JP2013106688A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a game machine which can fully prevent a storage medium from being fraudulently exchanged without complicating mounting operation of the storage medium.SOLUTION: A secondary battery 43 is installed in a ROM detaching monitoring unit 30 which, on the basis of a ROM state signal from a ROM attaching/detaching sensor 18A, monitors detaching of a ROM 17, with electric power supplied to a CPU 41 by this secondary battery 43. Then, even if the power source of a slot machine 1 is turned off, the CPU 41 operates by the power of the secondary battery 43, so that a signal value of an alarm signal can be maintained at an abnormality logical value. When a ROM 17 is exchanged in an off state of power, and when the power of the slot machine 1 is applied again, the signal value of the alarm signal remains in the abnormality logical value. Therefore, fraudulent exchange of the ROM 17 can be announced by a liquid crystal display device 4E, which can fully prevent the ROM 17 as a storage medium from being fraudulently exchanged.

Description

  The present invention relates to a gaming machine including a gaming device that operates as a game progresses, and a control board that has a storage medium that is detachably provided and on which a control circuit that controls the operation of the gaming device is formed. .

Conventionally, a gaming machine such as a slot machine has a gaming device necessary for playing a game, a main control device having a control circuit that controls the operation of the gaming device, and an operation of a rendering device such as a liquid crystal display device that produces a game. A sub-control device having a control circuit for controlling the game machine, and a power supply device for supplying power to the gaming device and the control board.
Among these, the control devices such as the main control device and the sub-control device include a ROM that stores a program for controlling the game operation, and a hardware such as a CPU including an LSI having a high-speed calculation function, and is stored in the ROM. Control is performed by executing software such as a program on a CPU.
For this reason, if it is replaced with a ROM in which an illegal program that can easily acquire game media such as medals is written, a large amount of game media will be illegally acquired.

In order to prevent such illegal acts, a box-shaped board case is provided to store the circuit board on which the control circuit, which is the main part of the control device, is formed, and the closed circuit board case is sealed with the circuit board inside. Alternatively, a gaming machine that is sealed is known.
In such a gaming machine, when the substrate case is opened to replace the ROM, if the seal is peeled off or the seal is broken, the trace remains physically, and the ROM is replaced by this trace. Therefore, physical measures are taken to prevent unauthorized replacement of the ROM (see, for example, Patent Document 1).

In such physical measures based on traces, when removing the seal or releasing the seal, if careful processing is performed so that no trace remains, it will be difficult to find the trace and difficult to see. As a result, there is a risk that the illegal exchange of the ROM cannot be sufficiently prevented.
In addition, each manufacturer has increased the versatility and mass-productivity of gaming machine parts, and the mold for the board case is common to multiple models, so a fake board case is produced by dead copy of the mold. Therefore, there is a risk that large-scale fraudulent acts by this counterfeit board case may be performed.

Therefore, when the ROM is attached to the IC socket, the wire is wound around the ROM and the IC socket in this state, and the ROM is removed, the wire is disconnected, and further, a disconnection detection unit that is an electric circuit for detecting this disconnection is provided. When the ROM is removed, the electric wire is disconnected, and a disconnection signal indicating the fact is output from the disconnection detection unit, whereby an electrical measure for preventing unauthorized replacement of the ROM has been proposed (for example, Patent Documents) 2).
In such electrical measures based on the disconnection of the electric wire, when the power of the gaming machine is turned off, the disconnection detection unit detects that the electric wire has been disconnected, and a disconnection signal is output to the RAM provided in the control device. In order to store this, a backup power source for always supplying power to the disconnection detector and the RAM is prepared. As a result, when the ROM of the control device is removed when the gaming machine is stopped, that is, when the gaming machine is turned off, the wire is disconnected, the disconnection signal is output from the disconnection detection unit, and the disconnection signal is output. Stored in RAM.
When the gaming machine is activated, the fact that the ROM has been illegally exchanged is notified through the liquid crystal display device of the gaming machine, so that the illegal exchange of the ROM can be informed, and the medal due to the illegal exchange of the ROM can be notified. Unauthorized acquisition can be prevented.

  According to the electrical measures based on the cutting of the electric wire as described above, since it is detected by disconnection of the electric wire that the ROM has been removed, there are traces generated by removing the seal applied to the substrate case or breaking the seal. Even if it does not occur, even if a counterfeit board case is used, it is possible to detect and notify the illegal exchange of the ROM, and the illegal exchange of the ROM can prevent unauthorized acquisition of medals.

Japanese Patent Laid-Open No. 11-19310 JP 2009-82454 A

  In gaming machines with electrical measures based on the cutting of the wires as described above, it is necessary to wrap the wires around the ROM and IC socket when installing the ROM, which makes the ROM installation work complicated and time consuming. Take it. Therefore, there is a demand for sufficient prevention of unauthorized replacement of the storage medium without complicating the work of attaching the storage medium.

  Accordingly, each invention described in each claim has been made in view of the above-described problems of the prior art, and the object thereof is not to complicate the operation of attaching the storage medium. Another object of the present invention is to provide a gaming machine that can sufficiently prevent unauthorized exchange of storage media.

Each invention described in each claim is made to achieve the above-mentioned object. The features of each invention will be described below with reference to the embodiments of the invention shown in the drawings.
In addition, a code | symbol shows the code | symbol used in embodiment of this invention, and does not limit the technical scope of this invention.

(Claim 1)
(Feature point)
The invention described in claim 1 is characterized by the following points.
That is, the invention described in claim 1 includes a gaming device (4E) that operates as the game progresses, and a storage medium (17) that is detachably provided, and operates the gaming device (4E). A gaming machine (1) having a control board (16) on which a control circuit for control is formed, the removal of the storage medium (17) is detected, and the storage medium (17) is removed. Upon detection, medium removal detection means (18) for outputting a medium state signal whose signal value is changed from an attachment logical value indicating the attachment state to a removal logical value indicating the removal state, and receiving a predetermined detection start signal Then, a monitoring operation for monitoring the medium status signal from the medium removal detecting means (18) is started, and the normal value is changed according to the change of the signal value of the medium status signal from the attachment logical value to the removal logical value. An alarm signal whose signal value is changed from a normal logical value indicating a state to an abnormal logical value indicating an abnormal state Medium removal monitoring means (30) for outputting, the medium removal monitoring means (30), when the signal value of the alarm signal is changed from a normal logical value to an abnormal logical value after the start of the monitoring operation, the abnormal logic It is characterized by maintaining the value.

(Effect of Claim 1)
The present invention configured as described above has the following effects.
That is, according to the first aspect of the present invention, when the removal of the storage medium is detected as the medium removal detection means for detecting the removal of the storage medium, the removal state is indicated from the attachment logical value indicating the attachment state. Employing a device that outputs a media status signal whose signal value is changed to the removal logical value, so that when the storage medium is illegally removed, the signal value of the media status signal is changed to the removal logical value. Therefore, by monitoring the signal value of the medium status signal, it is possible to detect in real time whether or not the storage medium has been illegally removed.
Therefore, when attaching the storage medium to the control board, it is not necessary to wind an electric wire around the storage medium, and the attachment work of the storage medium is not complicated. For this reason, it is possible to sufficiently prevent unauthorized replacement of the storage medium without complicating the operation of attaching the storage medium, and the above-described object is achieved.

It is a front view showing the whole 1st Embodiment of the present invention. It is a front view which shows the inside of the housing | casing which concerns on the said embodiment. It is a perspective view which shows the subboard case which concerns on the said embodiment. It is a disassembled perspective view which shows the subboard | substrate case which concerns on the said embodiment. It is a perspective view which shows the ROM removal monitoring unit which concerns on the said embodiment. It is sectional drawing in the IV-IV line of FIG. It is a disassembled perspective view which shows the ROM removal monitoring unit which concerns on the said embodiment. It is a block diagram which shows schematic structure of the sub control board | substrate in the said embodiment. It is a flowchart explaining operation | movement of 2nd Embodiment of this invention. It is a time chart explaining operation | movement of the said 2nd Embodiment.

Hereinafter, a first embodiment, which is a mode for carrying out the present invention, will be described with reference to the drawings.
[First Embodiment]
(Overview of slot machine 1)
FIG. 1 shows a slot machine 1 as a gaming machine according to the first embodiment of the present invention. In FIG. 1, the slot machine 1 performs a game for stopping the rotating reel 11 so that a plurality of types of symbols written on each of the three rotating reels 11 are in a predetermined combination. . As shown in FIG. 1, the slot machine 1 includes a housing 2 that houses various devices of the slot machine 1 and has a rectangular front shape.
The housing | casing 2 is a box-shaped member by which the whole front surface was opened. And the front opening of the housing | casing 2 is block | closed with the front door 3 attached to the said housing | casing 2 so that rotation was possible. The front door 3 is automatically locked when it is closed.

The front door 3 includes an upper panel portion 4 and a lower panel portion 5 that substantially bisect the front surface. Below the lower panel portion 5, there is provided a tray unit 6 integrally formed with a tray portion 6A for storing medals to be paid out at the time of winning a prize. Moreover, between the upper panel part 4 and the lower panel part 5, the console 7 for performing operation which concerns on a game is formed so that it may protrude to the player side.
Here, the upper panel portion 4 and the lower panel portion 5 have a decorative plate made of synthetic resin attached to the surface in order to ensure an excellent appearance in terms of design.

