KR890000584B1 - Machines for issuing tickets - Google Patents

Abstract

A mark reader (7) reads a check amount printed on the check and a photo-sensor (6) detects a check hole (11) on the check for determining the check position. These data are provided to a CPU (1) for managing the printing process. The address output signal of the CPU is stored temporarily in an address latch (2) and provided to a decoder (4). The decoder provides a control signal and a buffer (3) storing the data from the CPU temporarily provides the data signal to an I/O device (5) to control the printer mechanism (12-15).

Description

Printing control device of check amount

1 is a schematic block diagram of the present invention.

2 shows the main program of the check processor.

3 is a flow chart showing a program for parameter control in accordance with the present invention.

4 is a flowchart showing a subprogram for factor control according to the present invention.

* Explanation of symbols for main parts of the drawings

1: CPU 2: address latch

3: buffer 4: decody

5: input / output device 6: optical sensor

7: MICR decoder 8: 1st step motor driver

9: 2nd step motor driver 10: Relay driver

The present invention relates to a check amount printing apparatus applied to a check processor, and more particularly, to a control device which is installed in the check processor at one time and automatically prints the check amount.

In the conventional check processor, it has MICR factor, read function, sort function, endorse function, etc., but it does not have a print function for the check amount. In other words, in the past, all checks were collected from the check processor without printing only the check amount to print the check amount, and the check amount of another device is used to check the check amount of the incomplete bond to the check amount according to the customer's request. It was put in the printing apparatus and the printing amount of the check could only be printed by controlling the operator to print the number corresponding to the check amount for this apparatus.

Accordingly, the present invention adds a check amount printing function to a CPU of an electric circuit used in a conventional check processor, while providing a check processor with a check amount printing function added thereto. Since the mechanical check factor device integrated into the conventional check processor is efficiently controlled, all the conventional functions related to the check processor are integrated to simplify the office equipment.

To this end, according to the present invention, the check amount printing device is installed in the check processing unit integrally under the control of the check amount factor control apparatus according to the present invention. Count data for the check amount required for the check, calculation of the check position according to the count data, calculation of the inter-printing position of the check amount, and a check mark of the check amount, a unit mark of the check amount and a closing mark and the number of checks. The information is managed, and the input / output device decodes the check amount from the MICR decoder and supplies it to the CPU so that the CPU calculates the amount of money, and controls the check amount printing device and checks the check hole by the optical sensor. The CPU checks the position of the check by the CPU, so that the check amount printing device is driven, and the address latch is executed. The address data signals are output to the decoder while the address output data of the CPU is temporarily stored in accordance with the control signals of the CPU, and the decoder fixes these address data signals to a specific code to perform communication between the CPU and the input / output device. The control signal CS to be controlled is output to the input / output device, and the buffer is configured to temporarily store the data of the CPU and output the data to the input / output device according to the CPU read command.

The present invention will be described in detail with reference to the drawings as follows. 1 is an overall block diagram showing an embodiment of the present invention. Figure 2 relates to the main program, and Figures 3 and 4 relate to the subprogram according to the invention.

2 is a view showing the functions of the conventional check processor and the present invention, in which step 20 reads instructions from the host as in the conventional check processor, and in step 21 The content is judged, and then the function according to the determination result, that is, MICR factor step 22, classification step 23, read step 27, endorsement step 25, payment step 26 and check amount printing step 27 ). Here, according to the present invention, it can be seen that the check amount factor step 27 is added, which will be described in detail later. Then, when each step is completed, the step 28 outputs a job completion signal to the host CPU. As can be seen from this, the steps 22 to 27 can be alternately repeated.

