JP2011164808A - Card reader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a card reader capable of preventing phishing and capable of not damaging a card in a situation in which phishing does not occur. <P>SOLUTION: A card reader 1, which is provided with a card transport mechanism for performing capture and ejection of a card 2, is provided with a gate mechanism 6 upon which is formed an insertion/ejection slot 5 for insertion and ejection of the card 2. Upon the gate mechanism 6 is formed a protruding portion 11b protruding toward the ejection direction of the card 2. In addition, the gate mechanism 6 is provided with a card detection mechanism 14 for detecting when the card 2 has been ejected by the card transport mechanism to a removable position at which the card 2 can be removed by a user of the card reader 1, and a card removal prevention mechanism 15 for preventing removal of the card 2 when the card 2 has not been ejected to a removable position at a time of ejection of the card 2. The card detection mechanism 14 is disposed in the interior portion of the protruding portion 11b. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a card reader including a card transport mechanism that takes in and discharges a card.

  2. Description of the Related Art Conventionally, card readers that take in a card and perform predetermined processing such as reading and recording of magnetic data are widely used. In this type of card reader, for example, the entire card is taken into the card reader and a predetermined process is performed by a card transport mechanism arranged inside. Also, in the industry where card readers are used, traditionally, criminals have some sort of trick to prevent card ejection from inside the card reader, and after clogging the card inside the card reader, this jammed card is illegally So-called phishing is a big problem.

  Accordingly, a card reader having a configuration for preventing this phishing has been proposed (see, for example, Patent Document 1). The card reader described in Patent Document 1 includes a pull-out prevention lock mechanism that prevents a card from being pulled out when a criminal tries to pull out a jammed card by removing a mechanism for performing phishing. . In this card reader, when a monitoring means such as a sensor detects that the card at the time of ejection has stopped abnormally, the anti-extraction lock mechanism becomes operable, and if a criminal tries to withdraw the card in this state, the anti-extraction is prevented. The lock mechanism is activated and the lock teeth bite into the card. When the lock teeth bite into the card, the card is locked at a predetermined staying position, so that the criminal is prevented from being pulled out and phishing is prevented.

JP 2006-155567 A

  As described above, the card reader described in Patent Document 1 can prevent phishing. On the other hand, in order to prevent phishing, the card may be locked when the user cannot pull out the card from the card reader to prevent the criminal from pulling out the card.

  However, in the card reader described in Patent Document 1, when the monitoring unit detects that the card at the time of ejection has stopped abnormally, the pull-out prevention lock mechanism becomes operable. For this reason, even if the user can pull out the card from the card reader, there is a possibility that the pull-out prevention lock mechanism may become operable. When the user pulls out the card in this state, the pull-out prevention lock The mechanism is activated and the lock teeth bite into the card. That is, in this card reader, the user can pull out the card from the card reader, and even if the phishing does not occur, the card may be damaged by the user's card operation.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a card reader that can prevent phishing and can prevent damage to the card in a situation where phishing does not occur.

  In order to solve the above-mentioned problems, a card reader according to the present invention is a card reader having a card transport mechanism for taking in and ejecting a card. A gate mechanism is provided at the end of the card discharging direction, and the gate mechanism is formed with a protruding portion that protrudes in the card discharging direction. The gate mechanism allows the card reader user to remove the card. A card detection mechanism for detecting that the card has been ejected by the card transport mechanism to a removable position, and a card removal prevention mechanism for preventing the card from being removed when the card is not ejected to the removable position when the card is ejected And the card detection mechanism is disposed inside the protruding portion.

  In the card reader of the present invention, the gate mechanism includes a card detection mechanism for detecting that the card has been ejected by the card transport mechanism to a removable position where a card reader user can remove the card, and a card ejection. A card removal prevention mechanism is provided that prevents the card from being removed when the card is not ejected to a position where the card can be removed from time to time. Therefore, in the present invention, when a mechanism for performing phishing is attached to the card reader and the card is not ejected to the position where it can be removed, and the user cannot remove the card, the card removal prevention mechanism removes the card. Can be prevented and phishing can be prevented. On the other hand, even if a device for phishing is attached to the card reader, if the card is ejected to a position where it can be removed and the user can remove the card, the card removal prevention mechanism prevents the card from being removed. do not do. That is, even if a device for performing phishing is attached to the card reader, the card removal preventing mechanism does not prevent removal of the card in a situation where phishing does not occur. Therefore, in the present invention, it is possible to prevent the card from being damaged in a situation where phishing does not occur.

