JPH081669B2 - Coin discriminator - Google Patents

Coin discriminator

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Publication number
JPH081669B2
JPH081669B2 JP60162493A JP16249385A JPH081669B2 JP H081669 B2 JPH081669 B2 JP H081669B2 JP 60162493 A JP60162493 A JP 60162493A JP 16249385 A JP16249385 A JP 16249385A JP H081669 B2 JPH081669 B2 JP H081669B2
Authority
JP
Japan
Prior art keywords
value
measurement
limit value
coin
upper limit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
JP60162493A
Other languages
Japanese (ja)
Other versions
JPS6222194A (en
Inventor
定男 松本
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sanyo Electric Co Ltd
Original Assignee
Sanyo Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sanyo Electric Co Ltd filed Critical Sanyo Electric Co Ltd
Priority to JP60162493A priority Critical patent/JPH081669B2/en
Publication of JPS6222194A publication Critical patent/JPS6222194A/en
Publication of JPH081669B2 publication Critical patent/JPH081669B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Description

【発明の詳細な説明】 (イ) 産業上の利用分野 本発明は硬貨の転動路に発振磁界を形成する測定セン
サーを配置し、硬貨の通過による発振磁界への影響度を
測定してその適正を判別する硬貨判別方式に関する。
DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention arranges a measuring sensor that forms an oscillating magnetic field in the rolling path of a coin, measures the degree of influence of the passage of the coin on the oscillating magnetic field, and The present invention relates to a coin discriminating method for discriminating suitability.

(ロ) 従来の技術 かかる硬貨判別方式としては特開昭57−27387号公報
に示されている技術があり、これは硬貨の通過による発
振磁界への影響度にて硬貨の材質(電気伝導度)・板厚
・外径の各物理的特徴を測定センサーを設け、硬貨の通
過により各特徴毎の測定センサーによる影響度の値が所
定の許容範囲内であるかを照合して硬貨の適正を判別す
るものである。更に第2図によって説明すると、同図の
Aは測定センサー(S1)(S2)(S3)の配置構成を示し
ており、硬貨投入口(4)に連通する硬貨レール(6)
上に硬貨の転動方向に沿って順次配設している。かかる
測定センサー(S1)(S2)(S3)を硬貨が通過すると、
発振磁界が通過する硬貨の物理的特徴による影響を受け
て発振周波数が変化し、第2図Bにそれぞれ符号(16)
(18)(20)で示す測定信号が得られて、その最大値P1
・P2・P3を測定信号の値として検出している。以下から
の説明においては、測定信号の値である最大値P1・P2
P3を検査硬貨が測定センサーに与える影響度と述べる。
そしてこれら影響度P1・P2・P3が、測定センサー(S1
(S2)(S3)毎に設定した第2図Cに示す許容範囲l1
l2・l5に含まれるかを照合して、硬貨の適正を判定する
ものである。
(B) Conventional technology As such a coin discriminating method, there is a technology disclosed in Japanese Patent Laid-Open No. 57-27387, which uses the material of the coin (electric conductivity) depending on the influence of the passage of the coin on the oscillating magnetic field. ) ・ Providing a sensor for measuring physical characteristics such as plate thickness and outer diameter, verifying whether the value of the influence of the measuring sensor for each characteristic is within a predetermined allowable range by passing the coin, It is to determine. Further explaining with FIG. 2, A of the same figure shows the arrangement of the measurement sensors (S 1 ) (S 2 ) (S 3 ), and the coin rail (6) communicating with the coin slot (4).
The coins are sequentially arranged on the top along the rolling direction of the coins. When a coin passes through the measuring sensors (S 1 ) (S 2 ) (S 3 ),
The oscillating frequency changes under the influence of the physical characteristics of the coin through which the oscillating magnetic field passes, and the symbols (16) in FIG. 2B respectively.
(18) The measured signal shown in (20) is obtained and its maximum value P 1
・ P 2 and P 3 are detected as the value of the measurement signal. In the following description, the maximum value P 1 , P 2 ,
Inspection coin the P 3 is stated that the degree of influence on the measurement sensor.
And these influences P 1 , P 2 , P 3 are the measurement sensor (S 1 )
The permissible range l 1 · shown in FIG. 2C set for each of (S 2 ) and (S 3 ).
by matching either included in the l 2 · l 5, is to determine the proper coins.

