JP2004351011A - Monitoring system for device, device provided with monitoring means, and portable information terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device provided with a monitoring means for monitoring the state of a member by providing an IC tag storing identification information on one of the members of the device and communicating with the IC tag without contacting, a portable information terminal for browsing a monitored result and instructing the start of monitoring, and a monitoring system for the device. <P>SOLUTION: The IC tag 86 for monitoring is provided on a place to monitor, for instance, an opening/closing door of a big winning port 16 in a pachinko game machine 1, a lid of a case housing a board for controlling the pachinko game machine, and the like. The pachinko game machine 1 is provided with an IC tag 24 for management, start information is transmitted from a handy terminal and is received by the IC tag 24 for the management and thus monitoring for a monitoring place for which communication is normally performed with the IC tag 86 for monitoring is started at the point of time. Then, when abnormality is generated in the communication with the IC tag 86 for monitoring, monitoring information such as the generation date and time of the abnormality and the contents of the abnormality is stored in an R/W board 31. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a device monitoring system, a device provided with monitoring means, and a portable information terminal. More specifically, an IC tag storing identification information is provided on any member of the device, and is provided in a non-contact manner with the IC tag. The present invention relates to a device provided with a monitoring means for monitoring the state of the member by performing communication by using a portable information terminal for browsing a monitoring result, and a device monitoring system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, among pachinko machines, which are a kind of gaming machines that perform a predetermined operation, various precautions have been taken for a pachinko machine in which a player unfairly acquires a game ball. In particular, in order to prevent unauthorized modification of the control board that controls the gaming machine, for example, replacement of the control board with an unauthorized ROM, various measures have been taken for the board box that houses the control board. For example, there is a case in which a sealing seal is provided on the substrate box, and a sealing screw that rotates only in the direction of closing or crimping the substrate box so as not to touch the control substrate makes it difficult to open the substrate box (for example, And Patent Document 1). Further, there is a method in which opening and closing of a board box is detected using a movable contact, a detection signal is stored, and a notification is made by a light emitting diode (for example, see Patent Document 2). Also, by attaching an IC tag to the surface of the substrate box and transmitting the identification information stored therein to the ID reader in response to a transmission request from the ID reader, by confirming the identification information. In some cases, it is determined whether a control board has been replaced for each board box (for example, see Patent Document 3).
[0003]
[Patent Document 1]
JP-A-10-2161141
[Patent Document 2]
JP-A-9-34365
[Patent Document 3]
JP 2000-288218 A
[0004]
However, it is difficult to determine whether or not the board box has been opened and closed if a sophisticated counterfeit seal is put on it after the board box is opened and exchanged for unauthorized ROM is completed with the one using the seal. was. Further, in the case of using a sealing screw, a special tool may be used to forcibly turn the sealing screw in the opening direction to open the board box and exchange the ROM with an unauthorized ROM. Further, in the case of detecting the opening and closing of the substrate box using the movable contact, since the substrate box is usually formed of a transparent resin, it is visually observed that the movable contact for detecting the opening and closing of the substrate box is used. As a result, there is a problem that the movable contact is prevented from moving by inserting a piano wire or the like from the gap of the board box, so that opening and closing of the board box cannot be detected. Furthermore, in the above-mentioned conventional technology, there is a problem that it cannot be determined whether or not the board box is opened or closed unless the control board is visually checked, and such misconduct is often performed at night. Checking and checking hundreds of gaming machines every morning was troublesome.
[0005]
Therefore, the present applicant has proposed a monitoring system for monitoring the state of a gaming machine and a gaming machine in Japanese Patent Application No. 2002-245999. In this application, a reader / writer unit (IC tag monitoring device) for attaching a monitoring IC tag to each of a board box opening / closing cover and a winning opening / closing door of a pachinko machine, which is a kind of a game machine, and communicating with these monitoring IC tags. ) Transmits a paging wave to the monitoring IC tag at the appropriate time, and determines whether or not a reflected wave including the ID code of the monitoring IC tag stored in the IC tag monitoring device in advance is returned from the IC tag. Monitors the opening and closing of members. In addition, the special winning opening is usually in a closed state, and when the special winning opening is opened and a game ball enters, the player can acquire a large number of games. An injustice has occurred in which the game ball is opened to win the game ball. Therefore, it is necessary to monitor the opening of the opening / closing door of the special winning opening. The monitoring result is read using a monitoring history reading device.
[0006]
[Problems to be solved by the invention]
However, in the invention of Japanese Patent Application No. 2002-245999, considering the timing at which the IC tag monitoring device starts monitoring, if monitoring is started when power is supplied to the IC tag monitoring device, the IC tag is There is a problem in that monitoring is performed while not being attached to the monitored member, or monitoring of a monitored member that does not need to be monitored is performed. That is, a monitored member that does not need to be monitored during transportation while the IC tag is not attached to the monitored member or during an attaching operation (for example, a special winning opening when the device is a gaming machine). It is not necessary to monitor the IC tag provided in ()). If these are monitored and the results are recorded, there is a problem that the information becomes complicated and the storage area is wasted.
[0007]
The present invention has been made in order to solve the above-mentioned problem, and an IC tag storing identification information is provided on any member of the device, and the state of the member is communicated without contact with the IC tag. It is an object to provide a device provided with a monitoring means for monitoring a device, a portable information terminal for browsing a monitoring result and instructing a start of monitoring, and a system for monitoring the device.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, in the monitoring system according to the first aspect of the present invention, an IC tag storing identification information is provided on any member of the apparatus, and the IC tag communicates with the IC tag in a non-contact manner. A monitoring system in which an apparatus having monitoring means for monitoring a state of a member and a portable information terminal for browsing the result of monitoring communicate via an IC tag, wherein the apparatus communicates with the portable information terminal. The portable information terminal includes a start IC for instructing a start of storage of monitoring information relating to a communication result of the communication with the IC tag, and an instruction by the start instructor. And a portable information terminal-side transmitting means for transmitting start information for instructing the start of storage of the monitoring information to the management IC tag, when the management IC tag is transmitted to the portable information terminal. Management IC tag-side receiving means for receiving the start information transmitted from the means, and management IC tag-side transmitting means for transmitting the start information received by the management IC tag-side receiving means to the monitoring means. Wherein the monitoring means communicates with the IC tag in a non-contact manner while power is supplied, and a communication result determining means for determining whether a communication result of the communication by the communication means is normal or not. Monitoring information storing means for storing the monitoring information when the communication result determining means determines that the information is not normal; and monitoring means for receiving the start information transmitted from the management IC tag side transmitting means. Side receiving means, and storage control means for, when the monitoring means side receiving means receives the start information, setting the monitoring information storage means to a state in which the monitoring information can be stored. .
[0009]
In the monitoring system having this configuration, the management IC tag provided in the device is an IC tag for communicating with the portable information terminal, and the start instruction means of the portable information terminal monitors the result of the communication with the IC tag. Instructing the start of storage of the information, the portable information terminal side transmitting means transmits start information instructing the start of storage of the monitoring information to the management IC tag when the instruction by the start instruction means is performed. The management IC tag side receiving means of the management IC tag receives the start information transmitted from the portable information terminal side transmission means, and the management IC tag side transmission means receives the start information transmitted from the management IC tag side reception means. The start information is transmitted to the monitoring means. The communication means of the monitoring means performs non-contact communication with the IC tag while power is supplied, and the communication result determination means determines whether the communication result of the communication by the communication means is normal, The monitoring information storage means stores the monitoring information when the communication result determining means determines that the information is not normal, and the monitoring means side receiving means receives the start information transmitted from the management IC tag side transmitting means. When the monitoring means side receiving means receives the start information, the storage control means sets the monitoring information storage means in a storable state in which the monitoring information can be stored.
[0010]
In a monitoring system according to a second aspect of the present invention, in addition to the configuration according to the first aspect, the monitoring unit notifies a normal state when the communication result is normal. The configuration is such that a notification unit is provided.
[0011]
In the monitoring system having this configuration, in addition to the operation of the invention described in claim 1, the communication state notifying unit provided in the monitoring unit notifies that the communication result is normal when the communication result is normal.
[0012]
In the monitoring system according to a third aspect of the present invention, in addition to the configuration of the first or second aspect of the present invention, the monitoring unit includes a storage state notifying unit that notifies that the storage is possible. The configuration is characterized by the following.
[0013]
In the monitoring system having this configuration, in addition to the operation of the invention described in claim 1 or 2, the storage state notifying unit provided in the monitoring unit notifies that the storage is possible.
[0014]
According to a fourth aspect of the present invention, in the monitoring system, in addition to the configuration according to any one of the first to third aspects, the monitoring information includes a date, a time, and a communication time when a change in the state of the device occurs. The history data includes at least one of a result and a position specifying code for specifying a position where the IC tag is provided.
[0015]
In the monitoring system having this configuration, in addition to the operation of the invention according to any one of claims 1 to 3, the monitoring information includes a date, time, a communication result, and an IC tag at which a change in the state of the device has occurred. The history data including at least one of the position identification codes for identifying the current position is used.
[0016]
Further, in the monitoring system according to the fifth aspect of the present invention, in addition to the configuration according to any one of the first to fourth aspects, the status of the device may be a status of a member of the device provided with the IC tag. It is a configuration characterized by existence.
[0017]
In the monitoring system having this configuration, in addition to the operation of the invention according to any one of claims 1 to 4, the presence or absence of a member provided with the IC tag of the device is monitored as the state of the device.
[0018]
In the monitoring system according to a sixth aspect of the present invention, in addition to the configuration according to any one of the first to fifth aspects, the communication result determination unit may be configured to perform a case where communication by the communication unit cannot be performed, or If the identification information stored in the communicated IC tag is different from the identification information of the IC tag that was to communicate when the communication was performed by the communication means, it is determined that the IC tag is not normal. The configuration is characterized in that:
[0019]
In the monitoring system having this configuration, in addition to the operation of the invention according to any one of claims 1 to 5, the communication result determination unit may perform the communication when the communication unit cannot perform the communication or when the communication unit performs the communication. If the identification information stored in the IC tag with which communication has been performed is different from the identification information of the IC tag with which communication is to be performed, it is determined that the IC tag is not normal.
[0020]
In a monitoring system according to a seventh aspect of the present invention, in addition to the configuration of the first aspect of the present invention, the apparatus is a gaming machine.
[0021]
In the monitoring system having this configuration, in addition to the operation of the invention according to any one of claims 1 to 6, a game machine is used as the device.
[0022]
Further, in the device according to the invention according to claim 8, an IC tag storing identification information is provided on any member of the device, and the state of the member is monitored by communicating with the IC tag in a non-contact manner. An apparatus for communicating with a portable information terminal for instructing start of monitoring via an IC tag, comprising: a management IC tag that is an IC tag for communicating with the portable information terminal; A management IC tag side receiving means for receiving start information instructing a start of storage of monitoring information relating to a communication result of communication with the IC tag transmitted from the portable information terminal; A management IC tag-side transmission means for transmitting the start information received by the means to the apparatus, wherein the monitoring means communicates with the IC tag in a non-contact manner while power is supplied; This A communication result determining unit that determines whether a communication result of the communication by the communication unit is normal; and a monitoring information storage unit that stores the monitoring information when the communication result determining unit determines that the communication result is not normal. A monitoring means receiving means for receiving the start information transmitted from the management IC tag side transmitting means, and the monitoring information storage means when the monitoring means receiving means receives the start information. A storage control unit for setting a state in which information can be stored.
[0023]
In the device having this configuration, the management IC tag is an IC tag for communicating with the portable information terminal, and the management IC tag side receiving means of the management IC tag uses the IC tag and the IC tag transmitted from the portable information terminal. Receiving the start information instructing the start of storage of the monitoring information relating to the communication result of the communication, and the management IC tag side transmission means transmits the start information received by the management IC tag side reception means to the device. The communication means of the monitoring means performs non-contact communication with the IC tag while power is supplied, and the communication result determining means determines whether or not the communication result of the communication by the communication means is normal, and performs monitoring. The information storage means stores the monitoring information when the communication result determining means determines that the information is not normal, the monitoring means-side receiving means receives the start information transmitted from the management IC tag-side transmitting means, The storage control means sets the monitoring information storage means in a storable state where the monitoring information can be stored when the monitoring means receiving means receives the start information.