Meanwhile, the present invention is to perform the check amount printing step 27, and can be realized by installing the hardware as shown in FIG. 1 to print the check amount. Of course, the present invention uses a conventional check processor, and the same device as the conventional apparatus may be installed in the check processor. An apparatus using two step motors 12 and 13 that can easily control check positions. As a result, a numerical roller (not shown) of a value printing factor is provided on the supply step motor 13, a check hole 11 is drilled in the lower portion of the position control motor 12, and a check hole in the lower portion of the position control motor 12. (11) is perforated, and a roller (not shown) is provided to allow check movement. This check hole 11 is detected by the optical sensor 6. Also, adjacent to the number roller, there is an ink roller (not shown) on one side and a check amount printing device (not shown) having a structure in which a hammer mechanism (not shown) driven by a solenoid is installed on the other side. Accordingly, in the present invention, in order to control the check amount printing device, the CPU 1 first supplies a control signal from its read terminal RD to the read terminal RD of the input / output device 5 to receive the check signal from the MICR decoder 7. The factor is read out on the table (step 28), and the read data information is inputted to a terminal (4-bit terminal) of the input / output device 5. This data signal is sequentially stored in the input / output device 5 in turn, then output from its data bus terminal and input to the buffer 3 via the bidirectional data bus line 16. The buffer 3 amplifies these signals and causes them to be input to the CPU 1 via the data bus 17. The CPU 1 calculates these signals and issues a control signal from its write terminal WR to position the check at the check value printing inch, inputs it to the write terminal WR of the input / output device 5, and then its output. Since the drive command signal for driving the position control stepping motor is generated from the terminal B, the first step motor driver 9 is driven to control the position control step motor 12, so that the check moves to the left plate. (Step 29). The CPU 1 then determines whether or not the check is positioned on the seat (in step 30, the check hole 11 is used to output the hall detection output signal by the optical sensor 6 to the input terminal A of the input / output device 5). And check whether the check is in the correct position of the seat or not, accordingly the CPU 1 checks the check hole detection signal of the optical sensor in step 31 according to whether the check is in the correct position of the seat. If it is detected in step 311 and the check hole is detected in step 312, and if it is not detected, in step 312 the position control step motor is moved by one step and the check hole 11 by the optical sensor 6 is again moved. When a checkhole is detected, a check mark is indicated in the check amount column (step 32), the input data are divided by a thousand units (step 33), and the position for the closing mark (step 34) is calculated. Number position of the check and the solenoid ham to print the check The there is a synchronous operation function of determining the driving time of the call in the step (35), CPU (1) is the position calculation of each seat plate corresponding to the data in step (351), A = {A 1, A 2, A ₃ ,…, A _n }, the number of data to be output at step 352 is calculated (B = N), and at step 353 the output data periodic operation (C = T / N) of the solenoid hammer is performed. Next, the step of controlling the position by moving the check in step 354, the motor drive, the driving of the supply step motor which controls to supply the check to the check value position in step 355, and the solenoid hammer in step 356. Generate a control output for the check amount, and then in step 357 the operation according to the factor of the check amount is counted, i.e. the count (i + 1) for the check position i and the count (N) for the check count number (N). = N-1) Next, in step 358 it is calculated whether the seat is in position, and in step 359, the amount factor is added. If you add money amounting, you will run N number of loops 361, and if you don't need moneying up, checks will be ejected in step 36. Next step 361 is run. If no money factor is needed, a check is ejected in step 360. Next, in step 36, it is determined whether there is a repeat request of the check factor, and if there is a check to be paid, the number of checks is checked in step 37, and the check is loaded on the seat in step 38. After repeating the process of step 21 in step 39, step 40 determines the same amount factor as the previous check amount, and if so, moves the check to the check amount factor position in step 41, and step The synchronous operation function (3) is called, and if it is not the same as the previous check amount, the process returns to step 29 to move the check to the amount printing position. To this end, the present invention provides the data of the check movement position poor output of the step 354 from the CPU 1, the data output of the left plate moving step motor for the check amount printing of the step 355 and the data output of the solenoid hammer. The buffer 3 is supplied to the buffer 3 via the bus 17, and the buffer 3 amplifies and temporarily stores these data signals, and receives the data signals as soon as the read signal of the CPU 1 is received at its DIR terminal. Is supplied to the input / output device 5 via), and the input / output device 5 temporarily stores these signals. On the other hand, the CPU 1 supplies the address signal corresponding to the data output to the address latch 2 via the address bus 18. Since the address latch 2 receives the enable signal from the output terminal ALE of the CPU 1 from its terminal LE, the address output of the CPU 1 is temporarily stored. The address latch 2 then outputs an address signal to the decoder 4, and the decoder 4 fixes these signals to a specific code, and as a drive control signal of the input / output device 5, its terminal ALE. ) Output to the terminal CS of the input device 5, so that the data output of the CPU 1 stored in the input / output device 5 is generated at the output terminals B, B 'and (B "). And a first step motor driver 8 for controlling the position control step motor 12 of the check, and a supply step motor 13 for controlling the supply step motor 13 for moving the seat plate at the position of the money amount number of the check. Since the step motor driver B of 2 and the solenoid 5 for driving the printing hammer and the relay drivers 10 for driving the relay 14 are individually applied, the check amount is automatically printed.

Claims (1)

In order to control a check processor equipped with a check amount printing device, the CPU of the check processor calculates and prints the position of the check according to the check amount printing, moves the seat of the check, and the operation period of the printing hammer of the check amount. In the printing control apparatus for a check amount for printing the amount of money, the CPU reads the check amount from the MKR decoder, stores a check amount printing program, and detects the check hole by the optical sensor in the seat position position according to its output. Call the synchronous control function to control the position of the seat according to the check amount and then control the control data of the check movement step motor, the control data of the seat movement step motor, and the control data of the driving cycle of the solenoid hammer through the buffer. Supplies an input / output device and simultaneously receives an address signal corresponding to the control data. After the memory is temporarily stored in the dress latch, it is supplied to the decoder so that the decoder outputs the enable signal as a control signal of the input / output device. Therefore, the check amount is automatically printed because the input / output device outputs the data signal of the CPU. A printing controlling device for a check amount.

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