JP3839690B2 - Ticketing method, counterfeit ticket identification method, counterfeit ticket identification system, and counterfeit ticket identification program - Google Patents

Description

なお、式（１）の「％」は、剰余を取ることを表している。また、式（１）の指数「Ａ〜Ｋ」は、例えば表１のパターン番号１〜１２の何れか一つを選択して利用する。式（１）の「ｂ，ｇ，ｉ」は、ＥＵＣコードの１６進数にみたてて１６進数で計算した結果の下２桁を取ったものする。式（１）の「ｊ」は、発券通番の下４桁を取ったものとする。
【００２４】
【表１】

例えばａ＝２，ｂ＝３０，ｃ＝１，ｄ＝１，ｅ＝１，ｆ＝３，ｇ＝６，ｈ＝１０００，ｉ＝２８，ｊ＝３２８６、パターン番号１の指数Ａ〜Ｋを式（１）に代入して計算すると、８２２が算出される。
【００２５】
インキＡ＝０〜２，インキＢ＝３〜６，インキＣ＝７〜９のように設定しておけば、式（１）の計算結果の下１桁「２」を利用してインキＡを選択することができる。なお、式（１）の計算結果を用いて複数のインキから１つのインキを選択できるのであれば、どのように計算結果を利用してもよい。投票券に含まれる情報１０〜１２に応じてインキを選択する場合、券売機だけでなく払戻機でも情報１０〜１２に応じてインキを選択することができる。
【００２６】
払戻機では、情報１０〜１２に応じてインキを選択する一方、券端部分１３又は１５に紫外線を照射して紫外線透過率を測定し、情報１０又は１２の印刷に利用されたインキを選択する。情報１０〜１２に応じて選択されるインキは、券売機で情報１０又は１２の印刷に利用されたインクである。
【００２７】
したがって、券端部分１３又は１５に紫外線を照射することで選択されたインキと情報１０〜１２に応じて選択されたインキとは同一である必要があり、同一でなければ偽造券であると判断することができる。つまり、投票券の券面に印刷又は記録されている秘密情報をそのままコピーしたとしても、情報１０及び１２の印刷に利用されたインキの紫外線透過率までコピーすることは非常に困難であり、偽造券を効率良く識別することができる。
【００２８】
なお、情報１０及び１２を印刷するインキは、紫外線透過率が異なっても人間が視認する色が同一である為、異なる紫外線透過率のインキを用いて印刷された投票券を区別することができない。
【００２９】
以下、本発明を利用するトータリゼータについて図面を参照しつつ説明していく。図２は、トータリゼータの一例の構成図を示す。
【００３０】
図２のトータリゼータ１は、券売機（ＴＩＭ）２０ａ〜２０ｎと、払戻機（ＰＯＭ）２１ａ〜２１ｍと、制御装置２２，２３と、表示盤２４と、決勝審判端末２５と、場内コンピュータ２６と、発売系の中央コンピュータ２７と、払戻系の中央コンピュータ２８と、的中券管理ファイル２９と、専用線３０とを含むように構成される。
【００３１】
券売機２０ａ〜２０ｎは投票券の発券を行なう装置であって、制御装置２２を介して場内コンピュータ２６に接続されている。券売機２０ａ〜２０ｎは、入力された購入情報に応じて発券要求信号を場内コンピュータ２６に送信し、場内コンピュータ２６から受信した発券許可信号に応じて投票券を発券する。
【００３２】
払戻機２１ａ〜２１ｍは配当金の払戻しを行なう装置であって、制御装置２３を介して場内コンピュータ２６に接続されている。払戻機２１ａ〜２１ｍは、挿入された投票券に応じて払戻券面情報を場内コンピュータ２６に送信し、場内コンピュータ２６から受信した払戻許可信号に応じて配当金の払戻しを行なう。
【００３３】
表示盤２４はオッズ，票数，払戻金などを表示する装置であって、場内コンピュータからの要求に応じた表示を行なう。決勝審判端末２５は入力された着順情報を場内コンピュータに送信する。
【００３４】
場内コンピュータ２６は、券売機２０ａ〜２０ｎから受信した発券要求信号を集計し、集計結果に応じた発売集計情報を発売系の中央コンピュータ２７に専用線３０を介して送信する。また、場内コンピュータ２６は、払戻機２１ａ〜２１ｍから受信した払戻券面情報に応じて払済券消し込み信号を払戻系の中央コンピュータ２８に専用線３０を介して送信し、払戻系の中央コンピュータ２８から配当金情報通知信号を受信する。
【００３５】
発売系の中央コンピュータ２７は、場内コンピュータ２６から受信した発売集計情報を管理し、的中した投票券（的中券）の固有情報を的中券管理ファイル２９に格納する。
【００３６】
払戻系の中央コンピュータ２８は、場内コンピュータ２６から受信した払済券消し込み信号に応じて的中券管理ファイル２９を検索し、払済券消し込み信号に該当する的中券の固有情報を的中券管理ファイル２９から消し込む。そして、払戻系の中央コンピュータ２８は、払済券消し込み信号に該当する的中券の固有情報を的中券管理ファイル２９から消し込んだ後で、配当金情報通知信号を場内コンピュータ２６に送信する。即ち、払戻系の中央コンピュータ２８は、的中券の固有情報を管理することで、同一の固有情報を有する投票券について１枚目のみ払戻しを許可する。
【００３７】
なお、図２では、発売系の中央コンピュータ２７と払戻系の中央コンピュータ２８とを別々に設けているが、１つの中央コンピュータに発売系の中央コンピュータ２７の機能と払戻系の中央コンピュータ２８の機能とを設けるように構成してもよい。
【００３８】
本発明によるトータリゼータ１は、券売機２０ａ〜２０ｎ，払戻機２１ａ〜２１ｎ，場内コンピュータ２６に特徴を有している。そこで、券売機２０ａ〜２０ｎ，払戻機２１ａ〜２１ｎ，場内コンピュータ２６の処理を中心に説明する。
【００３９】
図３は、本発明の偽造券識別方法について説明する一例の図を示す。券売機２０は、入力された購入情報に応じて発券要求信号を場内コンピュータ２６に送信する。場内コンピュータ２６は、受信した発券要求信号に含まれる情報を所定条件として利用することで、前述のように紫外線透過率の異なる複数のインキから１つのインキを選択できる。
【００４０】
場内コンピュータ２６は発券要求信号に問題がなければ、発券許可信号と、選択したインキに対応するインキ番号とを券売機２０に送信する。券売機２０は、場内コンピュータ２６からの発券許可信号及びインキ番号を受信すると、受信したインキ番号に対応するインキで図１のような投票券を印刷し、印刷した投票券を発券する。なお、磁気塗布部分１４の表面側は、インキ番号に対応していないインキで印刷を行ってもよい。
【００４１】
払戻機２１は挿入された投票券の券端部分１３又は１５に紫外線を照射し、例えば券端部分１３又は１５を透過した紫外線透過光量から印刷に使用したインキのインキ番号を選択する。また、払戻機２１は挿入された投票券に応じて払戻券面情報を編集する。払戻機２１は、選択したインキ番号と、編集した払戻券面情報とを場内コンピュータ２６に送信する。
【００４２】
場内コンピュータ２６は、受信した払戻券面情報に含まれる情報を所定条件として利用することで、前述のように紫外線透過率の異なる複数のインキから１つのインキを選択できる。なお、同一の投票券である場合、投票券の発券時に場内コンピュータ２６で選択されるインキと、的中した投票券の払戻時に場内コンピュータ２６で選択されるインキとが同一であるものとする。
【００４３】
場内コンピュータ２６は、払戻機２１から受信したインキ番号と、選択したインキに対応するインキ番号とを比較し、比較結果が一致であれば払戻許可信号を払戻機２１に送信する。一方、比較結果が不一致であれば、偽造券であると判定して例えば警報（アラーム）信号を払戻機２１に送信する。払戻機２１は、場内コンピュータ２６からの払戻許可信号を受信すると、配当金の払戻しを行なう。
【００４４】
図４は、本発明による券売機の一実施例の構成図を示す。券売機２０は、発券要求信号編集部４１と，購入情報記憶メモリ４２と，送受信制御部４３と，印刷内容伝達部４４と，インキ選択部４５と，代金勘定部４６と，釣り銭出力部４７と，チケット用紙４８と，印刷部４９と，チケット切断部５０とを有するように構成される。
【００４５】
発券要求信号編集部４１は、購入者が入力した購入情報が供給される。購入情報とは、投票券を購入する為に必要な主催者コード，年度，回次，日次，レース番号，賭式，組番，金額等である。なお、発券要求信号編集部４１は、供給された購入情報に機械番号，発券通番等の必要な情報を付加する。
【００４６】
購入情報が供給されると、発券要求信号編集部４１は購入情報に応じた代金を代金勘定部４６に通知する。代金勘定部４６は、紙幣出入口又は硬貨出入口から投入された投入金額を勘定する。代金勘定部４６は代金と投入金額とを比較し、必要があれば釣り銭出力部４７に釣り銭を出力させる。
【００４７】
代金勘定部４６から購入情報に応じた代金が投入された旨が通知されると、発券要求信号編集部４１は購入情報を購入情報記憶メモリ４２に供給する。また、発券要求信号編集部４１は購入情報に応じて発券要求信号を編集し、その発券要求信号を送受信制御部４３に供給する。送受信制御部４３は、供給された発券要求信号を場内コンピュータ２６に送信する。
【００４８】
場内コンピュータ２６は後述するように発券要求信号を処理し、発券要求信号に問題がなければ、発券許可信号と選択したインキに対応するインキ番号とを券売機２０に送信する。
【００４９】
場内コンピュータ２６から発券許可信号及びインキ番号を受信すると、送受信制御部４３は受信した発券許可信号及びインキ番号を印刷内容伝達部４４に供給する。印刷内容伝達部４４は供給された発券許可信号に応じて購入情報記憶メモリ４２から購入情報を受信し、印刷部４９に印刷内容を供給する。また、印刷内容伝達部４４は供給されたインキ番号をインキ選択部４５に供給する。
【００５０】
インキ選択部４５は供給されたインキ番号に応じて印刷部４９で印刷に利用するインキタンクを選択する。印刷部４９は、インキ番号に対応する複数のインキタンク５１Ａ〜５１Ｃと、インキ番号に対応していないインキタンク５１Ｚとを備える。なお、インキタンク５１Ａは顔料の混合比率が少ないインキＡが格納されている。インキタンク５１Ｂは顔料の混合比率が半分のインキＢが格納されている。インキタンク５１Ｃは顔料の混合比率が多いインキＣが格納されている。
【００５１】
印刷部４９は、ロール状に収納されているチケット用紙４８が連続的に供給される。チケット用紙４８は、例えば券端部分１３，１５に磁気塗布が施されておらず、その他の部分１４に磁気塗布が施されている。
【００５２】