  In the present invention, the card detection mechanism is disposed inside a protruding portion that protrudes in the card ejection direction. Therefore, the card detection mechanism can appropriately detect the position of the card ejection direction end. That is, the card detection mechanism can appropriately detect whether or not the card has been ejected to a position where it can be removed. Therefore, according to the present invention, it is possible to appropriately detect whether or not phishing is possible by using the card detection mechanism. As a result, according to the present invention, phishing can be prevented more appropriately, and in a situation where phishing does not occur, the card can be prevented from being damaged more appropriately.

  In the present invention, for example, two protrusions are formed in the gate mechanism, and the card detection mechanism has a card up to a removable position where the card can be extracted in a recess formed between the two protrusions. Detect that is discharged.

  In the present invention, the card removal prevention mechanism is preferably a shutter mechanism that is disposed closer to the card ejection direction than the card detection mechanism and includes a shutter member that opens and closes the insertion / ejection port and a shutter drive source that drives the shutter member. . With this configuration, the card is prevented from being pulled out by the shutter member coming into contact with the end in the card ejection direction. Therefore, even if the card removal prevention mechanism prevents the card from being removed, it is possible to prevent the surface of the card from being damaged.

  In the present invention, it is preferable that the shutter mechanism is disposed inside the protrusion. If comprised in this way, it will become easy to prevent a criminal from destroying a shutter mechanism.

  In the present invention, the shutter member includes a closing portion for closing the insertion / discharge port, and the gate mechanism includes a shutter detection mechanism for detecting that the closing portion closes the insertion / discharge port. The mechanism preferably directly detects a portion of the closure. If comprised in this way, it will become possible to detect reliably by the shutter detection mechanism whether the closing part for closing an insertion discharge port by the criminal was destroyed.

  In the present invention, the shutter drive source preferably drives the shutter member periodically to open / close the insertion / discharge port when the card is not taken into the card reader. If comprised in this way, when the card | curd is not taken in by the card reader, it will become possible to confirm regularly by the shutter detection mechanism whether the closing part for closing an insertion discharge port is destroyed. . Therefore, when the card is inserted into the card reader, it is possible to reliably detect whether or not the closing portion is broken.

  In the present invention, the card reader has a card transport path through which the card is transported, and the card reader includes a second shutter member disposed closer to the card insertion direction than the gate mechanism. The two shutter members are preferably capable of closing the entire area of the card transport path when viewed from the card transport direction. With this configuration, the shutter member is disposed inside the protruding portion, and even if the entire area of the insertion / discharge port formed in the gate mechanism cannot be closed by the shutter member, the card is conveyed by the second shutter member. By closing the path, it becomes possible to protect various configurations inside the card reader and prevent dust from entering the card reader.

  In the present invention, the protrusion is preferably made of an opaque material. With this configuration, the criminal cannot visually confirm the card detection mechanism and the shutter mechanism from the outside of the gate mechanism. Therefore, it becomes easy to prevent a criminal from destroying the card detection mechanism and the shutter mechanism.

  In the present invention, the outer shape of the gate mechanism is preferably formed in a substantially semi-cylindrical shape that swells in the card ejection direction. If comprised in this way, it will become difficult for a criminal to attach the device for performing a phishing to a gate mechanism. Therefore, it becomes possible to effectively prevent phishing.

  In the present invention, the gate mechanism preferably includes a light emitting mechanism for illuminating the side surface of the recess. With such a configuration, when the card is ejected, the user can easily grasp which part of the gate mechanism the card is ejected by causing the light emitting mechanism to shine the side surface of the recess.

  As described above, the card reader of the present invention can prevent phishing, and can prevent the card from being damaged in a situation where phishing does not occur.

It is a perspective view of the card reader concerning an embodiment of the invention. It is a top view for demonstrating schematic structure of the card reader shown in FIG. It is a front view for demonstrating the structure of the gate mechanism shown in FIG. It is a front view for demonstrating a structure and operation | movement of the card | curd detection mechanism shown in FIG. It is a front view for demonstrating a structure and operation | movement of a shutter mechanism shown in FIG. It is a front view for demonstrating the structure of the foreign material detection mechanism shown in FIG. It is a front view for demonstrating the structure of the light emission mechanism for making the side surface of the recessed part shown in FIG. 3 light. It is a top view for demonstrating the structure of the light emission mechanism shown in FIG. It is a figure for demonstrating the structure of the light emission mechanism shown in FIG. 7, (A) is a side view, (B) is an enlarged view of the E section of (A), (C) is an expansion of the F section of (A). FIG.