(Upper panel part 4)
The upper panel portion 4 is provided with a display window 4A formed in a rectangular shape above the console 7 and in the center in the width direction in FIG.
Here, each of the three rotating reels 11 provided in the housing 2 has a plurality of types of symbols (not shown) on the outer peripheral surface thereof. The symbols of each rotary reel 11 are visible from the outside of the housing 2 through the display window 4A.

At the upper edge portion of the upper panel portion 4, there is provided an effect lighting device 4B whose front shape is formed in an inverted trapezoidal shape. The effect lighting device 4B is disposed substantially at the center of the upper edge portion of the upper panel portion 4. Both end portions of the lighting device for effect 4B are broken at positions in front of the upper panel portion 4 without reaching the corners.
In addition, in the vicinity of both corners on the upper side of the upper panel portion 4, a pair of effect lighting devices 4 </ b> C for drawing a Chinese numeral “eight” is provided while the front shape is formed in a curved belt shape. Each of these effect lighting devices 4C has an upper end portion disposed in the vicinity of the end portion of the effect lighting device 4B, and a lower end portion thereof extends obliquely downward toward the side edge of the upper panel portion 4. It has become.
Furthermore, another side lighting device 4D connected to the lower end of the lighting device for effect 4C is provided on both side edges of the upper panel portion 4, respectively. Each of these effect lighting devices 4D is formed in a strip shape elongated in the vertical direction, similar to the effect lighting device 4C. From the lower end of the effect lighting device 4C to the side edge of the upper panel portion 4 It extends along and reaches the immediate vicinity of the console 7.
Each of these lighting devices for production 4B to 4D includes a light source such as a high-intensity light emitting diode disposed inside a red lens, and the visual in the game is turned on or blinking according to the progress of the game. This enhances the production effect.

A liquid crystal display device 4E for displaying a game effect image is provided between the display window 4A and the effect lighting device 4B. The liquid crystal display device 4E displays various images including moving images as the game progresses.
On both sides of the liquid crystal display device 4E, audio output units 4F each having a speaker that generates sound effects relating to the game are provided.

(Operating console 7)
The console 7 is provided with various switches necessary for operations in the game.
That is, a key hole 7A into which a key for unlocking the front door 3 is inserted is provided at the right end portion in FIG. A medal insertion portion 7C having a medal insertion slot 7B for inserting medals is provided obliquely above and to the left of the keyhole 7A.
Three stop switches 7D that are operated when stopping each of the three rotary reels 11 are provided obliquely to the left of the medal slot 7B. Among these three stop switches 7D, a max bet switch 7E capable of betting the maximum number of medals in one operation is provided obliquely above and to the left of the stop switch 7D arranged at the left end.
In addition, a start lever 7F that is operated when the three rotary reels 11 are simultaneously rotated is provided at a position to the left of the leftmost stop switch 7D and obliquely to the left of the max bet switch 7E. Yes. A bet switch 7G that can bet on one medal stored in one operation, that is, a bet switch 7G that is operated when betting one medal at a time, is provided on the upper left side of the start lever 7F. Yes.
Further, a settlement switch 7H for paying out medals stored at the time of settlement is provided diagonally to the left of the bet switch 7G.

(Lower panel part 5 and saucer unit 6)
The lower panel portion 5 is provided with a panel 5A on which a character or the like representing a model type of the slot machine 1 is drawn.
The saucer unit 6 is provided with a medal payout port 6B for discharging medals paid out toward the saucer unit 6A when winning a prize, and a speaker for generating sound effects related to the game, in addition to the above-described saucer unit 6A for storing medals. And an audio output unit 6C.

(Internal device housed in the housing 2)
Next, an internal device provided inside the housing 2 will be briefly described.
Inside the housing 2, as shown in FIG. 2, a main board case 2D containing a main control board (not shown) having a CPU comprising a microcomputer for controlling the gaming operation of the slot machine 1, three rotating reels 11 includes a reel unit 10 including a motor (not shown) that rotatably supports each of the rotary reels 11, a container unit 12A that stores a large number of medals therein, and a medal toward the tray unit 6A. A hopper unit 12 that discharges water, a power supply device 13 that supplies power to these devices, and the like are provided.

Among these, the reel unit 10 has a plurality of rotating reels 11 each formed in a cylindrical shape. A plurality of kinds of symbols are written on the outer peripheral surfaces of the rotary reels 11 although not particularly shown.
Further, a power switch 13A for performing ON / OFF operation of power supply to the entire slot machine 1 is provided on the front surface of the power supply device 13.
In the above, the main control board 15 is a control board on which a control circuit for controlling the gaming operation of the slot machine 1 is formed.

The back side surface of the front door 3 controls the operation of the liquid crystal display device 4E, the lighting devices 4B to 4D and the sound output units 4F and 6C corresponding to the liquid crystal display device 4E arranged on the front side surface. A sub-board case 20 that houses a sub-control board 16 to be described later is provided.
In addition, a medal selector 14 for determining the suitability of the inserted medal is provided on the back side surface of the front door 3 corresponding to the medal insertion port 7B opened on the front side surface.

(Main control board 15)
Hereinafter, the main control board 15 will be described. Since the main control board 15 has almost the same configuration and function as the conventional one, the outline of the configuration and function will be described in the following description.
The main control board 15 includes a CPU that performs various processes, a ROM that stores a control program, a RAM that stores data necessary for the processes, and an I / O port that transmits and receives signals to and from the outside. / O section and the like.
Such a main control board 15 mainly performs processing related to game operations such as a lottery process for winning combinations in games, and the lottery result, winning result and winning results of the winning combination determined by the processing of the main control board 15 A function of transmitting various game information such as a game state to the sub-control board 16 as appropriate is provided.
The main board case 2D accommodates the main control board 15 and, in order to protect the main control board 15 described above from unauthorized access, the main control board 15 is accessed from the outside in the same manner as the sub board case 20 described later. In order to leave a trace, a so-called caulking sealing portion 2E is provided.

(Sub-board case 20)
Next, the sub-board case 20 will be described.
That is, as shown in FIGS. 3 and 4, the sub-board case 20 is provided with a main body 21 formed in a box shape capable of accommodating the sub-control board 16 and the main body 21 for attaching the main body 21 to the housing 2. And a mounting base 22 formed in a rectangular parallelepiped box shape.

As shown in FIG. 4, the main body portion 21 includes a base portion 23 to which the sub control board 16 is attached and a lid portion 24 that covers the entire surface of the sub control board 16 attached to the base portion 23.
The base portion 23 and the lid portion 24 cover and protect the entire sub-control board 16 accommodated therein, and are joined to each other with screws (not shown).

The base part 23 has a rectangular planar shape. The four corners 23A to 23D of the base portion 23 and the upper edge central portion 23E in FIG.
The boss 23F is screwed into a screw inserted into a screw insertion hole (not shown) formed in the bottom of a later-described recess 24F provided on the lid 24 side, thereby causing the lid 24 to be For joining to 23.
Further, each of the left and right side edge portions 23G in FIG. 4 in the base portion 23 is provided with an ear portion 23H protruding from the lower end to the side and a locking collar portion 23J protruding from the upper end to the side. ing. In FIG. 4, only the locking hook 23J provided on the right side edge 23G in FIG. 4 is shown, and the description of the left locking hook 23J is omitted.
The ear portion 23H is formed with a screw insertion hole 23K through which a screw (not shown) to be screwed to the mounting base 22 is inserted.
The locking collar portion 23J is a portion bent into an L shape that engages with a locking ring portion 22A described later on the mounting base 22 side. In FIG. 4, only the screw insertion hole 23K of the right ear 23H is shown in FIG. 4, and the description of the left screw insertion hole 23K is omitted.

The lid portion 24 has a ceiling portion 24A facing the base portion 23 and having a size corresponding to the base portion 23 in FIG. The ceiling portion 24A has a rectangular shape with the upper right corner cut out in FIG.
The remaining three corner portions 24B to 24D in the ceiling portion 24A and the upper edge central portion 24E in FIG. 4 are provided with concave portions 24F that are recessed in a cylindrical shape. A screw insertion hole (not shown) through which a screw (not shown) screwed with the boss 23F on the base portion 23 side is inserted is provided at the bottom of the recess 24F.
Here, the portion of the lid portion 24 where the corner portion is missing is a corner portion 24G where the two side surfaces intersect. On the two side surfaces of the corner portion 24G, a stepped portion 24H is formed that protrudes from the side surface and extends along the edge of the side surface on the base portion 23 side.

A coupling member 25 formed in a shape corresponding to the corner portion is fitted into the corner portion 24G.
The coupling member 25 is provided with a recess 24F that is the same as that provided in the lid 24, and a locking portion (not shown) that locks the stepped portion 24H.

  Further, in the vicinity of the corner 24G of the lid 24, a concave portion 24J whose surface is recessed from the periphery is formed. Although not particularly illustrated, the recess 24J is provided with a cylindrical portion that protrudes from the back surface of the bottom portion toward the base portion 23 and that is formed in a cylindrical shape along the peripheral edge of the back surface. ing. A conductive portion 26 made of an electric conductor made of metal or the like is fitted into the cylindrical portion.