印刷部４９は、印刷内容伝達部４４から供給された印刷内容のうち磁気塗布部分１４の表面側をインキタンク５１Ｚのインキで印刷する一方、磁気塗布を施していない例えば券端部分１３，１５の表面側をインキ選択部４５により選択されたインキタンク５１Ａ〜５１Ｃの何れか１つのインキで印刷する。
【００５３】
印刷が終了したチケット用紙４８は、カッター等のチケット切断部５０で切断され、図１のような投票券が発券取出口から出力される。
【００５４】
図５は、本発明による払戻機の一実施例の構成図を示す。払戻機２１は、インキ番号選択部６１と，ＯＣＲ（Optical Character Reader）６２と，券面情報編集部６３と，送受信制御部６４と，信号判定部６５と，現金自動支払部６６と，警報出力部６７とを有するように構成される。
【００５５】
インキ番号選択部６１は的中券挿入口等から挿入された投票券が供給され、投票券の券端部分１３又は１５に紫外線を照射する。インキ番号選択部６１は券端部分１３又は１５を透過した紫外線透過量を測定し、測定結果から印刷に使用されたインキのインキ番号を選択する。インキ番号選択部６１は選択したインキ番号を券面情報編集部６３に供給する。
【００５６】
ＯＣＲ部６２はインキ番号選択部６１から投票券が供給され、券面字面情報を読み取る。券面字面情報とは、例えば投票券の表面に印刷されている情報１１である。ＯＣＲ部６２は、読み取った券面字面情報を券面情報編集部６３に供給する。
【００５７】
券面情報編集部６３は、ＯＣＲ部６２から供給された券面字面情報に応じて払戻券面情報を編集する。そして、券面情報編集部６３は編集した払戻券面情報とインキ番号選択部６１から供給されたインキ番号とを送受信制御部６４に供給する。送受信制御部６４は、供給された払戻券面情報及びインキ番号を場内コンピュータ２６に送信する。
【００５８】
場内コンピュータ２６は、後述するように払戻券面情報及びインキ番号を処理し、払戻許可信号又は警報信号を払戻機２１に送信する。場内コンピュータ２６から払戻許可信号又は警報信号を受信すると、送受信制御部６４は受信した払戻許可信号又は警報信号を信号判定部６５に供給する。
【００５９】
信号判定部６５は払戻許可信号を受信すると、受信した払戻許可信号を現金自動支払部６６に供給する。一方、信号判定部６５は警報信号を受信すると、受信した警報信号を警報出力部６７に供給する。
【００６０】
現金自動支払部６６は払戻許可信号を受信すると、供給された払戻許可信号に応じて配当金の払戻しを行なう。警報出力部６７は警報信号を受信すると、警報情報に応じた警報を出力する。警報信号には、挿入された投票券が的中していない旨を通知する信号や、偽造券を識別した旨を通知する信号を含んでいる。
【００６１】
図６は、場内コンピュータを実現するコンピュータシステムの一実施例の構成図を示す。図６のコンピュータシステムは、それぞれバスＢで相互に接続されている入力装置７１と，表示装置７２と，ドライブ装置７３と，記録媒体７４と，補助記憶装置７５と，メモリ装置７６と，演算処理装置７７と，インターフェース装置７８と，データベース（以下、ＤＢという）７９とを含むように構成される。
【００６２】
入力装置７１は、場内コンピュータ２６の利用者が操作するキーボード及びマウスなどで構成され、場内コンピュータ２６に各種操作信号を入力するために用いられる。表示装置７２は、場内コンピュータ２６を操作するのに必要な各種ウインドウやデータ等を表示する。
【００６３】
インターフェース装置７８は、場内コンピュータ２６を他の装置等に接続する為のインターフェースであり、例えばモデム（MODEM），ルータ（Router）等で構成される。ＤＢ７９は、本発明によるトータリゼータを実現する為に必要な各種情報を格納している。
【００６４】
場内コンピュータ２６が利用する偽造券識別プログラムは、ＣＤ−ＲＯＭ等の記録媒体７４によって提供される。記録媒体７４は、ＣＤ−ＲＯＭの他、フレキシブルディスク、光磁気ディスク（ＭＯ）等の様に情報を光学的，電気的或いは磁気的に記録する記録媒体、ＲＯＭ、フラッシュメモリ等の様に情報を電気的に記録する半導体メモリ等、様々なタイプの記録媒体を用いることができる。
【００６５】
偽造券識別プログラムを記録した記録媒体７４は、ドライブ装置７３にセットされ、偽造券識別プログラムが記録媒体７４からドライブ装置７３を介して補助記憶装置７５にインストールされる。
【００６６】
補助記憶装置７５は、インストールされた偽造券識別プログラムを格納すると共に、必要なファイル，データ等を格納する。メモリ装置７６は、例えば場内コンピュータ２６の起動時に補助記憶装置７５から偽造券識別プログラムを読み出し、読み出した偽造券識別プログラムを格納する。演算処理装置７７は、メモリ装置７６に読み出され格納された偽造券識別プログラムに従って場内コンピュータ２６に係る処理を実行する。
【００６７】
以下、場内コンピュータ２６の処理について、発売系の処理と払戻系の処理とを分けて説明する。図７は、場内コンピュータの発売系の処理について説明する一例の図を示す。
【００６８】
ステップＳ１では、場内コンピュータ２６が券売機２０から発券要求信号を受信する。ステップＳ１に続いてステップＳ２に進み、場内コンピュータ２６は開催情報などの所定項目をチェックし、発券要求信号に応じて発券が可能か否かを判定する。
【００６９】
発券が可能であれば、場内コンピュータ２６はステップＳ３に進み、発券要求信号を集計する。一方、発券が可能でなければ、場内コンピュータ２６はステップＳ８に進み、発券不許可信号を券売機２０に送信する。
【００７０】
ステップＳ３に続いてステップＳ５に進み、場内コンピュータ２６は発券要求信号に含まれる券面情報をパラメータとして利用し、前述したようにインキ番号を選択する。ステップＳ５に続いてステップＳ６に進み、場内コンピュータ２６は発券許可信号にインキ番号を付与する。そして、ステップＳ６に続いてステップＳ７に進み、場内コンピュータ２６は発券許可信号及びインキ番号を券売機２０に送信する。
【００７１】
また、ステップＳ３に続いてステップＳ４に進み、場内コンピュータ２６は発券要求信号の集計結果に応じた発売集計情報を発売系の中央コンピュータ２７に送信する。
【００７２】
図８は、場内コンピュータの払戻系の処理について説明する一例の図を示す。ステップＳ１０では、場内コンピュータ２６が払戻機２１から払戻券面情報及びインキ番号を受信する。
【００７３】
ステップＳ１０に続いてステップＳ１１に進み、場内コンピュータ２６は払戻券面情報をチェックする。例えば情報コンピュータ２６は供給された払戻券面情報に応じて、挿入された投票券が的中しているか否かを判定する。
【００７４】
払戻券面情報のチェックにより問題が発見されれば、場内コンピュータ２６はステップＳ１７に進み、通常の払戻拒否信号を編集する。そして、ステップＳ１７に続いてステップＳ１８に進み、場内コンピュータ２６は編集した払戻拒否信号を払戻機２１に送信する。
【００７５】
一方、払戻券面情報のチェックにより問題が発見されなければ、場内コンピュータ２６はステップＳ１２に進み、払戻券面情報を集計する。ステップＳ１２に続いてステップＳ１３に進み、場内コンピュータ２６は払戻券面情報に含まれる券面情報をパラメータとして利用し、前述したようにインキ番号を選択する。なお、ステップＳ１３で行なうインキ番号の選択とステップＳ５で行なうインキ番号の選択とは同一であるものとする。
【００７６】
場内コンピュータ２６はステップＳ１３で選択したインキ番号と払戻機２１から受信したインキ番号との整合性を確認する。ステップＳ１３で選択したインキ番号と払戻機２１から受信したインキ番号とが一致すれば、場内コンピュータ２６は払済券消し込み信号を払戻系の中央コンピュータ２８に送信する。
【００７７】
一方、ステップＳ１３で選択したインキ番号と払戻機２１から受信したインキ番号とが一致しなければ、場内コンピュータ２６は払戻機２１に挿入された投票券が偽造券であると判定してステップＳ１９に進む。ステップＳ１９では、偽造券の識別に応じた警報信号を編集する。そして、ステップＳ１９に続いてステップＳ２０に進み、場内コンピュータ２６は編集した警報信号を払戻機２１に送信する。
【００７８】
ステップＳ１４では、場内コンピュータ２６が払戻系の中央コンピュータ２８から配当金情報通知信号を受信する。ステップＳ１４に続いてステップＳ１５に進み、場内コンピュータ２６は受信した配当金情報通知信号に応じた払戻許可信号を編集する。そして、ステップＳ１５に続いてステップＳ１６に進み、場内コンピュータ２６は編集した払戻許可信号を払戻機２１に送信する。
【００７９】
したがって、本発明のトータリゼータでは、券面情報に応じて選択されるインキと投票券に紫外線を照射して選択されたインキとを比較することで、簡単に偽造券を識別することができる。
【００８０】
本発明は、以下に記載する付記のような構成が考えられる。
（付記１） 券面に印刷すべき所定情報に応じて、インキの紫外線透過率を選択する選択段階と、
選択した紫外線透過率のインキを用いて前記所定情報を券面に印刷し、印刷した券を発券する発券段階と
を有することを特徴とする発券方法。
（付記２） 前記インキは、顔料の混合比率に応じて紫外線透過率が選択されることを特徴とする付記１記載の発券方法。
（付記３） 前記発券段階は、選択した紫外線透過率のインキを用いて前記所定情報の少なくとも一部を、券面のうち紫外線の透過を妨げない部分に印刷することを特徴とする付記１又は２記載の発券方法。
（付記４） 券面に所定情報が印刷された券を発券する券売機であって、
紫外線透過率の異なる複数のインキが格納されたインキ格納手段と、
券面に印刷すべき所定情報に応じて前記複数のインキのうち１つのインキを選択し、選択したインキを用いて前記所定情報を券面に印刷して発券する発券手段と
を有することを特徴とする券売機。
（付記５） 券に紫外線を照射して紫外線透過率を測定する測定段階と、
券面に印刷されている所定情報に応じてインキの紫外線透過率を選択する選択段階と、
測定した紫外線透過率と選択した紫外線透過率とを比較し、比較結果に応じて偽造券を識別する識別段階と
を有することを特徴とする偽造券識別方法。
（付記６） 前記インキは、顔料の混合比率に応じて紫外線透過率が選択されることを特徴とする付記５記載の偽造券識別方法。
（付記７） 前記測定段階は、券面に印刷されている所定情報のうち紫外線の透過を妨げない部分に印刷されている所定情報に紫外線を照射して紫外線透過率を測定することを特徴とする付記５又は６記載の偽造券識別方法。
（付記８） 券面に印刷されている所定情報に応じて払戻しを行なう払戻機であって、
