JP2004147824A - Game medium storage device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game medium storage device capable of preventing electrostatic charge of game media stored in a storage part and preventing the malfunction with a small number of parts. <P>SOLUTION: The token storage part 50 is made of a conductive material with a prescribed resistance value. Detection terminals 62a and 62b are mounted at positions where the token storage part 50 is set, and through holes 52a and 52b into which the detection terminals 62a and 62b can be inserted are formed in the token storage part 50. When the token storage part 50 is set at the setting position, the token storage part 50 is connected to a frame gland via a conductive member 15. When the quantity of tokens stored in the token storage part 50 reaches a prescribed quantity and the detection terminals 62a and 62b are electrically connected to each other with the tokens, a detection signal is outputted from a detection circuit 61. At the time, variation of the circuit potential between the detection terminals 62a and 62b is moderated by the resistance value R of the token storage part 50, so that generation of noise is prevented. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a game medium storage device. In particular, the present invention relates to a game medium storage device that can prevent charging of game media stored in a storage section.
[0002]
[Prior art]
2. Description of the Related Art As a gaming machine for playing a game using a game medium, for example, a slot machine is known. FIG. 1 shows a schematic configuration of the slot machine. FIG. 1 is a view of the slot machine 1 as viewed from the front.
As shown in FIG. 6, the frame 10 of the slot machine 1 has a bottom member 11a, side members 11b and 11c, a top member 11d, a shelf member 11e, a back member 11f, a lid member (not shown), and the like. . Metal fittings (conductive frames) 12a, 12b, and 12c are provided in front of the side members 11b and 11c and the ceiling member 11d. The frame ground line 13 is connected to the metal fitting 12a.
In the upper part of the frame 10 of the slot machine 1 (the upper part of the shelf member 11e), symbols to be displayed on a symbol display portion (left symbol display portion, middle symbol display portion, right symbol display portion provided on the lid member) are arranged. (The left reel 21 for the left symbol, the second reel 22 for the middle symbol, and the right reel 23 for the right symbol) are provided. A driving device (for example, an electric motor) for driving the rotating reel is controlled by the main control device 30. Power is supplied to the main control device 30 from a power supply device 40.
At a lower part of the frame 10 (an upper part of the bottom member 11a), a medal storing unit 24 for storing medals as game media is provided. In the medal storage unit 24, medals inserted by a player into a medal insertion slot provided in the lid member and medals supplied by a staff or an automatic replenishing machine are stored.
In addition, when the player inserts a medal and plays a game to win the game (for example, the left symbol stop button, the middle symbol stop button, and the right symbol stop button to operate the left symbol rotation reel 21, When the symbol rotating reel 22 and the right symbol rotating reel 23 are stopped, the symbols are stopped and displayed on the left symbol display, the middle symbol display, and the right symbol display to form a predetermined symbol array. Is provided. The medal payout device 25 is controlled by the main control device 30.
Here, when the number of inserted medals is larger than the number of paid out medals, the amount (number) of medals stored in the medal storing unit 24 increases. Therefore, an outlet 26 for discharging medals exceeding a predetermined amount is provided above the medal storing unit 24. The medals discharged from the outlet 26 are stored in a medal storage unit 50 provided below the outlet 26.
[0003]
By the way, if such a state continues, the amount (number) of medals stored in the medal storage unit 50 increases, and medals may overflow from the medal storage unit 50.
Therefore, a detection device (medal accumulation state detection device) for detecting that the amount of medals stored in the medal storage unit 50 has reached a predetermined amount (accumulation state) is provided, and is stored in the medal storage unit 50 by the detection device. When it is detected that the amount of medals has reached a predetermined amount, notification or the like is performed.