(ハ) 発明が解決しようとする問題点 上記従来技術において、測定センサーはそれぞれ測定
すべき特徴にのみ適応するように発振周波数や形状或い
は硬貨レール(5)からの取付位置が選定されている
が、測定値にはどうしても他の特徴の要素が入る。例え
ば硬貨の材質を測定しようとしてもその板厚の影響が含
まれてしまう。したがって正貨と比べて電気伝導度の小
さい材質で且つ板厚を厚くした偽貨が投入されると、測
定センサー(S1)(S2)で得られる各影響度が○記号で
表わすように許容範囲l1・l2内の値を示すことがある。
また正貨と比べて電気伝導度の大きい材質で且つ板厚を
薄くした偽貨が投入されると、測定センサー(S1
(S2)で得られる各影響度が△記号で表わすように許容
範囲l1・l2内の値を示すことがある。更に異種の合金ま
たは同一材質の外国硬貨等による変造貨で板厚が正貨よ
り厚いと×記号で表わすように、また正貨より薄いと□
記号で表わすように、それぞれ許容範囲l1・l2内の値を
示すことがある。
(C) Problems to be Solved by the Invention In the above-mentioned conventional technique, the measurement sensor is selected in terms of oscillation frequency and shape or the mounting position from the coin rail (5) so as to be adapted only to the characteristic to be measured. , The measured value inevitably contains other characteristic elements. For example, when trying to measure the material of a coin, the influence of the plate thickness is included. Therefore, when a fake coin made of a material with a smaller electrical conductivity than a true coin and having a thick plate is inserted, each degree of influence obtained by the measurement sensors (S 1 ) (S 2 ) is represented by a circle symbol. It may show a value within the allowable range l 1 · l 2 .
In addition, when a counterfeit coin made of a material with a higher electrical conductivity than a genuine coin and having a thin plate is inserted, a measurement sensor (S 1 )
Each degree of influence obtained in (S 2 ) may show a value within the allowable range l 1 · l 2 as indicated by a triangle symbol. Furthermore, if the plate thickness of a coin made of a different alloy or foreign coins of the same material, etc., is thicker than the true coin, it is indicated by the cross symbol.
As indicated by the symbols, the values may fall within the permissible ranges l 1 and l 2 , respectively.

上記点より本発明は、発振周波数の変化により硬貨の
材質・板厚をそれぞれ測定する硬貨判別装置において、
材質の測定にも係わらず誤差として測定される板厚の影
響による誤判別及び板厚測定にも係わらず誤差として測
定される材質の影響による誤判別をそれぞれ防止できる
硬貨判別装置を提供するものである。
From the above point, the present invention is a coin discriminating apparatus for measuring the material and the plate thickness of a coin by changing the oscillation frequency,
(EN) A coin discriminating apparatus capable of preventing erroneous discrimination due to the influence of a plate thickness that is measured as an error regardless of the measurement of a material and erroneous discrimination due to the influence of a material that is measured as an error despite a thickness measurement. is there.