券面に印刷されている所定情報に紫外線を照射して、前記所定情報を券面に印刷したインキの紫外線透過率を測定する測定手段と、
券面に印刷されている所定情報に応じてインキの紫外線透過率を選択し、選択した紫外線透過率と測定した紫外線透過率との比較結果に応じて偽造券を識別する識別手段と
を有することを特徴とする払戻機。
（付記９） 券売機及び払戻機にネットワークを介して接続されたコンピュータを用いて偽造券を識別する偽造券識別方法であって、
前記券売機から券面に印刷すべき所定情報が供給され、前記所定情報に応じてインキの紫外線透過率を選択する第１選択段階と、
選択したインキの紫外線透過率を前記券売機に供給する第１供給段階と、
前記払戻機から券面に印刷されている所定情報及び券に紫外線を照射して測定した紫外線透過率が供給され、前記所定情報に応じてインキの紫外線透過率を選択する第２選択段階と、
測定した紫外線透過率と選択した紫外線透過率とを比較し、比較結果に応じて偽造券を識別する識別段階と、
識別した結果を前記払戻機に供給する第２供給段階と
を有することを特徴とする偽造券識別方法。
（付記１０） 前記インキは、顔料の混合比率に応じて紫外線透過率が選択されることを特徴とする付記９記載の偽造券識別方法。
（付記１１） コンピュータに、
券売機から供給された券面に印刷すべき所定情報に応じてインキの紫外線透過率を選択する第１選択手順と、
選択したインキの紫外線透過率を前記券売機に供給する第１供給手順と、
払戻機から供給された券面に印刷されている所定情報に応じてインキの紫外線透過率を選択する第２選択手順と、
前記払戻機から供給された券に紫外線を照射して測定した紫外線透過率と前記第２選択手順で選択した紫外線透過率とを比較し、比較結果に応じて偽造券を識別する識別手順と、
識別した結果を前記払戻機に供給する第２供給手順と
を有することを特徴とする偽造券識別プログラム。
（付記１２） コンピュータに、
券売機から供給された券面に印刷すべき所定情報に応じてインキの紫外線透過率を選択する第１選択手順と、
選択したインキの紫外線透過率を前記券売機に供給する第１供給手順と、
払戻機から供給された券面に印刷されている所定情報に応じてインキの紫外線透過率を選択する第２選択手順と、
前記払戻機から供給された券に紫外線を照射して測定した紫外線透過率と前記第２選択手順で選択した紫外線透過率とを比較し、比較結果に応じて偽造券を識別する識別手順と、
識別した結果を前記払戻機に供給する第２供給手順と
を有することを特徴とする偽造券識別プログラムを記録したコンピュータ読み取り可能な記録媒体。
（付記１３） 券面に所定情報が印刷された券であって、
券面に印刷された所定情報は、前記所定情報に応じた紫外線透過率のインキを用いて、紫外線の透過を妨げない券面の部分に印刷されていることを特徴とする券。
【００８１】
【発明の効果】
上述の如く、本発明によれば、券面に印刷すべき所定情報に応じてインキの紫外線透過率を選択し、選択した紫外線透過率のインキを用いて前記所定情報を券面に印刷することにより、券面に印刷された所定情報及びインキの紫外線透過率を用いて偽造券を容易に識別することができる。
【００８２】
また、本発明によれば、券に紫外線を照射して紫外線透過率を測定し、券面に印刷されている所定情報に応じてインキの紫外線透過率を選択し、測定した紫外線透過率と選択した紫外線透過率とを比較することにより、偽造券を容易に識別することができる。
【００８３】
また、本発明によれば、偽造券を防止する対策として、インキの紫外線透過率を所定情報に応じて異ならせるというアナログ的な対策を取ることができる。したがって、偽造券の作成が著しく困難となり、偽造券を防止することが可能となる。
【００８４】
【図面の簡単な説明】
【図１】本発明のよる投票券の一例のイメージ図である。
【図２】トータリゼータの一例の構成図である。
【図３】本発明の偽造券識別方法について説明する一例の図である。
【図４】本発明による券売機の一実施例の構成図である。
【図５】本発明による払戻機の一実施例の構成図である。
【図６】場内コンピュータを実現するコンピュータシステムの一実施例の構成図である。
【図７】場内コンピュータの発売系の処理について説明する一例の図である。
【図８】場内コンピュータの払戻系の処理について説明する一例の図である。
【符号の説明】
１ トータリゼータ
１０〜１２ 情報
１３，１５ 券端部分
１４ 磁気塗布部分
２０ａ〜２０ｎ，２０ 券売機
２１ａ〜２１ｍ，２１ 払戻機
２２，２３ 制御装置
２４ 表示盤
２５ 決勝審判端末
２６ 場内コンピュータ
２７，２８ 中央コンピュータ
２９ 的中券管理ファイル
３０ 専用線
４１ 発券要求信号編集部
４２ 購入情報記憶メモリ
４３ 送受信制御部
４４ 印刷内容伝達部
４５ インキ選択部
４６ 代金勘定部
４７ 釣り銭出力部
４８ チケット用紙
４９ 印刷部
５０ チケット切断部
５１Ａ〜５１Ｃ，５１Ｚ インキタンク
６１ インキ番号選択部
６２ ＯＣＲ（Optical Character Reader）
６３ 券面情報編集部
６４ 送受信制御部
６５ 信号判定部
６６ 現金自動支払部
６７ 警報出力部
７１ 入力装置
７２ 表示装置
７３ ドライブ装置
７４ 記録媒体
７５ 補助記憶装置
７６ メモリ装置
７７ 演算処理装置
７８ インターフェース装置
７９ データベース（ＤＢ）[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a ticket issuing method, a counterfeit ticket identification method, and a counterfeit ticket identification.systemAnd counterfeit ticket identification programMuIn particular, ticketing method for identifying counterfeit ticket, counterfeit ticket identification method, counterfeit ticket identificationsystemAnd counterfeit ticket identification programMuAbout.
[0002]
[Prior art]
In systems that handle issuance of voting tickets and refund of dividends in horse racing, bicycle racing, boat racing, etc. (hereinafter referred to as totalizer), various measures are taken to prevent counterfeit tickets.
[0003]
For example, for counterfeit tickets (copy tickets) in which confidential information printed or recorded on the face of a voting ticket is copied as it is, the following copy ticket measures are taken. The totalizeta manages the unique information (such as the machine number of the window, the ticketing serial number for each machine) of the voting ticket that was hit among the issued voting tickets. The totalizer has paid back only the first voting ticket having the same unique information.
[0004]
[Problems to be solved by the invention]
It is desirable that measures to prevent counterfeit tickets be stronger. Therefore, it is considered to take other measures for preventing counterfeit tickets in combination with the above-mentioned copy ticket measures.
[0005]
However, since a large number of voting tickets are issued, it is difficult to use paperwork and storage / distribution management like banknotes, and it is difficult to use “watermarks” and “complex seals”. It was.
[0006]
Further, since the totalizer generates a large amount of traffic when issuing a ticket, it is difficult to take measures with a large processing load. As a result, there is a problem that it is difficult to take only digital measures such as adding complicated secret information to the ticket surface as a measure for preventing counterfeit tickets.
[0007]
  The present invention has been made in view of the above points, and is a ticket issuing method, a counterfeit ticket identification method, and a counterfeit ticket identification that can easily identify counterfeit tickets and prevent counterfeit tickets.systemAnd counterfeit ticket identification programMuThe purpose is to provide.