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

(Schematic configuration of card reader)
FIG. 1 is a perspective view of a card reader 1 according to an embodiment of the present invention. FIG. 2 is a plan view for explaining a schematic configuration of the card reader 1 shown in FIG.

  The card reader 1 according to the present embodiment is a device for reading magnetic data recorded on the card 2 and / or recording magnetic data on the card 2. For example, the card reader 1 is connected to a host device such as an ATM (Automate Teller Machine). Used on board. Inside the card reader 1 is formed a card transport path through which the card 2 is transported. Further, as shown in FIGS. 1 and 2, the card reader 1 includes a magnetic head 3 for reading magnetic data and / or recording magnetic data, a conveyance roller 4 for taking in and discharging the card 2, and the like. A card transport mechanism, a gate mechanism 6 in which an insertion / discharge port 5 into which the card 2 is inserted and ejected is formed, and a shutter member 7 as a second shutter member for closing the card transport path. .

  In this embodiment, the card 2 is conveyed in the X direction shown in FIG. That is, the X direction is the card 2 transport direction (passing direction). In this embodiment, the card 2 is inserted in the X1 direction, and the card 2 is ejected in the X2 direction. That is, the X1 direction is the card 2 insertion direction, and the X2 direction is the card 2 ejection direction. Further, the Z direction in FIG. 1 substantially orthogonal to the X direction is the thickness direction of the card 2, and the Y direction in FIG. 1 substantially orthogonal to the X direction and the Z direction is the width direction (short width) of the card 2. Direction). In the following description, the X1 direction side is the “back (rear)” side, the X2 direction side is the “front (front)” side, the Y1 direction side is the “right” side, the Y2 direction side is the “left” side, Z1 The direction side is the “upper” side, and the Z2 direction side is the “lower” side.

  The card 2 is, for example, a rectangular vinyl chloride card having a thickness of about 0.7 to 0.8 mm. The card 2 has a magnetic stripe on which magnetic data is recorded. That is, the card 2 of this embodiment is a magnetic card. Note that an IC chip may be fixed to the card 2 or a communication antenna may be incorporated. That is, the card 2 may be a contact IC card with a magnetic stripe or a non-contact IC card with a magnetic stripe. The card 2 may be a PET (polyethylene terephthalate) card having a thickness of about 0.18 to 0.36 mm, or a paper card having a predetermined thickness.

  The magnetic head 3 is disposed inside the main body 8 of the card reader 1. The magnetic head 3 is disposed at a position where it can contact a magnetic stripe formed on the card 2. In addition to the transport roller 4, the card transport mechanism is disposed so as to face the transport roller 4 and is urged toward the transport roller 4, a motor that drives the transport roller 4, a gear that transmits power of the motor, and the like It has. The transport roller 4 and the pad roller are disposed inside the main body 8. The gate mechanism 6 is fixed to the front end surface of the main body 8 and is disposed at the front end of the card reader 1. The detailed configuration of the gate mechanism 6 will be described later.

  The shutter member 7 is disposed on the front end side of the main body portion 8. A driving source such as a solenoid is connected to the shutter member 7. The shutter member 7 of the present embodiment is configured to be able to close the entire card transport path when viewed from the front-rear direction.

(Configuration of gate mechanism)
FIG. 3 is a front view for explaining the configuration of the gate mechanism 6 shown in FIG. FIG. 4 is a front view for explaining the configuration and operation of the card detection mechanism 14 shown in FIG. FIG. 5 is a front view for explaining the configuration and operation of the shutter mechanism 15 shown in FIG. FIG. 6 is a front view for explaining the configuration of the foreign object detection mechanism 17 shown in FIG. FIG. 7 is a front view for explaining the configuration of the light emitting mechanism 18 for illuminating the side surface of the recess 11a shown in FIG. FIG. 8 is a plan view for explaining the configuration of the light emitting mechanism 18 shown in FIG. 9A and 9B are diagrams for explaining the configuration of the light emitting mechanism 18 shown in FIG. 7, in which FIG. 9A is a side view, FIG. 9B is an enlarged view of an E portion of FIG. It is an enlarged view of the F section.