(ニ) 問題点を解決するための手段 上記の問題点を解決するために本発明による硬貨判別
装置は、硬貨通路と、該硬貨通路を通過する検査硬貨に
順次発振磁界を印加するよう配置されて該検査硬貨の主
に材質に起因して変化する発振周波数の変化に基づく測
定信号を出力する第1測定センサー及び該検査硬貨の主
に板厚に起因して変化する発振周波数の変化に基づく測
定信号を出力する第2測定センサーと、該測定センサー
毎に予め設定されるそれぞれの上限値及び下限値から成
る第1照合データを記憶している第1照合データ記憶手
段と、前記各測定センサー毎の前記上限値の和未満の値
である第2上限値及び前記各測定センサー毎の前記下限
値の和を越える値である第2下限値から成る第2照合デ
ータ記憶している第2照合データ記憶手段と、一方の前
記測定センサーの上限値から他方の前記測定センサーの
下限値を減算した値及び一方の前記測定センサーの下限
値から他方の前記測定センサーの上限値を減算した値の
うち大きい方の値未満の値である第3上限値及び小さい
方の値を超える値である第3下限値から成る第3照合デ
ータを記憶している第3照合データ記憶手段と、検査硬
貨が前記硬貨通路を通過し前記各測定センサーによる測
定信号の値がそれぞれ全て該当する前記第1照合データ
の上限値及び下限値との範囲内にあって、各測定信号の
値の和が前記第2照合データの第2上限値及び第2下限
値の範囲内にあって、且つ前記一方の測定センサーの測
定信号の値から前記他方の測定センサーの測定信号の値
を減算した値が前記第3照合データの上限値及び下限値
の範囲内にあると当該検査硬貨を適正と判別する判別手
段とを備えた構成である。
(D) Means for Solving the Problems To solve the above problems, the coin discriminating apparatus according to the present invention is arranged so as to sequentially apply an oscillating magnetic field to the coin passage and the inspection coin passing through the coin passage. Based on the change of the oscillation frequency that changes mainly due to the plate thickness of the inspection coin and the first measurement sensor that outputs the measurement signal based on the change of the oscillation frequency that changes mainly due to the material of the inspection coin A second measurement sensor that outputs a measurement signal, a first collation data storage unit that stores first collation data including upper limit values and lower limit values preset for each of the measurement sensors, and each of the measurement sensors. The second collation data stored in the second collation data, which includes a second upper limit value that is a value less than the sum of the upper limit values for each of the measurement sensors and a second lower limit value that is a value that exceeds the sum of the lower limit values for each of the measurement sensors. Data storage And a value obtained by subtracting a lower limit value of the other measurement sensor from an upper limit value of one of the measurement sensors and a value obtained by subtracting an upper limit value of the other measurement sensor from a lower limit value of the one measurement sensor. Third verification data storage means for storing third verification data composed of a third upper limit value that is a value less than the value and a third lower limit value that is a value greater than the smaller value, and the inspection coin is the coin passage. And the values of the measurement signals by the respective measurement sensors are all within the range of the upper limit value and the lower limit value of the corresponding first verification data, and the sum of the values of the respective measurement signals is the second verification data. The upper limit of the third collation data is a value that is within the range of the second upper limit value and the second lower limit value and that is obtained by subtracting the value of the measurement signal of the other measurement sensor from the value of the measurement signal of the one measurement sensor. Value and lower limit When it is within the range, it is a configuration including a discriminating means for discriminating the inspection coin as proper.

(ホ) 作用 検査硬貨が硬貨通路を通過して、各測定センサーを通
過して測定信号が得られると、判別手段はそれぞれの測
定信号の値が該当する第1照合データの上限値及び下限
値の範囲内にあるかを照合する。そして、それぞれの測
定信号の値の和が第2照合データの第2上限値及び第2
下限値の範囲内にあるかを照合する。更に、一方の測定
センサーの測定信号の値と他方の測定センサーの測定信
号の値との差の値が前記第3照合データの上限値及び下
限値の範囲内にあるかを照合する。そして、全ての照合
で範囲内での一致が取れると当該検査硬貨を適正と判別
する。このとき、各測定センサーの測定信号の値を合算
すると、各測定センサー毎の測定誤差が合計されて強調
されて表れるために、それぞれの各測定値の値が第1照
合データの範囲内にあっても、測定信号の値の和の値は
第2照合データからは外れることになり判別精度が向上
する。また、各測定センサーの測定信号の値を差を算出
すると、互いの測定誤差が打ち消されるために、やはり
各測定値の値が第1照合データの範囲内にあっても、測
定信号の値の差の値は第3照合データからは外れること
になり判別精度が向上する。
(E) Action When the inspection coin passes through the coin passage and passes through each measurement sensor to obtain a measurement signal, the discriminating means determines the upper limit value and the lower limit value of the first collation data to which the respective measurement signal values correspond. Matches within the range of. Then, the sum of the values of the respective measurement signals is the second upper limit value and the second upper limit value of the second collation data.
Check if it is within the lower limit. Further, it is verified whether the difference value between the value of the measurement signal of one measurement sensor and the value of the measurement signal of the other measurement sensor is within the range of the upper limit value and the lower limit value of the third verification data. Then, if all the collations match within the range, the inspection coin is determined to be proper. At this time, when the values of the measurement signals of the respective measurement sensors are added up, the measurement errors of the respective measurement sensors are summed up and emphasized, so that the values of the respective measurement values are within the range of the first collation data. Even so, the value of the sum of the values of the measurement signals deviates from the second collation data, and the discrimination accuracy improves. Further, when the difference between the values of the measurement signals of the respective measurement sensors is calculated, the measurement error of each is canceled out. Therefore, even if the value of each measurement value is within the range of the first collation data, The value of the difference deviates from the third collation data, and the discrimination accuracy improves.