Further, in the lid portion 24, a portion below the recess 24J in FIG. 3 is recessed on the front surface in FIG. 3 in order to press a ROM 17 (described later) installed on the sub-control board 16. In addition, a pressing portion 24K formed so as to bulge toward the sub-control board 16 side is provided on the back side.
Further, connector openings 24L and 24M for exposing connectors 16A and 16B, which will be described later, provided on the sub-control board 16 to the outside, are formed on the left and right side edge portions in FIG. .
Among these, the connector opening 24L formed in the left side edge portion in FIG. 3 is closed by a connector cover member 27 that is elongated in the vertical direction in FIG. The connector cover member 27 is formed with a cable insertion hole 27A for taking out a cable (not shown) connected to the connector 16A to the outside.

The base part 23 and the lid part 24 as described above are screwed into the screw insertion holes of the recesses 24F formed in the lid part 24 and the coupling member 25 in a state where the coupling member 25 is fitted in the corner of the lid part 24. Are inserted into each other, and the screws inserted through the screw insertion holes are screwed into bosses 23B provided in the base portion 23, so that they are joined and closed.
At this time, a screw insertion hole 16C through which a screw is inserted is formed in the sub control board 16 corresponding to the boss 23B provided in the base portion 23, and the base portion 23 and the lid portion 24 are joined to each other. The screw that is disposed between the base portion 23 and the lid portion 24 and that joins the base portion 23 and the lid portion 24 to each other is a screw insertion hole 16C, and the base portion 23 and the lid portion 24 are joined to the base portion at the same time as the screws are joined. It is joined to 23 and fixed inside.
Then, the recess 24F in which a screw for joining the base portion 23 and the lid portion 24 enters is filled with a cylindrical caulking member 28. As a result, the screw for joining the base portion 23 and the lid portion 24 to each other cannot be screwed into the boss 23B unless the peripheral portion of the recess 24F in the lid portion 24 and at least one of the caulking members 28 are destroyed. It is like that.

The mounting base 22 is formed in a box shape having an open surface facing the back side in FIG. The mounting base 22 is configured such that the liquid crystal panel of the liquid crystal display device 4E is fitted into the inside from the opening on the back side, and the liquid crystal panel of the liquid crystal display device 4E is accommodated.
The mounting base 22 is provided with ears 22C protruding leftward and rightward from the left side edge and the right side edge in FIG. In FIG. 4, only the ear portion 22C formed on the right side edge in FIG. 4 is shown, and the description of the ear portion 22C formed on the left side edge is omitted. Yes.
Each of these ear portions 22C includes a recess 22D in which a screw insertion hole (not shown) through which a screw (not shown) to be screwed into the back side of the front door 3 is inserted is formed at the bottom.
The mounting base 22 has a screw hole 22B for screwing a screw (not shown) inserted into a screw insertion hole 23K formed in the ear 23H on the base 23 side, and a locking collar 23J on the base 23 side. Is disposed in the vicinity of the above-described locking ring portion 22A formed in a ring shape and the screw hole 22B on the left side in FIG. 3, and a conductive portion 22E made of an electric conductor such as a metal film. And are provided.

The main body portion 21 is screwed into a screw hole 22B with a screw (not shown) inserted into the screw insertion hole 23K of the ear portion 23H in a state where the locking collar portion 23J of the base portion 23 is locked to the locking ring portion 22A. By doing so, it can be attached to the attachment base 22.
The mounting base 22 is a state in which the liquid crystal panel of the liquid crystal display device 4E is housed in the front door 3 by screwing a screw inserted into a screw insertion hole formed in the ear portion 22C into the back side of the front door 3. 3 can be attached.
The recess 22D of the ear 22C is closed by a caulking member 29 formed in a cylindrical shape with a screw for joining the mounting base 22 to the front door 3 inside. As a result, the screw that joins the mounting base 22 to the front door 3 cannot be screwed into the front door 3 unless at least one of the ear portion 22C and the caulking member 29 is destroyed.

(Sub control board 16)
The sub-control board 16 controls the effect operation according to the result of the process related to the game operation performed by the main control board 15 described above.
That is, as described above, the main control board 15 performs processing related to the operation of the game, such as a lottery process for a winning combination in a game, and various games such as a lottery result of the winning combination, a winning result and a gaming state as a result A control command signal including information is transmitted to the sub control board 16.
The sub-control board 16 controls the production device for performing the production operation of the slot machine 1, specifically, the production lighting devices 4B to 4D, the liquid crystal display device 4E, and the audio output units 4F and 6C. A circuit is formed. Then, the sub control board 16 controls the stage lighting devices 4B to 4D, the liquid crystal display device 4E, and the voice output units 4F, 6C and the like based on the control command signal from the main control board 15 It has become a thing.
Such a sub-control board 16 includes two processing units 16D and 16E arranged side by side in FIG. Among these, the processing unit 16D disposed on the right side in FIG. 4 is an operation processing unit 16D that controls the rendering operations of the lighting devices for production 4B to 4D, the liquid crystal display device 4E, and the audio output units 4F and 6C. On the other hand, the processing unit 16E disposed on the left side in FIG. 4 is an image processing unit 16E that performs processing of an image to be displayed on the liquid crystal display device 4E.

On the front side in FIG. 4 of the motion processing unit 16D, the ROM 17 in which at least one of the program necessary for controlling the rendering operation and the rendering operation control data is stored, and the removal of the ROM 17 is not shown. A ROM attachment / detachment sensor 18A, a separation detection sensor 16F comprising a wiring pattern (a spiral like a mosquito coil) that detects the separation of the conductive portion 26 provided on the lid 24, and a ROM detection for monitoring the removal of the ROM 17. Although not shown in FIG. 4, the outside monitoring unit 30 and a CPU 44 that performs arithmetic processing in the rendering operation are provided.
Among these, the separation detection sensor 16F detects the separation of the conductive portion 26 in cooperation with a separation monitoring IC (not shown) and a CPU 41 described later. The separation monitoring IC and CPU 41, together with the separation detection sensor 16F, detects that the conductive portion 26 on the lid 24 side is separated, and when the conductive portion 26 moves away, the separation detection sensor 16F Based on the signal, it is configured to detect that the lid portion 24 has been opened and to send a lid portion opening signal to notify that.

The ROM attachment / detachment sensor 18A is for detecting that the ROM 17 is separated. Like the separation detection sensor 16F, the ROM attachment / detachment sensor 18A is a sensor including a wiring pattern having a spiral shape (a spiral shape like a mosquito coil). is there.
The wiring pattern of the ROM attachment / detachment sensor 18A is a conductor pattern formed at a position facing the ROM 17 as a part of the print pattern of the sub-control board 16.
When the ROM 17 is mounted on the IC socket 18 or when the IC socket 18 is mounted on the sub-control board 16, the entire or part of the conductor pattern of the ROM attachment / detachment sensor 18A is the ROM 17 or the IC socket 18. It is formed so as to be hidden.
The conductor pattern of the ROM attachment / detachment sensor 18A is a solder attachment pattern (land) formed corresponding to the connection terminal of the ROM 17 on the surface of the sub-control board 16 which is the mounting surface of the IC socket to which the ROM 17 is attached. It is provided at a position that does not overlap.

For example, when the ROM 17 having a plurality of connection terminals arranged on both sides is used as the conductor pattern of the ROM attachment / detachment sensor 18A, one formed between solder mounting patterns (lands) is adopted, or four sides When using the ROM 17 in which a plurality of connection terminals are arranged in each of these, those formed around the mounting position of the ROM 17, that is, inside the lands corresponding to the four sides of the ROM 17, are employed.
In the present embodiment, the sub-control board 16 employs a four-layer board laminated in the thickness direction, and in order to improve the accuracy of detection determination processing performed by the separation monitoring IC, Although the conductor pattern is formed, the conductor pattern is not formed in the area overlapping the conductor pattern on the surface and the periphery of the other three layer portions.

In FIG. 8, a ROM attachment / detachment sensor 18A includes a distance monitoring IC 18B (see FIG. 8) similar to the above-described distance monitoring IC to which the distance detection sensor 16F is connected, and a ROM removal determination for determining whether the ROM 17 has been removed. In cooperation with the unit 41C (see FIG. 8), it is detected that the ROM 17 has been removed.
The separation monitoring IC 18B includes an oscillation circuit unit that generates an alternating current having a predetermined frequency, and a counter unit that counts the number of vibrations per predetermined time of the alternating current flowing through the conductor pattern of the ROM attachment / detachment sensor 18A, although not particularly illustrated. ing.

The oscillation circuit section of the separation monitoring IC 18B generates an alternating current having a predetermined frequency to be given to the conductor pattern of the ROM attachment / detachment sensor 18A, and is a general oscillator including a crystal oscillator.
The oscillation circuit unit starts oscillation at a predetermined timing. For example, the oscillation circuit unit starts oscillation upon reception of an oscillation command signal transmitted from the CPU 41 every predetermined time. Further, the oscillation circuit unit is set to transmit at a predetermined frequency until a predetermined time elapses after the oscillation is started, and to stop the oscillation when the predetermined time elapses.
Here, in the present embodiment, the oscillation frequency of the oscillation circuit unit is set to 140 MHz, for example, and the predetermined time for oscillating the oscillation circuit unit is the data required to determine whether the ROM 17 has been removed or not. Sampling time is adopted.

