JP4719353B2 - Magnetic card reader - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for preventing data on a magnetic card from being illegally obtained or using the card illegally in a magnetic card reader for reading data magnetically recorded on a magnetic card.
[0002]
[Prior art]
When the magnetic card reader for reading data on the magnetic card is small and requires power saving, the guide groove 12 provided in the housing 11 as in the magnetic card reader 10 shown in FIG. A structure in which data is read from the magnetic card 1 that is manually slid along the line is used.
[0003]
In such a magnetic card reader 10, as shown in FIG. 9, a magnetic recording band (not shown) of the magnetic card 1 that slides with the long side edge in contact with the bottom 12 a of the guide groove 12 is provided. The magnetic head 13 is supported at a passing height position so that the head surface protrudes into the guide groove 12, and a signal corresponding to the magnetic change of the magnetic recording band of the magnetic card 1 is output from the magnetic head 13. This signal is input to the demodulation circuit 14.
[0004]
The demodulating circuit 14 demodulates and outputs the card data magnetically recorded on the magnetic card 1 based on the signal output from the magnetic head 13.
[0005]
The data of the magnetic card 1 demodulated by the demodulation circuit 14 is sent to another device such as a terminal through an interface (not shown).
[0006]
[Problems to be solved by the invention]
However, in the conventional magnetic card reader 10 configured as described above, there is a risk that the card data of the magnetic card 1 may be illegally acquired by unauthorized access to the output line of the magnetic head 13 or the output line of the demodulation circuit 14. is there.
[0007]
Further, there is a possibility that an unauthorized card created by writing the illegally acquired card data to another magnetic card is used.
[0008]
An object of the present invention is to solve this problem and provide a magnetic card reader capable of preventing card data from being illegally obtained or using an illegal card.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a magnetic card reader according to claim 1 of the present invention comprises:
And a width slightly larger than the thickness of the magnetic card on one side of the casing, and a distance from the edge of the long side closer to the magnetic recording band of the magnetic card to the magnetic recording band, A guide groove continuously formed from one end of the housing to the other end at a depth smaller than the distance to the character string displayed by the embossing on the surface, and the length of the guide groove on the bottom surface of the guide groove by manual operation. A magnetic head provided at a position in contact with a magnetic recording band of a magnetic card that slides along the guide groove in a state in which the edge of the side is in contact, and the card data magnetically recorded on the magnetic card is In a magnetic card reader that reads using a magnetic head,
A demodulating means provided in a case of the magnetic head for demodulating the card data in response to an output signal of the magnetic head body ;
Before and inside the accommodation position of Kikatamitai, and the guide grooves predetermined position where the string facing the to surface displayed and by embossing the magnetic card slides the guide groove at the side of the one side is movably supported between, said in parallel with reading of the card data by the magnetic head in a state of being advanced to a predetermined position, embossing characters sensor for detecting the image data of the character string of the magnetic card,
A card sensor for detecting a period during which at least the character string of the magnetic card slidingly moving in the guide groove crosses the predetermined position;
The embossed character sensor is advanced to the predetermined position during a period in which the character string of the magnetic card is detected by the card sensor to cross the predetermined position, and the embossed character sensor is moved out of the period. Sensor position varying means for retracting from the predetermined position and holding in the accommodation position ;
Based on the image data detected by the embossing character sensor, character recognition means for obtaining a character data string corresponding to the character string displayed in the unevenness by the embossing;
And determining means for determining whether or not the data string in a predetermined bit range of the demodulated card data matches the character data string obtained by the character recognition means.
[0010]
A magnetic card reader according to claim 2 of the present invention is the magnetic card reader according to claim 1,
The card sensor is constituted by a cam plate that is pushed and rotated by a tip of a magnetic card that slides in the guide groove,
The sensor position varying means is constituted by a rotating lever having one end abutted on the cam plate and the other end engaged with the embossed character sensor, and according to a change in the angle of the cam plate, The embossed character sensor is moved from the accommodation position to the predetermined position.