[0024]
Further, in the apparatus according to the ninth aspect of the present invention, in addition to the configuration of the eighth aspect of the present invention, when the communication result is normal, the monitoring means notifies the communication status that the communication result is normal. It has a configuration characterized by comprising means.
[0025]
In the device having this configuration, in addition to the effect of the invention described in claim 8, the communication state notifying unit provided in the monitoring unit notifies that the communication result is normal when the communication result is normal.
[0026]
In the apparatus according to the tenth aspect, in addition to the configuration according to the eighth or ninth aspect, the monitoring unit includes a storage state notifying unit that notifies that the storage is possible. The configuration is characterized by the following.
[0027]
In the device having this configuration, in addition to the effect of the invention described in claim 8 or 9, the storage state notification means provided in the monitoring means notifies that the storage is possible.
[0028]
In the apparatus according to the eleventh aspect, in addition to the configuration according to any one of the eighth to tenth aspects, the monitoring information may include a date, a time, a communication result, and a time at which a change in the state of the device occurs. And history data including at least one position identification code identifying the position where the IC tag is provided.
[0029]
In the device having this configuration, in addition to the operation of the invention according to any one of claims 8 to 10, the monitoring information includes a date, time, a communication result, and an IC tag at which a change in the state of the device has occurred. History data including at least one position identification code for identifying a position is used.
[0030]
In the device according to the twelfth aspect of the invention, in addition to the configuration of the invention according to any one of the eighth to eleventh aspects, the status of the device is determined by the presence or absence of a member provided with the IC tag of the device. It is a configuration characterized by the following.
[0031]
In the device having this configuration, in addition to the effect of the invention according to any one of claims 8 to 11, the presence or absence of the member provided with the IC tag of the device is monitored as the state of the device.
[0032]
In the apparatus according to the thirteenth aspect of the present invention, in addition to the configuration according to any one of the eighth to twelfth aspects, the communication result determination means may be configured to perform the communication when the communication means cannot perform the communication, or When communication is performed by the communication means, if the identification information stored in the IC tag with which communication has been performed is different from the identification information of the IC tag with which communication is to be performed, it is determined that the IC tag is not normal. The configuration is characterized by the following.
[0033]
In the device having this configuration, in addition to the operation of the invention according to any one of claims 8 to 12, the communication result determination unit may be configured to perform communication when communication cannot be performed by the communication unit or when communication is performed by the communication unit. If the identification information stored in the IC tag with which communication has been performed is different from the identification information of the IC tag with which communication is to be performed, it is determined that the IC tag is not normal.
[0034]
According to a fourteenth aspect of the present invention, in addition to the configuration of the eighth aspect, the device is a gaming machine.
[0035]
In the device having this configuration, in addition to the effect of the invention according to any one of claims 8 to 13, a gaming machine is used as the device.
[0036]
In the portable information terminal of the invention according to claim 15, an IC tag storing identification information is provided on any member of the device, and the state of the member is monitored by communicating with the IC tag in a non-contact manner. A portable information terminal that communicates with a device including a monitoring unit via an IC tag, comprising: a start instruction unit that instructs a start of storage of monitoring information regarding a communication result of communication with the IC tag; And a portable information terminal-side transmitting means for transmitting start information for instructing start of monitoring of the IC tag to the device when the instruction is given.
[0037]
In the portable information terminal having this configuration, the start instruction unit instructs the start of storage of the monitoring information, and the portable information terminal side transmission unit starts the monitoring of the IC tag when the instruction by the start instruction unit is performed. The instructing start information is transmitted to the device.
[0038]
In the portable information terminal of the invention according to claim 16, in addition to the configuration of the invention according to claim 15, the monitoring information includes a date, a time, a communication result, and the IC when a change in the state of the device has occurred. The history data includes at least one position identification code for identifying the position where the tag is provided.
[0039]
In the portable information terminal having this configuration, in addition to the effect of the invention described in claim 15, the monitoring information specifies the date, time, communication result, and the position where the IC tag is provided when the state of the device changes. History data including at least one of the position identification codes to be used is used.
[0040]
Further, in the portable information terminal according to the seventeenth aspect, in addition to the configuration according to the fifteenth aspect or the sixteenth aspect, the status of the device is determined by the presence or absence of a member provided with the IC tag of the device. There is a configuration characterized by having.
[0041]
In the portable information terminal having this configuration, in addition to the effect of the invention described in claim 15 or 16, the presence or absence of the member provided with the IC tag of the device is started to store the monitoring information monitored as the status of the device. Instruct.
[0042]
In the portable information terminal of the invention according to claim 18, in addition to the configuration described in any one of claims 15 to 17, the device is a gaming machine. .
[0043]
In the portable information terminal having this configuration, a game machine is used in addition to the operation of the invention according to any one of claims 15 to 17.
[0044]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described in the following order with reference to the drawings.
1. Overview of system configuration
2. Description of the device
3. Explanation of IC tag
4. Description of the monitoring location
5. Description of mobile information terminal
6. Explanation of monitoring information
7. Description of monitoring process
8. Explanation of starting monitoring
9. Comparison between the embodiment and the claims
10. Effects of the embodiment
11. Description of the modification
[0045]
1. Overview of system configuration
FIG. 1 is a configuration diagram of a monitoring system according to the present embodiment. The pachinko machine 1 is provided with a reader / writer unit (hereinafter, R / W unit) 30 for monitoring members of the pachinko machine 1, and a plurality of pachinko machines 1 in a game arcade are arranged in a back-to-back row. The island management terminal 100 is installed in each of the gaming machine installation islands 200. Further, the R / W unit 30 attached to the pachinko machine 1 is connected to the island management terminal 100 via the in-store network 150. Further, the island management terminal 100 is connected to a game hall management terminal 300 that manages the entire game arcade, and the game hall management terminal 300 manages each of the island management terminals 100 collectively. Further, a handy terminal (hereinafter, referred to as “HT”) 400 is portable and can communicate with the pachinko machine 1 wirelessly. In the surveillance system of the present embodiment, the pachinko machine 1 which is a kind of a game machine corresponds to a “device provided with a monitoring unit”, and a reader / writer unit (hereinafter, “R / W unit”) provided in the pachinko machine 1 ) 30 functions as a “monitoring unit”, and the HT 400 functions as a “portable information terminal”.
[0046]
In the pachinko machine 1, a monitoring IC tag 86 is provided at a place where monitoring is performed, and a monitoring antenna 68 is provided at a position where the pachinko machine 1 can communicate with the monitoring IC tag 86 when properly installed. . In the present embodiment, there are provided a total of six places, such as the opening and closing doors of the special winning opening and the board box. The specific installation places will be described later with reference to FIGS. Then, as a result of monitoring, if an abnormality has occurred or the abnormality has been recovered, the information is stored in the EEPROM 35 and the RAM 34 of the R / W unit 30 as monitoring information. When the abnormality is recovered, the abnormality occurrence information and the recovery information are stored as monitoring information in the EEPROM 863 (see FIG. 7) of the monitoring IC tag 86 provided at the monitoring location. Further, these pieces of information are transmitted to the island management terminal 100 and further transmitted to the game arcade management terminal 300. The island management terminal 100 is configured to notify the received monitoring information, so that a clerk in the game hall can respond to the monitoring information. In the game hall management terminal 300, all pachinko machines connected to the in-store network 150 are provided. The monitoring information of the device 1 is configured to be collected and accumulated. Further, a management IC tag 24 for communicating with the HT 400 is provided, and the HT 400 communicates with the management IC tag 24 (see FIG. 2) to browse monitoring information or to display the main information of the present invention. For example, it is possible to instruct the start of a certain monitoring.
[0047]
2. Description of the device
Next, the structure of the pachinko machine 1 and the R / W unit 30 provided in the pachinko machine 1 will be described with reference to FIGS. FIG. 2 is a perspective view of the pachinko machine 1 with the front frame 111 and the main body frame 110 opened, as viewed from the front of the pachinko machine 1. FIG. 3 is a rear view of the pachinko machine 1. FIG. 4 is a perspective view of the R / W unit 30. FIG. 5 is a block diagram showing an electrical configuration of the pachinko machine 1 and the R / W unit 30 attached to the pachinko machine 1.
[0048]
As shown in FIG. 2, the pachinko machine 1 includes a machine frame 112, a main body frame 110, and a front frame 111. The machine frame 112 is for fixing the pachinko machine 1 to the gaming machine installation island 200. Further, the main body frame 110 includes various substrates for controlling the pachinko machine 1, an upper plate 5 for supplying game balls to a launcher (not shown) and receiving a prize ball, a lower plate 6 for receiving a prize ball, A firing handle 7 for firing a ball, a main body 113 including a speaker 48 for emitting sound, and the game board 2 are fitted therein. Various substrates are provided on the back surface of the main body frame 110. The substantially square game board 2 is provided in the upper half of the front of the main body 113, the upper plate 5 is provided below the game board 2, and the lower plate 6 is provided directly below the upper plate 5. A firing handle 7 is provided on the right side of the lower plate 6, and a speaker 48 is provided between the upper plate 5 and the lower plate 6. The front frame 111 holds the transparent glass plate 111a and covers the game board 2 for protection. Further, the game board 2 is provided with a substantially circular game area 4 surrounded by a guide rail 3, and a game ball fired by operating the firing handle 7 is guided to the guide rail 3 to play a game. It enters area 4 and flows down. A large winning opening 16 is provided below the game area 4, and various winning openings, illumination lamps, windmills, obstacle nails, symbol display devices, and the like are provided.
[0049]
Next, the structure of the back of the pachinko machine 1 will be described with reference to FIG. FIG. 3 is a rear view of the pachinko machine 1. As shown in FIG. 3, a transparent resin main board box 81 containing a main board 41 that controls the main operation of the pachinko machine 1 is provided on the lower left rear surface of the pachinko machine 1. A sound board 43 is provided next to the sound board 43, and a power supply board 42 is provided in a transparent resin box above and to the right of the sound board 43, and a payout control board 45 is provided below the payout control board box. 82. Further, above the main board box 81, a center cover 80 that protects the back surface of the game board and covers various wirings is arranged. Outside the center cover 80, an R / W containing the R / W board 31 is provided. A unit 30 is provided. The power of the R / W unit 30 is supplied not from the power supply board 42 but from a power supply device (not shown) of the gaming machine installation island 200.
[0050]
Next, an overview of the R / W unit 30 will be described with reference to FIG. The R / W unit 30 has a substantially cubic shape, and includes an R / W substrate 31 inside. When the R / W unit 30 is mounted on the center cover 80, a communication state LED 76a, a communication state LED 76b, a communication state LED 76c, a communication state An LED 76d, a communication status LED 76e, a communication status LED 76f, a monitor start LED 77a, a monitor start LED 77b, a monitor start LED 77c, a monitor start LED 77d, a monitor start LED 77e, and a monitor start LED 77f are provided. The communication status LED 76a, the communication status LED 76b, the communication status LED 76c, the communication status LED 76d, the communication status LED 76e, and the communication status LED 76f are turned on when the monitoring IC tag 86 at each monitoring location is in a communication status with the R / W board 31. . Further, the monitoring start LED 77a, the monitoring start LED 77b, the monitoring start LED 77c, the monitoring start LED 77d, the monitoring start LED 77e, and the monitoring start LED 77f are turned on when the respective monitoring locations become storable.