A medal storage device provided with a detection device that detects that the amount of medals stored in the medal storage unit 50 has reached a predetermined amount is described in, for example, Patent Document 1. FIG. 5 shows an electric circuit diagram of a conventional medal storage device. FIG. 6 shows a state in which the medal storage unit 50 is taken out of the frame 10, and FIG. 7 shows a state in which the medal storage unit 50 is installed in the frame 10. The detection device 60 utilizes the fact that medals (game media) have conductivity.
The medal storage unit 50 is formed of an insulating material in a box shape having an open top. As shown in FIG. 6, the medal storage unit 50 is installed on the bottom surface member 11 a of the frame 10 at a position below the outlet 26 provided in the medal storage unit 24.
Insertion holes 52a and 52b are provided at a position at the same height from the bottom member in a rear member of the medal storage unit 50 installed on the inner side of the frame body 10 (the rear member 11f side). In addition, a handle is provided on the front side of the medal storage unit 50 to put the medal storage unit 50 in and out of the frame 10.
[0004]
When the medal storage unit 50 is installed at the position shown in FIG. 7 on the rear member 11f of the frame 10, the detection terminal 62a is located at a position facing the insertion holes 52a and 52b provided in the medal storage unit 50. , 62b are provided. The interval between the detection terminals 62a and 62b is set to be longer than the diameter of one medal. The detection terminals 62a and 62b are connected to the detection circuit 61 of the detection device 60. The detection circuit 61 of the detection device 60 outputs a detection signal indicating a conduction state or a non-conduction state between the detection terminals 62a and 62b.
When the medal storage unit 50 is installed, the detection terminals 62a and 62b are inserted into the insertion holes 52a and 52b provided in the medal storage unit 50, as shown in FIG. Push it in from the front so that it protrudes.
When the medal storage unit 50 is installed as shown in FIG. 7, the amount of medals stored in the medal storage unit 50 increases, and the detection terminals 62a and 62b are connected by two or more medals. Then, since the medal has conductivity, the detection terminals 62a and 62b conduct. Accordingly, the detection device 60 outputs a detection signal indicating that the amount of medals stored in the medal storage unit 50 has reached a predetermined amount.
When the main control device 30 determines that the amount of medals stored in the medal storage portion 50 has reached a predetermined amount based on the detection signal of the detection device 60, for example, it activates a notification device to notify a clerk or the like. To inform.
[0005]
[Patent Document 1]
JP 2001-299994 A
[Problems to be solved by the invention]
When the medals stored in the medal storage unit 50 are charged, a high voltage is applied to the detection circuit 61 via the detection terminals 62a and 62b when the detection terminals 62a and 62b are connected by a plurality of medals. Therefore, main controller 30 may malfunction. Therefore, the medal stored in the medal storage unit 50 is configured to be prevented from being charged.
For example, as shown in FIGS. 5 to 7, an insertion hole 52 c is provided at a lower portion of a rear member installed on the inner side of the frame body 10 in the medal storage unit 50. When the medal storage unit 50 is installed at the position shown in FIG. 7, a frame ground terminal 62 c is provided on the back member 11 f of the frame 10 at a position facing the insertion hole 52 c provided in the medal storage unit 50. Is provided. The frame ground terminal 62c is connected to the frame ground of the frame 10 via the frame ground line 13.
In this case, when the medal storage unit 50 is installed at the position shown in FIG. 7, the detection terminals 62a and 62b and the frame ground terminal 62c are inserted into the insertion holes 52a, 52b and 52c provided in the medal storage unit 50, respectively. It protrudes into the storage space where the medals are stored. As a result, the medals stored in the medal storage unit 50 are connected to the frame ground directly or via another ground and the ground terminal 62c, so that charging of the medals is prevented.
[0007]
Here, as shown in FIG. 5, the detection device 60 is configured as a detection substrate in which a detection circuit 61 and the like are arranged on a substrate, and the detection circuit 61 is connected to a circuit ground of the detection substrate. On the other hand, the frame ground terminal 62c is connected to the frame ground of the frame body 10. Therefore, the circuit ground of the detection device 60 and the frame ground of the frame 10 may not be at the same potential. In this case, when a medal stored in the medal storage unit 50 contacts the detection terminals 62a and 62b, the potentials of the detection terminals 62a and 62b rapidly change, and noise occurs between the detection terminals 62a and 62b. May malfunction.
