KR100321198B1 - Coin data setting method of coin selector - Google Patents

Abstract

The present invention relates to a coin data setting method of the coin selector, and in detail, when setting the coin data to determine whether or not to purify the coin and the type of coins extracted a plurality of data from one coin and the extracted for each coin The average of the data is calculated, the average data calculated for each coin is sorted, the upper and lower data are deleted, the average value of the remaining data is calculated, and the calculated data is used as the final data and stored again in different memory locations of the memory. It relates to a coin data setting method of the coin selector.

According to the coin sorting method of the coin selector according to the present invention, coins are inputted by a predetermined quantity according to the order set for each kind of gold, and the data of each coin is input. When passing, the data is acquired at a time point when the coin is completely overlapped between the coil sensors and before and after the time point, the average value is calculated and stored in the memory, and the average value of the stored data is calculated to obtain the final data. By setting and storing the set data separately in several different storage places, when the coin is put into the commodity sale, it detects the material and thickness of the put coin and coincides with the data stored in the memory. It is judged that it is purification when it is made. It can improve the reliability.

Description

Coin data setting method of coin selector

The present invention relates to a coin data setting method of the coin selector, and in detail, when setting the coin data to determine whether or not to purify the coin and the type of coins extracted a plurality of data from one coin and the extracted for each coin The average of the data is calculated, the average data calculated for each coin is sorted, the upper and lower data are deleted, the average value of the remaining data is calculated, and the calculated data is used as the final data and stored again in different memory locations of the memory. It relates to a coin data setting method of the coin selector.

The coin selector detects the coin input by the coil sensor when the coin is input, and determines whether the coin is purified and the gold type. This can be determined by comparing the coin data previously stored in the memory with the sensed data of the coin.

However, if the data stored in the memory is lost or a new standard coin is in circulation, you need to set the coin data anew.

Hereinafter, a conventional coin setting method is as follows.

1 is a control flowchart of a coin data setting method of a conventional coin selector.

2 is an explanatory diagram of coin data extraction timing of a conventional coin selector.

In the system initialization state (S1) to turn on the coin setting switch (S2). When the setting switch is turned on, the coin is inserted (S3).

Injected coins pass between the sensors. When a coin passes between the sensors, the output of the sensor changes according to the thickness, size, and material of the coin.

The output of the sensor is input to the controller via the oscillator. The signal input to the controller is converted into digital data by an analog-to-digital converter (ADC) built in the controller.

When the signal is converted into digital data by the analog / digital converter, the control unit extracts the data at the time point T (A of FIG. 2) from the digital data about the input hardening and stores the data in the memory (Electrically Erasable and Programmable ROM, EEPROM). (S4).

After storing the data in the memory, the control unit determines whether the number of coins put is a certain number (S5). Usually 20 coins are put in.

If it is determined that all 20 coins have been input, the control unit receives another coin of the same kind and repeats the above-described operation. This operation is performed by receiving 20 coins for each kind.

In operation S5, when all 20 data are stored in the memory, the controller calculates an average of the data stored in the memory. The control unit stores the calculated average in the memory (S7) and utilizes the reference data of the coin.

However, in the above-described conventional coin setting method, the control unit sets the data values of all coins put in the setting as reference data and stores them in the memory. Thus, the distribution range of the reference data becomes wider.

If the distribution range of the reference data becomes wider, there is a high possibility that the user may misjudge cleanup even if the user inputs a counterfeit to purchase a product.

In addition, since only one data is stored in each type of memory, it is highly likely that the stored coin is purged or miscalculated if the stored data is lost or the memory is damaged. Thus, there is a problem that the reliability of the device is low.

The present invention is to solve the above problems, when setting the coin data to determine whether or not to purify the coins and the type of coins to extract a plurality of data from one coin and calculate the average of the extracted data for each coin The coin data of the coin selector sorts the average data calculated for each coin, deletes the upper and lower data, calculates the average value of the remaining data, and stores the calculated data as final data and stores them in different memory locations. To provide a setting method.

1 is a control flowchart of a coin data setting method of a conventional coin selector.

2 is an explanatory diagram of coin data extraction timing of a conventional coin selector.

3 is a block diagram of the sensor unit of the coin selector according to the present invention.

4 is a control flowchart of a coin data setting method of the coin selector according to the present invention.

5 is an explanatory diagram of the coin data extraction timing of the coin selector according to the present invention.

6 is a control flowchart of a coin selector general operation according to the present invention.