[0051]
The communication state is a state in which a ringing wave is transmitted from the R / W board 31 to each monitoring IC tag 86, and a reflected wave including an ID code registered in advance is returned from the monitoring IC tag 86. Say Then, a ringing wave including start information is transmitted from the HT 400, and the management IC tag 24 receives the ringing wave, and when the start instruction information is transmitted to the R / W board 31, the monitoring IC tag in a communication state is transmitted. 86 is in a storable state. In addition, six monitoring locations are provided. The communication status LED 76a and the monitoring start LED 77a indicate the status of the monitoring location 1, the communication status LED 76b and the monitoring start LED 77b indicate the status of the monitoring location 2, and the communication status LED 76c and the monitoring start status. The LED 77c indicates the state of the monitoring place 3, the communication state LED 76d and the monitoring start LED 77d indicate the state of the monitoring place 4, the communication state LED 76e and the monitoring start LED 77e indicate the state of the monitoring place 5, and the communication state LED 76f and the monitoring start LED 77f indicate The status of the monitoring location 6 is shown, and each LED corresponds to the number of “1” to “6” indicating the monitoring location, and the R / R is used to know which LED indicates which monitoring location. It is arranged on a surface of the W unit 30 that faces the mounting surface to the center cover 80. Specific monitoring locations will be described later with reference to FIGS.
[0052]
Next, an electrical configuration of main components of the pachinko machine 1 and the R / W unit 30 attached to the pachinko machine 1 will be described with reference to FIG. The pachinko machine 1 is provided with a main board 41, a power board 42, a sound board 43, a symbol display board 44, a payout control board 45, an illuminated board 46, a relay board 47, a firing board 66, a sub integrated board 58, and the like. I have. The main board 41 is provided with a CPU 51 for performing various types of arithmetic processing, a RAM 52 for storing flags, counter values, and data, and a control program, various initial value data, and a symbol display device (not shown). A ROM 53 storing data of display contents and the like is connected. The CPU 51 is connected to an I / O interface 54, which has an output port 55 for transferring data to the R / W unit 30, a sub integrated board 58, and a payout control board 45. , The relay board 47 is connected. Further, the symbol display board 44, the illumination board 46, and the sound board 43 are connected to the sub-integrated board 58, and the emission board 66 is connected to the payout control board 45. The power supply board 42 receives power supply from a power supply provided on the gaming machine installation island, and supplies power to the main board 41, the sub integrated board 58, the payout control board 45, and the launch board 66.
[0053]
Further, the R / W unit 30 is provided with an R / W board 31, and the R / W board 31 is provided with a CPU 32 for controlling the R / W unit 30. The CPU 32 includes a RAM 34 for temporarily storing flags, data, and the like, and a ROM 33 for storing a control program, various initial value data, and the like. Then, the CPU 32 stores the EEPROM 35 for storing monitoring information and the like, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f. A radio frequency circuit (hereinafter, referred to as an RF circuit) 38 for transmitting a paging wave and receiving a reflected wave, an input port 39 connected to the output port 55 of the main board 41 of the pachinko machine 1, an RTC 71 for time management, An I / O interface 37 is connected. The I / O interface 37 includes a communication circuit 36 connected to the in-store network 150 for connecting to the island management terminal 100, a communication status LED 76a, a communication status LED 76b, a communication status LED 76c, a communication status LED 76d, a communication status LED 76e, and a communication status. The LED 76f, the monitor start LED 77a, the monitor start LED 77b, the monitor start LED 77c, the monitor start LED 77d, the monitor start LED 77e, and the monitor start LED 77f are connected. Further, the management IC tag 24 for communicating with the HT 400 is connected to the I / O interface 37. As shown in FIG. 2, the management IC tag 24 is affixed to an upper part of the front frame 111 of the pachinko machine 1 on the opening / closing axis side, and is connected to the I / O interface 37 via the cable 24k. Connected. Further, the RF circuit 38 has a monitoring IC tag 86a, a monitoring IC tag 86b, a monitoring IC tag 86c, a monitoring IC tag 86d, a monitoring IC tag 86e, and a monitoring antenna 68a for communicating with the monitoring IC tag 86f. , A monitoring antenna 68b, a monitoring antenna 68c, a monitoring antenna 68d, a monitoring antenna 68e, and a monitoring antenna 68f.
[0054]
The monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f are attached to each monitoring location of the pachinko machine 1. The monitoring antenna 68a is located at a position where it can communicate with the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f. A monitoring antenna 68b, a monitoring antenna 68c, a monitoring antenna 68d, a monitoring antenna 68e, and a monitoring antenna 68f are provided. The monitoring antenna 68a communicates with the monitoring IC tag 86a, the monitoring antenna 68b communicates with the monitoring IC tag 86b, and the monitoring antenna 68c communicates with the monitoring IC tag 86c. 68d communicates with the monitoring IC tag 86d, the monitoring antenna 68e communicates with the monitoring IC tag 86e, and the monitoring antenna 68f communicates with the monitoring IC tag 86f.
[0055]
3. Explanation of IC tag
Next, referring to FIGS. 6 and 7, the structure of the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f will be described. The structure of the management IC tag 24 will be described with reference to FIG. FIG. 6 is a plan view of the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f. FIG. 7 is a block diagram showing an electrical circuit configuration of the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f. . The monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f have the same structure. As shown in FIG. 7, an RF circuit 861 that emits a reflected wave in response to a paging wave from the R / W unit 30, an antenna 682, and an EEPROM 863 are mounted. As shown in FIG. 6, the monitoring IC tag 86 is provided with an antenna 682 and an IC chip 864 on a thin flexible printed circuit board. The IC chip 864 includes an RF circuit 861 and an EEPROM 863 integrated with each other. It is configured. Further, in the EEPROM 863, an ID code, which is identification information for identifying the monitoring IC tag 86 from other monitoring IC tags, is stored in the overwriting erasure prohibited area.
[0056]
When a ringing wave is transmitted from the R / W unit 30 via the monitoring antenna 68, the antenna 682 receives the ringing wave. The ringing wave contains a carrier wave component. Rectification is performed by a circuit 861 to obtain a DC voltage. Therefore, the monitoring IC tag 86 can transmit data whenever necessary without using a battery or an external power supply. To transmit the data, the ID code is read from the EEPROM 863, the reflected ID is put on the reflected wave, and transmitted from the RF circuit 861 to the monitoring antenna 68.
[0057]
FIG. 8 is a block diagram showing an electric circuit configuration of the management IC tag 24. The management IC tag 24 is also thin like the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f shown in FIG. An antenna 24b and an IC chip 24d are provided on the flexible printed circuit board, and a cable 24k for connecting to the R / W unit 30 is provided. The IC chip 24d includes not only the RF circuit 24a and the EEPROM 24c but also a CPU 24f and a ROM 24e with a built-in RAM 24g. As in the case of the monitoring IC tag 86 and the like, the EEPROM 24c stores an ID code, which is identification information for identifying the management IC tag 24 from other IC tags, in an overwrite erasure prohibited area.
[0058]
4. Description of the monitoring location
Next, referring to FIGS. 2, 3, 9, and 10, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, The monitoring place where the IC tag 86f is provided will be described. The monitoring place protects the main board box 81 (the monitoring place 1) in which the main board 41 is stored, the payout control board box 82 (the monitoring place 2) in which the payout control board 45 is stored, and the back of the game board. Center cover 80 (monitoring location 3) covering various wirings, main frame 110 and machine frame 112 (monitoring location 4), front frame 111 and main body frame 110 (monitoring location 5), large winning opening 16 (monitoring location 6) Location and its opening and closing is monitored. A monitoring IC tag 86a and a monitoring antenna 68a are used to monitor the main board box 81, which is the monitoring place 1, and a monitoring IC is used to monitor the payout control board box 82, which is the monitoring place 2. The tag 86b and the monitoring antenna 68b are used, and the monitoring IC tag 86c and the monitoring antenna 68c are used to monitor the center cover 80 that is the monitoring location 3, and the main body frame 110 and the machine frame that are the monitoring location 4 are used. A monitoring IC tag 86d and a monitoring antenna 68d are used to monitor 112, and a monitoring IC tag 86e and a monitoring antenna 68e are used to monitor the front frame 111 and the main body frame 110, which are the monitoring locations 5. The monitoring IC tag 86f and the monitoring antenna 68f are used to monitor the special winning opening 16 that is used and is the monitoring place 6.
[0059]
As shown in FIG. 3, a monitoring IC tag 86a is affixed to the lower right inner surface of the main board box 81 in front view in FIG. 3, and to the inner right surface of the payout control board box 82 in front view in FIG. A monitoring IC tag 86b is affixed to the center cover 80, and a monitoring IC tag 86c is affixed to the right side of the center cover 80 in a front view in FIG. Here, monitoring of the main board box 81 will be described with reference to FIG. As shown in FIG. 9, the main board box 81 is composed of an upper lid portion 81a made of a transparent resin and having a substantially rectangular shape in plan view, and a lower lid portion 81c made of a transparent resin and having a substantially rectangular shape in plan view. On the lower lid portion 81c facing the upper lid portion 81a, a main board 41 for controlling the main control of the pachinko machine 1 is arranged. A small and rectangular monitoring IC tag 86a is adhered to the back surface of the upper lid portion 81a with an adhesive or the like. A notch is provided at the lower right end of the main board 41, and a coil-shaped monitoring antenna 68a for performing RF transmission / reception by electromagnetic waves with the monitoring IC tag 86 is provided in the lower lid portion 81c at the notch position. The monitoring antenna 68a is connected to the R / W board 31 by a coaxial cable. Note that the payout control board box 82 has the same structure as the main board box 81, and a cutout is provided at the lower right portion of the payout control board 45, and the monitoring antenna 68b is provided at the lower lid. Further, a monitoring antenna 68c is provided at a location on the back of the main body opposite to the monitoring IC tag 86c attached to the center cover 80.
[0060]
As shown in FIG. 2, a monitoring IC tag 86d is attached to the inner surface of the right frame in FIG. 2 of the machine frame 112, and a monitoring antenna 68d is provided on the right side of the main body 113. . It should be noted that the monitoring IC tag 86d and the monitoring antenna 68d are arranged to face each other when the main frame 110 and the machine frame 112 are closed, and the main frame 110 and the machine frame 112 are opened. In this case, the monitoring IC tag 86d and the monitoring antenna 68d cannot communicate with each other. In addition, a monitoring IC tag 86e is attached to the upper right back surface (the surface facing the main body frame 110) of the front frame 111 in a state where the front frame 111 and the main body frame 110 are closed. A monitoring antenna 68e is provided on the surface of the upper frame of the main body frame 110 (the surface facing the front frame 111). The monitoring IC tag 86e and the monitoring antenna 68e are arranged to face each other when the front frame 111 and the main frame 110 are closed, and the front frame 111 and the main frame 110 are opened. In this case, the monitoring IC tag 86e and the monitoring antenna 68e cannot communicate. Further, a large winning opening 16 which is a kind of a variable winning device that opens and closes the opening and closing door 16a when a predetermined condition is satisfied is provided at a lower portion of the game area 4, and the opening and closing door 16a for opening and closing the large winning opening 16 is provided. A monitoring IC tag 86f is affixed inside, and a monitoring antenna 68f is provided around the special winning opening 16.
[0061]
Here, the installation of the monitoring IC tag 86f on the attacker member 160 provided with the special winning opening 16 will be described with reference to FIG. As shown in FIG. 10, the aforementioned monitoring IC tag 86f is attached to the surface of the opening / closing door 16a of the attacker member 160, and a decorative seal or the like is further attached so as to cover the monitoring IC tag 86f. Is invisible to the public. A loop-shaped monitoring antenna 68f is provided around the special winning opening 16, which is the opening 16b of the attacker member 160, so as to surround the monitoring IC tag 86f. It is connected to the W unit 30. The monitoring IC tag 86f has directivity in the transmission / reception direction, and can transmit and receive only when positioned parallel to the monitoring antenna 68f. In the closed state of the special winning opening 16, the opening and closing door 16a covers the opening 16b of the special winning opening 16, and the monitoring IC tag 86f and the monitoring antenna 68f are located on substantially the same plane, so that transmission and reception are possible. In response to the paging wave from the R / W unit 30 via the monitoring antenna 68f, a reflected wave is returned from the monitoring IC tag 86f. On the other hand, when the opening / closing door 16a is opened as shown in FIG. 10, the monitoring IC tag 86f and the monitoring antenna 68f are not parallel and exceed a critical angle at which communication is possible. You will not be able to answer calls from 30.