(ヘ) 実施例 第2図に示す各測定センサー(S1)(S2)(S3)は第
1図で示すごとく、硬貨レール(6)にて形成される硬
貨通路(5)を挾み発振コイル(15)(17)(19)を直
列接続して成り、発振磁界を通過する硬貨による当該発
振磁界への影響度を測定するもので、具体的には通過硬
貨内に発生する渦電流の影響による発振器(11)(12)
(13)の発振周波数の変化を示す信号を測定信号として
捉え、この測定信号の値である最大周波数の値が検査硬
貨が測定センサーに与える影響度として検出される。
(F) Example As shown in FIG. 1, each measuring sensor (S 1 ) (S 2 ) (S 3 ) shown in FIG. 2 inserts a coin passage (5) formed by a coin rail (6). It consists of oscillation coils (15) (17) (19) connected in series and measures the degree of influence of a coin passing through an oscillating magnetic field on the oscillating magnetic field. Oscillators affected by current (11) (12)
The signal indicating the change in the oscillation frequency of (13) is captured as a measurement signal, and the value of the maximum frequency, which is the value of the measurement signal, is detected as the degree of influence of the inspection coin on the measurement sensor.

また本例では第2図に示す許容範囲l1の下限値データ
A及び上限値データBを材質に関する測定センサー
(S1)についての第1照合データに設定し、許容範囲l2
の下限値データC及び上限値データDを板厚に関する測
定センサー(S2)についての第1照合データに設定して
いる。そして本発明に依ると更に第2照合データを設定
して許容範囲l3及びl4を設けるものである。第2照合デ
ータは第1照合データの和或いは差に基づく値であり、
和の場合における第2照合データの上限データH及び下
限データGは第1照合データの上限データB・D及び下
限データA・Cと次の関係にある。即ち、H<B+D及
びG>A+C。
Further, in this example, the lower limit value data A and the upper limit value data B of the allowable range l 1 shown in FIG. 2 are set as the first reference data for the measurement sensor (S 1 ) related to the material, and the allowable range l 2
The lower limit data C and the upper limit data D of are set as the first collation data for the measurement sensor (S 2 ) relating to the plate thickness. Further, according to the present invention, the second collation data is further set and the allowable ranges l 3 and l 4 are provided. The second matching data is a value based on the sum or difference of the first matching data,
The upper limit data H and the lower limit data G of the second collation data in the case of the sum have the following relationship with the upper limit data B and D and the lower limit data A and C of the first collation data. That is, H <B + D and G> A + C.

また差の場合における第2照合データの上限データF
及び下限データEは上記データと次の関係にある。即
ち、F<B−C及びE>A−D。そして硬貨の投入によ
り各測定センサー(S1)(S2)(S3)についての影響度
P1・P2・P3を検出すると、影響度P1・P2・P3がそれぞれ
許容範囲l1・l2・l5内かを判定するとともに、影響度P2
・P1の差(P1−P2)及び和(P1+P2)がそれぞれ許容範
囲l3・l4内かを判定し、全ての判定で許容範囲内にある
ことが分かるとこの硬貨を適正と判定する。
The upper limit data F of the second collation data in the case of difference
And the lower limit data E have the following relationship with the above data. That is, F <B-C and E> A-D. And the degree of influence on each measurement sensor (S 1 ) (S 2 ) (S 3 ) by inserting coins
Upon detection of the P 1 · P 2 · P 3, with impact P 1 · P 2 · P 3 is to determine whether each tolerance l 1 · l 2 · l within 5, impact P 2
· The difference between P 1 (P 1 -P 2) and sum (P 1 + P 2) is to determine whether each tolerance l 3-l within 4, when it is found to be within the acceptable range in all judgment this coin Is determined to be appropriate.