A magnetic card reader according to claim 3 of the present invention is the magnetic card reader according to claim 1,
The card sensor is configured to detect a magnetic card slidingly moving in the guide groove by an optical sensor or a micro switch,
The sensor position varying means uses a motor or a plunger as a drive source and moves the embossed character sensor from the accommodation position to the predetermined position based on a detection signal of the card sensor.
A magnetic card reader according to claim 4 of the present invention is the magnetic card reader according to any one of claims 1 to 3,
An informing means for informing the judgment result of the judging means is provided.
Moreover, the magnetic card reader of Claim 5 of this invention is a magnetic card reader in any one of Claims 1-4,
An encryption unit provided in a case of the magnetic head and encrypting the card data demodulated by the demodulation unit and outputting the encrypted card data to the outside of the case;
And decrypting means for decrypting the card data encrypted by the encrypting means and outputted to the outside of the case of the magnetic head, and applying the decrypted data to the determining means.
A magnetic card reader according to claim 6 of the present invention is the magnetic card reader according to claim 5,
At least the decoding means and the judging means are constituted by a single processor integrated into one chip.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows the appearance of a magnetic card reader 20 embodying the present invention, and FIGS. 2 to 5 show the structure of the essential parts inside.
[0012]
As shown in FIG. 1, the housing 21 of the magnetic card reader 20 is provided with a guide groove 22 for sliding the magnetic card 1.
[0013]
As shown in FIG. 2, the guide groove 22 is a guide plate erected on the bottom plate 23 so as to face the upper surface of the bottom plate 23 in parallel with a gap slightly larger than the thickness of the magnetic card 1. The depth of the guide groove 22 is larger than the distance from the long side edge of the magnetic card 1 near the magnetic recording band to the magnetic recording band, and the length near the magnetic recording band. The distance is set so as to be smaller than the distance from the edge of the side to the character string displayed as unevenness on the surface of the magnetic card 1 by embossing.
[0014]
One of the guide plates 25 (which may be both guide plates 24 and 25) forming the guide groove 22 has a magnetic head at a height position where the magnetic recording band of the magnetic card 1 slidingly moving through the guide groove 22 passes. 30 is supported so that the head surface protrudes into the guide groove 22.
[0015]
In addition, in the case 30a of the magnetic head 30, a demodulating circuit 71 and an encryption circuit 72 are housed in addition to the head main body for detecting a change in magnetism, as will be described later. The gap is filled with synthetic resin.
[0016]
Further, an indicator 35 for displaying whether or not the magnetic card 1 slidably moved in the guide groove 22 is usable is provided on the upper surface side of the housing 21, and the guide groove on the upper surface side of the housing 21 is provided. A rectangular guide hole 36 continues in the vertical direction in the vicinity of 22 and at a position facing the surface on which the character string displayed by the embossing of the magnetic card 1 slidingly moving in the guide groove 22 is provided. It is provided to do.
[0017]
As shown in FIGS. 2 and 3, the guide holes 36 are opposed to each other and a pair of guide plates 37 a and 37 b extending downward in parallel with the guide plate 24, and opposed to each other and orthogonal to the guide plate 24. Thus, a pair of guide plates 37c and 37d extending downward from the guide plates 37a and 37b are formed.
[0018]
In the guide hole 36, an embossed character sensor 40 for detecting image data of a character string displayed in a concavo-convex pattern by embossing on the surface of the magnetic card 1 is housed so as to be movable up and down.
[0019]
The case 41 of the embossed character sensor 40 is formed in a substantially quadrangular prism shape so that it can be lifted and lowered in the guide hole 36 with almost no backlash, and a plurality of sensor elements 60 to be described later are vertically arranged therein. They are housed in a line.
[0020]
At the lower part of the front surface and the back surface of the case 41, stoppers 42 are provided that abut the lower edges of the guide plates 37a and 37b and restrict the ascent of the embossing sensor 40 as a whole. The stopper 42 on the back side is provided with a cylindrical pin 43 that protrudes horizontally, and a spring 44 that biases the embossing sensor 40 downward is applied between the tip of the pin 43 and the bottom plate 23. Has been passed.