Explanation of symbols on the main parts of the drawings

10: setting switch 21, 22: coil sensor

31, 32: oscillator 40: constant voltage circuit

50: control unit 60: memory

In the present invention for achieving the above object, in the coin data setting method of the coin selector for setting the coin data for each gold type, each coin input step, the input step of the coin input step by a predetermined amount according to the order set for each gold type Data extraction step for detecting the amount of change of the magnetic material according to the material and thickness of the coin by sensing the coin, and extracting a plurality of data for each coin from the data of each coin acquired in the data acquisition step In the first storage step of calculating and storing the average value of the plurality of data extracted for each coin in the data storage step of calculating the average value of the data after the first storage step to set the final data, the data set in the data setting step is different And a second storing step of storing a plurality of times in a storage place. It is a way.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

3 is a block diagram of the sensor unit of the coin selector according to the present invention.

4 is a control flowchart of a coin data setting method of the coin selector according to the present invention.

5 is an explanatory diagram of the coin data extraction timing of the coin selector according to the present invention.

6 is a control flowchart of a coin selector general operation according to the present invention.

Coin separator according to the invention, the setting switch 10 for generating a contracted signal for making a coin is connected to the controller 50. Coil sensors 21 and 22 installed on both sides of the coin passage of the coin selector to detect the amount of change of the magnet when the coin passes, and to output a signal according to the amount of change detected by the coil sensor 21, 22 First and second oscillators 31 and 32 (hereinafter oscillators) are connected to the control unit 50.

In addition, the constant voltage circuit unit 40 for supplying stabilized power is connected to the oscillators 31 and 32 to supply a constant voltage.

A memory 60 for storing data about coins is connected to the controller 50.

Looking at the coin data setting method according to the invention as follows.

Turns on the setting switch 10 in the system initialization state (S10) (S20). The coin is put in the state (for example, 500 won, 100 won, 50 won, 10 won in order of high-volume bills) (S30).

The injected coins move along the coin passages inside the coin selector and pass between the coil sensors 21 and 22.

The coil sensors 21 and 22 always have a certain amount of current flowing through the oscillators 31 and 32. The coil sensors 21 and 22 generate a constant frequency by the current. At this time, when a coin passes between the coil sensors 21 and 22, a change in magnetic flux occurs in the coil sensors 21 and 22 by the coin. The change in the magnetic flux is increased from the time when the coin starts to pass between the coil sensors 21 and 22, and the change amount becomes maximum when the coin is completely overlapped between the coil sensors 21 and 22. Then, when the coin starts to move out of the coil sensors 21 and 22, the amount of change becomes smaller and smaller, and when the coin leaves the coil sensors 21 and 22, there is almost no change in magnetic amount in the coil sensors 21 and 22. . The amount of magnetic change varies depending on the material and thickness of the coin.

The amount of magnetic change detected by the coil sensors 21 and 22 is input to the oscillators 31 and 32. The outputs of the coil sensors 21 and 22 input to the oscillators 31 and 32 are converted into pulse data signals by the oscillators 31 and 32 and then input to the controller 50. When the signals output from the oscillators 31 and 32 are input to the controller 50, the controller 50 extracts three data from the data signals as follows.

The controller 50 extracts three pieces of data from the time point T and the ± t point of time T from all the data (S40). At this time, the time T is the time when the coin is completely overlapped between the coil sensors 21 and 22, and since the data at this time is the most valid data, the controller 50 extracts the data at this time. The time T ± Δt is a time before and after the coin when the coin is completely overlapped between the coil sensors 21 and 22, and the controller 50 is used to suppress the change of data due to incorrect coin input. Extracts data of time T ± Δt.

When three pieces of data (data at time T (data of FIG. 5) and data at time T ± Δt (B of FIG. 5, C)) are extracted, the controller 50 calculates an average of the data (S50) and stores the memory ( 60) (S60).

After storing the data in the memory 60, the controller 50 determines whether the number of the data is a set number (S70). At this time, the number set in the present embodiment is 20 pieces.

If it is determined in S70 that the number of data stored in the memory 60 is not 20, the controller 50 repeats the above-described process.

However, if it is determined in S70 that the number stored in the memory 60 is 20, the controller 50 sorts the 20 data stored in the memory 60. After sorting the 20 data, the controller 50 deletes 4 upper data and 4 lower data from the sorted data in order to ensure the accuracy of the data (S80). Then, the controller 50 calculates an average value of the remaining 12 data (S90) and stores the final data in the memory 60.

At this time, when storing the final data in the memory 60, the controller 50 stores the final data in three storage places in the memory 60 (S100). That is, the same data is stored in three different places of the memory 60.

