JP4295493B2 - Bill validator and bill validator using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a banknote discriminator for discriminating inserted banknotes and a banknote discriminator provided with the banknote discriminator, and more particularly to a banknote discriminator and a banknote discriminator as part of a game facility. is there.
[0002]
[Prior art]
A bill discriminating apparatus in a gaming facility is generally composed of a bill discriminating machine and a host that communicates with the bill discriminating machine (for example, a ball lending machine or a valuable card issuing machine in a gaming facility). , A feeding means for sending the banknote inserted from the banknote slot, an identification means for optically and / or magnetically identifying the banknote, a return means for returning the banknote determined not to be genuine by the identification means, What is provided with the extraction prevention means which prevents that is pulled out is used.
[0003]
Then, when the bill is inserted into the bill slot of the bill discriminator, the feeding means feeds the bill into the back, and at this time, the discriminating means determines whether the bill is a genuine note and the denomination, The banknotes that could not be determined are returned by the return means. When the banknotes are determined to be genuine, the banknotes are fed further into the back than the withdrawal prevention means by the feeding means to prevent the withdrawal of the banknotes, Report the judgment result information to the host. The host performs a ball lending operation and a value card issuing operation based on information received from the bill validator.
[0004]
[Patent Document 1]
Japanese Utility Model Publication No. 6-50061
[Problems to be solved by the invention]
Here, considering a case where a power failure occurs when a bill is inserted into the bill validator, a case where the bill has already been determined to be a genuine note and a power failure has occurred after passing through the withdrawal prevention means, There is a case where a power failure occurs when the judgment is not passed through the withdrawal prevention means, and there is a case where a power failure occurs when the banknote identification is not completed (of course, it has not passed the withdrawal prevention means). .
[0006]
At this time, when a power failure occurs when the banknote does not pass through the withdrawal prevention means, after returning from the power failure, the banknote recognition machine operates the return means to return the banknote and return the banknote. When the bill enters the error mode and the banknote passes through the withdrawal preventing means, the bill is often held as it is and the error mode is entered.
[0007]
The error mode is entered when it is determined that the banknote is a genuine note and the information has already been sent to the host before the power failure. This is because the host side may not be able to determine whether or not it has been done, and a manual check is required to recover from the error mode.
[0008]
This invention is made in view of such a point, The place made into the objective is a banknote identification device which can perform the return from accidents, such as a power failure, smoothly, and a banknote identification apparatus provided with this banknote identification machine. In offer.
[0009]
[Means for Solving the Problems]
Therefore, the banknote discriminator according to the present invention has a discriminating function for determining whether or not the inserted banknote is a genuine note, and includes banknote information including at least definite denomination information when the inserted banknote is a genuine note. Is a banknote discriminator provided with a communication unit that sends the data to the host, and the communication unit holds data including the genuine bill determination number identification information different from the previous one as the bill information. In addition to sending information to the host, it receives confirmation information from the host for the information sent to the host and clears the deterministic information stored in the memory unit. If it is not cleared by checking the definite denomination information written in (5), it enters into an error mode for notifying the host of an error .
[0010]
Even if there is a power failure, disconnection, communication error, or the like, the processing can be continued by referring to the genuine note determination number identification information sent from the bill validator.
[0018]
And the banknote identification apparatus which concerns on this invention is provided with the identification function which determines whether the inserted banknote is a genuine note, and when the inserted banknote is a genuine note, the banknote information containing at least fixed denomination information is included. It consists of a banknote discriminator provided with a communication unit for sending to the host, and the host that performs a required operation based on the banknote information sent from the banknote discriminator, and the communication unit of the banknote discriminator is the banknote information. The data including the genuine note determination number identification information different from the previous time is sent to the host holding the genuine note determination number identification information, and the host sends the genuine note determination number sent from the bill discriminator. It has a feature in that it includes a comparison unit that compares the identification information with the identification information of the number of genuine bill determination sent last time.
[0019]
Even if there is a power failure, disconnection, communication error, etc., the host checks whether it has been processed by comparing the genuine note determination number identification information sent from the bill validator with the genuine note determination number identification information sent last time. Can be determined.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on an example of the embodiment. The banknote recognition apparatus includes a banknote identification machine 1 and a host 2 in which the banknote identification machine 1 is incorporated, and is slit-shaped that opens to the front. As shown in FIG. 2, the banknote discriminator 1 having the banknote slot 10 opened therein is provided with a belt-type banknote transport means 11 inside, as well as an insertion detection sensor 12 and optical or magnetic of the banknote. A banknote identification sensor 13 for performing identification, a lever-type pull-out prevention means 14, and an end detection sensor 15 are provided.