[0021]
A lever support 45 is provided on the side of the guide hole 36. The lever support body 45 has a columnar base portion 45a erected so as to be orthogonal to the guide plate 24, and a columnar shaft 45b projecting concentrically from the tip of the base portion 45a.
[0022]
A rotation lever 46 as a sensor position varying means of this embodiment is rotatably attached to the shaft 45b. The rotating lever 46 includes a cylindrical portion 46a that rotates about a shaft 45b, a first arm 46b that extends from the outer periphery of the cylindrical portion 46a to a position that contacts the outer periphery of the pin 43 of the embossing character sensor 40 from below, The second arm 46c extends downward from the lower surface side of the first arm 46b. A roller 47 is rotatably attached to the lower end of the second arm 46c.
[0023]
When the turning lever 46 receives an upward force from the second arm 46c, the turning lever 46 turns so that the tip of the first arm 46b moves upward about the shaft 45b, and moves to the tip of the first arm 46b. The abutting pin 43 is pushed upward to cause the embossed character sensor 40 to protrude from the guide hole 36.
[0024]
The roller 47 of the second arm 46 c is in contact with the upper surface side of the cam plate 50 that is attached so as to be rotatable about a shaft 48 that is erected on the bottom plate 23.
[0025]
The cam plate 50 constitutes the card sensor of this embodiment. As shown in FIGS. 4 and 5, the cam plate 50 is formed in a substantially semicircular shape centering on the shaft 48, and is substantially on the one end 50a side. The range of 90 degrees enters holes 49 a and 49 b that penetrate horizontally through the guide plates 24 and 25, and crosses the lower part of the guide groove 22.
[0026]
In addition, an inclined portion 51 whose height increases toward the one end 50 a side is provided on the upper surface edge portion in the range of approximately 90 degrees on the other end 50 b side of the cam plate 50. The roller 47 at the lower end of the arm 46c is on the inclined portion 51.
[0027]
The cam plate 50 is urged by a spring 52 attached to the shaft 48 in a direction in which the end surface of one end 50a abuts against the inner wall of the holes 49a and 49b on the card insertion side.
[0028]
Accordingly, the cam plate 50 is rotated at a position where one end 50 a side is pushed by the tip of the magnetic card 1 slidingly moving in the guide groove 22 and rotates around the shaft 48, and the roller 47 is brought into contact with the inclined portion 51. The moving lever 46 is rotated so that the tip of the first arm 46b moves upward.
[0029]
Here, the difference in height of the inclined portion 51 of the cam plate 50 is as follows when the end surface of one end 50a of the cam plate 50 is in contact with the inner wall of the holes 49a and 49b on the card insertion side as shown in FIG. As shown in FIG. 3A, the embossed character sensor 40 is at a lower limit position where the upper surface of the case 41 is substantially flush with one surface of the housing 21, and the magnetic card as shown in FIG. 1, when the one end 50a side of the cam plate 50 is withdrawn from the guide groove 22, the embossing character sensor 40 moves its stopper 42 to the guide plate 37a of the guide hole 36, as shown in FIG. The upper limit position is set to be in contact with the lower edge of 37b.
[0030]
The stroke of the rotation lever 46 due to the rotation of the cam plate 50 is set to be slightly overstroke with respect to the stroke when the embossing character sensor 40 is lifted. After being pushed up to the upper limit position, the first arm 46b is further urged upward by elastic deformation to prevent the embossed character sensor 40 from rattling in the vertical direction due to warping or tilting of the magnetic card 1.
[0031]
Therefore, when the magnetic card 1 is not in the guide groove 22, when the leading end of the magnetic card 1 has not reached the position where it abuts against the cam plate 50, and after the rear end of the magnetic card 1 has completely passed through the hole 49a. The cam plate 50 is brought into a state in which the end surface on the one end 50 a side is in contact with the card insertion side inner wall of the hole 49 a by the bias of the spring 52, and the embossed character sensor 40 is accommodated in the guide hole 36.