As a method of preventing the potentials of the detection terminals 62a and 62b from suddenly changing, a method of providing a noise filter 70 between the detection terminals 62a and 62b and the frame ground can be considered.
However, in this method, since the noise filter 70 is used, the number of components increases, and an operation of connecting the noise filter 70 is required.
Accordingly, it is an object of the present invention to provide a game medium storage device that can prevent charging of a game medium stored in a storage unit with a small number of parts and can prevent malfunction. .
[0008]
[Means for Solving the Problems]
A first invention of the present invention for solving the above-mentioned problem is a game medium storage device as described in claim 1.
In the game medium storage device according to the first aspect, the storage portion provided with the detection terminal for detecting that the amount of the stored game medium has reached a predetermined amount is formed of a predetermined resistance by a conductive material. It is formed to have a value and is connected to the frame ground. Thus, for example, when the detection terminal is connected to the frame ground via the game medium and the storage unit, a change in the potential of the detection terminal is suppressed by the resistance of the storage unit. It is possible to prevent noise from being generated at the detection terminal without providing such circuit components. Therefore, it is possible to prevent the game media stored in the storage unit from being charged with a small number of parts, and to prevent malfunction due to noise.
According to a second aspect of the present invention, there is provided an apparatus for storing a game medium according to the second aspect.
In the storage device for a game medium according to the second aspect, the storage portion is formed of a conductive resin. Thereby, storage portions of various shapes can be easily obtained.
According to a third aspect of the present invention, there is provided an apparatus for storing a game medium according to the third aspect.
In the storage device for a game medium according to the third aspect, a conductive member which is capable of contacting with the storage portion when the storage portion is installed at the installation position and which is connected to the frame ground is provided. With this configuration, the storage unit is connected to the frame ground simply by installing the storage unit, so that the operation of connecting the storage unit to the frame ground is easy.
Further, a fourth invention of the present invention is a game medium storage device as described in claim 4.
In the game medium storage device according to the fourth aspect, the conductive member is provided on the support surface of the support member that supports the storage unit. This allows the storage section to be connected to the frame ground simply by placing the storage section on the support surface of the support member, thereby making it easier to connect the storage section to the frame ground.
According to a fifth aspect of the present invention, there is provided an apparatus for storing a game medium according to the fifth aspect.
In the game medium storage device according to the fifth aspect, since the conductive member is provided on the wall member around the installation position of the storage unit, it is possible to prevent noise from entering from outside the frame, Malfunction due to noise can be further prevented. Furthermore, since the conductive member provided in contact with the storage portion is connected to the frame ground via the conductive member of the wall member, it is possible to prevent the game media stored in the storage portion from being charged and to prevent the frame body from being charged. Intrusion of noise from the outside can be achieved with few components.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
One embodiment of the game medium storage device of the present invention is shown in FIGS. In this embodiment, the present invention is applied to a medal storage device of a slot machine. FIG. 2 shows an electric circuit diagram of the present embodiment, FIG. 3 shows a state in which a medal storing unit used in the present embodiment is taken out of a frame, and FIG. It is a figure which shows the state installed in the body.
[0010]
The slot machine of the present embodiment has the same configuration as the slot machine 1 shown in FIG. That is, the rotating reels 21 to 23, the medal storage unit 24, the medal payout device 25, the outlet 26 provided in the medal storage device, the medal storage unit 50 disposed below the outlet 26, the main control device 30, the power supply device. 40 and the like.