Here, when the conductor pattern of the ROM attachment / detachment sensor 18A receives an alternating current of a predetermined frequency from the oscillation circuit portion of the separation monitoring IC, an eddy current is generated in the conductor portion of the ROM 17 by the magnetic lines of force generated from the conductive pattern. The induced alternating current induced by the current is superimposed on the alternating current generated by the oscillation circuit unit.
The counter unit of the separation monitoring IC 18B starts counting the frequency of the alternating current generated by the oscillation circuit unit on which the induced alternating current is superimposed when the oscillation circuit unit starts oscillating for a predetermined time. Then, the counter unit of the separation monitoring IC 18B finishes counting the number of vibrations when the oscillation circuit unit finishes oscillating for a predetermined time, and transmits a count value signal indicating the counted value to the CPU 41 described later.
(Storage medium removal determination unit 41C)
The ROM removal determination unit 41C is configured by a program executed by the CPU 41 described later. The ROM removal determination unit 41C determines whether the ROM 17 has been removed from the sub-control board 16 based on the count value counted by the counter unit of the separation monitoring IC 18B.
In other words, the CPU 41 stores a program for determining whether or not the ROM 17 has been removed based on the count value counted by the counter unit of the distance monitoring IC 18B, and the CPU 41 executes the program so that the ROM 17 It comes to judge the removal.

  That is, the ROM removal determination unit 41C formed in the CPU 41 determines removal of the ROM 17 based on whether the count value transmitted from the counter unit of the distance monitoring IC 18B is out of a predetermined range. . The ROM removal determination unit 41C determines that the ROM 17 has been removed from the sub-control board 16 when the count value is out of the predetermined range.

Specifically, the ROM 17 is mounted on the IC socket 18, and the distance monitoring IC 18B is in a state where the distance between the ROM 17 and the ROM attach / detach sensor 18A is a predetermined distance (for example, about 5 mm). When an AC signal having a predetermined frequency (for example, 140 MHz) is supplied from the oscillation circuit unit to the ROM attachment / detachment sensor 18A, the frequency according to the distance between the ROM attachment / detachment sensor 18A and the conductor portion (wafer or internal pattern) in the ROM 17 The eddy current is generated in the conductor portion in the ROM 17. Here, since the ROM attachment / detachment sensor 18A is a kind of transformer, an alternating current that superimposes the eddy current generated on the alternating current generated by the oscillation circuit unit flows through the ROM attachment / detachment sensor 18A.
For this reason, the frequency of the alternating current flowing through the ROM attach / detach sensor 18A deviates from the oscillation frequency (for example, 140 MHz) of the oscillation circuit section due to the influence of the eddy current, and from a certain range of frequency band (145 to 155 MHz in this embodiment) Since it rises within a range that does not deviate, the vibration frequency per predetermined time of the alternating current flowing through the ROM attachment / detachment sensor 18A also falls within the predetermined range.

  Accordingly, when the frequency of the alternating current flowing through the ROM attachment / detachment sensor 18A is counted by the counter unit of the separation monitoring IC 18B and the count value per predetermined time counted by the counter unit falls within a predetermined range, the ROM removal determination unit 41C Determines that the ROM 17 is attached to the IC socket 18.

  On the other hand, when the ROM 17 is removed from the IC socket 18 and the ROM 17 is moved away from the ROM attachment / detachment sensor 18A, eddy currents are not generated in the conductor portion inside the ROM 17, so that the oscillation circuit portion of the separation monitoring IC 18B supplies the ROM attachment / detachment sensor 18A. The eddy current generated inside the ROM 17 is not superimposed on the AC signal. As a result, the alternating current flowing through the ROM attaching / detaching sensor 18A decreases to a value close to the frequency of the alternating current generated by the oscillation circuit section of the separation monitoring IC 18B (for example, a value within the range of 140 MHz to 142 MHz), and the counter of the separation monitoring IC 18B. The count value per predetermined time counted by the unit deviates from the predetermined range.

Therefore, when the frequency of the alternating current flowing through the ROM attachment / detachment sensor 18A is counted by the counter unit of the separation monitoring IC 18B and the count value per predetermined time counted by the counter unit deviates from the predetermined range, the ROM removal determination unit 41C determines that the ROM 17 has been removed from the IC socket 18.
When the ROM removal determination unit 41C detects that the ROM 17 has been removed, the ROM removal determination unit 41C outputs a ROM state signal whose signal value is changed from the attachment logical value indicating the attachment state to the removal logical value indicating the removal state. It has become a thing.

Here, the ROM attachment / detachment sensor 18A, the separation monitoring IC 18B, and the ROM removal determination unit 41C detect the removal of the ROM 17, and when detecting that the ROM 17 has been removed, indicate the removal state from the attachment logical value indicating the attachment state. It constitutes a medium removal detecting means for outputting a ROM status signal whose signal value is changed to the removal logical value.
In summary, the medium removal detecting means according to the present embodiment, when the ROM 17 is mounted, generates an eddy current inside the ROM 17 when an alternating current having a predetermined frequency is passed through the ROM attach / detach sensor 18A. Then, the generated eddy current flows also to the ROM attachment / detachment sensor 18A by induction and is superimposed on the alternating current of a predetermined frequency to increase the frequency of the alternating current flowing to the ROM attachment / detachment sensor 18A. It is to be detected.

Returning to FIG. 4, a separation detection sensor 16G comprising a spiral wiring pattern for detecting the separation of the conductive portion 22E provided on the mounting base 22 is provided on the back surface of the operation processing portion 16D in FIG. Yes.
The separation detection sensor 16G has the same structure and function as the ROM attachment / detachment sensor 18A, and is connected to the separation monitoring IC similar to the separation monitoring IC 18B. In cooperation with the separation monitoring IC and the CPU 41, the separation detection sensor 16G The part 22E is detected to be separated. The separation monitoring IC and CPU 41 are configured to transmit a main body state signal for notifying that the main body portion 21 of the sub-board case 20 has been removed from the mounting base 22 when the conductive portion 22E moves away. ing.

  On the front side in FIG. 4 of the image processing unit 16E, an image processing ROM 16H storing a program necessary for image processing of the liquid crystal display device 4E, data for image processing, and the like are displayed on the screen of the liquid crystal display device 4E. A character ROM 16J that stores data related to the character to be processed and a CPU 45 that performs arithmetic processing in image processing (not shown in FIG. 4) are provided.

In the above, the effect lighting devices 4B to 4D, the liquid crystal display device 4E, and the audio output units 4F and 6C are game devices that operate as the game progresses.
The ROM 17 is a storage medium that is detachably provided on the sub-control board 16 by being attached to the sub-control board 16 via the IC socket 18.
The sub-control board 16 includes a ROM 17 that is detachably provided, and a control circuit that controls the operations of the effect lighting devices 4B to 4D, the liquid crystal display device 4E, and the audio output units 4F and 6C is formed. It is a control board.

The ROM removal monitoring unit 30 receives the contact signal of the power switch 13A provided in the power supply device 13 (see FIG. 2) as a predetermined detection start signal, and upon receiving the detection start signal, the ROM removal determination unit 41C The monitoring operation for monitoring the ROM status signal from is started.
That is, when the CPU 41 of the ROM removal monitoring unit 30 receives a predetermined detection start signal, the CPU 41 starts a monitoring operation for monitoring the ROM state signal from the ROM removal determination unit 41C. In response to the change from the value to the removal logical value, the medium removal monitoring means outputs an alarm signal in which the signal value is changed from the normal logical value indicating the normal state to the abnormal logical value indicating the abnormal state. Yes.
The ROM removal monitoring unit 30 is configured to maintain the abnormal logic value when the signal value of the alarm signal is changed from the normal logic value to the abnormal logic value after the start of the monitoring operation.

(ROM removal monitoring unit 30)
The ROM removal monitoring unit 30 will be described in detail below.
5-7, the ROM removal monitoring unit 30 receives a count value signal from the distance monitoring IC 18B, and performs a predetermined monitoring process based on the received count value signal, and a monitoring board 40. A case portion 31 is provided.
Of these, the case portion 31 is a rectangular parallelepiped box, and in FIG. 5, a screwed bulging portion 31A protruding from the side surface is formed on each of the upper end portion on the right side surface and the lower end portion on the left side surface. It has been made.
As shown in FIG. 4, the case portion 31 is disposed at a predetermined position on the side of the operation processing unit 16D in the sub-control board 16, and as shown in FIG. 6, the main body flat plate portion 16K which is the board of the sub-control board 16 itself. Is detachably attached. In other words, the ROM removal monitoring unit 30 is detachably provided on the sub-control board 16.
The case portion 31 includes a base portion 32 to which the monitoring substrate 40 is attached and a lid portion 33 that covers the monitoring substrate 40 attached to the base portion 32.

As shown in FIG. 7, the base portion 32 is a box-like member having an open surface on the lid portion 33 side. The base portion 32 is provided with a bottom portion 32A to which the monitoring substrate 40 is attached, and a cylindrical side wall portion 32B surrounding the monitoring substrate 40 attached to the bottom portion 32A. The peripheral portion of the bottom portion 32A is a flange portion 32C that protrudes from the outer surface of the side wall portion 32B.
Here, a portion corresponding to the above-described screwing bulging portion 31A in the flange portion 32C of the base portion 32 is a bulge portion 32D expanded in accordance with the screwing bulging portion 31A. The bulge portion 32D is provided with a boss 32E for screwing.
Further, a connector insertion hole 32F for exposing a connector 40A (described later) formed in the monitoring board 40 is provided in a portion surrounded by the side wall portion 32B in the bottom portion 32A.