このような影響度の和による判別は材厚と板厚とを総
合的に見ることになるために、材質測定でのノイズであ
る材質以外の特徴を示す誤差データ及び板厚測定でのノ
イズである板厚以外の特徴を示す誤差データとが加算さ
れて誤差データが増長され、測定で誤差データが大きな
値を示す硬貨を確実に分別することができる。また影響
度の差による判別は材質と板厚との相関々係を見ること
になるために、材質測定及び板厚測定におけるそれぞれ
の誤差データは打消されて、材質と板厚だけの特徴に基
づく正確な判別を行なうことができる。かかる判別処理
で影響度P2とP1との差をとることで、電気伝導度を小さ
くして板厚を厚くした偽貨或いは電気伝導度を大きくし
て板厚を薄くした偽貨に対しては、板厚の誤差データが
除かれるために電気伝導度による影響度がそのまま表わ
れ夫々○記号及び△記号の値を示して分別できる。また
影響度P1とP2との和をとることで上記の変造貨で板厚が
厚いもの或いは薄いものに対しては板厚と大小が強調さ
れてそれぞれ×記号及び□記号の値を示して分別でき
る。
Since the judgment based on the sum of the influence degrees is to comprehensively see the material thickness and the plate thickness, the error data indicating the characteristics other than the material that is noise in the material measurement and the noise in the plate thickness measurement are used. The error data is added to the error data showing a feature other than a certain plate thickness to increase the error data, so that the coins showing a large error data in the measurement can be reliably separated. In addition, since the judgment based on the difference in the degree of influence is to see the correlation between the material and the plate thickness, each error data in the material measurement and the plate thickness measurement is canceled and based on the characteristics of only the material and the plate thickness. Accurate discrimination can be performed. By taking the difference between the degree of influence P 2 and P 1 in such a discrimination process, the counterfeit coin with reduced electrical conductivity and thicker plate or the counterfeit coin with increased electrical conductivity and thinner plate thickness For example, since the error data of the plate thickness is removed, the degree of influence by the electrical conductivity is directly displayed, and the values can be distinguished by indicating the values of the O symbol and the Δ symbol, respectively. Also, by taking the sum of the influence levels P 1 and P 2 , the thickness and size of the modified coins with thick or thin thickness are emphasized and the values of × and □ are shown respectively. Can be sorted.