  As shown in FIG. 1, the gate mechanism 6 is formed in a substantially semi-cylindrical shape as a whole. That is, the outer shape of the gate mechanism 6 is formed in a substantially semi-cylindrical shape that swells toward the front. More specifically, the outer shape of the housing 11 of the gate mechanism 6 is formed in a substantially semi-cylindrical shape that swells toward the front side.

  The housing 11 is formed with a recess 11a that is recessed toward the back. That is, the housing 11 is formed with two projecting portions 11b and 11c projecting from the back end portion of the recessed portion 11a toward the front side with a space in the left-right direction. It is formed between the two protrusions 11b and 11c so as to be sandwiched between the protrusions 11b and 11c. The housing 11 is formed with an insertion / discharge port 5 so as to penetrate in the front-rear direction.

  As shown in FIG. 2, the recess 11 a is formed so that the shape when viewed from above and below is substantially U-shaped. Specifically, the recess 11a is formed so as to have a substantially U shape with an opening at the front end when viewed from the vertical direction. In addition, the width of the recess 11a (the width in the left-right direction) is wide enough for the user of the card reader 1 to enter. Further, as shown in FIG. 2, the recess 11 a is formed at substantially the same position as the position of the magnetic head 3 in the left-right direction. That is, the recess 11a is formed in the left-right direction at substantially the same position as the magnetic stripe position of the card 2 inserted into the card reader 1, and the card inserted into the card reader 1 when viewed from the up-down direction. The second magnetic stripe passes through the recess 11a. The protrusion 11b is formed on the left side of the recess 11a. The protrusion 11c is formed on the right side of the recess 11a. The lateral width of the protruding portion 11b is wider than the lateral width of the protruding portion 11c.

  The housing 11 is made of an opaque material. For example, the housing 11 is made of an opaque resin material. Further, the portion of the housing 11 where the recess 11a is formed is open. A translucent member 12 made of a translucent material is fixed to the opening, and the opening is closed with the translucent member 12. That is, the side surface of the recess 11 a is constituted by the semitransparent member 12. The translucent member 12 is made of, for example, a translucent resin material.

  As shown in FIGS. 2 and 3, the gate mechanism 6 includes a card detection mechanism 14 for detecting that the front end side of the card 2 has been ejected to a predetermined position by the card transport mechanism, and the card 2 when the card 2 is ejected. A shutter mechanism 15 as a card removal preventing mechanism for preventing the card 2 from being removed when the front end side of the card is not discharged to a predetermined position, a shutter detection mechanism 16 for detecting the state of the shutter mechanism 15, and a recess 11a. And a foreign matter detection mechanism 17 for detecting that the foreign matter is attached. Moreover, the gate mechanism 6 is provided with the light emission mechanism 18 for making the side surface of the recessed part 11a shine, as shown in FIG.

  The card detection mechanism 14 includes a lever member 20 that can contact the card 2 and a sensor 21 that detects whether the lever member 20 is in contact with the card 2. The card detection mechanism 14 is disposed inside the protruding portion 11b. The sensor 21 is an optical sensor having a light emitting element and a light receiving element. The lever member 20 includes a card contact portion 20a that contacts the left end of the card 2 and a light shielding portion 20b that shields between the light emitting element and the light receiving element of the sensor 21, and the shape when viewed from the front-rear direction is substantially L-shaped. It is formed to become. The lever member 20 can be rotated about a predetermined rotation axis, and the card contact portion 20 a can be advanced and retracted with respect to the insertion / discharge port 5.

  As shown in FIG. 4A, when the card 2 is not in contact with the card contact portion 20a, the card contact portion 20a is in the insertion / discharge port 5, and the light shielding portion 20b is a light emitting element and a light receiving element of the sensor 21. Between the two. On the other hand, when the left end of the card 2 comes into contact with the card contact portion 20a, as shown in FIG. 4 (B), the lever member 20 rotates, and the card contact portion 20a is retracted from the insertion / discharge port 5 and the light shielding portion 20b. Deviates from between the light emitting element and the light receiving element of the sensor 21. When the light shielding part 20b is removed from between the light emitting element and the light receiving element of the sensor 21, the card detection mechanism 14 detects the card 2.