[0008]
[Means for Solving the Problems]
  Therefore, in order to solve the above problems, the ticketing method of the present invention is:In the ticketing method in the ticketing system having the first selection unit and the ticketing unit, the first selection unit is:Select the UV transmittance of ink according to the predetermined information to be printed on the ticketAnd the ticket issuing sectionChoiceIsThe predetermined information is printed on a ticket surface using an ink having ultraviolet transmittance, and the printed ticket is issued.
[0009]
By selecting the ultraviolet transmittance of the ink according to the predetermined information to be printed on the ticket surface, and printing the predetermined information on the ticket surface using the ink with the selected ultraviolet transmittance, the predetermined information printed on the ticket surface and the ink A counterfeit ticket can be easily identified using the ultraviolet transmittance.
[0010]
  In addition, the forged ticket identification method of the present invention,In the forged ticket identification method in a forged ticket identification system having a measurement unit, a second selection unit, and an identification unit, the measurement unit selects the ultraviolet transmittance of the ink according to predetermined information to be printed on the ticket surface. The predetermined information was printed on the ticket surface using a rate ink.On ticket,Measure UV transmittance by irradiating with UV raysShi,The second selection unit isSelect the UV transmittance of ink according to the predetermined information printed on the ticketShi,The identification unit isMeasurementIsUV transmittance and selectionIsThe counterfeit ticket is identified according to the comparison result.
[0011]
Irradiate the ticket with ultraviolet rays, measure the ultraviolet transmittance, select the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface, and compare the measured ultraviolet transmittance with the selected ultraviolet transmittance Thus, a forged ticket can be easily identified.
[0012]
  The present invention also provides:The UV transmittance is measured by irradiating the ticket on which the predetermined information is printed on the ticket surface with the ultraviolet ray ink whose UV transmittance is selected according to the predetermined information to be printed on the ticket surface. Comparison between the measurement unit, the second selection unit that selects the ultraviolet transmittance of the ink according to the predetermined information printed on the bill surface, the measured ultraviolet transmittance and the selected ultraviolet transmittance, and the comparison result And a counterfeit ticket identification system characterized by having an identification unit for identifying counterfeit tickets according toIt is characterized by that.
  Further, the present invention provides a computer that applies ultraviolet light to a ticket on which the predetermined information is printed on the ticket surface using an ink having an ultraviolet transmittance in which the ultraviolet transmittance of the ink is selected according to the predetermined information to be printed on the ticket surface. Measuring unit for measuring ultraviolet transmittance by irradiation, second selecting unit for selecting ultraviolet transmittance of ink according to predetermined information printed on the bill surface, measured ultraviolet transmittance and selected ultraviolet transmittance And a counterfeit ticket identification program that functions as an identification unit that identifies a counterfeit ticket according to the comparison result.
  Further, the present invention prints the predetermined information on the ticket surface using a first selection unit that selects the ultraviolet transmittance of the ink according to the predetermined information to be printed on the ticket surface, and the ink having the selected ultraviolet transmittance. A ticket issuing unit that issues a printed ticket, a measuring unit that measures ultraviolet transmittance by irradiating the ticket issued with ultraviolet rays, and an ultraviolet transmittance of ink according to predetermined information printed on the ticket surface. A counterfeit ticket identification comprising: a second selection unit to be selected; and an identification unit that compares the measured ultraviolet transmittance with the selected ultraviolet transmittance and identifies a counterfeit ticket according to the comparison result. It is a system.