[0032]
Further, the cam plate 50 is rotated until the end of the magnetic card 1 comes into contact with the end surface on the one end 50a side of the cam plate 50 until it reaches the inner wall on the magnetic head 30 side of the hole 49a. 40 is moved upward and downward from the guide hole 36, and the cam plate 50 stops rotating until the rear end of the magnetic card 1 passes through the hole 49a, and the embossed character sensor 40 is moved to the upper limit position, that is, the guide groove 22 Is held at a predetermined position facing the character string displayed in the concave and convex portions by embossing of the magnetic card 1 that slides.
[0033]
Here, the center position of the embossed character sensor 40 and the side of the hole 49a on the magnetic head 30 side so that the character string displayed by embossing can be detected in the entire range from the front end to the rear end of the magnetic card 1. The inner wall is set so that the positions along the magnetic card passing direction are substantially coincident.
[0034]
On the other hand, the plurality of sensor elements 60 accommodated in the embossed character sensor 40 move up and down the passage range of the character string displayed by the embossing of the magnetic card 1 when the cam element 50 is raised to a predetermined position by the rotation of the cam plate 50. Dividing into a plurality of directions, the unevenness is identified for each region.
[0035]
For example, as shown in FIG. 6, each sensor element 60 includes a projector 61 that irradiates light on the surface of the magnetic card 1, and a lens 62 that collects light reflected from the projector 61 on the flat portion of the magnetic card 1. And a light receiver 63 that receives the light collected by the lens 62, and when the light from the light projector 61 irradiates the flat portion of the magnetic card 1, the light collected by the lens 62. Is received by the light receiver 63, and the light from the light projector 61 irradiates the projecting portion 2 of the magnetic card 1 by embossing so that the light collected by the lens 62 is removed from the light receiving surface of the light receiver 63. The light reception signal of the light receiver 63 is binarized and output as image data.
[0036]
FIG. 7 is a block diagram showing an electrical configuration of the magnetic card reader 20. As shown in FIG. 7, the case 30a of the magnetic head 30 includes a demodulator circuit 71 and an encryption circuit in addition to a head main body portion including a core 30b having a gap and a coil 30c wound around the core 30b. A circuit 72 is housed.
[0037]
The demodulation circuit 71 demodulates the card data magnetically recorded on the magnetic card 1 from the signal output from the coil 30 c of the magnetic head 30.
[0038]
The demodulation of the card data corresponds to a data recording method for the magnetic card 1. For example, when the recording method is a general MFM method (also referred to as F2F method), from the head main body of the magnetic head 30. The card data is demodulated by determining whether the half cycle period of the signal is close to the reference period or twice the reference period.
[0039]
The encryption circuit 72 encrypts the data demodulated by the demodulation circuit 71 with a predetermined encryption function and key data. This encryption is, for example, an exclusive OR operation process with the key data for the encryption target data, a bit position replacement process specified by the key data for the encryption target data, or a key data for the encryption target data. This is done by a combination of shift processing of the number of bits.
[0040]
Although not shown, the demodulation circuit 71 and the encryption circuit 72 can be supplied with power from outside the case 30a.
[0041]
Outputs of the encryption circuit 72 and the embossed character sensor 40 are input to the processing unit 75.
[0042]
The processing unit 75 is constituted by a microprocessor formed on a single chip. When the function is blocked, as shown in FIG. 7, a decoding unit 76, a character recognition unit 77, a determination unit 78, and a notification unit 79 are provided. It has.
[0043]
The decrypting means 76 decrypts the raw card data magnetically recorded on the magnetic card 1 by performing a process reverse to the encryption process on the data output from the encryption circuit 72.
[0044]
Further, the character recognition means 77 obtains character data of the characters displayed by the embossing on the surface of the magnetic card 1 based on the image data output from the embossing character sensor 40.
[0045]
The determination means 78 collates the character data string obtained by the character recognition means 77 with the card data obtained by the decoding means 76, and determines whether or not the data string in the predetermined bit range of the card data matches the character data string. Determine.
[0046]
In general, in a magnetic card on which a character string is displayed by embossing, a character data string corresponding to the character string is included in the magnetic recording data. Therefore, the magnetic card can be used by performing the above determination. Whether it is a card or not can be determined.
