is capable of other embodiments and of being practiced or carried out in a variety of ways. It is to be understood that the phraseology and terminology employed herein is for the purpose of description and not of limitation.
While the preferred embodiment of the inventive device is hereinafter shown and described as being incorporated in a slot machine, it should be understood that the invention is not so limited and is applicable to all gaming machines and, in fact, aspects of the invention are applicable to many types of coin operated devices.
Referring now to the drawings, wherein like reference numerals indicate the same parts throughout the several views, a preferred embodiment of the inventive anti-cheating device is incorporated into a slot machine 20 as shown in FIG. 1. Preferably, slot machine 20 comprises: an outer enclosure 22 having a door 24; a top portion 26 whereon is displayed jackpot information 28, a coin tray 30 located beneath chute 32 (FIG. 2) for receiving coins paid out by machine 20; a handle 34 for activating a 'play'; and reels 36a-c which show through corresponding window 38a-c in door 24.
Continuing with FIG. 1 and with further reference to FIG. 2, enclosure 22 houses: shelf 40 which supports reels 36a-c; coin hopper/feeder assembly 42 for discharging coins through dispenser chute 32 and coin chute 132 (FIG. 3), into tray 30; and electronic circuit board assembly 44 which provides outputs to reel motors 60a-c to selectively spin reels 36a-c and coin feeder motor 46 (as best seen in FIG. 11), as well as inputs for buttons 50, 52, 54, and 56 on door 24, for a switch (not shown) operably connected to handle 34, for coin handler assembly 100 (FIG. 3) and from various tilt sensors. Shaft encoders (not shown) are in rotational communication with reels 36a-c and produce a signal received by circuit board assembly 44 whereby each reel 36a-c can be precisely stopped to display the portion of each reel 36a-c through windows 38a-c, respectively, as determined by circuit board assembly 44. If circuit board assembly 44 calls for a jackpot, reels 36a-c are stopped to correspond to a pay-out as indicated in the jackpot information 28 and the appropriate number of credits are displayed in window 64 on door 24. Quick hit slot.
To operate the machine, a user typically begins by dropping coins or tokens in coin slot 48. Next, the user pulls handle 34 to activate a 'play'. Upon pulling the handle, the circuitry on circuit board 44 determines where reels 36a-c should stop, enables power to reel motors 60a-c, and then one-by-one stops reels 36a-c at the predetermined position after a predetermined period of time. If a jackpot is indicated, circuit board 44 adds the appropriate number of credits to the number displayed in window 64. If credits are shown, the user may use credits in lieu of coins by pressing button 54 on door 24 or may play three credits and activate a play by pressing button 56. In addition, the a user may initiate a play by pressing button 52 rather than pulling handle 34.
Referring now to FIGS. 1 and 11, when desired, the user can convert credits to coins, by user pressing the 'cash out' button 50 on door 24. Upon receipt of the signal from button 50, circuit board 44 enables electrical power to feeder motor 46 which rotates disk 68 to lift individual coins from hopper 62. As each coin nears the top of disk 68, the coin passes through an aperture (not shown), to coin detector 74 and through channel 72 before being discharged through chute 32. Circuit board assembly 44 (FIG. 2) counts each coin detected by detector 74 and disables power to feeder motor 46 when the appropriate number of coins have been discharged.
Referring now to FIGS. 3 and 4, coin handler 100 includes coin comparator, 102 which compares the magnetic signature of a reference coin 104 to an inserted coin. If there is a match, the inserted coin is allowed to continue down the coin path. If, on the other hand, the magnetic signatures do not match, the inserted coin is discharged out a coin return path 106. As a coin continues down the coin path, it passes through optical coin counter 108.
Hacking Slot Machines With Battery
Referring to FIG. 5, coin counter 108 includes emitter board 110, detector board 112 and coin director 114. As best seen in FIGS. 6 and 7, the inventive coin director 114 includes first coin guide 118 and second coin guide 116. Light emitting diodes located on emitter board 110 are positioned to shine through apertures 120, 122, and 124 to strike corresponding detectors on detector board 112. It should be noted that, most preferably, guide 118 protrudes to obstruct access to aperture 124 by elongated objects such that cheating tools cannot be inserted to reach aperture 124.
A better understanding of the invention can be gained by comparing the prior art coin director 200 as shown in FIG. 8. Coin guides 202 and 204 are positioned, as in the present invention to direct a coin to pass sequentially over apertures 206, 208, and 210. However, coin director 200 is constructed such that a coin may fall through coin director 200 without striking either guide 202 or 204. FIG. 4 shows a coin handler 100 with the coin counter 108 removed and an elongated of plastic tool 130 inserted in the coin path in the same manner as a cheating tool would be inserted. With the coin counter 108 removed, it can be seen that, with prior art coin director 200, such a tool can gain access to all three apertures 206, 208, and 210. Light emitting diodes properly located on tool 130 could be manipulated appropriately to, in turn manipulate the detectors on detector board 112.