[0013]
On the ticket machine side, the ultraviolet transmittance of the ink is selected according to the predetermined information to be printed on the ticket surface, the predetermined information is printed on the ticket surface using the ink of the selected ultraviolet transmittance, and the printed ticket is issued. On the refunder side, the ultraviolet ray is irradiated to the bill, the ultraviolet ray transmittance is measured, the ultraviolet ray transmittance of the ink is selected according to the predetermined information printed on the ticket surface, and the measured ultraviolet ray transmittance and the selected ultraviolet ray transmittance are selected. And counterfeit tickets are identified. That is, in the present invention, as a measure for preventing counterfeit tickets, an analog measure can be taken in which the ultraviolet transmittance of the ink is varied according to predetermined information.
[0014]
Humans cannot visually distinguish between inks having different ultraviolet transmittances, and cannot distinguish tickets printed using inks having different ultraviolet transmittances. Therefore, the creation of a counterfeit ticket becomes extremely difficult, and it becomes possible to prevent counterfeit tickets.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. In this embodiment, an example of preventing forgery of a voting ticket used in horse racing, bicycle racing, boat racing, etc. will be described as an example of a ticket, but any ticket may be used.
[0016]
First, in order to facilitate understanding of the present invention, the principle of the present invention will be described. FIG. 1 shows an image diagram of an example of a voting ticket according to the present invention. FIG. 1A is an image view of the surface. FIG. 1B is an image diagram of the back surface.
[0017]
As shown in FIG. 1B, on the back of the voting ticket, there are a magnetic coating portion 14 with magnetic coating and bill edge portions 13 and 15 without magnetic coating. Since the bill end portions 13 and 15 are not magnetically coated, they do not prevent the transmission of ultraviolet rays.
[0018]
As shown in FIG. 1 (A), information 11 printed on the surface side of the magnetic coating portion 14, information 10 printed on the surface side of the ticket end portion 13, There is information 12 printed on the surface side of the portion 15. In the present invention, a new measure for preventing counterfeit tickets is provided by selecting the ultraviolet transmittance of the ink for printing the information 10 and 12 according to a predetermined condition.
[0019]
It is known that the ultraviolet transmittance of the ink changes according to the mixing ratio of the pigment contained in the ink. In addition, the ink which prints the information 10 and 12 shall have the same color visually perceived by humans even if the ultraviolet transmittance is different. In this embodiment, the ultraviolet transmittance is selected using ink A having a low pigment mixing ratio, ink B having a half pigment mixing ratio, and ink C having a high pigment mixing ratio.
[0020]
For example, as a predetermined condition for selecting the ultraviolet transmittance of the ink, the organizer code, year, recurring, daily, race number, wagering, group number, amount, machine number, ticketing serial number included in the information 10-12 are included. Available. In particular, since the machine number and the ticket issuing serial number are determined when the ticket is issued, it is very difficult to predict which of the inks A to C is selected.
[0021]
Here, the ultraviolet transmittance of the ink is selected by using the organizer code, year, recurring, daily, race number, betting style, group number, amount, machine number, ticket issuing number included in the information 10-12. An example will be described.
[0022]
For example, if the organizer code a, fiscal year b, recurring c, daily d, race number e, betting style f, group number g, amount h, machine number i, ticketing serial number j, the ink is obtained by the following formula (1). Can be selected.
[0023]
[Expression 1]

Note that “%” in equation (1) represents taking a remainder. In addition, the index “A to K” in Expression (1) is used by selecting any one of pattern numbers 1 to 12 in Table 1, for example. “B, g, i” in Expression (1) is obtained by taking the last two digits of the result of calculation in hexadecimal according to the hexadecimal of the EUC code. “J” in equation (1) is assumed to have the last four digits of the ticketing serial number.
[0024]
[Table 1]

For example, a = 2, b = 30, c = 1, d = 1, e = 1, f = 3, g = 6, h = 1000, i = 28, j = 3286, the indices A to K of pattern number 1 By substituting into equation (1) and calculating, 822 is calculated.
[0025]
If ink A = 0-2, ink B = 3-6, and ink C = 7-9 are set, ink A is applied using the last two digits “2” of the calculation result of equation (1). You can choose. In addition, as long as one ink can be selected from a plurality of inks using the calculation result of Expression (1), the calculation result may be used in any way. When ink is selected according to the information 10 to 12 included in the voting ticket, the ink can be selected according to the information 10 to 12 not only at the ticket vending machine but also at the withdrawal machine.
[0026]
In the withdrawal machine, the ink is selected according to the information 10 to 12, while the bill edge portion 13 or 15 is irradiated with ultraviolet rays to measure the ultraviolet transmittance, and the ink used for printing the information 10 or 12 is selected. . The ink selected according to the information 10 to 12 is the ink used for printing the information 10 or 12 at the ticket vending machine.
[0027]
Therefore, it is necessary that the ink selected by irradiating the bill edge portion 13 or 15 with ultraviolet rays and the ink selected according to the information 10 to 12 are the same. can do. That is, even if the confidential information printed or recorded on the face of the voting ticket is copied as it is, it is very difficult to copy the ultraviolet transmittance of the ink used for printing the information 10 and 12, and the counterfeit ticket Can be identified efficiently.
[0028]
Ink for printing information 10 and 12 has the same color visually recognized by humans even if the UV transmittance is different, so it is not possible to distinguish voting tickets printed using different UV transmittance inks. .
[0029]
Hereinafter, a totalizer using the present invention will be described with reference to the drawings. FIG. 2 shows a configuration diagram of an example of the totalizer.
[0030]
The totalizer 1 of FIG. 2 includes ticket machines (TIM) 20a to 20n, refund machines (POM) 21a to 21m, control devices 22 and 23, a display panel 24, a final referee terminal 25, an on-site computer 26, It is configured to include a release-type central computer 27, a refund-type central computer 28, a hit ticket management file 29, and a dedicated line 30.
[0031]
The ticket vending machines 20a to 20n are devices that issue voting tickets, and are connected to the on-site computer 26 via the control device 22. The ticket vending machines 20a to 20n transmit a ticket issuing request signal to the on-site computer 26 according to the input purchase information, and issue a voting ticket according to the ticket issuing permission signal received from the on-site computer 26.
[0032]
The payout machines 21 a to 21 m are devices for paying out dividends, and are connected to the on-site computer 26 via the control device 23. The refund machines 21a to 21m transmit refund ticket surface information to the on-site computer 26 according to the inserted voting ticket, and pay out the dividend according to the refund permission signal received from the on-site computer 26.
[0033]
The display panel 24 is a device that displays odds, the number of votes, a refund, and the like, and performs display according to a request from the on-site computer. The final referee terminal 25 transmits the input arrival order information to the on-site computer.
[0034]
The on-site computer 26 totals the ticket issue request signals received from the ticket vending machines 20a to 20n, and transmits the sales total information according to the total result to the sales-type central computer 27 via the dedicated line 30. The on-site computer 26 transmits a paid-off ticket cancellation signal to the refunding central computer 28 via the dedicated line 30 according to the refunded ticket surface information received from the refunding machines 21a to 21m. A dividend information notification signal is received.
[0035]
The selling-type central computer 27 manages the sales total information received from the on-site computer 26 and stores the unique information of the hit voting ticket (target ticket) in the target ticket management file 29.
[0036]
The central computer 28 of the payout system searches the target ticket management file 29 according to the paid ticket cancellation signal received from the on-site computer 26, and obtains the specific information of the target ticket corresponding to the paid ticket cancellation signal as the target ticket. Delete from the management file 29. Then, the payout central computer 28 deletes the specific information of the target ticket corresponding to the paid ticket cancellation signal from the target ticket management file 29, and then transmits a dividend information notification signal to the on-site computer 26. . In other words, the central computer 28 of the payout system manages the unique information of the target ticket, thereby permitting the payout of only the first voting ticket having the same unique information.
[0037]
In FIG. 2, the release-type central computer 27 and the withdrawal-type central computer 28 are provided separately, but the functions of the sale-type central computer 27 and the refund-type central computer 28 are provided in one central computer. And may be provided.