[0047]
When the determination unit 78 determines that the data string in the predetermined bit range of the card data matches the character data string, the notification unit 79 displays on the display unit 35 that the magnetic card 1 is a usable card. When it is determined that the data string in the predetermined bit range of the card data does not match the character data string, the display unit 35 displays that the magnetic card 1 cannot be used.
[0048]
The magnetic card reader 20 outputs the data output from the encryption circuit 72 to a terminal through an interface (not shown) or the like, or the card data decrypted by the decrypting means 56 is sent to an external device. Are encrypted again with an encryption function and key data determined in advance, and output to the external device.
[0049]
Thus, in the magnetic card reader 20 of the embodiment, the demodulation circuit 71 and the encryption circuit 72 are accommodated in the case 30 a of the magnetic head 30, so that the card data of the magnetic card 1 is transferred from the output line of the magnetic head 30. There is no fear of being illegally obtained, and furthermore, it is determined whether the character data string of the character string displayed with unevenness on the magnetic card 1 by the embossing and the data string at a predetermined bit position of the card data, and the determination result is Since the notification is made, it is possible to reliably prevent the use of an unauthorized card in which the illegally acquired card data is written.
[0050]
Further, since the embossed character sensor 40 automatically advances to a predetermined position only when the magnetic card 1 is slid and moves out after the slide movement, whether or not the magnetic card 1 can be used without performing a special operation. In addition, the height dimension of the casing 21 when not in use is not increased.
[0051]
Further, as described above, since the processing unit 75 including the decoding means 76 for inputting / outputting card data and the judging means 78 is constituted by a single processor on one chip, the raw card of the magnetic card 1 is used. There is no fear that data is illegally acquired from the processing unit 75, and the security against illegal acquisition of card data is further increased.
[0052]
In the magnetic card reader 20 described above, the embossing character sensor 40 is configured as a liftable type, but it can also be configured as a rotary type. In this case, the embossed character sensor 40 is supported so as to be pivotable about its lower part, and when the magnetic card 1 is not in the guide groove 22, the embossed character sensor 40 is accommodated in a lying state. When the magnetic card 1 moves in the guide groove 22, the embossing character sensor 40 may be connected so that the embossed character sensor 40 is raised by the upward movement of the first arm 46 b of the rotation lever 46.
[0053]
In the magnetic card reader described above, the card sensor and the sensor position changing means are mechanically configured by the cam plate 50 and the rotation lever 46. However, as the card sensor, an optical sensor, a micro switch, or the like is used. It is detected that the magnetic card 1 has passed through the guide groove 22, and the embossing character sensor 40 is advanced to a predetermined position by using a sensor or a sensor position variable means based on the detection signal of the card sensor. It may be.
[0054]
In the magnetic card reader 20 described above, the sensor element 60 of the embossed character sensor 40 is optical and non-contact type, but may be configured to be contact type. In this case, for example, the pins urged so that one end is brought into contact with the surface of the magnetic card 1 are arranged in the vertical direction, and the movement of each pin is detected by an optical sensor, a pressure sensor, a switch, etc. Output the signal as image data.
[0055]
In the magnetic card reader 20, the determination result of the determination unit 78 is displayed on the display 35. However, the determination result may be notified by a buzzer sound or the like, and the determination result is notified to an external terminal. May be.