[0021]
The banknote transport means 11 feeds banknotes into the interior when the drive motor (not shown) rotates forward, and returns the banknotes when the drive motor reverses, and serves as both the feeding means and the return means.
[0022]
The pull-out preventing means 14 is urged by a spring in a direction protruding toward the bill passage path. When the bill is fed, it is pushed by the bill and falls against the spring to allow the passage of the bill. However, if a banknote passes, it will return to a protrusion state and it will prevent a banknote from returning. The pull-out preventing means 14 has a function of outputting the state to the control unit C described later.
[0023]
Now, if the bill 9 is inserted into the bill insertion slot 10, the bill transport means 11 operates to send the bill 9 when the leading edge of the bill 9 is detected by the insertion detection sensor 12. When the banknote 9 is conveyed, the banknote 9 is detected and identified by the identification sensor 13, and when the banknote 9 is determined to be a genuine note, the banknote 9 is fed by the banknote transport means 11 to prevent the banknote 9 from being pulled out. When the bill end sensor 15 detects the end of the bill 9, the bill transport means 11 stops.
[0024]
When it is determined that the bill 9 is not a genuine note by the bill detection detection operation by the identification sensor 13, the bill 9 is returned by reversing the motor of the bill transport means 11 at that time (before the passage of the withdrawal preventing means 14). To do.
[0025]
FIG. 1 shows a block diagram of the bill validator 1. The control unit C that performs the above-described operation control drives the banknote transport unit 11 via the drive unit 18, and includes an identification determination unit C1, a memory unit C2, and a communication unit C3 to which the identification sensor 13 is connected. Yes. The memory unit C2 here is formed of a nonvolatile memory. The communication unit C3 communicates with the host 2 and notifies the host 2 of data including denomination information of the bill 9 when it is determined that the inserted bill 9 is a genuine note. This notification may be performed by voluntary transmission from the bill validator 1 or may be transmitted as a response to polling at intervals of 200 msec from the host 2 side.
[0026]
The host 2 is a device (for example, a ball lending machine, a card issuing machine, a money changer, etc.) in which the banknote discriminator 1 is incorporated, and includes a control unit D that controls the operation of ball lending, ticketing, etc. This control part D is provided with the communication part D1 which performs communication between the banknote identification machines 1, and the memory part D2 formed with the non-volatile memory. Note that communication between the host 2 and the bill validator 1 is performed by serial communication.
[0027]
And if the host 2 receives the data containing denomination information from the banknote identification machine 1, it will start the process of ticketing etc. based on the denomination information, but the said data sent from the banknote identification machine 1 As shown in FIG. 1, it is composed of a start code, a data code, genuine note determination frequency identification information, determinant denomination information, apparatus status information, and a check code. The genuine note determination number identification information here is for identifying the number of times it was determined to be a genuine note. When the previous genuine note determination number identification information is, for example, m, the next genuine note determination number identification information is m + 1. The latest genuine note determination number identification information is written in the memory unit C2 on the banknote discriminator 1 side and in the memory unit D2 on the host 2 side.
[0028]
That is, the case where the banknote discriminator 1 sends out the data as a response to the polling operation from the host 2 side will be described. When there is a polling from the host 2 side, the banknote discriminator 1 is determined denomination information meaning zero. And the data including the genuine note determination frequency identification information written in the memory unit C2 is returned to the host 2 as response data. The host 2 writes the determined denomination information and the genuine note determination number identification information in the response data in the memory unit D2. The confirmed denomination information and the genuine note determination number identification information in the new response data are not abnormal values after comparing the deterministic type information written in the memory unit D2 and the genuine note determination number identification information. The new information is written in the memory unit D2. If the value is abnormal, the process proceeds to error processing. If the definitive denomination information and the genuine note determination count identification information in the new response data are the same as the definitive denomination information written in the memory unit D2 and the true note determination count identification information, writing is not performed. It may be. If there is an accident such as a power failure during the writing process to the memory unit D2, the host 2 controls the error as a process error.