As shown in FIG. 7, the lid 33 is a box-like member having an open surface on the base 32 side. The base portion 32 includes a ceiling portion 33A formed as a flat plate portion facing the bottom portion 32A of the base portion 32, and a cylindrical side wall portion 33B erected along the peripheral edge of the ceiling portion 33A. Is provided.
Here, a portion of the side wall portion 33B of the lid portion 33 corresponding to the screw bulging portion 31A is a bulge portion 33D bulging in accordance with the screwing bulging portion 31A. The bulge portion 33D is formed with a concave portion 33E for screwing.

Returning to FIG. 6, a screw insertion hole 33F is provided at the bottom of the recess 33E formed in the bulge portion 33D on the lid 33 side as shown in FIG. ing.
Here, when the opening of the base portion 32 is closed with the lid portion 33, the base portion 32 and the lid portion 33 are overlapped with the side wall portion 33B of the lid portion 33 on the outer side of the side wall portion 32B of the base portion 32, and the connector of the bottom portion 32A. The portion excluding the insertion hole 32F is formed to be sealed. The side wall portion 32B and the side wall portion 33B form a double-structured wall that overlaps each other, thereby making unauthorized access from the outside very difficult and improving the security of the ROM removal monitoring unit 30. It is something to be made.

With the opening of the base portion 32 closed by the lid portion 33, a screw 34 is inserted into a screw insertion hole 33F formed in the bottom of the concave portion 33E on the lid portion 33 side, and this screw 34 is inserted into the boss 32E on the base portion 32 side. And the base portion 32 and the lid portion 33 are joined to each other, whereby the case portion 31 is closed.
At this time, the recess 33E in which the screw 34 has entered is closed by the cylindrical caulking member 35. As a result, the screw 34 cannot be screwed into the boss 32E without destroying at least one of the peripheral portion of the recess 33E in the lid portion 33 and the caulking member 35. In other words, the case portion 31 cannot be screwed into the boss 32E of the screw 34 unless the peripheral portion of the recess 33E in the lid portion 33 and at least one of the caulking members 35 are broken, and the case portion 31 is It cannot be opened.

On the other hand, the monitoring board 40 is electrically connected to the sub-control board 16 via the connector 40A and a cable (not shown). The monitoring board 40 detects and determines whether the ROM 17 is removed from the operation processing unit 16D based on the count value signal from the distance monitoring IC 18B provided in the operation processing unit 16D of the sub control board 16. At the same time, when the ROM 17 is removed, the removal detection time when the removal of the ROM 17 is detected is stored.
The monitoring board 40 includes a CPU 41 in which necessary elements including an arithmetic processing unit for performing various arithmetic processes and a storage unit such as a RAM for storing data indispensable for the arithmetic process are packed in one chip, and an authentication. RTC 42 in which elements for generating time data indicating real time to obtain random numbers as data for use are packed in one chip, and a backup secondary battery 43 for supplying power to the CPU 41 and RTC 43 in the event of a power failure And are provided.
Here, the case unit 31 is a member that wraps the CPU 41 and the secondary battery 43 inside so that the CPU 41 (medium removal monitoring means) and the secondary battery 43 (power supply source) cannot be operated from the outside. This is a sealing means for sealing the secondary battery 43.

(Electrical configuration of sub-control board 16)
FIG. 8 shows an electrical schematic configuration of the sub-control board 16. Hereinafter, the electrical configuration of the sub control board 16 will be described.
As described above, the sub-control board 16 includes the operation processing unit 16D that controls the rendering operation, the image processing unit 16E that processes the image to be displayed on the liquid crystal display device 4E, and the removal of the ROM 17 attached to the operation processing unit 16D. And a ROM removal monitoring unit 30 for monitoring the above.

Among these, as shown in FIG. 8, the CPU 41 of the ROM removal monitoring unit 30 stores a RAM 41A for storing the removal of the ROM 17 as a record, and an alarm indicating that the ROM 17 has been removed from the operation processing unit 16D. A signal maintaining unit 41B that outputs a signal and maintains the output of the alarm signal and the ROM removal determination unit 41C described above are provided.
Further, the CPU 45 of the image processing unit 16E receives a warning signal from the ROM removal monitoring unit 30, and a ROM removal warning display unit 45A for displaying a warning that the ROM 17 has been removed. A RAM 45B for storing a later-described real-time data (hereinafter referred to as “RT data”) signal output from the RTC 42 of the external monitoring unit 30 and a comparison operation unit 45C for comparing the RT data signals are provided. .
As described above, the image processing unit 16E is provided with a backup battery 45D for supplying driving power to the RAM 45B at the time of power failure so that the stored contents of the RAM 45B are not erased by the power failure as shown in FIG.

  Here, the power supply device 13 is electrically connected to the sub-control board 16, power for driving is supplied from the power supply device 13, and the power switch 13A is turned on (the power switch 13A is turned on). The start signal shown is input.

The motion processing unit 16D is a part that controls the rendering operation, and is also configured to select a rendering video performed by the liquid crystal display device 4E.
For example, in the slot machine 1, when a game is started, a presentation operation is performed to display on the screen of the liquid crystal display device 4E the pressing order of the stop switch 7D in which a combination of predetermined symbols is stopped when the rotating reel 11 is stopped. An accompanying assist time game (hereinafter referred to as “AT game”) is set.

Here, the CPU 44 of the motion processing unit 16D performs a lottery to select whether or not to shift to the AT game, and sends a comparison command signal to the CPU 45 on the image processing unit 16E side at predetermined intervals. .
In addition, a lottery table is stored in the ROM 17 of the operation processing unit 16D in order to perform a lottery for shifting to the AT game.

The ROM removal monitoring unit 30 is a medium removal monitoring unit that receives the count value signal output from the remote monitoring IC 18B and determines whether the ROM 17 has been removed based on the count value signal. .
The CPU 41 of the ROM removal monitoring unit 30 receives drive power from the power supply device 13 via the secondary battery 43, and thus receives drive power from the secondary battery 43 even if a power failure occurs. It is possible to monitor the removal of the ROM 17 even during a power failure.
Here, the secondary battery 43 is a power supply source capable of supplying power independently to the CPU 41 which is a medium removal monitoring unit.
Further, the CPU 41 of the ROM removal monitoring unit 30 has a data input terminal for inputting a digital data signal and a normal interrupt input terminal (hereinafter referred to as maskable) that can invalidate the data interrupt input. , And an NMI input terminal that is an interrupt input terminal that cannot be masked, in other words, cannot be masked.
Of these, the count value signal from the remote monitoring IC 18B is input to the data input terminal of the CPU 41, and the activation signal from the power switch 13A is input to the INT input terminal of the CPU 41.

The signal maintaining unit 41B of the CPU 41 is a processing means formed by internal hardware or software of the CPU 41, and receives both the activation signal input to the INT input terminal and the ROM status signal from the ROM removal determination unit 41C. It is supposed to be.
Further, when receiving the activation signal input to the INT input terminal, the signal maintaining unit 41B outputs an RT data request signal corresponding to the activation signal to the RTC 42.
More specifically, when the activation signal input to the INT input terminal is received, the signal maintaining unit 41B changes the signal value of the RT data request signal output to the RTC 42 from a transmission unnecessary value to a transmission request value, and transmits a transmission request. After changing to the value, the signal value of the RT data request signal is kept at the transmission request value.
As a result, the CPU 41 receives only the activation signal received first from the power switch 13A, and thereafter, even if the power switch 13A repeatedly transmits the activation signal, the activation signal from the power switch 13A is received each time. Ignore it.

Further, when receiving the activation signal from the power switch 13A, the signal maintaining unit 41B starts a monitoring operation for monitoring the ROM status signal from the ROM removal determination unit 41C, and generates an alarm signal corresponding to the received ROM status signal. The image is output to the ROM removal alarm display unit 45A on the image processing unit 16E side.
The signal maintaining unit 41B after starting the monitoring operation will be described in more detail. The signal maintaining unit 41B is configured so that the signal value of the ROM state signal is changed from the attachment logical value to the removal logical value. After changing the signal value of the alarm signal from the normal logical value indicating the normal state to the abnormal logical value indicating the abnormal state, and changing to the abnormal logical value, the signal value of the alarm signal is continuously maintained at the abnormal logical value. Yes.
For example, when the attachment logic value and the removal logic value of the ROM status signal are set to “0” and “1”, the signal maintaining unit 41B first sets the signal value of the ROM status signal from “0”. The signal value of the alarm signal is changed from the normal logic value to the abnormal logic value with the change to “1” as the only trigger, and then the signal value is changed from “0” to “1” or “ Even if the value changes from “1” to “0”, the signal value of the alarm signal is not changed.
Thereby, when the signal value of the ROM state signal is changed from the attachment logical value to the removal logical value, the CPU 41 is stored in the RAM or the register even if the power supply from the power supply device 13 is stopped thereafter. Processing for changing the state and value of the signal is not executed, and as a result, the signal value of the alarm signal is continuously maintained at the abnormal logic value.

In response to the RT data request signal from the signal maintaining unit 41B, the RTC 42 converts the RT data signal indicating the actual time at that time into the RAM 41A provided in the CPU 41 of the same ROM removal monitoring unit 30, and the image processing unit 16E. To the RAM 45B provided in the CPU 45 on the side.
More specifically, when the signal value of the RT data request signal from the signal maintaining unit 41B is changed from the transmission unnecessary value to the transmission request value, the RTC 42 converts the RT data signal indicating the actual time at the time of the change into the RAM 41A and the CPU 45 of the CPU 41. To the RAM45B.
Here, the RT data request signal from the signal maintaining unit 41B maintains the transmission request value once the signal value is changed to the transmission request value, so the number of times of transmission of the RT data signal by the RTC 42 is one time. It has become limited to.