第1図において、制御装置(2)は測定センサー
(S1)(S2)(S3)の測定に関連して制御信号a・b・
cを順次繰返し出力するが、制御信号aの発生により発
振器(11)の発振出力がANDゲート(21)及びORゲート
(24)を通してカウンタ(1)へ導入され、制御信号b
の発生により発信器(12)の発振出力がANDゲート(2
2)及びORゲート(24)を通してカウンタ(1)へ導入
され、また制御信号cの発生により発振器(13)の発振
出力がANDゲート(23)及びORゲート(24)を通してカ
ウンタ(1)へ導入される。カウンタ(1)は制御信号
aの発生期間でANDゲート(21)から出力される発振出
力をカウントすることで発振器(11)の発振周波数を検
出し、制御信号bの発生期間でANDゲート(22)から入
力される発振出力をカウントすることで発振器(12)の
発振周波数を検出し、制御信号cの発生期間でANDゲー
ト(23)から出力される発振出力をカウントすることで
発振器(13)の発振周波数を検出する。そして制御装置
(2)は各制御信号a・b・cの出力により所定のサン
プリング期間でカウンタ(1)がカウントした発振周波
数データを導入し、導入後にリセット信号(14)を出力
する。硬貨が投入されて各測定センサー(S1)(S2
(S3)に接近すると、それに応じて各発振器(11)(1
2)(13)の発振周波数は第2図Bに示すように上昇
し、通過後離反すると下降する。したがって制御装置
(2)は、制御信号aを出力する度に導入してくる発振
周波数データを逐次比較して硬貨の投入による測定セン
サー(S1)への影響度である発振器(11)の最大周波数
P1を検出し、制御信号bを出力する度に導入してくる発
振周波数データを逐次比較して測定センサー(S2)への
影響度である発振器(12)の最大周波数P2を検出し、ま
た制御信号cを出力する度に導入してくる発振周波数デ
ータを逐次比較して測定センサー(S3)への影響度であ
る発振器(13)の最大周波数P3を検出する。メモリ
(3)には測定センサー(S1)(S2)(S3)毎に検出さ
れる影響度に対して材質・板厚・外径の各特徴について
の第1照合データ、即ち第2図Cに示す各許容範囲l1
l2・l5についての上限データB,D,J及び下限データA,C,I
を設定している。更にメモリ(3)には材質及び板厚に
ついての第1照合データの和及び差による第2照合デー
タ,即ち第2図Cに示す各許容範囲l3・l4についての上
限データF,H及び下限データE,Gを設定している。
In Figure 1, the control device (2) is measuring sensor (S 1) (S 2) (S 3) measuring in connection with the control signal a · b · a
c is sequentially and repeatedly output, but the oscillation output of the oscillator (11) is introduced into the counter (1) through the AND gate (21) and the OR gate (24) by the generation of the control signal a, and the control signal b
The oscillation output of the oscillator (12) causes AND gate (2
2) and is introduced into the counter (1) through the OR gate (24), and the oscillation output of the oscillator (13) is introduced into the counter (1) through the AND gate (23) and the OR gate (24) by the generation of the control signal c. To be done. The counter (1) detects the oscillation frequency of the oscillator (11) by counting the oscillation output output from the AND gate (21) during the generation period of the control signal a, and the AND gate (22 during the generation period of the control signal b). ), The oscillation frequency of the oscillator (12) is detected by counting the oscillation output, and the oscillation output output from the AND gate (23) is counted during the generation period of the control signal c. The oscillation frequency of is detected. Then, the control device (2) introduces the oscillation frequency data counted by the counter (1) in a predetermined sampling period by outputting the control signals a, b, and c, and outputs the reset signal (14) after the introduction. Coin is inserted and each measurement sensor (S 1 ) (S 2 )
As (S 3 ) is approached, each oscillator (11) (1
2) The oscillating frequency of (13) rises as shown in FIG. 2B, and falls when passing away after passing. Therefore, the control device (2) successively compares the oscillation frequency data introduced every time the control signal a is output, and determines the maximum value of the oscillator (11) which is the degree of influence on the measurement sensor (S 1 ) by the coin insertion. frequency
The maximum frequency P 2 of the oscillator (12), which is the degree of influence on the measurement sensor (S 2 ), is detected by sequentially comparing the oscillation frequency data that is introduced each time P 1 is detected and the control signal b is output. Also, the oscillation frequency data introduced each time the control signal c is output is successively compared to detect the maximum frequency P 3 of the oscillator (13) which is the degree of influence on the measurement sensor (S 3 ). In the memory (3), the first collation data for each characteristic of material, plate thickness, and outer diameter with respect to the degree of influence detected by each measurement sensor (S 1 ) (S 2 ) (S 3 ), that is, the second Each allowable range l 1
Upper limit data B, D, J and lower limit data A, C, I for l 2 and l 5
Is set. Further, in the memory (3), the second collation data based on the sum and difference of the first collation data regarding the material and the plate thickness, that is, the upper limit data F, H for each allowable range l 3 · l 4 shown in FIG. 2C and Lower limit data E and G are set.