The main control device 30 includes a CPU (processing device) 31, a storage circuit (not shown), and the like. The main control device 30 has a CPU 31 and the like arranged on a board and is configured as a main control board. In the main control device 30, the ground terminal of each circuit is connected to the circuit ground of the main control board. For example, as described above, the main control device 30 controls the drive device that drives the rotating reels 21 to 23, and determines whether or not a hit is based on the symbol stopped and displayed on the symbol display unit. Processing, payout processing for paying out the number of medals corresponding to the case of winning from the medal payout device 25, and the amount of medals stored in the medal storage unit 50 based on the detection signal output from the detection device 60 is a predetermined amount. And a medal amount determination process for determining whether or not the number has reached.
The power supply device 40 is configured by a switching circuit (SW circuit) and the like, and supplies DC power of a predetermined voltage to the main control device 30 and the like. The power supply device 40 has a switching circuit and the like arranged on a substrate and is configured as a power supply substrate. In the power supply device 40, the ground terminal of each circuit is connected to the circuit ground of the power supply board.
[0011]
The detection device 60 includes a detection circuit 61, detection terminals 62a and 62b, and performs a main control of a detection signal indicating whether or not the amount (number) of medals stored in the medal storage unit 50 has reached a predetermined amount. Output to the device 30 (CPU 31). In the present embodiment, the detection circuit 61 outputs a detection signal indicating a conduction state or a non-conduction state between the detection terminals 62a and 62b provided in the medal storage unit 50.
The detection device 60 has a detection circuit 61 and the like arranged on a substrate, and is configured as a detection substrate. In the detection device 60, the ground terminals of the detection circuit 61 and the like are connected to the circuit ground of the detection board.
[0012]
In the present embodiment, the medal storage unit 50 installed on the bottom member 11a of the frame 10 below the outlet 26 provided in the medal storage unit 24 is made of a conductive material, for example, a good conductor. Is formed in a box shape having an open upper portion by a polycarbonate resin into which carbon black is appropriately mixed. The resistance value R of the medal storage unit 50, a polycarbonate resin alone, for example, the surface resistivity whereas a [1 × ^{10 16} Ω], for ^{example, [1 × 10 6] Ω~} [1 × 10 9] Ω Is set to
In a rear member of the medal storage unit 50 which is installed on the inner side of the frame 10 (on the side of the rear member 11f), insertion holes 52a and 52b are provided at substantially the same height from the bottom member.
[0013]
When the medal storage unit 50 is installed at the installation position shown in FIG. 4 on the back member 11f of the frame body 10, the medal storage unit 50 is detected substantially in parallel with the position facing the insertion holes 52a and 52b provided in the medal storage unit 50. Terminals 62a and 62b are provided. The interval between the detection terminals 62a and 62b is set to be longer than the diameter of one medal in order to prevent erroneous detection.
In addition, on the support surface (the upper surface in FIGS. 3 and 4) of the bottom member 11a of the frame body 10 that supports the medal storage member 50, a conductive member (first conductive member) is provided at a position where the medal storage member 50 is installed. Member 15 is provided. In the present embodiment, a metal plate having a predetermined width and extending in the longitudinal direction is used as conductive member 15. The conductive member 15 is installed at a position where the medal storage unit 50 is installed from the front side to the rear side (backward direction) of the frame 10. Further, in the present embodiment, in order to facilitate the connection work between the conductive member 15 and the metal fitting (frame) 12a provided on the side surface member 11b, the conductive member 15 is located at the position where the medal storage unit 50 is installed. It is installed at a position close to the side member 11b.
Further, conductive members (second conductive members) 14a, 14b and the like are provided on the inner surface of the side member 11b, the back member 11f, the inner surface of the side member 11c, and the lower surface of the shelf member 11e. In the present embodiment, aluminum foil is used as the conductive members 14a, 14b and the like. The conductive members 14 a and 14 b are provided to prevent noise from entering from outside the frame 10.
The metal fitting 12a provided on the side member 11b is connected to the ground frame line 13 via the conductive member 14a provided on the inner surface of the side member 11b and the conductive member 14b provided on the inner surface of the back member 11f. It is connected to the.