[0062]
In the present embodiment, the monitoring IC tag 86 and the monitoring antenna 68 communicate with each other in a short-wave band of 13.56 MHz. Since communication at this frequency is relatively insensitive to noise, it is suitable for the installation environment of the pachinko machine 1. The distance between the monitoring antenna 68a and the monitoring IC tag 86a is about 3 mm when the upper lid 81a and the lower lid 81c are assembled. In this distance, RF transmission / reception is possible, and the monitoring IC tag 86a can respond to a call from the R / W unit 30 via the monitoring antenna 68a, and the communication between the monitoring antenna 68a and the monitoring IC tag 86a is performed. The communication is disabled when the distance exceeds about 5 mm. This communicable distance can be adjusted by the number of turns of the coil of the monitoring antenna 68 and the reactance value. By setting the communicable distance in this manner, it is possible to detect even a slight opening of the upper lid portion 81a, and it is adjusted so that communication is not disabled due to slight shaking due to vibration or the like. . Also, as described above, communication in this frequency band is relatively insensitive to noise, but in order to prevent any malfunction due to noise from members using other electromagnetic waves, the monitoring IC tag 86 or The monitoring antenna 68 is disposed at the lower right end of the main board 41 at a position separated from the prize dispense device using the solenoid or the firing motor. Communication between the monitoring antenna 68f and the monitoring IC tag 86f is also performed in the 13.56 MHz short wave band, and communication in this frequency band is not easily affected by noise, but other members using electromagnetic waves are used. In order to prevent any malfunction due to the influence of noise from the outside, the big winning opening opening solenoid 70 for controlling the operation of the opening and closing door 16a is disposed at the left back of the attacker member 160 away from the monitoring IC tag 86f and the monitoring antenna 68f. Have been.
[0063]
5. Description of mobile information terminal
Next, the pachinko machine 1 communicates with the management IC tag 24 (see FIG. 2) provided on the upper side of the opening / closing axis inside the front frame 111 to acquire monitoring information stored in the R / W unit 30. The HT 400 for instructing the start of monitoring will be described with reference to FIGS. FIG. 11 is a perspective view of the HT 400. FIG. 12 is a block diagram of the electrical configuration of the HT 400.
[0064]
First, the shape of the HT 400 will be described with reference to FIG. As shown in FIG. 11, the HT 400 is a PDA (Personal Digital Assistants) which is a well-known portable information terminal, and a memory card such as an SD memory card (Secure Digital Memory Card) or an MMC (Multi Media Card) is provided on the top. Alternatively, a card slot for inserting a small flash memory card, a PC card type PHS adapter, or the like is provided, and a reading unit 401 provided with an antenna 402 and an RF circuit 410 (see FIG. 12) is inserted into the card slot. . The reading unit 401 is configured to be refracted within a range of 90 degrees around the rotation axis 406 so that the antenna 402 can be directed to the management IC tag 24 at an appropriate angle. A display panel 403 for displaying a menu screen and received monitoring information, a cursor displayed on the display panel 403 and directional keys 405 for moving display contents up, down, left and right, and a screen for the display panel 403 are provided on the front of the HT 400. A menu key 404 for operation is provided. Further, an infrared communication port (not shown) for infrared communication is provided on a side surface of the HT 400, and a connector (shown) for connecting an external device such as a personal computer via an input / output port (not shown) via a cradle or the like on the bottom surface. Outside) is provided.
[0065]
Next, an electrical configuration of the HT 400 will be described with reference to FIG. As shown in FIG. 12, the HT 400 is provided with a CPU 411 for controlling the HT 400. The CPU 411 has a RAM 413 for temporarily storing various data, a control program executed by the CPU 411, and an operation on the display panel 403. A ROM 412 which stores screen information for displaying a screen, a flash memory 414 which is a kind of nonvolatile memory, and an I / O interface 409 which mediates data transfer are connected. The flash memory 414 stores the monitoring information acquired from the pachinko machine 1, the ID code of the management IC tag 24 for each pachinko machine, and the like. The reading unit 401 includes an antenna 402 that communicates with the management IC tag 24 and an RF circuit 410 that is a transmission circuit and a reception circuit. The antenna 402 is connected to the RF circuit 410, and the RF circuit 410 / O interface 409. A display panel 403, an input / output circuit 407 for exchanging data with an external device, an infrared communication circuit 408, and menu keys 404 and direction keys 405 as input keys are connected to the I / O interface 409. I have.
[0066]
6. Explanation of monitoring information
Next, with reference to FIGS. 13 to 15, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, in which the R / W unit 30 is attached to the pachinko machine 1. The monitoring result of monitoring the monitoring IC tag 86e and the monitoring IC tag 86f will be described. The monitoring results are stored in the following four places. The EEPROM 35 of the R / W board 31, the RAM 34 of the R / W board 31, the EEPROM 863 of the monitoring IC tag 86 in which an abnormality has occurred, and the game hall management terminal 300. In the EEPROM 35 of the R / W board 31, the latest information on the abnormality that has occurred in the pachinko machine 1 provided with the R / W unit 30 is stored for each monitoring location. In the RAM 34 of the R / W board 31, information on one day relating to an abnormality that has occurred in the pachinko machine 1 provided with the R / W unit 30 is stored in chronological order. In the EEPROM 863 of the monitoring IC tag 86 in which the abnormality has occurred, information on the abnormality occurring in the monitoring IC tag 86 is stored in chronological order when the abnormality is recovered. The game hall management terminal 300 stores all the monitoring information of the pachinko machine 1 connected to the in-store network 150.
[0067]
FIG. 13 is a conceptual diagram of the latest monitoring information storage area 351 of the EEPROM 35 of the R / W board 31 in which the latest monitoring information of each monitoring location is stored. FIG. 14 is a conceptual diagram of a history monitoring information storage area 341 of the RAM 34 of the R / W board 31 in which monitoring information for one day is stored. FIG. 15 is a conceptual diagram of the monitoring information storage area 8631 of the EEPROM 863 of the monitoring IC tag 86.
[0068]
First, the latest monitoring information storage area 351 of the EEPROM 35 of the R / W board 31 in which the latest monitoring information of each monitoring location is stored will be described with reference to FIG. As shown in FIG. 13, the latest monitoring information storage area 351 stores information on the occurrence date, occurrence time, return date, return time, and ID error for each of the monitoring locations 1 to 6. The "date of occurrence" and "time of occurrence" store the date and time at which the error occurred, respectively, and the "return date" and "return time" store the date and time of the error recovery, respectively, and "ID error". Stores information on whether or not the abnormality is an ID error due to ID code mismatch. When "1" is stored in the "ID error", it indicates that the content of the error that has occurred is due to ID code mismatch. When a value other than “1” is stored, it indicates that the error is not due to the mismatch of the ID codes, that is, a response error in which there is no response from the monitoring IC tag 86.
[0069]
In the example shown in FIG. 13, the occurrence date of the monitoring place 1 is stored on March 3, 2003, the occurrence time is 23:38:21, the ID error is “1”, and the return date is “1”. Nothing is stored at the return time. That is, an abnormality is occurring in the monitoring place 1 and has not yet returned to the normal state. The occurrence date of monitoring place 2 was March 3, 2003, the occurrence time was 22:16:10, the return date was March 3, 2003, the return time was 22:16:53, and an ID error occurred. Stores "0". The date of occurrence of monitoring place 3 was March 3, 2003, the time of occurrence was 22:17:20, the date of restoration was March 3, 2003, the time of restoration was 22:17:44, and an ID error occurred. Stores "0". No data is stored in the monitoring location 4. That is, no abnormality has occurred yet. The occurrence date of the monitoring location 5 is stored on February 22, 2003, the occurrence time is 15:13:45, and the ID error is “1”. The occurrence date of the monitoring location 6 is February 24, 2003, the occurrence time is 11:21:56, the return date is February 24, 2003, the return time is 11:22:40, and the ID error is Stores "0".
[0070]
Next, the history monitoring information storage area 341 of the RAM 34 of the R / W board 31 in which monitoring information for one day is stored will be described with reference to FIG. As shown in FIG. 14, the history monitoring information storage area 341 stores time, monitoring location, status, and ID error information in a time series. The “time” stores the time when the abnormality occurred or recovered, the “monitoring location” stores the number indicating the location where the abnormality occurred or recovered, and the “status” stored whether the abnormality occurred or recovered. A code indicating whether the error has occurred is stored, and in the “ID error”, information as to whether or not the abnormality is an ID error due to a mismatch of ID codes is stored. When “1” is stored in “state”, it indicates that an abnormality has occurred, and when “2” is stored, it indicates that the abnormality has been recovered. Further, when "1" is stored in "ID error", it indicates that the content of the error that has occurred is due to ID code mismatch. When a value other than “1” is stored, it indicates that the error is not due to the mismatch of the ID codes, that is, a response error in which there is no response from the monitoring IC tag 86.
[0071]
In the example shown in FIG. 14, a response error has occurred at the monitoring location 2 at 22:16:10, and the response error at the monitoring location 2 has returned at 22:16:53. Further, a response error occurred at the monitoring location 3 at 22:17:20, and the response error at the monitoring location 3 recovered at 22:17:44. Further, at 23:35:46, a response error has occurred in the monitoring place 1.
[0072]
Next, the monitoring information storage area 8631 of the EEPROM 863 of the monitoring IC tag 86 will be described with reference to FIG. In the monitoring information storage area 8631, information on the occurrence date, occurrence time, recovery date, and recovery time of the abnormality that occurred in the monitoring IC tag 86 is all stored in chronological order. The “date of occurrence” and “time of occurrence” store the date and time at which the abnormality occurred, and the “return date” and “return time” store the date and time of recovery of the abnormality, respectively. Note that only the response error is stored here.
[0073]
In the example shown in FIG. 15, a response error occurs at 1:21:56 on February 24, 2003, and the operation returns to 1:22:40 on February 24, 2003. Then, a response error occurred at 23:30:12 on March 3, 2003, and the operation returned to 23:38:21 on March 3, 2003.
[0074]
7. Description of monitoring process
Here, monitoring of a monitoring place by the R / W unit 30 will be described with reference to flowcharts with reference to FIGS. When power is supplied to the R / W unit 30, the CPU 32 executes basic monitoring processing. In the basic monitoring process, the monitoring process of each monitoring location is repeatedly performed. The monitoring process includes monitoring places 1 to 5 (main board box 81, payout control board box 82, center cover 80, main body frame 110 and machine frame 112, front frame 111 and main body frame 110) and monitoring place 6 (large prize). Mouth 16). FIG. 16 is a flowchart of the basic monitoring process performed by the CPU 32 of the R / W board 31. FIG. 17 is a flowchart of a monitoring process for monitoring a monitoring location other than the special winning opening 16 performed in the basic monitoring process. 18 and 19 are flowcharts of the special winning opening monitoring process for monitoring the special winning opening 16 performed in the basic monitoring process.
[0075]
First, the basic monitoring process will be described with reference to a flowchart in FIG. This process is performed when power is supplied to the R / W unit 30. First, an initial value “1” is set in each error flag, and “0” is set in a communication state flag (S1). Then, the processing of S2 to S11 is repeatedly performed, and monitoring is performed.
[0076]
Note that an error flag is provided for each monitoring location. When "0" is stored, communication with the monitoring IC tag 86 is normally performed, and "1" is stored. Indicates that the communication with the monitoring IC tag 86 is not performed normally. A response error flag and an ID error flag are provided for each of the monitoring locations 1 to 6. Note that a response error indicates a case where the monitoring IC tag 86 does not return a reflected wave with respect to the ringing wave transmitted from the monitoring antenna 68, and an ID error indicates that the ID code included in the reflected wave is not reflected. The case where it differs from the one registered in advance is shown. Therefore, when the basic monitoring process is started, since normal communication with each monitoring IC tag 86 has not yet been established, “1” indicating an error state in which communication is not normally performed is set as an initial value. Set. Also, a communication state flag is provided for each monitoring location, and when communication with the monitoring IC tag 86 is normally performed, “1” is stored and “ON”. Therefore, at the start of the execution of the basic monitoring process, since communication with the monitoring IC tag 86 has not yet been performed normally, “0” is stored as an initial value and is set to “OFF”.