With the inventive coin director in place, such a tool would strike guide 118 such that the tool could not be inserted to sufficient depth to gain access to apertures 120, 122, and 124. A tool which could be inserted past guide 118 could not gain access to aperture 124 and therefore could not be used to manipulate the coin counter 108.
In another preferred embodiment of the inventive coin director, as shown in FIG. 9, anti-cheating device 220 is placed between coin comparator 102 (FIG. 3) and coin counter 108. An inserted coin must rotate gate 222 to gain access to the coin counter 108. It should be noted that gate 222 includes a plurality of arms 224a-c, preferably three as shown. If an object larger than a coin is inserted, the rotation of arm 224a, for example, will cause arm 24b to hit the inserted object, thereby stopping further rotation of gate 222 and preventing further insertion of the object.
In yet another embodiment of the inventive coin director, as shown in FIG. 10, an electrical switch 244 is affixed to anti-cheating device 240 such that a coin passing through path 242 will strike actuator 246 to actuate switch 244. A coin passing through the path will cause switch 244 to produce a pulse of relatively short duration. A cheating device, on the other hand, will cause switch 244 to produce a continuous output. Electronic circuitry could be used to distinguish between a coin and an improper object in the coin path. An object which produced a pulse of too long duration would cause the machine to 'tilt' thereby disabling further operation of the machine until reset by an employee of the casino.
It will be apparent to those skilled in the art that the inventive device is not limited to the embodiments discussed hereinabove, the inventive aspect being the prevention or detection of the placement of an elongated object into the machine through the coin slot.
In still another preferred embodiment, as shown in FIG. 12, an emitter/detector assembly 140 is located adjacent coin chute 132 in door 24 to detect the presence of an object in the coin path for coins discharged from the machine. As discussed herein above, when the user chooses to cash out, the electronic circuit board 44 (FIG. 2) causes the coin feeder 42 (FIG. 11) to discharge the appropriate number of coins through the coin chute 132. A detector sends a signal to circuit board 44 for each coin exiting feeder 42. In a known method of cheating, a cheating tool is used to divert coins around detector 74, or disable detector 74, such that exiting coins are not counted by circuit board 44. To detect the presence of such a cheating tool, preferably emitter/detector assembly 140 includes a plurality of light emitting diodes 142 (4 shown) which emit light for reception by a plurality of photo detectors 144 (4 shown). As seen in the schematic diagram, FIG. 13, if one or more beams of light are broken, the affected detector 144 will produce a high signal. The outputs of all of the detectors are routed to a diode 'OR' gate 146 such that a high output from one or more detectors will activate the base 148 of transistor 150 causing transistor 150 to turn on. Terminal 152 of relay 154 is connected to the collector 156 of transistor 150 and the emitter 158 is connected to ground such that, when transistor 150 is turned on, coil 160 of relay 154 will be energized, thereby opening normally closed contacts 162. Contacts 162 may be used to tilt the machine, disable the coin feeder, etc.
Cheating Devices For Slot Machines
While contacts 162 are preferably normally closed, it will be apparent to those skilled in the art that normally open contacts, closed by activation of coil 160 are equally suitable.
To prevent nuisance activation of the circuit while coins are fed from the machine, transformer 164 is wired in series with feeder motor 46 such that when feeder motor 46 is not operational, a small electrical current will flow through feeder motor 46 and transformer 164 to power emitter/detector assembly 140. When feeder motor 46 is activated, electrical current flows instead through contacts 166, diverting current from emitter/detector assembly 140 and preventing the closing of contacts 162. Thus, emitter/detector assembly will automatically generate a contact closure upon the detection of a cheating device, but not upon the legitimate discharging of coins.
Cheating Devices For Slot Machines
As will be understood by those skilled in the art that, while the above emitter/detector assembly has been discussed with reference to light emitting diodes and photodetectors, the invention is not so limited. Any type of energy beam emitter could be used in conjunction with a suitable receiver or detector to achieve the desired results. In addition, it will be understood by those skilled in the art that such an energy beam could be modulated to reduce the likelihood that a cheating device could produce a counterfeit signal to defeat the ant-cheating device.
Thus, the present invention is well adapted to carry out the objects and attain the ends and advantages mentioned above as well as those inherent therein. While presently preferred embodiments have been described for purposes of this disclosure, numerous changes and modifications will be apparent to those skilled in the art. Such changes and modifications are encompassed within the spirit of this invention.