[0029]
And when it determines with the banknote 9 thrown into the banknote identification machine 1 being a genuine note, the control part C of the banknote identification machine 1 is stored in the memory part C2 until then by the definite denomination information of the banknote 9. In addition, the genuine note determination number identification information having a value added to the genuine note determination number identification information is written in the memory unit C2, and then the money of the bill 9 is polled at the timing after the bill 9 passes through the withdrawal preventing means 14. Data including the seed information and including the true bill determination number identification information of the value stored in the memory unit C2 is returned to the host 2 as response data.
[0030]
On the other hand, the host 2 side performs the operation such as issuing a ticket from the definite denomination information in the returned response data, overwrites the new genuine note determination number identification information in the memory unit D2, and then confirms the confirmation completion data as the banknote identification. Send to machine 1. Receiving this confirmation completion data, the bill validator 1 changes the denomination information written in the memory unit C2 to a value equivalent to zero.
[0031]
In this way, the latest genuine note determination frequency identification information is always stored in the memory unit C2 on the banknote discriminator 1 side and the memory unit D2 on the host 2 side, and these memory units C2 and D2 are configured by nonvolatile memories. For this reason, since the latest genuine note determination number identification information is retained even after a power failure, processing such as issuing a ticket on the host 2 side after inserting the bill 9 into the bill validator 1 is performed. When there is a power failure until the completion, the control unit D of the host 2 stores the genuine note determination number identification information stored in the memory unit D2 and the memory unit C2 on the banknote discriminator 1 side when returning from the power failure. It is possible to determine whether or not the processing for the bill 9 has been completed by comparing it with the identification information of the number of times of authenticity determination (included in the response data at the time of polling). If not To migrate to the operation of the ticketing and the like.
[0032]
In this case, the genuine note determination number identification information need not actually indicate the number of times, but may be different from the previous time. In addition, as described above, the incremental operation plus 1 is added to the previous value. However, from the viewpoint of fixing the data length of the data to be sent to the host 2, for example, it rolls over by increment of 4 bit data, that is, 0 → 1 → 2 → 3 → 4 → 5 → 6 It is possible to suitably use a material that changes as follows: 7 → 8 → 9 → A → B → C → D → E → F → 0 → 1.
[0033]
And as a timing which the control part C of the banknote discriminator 1 writes the said authentic bill determination frequency identification information and definite denomination information in the memory part C2, the banknote 9 passes the withdrawal prevention means 14 after a true ticket determination. It is preferable that it is before. Assuming that writing is performed after passing through the pull-out preventing means 14, when a power failure occurs before passing through the pull-out preventing means 14, the bill 9 may pass through the pull-out preventing means 14 due to the inertia of the drive system. There is no guarantee that the bill judgment number identification information is always incremented with respect to the bill 9 that has passed through the withdrawal preventing means 14, and that the definite denomination information also matches the bill 9. Because there is no.
[0034]
Moreover, the timing which the control part C of the banknote identification machine 1 transmits a genuine note determination frequency | count identification information and fixed denomination information to the host 2 is after the banknote 9 passed the withdrawal prevention means 14, as mentioned above. Is preferred. This is because if the notification is given to the host 2 before passing through the withdrawal preventing means 14, fraud due to withdrawal of the banknote 9 will be established.
[0035]
Furthermore, it is desirable that the data to be transmitted to the host 2 is generated from the data previously written in the memory unit C2. This is because the same data can be transmitted by reading data from the memory unit C2 in the case of a trouble such as when a communication error occurs.
[0036]
Although the notification to the host 2 of the genuine note determination number identification information and the definitive denomination information may be performed by voluntary transmission on the banknote discriminator 1 side as described above, response data for the polling operation may be used. If the combination of the host 2 and the banknote discriminator 1 is changed, the host 2 can store the genuine note determination number identification information stored in the banknote discriminator 1 without performing a separate resetting operation or the like. It can be recognized as an initial value.
[0037]
Further, when the banknote discriminator 1 receives confirmation data regarding data reception from the host 2, if the definite denomination information written in the memory unit C2 is cleared to zero as described above, the deterministic denomination information is obtained. It is possible to determine whether it is processed or not processed depending on whether it is in the memory unit C2, and if definite denomination information that is not zero is written in the memory unit C2 when the power is turned on, such as when recovering from a power failure Can recognize that it has not ended normally. The confirmation data includes both a normal confirmation case and an abnormality confirmation case. If it is a normal confirmation signal, it can be judged on the banknote discriminator 1 side as being normally processed on the host 2 side, and if it is an abnormality confirmation signal, the abnormal state of the banknote discriminator 1 at that time is hosted. It can be determined that the two sides have already been recognized.