[0077]
As shown in S2 to S11 in FIG. 16, the main board box 81 (monitoring place 1) (S2), the special winning opening 16 (monitoring place 6) (S3), the payout control board box 82 (monitoring place 2) (S4). Winning opening 16 (monitoring location 6) (S5), center cover 80 (monitoring location 3) (S6), winning prize opening 16 (monitoring location 6) (S7), main frame 110 and machine frame 112 (monitoring location 4) ) (S4), the special winning opening 16 (monitoring location 6) (S5), the front frame 111 and the main body frame 110 (monitoring location 5) (S10), and the special winning opening 16 (monitoring location 6) (S11) are monitored in this order. Is performed. Since the special winning opening 16 is monitored to detect that the player is performing wrongdoing, it is necessary to monitor more frequently than other monitoring places, and the number of times of monitoring is set more frequently. I have.
[0078]
Next, a monitoring process for monitoring a monitoring place other than the special winning opening 16 will be described with reference to a flowchart of FIG. Here, the main board box 81 (monitoring place 1), the payout control board box 82 (monitoring place 2), the center cover 80 (monitoring place 3), and the main body frame 110 and the machine frame 112 are monitoring places other than the special winning opening 16. (Monitoring location 4), the front frame 111 and the main body frame 110 (Monitoring location 5) are monitored, and information on which monitoring location is to be monitored is instructed from the basic monitoring process using the number indicating the monitoring location. Is done.
[0079]
First, a ringing wave is transmitted from the monitoring antenna 68 at the monitoring location designated by the basic monitoring process (S41). Then, it is determined whether or not the reflected wave is returned from the monitoring IC tag 86 (S42). If no reflected wave is returned (S42: NO), a response error has occurred. However, if a response error has already occurred and the response error flag is “ON”, the monitoring information of the occurrence of the response error has already been stored, so that the monitoring information is not stored. Therefore, it is determined whether or not the response error flag is "ON" (S43). If it is "ON" (S43: YES), the process is terminated as it is, and the process returns to the basic monitoring process. If it is not "ON" (S43: NO), "1" is stored in the response error flag of the monitoring location and turned "ON" (S44), and "1" is stored in the communication status flag and "OFF". (S45). Then, it is determined whether or not the start flag of the monitoring place where the process is currently being performed is "ON" (S46). If it is not "ON" (S46: NO), since monitoring has not been started yet, the monitoring information is not stored, the process is terminated, and the process returns to the basic monitoring process.
[0080]
When the start flag is “ON” (S46: YES), since monitoring has been started, the latest monitoring information storage area 351 of the EEPROM 35 of the R / W board 31 and the history monitoring information storage area 341 of the RAM 34. The monitoring information is stored in (S47). Specifically, the area of the monitoring location in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the occurrence date and time, and “0” indicating a response error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "1" indicating the occurrence in the status, and "0" indicating the response error in the ID error are newly added. It is memorized. Then, data indicating that a response error has occurred is transmitted to the island management terminal 100 (S48), and the process ends, and the process returns to the basic monitoring process.
[0081]
When the reflected wave is returned from the monitoring IC tag 86 (S42: YES), it is determined whether or not the ID code included in the reflected wave matches the ID code registered in advance. This is performed (S49). The ID code of the monitoring IC tag 86 provided at each monitoring location is stored in the EEPROM 863 of the R / W board 31. If the ID codes do not match (S49: NO), an ID error has occurred. However, if an ID error has already occurred and the ID error flag is "ON", the monitoring information of the occurrence of the ID error has already been stored, so that the monitoring information is not stored. Therefore, it is determined whether or not the ID error flag is "ON" (S50). If it is "ON" (S50: YES), the monitoring information is not stored, so that the process is terminated and the process returns to the basic monitoring process. If it is not “ON” (S50: NO), “1” is stored in the ID error flag of the monitoring location and turned “ON” (S51), and “1” is stored in the communication status flag and “OFF”. (S52). Then, it is determined whether or not the start flag of the monitoring place that is currently performing the processing is “ON” (S53). If it is not "ON" (S53: NO), the monitoring has not been started yet, so the monitoring information is not stored, the process is terminated as it is, and the process returns to the basic monitoring process.
[0082]
If the start flag is "ON" (S53: YES), the monitoring has been started, and the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S54). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the occurrence date and time, and “1” indicating the ID error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "1" indicating the occurrence in the status, and "1" indicating the ID error in the ID error are newly added. It is memorized. Then, data indicating the occurrence of an ID error is transmitted to the island management terminal 100 (S55), and the process ends, and the process returns to the basic monitoring process.
[0083]
If the ID code included in the reflected wave matches the ID code registered in advance (S49: YES), communication with the monitoring IC tag 86 is normally performed, and the monitoring is performed. This means that the IC tag 86 for use is not illegal, that is, the monitoring location is normal. Therefore, the communication status LED 76 of the monitoring location is turned on (S56), “1” is stored in the communication status flag of the monitoring location, and “ON” is set (S57). Then, the response error flag and the ID error flag are set. A confirmation is made as to whether it is "ON". If it is "ON", an error has occurred and it has recovered and is now normal, so it is necessary to clear each error flag and store monitoring information indicating that it has recovered. .
[0084]
Therefore, first, it is determined whether or not the response error flag is “ON” (S58). If the response error flag is "ON" (S58: YES), "0" is stored in the response error flag of the monitoring location and set to "OFF" (S59). Then, the monitoring information indicating the return is stored, but if the start flag is not “ON”, the monitoring information is not stored because the monitoring instruction has not been given yet. Therefore, it is determined whether or not the start flag of the monitoring place is “ON” (S60). If the start flag is not “ON” (S60: NO), the process ends without doing anything and returns to the basic monitoring process.
[0085]
If the start flag is "ON" (S60: YES), the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S61), and the monitoring information set in the monitoring location is used. The monitoring information is stored in the monitoring information storage area 8631 of the EEPROM 863 of the IC tag 86 (S62). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as a return date and a return time, and “0” indicating a response error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "2" indicating the return to the status, and "0" indicating the response error in the ID error are newly added. It is memorized. Then, in the monitoring information storage area 8631, the same data as the data stored at the monitoring location in the latest monitoring information storage area 351 is stored. Then, data indicating the return of the response error is transmitted to the island management terminal 100 (S63), the process ends, and the process returns to the basic monitoring process.
[0086]
If the response error flag is not “ON” (S58: NO), it is determined whether the ID error flag is “ON” (S64). If the ID error flag is "ON" (S64: YES), "0" is stored in the ID error flag of the monitoring location and set to "OFF" (S65). Then, the monitoring information indicating the return is stored, but if the start flag is not “ON”, the monitoring information is not stored because the monitoring instruction has not been given yet. Therefore, it is determined whether or not the start flag of the monitoring place is “ON” (S66). If the start flag is not “ON” (S66: NO), the process ends without doing anything and returns to the basic monitoring process.
[0087]
If the start flag is "ON" (S66: YES), the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S67), and the monitoring information set in the monitoring location is used. The monitoring information is stored in the monitoring information storage area 8631 of the EEPROM 863 of the IC tag 86 (S68). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the return date and return time, and “1” indicating the ID error is stored in the ID error. . The history monitoring information storage area 341 newly adds data of the current time in the time, the number of the monitoring location in the monitoring location, “2” indicating the return to the status, and “1” indicating the ID error in the ID error. It is memorized. Then, in the monitoring information storage area 8631, the same data as the data stored at the monitoring location in the latest monitoring information storage area 351 is stored. Then, data indicating the return of the ID error is transmitted to the island management terminal 100 (S69), and the process ends, and the process returns to the basic monitoring process.
[0088]
If the ID error flag is not "ON" (S64: NO), it indicates that the monitoring is normal since the previous monitoring, so that the process is terminated and the process returns to the basic monitoring process. As described above, monitoring of the monitoring places 1 to 5 is performed.
[0089]
Next, the special winning opening monitoring process for monitoring the special winning opening 16 will be described with reference to the flowcharts of FIGS. Here, the special winning opening 16 which is the monitoring place 6 is monitored. The special winning opening 16 may be opened in a jackpot game state when a player is playing a game with the pachinko machine 1, and may be opened. That is, when the pachinko machine 1 is opened under the control of the game, it is not opened by the goto action or the like, and thus it is not necessary to leave the monitoring information as an error. Further, when the front frame 111 is opened due to fraud and the special winning opening 16 is opened, the monitoring information is stored in the front frame 111, so that it is not necessary to leave the monitoring information even in the special winning opening 16. . Therefore, if the special winning opening 16 is open due to the gaming control of the pachinko machine 1, and if a response error occurs in the monitoring place 5 (the front frame 111 and the main body frame 110), it is not regarded as abnormal. It shall be.
[0090]
First, a ringing wave is transmitted from the monitoring antenna 68f at the monitoring location designated by the basic monitoring process (S101). Then, it is determined whether or not the reflected wave is returned from the monitoring IC tag 86f (S102). If no reflected wave is returned (S102: NO), a response error has occurred. However, when the special winning opening 16 is being opened by the gaming control of the pachinko machine 1, since the response error is not caused due to improper operation but the regular opening, the pachinko machine 1 is opened. The control determines whether or not the special winning opening 16 is being opened (S103). This determination is made based on a signal transmitted from the CPU 51 of the pachinko machine 1 to the CPU 32 of the R / W board 31 via the output port 55 and the input port 39. The opening signal is transmitted when the opening of the special winning opening 16 is started, and the closing signal is transmitted when the opening of the special winning opening 16 is closed. If the special winning opening 16 is being opened (S103: YES), the process is terminated without doing anything, and the process returns to the basic monitoring process. Furthermore, even if a response error has occurred in the monitoring location 5 (the front frame 111 and the main body frame 110), it is not regarded as abnormal, so that even if the response error flag of the monitoring location 5 is “ON” (S104). : YES), end the process without doing anything, and return to the basic monitoring process.
[0091]
If the response error flag of the monitoring place 5 is not “ON” (S104: NO), the illegal opening is performed at the special winning opening 16. Therefore, it is determined whether a response error has already occurred and the response error flag is "ON" (S105). If it is "ON" (S105: YES), the process is terminated as it is, and the process returns to the basic monitoring process. If it is not "ON" (S105: NO), "1" is stored in the response error flag of the monitoring location and is set to "ON" (S106), and "1" is stored in the communication status flag and " OFF "(S107). Then, it is determined whether or not the start flag of the monitoring place 6 is “ON” (S108). If it is not "ON" (S108: NO), since monitoring has not been started yet, the monitoring information is not stored, the process is terminated, and the process returns to the basic monitoring process.
[0092]
If the start flag is "ON" (S108: YES), since monitoring has been started, monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S109). . Specifically, the area of the monitoring location in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the occurrence date and time, and “0” indicating a response error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "1" indicating the occurrence in the status, and "0" indicating the response error in the ID error are newly added. It is memorized. Then, data indicating that a response error has occurred is transmitted to the island management terminal 100 (S110), and the process ends, and the process returns to the basic monitoring process.
[0093]
When the reflected wave is returned from the monitoring IC tag 86f (S102: YES), it is determined whether or not the ID code included in the reflected wave matches the ID code registered in advance. This is performed (S111). The ID code of the monitoring IC tag 86 provided at each monitoring location is stored in the EEPROM 863 of the R / W board 31. If the ID codes do not match (S111: NO), an ID error has occurred. However, if an ID error has already occurred and the ID error flag is “ON”, the monitoring information of the occurrence of the ID error is already stored, and the monitoring information is not stored. Then, it is determined whether or not the ID error flag is “ON” (S112). If it is "ON" (S112: YES), the monitoring information is not stored, so that the process is terminated and the process returns to the basic monitoring process. If it is not “ON” (S112: NO), “1” is stored in the ID error flag of the monitoring location and turned “ON” (S113), and “1” is stored in the communication status flag and “OFF”. (S114). Then, it is determined whether or not the start flag of the monitoring place that is currently performing the processing is “ON” (S115). If it is not "ON" (S115: NO), the monitoring has not been started yet, so the monitoring information is not stored, the process is terminated, and the process returns to the basic monitoring process.