[0038]
The totalizer 1 according to the present invention is characterized by ticket machines 20a to 20n, withdrawal machines 21a to 21n, and a computer 26 in the hall. Therefore, the processing of the ticket machines 20a to 20n, the withdrawal machines 21a to 21n, and the on-site computer 26 will be mainly described.
[0039]
FIG. 3 is a diagram illustrating an example for explaining the forged ticket identification method of the present invention. The ticket vending machine 20 transmits a ticket issuing request signal to the on-site computer 26 according to the input purchase information. The on-site computer 26 can select one ink from a plurality of inks having different ultraviolet transmittances as described above by using the information included in the received ticket issuing request signal as a predetermined condition.
[0040]
If there is no problem with the ticket issuing request signal, the in-site computer 26 transmits a ticket issuing permission signal and an ink number corresponding to the selected ink to the ticket vending machine 20. When the ticket vending machine 20 receives the ticket issue permission signal and the ink number from the on-site computer 26, the ticket vending machine 20 prints the voting ticket as shown in FIG. 1 with the ink corresponding to the received ink number, and issues the printed voting ticket. The surface side of the magnetic coating portion 14 may be printed with ink that does not correspond to the ink number.
[0041]
The repayment machine 21 irradiates the bill end portion 13 or 15 of the inserted voting ticket with ultraviolet rays, and selects the ink number of the ink used for printing from, for example, the amount of ultraviolet light transmitted through the bill end portion 13 or 15. Further, the refund machine 21 edits the refund ticket surface information according to the inserted voting ticket. The withdrawal machine 21 transmits the selected ink number and the edited withdrawal ticket surface information to the on-site computer 26.
[0042]
The on-site computer 26 can select one ink from a plurality of inks having different ultraviolet transmittances as described above by using the information included in the received refund ticket surface information as a predetermined condition. In the case of the same voting ticket, it is assumed that the ink selected by the on-site computer 26 when the voting ticket is issued and the ink selected by the on-site computer 26 when the hit voting ticket is refunded.
[0043]
The on-site computer 26 compares the ink number received from the withdrawal machine 21 with the ink number corresponding to the selected ink, and transmits a withdrawal permission signal to the withdrawal machine 21 if the comparison results match. On the other hand, if the comparison results do not match, it is determined that the ticket is a counterfeit ticket and, for example, an alarm signal is transmitted to the refunder 21. When the payout machine 21 receives the payout permission signal from the on-site computer 26, the payout machine 21 pays out the dividend.
[0044]
FIG. 4 shows a block diagram of an embodiment of a ticket vending machine according to the present invention. The ticket vending machine 20 includes a ticket issuing request signal editing unit 41, a purchase information storage memory 42, a transmission / reception control unit 43, a print content transmission unit 44, an ink selection unit 45, a price accounting unit 46, and a change output unit 47. , A ticket sheet 48, a printing unit 49, and a ticket cutting unit 50.
[0045]
The ticket issue request signal editing unit 41 is supplied with purchase information input by the purchaser. The purchase information includes an organizer code, a fiscal year, a circulation, a daily, a race number, a betting ceremony, a group number, a monetary amount, and the like necessary for purchasing a voting ticket. The ticket issuing request signal editing unit 41 adds necessary information such as a machine number and a ticket issuing serial number to the supplied purchase information.
[0046]
When the purchase information is supplied, the ticket issuing request signal editing unit 41 notifies the price account unit 46 of the price corresponding to the purchase information. The price accounting unit 46 counts the amount of money inserted from the banknote entrance or the coin entrance. The price account unit 46 compares the price with the input amount and, if necessary, causes the change output unit 47 to output change.
[0047]
When the price accounting unit 46 notifies that the price corresponding to the purchase information has been inserted, the ticket issuing request signal editing unit 41 supplies the purchase information to the purchase information storage memory 42. Further, the ticket issuing request signal editing unit 41 edits the ticket issuing request signal according to the purchase information, and supplies the ticket issuing request signal to the transmission / reception control unit 43. The transmission / reception control unit 43 transmits the supplied ticket issue request signal to the on-site computer 26.
[0048]
The on-site computer 26 processes the ticket issuing request signal as will be described later, and if there is no problem with the ticket issuing request signal, transmits the ticket issuing permission signal and the ink number corresponding to the selected ink to the ticket vending machine 20.
[0049]
When the ticket issuing permission signal and the ink number are received from the on-site computer 26, the transmission / reception control unit 43 supplies the received ticket issuing permission signal and the ink number to the printing content transmitting unit 44. The print content transmission unit 44 receives purchase information from the purchase information storage memory 42 according to the supplied ticketing permission signal, and supplies the print content to the printing unit 49. The print content transmission unit 44 supplies the supplied ink number to the ink selection unit 45.
[0050]
The ink selection unit 45 selects an ink tank to be used for printing by the printing unit 49 according to the supplied ink number. The printing unit 49 includes a plurality of ink tanks 51A to 51C corresponding to the ink numbers and an ink tank 51Z not corresponding to the ink numbers. The ink tank 51A stores ink A having a small pigment mixing ratio. Ink tank 51B stores ink B with a pigment mixing ratio of half. Ink tank 51C stores ink C having a high pigment mixing ratio.
[0051]
The printing unit 49 is continuously supplied with the ticket paper 48 stored in a roll shape. For example, the ticket paper 48 is not magnetically applied to the ticket end portions 13 and 15, and is magnetically applied to the other portions 14.
[0052]
The printing unit 49 prints the surface side of the magnetic coating portion 14 of the printing content supplied from the printing content transmission unit 44 with the ink in the ink tank 51Z, while the magnetic coating is not performed, for example, on the bill edge portions 13 and 15. The front side is printed with any one of the ink tanks 51 </ b> A to 51 </ b> C selected by the ink selection unit 45.
[0053]
The ticket sheet 48 that has been printed is cut by a ticket cutting unit 50 such as a cutter, and a voting ticket as shown in FIG. 1 is output from the ticket issuing outlet.
[0054]
FIG. 5 shows a block diagram of an embodiment of a withdrawal machine according to the present invention. The withdrawal machine 21 includes an ink number selection unit 61, an OCR (Optical Character Reader) 62, a bill face information editing unit 63, a transmission / reception control unit 64, a signal determination unit 65, an automatic cash payment unit 66, and an alarm output unit. 67.
[0055]
The ink number selection unit 61 is supplied with a voting ticket inserted from a center ticket insertion slot or the like, and irradiates the ticket edge portion 13 or 15 of the voting ticket with ultraviolet rays. The ink number selection unit 61 measures the amount of ultraviolet light transmitted through the bill end portion 13 or 15 and selects the ink number of the ink used for printing from the measurement result. The ink number selection unit 61 supplies the selected ink number to the ticket surface information editing unit 63.
[0056]
The OCR unit 62 is supplied with a voting ticket from the ink number selection unit 61, and reads the bill face information. The ticket face information is, for example, information 11 printed on the surface of a voting ticket. The OCR unit 62 supplies the read ticket face information to the ticket information editing unit 63.
[0057]
The ticket surface information editing unit 63 edits the refunded ticket surface information according to the ticket surface information supplied from the OCR unit 62. Then, the ticket surface information editing unit 63 supplies the edited refunded ticket surface information and the ink number supplied from the ink number selection unit 61 to the transmission / reception control unit 64. The transmission / reception control unit 64 transmits the supplied refund ticket surface information and ink number to the on-site computer 26.
[0058]
The on-site computer 26 processes the refund ticket surface information and the ink number as will be described later, and transmits a refund permission signal or an alarm signal to the refund machine 21. When receiving a withdrawal permission signal or warning signal from the on-site computer 26, the transmission / reception control unit 64 supplies the received withdrawal permission signal or warning signal to the signal determination unit 65.
[0059]
When the signal determination unit 65 receives the withdrawal permission signal, the signal judgment unit 65 supplies the received withdrawal permission signal to the automatic cash payment unit 66. On the other hand, when the signal determination unit 65 receives the alarm signal, the signal determination unit 65 supplies the received alarm signal to the alarm output unit 67.