After storing the final data of the coin put in the memory 60, one kind of coin data setting is completed. Then, the controller 50 repeats the above-described process to set another type of coin data.

Table 1 shows the data obtained by putting 20 coins of one kind and the final data of the coin. A, B, and C are three pieces of data obtained at the time point T and the point of time T ± Δt by inputting one coin, and D is an average value of A, B, and C. X ₁ is the average value of the remaining data after sorting the data from D ₁ to D ₂₀ and deleting the upper and lower data. Coin data for other gold species is calculated in the same way.

Coin data table A B C D One A ₁ B ₁ C ₁ D ₁ 2 A ₂ B ₁ C ₁ D ₁ 3 A ₃ B ₁ C ₁ D ₁ 4 A ₄ B ₁ C ₁ D ₁ 5 A ₅ B ₁ C ₁ D ₁ : : : : : 17 A ₁₇ B ₁₇ C ₁₇ D ₁₇ 18 A ₁₈ B ₁₈ C ₁₈ D ₁₈ 19 A ₁₉ B ₁₉ C ₁₉ D ₁₉ 20 A ₂₀ B ₂₀ C ₂₀ D ₂₀ Final Coin Data X ₁

After all kinds of coin data settings are completed, the process of judging coins put into the commodity sale is as follows.

In the standby state (S110), the controller 50 determines whether a coin is input (S120). When a coin is injected, the coin is moved along the coin path. When the coin moves along the coin passage, the coin passes between the coil sensors 21 and 22. When the coin passes between the coil sensors 21 and 22, the coil sensors 21 and 22 detect a change in the magnetic field and output a signal accordingly.

The signals output from the coil sensors 21 and 22 are converted into pulse data signals by the oscillators 31 and 32 and then input to the controller 50. The controller 50 extracts data at the time point T of the input data signal (S130). Then, the extracted data is compared with the data stored in the memory 60 to determine whether or not to purify the coin.

The controller 50 loads the data stored in the memory 60 and compares the data with the input coins (S140). At this time, the controller 50 compares the three data stored in the memory 60 to determine whether two or more data stored in the memory 60 match the extracted data (S150).

If it is determined in step S150 that two or more pieces of data identical to data extracted from the three data stored in the memory 60 exist, the control unit 50 determines that the coin is purged ( S160).

However, in the determination (S150), if there is no data extracted from the three data stored in the memory 60 and two or more same data, the controller 50 determines that the coin inserted is counterfeit (S151).

Thus, each coin type stores the coin data in three different memory locations of the memory 60, and outputs incorrect coin data from the memory 60 because the stored data is lost or the memory 60 is damaged. Even if it is possible to prevent the controller 50 from misrecognizing the inserted coin.

As described in detail above, by coin selection method of coin selector according to the present invention, coins are inputted by a predetermined quantity according to the order set for each gold type, data of each coin is input, and each data is obtained from each coin data. When coins pass through the coil sensor for each coin, data are obtained at the time when the coin is completely overlapped between the coil sensors and at a predetermined time interval before and after the time, calculate the average value and store it in the memory. By calculating the average value and setting the final data, the set data is stored separately in several different storage places, and when the coin is sold when the product is sold, the data obtained by detecting the material and thickness of the coin is stored in the memory. Purification of the coin entered as it is determined to be purging when two or more data match It is possible to improve the constant-capacity can be increased the reliability of the device.

Claims (3)

In the coin data setting method of the coin selector for setting the coin type coin data, A coin input step of inserting coins by a predetermined quantity according to the order set for each gold type, A data acquisition step of sensing the amount of change of the coin according to the material and thickness of the coin by sensing each coin injected in the input step and acquiring data; A data extraction step of extracting a plurality of data for each coin from the data of each coin acquired in the data acquisition step, A first storage step of calculating and storing an average value of a plurality of data extracted for each coin in the extraction step; A data setting step of setting final data by calculating an average value of the data after the first storing step; And a second storage step of storing the data set in the data setting step a plurality of times in different storage places. The method of claim 1, In the data extraction step, when the coin passes through the coil sensor among the data acquired in the data acquisition step, data is acquired at a time point before the coin is completely overlapped between the coil sensors and at a predetermined time interval before and after the time point. Coin data setting method of coin selector. The method of claim 1, In the data setting step, the coin data setting method of the coin selector characterized in that each data stored in the first storage step is sorted to delete one or more upper and lower data and to calculate the average of the remaining data to set the final data. .