[0094]
If the start flag is "ON" (S115: YES), the monitoring has been started, and the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S116). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the occurrence date and time, and “1” indicating the ID error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "1" indicating the occurrence in the status, and "1" indicating the ID error in the ID error are newly added. It is memorized. Then, data indicating that an ID error has occurred is transmitted to the island management terminal 100 (S117), and the process ends and the process returns to the basic monitoring process.
[0095]
If the ID code included in the reflected wave matches the ID code registered in advance (S111: YES), it means that communication with the monitoring IC tag 86f is normally performed. That is, the special winning opening 16 is not illegally opened. Then, the communication status LED 76f of the monitoring location 6 is turned on (S118), and “1” is stored in the communication status flag of the monitoring location 6 and turned on (S119). Then, it is checked whether the response error flag and the ID error flag are “ON”. If it is "ON", an error has occurred and it has recovered and is now normal, so it is necessary to clear each error flag and store monitoring information indicating that it has recovered. .
[0096]
Therefore, it is determined whether or not the response error flag is “ON” (S120). If the response error flag is "ON" (S120: YES), "0" is stored in the response error flag of the monitoring location and is set to "OFF" (S121). Then, it is determined whether or not the start flag of the monitoring place is “ON” (S122). If the start flag is not “ON” (S122: NO), the process ends without doing anything, and returns to the basic monitoring process. When the start flag is “ON” (S122: YES), the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S123), and the monitoring information set in the monitoring location is used. The monitoring information is stored in the monitoring information storage area 8631 of the EEPROM 863f of the IC tag 86f (S124). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as a return date and a return time, and “0” indicating a response error is stored in the ID error. . In the history monitoring information storage area 341, data of the current time in the time, the number of the monitoring location in the monitoring location, "2" indicating the return to the status, and "0" indicating the response error in the ID error are newly added. It is memorized. Then, in the monitoring information storage area 8631, the same data as the data stored at the monitoring location in the latest monitoring information storage area 351 is stored. Then, data indicating the return of the response error is transmitted to the island management terminal 100 (S125), and the process ends, and the process returns to the basic monitoring process.
[0097]
If the response error flag is not “ON” (S120: NO), it is determined whether the ID error flag is “ON” (S126). If the ID error flag is "ON" (S126: YES), "0" is stored in the ID error flag of the monitoring location and set to "OFF" (S127). Then, the monitoring information indicating the return is stored, but if the start flag is not “ON”, the monitoring information is not stored because the monitoring instruction has not been given yet. Therefore, it is determined whether or not the start flag of the monitoring place is “ON” (S128). If the start flag is not “ON” (S128: NO), the process ends without doing anything and returns to the basic monitoring process.
[0098]
If the start flag is “ON” (S128: YES), the monitoring information is stored in the latest monitoring information storage area 351 and the history monitoring information storage area 341 (S129), and the monitoring information set in the monitoring location is used. The monitoring information is stored in the monitoring information storage area 8631 of the EEPROM 863 of the IC tag 86 (S130). Specifically, the area of the monitoring place in the latest monitoring information storage area 351 is cleared, the current date and time are stored as the return date and return time, and “1” indicating the ID error is stored in the ID error. . The history monitoring information storage area 341 newly adds data of the current time in the time, the number of the monitoring location in the monitoring location, “2” indicating the return to the status, and “1” indicating the ID error in the ID error. It is memorized. Then, in the monitoring information storage area 8631, the same data as the data stored at the monitoring location in the latest monitoring information storage area 351 is stored. Then, the data indicating the recovery from the ID error is transmitted to the island management terminal 100 (S131), and the process ends, and the process returns to the basic monitoring process.
[0099]
If the ID error flag is not "ON" (S126: NO), it indicates that the monitoring is continued normally from the previous monitoring, so that the process is terminated and the process returns to the basic monitoring process. As described above, monitoring of the monitoring place 6 is performed.
[0100]
By repeating the basic monitoring process in this manner, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, By transmitting a calling wave to the monitoring IC tag 86f, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, and the monitoring IC tag 86f are generated. Movement and replacement can be monitored.
[0101]
8. Explanation of starting monitoring
Next, the start of monitoring, which is a main part of the present invention, will be described with reference to FIGS. In the present embodiment, the HT 400 is operated on the front of the pachinko machine 1 to transmit a ringing wave including start information to the management IC tag 24 provided in the pachinko machine 1, thereby instructing the start of monitoring. On the pachinko machine 1 side, the management IC tag 24 transmits to the R / W board 31 start instruction information indicating that the paging wave including the start information has been received. When the CPU 32 of the R / W board 31 receives the start instruction information from the management IC tag 24, the CPU 32 sets the start flag of the monitoring place where the monitoring IC tag 86 is in the communication state to “ON” and starts monitoring. Let it. As described in the monitoring process (see FIG. 17) and the special winning opening monitoring process (see FIGS. 18 and 19), “1” is stored in the start flag provided for each monitoring IC tag 86. The monitoring information is stored when “ON”. FIG. 20 is an image diagram of a monitoring start screen 4031 displayed on the display panel 403 of the HT 400. FIG. 21 is a flowchart of the management IC tag process performed by the CPU 24f of the management IC tag 24 connected to the R / W board 31. FIG. 22 is a flowchart of a start check process performed by the CPU 32 of the R / W board 31.
[0102]
First, with reference to the monitoring start screen 4031 shown in FIG. 20, a start process of starting monitoring by the HT 400 will be described. The monitoring start screen 4031 is displayed on a menu screen (not shown) on which a menu of “monitoring information”, “setting”, “monitoring start” and the like is displayed by various processes that can be performed by the HT 400. Is displayed when the “monitoring start” menu is selected by operating the menu key 404 or the direction key 405. As shown in FIG. 20, the monitoring start screen 4031 has a “vehicle number column” as an input item, and further, a “start” button and a “cancel” button are provided below the unit number column. ing. Therefore, the operator inputs the machine number of the pachinko machine 1 to start monitoring in the machine number column, and selects the “start” button. When inputting the machine number, an input auxiliary screen listing the numbers “0” to “9” and the 26 letters of the alphabet is displayed, and the operator operates the input keys 404 and 405 to input the numbers or You can enter alphabets.
[0103]
Therefore, in the CPU 411 of the HT 400, the “monitoring start” menu is selected, the machine number of the pachinko machine 1 to start monitoring is entered in the machine number column on the monitoring start screen 4031, and the “start” button is selected. When the “processing” is performed, a paging wave including the ID code and the start information of the management IC tag 24 of the pachinko machine 1 of the number input in the stand number column is transmitted from the antenna 402 connected to the RF circuit 410. Information transmission processing "is performed. Note that the ID code of the management IC tag 24 of the pachinko machine 1 with the number input in the unit number column is stored in the flash memory 414.
[0104]
Next, the management IC tag processing performed by the CPU 24f of the management IC tag 24 will be described with reference to the flowchart of FIG. Here, when a paging wave transmitted from the HT 400 is received, a process according to the instruction is performed in accordance with an instruction of information included in the paging wave (for example, an instruction to start monitoring, an instruction to acquire monitoring information, and the like). Is performed.
[0105]
First, it is determined whether or not a paging wave transmitted from the HT 400 has been received (S20). If the paging wave has not been received (S20: NO), it is determined whether or not the paging wave has been repeatedly received (S20). When the ringing wave is received (S20: YES), it is determined whether or not the ID code included in the ringing wave matches its own ID code (S21). If the ID codes do not match (S21: NO), the received paging wave is not transmitted to the pachinko machine 1 to which the self-attached paving machine is attached, so that the ID codes match. A reflected wave including error information indicating that there is no transmission is transmitted (S25). Then, the process returns to S20, and it is determined again whether the paging wave has been received (S20).
[0106]
If the ID codes match (S21: YES), the received paging wave has been transmitted to the pachinko machine 1 to which the self-attached pachinko machine has been pasted. Then, it is determined whether or not start information is included (S22). If the start information is included (S22: YES), start instruction information is transmitted to the R / W board 31 (S23). Then, a reflected wave including its own ID code is transmitted via the antenna 24b of the RF circuit 24a (S24), and the process returns to S20. If the paging wave does not include the start information (S22: NO), other processing is performed according to the instruction of the information included in the paging wave (S26), and the process returns to S20.
[0107]
By repeatedly performing the above processing, the CPU 24f of the management IC tag 24 transmits the start instruction information to the R / W board 31 when receiving the paging wave including the start information transmitted from the HT 400. , HT400 has issued an instruction to start monitoring.
[0108]
Next, a start check process performed by the CPU 32 of the R / W board 31 will be described with reference to a flowchart of FIG. This process is performed when power is supplied to the R / W unit 30.
[0109]
First, it is determined whether or not start instruction information has been received from the management IC tag 24 (S30). If the start instruction information has not been received (S30: NO), it is determined whether or not the repetition start instruction information has been received (S30). When the paging wave is received (S30: YES), the initial value "0" is set to a count variable n for counting the number of the monitoring place (S31). Then, “1” is added to the count variable n (S32). Since there are six monitoring locations, it is determined whether the value of the count variable n is greater than “6” (S33). If it is not larger than "6" (S33: NO), the start flag of the n-th monitoring place is "ON" and it is determined whether or not monitoring has already been started (S34). If the start flag is "ON" and the monitoring has already been started (S34: YES), the process returns to S32 without doing anything. If the start flag is not “ON” and monitoring has not been started (S34: NO), it is determined whether or not communication with the monitoring IC tag 86 at the n-th monitoring place is normally performed. Is performed (S35). This determination is made based on whether “1” is stored in the communication state flag of the n-th monitoring place and “ON” is set. If the communication state flag is "OFF" and communication is not normally performed (S35: NO), monitoring is not started, and the process returns to S32 without doing anything. If the communication state flag is "ON" and communication is normally performed (S35: YES), "1" is stored in the start flag of the n-th monitoring place and is set to "ON" (S36). , The n-th monitoring start LED 77 is turned on (S37). Then, the process returns to S32.
[0110]
Next, “1” is further added to the count variable n (S32), and the processes of S34 to S37 are repeatedly performed until the value of the count variable n becomes larger than “6”, and the value of the count variable n becomes “6”. ”(S33: YES), the process returns to S30.
[0111]
In this way, when the management IC tag 24 receives the paging wave including the start information transmitted from the HT 400, the start instruction information is transmitted to the R / W board 31, and the R / W board receiving the start instruction information The CPU 32 at 31 checks whether or not to start monitoring each monitoring place. If the conditions are satisfied, the start flag is set to “ON” and the monitoring start LED 77 is turned on.
[0112]
9. Comparison between the embodiment and the claims
In the above embodiment, the RF circuit 38 corresponds to the “communication means” of the configuration of the present invention, and the communication status LED 76a, the communication status LED 76b, the communication status LED 76c, the communication status LED 76d, the communication status LED 76e, and the communication status LED 76f are the main components. The monitoring start LED 77a, the monitoring start LED 77b, the monitoring start LED 77c, the monitoring start LED 77d, the monitoring start LED 77e, and the monitoring start LED 77f of the present invention correspond to the "storage state notifying means" of the present invention. . Further, the latest monitoring information storage area 351 of the EEPROM 35 of the R / W board 31 shown in FIG. 13, the history monitoring information storage area 341 of the RAM 34 of the R / W board 31 shown in FIG. 14, and the monitoring IC tag 86 shown in FIG. The monitoring information storage area 8631 of the EEPROM 863 corresponds to a “monitoring information storage unit”.