  The card detection mechanism 14 according to this embodiment detects that the card 2 is ejected by the card transport mechanism to a position where the card reader 1 can be removed from the card reader 1 when the card 2 is ejected. To do. Specifically, as shown in FIG. 2, the card detection mechanism 14 indicates that the card 2 has been ejected by the card transport mechanism to a position where the user can remove the card 2 from the card reader 1 in the recess 11a. To detect. More specifically, the card detection mechanism 14 allows the user to insert a finger such as a thumb or an index finger into the recess 11a, and to remove the card 2 from the card reader 1 with the front end side of the card 2 sandwiched between the inserted fingers. It is detected that the front end side of the card 2 is ejected to the possible position by the card transport mechanism. For example, as shown in FIG. 2, the card detection mechanism 14 detects that the front end of the card 2 has been ejected from the back end of the recess 11a by a distance D1.

  In this embodiment, when the ejection of the card 2 by the card transport mechanism is completed, the back end side of the card 2 is sandwiched between the transport roller 4 and a pad roller disposed opposite to the transport roller 4 ( (See FIG. 2). Further, in this embodiment, when the card 2 is normally ejected by the card transport mechanism, by design, the card detection mechanism 14 detects the front end of the card 2 and then the distance D2, and the card transport mechanism ejects the card 2. Stop. Note that the card detection mechanism 14 of the present embodiment also functions to detect that the card 2 has been inserted into the card reader 1.

  The shutter mechanism 15 includes a shutter member 22 that is disposed on the front side of the card detection mechanism 14 and opens and closes the insertion / discharge port 5, and a solenoid 23 that serves as a shutter drive source that drives the shutter member 22. The shutter mechanism 15 is disposed inside the protruding portion 11b. The shutter member 22 includes a closing portion 22 a for closing the insertion / discharge port 5. The closing part 22a is formed so as to rise upward, and closes a part of the insertion discharge port 5 on the left end side. Further, the shutter member 22 can be rotated around a predetermined rotation axis, and the closing portion 22 a can be advanced and retracted with respect to the insertion / discharge port 5. The solenoid 23 is disposed below the insertion / discharge port 5 and is connected to the shutter member 22.

  As shown in FIG. 5A, when the shutter member 22 opens the insertion / discharge port 5, the plunger of the solenoid 23 protrudes and the closing portion 22 a is retracted below the insertion / discharge port 5. In this state, when the plunger of the solenoid 23 is retracted, as shown in FIG. 5 (B), the shutter member 22 is rotated counterclockwise in FIG. The outlet 5 is closed.

  In this embodiment, when the card 2 inserted by the user is taken into the main body 8 when taking the card 2, the shutter member 22 closes the insertion / discharge port 5. When the card 2 is ejected to the position where the card 2 can be removed, the shutter member 22 opens the insertion / ejection port 5 so that the card 2 can be removed from the card reader 1. On the other hand, when the card 2 is discharged, if the card 2 is not discharged to a position where it can be removed, the shutter member 22 continues to close the insertion / discharge port 5 and the card reader 1 is prevented from being removed.

  The shutter detection mechanism 16 is an optical sensor having a light emitting element and a light receiving element. The shutter detection mechanism 16 is disposed inside the protruding portion 11b. Further, the shutter detection mechanism 16 is disposed above the insertion / discharge port 5. In this embodiment, when the shutter member 22 closes the insertion / ejection port 5, as shown in FIG. 5B, the upper end side of the closing portion 22a is between the light emitting element and the light receiving element of the shutter detection mechanism 16. Block it. That is, in this embodiment, the shutter detection mechanism 16 detects that the closing portion 22a closes the insertion / discharge port 5. Further, the shutter detection mechanism 16 directly detects a part of the upper end side of the closing portion 22a that closes the insertion / discharge port 5.

  The foreign object detection mechanism 17 is an optical detection mechanism that includes a light emitting element 24 and a light receiving element 25 that receives light from the light emitting element 24. The foreign matter detection mechanism 17 includes a mirror 26 that changes the direction of light emitted from the light emitting element 24. The light emitting element 24 is, for example, an LED (Light Emitting Diode), and the light receiving element 25 is, for example, a phototransistor.

  The light emitting element 24 is arrange | positioned inside the protrusion part 11b. Further, the light emitting element 24 is disposed on the near side of the shutter member 22. Further, the light emitting element 24 is arranged to emit light in the right direction. Specifically, the light emitting element 24 is disposed so as to emit light passing through the recess 11a.