Here, the RTC 42 includes an oscillator (not shown) that emits a predetermined electric pulse at a constant period and an oscillation number counter (not shown) that counts the number of electric pulses emitted by the oscillator, and at the time when the time display is started. The RT data, which is real-time data, is obtained by counting the number of electrical pulses generated by the oscillator with the oscillation number counter.
The RAM 41A is a monitoring unit side storage unit for storing the value of RT data, which is also the count value counted by the oscillation number counter built in the RTC 42, as a monitoring unit side storage value.

  When the RT data signal is sent from the RTC 42, the RAM 41A stores the RT data indicated by the sent RT data signal, and stores it every time a stored value request signal is sent from the comparison operation unit 45C. The unit-side stored value signal indicating the monitored unit-side stored value that is the RT data being transmitted is transmitted to the comparison operation unit 45C.

The image processing unit 16E has a function of causing the liquid crystal display device 4E to display that the ROM 17 has been removed in response to the alarm signal from the signal maintaining unit 41B, and the ROM removal monitoring unit 30 is removed from the sub control board 16. It has a function to determine whether or not it has been.
That is, the ROM removal alarm display unit 45A of the image processing unit 16E receives the alarm signal from the signal maintaining unit 41B, and the ROM 17 is removed when the signal value of the received alarm signal is an abnormal logic value. This information is displayed on the screen of the liquid crystal display device 4E.
Here, the liquid crystal display device 4E serves as medium removal notification means for notifying that the ROM 17 has been removed.

When the RT data signal is sent from the RTC 42, the RAM 45B stores the RT data indicated by the sent RT data signal, and stores the stored value request signal every time the comparison calculation unit 45C sends it. The board-side stored value signal indicating the control means-side stored value, which is the RT data being transmitted, is transmitted to the comparison operation unit 45C.
The comparison operation unit 45C is provided in the same CPU 45 as the RAM 41A provided in the CPU 41 on the ROM removal monitoring unit 30 side each time a comparison command signal periodically transmitted from the CPU 44 of the operation processing unit 16D is received. A stored value request signal for requesting transmission of the value of RT data stored therein is transmitted to the RAM 45B.

When the comparison calculation unit 45C receives the unit-side stored value signal from the RAM 41A and the board-side stored value signal from the RAM 45B, it compares the signal value of the unit-side stored value signal with the signal value of the board-side stored value signal. The alarm signal corresponding to the comparison result is output to the ROM removal alarm display unit 45A.
More specifically, the comparison operation unit 45C compares the signal value of the unit-side stored value signal with the signal value of the substrate-side stored value signal, and as a result, the signal value of the unit-side stored value signal and the signal of the substrate-side stored value signal If the values are different, the signal value of the alarm signal is changed from a normal logical value indicating a normal state to an abnormal logical value indicating an abnormal state.
Here, when the signal value of the alarm signal received from the comparison operation unit 45C is changed to an abnormal logic value, the ROM removal alarm display unit 45A changes the signal value of the alarm signal from the signal maintaining unit 41B to an abnormal logic value. As in the case where the ROM 17 has been removed, the fact that the ROM 17 has been removed is displayed on the screen of the liquid crystal display device 4E to notify that, in other words, the liquid crystal display device 4E issues an alarm. Yes.

In the above, when it is determined by the ROM removal monitoring unit 30 that the ROM 17 has been removed, the image processing unit 16E controls the liquid crystal display device 4E to notify the liquid crystal display device 4E that the ROM 17 has been removed. This is a notification operation control means.
Further, the CPU 45 receives an RT data signal, which is an information signal including RT data as information relating to the ROM removal monitoring unit 30, from the ROM removal monitoring unit 30, and based on the RT data signal, the ROM removal monitoring unit 30 Monitoring unit removal determination means for determining whether or not 30 has been removed.

Further, the image processing unit 16E is configured to cause the liquid crystal display device 4E to perform an operation for notifying the removal of the ROM 17 when the CPU 45 determines that the ROM removal monitoring unit 30 has been removed. Yes.
Further, when the RTC 42 receives the RT data request signal which is a predetermined storage command signal, the RTC 42 informs the image processing unit 16E of the RT data which is the count value at that time which is counted by the built-in oscillation number counter. The count value processing unit stores the RT data notified to the image processing unit 16E in the RAM 41A.

Further, the RAM 45B is a control means side storage unit that stores RT data, which is a count value of the oscillation number counter notified by the RTC 42 that is a count value processing unit, as a control means side storage value.
In addition, the comparison operation unit 45C informs the monitoring unit side stored value stored in the ROM removal monitoring unit 30 every time it receives a comparison command signal sent from the CPU 44 at predetermined intervals. A stored value request signal required for the unit 30 is sent to the ROM removal monitoring unit 30. In other words, the comparison calculation unit 45C serves as a stored value requesting unit that sends a stored value request signal to the ROM removal monitoring unit 30 at predetermined intervals.
Further, when the monitoring unit side storage value is notified from the ROM removal monitoring unit 30, the comparison calculation unit 45C compares the notified monitoring unit side storage value with the control means side storage stored in the RAM 45B. It is a value comparison means.

Further, the CPU 45 serving as the monitoring unit removal determining means is the case where the notified monitoring unit side stored value is different from the control means side stored value stored in the RAM 45B as a result of the comparison operation unit 45C comparing. The ROM removal monitoring unit 30 is formed so as to be determined as being removed.
Further, the image processing unit 16E as the notification operation control means is configured to cause the liquid crystal display device 4E to perform an operation for notifying the removal of the ROM 17 when the CPU 45 determines that the ROM removal monitoring unit 30 has been removed. Has been.

  In the slot machine 1 having such a sub-control board 16, when the ROM 17 is replaced with an illegal ROM, the signal value of the alarm signal output from the ROM removal monitoring unit 30 is changed to an abnormal logic value, thereby Then, it is displayed on the screen of the liquid crystal display device 4E that the ROM 17 has been removed. In other words, an alarm is issued by the liquid crystal display device 4E, and an unauthorized removal action of the ROM 17 is notified.

Also, the secondary battery 43 is provided in the ROM removal monitoring unit 30, and once the signal value of the alarm signal output from the ROM removal monitoring unit 30 is changed to an abnormal logic value, it is maintained at the abnormal logic value thereafter. Therefore, even if the power switch 13A is OFF and the ROM 17 is illegally replaced, the signal value of the alarm signal is changed to an abnormal logic value by removing the ROM 17 at that time. Since the abnormal logic value is maintained, when the power of the slot machine 1 is turned on again, it is displayed on the screen of the liquid crystal display device 4E that the ROM 17 has been removed, thereby informing the unauthorized removal of the ROM 17 The
The ROM removal monitoring unit 30 uses the power stored in the secondary battery 43 to generate a slot machine once the signal value of the alarm signal output from the ROM removal monitoring unit 30 is changed to an abnormal logic value. Even if it is removed from the slot machine 1, it is left in the state removed from the slot machine 1, and if the secondary battery 43 is completely discharged and then attached to the slot machine 1, the signal value of the alarm signal is reset to the original state. So it can be reused.

  In addition, when the ROM removal monitoring unit 30 is removed, the electrical connection between the INT input terminal of the CPU 41 and the ROM attachment / detachment sensor 18A is interrupted, so that the signal reception state of the INT input terminal of the CPU 41 is changed from the ROM attachment / detachment sensor 18A to the ROM 17 Even if the ROM 17 is illegally replaced with the ROM removal monitoring unit 30 removed, the signal value of the alarm signal is changed to an abnormal logic value, and thus the liquid crystal display device 4E Is displayed on the screen indicating that the ROM 17 has been removed, and an unauthorized removal of the ROM 17 is notified.

  Further, when the ROM 17 is replaced with an unauthorized ROM, if the ROM removal monitoring unit 30 is also replaced with an unauthorized ROM removal monitoring unit 30, the ROM removal monitoring unit 30C is compared by the comparison operation unit 45C of the CPU 45. The monitoring unit side stored value from 30 and the control means side storage stored in the RAM 45B of the CPU 45 are compared, and the monitoring unit side stored value from the unauthorized ROM removal monitoring unit 30 and stored in the RAM 45B of the CPU 45 Therefore, the signal value of the alarm signal output from the comparison operation unit 45C is changed to an abnormal logic value, which causes the ROM 17 to be removed from the screen of the liquid crystal display device 4E. Is displayed, and an unauthorized removal of the ROM 17 is notified.

  When the ROM removal monitoring unit 30 is removed when replacing the ROM 17 with an illegal ROM, the stored value on the monitoring unit side from the ROM removal monitoring unit 30 is not output. In the comparison processing, the monitoring unit side stored value and the control means side stored in the RAM 45B of the CPU 45 do not match, so in this case also the signal value of the alarm signal output from the comparison operation unit 45C Is changed to an abnormal logical value, thereby displaying that the ROM 17 has been removed on the screen of the liquid crystal display device 4E, and notifying the unauthorized removal of the ROM 17.