[0014]
Since the present embodiment is configured as described above, the medal storage unit 50 is disposed at a position below the outlet 26 of the medal storage unit 24 as shown in FIGS. When the support surface (upper surface) of the frame 11a is pushed backward from the front of the frame 10, the detection terminals 62a and 62b provided on the back member 11f of the frame 10 are provided in the medal storage unit 50. Through the insertion holes 52a and 52b, and protrudes into the storage space.
At the same time, the bottom surface of the medal storage unit 10 comes into surface contact with the conductive member 15 provided on the support surface of the bottom member 11 a of the frame 10. Here, the conductive member 15 is connected to the frame ground 13 via the metal fittings 12a provided on the side member 11b of the frame 10 and the conductive members 14a and 14b provided on the inner surfaces of the side member 11b and the back member 11f. It is connected. Therefore, when the medal storage unit 10 is installed at the installation position, the medal storage unit 50 (bottom surface) is automatically connected to the frame ground.
Thereby, the medals stored in the medal storage unit 50 are connected to the frame ground via the bottom surface of the medal storage unit 50, the conductive member 15, the metal fittings 12a, the conductive members 14a and 14b, and the frame ground line 13. Therefore, charging of the medals stored in the medal storage unit 50 can be prevented.
[0015]
In this state, when the amount of medals stored in the medal storage unit 50 increases and the detection terminals 62a and 62b are connected by two or more medals, the detection terminals 62a and 62b conduct. At this time, since the ground terminal of the detection circuit 61 is connected to the circuit ground and the medal storage unit 50 is connected to the frame ground, even if the potentials of the detection terminals 62a and 62b change, the resistance of the medal storage unit 50 is changed. The value changes slowly. For this reason, it is possible to prevent noise from being generated between the detection terminals 62a and 62b due to a sudden change in the potential of the detection terminals 62a and 62b, and to prevent malfunction due to noise.
In the present embodiment, the change in the potential of the detection terminals 62a and 62b is moderated using the resistance value of the medal storage unit 50. Therefore, there is no need to provide an electric circuit component such as a noise filter, and the number of components and the number of working steps can be reduced. When the detection terminals 62a and 62b conduct, the detection device 60 (detection circuit 61) detects that the amount of medals stored in the medal storage unit 50 has reached a predetermined amount, as described above. Output a signal. When the main control device 30 determines that the amount of medals stored in the medal storage portion 50 has reached a predetermined amount based on the detection signal of the detection device 60, for example, the main control device 30 activates a notification device to notify a staff member or the like. Notify. In the present embodiment, conductive members are provided on the side members 11b and 11c of the frame 10, the inner surface of the back member 12f, and the lower surface of the shelf member 11e, that is, the wall member around the medal storage unit 50. Therefore, it is possible to prevent noise from entering from outside the frame body 10 (shield external noise). Thereby, malfunction due to noise can be further prevented.
Furthermore, since the conductive members 14a and 14b are used as conductive members for connecting the metal fitting 12a provided on the side surface member 11b to the frame ground line 13, the number of components can be reduced.
[0016]
The present invention is not limited to the configuration described in the embodiment, and various changes, additions, and deletions are possible.
For example, the material, resistance value, and the like of the medal storage unit 50 can be appropriately changed as long as generation of noise due to a change in the potential of the detection terminals 62a, 62b can be prevented.
Further, the shape, the installation position, and the like of the medal storage unit 50 can be variously changed.
The shape, structure, material, installation position, and the like of the conductive member 15 connected to the medal storage unit 50 can be variously changed as long as the medal storage unit 50 can be connected to the frame ground. For example, it may be formed of a conductive resin, or may be provided on the side member 11b or the back member 11f. Alternatively, the connection with the medal storage unit 50 may be performed using a point contact method, or may be performed using a connection member.