したがって制御装置(2)は硬貨の投入により測定セ
ンサー(S1)への影響度P1を検出すると、上限データB
及び下限データAと順次照合して許容範囲l1内であるか
を判定する。測定センサー(S2)への影響度P2を検出す
ると、上限データD及び下限データCと順次照合して許
容範囲l2内であるかを判定する。そして制御装置(2)
は影響度P2とP1との差を演算し、この差の値と上限デー
タF及び下限データEとを順次照合して許容範囲l3内で
あるかを判定する。次に制御装置(2)は影響度P1とP2
との和を演算し、この和の値と上限データH及び下限デ
ータEとを順次照合して許容範囲l4であるかを判定す
る。また制御装置(2)は測定センサー(S3)への影響
度P3を検出すると、上限データJ及び下限データIと順
次照合して許容範囲l5内であるかを判定する。そして制
御装置(2)は全ての照合で許容範囲l1・l2・l3・l4
l5内であることを判定するとこの投入硬貨を適正硬貨と
判別して適正信号Rを出力する。
Therefore, when the control device (2) detects the influence degree P 1 on the measurement sensor (S 1 ) by inserting a coin, the upper limit data B
And the lower limit data A are sequentially collated to determine whether it is within the allowable range l 1 . When the degree of influence P 2 on the measurement sensor (S 2 ) is detected, it is sequentially compared with the upper limit data D and the lower limit data C to determine whether it is within the allowable range l 2 . And control device (2)
Calculates the difference between the influence levels P 2 and P 1 and sequentially compares the difference value with the upper limit data F and the lower limit data E to determine whether the difference is within the allowable range l 3 . Next, the control device (2) controls the influence levels P 1 and P 2
And the upper limit data H and the lower limit data E are sequentially collated to determine whether the value is within the allowable range l 4 . When the control device (2) detects the degree of influence P 3 on the measurement sensor (S 3 ), the control device (2) sequentially checks the upper limit data J and the lower limit data I to determine whether or not it is within the allowable range l 5 . The control device (2) has an allowable range of l 1 , l 2 , l 3 , l 4 ,
When it is determined that it is a l within 5 outputs the proper signal R to determine the deposited coin and proper coins.

(ト) 発明の効果 本発明によると、硬貨通路を通過する検査硬貨に順次
発振磁界を印加するよう配置されて該検査硬貨の主に材
質に起因して変化する発振周波数の変化に基づく測定信
号を出力する第1測定センサー及び該検査硬貨の主に板
厚に起因して変化する発振周波数の変化に基づく測定信
号を出力する第2測定センサーの各測定信号の値の和及
び差の値にても判別を行うために、材質の測定時に誤差
として測定される板厚の影響や板厚の測定時に誤差とし
て測定される材質の影響は和の場合は増長されて許容範
囲を上回るようになり、差の場合は打ち消されるために
精度の高い硬貨判別を行うことができる。
(G) Effect of the Invention According to the present invention, the measurement signal based on the change of the oscillation frequency, which is arranged so as to sequentially apply the oscillating magnetic field to the inspection coin passing through the coin passage and changes mainly due to the material of the inspection coin. To the sum and difference values of the respective measurement signals of the first measurement sensor and the second measurement sensor that outputs the measurement signal based on the change of the oscillation frequency that mainly changes due to the plate thickness of the inspection coin. However, in order to make a distinction, the influence of the plate thickness, which is measured as an error when measuring the material, and the influence of the material, which is measured as an error when measuring the plate thickness, are increased in the case of sum and exceed the allowable range. In the case of a difference, the coins are canceled out, so that highly accurate coin discrimination can be performed.

【図面の簡単な説明】[Brief description of drawings]