[0060]
When the automatic cash payment unit 66 receives the withdrawal permission signal, it pays out the dividend according to the supplied withdrawal permission signal. When the alarm output unit 67 receives the alarm signal, the alarm output unit 67 outputs an alarm corresponding to the alarm information. The alarm signal includes a signal notifying that the inserted voting ticket is not correct and a signal notifying that the counterfeit ticket has been identified.
[0061]
FIG. 6 shows a block diagram of an embodiment of a computer system that implements an on-site computer. The computer system of FIG. 6 includes an input device 71, a display device 72, a drive device 73, a recording medium 74, an auxiliary storage device 75, a memory device 76, and an arithmetic process that are mutually connected by a bus B. A device 77, an interface device 78, and a database (hereinafter referred to as DB) 79 are included.
[0062]
The input device 71 includes a keyboard and a mouse operated by a user of the on-site computer 26, and is used to input various operation signals to the on-site computer 26. The display device 72 displays various windows and data necessary for operating the on-site computer 26.
[0063]
The interface device 78 is an interface for connecting the on-site computer 26 to other devices and the like, and includes, for example, a modem (MODEM), a router (Router), and the like. The DB 79 stores various types of information necessary for realizing the totalizer according to the present invention.
[0064]
The forged ticket identification program used by the on-site computer 26 is provided by a recording medium 74 such as a CD-ROM. The recording medium 74 is a CD-ROM, a recording medium for optically, electrically or magnetically recording information such as a flexible disk and a magneto-optical disk (MO), a ROM, a flash memory and the like. Various types of recording media such as a semiconductor memory for electrical recording can be used.
[0065]
The recording medium 74 in which the forged ticket identification program is recorded is set in the drive device 73, and the forged ticket identification program is installed in the auxiliary storage device 75 from the recording medium 74 through the drive device 73.
[0066]
The auxiliary storage device 75 stores the installed forged ticket identification program and also stores necessary files, data, and the like. The memory device 76 reads a forged ticket identification program from the auxiliary storage device 75 when the on-site computer 26 is activated, for example, and stores the read forged ticket identification program. The arithmetic processing unit 77 executes processing related to the on-site computer 26 in accordance with a forged ticket identification program read and stored in the memory device 76.
[0067]
Hereinafter, the process of the on-site computer 26 will be described separately for the sales process and the refund process. FIG. 7 is a diagram illustrating an example for explaining the sales system processing of the on-site computer.
[0068]
In step S <b> 1, the on-site computer 26 receives a ticket issue request signal from the ticket vending machine 20. Progressing to step S2 following step S1, the on-site computer 26 checks predetermined items such as holding information and determines whether or not ticketing is possible according to the ticketing request signal.
[0069]
If ticketing is possible, the on-site computer 26 proceeds to step S3 and totals ticketing request signals. On the other hand, if ticketing is not possible, the on-site computer 26 proceeds to step S8 and transmits a ticketing disapproval signal to the ticket vending machine 20.
[0070]
Progressing to step S5 following step S3, the on-site computer 26 uses the ticket surface information included in the ticket issuing request signal as a parameter, and selects the ink number as described above. Proceeding to step S6 following step S5, the on-site computer 26 assigns an ink number to the ticket issuing permission signal. In step S7 following step S6, the on-site computer 26 transmits a ticket issuing permission signal and an ink number to the ticket vending machine 20.
[0071]
Further, in step S4 following step S3, the on-site computer 26 transmits the sale aggregation information corresponding to the aggregation result of the ticketing request signal to the sale-type central computer 27.
[0072]
FIG. 8 is a diagram illustrating an example of processing of the payout system of the on-site computer. In step S <b> 10, the on-site computer 26 receives the refund ticket surface information and the ink number from the refund machine 21.
[0073]
Progressing to step S11 following step S10, the on-site computer 26 checks the refunded ticket surface information. For example, the information computer 26 determines whether or not the inserted voting ticket is correct according to the supplied refund ticket surface information.
[0074]
If a problem is found by checking the refund ticket surface information, the on-site computer 26 proceeds to step S17 and edits a normal refund rejection signal. In step S18 following step S17, the on-site computer 26 transmits the edited withdrawal rejection signal to the withdrawal machine 21.
[0075]
On the other hand, if no problem is found by checking the refunded ticket surface information, the on-site computer 26 proceeds to step S12 and totals the refunded ticket surface information. Proceeding to step S13 following step S12, the on-site computer 26 selects the ink number as described above using the ticket surface information included in the refunded ticket surface information as a parameter. Note that the selection of the ink number performed in step S13 and the selection of the ink number performed in step S5 are the same.
[0076]
The on-site computer 26 confirms the consistency between the ink number selected in step S13 and the ink number received from the withdrawal machine 21. If the ink number selected in step S13 matches the ink number received from the withdrawal machine 21, the on-site computer 26 transmits a paid-off ticket cancellation signal to the central computer 28 of the withdrawal system.
[0077]
On the other hand, if the ink number selected in step S13 and the ink number received from the refunder 21 do not match, the on-site computer 26 determines that the voting ticket inserted into the refunder 21 is a counterfeit ticket, and the process proceeds to step S19. move on. In step S19, an alarm signal corresponding to the identification of the counterfeit ticket is edited. In step S20 following step S19, the on-site computer 26 transmits the edited warning signal to the refunder 21.
[0078]
In step S14, the on-site computer 26 receives a dividend information notification signal from the central computer 28 of the payout system. Progressing to step S15 following step S14, the on-site computer 26 edits a payout permission signal in accordance with the received dividend information notification signal. In step S16 following step S15, the on-site computer 26 transmits the edited withdrawal permission signal to the withdrawal machine 21.
[0079]
Therefore, in the totalizer of the present invention, a counterfeit ticket can be easily identified by comparing the ink selected according to the ticket surface information with the ink selected by irradiating the voting ticket with ultraviolet rays.
[0080]
The present invention may have the following configurations as described below.
(Supplementary Note 1) According to the predetermined information to be printed on the bill, a selection stage for selecting the ultraviolet transmittance of the ink;
A ticket issuing stage for printing the predetermined information on a ticket surface using an ink having a selected ultraviolet transmittance, and issuing a printed ticket;
A ticket issuing method characterized by comprising:
(Supplementary note 2) The ticket issuing method according to supplementary note 1, wherein the ink has an ultraviolet transmittance selected according to a mixing ratio of the pigment.
(Supplementary Note 3) The supplementary note 1 or 2 is characterized in that, in the ticket issuing stage, at least a part of the predetermined information is printed on a portion of the ticket surface that does not prevent the transmission of ultraviolet rays using an ink having a selected ultraviolet transmittance. The ticketing method described.
(Appendix 4) A ticket vending machine that issues a ticket with predetermined information printed on the ticket surface,
An ink storage means in which a plurality of inks having different ultraviolet transmittances are stored;
Ticket issuing means for selecting one of the plurality of inks according to predetermined information to be printed on the ticket surface, and printing the predetermined information on the ticket surface using the selected ink to issue a ticket.
A ticket vending machine characterized by comprising:
(Appendix 5) Measuring stage for measuring ultraviolet transmittance by irradiating a ticket with ultraviolet rays,
A selection step of selecting the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface;
An identification stage that compares the measured UV transmittance with the selected UV transmittance and identifies counterfeit tickets according to the comparison results;
A forged ticket identification method characterized by comprising:
(Additional remark 6) The ultraviolet-ray transmittance is selected according to the mixing ratio of a pigment for the said ink, The counterfeit ticket identification method of Additional remark 5 characterized by the above-mentioned.
(Additional remark 7) The said measurement step irradiates the predetermined information printed in the part which does not prevent the permeation | transmission of ultraviolet-ray among the predetermined information printed on a ticket surface, and measures an ultraviolet-ray transmittance. The counterfeit ticket identification method according to appendix 5 or 6.