[0113]
“Start processing” performed by the CPU 411 of the HT 400 using the menu key 404, the direction key 405, and the monitoring start screen 4031 corresponds to “start instructing means”, and monitoring start information is transmitted from the antenna 402 connected to the RF circuit 410. The "start information transmission process" for transmitting a paging wave including "" corresponds to "mobile information terminal side transmission means". Further, the CPU 24f that performs the process of S20 of the management IC tag process illustrated in FIG. 21 corresponds to the “management IC tag side receiving unit” of the management IC tag, and the CPU 24f that performs the process of S23 is “management IC tag”. IC tag side transmitting means ". The CPU 32 executing the processing of S42 and S49 in the flowchart of the monitoring processing shown in FIG. 17 and the processing of S102 and 111 in the flowchart of the special winning opening monitoring processing shown in FIG. 18 corresponds to the “communication result determining means” of the configuration of the present invention. Then, the CPU 32 that performs the process of S30 in the flowchart of the start check process illustrated in FIG. 22 corresponds to “monitoring unit receiving unit”, and the CPU 32 that performs the processes of S31 to S37 corresponds to “storage control unit”.
[0114]
10. Effects of the embodiment
As described above, in the gaming machine of the above embodiment, the monitoring IC tag 86a, the monitoring IC tag 86b, the monitoring IC tag 86c, the monitoring IC tag 86d, the monitoring IC tag 86e, the monitoring IC tag 86f monitors the opening of the main board box 81, the payout control board box 82, the center cover 80, the main body frame 110 and the machine frame 112, the front frame 111 and the main body frame 110, and the opening of the special winning opening 16 of the pachinko machine 1. Can be stored in the R / W unit 30 and the monitoring IC tag 86. Further, the monitoring information stored in the R / W unit 30 is transmitted to the island management terminal 100 installed in the game arcade, and can be browsed on the HT 400. Then, a ringing wave including the start information is transmitted from the HT 400 and received by the management IC tag 24, and the monitoring location where the monitoring antenna 68 and the monitoring IC tag 86 can normally communicate at that time is determined. , That is, storage of monitoring information can be started.
[0115]
In addition, since monitoring is not started for a monitoring location where the monitoring IC tag 86 is not in a communication state, monitoring information of a monitoring location where the monitoring IC tag 86 is not installed is not wastefully stored. Further, the time when the monitoring is started can be made different depending on the monitoring place. For example, after the pachinko machine 1 is manufactured and shipped from the factory, the monitoring IC tag 86a and the monitoring IC tag 86b are installed only in the monitoring place 1 (main board box 81) and the monitoring place 2 payout control board box 82). Then, monitoring is started, and it can be monitored whether the main board 41 or the payout control board 45 is picked up or tampered with while the pachinko machine 1 is being transported. Then, after the pachinko machine 1 is installed in the game arcade, the monitoring IC tags 86c to 86f can be installed in other monitoring places to start monitoring.
[0116]
11. Description of the modification
It should be noted that the present invention is not limited to the embodiment described in detail above, and various modifications are possible. Hereinafter, a modified example of the embodiment to which the present invention is applied will be described. First, in the present embodiment, as a device that performs a predetermined operation, a pachinko machine that is a kind of a gaming machine is exemplified, but the device that performs the predetermined operation is not limited to a pachinko machine that is a gaming machine, and a pachicon machine, It is applicable to various types of gaming machines such as pachislot machines. Further, not only gaming machines, but also machine tools that manufacture products by performing predetermined operations, vending machines that sell products by performing predetermined operations, and service providing devices that provide services by performing predetermined operations. Is also applicable.
[0117]
In the above embodiment, the main board box 81, the dispensing control board box 82, the center cover 80, the main body frame 110 and the machine frame 112, the front frame 111 and the main body frame of the pachinko machine 1 are the monitored members whose movements are monitored. 110, the winning opening 16 was handled, and a monitoring IC tag was installed at one place each. However, the member monitored for movement is not limited to this, and it is installed on another winning opening, a normal symbol starting gate and various substrates. , Its open / closed state may be monitored. Further, the place where the monitoring IC tag is installed does not need to be one place for each member, and may be installed at a plurality of positions. Further, when the device is not the pachinko machine 1, of course, the member whose movement is monitored is not limited to the member of the above-described embodiment, and may be an opening / closing member that is provided in the device and that opens and closes, or a component that constitutes the device. In order to monitor the opening / closing of the opening / closing member and the location of the component, one or more monitoring IC tags may be provided on the opening / closing member or the component, and the movement of the member may be monitored.
[0118]
Further, in the above embodiment, when the start instruction information is received by the R / W board 31, the start flag corresponding to each monitoring location is turned on, and when the start flag is on, the monitoring information is stored. Monitoring is starting. However, before determining whether or not the reflected wave is returned from the monitoring IC tag 86, it is determined whether or not the start flag is ON, and the determination is performed only when the start flag is ON. , Monitoring may be started. In this case, it is determined whether the start flag is ON before S42 in FIG. 17 and S102 in FIG.
[0119]
In the above embodiment, the terminal device having the shape of a PDA is used as the HT 400. However, the terminal device is not limited to the PDA, and may be a mobile phone, another mobile information terminal, or a dedicated device. It is only necessary to include the RF circuit 410 and the antenna 402 that can communicate with the H.24.
[0120]
In the above-described embodiment, the pachinko machine 1 provided with the management IC tag 24 that has received the start information determines whether or not the pachinko machine 1 that is to be monitored by the HT 400 is started. Also, it is determined whether or not the ID code included in the ringing wave matches its own ID code stored in the EEPROM 24c of the management IC tag 24 (see S21 in FIG. 21). However, when the paging wave including the start information is received, the pachinko machine 1 provided with the management IC tag 24 may be unconditionally started to monitor the pachinko machine 1 without performing this confirmation. In that case, the ID code may not be included in the call wave including the start information.
[0121]
In addition, the communication status LED 76a, the communication status LED 76b, the communication status LED 76c, the communication status LED 76d, the communication status LED 76e, the communication status LED 76f as the "communication status notification means", the monitoring start LED 77a, the monitoring start LED 77b, and the monitoring start as the "storage status notification means" Although the LED 77c, the monitor start LED 77d, the monitor start LED 77e, and the monitor start LED 77f are provided, the notification means is not limited to the LED, and may be an electric lamp or the like. Further, these notification means are provided in the R / W unit 30, but may be provided on the front side of the pachinko machine 1.
[0122]
In the above-described embodiment, the HT 400 simultaneously issues a monitoring start instruction to a communicable monitoring place. However, in the HT 400, the number of the monitoring location may be designated, and an instruction to start monitoring may be issued for each monitoring location.
[0123]
【The invention's effect】
As described above, in the monitoring system according to the first aspect of the invention, the management IC tag provided in the device is an IC tag for communicating with the portable information terminal, and the start instruction means of the portable information terminal Instructs the start of storage of monitoring information relating to the result of communication with the IC tag, and the portable information terminal side transmission means instructs to start storage of monitoring information when the instruction is issued by the start instruction means. The start information can be transmitted to the management IC tag. The management IC tag side receiving means of the management IC tag receives the start information transmitted from the portable information terminal side transmission means, and the management IC tag side transmission means receives the start information transmitted from the management IC tag side reception means. The start information thus obtained can be transmitted to the monitoring means. The communication means of the monitoring means performs non-contact communication with the IC tag while power is supplied, and the communication result determination means determines whether the communication result of the communication by the communication means is normal, The monitoring information storage means stores the monitoring information when the communication result determining means determines that the information is not normal, and the monitoring means side receiving means receives the start information transmitted from the management IC tag side transmitting means. The storage control means can set the monitoring information storage means to be able to store the monitoring information when the monitoring means receiving means receives the start information. Therefore, by transmitting the start information to the management IC tag by operating the portable information terminal, storage of the monitoring information can be started, that is, monitoring of the state of the member provided with the IC tag can be started. .
[0124]
Further, in the monitoring system according to the second aspect of the present invention, in addition to the effect of the first aspect, the communication state notifying means provided in the monitoring means is normal when the communication result is normal. Can be notified. Therefore, it is possible to know whether communication with the IC tag provided at the monitoring place is normally performed or not.
[0125]
In the monitoring system according to a third aspect of the present invention, in addition to the effect of the first or second aspect, the storage state notifying unit provided in the monitoring unit notifies that the storage state is set. Can be. Therefore, it is possible to know whether or not the storage is possible, that is, if the communication result is not normal, whether or not the monitoring information is stored.
[0126]
According to the fourth aspect of the present invention, in addition to the effects of the first aspect, the monitoring information includes a date, a time, a communication result, and a time at which a change in the state of the device has occurred. History data including at least one position identification code that identifies the position where the IC tag is provided can be used. Therefore, it is possible to know the date, time, and monitoring place at which the communication has failed.
[0127]
In the monitoring system according to a fifth aspect of the present invention, in addition to the effects of the first aspect, the presence or absence of a member provided with an IC tag of the apparatus is monitored as the state of the apparatus. be able to. Therefore, it is possible to monitor whether the member provided with the IC tag has been removed or moved.
[0128]
In the monitoring system according to a sixth aspect of the present invention, in addition to the effects of the invention according to any one of the first to fifth aspects, the communication result judging unit may be configured to perform a communication when the communication unit cannot perform the communication. When the communication is performed, if the identification information stored in the IC tag with which the communication is performed is different from the identification information of the IC tag with which communication is to be performed, it is determined that the communication is not normal. it can. Therefore, when the member provided with the IC tag is removed or moved to a place where communication cannot be performed, or when the IC tag is replaced, that is, when the member provided with the IC tag is replaced. Then, it can be determined that it is not normal.
[0129]
Further, in the monitoring system of the invention according to claim 7, in addition to the effect of the invention according to any one of claims 1 to 6, a gaming machine can be used as the device. Therefore, the state of the members of the gaming machine can be monitored. More specifically, the movement, presence or absence, illegality, etc. of the board that controls the gaming machine, the box storing the board, the winning hole for paying out gaming balls to the player, the door protecting the gaming area of the gaming machine, etc. Can be monitored.
[0130]
Further, in the device according to the eighth aspect, the management IC tag is an IC tag for communicating with the portable information terminal, and the management IC tag side receiving means of the management IC tag transmits from the portable information terminal. Receiving the start information instructing the start of storage of the monitoring information relating to the communication result of the communication with the IC tag, and the management IC tag side transmitting unit transmits the start information received by the management IC tag side reception unit to the device. Can be sent to The communication means of the monitoring means performs non-contact communication with the IC tag while power is supplied, and the communication result determining means determines whether or not the communication result of the communication by the communication means is normal, and performs monitoring. The information storage means stores the monitoring information when the communication result determining means determines that the information is not normal, the monitoring means-side receiving means receives the start information transmitted from the management IC tag-side transmitting means, The storage control means can set the monitoring information storage means to be able to store the monitoring information when the monitoring means receiving means receives the start information. Therefore, by transmitting start information from the portable information terminal to the management IC tag, storage of the monitoring information can be started, that is, monitoring of the state of the member provided with the IC tag can be started.
[0131]
In the device according to the ninth aspect, in addition to the effect of the eighth aspect, the communication status notifying unit provided in the monitoring unit may determine that the communication result is normal when the communication result is normal. Can be reported. Therefore, it is possible to know whether communication with the IC tag provided at the monitoring place is normally performed or not.
[0132]
Further, in the apparatus according to the tenth aspect, in addition to the effect of the eighth aspect, the storage state notifying unit provided in the monitoring unit may notify that the storage is possible. it can. Therefore, it is possible to know whether or not the storage is possible, that is, if the communication result is not normal, whether or not the monitoring information is stored.
[0133]
Further, in the device according to the eleventh aspect, in addition to the effect of the invention according to any one of the eighth to tenth aspects, the monitoring information includes a date, a time, a communication result, and an IC result when a change in the status of the device occurs. History data including at least one position identification code that identifies the position where the tag is provided can be used. Therefore, it is possible to know the date, time, and monitoring place at which the communication has failed.