第1図は本発明の実施例を説明するブロック図、第2図
は硬貨判別処理の説明図である。 (S1)(S2)(S3)……測定センサー、(1)……カウ
ンタ、(2)……制御装置、(11)(12)(13)……発
振器。
FIG. 1 is a block diagram illustrating an embodiment of the present invention, and FIG. 2 is an explanatory diagram of coin discrimination processing. (S 1 ) (S 2 ) (S 3 ) …… Measurement sensor, (1) …… Counter, (2) …… Control device, (11) (12) (13) …… Oscillator.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】硬貨通路と、該硬貨通路を通過する検査硬
貨に順次発振磁界を印加するよう配置されて該検査硬貨
の主に材質に起因して変化する発振周波数の変化に基づ
く測定信号を出力する第1測定センサー及び該検査硬貨
の主に板厚に起因して変化する発振周波数の変化に基づ
く測定信号を出力する第2測定センサーと、該測定セン
サー毎に予め設定されるそれぞれの上限値及び下限値か
ら成る第1照合データを記憶している第1照合データ記
憶手段と、前記各測定センサー毎の前記上限値の和未満
の値である第2上限値及び前記各測定センサー毎の前記
下限値の和を越える値である第2下限値から成る第2照
合データ記憶している第2照合データ記憶手段と、一方
の前記測定センサーの上限値から他方の前記測定センサ
ーの下限値を減算した値及び一方の前記測定センサーの
下限値から他方の前記測定センサーの上限値を減算した
値のうち大きい方の値未満の値である第3上限値及び小
さい方の値を超える値である第3下限値から成る第3照
合データを記憶している第3照合データ記憶手段と、検
査硬貨が前記硬貨通路を通過し前記各測定センサーによ
る測定信号の値がそれぞれ全て該当する前記第1照合デ
ータの上限値及び下限値との範囲内にあって、各測定信
号の和が前記第2照合データの第2上限値及び第2下限
値の範囲内にあって、且つ前記一方の測定センサーの測
定信号の値から前記他方の測定センサーの測定信号の値
を減算した値が前記第3照合データの上限値及び下限値
の範囲内にあると当該検査硬貨を適正と判別する判別手
段とを備えた硬貨判別装置。
1. A coin passage and a test signal passing through the coin passage are arranged so as to sequentially apply an oscillating magnetic field to a test signal, and a measurement signal based on a change in oscillation frequency mainly caused by a material of the test coin is transmitted. A first measurement sensor that outputs and a second measurement sensor that outputs a measurement signal based on a change in the oscillation frequency that changes mainly due to the plate thickness of the inspection coin, and an upper limit that is preset for each measurement sensor A first collation data storage unit that stores first collation data composed of a value and a lower limit value, a second upper limit value that is a value less than the sum of the upper limit values of the respective measurement sensors, and each of the measurement sensors. A second collation data storage means for storing second collation data composed of a second lower limit value which is a value exceeding the sum of the lower limit values, and an upper limit value of one of the measuring sensors to a lower limit value of the other measuring sensor. Subtraction The upper limit value of the other measurement sensor and the lower limit value of one of the measurement sensors, the third upper limit value that is less than the larger value and the value that exceeds the smaller value. Third collation data storage means for storing third collation data consisting of three lower limit values, and the first collation data in which inspection coins pass through the coin passage and the values of the measurement signals by the respective measurement sensors all correspond to each other. Within the range of the upper limit value and the lower limit value, the sum of the measurement signals is within the range of the second upper limit value and the second lower limit value of the second collation data, and the measurement of the one measurement sensor is performed. And a discriminating means for discriminating the inspection coin as proper when the value obtained by subtracting the value of the measurement signal of the other measurement sensor from the value of the signal is within the range of the upper limit value and the lower limit value of the third collation data. Coin discriminating device.
JP60162493A 1985-07-23 1985-07-23 Coin discriminator Expired - Lifetime JPH081669B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP60162493A JPH081669B2 (en) 1985-07-23 1985-07-23 Coin discriminator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP60162493A JPH081669B2 (en) 1985-07-23 1985-07-23 Coin discriminator

Publications (2)

Publication Number Publication Date
JPS6222194A JPS6222194A (en) 1987-01-30
JPH081669B2 true JPH081669B2 (en) 1996-01-10

Family

ID=15755665

Family Applications (1)

Application Number Title Priority Date Filing Date
JP60162493A Expired - Lifetime JPH081669B2 (en) 1985-07-23 1985-07-23 Coin discriminator

Country Status (1)

Country Link
JP (1) JPH081669B2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3363290B2 (en) * 1995-09-05 2003-01-08 グローリー工業株式会社 Coin identification device in coin processing machine
JP3363305B2 (en) * 1996-03-08 2003-01-08 グローリー工業株式会社 Coin identification device with temperature correction function in coin processing machine
EP1422493B1 (en) * 2001-08-27 2010-06-30 Takamisawa Cybernetics Co., Ltd. Device and method for identifying metal body

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55121590A (en) * 1979-03-12 1980-09-18 Matsushita Electric Ind Co Ltd Coin selector

Also Published As

Publication number Publication date
JPS6222194A (en) 1987-01-30

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