WO1992002002A1 - System for measuring speed of carrying magnetic card - Google Patents

Abstract

A device (20) for measuring the speed at which a magnetic card (10) is carried. Magnetic recording parts (12) arranged in a stripe-form in a carrying direction are provided on the magnetic card (10). The device (20) comprises a magnetic head (21) for reading the magnetic recording parts (12) by scanning, a peak detecting part (23) which detects the peaks of the signal produced by reading by the magnetic head (21) and outputs pulse signals according to the intervals between the peaks, a counter (24) for measuring the time intervals between the pulse signals, an arithmetic processing part (26) which calculates the speed of carrying the magnetic card (10) from the intervals between the magnetic recording parts (12) and the time intervals between the pulse signals, and a displaying part (27) for displaying the result of the calculation by the arithmetic processing part (26). Therefore, there is an effect that the speed of carrying the magnetic card (10) can be measured accurately.

Description

 Description Magnetic card transport speed measurement system [Technical field]

 The present invention relates to a transfer speed measuring system for measuring a transfer speed of a magnetic card of a magnetic force transfer device provided in a magnetic card reader / writer device.

 [Background Art]

 When a reader / writer performs processing such as reading / writing data or punching a magnetic force on the magnetic force, the position of the magnetic card relative to the magnetic head and the pin for punching the hole is required. Needs to be detected.

 Conventionally, as the position detection means of the magnetic card, the position of the magnetic card is detected by calculating the transport distance of the magnetic card from the rotation speed and rotation angle of the drive motor for transporting the magnetic card. Tatsuko was being done.

However, the above-mentioned magnetic card position detecting means does not directly measure the moving distance of the magnetic card, and thus the belt slip and gear rattle in the magnetic card transport system. As a result, an error (hereinafter, referred to as a transport error) may occur between the detected value and the actual position of the magnetic card. Therefore, is the transport error when transporting the magnetic card of the reader / writer device within the allowable range for data processing of the magnetic card? No ¾ It became necessary to measure. ·

 Regarding the operation error caused by the transport error, it was not possible to inspect where the magnetic force was located and the force at which the transport error was likely to occur, so no appropriate measures could be taken.

 SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned conventional problems, to accurately measure the magnetic card transport speed of a reader / writer device, and to detect the magnitude of a transport error and a position where the transport error occurs. The purpose of this system is to provide a transport speed measurement system.

 [Disclosure of the Invention]

According to a first aspect of the present invention, there is provided a magnetic card comprising: a magnetic card; and a transport speed measuring device that measures a transport speed of a transport device that transports the magnetic card. A magnetic recording portion arranged in a stripe along the transport direction, the transport speed measuring device scans a magnetic recording portion of the magnetic card and reads the magnetic recording portion; A peak detector for detecting a peak of a read signal by a head and outputting a pulse signal based on the peak interval, a counter for counting a time interval of the pulse signal, and magnetic recording of the magnetic card An arithmetic processing unit for calculating the magnetic card transport speed based on the interval between the units and the time interval of the pulse signal; and a display unit for displaying the calculation result by the arithmetic processing unit. Accurately measures the transport speed of Trough that can be Has the effect. .

 The invention according to the second aspect is the invention according to the first aspect, wherein the arithmetic processing unit of the transport speed measuring device outputs the pulses output at the same time interval from the transfer speed of the magnetic card stored in the memory. By calculating the number of signals and determining the speed distribution of the magnetic card transport speed and displaying it on the display unit, it is possible to determine the stability of the transport speed of the transport device. It is possible to easily inspect whether the error is within an allowable range in the data processing, and to easily detect at which position of the magnetic card a transport error is likely to occur.

 [Brief description of drawings]

 FIG. 1 is a partially cutaway perspective view showing a magnetic card used in an embodiment of the transport speed measuring system of the present invention,

 FIG. 2 is a block diagram showing a transport speed measuring device used in this embodiment,

 FIGS. 3 (a) and 3 (b) are charts showing waveforms of a read signal, a peak detection signal, and a pulse signal by the magnetic head of FIG. 2,

 FIG. 4 is a chart showing the velocity distribution calculated by the arithmetic processing unit.

 FIG. 5 is a timing chart showing a pulse signal (Γ-shape) output from the peak detector.

 [Best Mode for Carrying Out the Invention]

Hereinafter, embodiments of the present invention will be described with reference to the drawings. You. .

 FIG. 1 is a perspective view showing a magnetic card used in a transport speed measuring system according to one embodiment of the present invention.

 The magnetic card 10 according to the present embodiment includes a substrate 11, a magnetic recording unit 12 arranged in stripes at regular intervals along the transport direction of the substrate 11, and a protection covering the magnetic recording unit 12. It is composed of layers 13.