(Effect of embodiment)
According to this embodiment as described above, the following effects can be obtained.
That is, as a medium removal detecting means for detecting the removal of the ROM 17, which is a storage medium, when it is detected that the ROM 17 is removed, the signal value is changed from the attachment logical value indicating the attachment state to the removal logical value indicating the removal state. A ROM attachment / detachment sensor 18A that outputs a ROM status signal to be changed, a separation monitoring IC 18B, and a ROM removal determination unit 41C are provided, and when the ROM 17 is illegally removed, the signal value of the ROM state signal becomes a removal logical value. Since the change is made, it is possible to detect in real time whether or not the ROM 17 is illegally removed by monitoring the signal value of the ROM state signal.
In addition to the above described ROM attachment / detachment sensor 18A, separation monitoring IC 18B and ROM removal determination unit 41C, when a start signal indicating that the power switch 13A is turned on is received as a detection start signal, the ROM removal A monitoring operation for monitoring the ROM status signal from the determination unit 41C is started, and the normal logic value indicating the normal status is abnormally changed as the signal value of the ROM status signal is changed from the attachment logic value to the removal logic value. A CPU 41 that outputs an alarm signal whose signal value is changed to an abnormal logic value indicating a state is provided, and when the signal value of the alarm signal is changed to an abnormal logic value, an alarm is issued by the liquid crystal display device 4E As a result, if the ROM 17 is illegally removed while the slot machine 1 is operating, an alarm is immediately issued by the liquid crystal display device 4E. Fraud It can be notified in real time.

Here, the CPU 41 can maintain the abnormal logic value regardless of the ON / OFF state of the power switch 13A by changing the signal value of the alarm signal from the normal logic value to the abnormal logic value after the start of the monitoring operation. Therefore, when the slot machine 1 is turned off and no alarm is issued by the liquid crystal display device 4E, even if the ROM 17 is replaced, if the slot machine 1 is turned on again, the image processing controller 16E The alarm signal is recognized as an abnormal logic value, and the liquid crystal display device 4E can notify that the ROM 17 has been tampered with. In other words, the liquid crystal display device 4E can issue an alarm. Therefore, it is possible to sufficiently prevent unauthorized replacement of the ROM 17.
Moreover, immediately after the unauthorized replacement of the ROM 17, the power line of the RAM 45B provided in the image processing control unit 16E that controls the liquid crystal display device 4E is cut off, the power of the RAM 45B is cut off, and the ROM 17 stored in the RAM 45B is replaced. Even when the recording is forcibly cleared, the signal value of the alarm signal generated by the CPU 41 maintains the abnormal logic value. Therefore, when the power of the slot machine 1 is turned on again, the image processing controller 16E It is recognized that the signal value is an abnormal logic value, and the liquid crystal display device 4E can notify that the ROM 17 has been tampered with. In other words, the liquid crystal display device 4E can issue an alarm. Can be sufficiently prevented.

Further, in order to detect the removal of the ROM 17, a ROM attachment / detachment sensor 18A that outputs a ROM state signal in which the signal value is changed from the attachment logical value indicating the attachment state to the removal logical value indicating the removal state when the ROM 17 is removed. Since the separation monitoring IC 18B and the ROM removal determination unit 41C are provided, when the ROM 17 is removed, the signal value of the ROM state signal becomes the removal logic value, and the signal value of the ROM state signal is monitored by Unauthorized removal can be detected in real time.
At this time, the ROM state signal from the ROM removal determination unit 41C is monitored, and from the normal logical value indicating the normal state according to the change of the signal value of the ROM state signal from the attachment logical value to the removal logical value. The ROM removal monitoring unit 30 includes a CPU 41 that outputs an alarm signal whose signal value is changed to an abnormal logic value indicating an abnormal state, and a secondary battery 43 that can supply power to the CPU 41 independently. Therefore, even if the power of the slot machine 1 is turned off, the power is supplied by the secondary battery 43, and the ROM removal monitoring unit 30 uses the signal value of the alarm signal changed from the normal logic value to the abnormal logic value. The abnormal logic value will be maintained.
Therefore, when the power of the slot machine 1 is OFF and the liquid crystal display device 4E cannot issue an alarm, the ROM 17 is replaced. Thereafter, even if the power of the RAM 45B of the image processing unit 16E is cut off, the RAM 45B Even if the stored exchange record of the ROM 17 is cleared, the CPU 41 maintains the signal value of the alarm signal at the abnormal logic value. Therefore, after the slot machine 1 is turned on again, the signal value of the alarm signal becomes the abnormal logic value. If the image processing unit 16E recognizes that the ROM 17 has been illegally exchanged, the liquid crystal display device 4E can be informed that the ROM 17 has been illegally exchanged. Thus, the ROM 17 can be sufficiently prevented from being illegally exchanged. .

  Here, the CPU 41 and the secondary battery 43 of the ROM removal monitoring unit 30 are sealed with the case portion 31, thereby preventing unauthorized operation of the CPU 41 and the secondary battery 43 from the outside. Without destroying the ROM removal monitoring unit 30, it is no longer possible for the CPU 41 to interfere with the operation of detecting the removal of the ROM 17 by an external operation. From this point also, it is reliably notified that the ROM 17 has been tampered with. Therefore, it is possible to sufficiently prevent unauthorized replacement of the ROM 17.

  In addition, an RTC 42 that includes an oscillator that emits predetermined electrical pulses at a constant period and an oscillation number counter that counts the number of electrical pulses emitted by the oscillator, and outputs an RT data signal that is a count value of the oscillation number counter. Further, a RAM 41A for storing the count value indicated by the RT data signal output from the RTC 42 as a storage value on the monitoring unit side is provided in the CPU 41. When the RT data request signal is received as the RTC 42, the oscillation number counter at that time is received. Is used for notifying the image processing unit 16E of the RT data, which is the count value of the image data, and storing the count value notified to the image processing unit 16E in the RAM 41A. Further, the RT data notified by the RTC 42 is stored in the control means side stored value. Since the CPU 45 is provided with a RAM 45B for storing as an authentication password, a count value (monitoring Set memory values and control means side stored values) are automatically set, and a different authentication password is set for each slot machine 1, and the CPU 45 and ROM are removed. The registration work to be registered in the monitoring unit 30 is not necessary, and the authentication count value used as the password is known even by the staff of the game hall where the slot machine 1 is installed or the factory worker who produces the slot machine 1 As a result, it is possible to improve crime prevention against illegal exchange of the ROM 17.

Then, when the genuine ROM removal monitoring unit 30 installed in the slot machine 1 is removed and replaced with an unauthorized ROM removal monitoring unit 30, the CPU 41 provided in the ROM removal monitoring unit 30 is replaced. Since the monitoring unit side stored value as the password stored in the RAM 41A of the CPU 45 and the control means side stored value as the password stored in the RAM 45B of the CPU 45 are different, the ROM removal monitoring unit 30 is removed by the CPU 45. The liquid crystal display device 4E notifies the removal of the ROM 17 according to the determination result.
As a result, it is not necessary to set or register an authentication password, and whether or not the ROM removal monitoring unit 30 has been illegally replaced without performing an authentication password setting or registration operation. Since the determination can be made accurately, the ROM removal monitoring unit 30 is illegally exchanged, and even if the removal of the ROM 17 cannot be detected, it can be notified that the ROM 17 has been illegally exchanged. It will be possible to prevent it sufficiently.

[Second Embodiment]
Subsequently, a second embodiment of the present invention will be described. In the following description, the same reference numerals are assigned to the same devices and parts as those in the first embodiment, and the description thereof is omitted or simplified.
In the second embodiment, the ROM attachment / detachment sensor 18A, the separation monitoring IC 18B, and the ROM removal determination unit 41C employed as the medium removal detection means in the first embodiment are combined with a photo interrupter integrated with the IC socket 18 or This is a ROM attach / detach sensor composed of proximity switches such as limit switches.
[Second Embodiment]
Further, in the above-described embodiment, the medium removal detection unit is configured to include the ROM attachment / detachment sensor 18A, the separation monitoring IC 18B, and the ROM removal determination unit 41C. You may employ | adopt ROM attachment / detachment sensor comprised including proximity switches, such as an interrupter or a limit switch.
Since such a ROM attachment / detachment sensor can detect removal of the ROM 17 only by the ROM attachment / detachment sensor, a signal maintenance unit provided in the CPU 41 of the ROM removal monitoring unit 30 sends a ROM state signal as a medium state signal. Output directly to 41B.
Here, the ROM status signal output from the ROM attachment / detachment sensor, when the ROM attachment / detachment sensor detects that the ROM 17 is removed, the signal value changes from the attachment logical value indicating the attachment state to the removal logical value indicating the removal state. The signal is changed.

  The ROM status signal of the ROM attachment / detachment sensor is input to the NMI input terminal of the CPU 41 constituting the medium removal monitoring means. As described above, the activation signal from the power switch 13A is input to the INT input terminal of the CPU 41.

Here, the internal processing of the CPU 41 in which the start signal is input to the INT input terminal and the ROM state signal is input to the NMI input terminal will be described with reference to FIG.
When sufficient power is charged in the secondary battery 43, the CPU 41 starts the main routine process. As one process of the main routine process, the CPU 41 continues until the start signal is input to the INT input terminal as shown in FIG. The INT input process is performed according to the procedure shown.

That is, as shown in FIG. 9A, in step S1000, it is determined whether or not it is permitted to input a signal at the INT input terminal.
If it is determined in step S1000 that inputting a signal at the INT input terminal is permitted, the process proceeds to the next step S1100, while it is determined that inputting an signal at the INT input terminal is permitted. If not, the process returns to the main routine process.