[0056]
【The invention's effect】
As described above, the magnetic card reader of claim 1 of the present invention is
And a width slightly larger than the thickness of the magnetic card on one side of the casing, and a distance from the edge of the long side closer to the magnetic recording band of the magnetic card to the magnetic recording band, A guide groove continuously formed from one end of the housing to the other end at a depth smaller than the distance to the character string displayed by the embossing on the surface, and the length of the guide groove on the bottom surface of the guide groove by manual operation. A magnetic head provided at a position in contact with a magnetic recording band of a magnetic card that slides along the guide groove in a state in which the edge of the side is in contact, and the card data magnetically recorded on the magnetic card is In a magnetic card reader that reads using a magnetic head,
A demodulating means provided in a case of the magnetic head for demodulating the card data in response to an output signal of the magnetic head body ;
Before and inside the accommodation position of Kikatamitai, and the guide grooves predetermined position where the string facing the to surface displayed and by embossing the magnetic card slides the guide groove at the side of the one side is movably supported between, said in parallel with reading of the card data by the magnetic head in a state of being advanced to a predetermined position, embossing characters sensor for detecting the image data of the character string of the magnetic card,
A card sensor for detecting a period during which at least the character string of the magnetic card slidingly moving in the guide groove crosses the predetermined position;
The embossed character sensor is advanced to the predetermined position during a period in which the character string of the magnetic card is detected by the card sensor to cross the predetermined position, and the embossed character sensor is moved out of the period. Sensor position varying means for retracting from the predetermined position and holding in the accommodation position ;
Based on the image data detected by the embossing character sensor, character recognition means for obtaining a character data string corresponding to the character string displayed in the unevenness by the embossing;
And determining means for determining whether or not the data string in a predetermined bit range of the demodulated card data matches the character data string obtained by the character recognition means.
A magnetic card reader according to claim 2 of the present invention is the magnetic card reader according to claim 1,
The card sensor is constituted by a cam plate that is pushed and rotated by a tip of a magnetic card that slides in the guide groove,
The sensor position varying means is constituted by a rotating lever having one end abutted on the cam plate and the other end engaged with the embossed character sensor, and according to a change in the angle of the cam plate, The embossed character sensor is moved from the accommodation position to the predetermined position.
A magnetic card reader according to claim 3 of the present invention is the magnetic card reader according to claim 1,
The card sensor is configured to detect a magnetic card slidingly moving in the guide groove by an optical sensor or a micro switch,
The sensor position varying means uses a motor or a plunger as a drive source and moves the embossed character sensor from the accommodation position to the predetermined position based on a detection signal of the card sensor.
A magnetic card reader according to claim 4 of the present invention is the magnetic card reader according to any one of claims 1 to 3,
An informing means for informing the judgment result of the judging means is provided.
Moreover, the magnetic card reader of Claim 5 of this invention is a magnetic card reader in any one of Claims 1-4,
An encryption unit provided in a case of the magnetic head and encrypting the card data demodulated by the demodulation unit and outputting the encrypted card data to the outside of the case;
And decrypting means for decrypting the card data encrypted by the encrypting means and outputted to the outside of the case of the magnetic head, and applying the decrypted data to the determining means.
[0057]
In this way, in parallel with the reading of the magnetically recorded card data for the magnetic card slidingly moving in the guide groove by manual operation, the predetermined position on the side of the guide groove from the accommodation position in the housing according to the movement of the magnetic card. by embossing characters sensor that advances to the position to detect the image data of the character string displayed in uneven by embossing of the magnetic card, to determine a match between the data sequence of a predetermined bit position of the character data string and card data since the are, it is possible to reliably prevent the use of illegally obtained illegal card writing the card data. Further, in the case where the demodulating means and the encrypting means are accommodated in the case of the magnetic head, there is no possibility that the card data of the magnetic card is illegally acquired from the output line of the magnetic head.
[0058]
In addition, the embossed character sensor automatically advances to a predetermined position only when the magnetic card is slid and moves out after the slid movement, so that it is possible to know whether the magnetic card can be used without performing a special operation. In addition, the height of the casing when not in use does not need to be increased.
[0059]
A magnetic card reader according to claim 6 of the present invention is the magnetic card reader according to claim 5 ,
At least the decoding means and the judging means are constituted by a single processor integrated into one chip.
[0060]
For this reason, the decrypted card data cannot be illegally acquired, and the security against illegal acquisition of card data is further increased.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of an embodiment of the present invention. FIG. 2 is a diagram showing a structure of a main part of the embodiment of the invention. FIG. 3 is a diagram showing a structure of a main part of the embodiment of the invention. 4 is a diagram showing a structure of a main part of an embodiment of the present invention. FIG. 5 is a diagram showing a structure of a main part of the embodiment of the present invention. FIG. 6 is a diagram showing a structure of a main part of the embodiment of the present invention. FIG. 7 is a block diagram showing an electrical configuration of an embodiment of the present invention. FIG. 8 is a diagram showing an external appearance of a conventional device. FIG. 9 is a diagram showing an internal configuration of the conventional device.