(Supplementary Note 8) A refund machine that performs refund according to predetermined information printed on a ticket,
Measuring means for irradiating the predetermined information printed on the ticket surface with ultraviolet light and measuring the ultraviolet transmittance of the ink printed on the ticket surface with the predetermined information;
An identification means for selecting the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface, and identifying the counterfeit ticket according to the comparison result between the selected ultraviolet transmittance and the measured ultraviolet transmittance;
A refund machine characterized by comprising:
(Supplementary note 9) A forged ticket identifying method for identifying a forged ticket using a computer connected to a ticket vending machine and a refund machine via a network,
Predetermined information to be printed on the ticket surface from the ticket vending machine, and a first selection step of selecting an ultraviolet transmittance of the ink according to the predetermined information;
A first supply stage for supplying the ticket machine with ultraviolet transmittance of the selected ink;
A second selection step in which the predetermined information printed on the ticket surface from the withdrawal machine and the ultraviolet transmittance measured by irradiating the ticket with ultraviolet rays are supplied, and the ultraviolet transmittance of the ink is selected according to the predetermined information;
An identification stage that compares the measured UV transmittance with the selected UV transmittance and identifies the counterfeit ticket according to the comparison result;
A second supply stage for supplying the identified result to the withdrawal machine;
A forged ticket identification method characterized by comprising:
(Supplementary note 10) The counterfeit ticket identification method according to supplementary note 9, wherein the ink has an ultraviolet transmittance selected according to a mixing ratio of the pigment.
(Appendix 11)
A first selection procedure for selecting an ultraviolet transmittance of ink according to predetermined information to be printed on a ticket surface supplied from a ticket vending machine;
A first supply procedure for supplying the ticket vending machine with the ultraviolet transmittance of the selected ink;
A second selection procedure for selecting the ultraviolet transmittance of the ink in accordance with the predetermined information printed on the ticket surface supplied from the withdrawal machine;
An identification procedure for comparing the ultraviolet transmittance measured by irradiating the ticket supplied from the withdrawal machine with ultraviolet rays and the ultraviolet transmittance selected in the second selection procedure, and identifying the counterfeit ticket according to the comparison result;
A second supply procedure for supplying the identified result to the withdrawal machine;
A forged ticket identification program characterized by comprising:
(Supplementary note 12)
A first selection procedure for selecting an ultraviolet transmittance of ink according to predetermined information to be printed on a ticket surface supplied from a ticket vending machine;
A first supply procedure for supplying the ticket vending machine with the ultraviolet transmittance of the selected ink;
A second selection procedure for selecting the ultraviolet transmittance of the ink in accordance with the predetermined information printed on the ticket surface supplied from the withdrawal machine;
An identification procedure for comparing the ultraviolet transmittance measured by irradiating the ticket supplied from the withdrawal machine with ultraviolet rays and the ultraviolet transmittance selected in the second selection procedure, and identifying the counterfeit ticket according to the comparison result;
A second supply procedure for supplying the identified result to the withdrawal machine;
A computer-readable recording medium on which a forged ticket identification program is recorded.
(Appendix 13) A ticket with predetermined information printed on the ticket surface,
The predetermined information printed on the ticket surface is printed on a portion of the ticket surface that does not prevent the transmission of ultraviolet rays using an ink having an ultraviolet transmittance corresponding to the predetermined information.
[0081]
【The invention's effect】
As described above, according to the present invention, the ultraviolet transmittance of the ink is selected according to the predetermined information to be printed on the ticket surface, and the predetermined information is printed on the ticket surface using the selected ultraviolet transmittance ink. The counterfeit ticket can be easily identified using the predetermined information printed on the ticket surface and the ultraviolet transmittance of the ink.
[0082]
Further, according to the present invention, ultraviolet rays are irradiated to a ticket to measure the ultraviolet transmittance, the ultraviolet transmittance of the ink is selected according to predetermined information printed on the ticket surface, and the measured ultraviolet transmittance is selected. A counterfeit ticket can be easily identified by comparing the ultraviolet transmittance.
[0083]
Further, according to the present invention, as a measure for preventing counterfeit tickets, it is possible to take an analog measure that varies the ultraviolet transmittance of ink according to predetermined information. Therefore, the creation of a counterfeit ticket becomes extremely difficult, and it becomes possible to prevent counterfeit tickets.
[0084]
[Brief description of the drawings]
FIG. 1 is an image diagram of an example of a voting ticket according to the present invention.
FIG. 2 is a configuration diagram of an example of a totalizer.
FIG. 3 is a diagram illustrating an example of a forged ticket identification method according to the present invention.
FIG. 4 is a configuration diagram of an embodiment of a ticket vending machine according to the present invention.
FIG. 5 is a configuration diagram of an embodiment of a withdrawal machine according to the present invention.
FIG. 6 is a configuration diagram of an embodiment of a computer system that implements an on-site computer.
FIG. 7 is a diagram illustrating an example of sales-system processing of an on-site computer.
FIG. 8 is a diagram illustrating an example of a payout process of the on-site computer.
[Explanation of symbols]
1 Totalizer
10-12 information
13, 15 ticket edge
14 Magnetic coating part
20a-20n, 20 ticket machines
21a-21m, 21 withdrawal machine
22, 23 Control device
24 display panel
25 Final Referee Terminal
26 On-site computer
27, 28 Central computer
29 middle ticket management file
30 Private line
41 Ticketing Request Signal Editor
42 Purchase information storage memory
43 Transmission / reception controller
44 Print content transmission part
45 Ink selection section
46 Price Account Department
47 Change change output
48 ticket form
49 Printing Department
50 ticket cutting part
51A-51C, 51Z Ink tank
61 Ink number selection section
62 OCR (Optical Character Reader)
63 Ticket information editor
64 Transmission / reception controller
65 Signal determination unit
66 Automatic cash payment department
67 Alarm output section
71 Input device
72 Display device
73 Drive device
74 Recording medium
75 Auxiliary storage device
76 Memory device
77 Arithmetic processing unit
78 Interface device
79 Database (DB)

Claims (5)

In the ticketing method in the ticketing system having the first selection unit and the ticketing unit,
Wherein the first selecting unit, in accordance with the predetermined information to be printed on Kenmen, select the ultraviolet transmittance of the ink,
The ticket issuing unit prints the predetermined information on a ticket surface using an ink having a selected ultraviolet transmittance, and issues a printed ticket.
A ticketing method characterized by that. In the forged ticket identification method in the forged ticket identification system having the measurement unit, the second selection unit, and the identification unit,
The measurement unit irradiates the ticket on which the predetermined information is printed on the ticket surface with ultraviolet light having an ultraviolet transmittance selected according to the predetermined information to be printed on the ticket surface by irradiating the ticket with ultraviolet rays. Measure the transmittance,
Wherein the second selection unit selects the UV transmittance of the ink in accordance with a predetermined information printed on the Kenmen,
The identification unit compares the measured ultraviolet transmittance with the selected ultraviolet transmittance, and identifies a counterfeit ticket according to the comparison result;
The forged ticket identification method characterized by the above-mentioned. The UV transmittance is measured by irradiating the ticket, on which the predetermined information is printed on the ticket surface, with ultraviolet light using the UV transmittance ink selected according to the predetermined information to be printed on the ticket surface. A measuring section;
A second selection unit that selects the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface;
An identification unit that compares the measured ultraviolet transmittance with the selected ultraviolet transmittance and identifies a counterfeit ticket according to the comparison result;
A counterfeit ticket identification system comprising: Computer
The UV transmittance is measured by irradiating the ticket, on which the predetermined information is printed on the ticket surface, with ultraviolet light using the UV transmittance ink selected according to the predetermined information to be printed on the ticket surface. Measuring section,
A second selection unit for selecting the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface;
An identification unit that compares the measured ultraviolet transmittance with the selected ultraviolet transmittance and identifies a counterfeit ticket according to the comparison result,
Forgery ticket identification program characterized by functioning as A first selection unit that selects the ultraviolet transmittance of the ink according to the predetermined information to be printed on the ticket surface;
A ticket issuing unit that prints the predetermined information on a ticket surface using an ink having a selected ultraviolet transmittance, and issues a printed ticket;
A measuring unit that measures the ultraviolet transmittance by irradiating the issued ticket with ultraviolet rays;
A second selection unit that selects the ultraviolet transmittance of the ink according to the predetermined information printed on the ticket surface;
An identification unit that compares the measured ultraviolet transmittance with the selected ultraviolet transmittance and identifies a counterfeit ticket according to the comparison result;
A counterfeit ticket identification system comprising:

Images