  In step S1100, it is determined whether an activation signal is input to the INT input terminal. If it is determined in step S1100 that the start signal is input to the INT input terminal, the process proceeds to the next step S1200. If it is not determined that the start signal is input to the INT input terminal, the process proceeds to the main routine process. Return.

In step S1200, an RT data request signal output process for outputting an RT data request signal for requesting RT data to RTC 42 is performed. When this RT data request signal output process is completed, the process proceeds to the next step S1300.
In step S1300, an RT data signal acquisition process for acquiring an RT data signal is performed. When this RT data signal acquisition process is completed, the process proceeds to the next step S1400.

In step S1400, an RT data RAM writing process for writing the RT data of the acquired RT data signal into the RAM 41A is performed. When this RT data RAM writing process is completed, the process proceeds to the next step S1500.
In step S1500, an INT input non-permission process is performed so as not to permit the input of a signal at the INT input terminal. When this INT input non-permission process ends, the process returns to the main routine process.

On the other hand, the CPU 41 performs NMI input processing according to the procedure shown in FIG.
That is, as shown in FIG. 9B, in step S2000, it is determined whether or not it is not permitted to input a signal at the INT input terminal.
If it is determined in step S2000 that it is not permitted to input a signal at the INT input terminal, the process proceeds to the next step S2100, while it is not permitted to input a signal at the INT input terminal. If it is not determined that there is, the process returns to the main routine process.

  In step S2100, it is determined whether the ROM status signal input to the NMI input terminal has become a removal logic value. If it is determined in step S2100 that the ROM status signal has become a removal logical value, the process proceeds to the next step S2200. If it is not determined that the ROM status signal has become a removal logical value, the main routine is executed. Return to processing.

  In step S2200, an abnormal signal output process for outputting an abnormal signal to the CPU 45 of the image processing unit 16E is performed. When this abnormal signal output process is completed, the process returns to the main routine process.

The CPU 41 that performs the processing as described above allows the activation signal to be input to the INT input terminal only once, and thereafter does not allow the input of the activation signal. Therefore, the RT data is acquired and written once. Only to do it.
Further, the CPU 41 determines whether or not the ROM state signal has become a removal logic value on the condition that the activation signal is input to the INT input terminal, and the activation signal is already input to the INT input terminal. Outputs an abnormal signal when the ROM status signal reaches the removal logical value, but if the activation signal has not yet been input to the INT input terminal, the abnormal signal is output even if the ROM status signal becomes the removal logical value. Is not output.

The operation of the CPU 41 as described above will be described below with reference to the time chart of FIG.
In FIG. 10, the CPU 41 has been operating before the slot machine 1 is started. Then, until the slot machine 1 starts up, in other words, before the slot machine 1 starts up, the CPU 41 receives the ROM state signal input to the NMI input terminal as shown in FIG. Even if (see * 1), no abnormal signal is output.

When a start signal is input to the INT input terminal at time T1 in FIG. 10, the CPU 41 requests RT data from the RTC 42, and uses the RT data acquired from the RTC 42 to read out the ROM removal monitoring unit. Allow to determine if 30 has been removed.
When these processes are completed, the CPU 41 enables the abnormality process based on the signal input to the NMI input terminal and makes the signal input to the INT input terminal unpermitted. Accordingly, when the ROM state signal input to the NMI input terminal is changed from the attachment logic value to the removal logic value at time T2 in FIG. 10, the CPU 41 outputs an abnormal signal as shown in FIG. At the same time, the logical value of the signal of the abnormal signal is not changed, in other words, the value at time T2 is maintained.

In addition, since the signal input to the INT input terminal is not permitted after the time T1, even if a start signal is input to the INT input terminal as shown in FIG. The logic value of the signal is not changed.
Furthermore, since the CPU 41 does not change the logic value of the signal of the abnormal signal and maintains the value at the time T2 after the output of the abnormal signal, the ROM state input to the NMI input terminal after the time T2 has elapsed. Even if the signal is changed from the mounting logic value to the removal logic value (see * 3), the logic value of the signal such as an abnormal signal does not change.
Even in the present embodiment such as an abnormality, the same operations and effects as those in the first embodiment can be achieved.

In addition, this invention is not limited to the said embodiment, The deformation | transformation in the range which can achieve the objective of this invention, improvement, etc. are included.
For example, in the first embodiment, the RTC that measures the actual time is adopted as the means for acquiring the count value that is the password for authentication. However, the present invention is not limited to this, and an oscillator that emits a predetermined electric pulse at a constant period is used. And an oscillation number counter that counts the number of electrical pulses emitted by the oscillator, and random number acquisition means that extracts a count value from the oscillation number counter at an arbitrary timing.
In the first embodiment, the count value to be an authentication password is automatically set using the RTC 42. However, the authentication password is automatically set on the gaming machine side. Not only those, but when a gaming machine is manufactured, a different authentication password is set for each gaming machine, and the password is assigned to both the monitoring unit removal judging means and the medium removal monitoring unit. If registered and replaced with an unauthorized medium removal monitoring unit, the registered passwords may not be matched.

Further, the circuit board for the gaming machine is not limited to the sub-control board 16, but may be a main control board for controlling the operation of the reel unit 10 and the hopper unit 12. In short, the operation of the device provided in the gaming machine is controlled. Any circuit board may be used as long as a control circuit is provided.
In the first embodiment, the main control board 15 for controlling the game operation and the sub-control board 16 for controlling the production operation are separately provided. However, the form of the control board is not limited to this, and the main control board 15 The electronic component constituting the substrate and the electronic component constituting the sub control substrate may be provided on one substrate, and the main control substrate and the sub control substrate may be integrated.

In the first embodiment, the image processing unit 16E is provided in the comparison operation unit 45C. However, the present invention is not limited to this, and the image processing unit 16E is provided in the ROM removal monitoring unit 30, and an alarm is output from the ROM removal monitoring unit 30. A signal may be output.
In this case, in the first embodiment, the comparison command signal is periodically output from the operation processing unit 16D to the comparison operation unit 45C. However, the output source of the comparison command signal is not limited to the operation processing unit 16D. The comparison command signal may be output from the image processing unit 16E to the image processing unit 16E provided in the ROM removal monitoring unit 30.

  Further, in the first embodiment, the liquid crystal display device 4E performs the notification operation of the removal of the ROM 17, but the device that operates the notification of the removal of the ROM 17 is not limited to the liquid crystal display device 4E. You may carry out with a device, for example, low power consumption illuminating devices, such as LED. In the case of notifying the removal of the ROM 17 in the low power consumption lighting device, when the ROM 17 is normally installed, the low power consumption lighting device is continuously turned on, and when the ROM 17 is removed, the low power consumption It is desirable to blink the lighting device and notify the removal of the ROM 17 by the blinking operation of the lighting device. When it is determined that the ROM removal monitoring unit 30 has been removed, the liquid crystal display device 4E is configured to perform an operation for notifying the removal of the ROM 17.

  In the first embodiment, when the ROM removal monitoring unit 30 is removed, the liquid crystal display device 4E notifies that the ROM 17 has been removed, and the removal of the ROM removal monitoring unit 30 and the ROM removal monitoring are performed. Although the removal of the unit 30 cannot be determined only by the notification operation of the liquid crystal display device 4E, the mode / operation for notifying the removal of the ROM removal monitoring unit 30 is not limited to this, and the ROM removal monitoring unit 30 If the ROM removal monitor unit 30 is removed, the liquid crystal display device 4E may notify that the ROM removal monitoring unit 30 has been removed so that it can be distinguished from the removal of the ROM removal monitoring unit 30. You may alert | report by blinking the device for exclusive use which alert | reports, for example, the illuminating device of the low power consumption mentioned above.

Furthermore, in the first embodiment, when the ROM removal monitoring unit 30 is removed, or when the ROM 17 is removed, the liquid crystal display device 4E only notifies that fact. 30 or triggered by the removal of the ROM 17, a part of the function of the sub-control board 16, for example, the navigator function for guiding the operation sequence of the three stop switches 7D is stopped, or the sub-control board 16 All functions may be stopped.
The gaming machine is not limited to a slot machine, and may be a ball game machine such as a pachinko machine. In short, the present invention is a gaming machine provided with a circuit board on which a control circuit for controlling the operation of a built-in device is formed. Applicable in general.

1 Slot machines that are gaming machines
4E Liquid crystal display device as a gaming device
16 Sub control board as control board
17 ROM as storage medium
18 ROM attachment / detachment sensor as medium removal detection means
30 ROM removal monitoring unit as medium removal monitoring means

Claims (1)

A gaming machine comprising a gaming device that operates as the game progresses, and a control board that has a storage medium that is detachably provided and on which a control circuit that controls the operation of the gaming device is formed.
When the removal of the storage medium is detected, and the removal of the storage medium is detected, a medium status signal is output in which the signal value is changed from the attachment logical value indicating the attachment state to the removal logical value indicating the removal state. Medium removal detecting means for
When a predetermined detection start signal is received, a monitoring operation for monitoring the medium state signal from the medium removal detecting means is started, and the signal value of the medium state signal is changed from the attachment logical value to the removal logical value. And a medium removal monitoring means for outputting an alarm signal in which a signal value is changed from a normal logical value indicating a normal state to an abnormal logical value indicating an abnormal state,
The medium removal monitoring means maintains an abnormal logic value when the signal value of an alarm signal is changed from a normal logic value to an abnormal logic value after the start of a monitoring operation.

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