[0038]
If it is determined that the normal termination has not been completed, the control unit C recognizes an abnormal state and enters an error mode. At this time, the genuine note stored in the memory unit D2 on the host 2 side is entered. Comparison between the determination number identification information n and the genuine note determination number identification information m stored in the memory C2 on the banknote identification machine 1 side is different depending on three states of n = m, n <m, and n> m. An error code may be output to the host 2. It becomes possible for the host 2 side to determine that the banknote discriminator 1 side has lost power before receiving the confirmation data.
[0039]
The genuine note determination confirmation information and the confirmed denomination information may be sent separately. However, as described above, it is more preferable that the data is transmitted as a single data to the host 2 side in terms of data processing.
[0040]
By the way, although it is the above-mentioned definite denomination information, a banknote identification machine may accept only a specific amount of banknotes (for example, 1000 yen bills) and may not accept other banknotes. That is, it may be configured by data that can identify only whether the denomination information is a genuine note. In this case, fixed denomination information may not be written in the memory unit C2.
[0041]
【The invention's effect】
As described above, the bill validator according to the present invention has an identification function for determining whether or not the inserted bill is a genuine note, and includes at least confirmed denomination information when the inserted bill is a genuine note. A bill discriminator provided with a communication unit for sending bill information to a host, wherein the communication unit holds data including true bill determination number identification information different from the previous time as the bill information, and holds true bill determination number information. for those to be sent toward the host that, even if there is a power failure or disconnection or communication error, the host by referring to the genuine note determination number identification information sent from the bill validator whether processed Thus, it is possible to continue the processing, and it is possible to reduce the troublesome situation and to smoothly recover from an accident such as a power failure.
[0048]
Moreover , the bill validator receives confirmation information from the host for the information sent to the host and clears the definite denomination information stored in the memory unit, and further, the determinant written in the memory unit when the power is turned on. If it is not cleared by checking the seed information, it will enter the error mode to notify the host of the error, so that it can be easily detected that the operation has not been completed normally, and the host side can also recognize this. it can.
[0049]
And the banknote identification apparatus which concerns on this invention is provided with the identification function which determines whether the inserted banknote is a genuine note, and when the inserted banknote is a genuine note, the banknote information containing at least fixed denomination information is included. It consists of a banknote discriminator provided with a communication unit for sending to the host, and the host that performs a required operation based on the banknote information sent from the banknote discriminator, and the communication unit of the banknote discriminator is the banknote information. The data including the genuine note determination number identification information different from the previous time is sent to the host holding the genuine note determination number information, and the host identifies the true note determination number sent from the bill validator. Because it has a comparator that compares the information with the identification information for the number of genuine bills sent last time, even if there is a power outage, disconnection, or communication error, the number of times of genuine bill judgment sent from the bill validator is identified. By referring to the information, the host can determine whether or not the processing has been completed and continue the processing, reducing the number of troublesome operations, and smoothly returning from an accident such as a power failure. It can be carried out.
[Brief description of the drawings]
FIG. 1 is a block diagram of an exemplary embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a schematic configuration of the bill validator.
FIG. 3 is a time chart showing the operation of the above.
[Explanation of symbols]
1 Banknote identifier 2 Host C Control unit C2 Memory unit D Control unit D2 Memory unit

Claims (2)

Provided with an identification function for determining whether or not the inserted banknote is a genuine note, and a communication unit for sending banknote information including at least determinable denomination information to the host when the inserted banknote is a genuine note a bill validator, with the communication unit data including a genuine note determination number identification information different from the previous as the bill information is for delivery toward the host to retain the genuine note determination number identification information Receives confirmation information from the host for the information sent to the host and clears the definitive denomination information stored in the memory unit, and checks the definitive denomination information written in the memory unit when the power is turned on If not cleared , the bill validator enters an error mode for notifying the host of an error . Provided with an identification function for determining whether or not the inserted banknote is a genuine note, and a communication unit for sending banknote information including at least determinable denomination information to the host when the inserted banknote is a genuine note Banknote discriminator and the above-mentioned host that performs a required operation based on the banknote information sent from the banknote discriminator, and the communication part of the banknote discriminator differs from the previous time as the banknote information. Is sent to the host holding the genuine note determination number identification information, and the host sends the genuine note determination number identification information sent from the bill validator and the genuine note sent last time. A banknote identification device comprising a comparison unit that compares the identification number identification information .

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