 As the magnetic card 10, a magnetic card having a normal magnetic layer for data recording may be used. In this case, the magnetic recording section 12 is formed using a magnetic material having a different coercive force from the magnetic layer. Will be done.

 FIG. 2 is a block diagram showing a transport speed measuring device used in the present embodiment.

The transport speed measuring device 20 according to the present embodiment scans the magnetic recording unit 12 of the magnetic card 10 to read the magnetic head 21, and reads a read signal from the magnetic head 21. An amplifier 22 for amplification, a peak detection unit 23 for detecting a peak of the amplified read signal and outputting a pulse signal based on the peak interval, and a pulse signal output from the peak detection unit 23 The counter 24 for counting the time interval, the memory 25 for storing the total value of the counter 24, the interval and the memory 2 for the magnetic recording unit 12 of the magnetic card 10 The arithmetic processing unit 26 calculates the transport speed of the magnetic card 10 from the count value of the counter 24 stored in 5 and detects the speed distribution, and the arithmetic processing unit 26 And a display unit 27 for displaying the calculation result.

 The peak detector 23 detects a peak of a read signal by the source 21 and outputs a pulse signal to the magnetism shown in FIG. 3A. Fig. 3 (b) shows the peak detection waveform and the output waveform of the pulse signal by the peak detection unit 23. Since the magnetic recording units 12 are arranged at regular intervals, pulse signals are output at regular intervals as shown in the figure.

 The counter 24 resets and counts each time the pulse signal shown in FIG. 3 (b) rises or falls. By this, the time interval between pulse signals, that is, the time during which the magnetic card 10 moves by one pitch of the magnetic recording unit 12 is counted.

 The memory 25 stores and stores the count value of the counter 24 for each pulse signal.

 The arithmetic processing unit 26 classifies the count value of the counter 24 stored in the memory 25 into the same numerical value, and calculates the number of pulse signals output at the same time interval. Also, based on the count value stored in the memory 25 and the interval between the magnetic recording units 12, the transfer speed of the magnetic force 10 is moved by one pitch of the magnetic recording unit 12. Calculate separately for each amount. Then, a speed distribution of the transport speed of the magnetic card 10 as shown in FIG. 4 is obtained from the above two calculation results.

Thereby, the stability of the magnetic card transfer speed of the transfer device can be obtained. That is, as shown in Fig. The sharper the curve, the more stable the transport speed.

 Further, as described above, the arithmetic processing unit 26 calculates the transport speed of the magnetic card 10 for each movement amount of one pitch of the magnetic recording unit 12, which may cause an operation error. When such a large transport error occurs, the place where the transport error has occurred can be detected. That is, when the normal reading is performed, the intervals between the pulse signals are equal as shown in FIG. 5, but when a transport error occurs, the intervals between the pulse signals are different. Therefore, by calculating the transport speed for each pulse signal and continuously indicating the transport speed, it is possible to detect at which position of the magnetic card 10 a transport error has occurred.

 The average speed, the maximum speed, and the minimum speed of the transport device can be calculated from the calculation result of the arithmetic processing unit 26 as necessary.

 In this embodiment, the pulse signal is output every time the read signal reaches the peak once, but the pulse signal may be output every several peaks.

 In addition, the output of the pulse signal from the peak detection unit 23 is not matched with the peak of the read signal, and a reference is set between the plus peak and the minus peak, and the pulse signal is transmitted in accordance with this. You may do so.

Claims

Scope of request

(1) a magnetic card, and a transport speed measuring device that measures a transport speed of a transport device that transports the magnetic card,

 The above-mentioned magnetic card is provided with a magnetic recording portion arranged in stripes along the transport direction,

 The conveyance speed measuring device detects a peak of a read signal from the magnetic head, a source, and the magnetic field for scanning by reading a magnetic recording portion of the magnetic card, and detects a peak of the read signal from the magnetic source based on the peak interval. A peak detector that outputs a pulse signal, a counter that counts the time interval of the pulse signal, and a transport of the magnetic card based on the interval of the magnetic recording section of the magnetic card and the time interval of the pulse signal. A magnetic card transport speed measuring system, comprising: an arithmetic processing unit for calculating a speed; and a display unit for displaying a calculation result by the arithmetic processing unit.

 (2) The arithmetic processing unit of the above-mentioned transfer speed measuring device calculates the number of pulse signals output at the same time interval from the transfer speed data of the magnetic card stored in the memory, and transfers the magnetic card. 2. The magnetic force transporting speed measuring system according to claim 1, wherein a speed distribution of the speed is obtained and displayed on the display unit.