DESCRIPTION OF SYMBOLS 1 Magnetic card 2 Embossed protrusion 20 Magnetic card reader 21 Housing 22 Guide groove 30 Magnetic head 30a Case 30b Core 30c Coil 35 Display 36 Guide hole 37a-37d Guide plate 40 Embossed character sensor 41 Case 42 Stopper 43 Pin 44 Spring 45 Lever support 45a Base 45b Shaft 46 Rotating lever 46a Cylindrical part 46b First arm 46c Second arm 47 Roller 48 Shaft 49a, 49b Hole 50 Cam plate 51 Inclined part 52 Spring 60 Sensor element 61 Projector 62 Lens 63 Light receiver 71 Demodulation circuit 72 Encryption circuit 75 Processing unit 76 Decoding unit 77 Character recognition unit 78 Determination unit 79 Notification unit

Claims (6)

And a width slightly larger than the thickness of the magnetic card on one side of the casing, and a distance from the edge of the long side closer to the magnetic recording band of the magnetic card to the magnetic recording band, A guide groove continuously formed from one end of the housing to the other end at a depth smaller than the distance to the character string displayed by the embossing on the surface, and the length of the guide groove on the bottom surface of the guide groove by manual operation. A magnetic head provided at a position in contact with a magnetic recording band of a magnetic card that slides along the guide groove in a state in which the edge of the side is in contact, and the card data magnetically recorded on the magnetic card is In a magnetic card reader that reads using a magnetic head,
A demodulating means provided in a case of the magnetic head for demodulating the card data in response to an output signal of the magnetic head body ;
Before and inside the accommodation position of Kikatamitai, and the guide grooves predetermined position where the string facing the to surface displayed and by embossing the magnetic card slides the guide groove at the side of the one side is movably supported between, said in parallel with reading of the card data by the magnetic head in a state of being advanced to a predetermined position, embossing characters sensor for detecting the image data of the character string of the magnetic card,
A card sensor for detecting a period during which at least the character string of the magnetic card slidingly moving in the guide groove crosses the predetermined position;
The embossed character sensor is advanced to the predetermined position during a period in which the character string of the magnetic card is detected by the card sensor to cross the predetermined position, and the embossed character sensor is moved out of the period. Sensor position varying means for retracting from the predetermined position and holding in the accommodation position ;
Based on the image data detected by the embossing character sensor, character recognition means for obtaining a character data string corresponding to the character string displayed in the unevenness by the embossing;
Magnetic card, characterized in that it comprises a data string of predetermined bit range of card data, wherein the demodulated, and determining means for determining whether the character data string obtained is matched by the character recognition means Reader. The card sensor is constituted by a cam plate that is pushed and rotated by a tip of a magnetic card that slides in the guide groove,
The sensor position varying means is constituted by a rotating lever having one end abutted on the cam plate and the other end engaged with the embossed character sensor, and according to a change in the angle of the cam plate, 2. The magnetic card reader according to claim 1 , wherein an embossed character sensor is moved between the accommodation position and the predetermined position . The card sensor is configured to detect a magnetic card slidingly moving in the guide groove by an optical sensor or a micro switch,
The sensor position varying means uses a motor or a plunger as a drive source, and moves the embossed character sensor from the accommodation position to the predetermined position based on a detection signal of the card sensor. The magnetic card reader according to 1. The magnetic card reader according to claim 1, further comprising a notification unit that notifies a determination result of the determination unit. An encryption unit provided in a case of the magnetic head and encrypting the card data demodulated by the demodulation unit and outputting the encrypted card data to the outside of the case;
5. Decryption means, comprising: decryption means for decrypting card data encrypted by the encryption means and outputted to the outside of the case of the magnetic head, and applying the decrypted card data to the determination means. A magnetic card reader according to claim 1. 6. The magnetic card reader according to claim 5, wherein at least the decoding means and the judging means are constituted by a single processor on one chip.

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