Further, the conductive member 15 is connected to the frame ground line 13 via the metal fitting 12a, the conductive members 14a, 14b, and the like, but may be directly connected to the frame ground line 13.
Also, the metal member 15 (metal member to which the medal storage unit 50 is connected) and the metal members 14a and 14b (metal members for connecting the metal member 15 to the frame ground line 13) are separately provided. Alternatively, the metal member 15 and the metal member 14a or 14b can also be used. In this case, the conductive member for connecting the medal storage unit 50 to the frame ground line 13 and the metal member for noise shielding can be constituted by one metal member.
Further, a guide member for guiding the medal storage unit 50 to a position below the outlet may be provided so that the medal storage unit 50 can be easily installed at a position below the outlet 26. Further, the guide member may be formed of a conductive material and connected to the frame ground. In this case, the conductive member 15 can be omitted.
The method of connecting the conductive member 13 connected to the medal storage unit 50 to the frame ground can be variously changed.
In addition, the conductive members 14a and 14b for shielding noise are provided on the inner surfaces of the side members 11b and 11c and the rear member 11f, and the lower surface of the shelf member 11e. is there. Further, the noise blocking conductive member may be omitted.
Further, the installation position and the number of the detection terminals can be variously changed. Further, the method of detecting that the amount of medals stored in the medal storage unit 50 has reached a predetermined amount can be appropriately changed according to the installation position and the number of the detection terminals.
Also, the case has been described where the present invention is applied to the medal storage unit that stores the medals discharged from the medal storage unit 24 of the slot machine, but the present invention is applied to other various medal storage units. be able to. For example, it can be applied to a medal storage unit in a medal lending machine.
Also, the case where the present invention is applied to a slot machine using medals has been described, but the present invention can be applied to a gaming machine using game media having various conductivity other than medals.
[0017]
【The invention's effect】
As described above, by using the game medium storage device according to the first to fifth aspects, it is possible to prevent the game medium stored in the storage unit from being charged with a small number of parts and to malfunction. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a view showing a schematic configuration of a slot machine.
FIG. 2 is an electric circuit diagram of one embodiment of the present invention.
FIG. 3 is a diagram illustrating a state in which a medal storage unit used in one embodiment of the present invention is removed from a frame.
FIG. 4 is a diagram showing a state in which a medal storage unit used in one embodiment of the present invention is installed on a frame.
FIG. 5 is an electric circuit diagram of a conventional example.
FIG. 6 is a view showing a state in which a medal storage unit used in a conventional example is taken out of a frame.
FIG. 7 is a diagram showing a state in which a medal storage unit used in a conventional example is installed on a frame.
[Explanation of symbols]
Reference Signs List 10 Frames 12a, 12b, 12c Hardware 13 Frame ground wire 24 Medal storage unit 26 Outlet 30 Main controller 40 Power supply unit 50 Medal storage units 52a, 52b, 52c Insertion hole 60 Detecting devices 62a, 62b Detection terminal 62c Frame ground terminal 70 Noise Filter

Claims (5)

A storage medium for storing a game medium, a plurality of detection members provided apart from the storage section, and a detection device for detecting that the plurality of detection members are electrically connected by the game medium. A storage device,
The storage unit is formed to have a predetermined resistance value by using a conductive material, and is connected to a frame ground.
Game media storage device. The storage device for a game medium according to claim 1, wherein the storage portion is formed of a conductive resin. The storage device for a game medium according to claim 1, further comprising a conductive member connected to a frame ground and capable of contacting the storage portion when the storage portion is installed at an installation position. Storage device. The storage device for game media according to claim 3, wherein the conductive member is provided on a support surface of a support member that supports the storage portion. The storage device for a game medium according to any one of claims 1 to 4, wherein the wall member around the installation position of the storage unit includes a conductive member, and the conductive member is provided in contact with the storage unit. Is a game medium storage device connected to a frame ground via a conductive member of a wall member.

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