[0134]
In the apparatus according to the twelfth aspect, in addition to the effects of the invention according to any one of the eighth to eleventh aspects, the presence or absence of a member provided with an IC tag of the apparatus is monitored as the state of the apparatus. Can be. Therefore, it is possible to monitor whether the member provided with the IC tag has been removed or moved.
[0135]
Further, in the apparatus according to the thirteenth aspect, in addition to the effect of the invention according to any one of the eighth to twelfth aspects, the communication result determination means may be configured to perform the communication when the communication means cannot perform the communication, or If the identification information stored in the IC tag with which the communication was performed is different from the identification information of the IC tag that was scheduled to perform the communication, it can be determined that the communication is not normal. . Therefore, when the member provided with the IC tag is removed or moved to a place where communication cannot be performed, or when the IC tag is replaced, that is, when the member provided with the IC tag is replaced. Then, it can be determined that it is not normal.
[0136]
In the device according to the fourteenth aspect, in addition to the effects of the invention according to any one of the eighth to thirteenth aspects, a gaming machine can be used as the device. Therefore, the state of the members of the gaming machine can be monitored. More specifically, the movement, presence or absence, illegality, etc. of the board that controls the gaming machine, the box storing the board, the winning hole for paying out gaming balls to the player, the door protecting the gaming area of the gaming machine, etc. Can be monitored.
[0137]
In the portable information terminal of the invention according to claim 15, the start instruction means instructs the start of storage of monitoring information relating to a communication result of communication with the IC tag, and the portable information terminal side transmission means uses the start instruction means. When the instruction is issued, start information for instructing start of monitoring of the IC tag can be transmitted to the device. Therefore, by operating the portable information terminal, storage of the monitoring information can be started, that is, monitoring of the state of the member provided with the IC tag can be started.
[0138]
In the portable information terminal according to the sixteenth aspect of the present invention, in addition to the effects of the fifteenth aspect, the monitoring information includes a date, time, a communication result, and an IC tag at which a change in the state of the device has occurred. It is possible to use history data including at least one of the position specifying codes for specifying the position where the position is set. Therefore, it is possible to know the date, time, and monitoring place at which the communication has failed.
[0139]
In the portable information terminal according to the seventeenth aspect, in addition to the effects of the fifteenth aspect or the sixteenth aspect, the presence or absence of the member provided with the IC tag of the apparatus is monitored as the state of the apparatus. An instruction to start storing information can be given. Therefore, it is possible to monitor whether the member provided with the IC tag has been removed or moved.
[0140]
Further, in the portable information terminal according to the eighteenth aspect, in addition to the effects of the invention according to any one of the fifteenth to seventeenth aspects, the device can use a gaming machine. Therefore, the state of the members of the gaming machine can be monitored. More specifically, the movement, presence or absence, illegality, etc. of the board that controls the gaming machine, the box storing the board, the winning hole for paying out gaming balls to the player, the door protecting the gaming area of the gaming machine, etc. Can be monitored.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a monitoring system according to an embodiment.
FIG. 2 is a perspective view of the pachinko machine 1 with a front frame 111 and a body frame 110 opened, as viewed from the front of the pachinko machine 1;
FIG. 3 is a rear view of the pachinko machine 1. FIG.
FIG. 4 is a perspective view of the R / W unit 30.
FIG. 5 is a block diagram showing an electrical configuration of the pachinko machine 1 and an R / W unit 30 attached to the pachinko machine 1.
FIG. 6 is a plan view of a monitoring IC tag 86a, a monitoring IC tag 86b, a monitoring IC tag 86c, a monitoring IC tag 86d, a monitoring IC tag 86e, and a monitoring IC tag 86f.
FIG. 7 shows an electrical circuit configuration of a monitoring IC tag 86a, a monitoring IC tag 86b, a monitoring IC tag 86c, a monitoring IC tag 86d, a monitoring IC tag 86e, and a monitoring IC tag 86f. It is a block diagram.
FIG. 8 is a block diagram showing an electric circuit configuration of the management IC tag 24.
FIG. 9 is a perspective view of a main board box 81.
FIG. 10 is a perspective view of the attacker member 160 in a state where the opening / closing door 16a is opened.
FIG. 11 is a perspective view of the HT400.
FIG. 12 is a block diagram of an electrical configuration of the HT 400.
FIG. 13 is a conceptual diagram of the latest monitoring information storage area 351 of the EEPROM 35 of the R / W board 31 in which the latest monitoring information of each monitoring location is stored.
FIG. 14 is a conceptual diagram of a history monitoring information storage area 341 of the RAM 34 of the R / W board 31 in which monitoring information for one day is stored.
FIG. 15 is a conceptual diagram of a monitoring information storage area 8631 of an EEPROM 863 of the monitoring IC tag 86.
FIG. 16 is a flowchart of a basic monitoring process performed by the CPU 32 of the R / W board 31;
FIG. 17 is a flowchart of a monitoring process for monitoring a monitoring place other than the special winning opening 16 performed in the basic monitoring process.
FIG. 18 is a flowchart of a special winning opening monitoring process for monitoring the special winning opening 16 performed in the basic monitoring process.
FIG. 19 is a continuation of FIG. 18 of the flowchart of the special winning opening monitoring process for monitoring the special winning opening 16 performed in the basic monitoring process.
FIG. 20 is an image diagram of a monitoring start screen 4031 displayed on the display panel 403 of the HT 400.
FIG. 21 is a flowchart of management IC tag processing performed by the CPU 24f of the management IC tag 24 connected to the R / W board 31.
FIG. 22 is a flowchart of a start check process performed by the CPU 32 of the R / W board 31;
[Explanation of symbols]
1 Pachinko machine
16 Grand Prize Winner
24 Management IC tag
24a RF circuit
24b antenna
24c EEPROM
24d IC chip
24f CPU
24k cable
30 R / W unit
31 R / W board
32 CPU
33 ROM
34 RAM
35 EEPROM
38 RF circuit
68a Monitoring antenna
68b Monitoring antenna
68c Monitoring antenna
68d monitoring antenna
68e Monitoring antenna
68f monitoring antenna
76a Communication status LED
76b Communication status LED
76c Communication status LED
76d Communication status LED
76e Communication status LED
76f Communication status LED
77a Communication status LED
77b Monitoring start LED
77c Monitoring start LED
77d Monitoring start LED
77e Monitoring start LED
77f Monitoring start LED
80 Center cover
81 Main board box
82 Dispensing control board box
86a IC tag for monitoring
86b Monitoring IC tag
86c monitoring IC tag
86d IC tag for monitoring
86e IC tag for monitoring
86f IC tag for monitoring
110 Body frame
111 Front frame
112 aircraft frame
113 body
341 History monitoring information storage area
351 Latest monitoring information storage area
402 antenna
403 Display panel
404 Menu key
405 direction key
410 RF circuit
411 CPU
682 antenna
861 RF circuit
862 antenna
863 EEPROM
864 IC chip
4031 Monitoring start screen
8631 Monitoring information storage area

Claims (18)

An IC tag storing identification information is provided on any member of the device, and the device is provided with monitoring means for monitoring the state of the member by communicating with the IC tag in a non-contact manner to browse the monitoring result. A monitoring system that communicates with a portable information terminal via an IC tag,
The device comprises:
A management IC tag that is an IC tag for communicating with the portable information terminal;
The portable information terminal,
Start instructing means for instructing start of storage of monitoring information relating to a communication result of communication with the IC tag;
Portable information terminal-side transmitting means for transmitting start information for instructing start of storage of the monitoring information to the management IC tag when an instruction is given by the start instruction means,
The management IC tag includes:
Management IC tag side receiving means for receiving the start information transmitted from the portable information terminal side transmitting means,
A management IC tag-side transmitting unit that transmits the start information received by the management IC tag-side receiving unit to the monitoring unit,
The monitoring means,
Communication means for performing contactless communication with the IC tag while power is supplied;
Communication result determination means for determining whether the communication result of the communication by the communication means is normal,
A monitoring information storage unit that stores the monitoring information when the communication result determination unit determines that the monitoring information is not normal;
Monitoring means-side receiving means for receiving the start information transmitted from the management IC tag-side transmitting means;
A monitoring system, comprising: a monitoring control unit that, when the monitoring unit-side receiving unit receives the start information, sets the monitoring information storage unit to a storable state in which the monitoring information can be stored. The monitoring system according to claim 1, wherein the monitoring unit includes a communication status notifying unit that notifies that the communication result is normal when the communication result is normal. 3. The monitoring system according to claim 1, wherein the monitoring unit includes a storage state notification unit that notifies the storage enabled state. 4. The monitoring information is history data including at least one of a date, a time, a communication result, and a position specifying code for specifying a position where the IC tag is provided when a change in the state of the device occurs. The monitoring system according to any one of claims 1 to 3, wherein: The monitoring system according to any one of claims 1 to 4, wherein the status of the device is the presence or absence of a member provided with the IC tag of the device. The communication result judging means is supposed to communicate with the identification information stored in the communicated IC tag when communication by the communication means cannot be performed or when communication is performed by the communication means. 6. The monitoring system according to claim 1, wherein when the identification information of the existing IC tag is different, it is determined that the IC tag is not normal. The monitoring system according to claim 1, wherein the device is a game machine. A portable information terminal for providing an IC tag storing identification information on any member of the device, monitoring the state of the member by communicating with the IC tag in a non-contact manner, and instructing the start of monitoring A device that communicates with an IC tag via an IC tag,
A management IC tag that is an IC tag for communicating with the portable information terminal;
The management IC tag includes:
Management IC tag side receiving means for receiving start information for instructing start of storage of monitoring information relating to a communication result of communication with the IC tag transmitted from the portable information terminal,
Management IC tag-side transmission means for transmitting the start information received by the management IC tag-side reception means to the device,
The monitoring means,
Communication means for performing contactless communication with the IC tag while power is supplied;
Communication result determination means for determining whether the communication result of the communication by the communication means is normal,
A monitoring information storage unit that stores the monitoring information as the monitoring information when the communication result determination unit determines that the status is not normal;
Monitoring means-side receiving means for receiving the start information transmitted from the management IC tag-side transmitting means;
A storage control unit for setting the monitoring information storage unit to a storable state in which the monitoring information can be stored when the monitoring unit receiving unit receives the start information. 9. The apparatus according to claim 8, wherein the monitoring unit includes a communication state notifying unit that notifies that the communication result is normal when the communication result is normal. The apparatus according to claim 8, wherein the monitoring unit includes a storage state notification unit that notifies the storage enabled state. The monitoring information is history data including at least one of a date, a time, a communication result, and a position specifying code for specifying a position where the IC tag is provided when a change in the state of the device occurs. Apparatus according to any of claims 8 to 10. The apparatus according to claim 8, wherein the state of the apparatus is the presence or absence of a member provided with the IC tag of the apparatus. The communication result judging means is supposed to communicate with the identification information stored in the communicated IC tag when communication by the communication means cannot be performed or when communication is performed by the communication means. 13. The apparatus according to claim 8, wherein when the identification information of the existing IC tag is different, it is determined that the IC tag is not normal. 14. The device according to claim 8, wherein the device is a game machine. An IC tag storing identification information is provided on any member of the device, and communicates via the IC tag with a device having monitoring means for monitoring the state of the member by performing non-contact communication with the IC tag. A portable information terminal,
Start instructing means for instructing start of storage of monitoring information relating to a communication result of communication with the IC tag;
A portable information terminal, comprising: portable information terminal-side transmission means for transmitting start information for instructing start of monitoring of the IC tag to the device when an instruction is given by the start instruction means. The monitoring information is history data including at least one of a date, a time, a communication result, and a position specifying code for specifying a position where the IC tag is provided when a change in the state of the device occurs. The portable information terminal according to claim 15, wherein 17. The portable information terminal according to claim 15, wherein the state of the device is presence or absence of a member provided with the IC tag of the device. The portable information terminal according to any one of claims 15 to 17, wherein the device is a game machine.

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