  The light receiving element 25 and the mirror 26 are disposed inside the protruding portion 11c. The light receiving element 25 is arranged so that the light receiving surface faces the front side. The mirror 26 is disposed on the front side of the light receiving element 25 and changes the direction of light emitted from the light emitting element 24 in the right direction to the back direction.

  In this embodiment, when a foreign object is attached to the recess 11a, the light traveling from the light emitting element 24 to the light receiving element 25 is blocked by the foreign object, and therefore the foreign object detection mechanism 17 detects that the foreign object has been attached. For example, if a criminal attaches a magnetic head for so-called skimming in which the magnetic data of the card 2 is illegally attached to the recess 11a, the magnetic head for skimming is attached by the foreign object detection mechanism 17. Detected.

  The light emitting mechanism 18 includes a plurality of light sources 27 and a prism 28 that diffuses light emitted from the light sources 27. The light source 27 is, for example, an LED and is mounted on the substrate 29. As shown in FIG. 8, the plurality of light sources 27 are arranged in a substantially arc shape along the side surface on the back end side of the recess 11 a. The plurality of light sources 27 and the substrate 29 are arranged on both the upper side and the lower side of the insertion / discharge port 5. As shown in FIG. 8, the prism 28 is formed so as to have a substantially arc shape when viewed from above and below, and is disposed so as to cover the plurality of light sources 27.

  In this embodiment, the light emitted from the light source 27 is diffused by the prism 28 and passes through the translucent member 12. Therefore, when light is emitted from the light source 27, the side surface of the recess 11a shines.

(Schematic operation of the card reader)
A schematic operation for preventing phishing in the card reader 1 configured as above and a schematic operation for preventing skimming will be described below.

  First, a schematic operation of the card reader 1 for preventing phishing will be described. If the card detection mechanism 14 has not detected the front end side of the card 2 when the card 2 taken into the card reader 1 is discharged by the card transport mechanism, the insertion / discharge port after the card 2 is taken in The shutter member 22 that has closed 5 continues to close the insertion / discharge port 5. That is, when the card 2 is ejected, if the card detection mechanism 14 does not detect the front end side of the card 2, it is determined that a device for performing phishing is attached to the card reader 1, and the criminal determines that the card 2 The shutter member 22 continues to close the insertion / discharge port 5 so that it cannot be removed.

  If the card detection mechanism 14 has not detected the front end side of the card 2 when the card 2 is ejected, the card reader 1 notifies the host device that an abnormality has occurred. Upon receiving this notification, the host device performs a predetermined operation such as, for example, displaying that an abnormality has occurred on the display of the host device, sounding a buzzer, and / or blinking the light source 27, and the like. Informs that an abnormality has occurred.

  When the card 2 is not taken into the card reader 1 and the card 2 is not traded with the card reader 1, the solenoid 23 periodically drives the shutter member 22 to Open and close. During the opening / closing operation, if the closing portion 22a is not detected by the shutter detection mechanism 16, the closing portion 22a is destroyed by a criminal and the insertion discharge port 5 cannot be closed by the closing portion 22a. The card reader 1 notifies the host device that an abnormality has occurred. Upon receiving this notification, the host device stops taking in the subsequent card 2. For example, the card transport path is closed by the shutter member 7 or the card 2 cannot be transported by the card transport mechanism.

  Next, a schematic operation of the card reader 1 for preventing skimming will be described. When the card 2 is not traded, the light emitting element 24 emits light, and it is monitored whether or not a skimming magnetic head or the like is attached to the recess 11a. If the light from the light emitting element 24 to the light receiving element 25 is blocked during this monitoring, it is determined that a skimming magnetic head or the like is attached to the recess 11a, and the shutter is prevented so that the user cannot insert the card 2. The insertion outlet 5 is closed with the member 22. Alternatively, the card conveying path is closed by the shutter member 7. In this case, the card reader 1 notifies the host device that an abnormality has occurred.

  In addition, if the light emitting element 24 is LED, it is preferable that the light emitting element 24 is pulse-lit at an arbitrary interval when the card 2 is not traded. In this case, since it is possible to flow a current equal to or higher than the rated value to the light emitting element 24, the amount of light emitted from the light emitting element 24 can be increased. Therefore, the signal-to-noise ratio (signal-to-noise ratio) in the light receiving element 25 can be increased.

  Further, when the light emitting element 24 that is an LED is pulse-lit when the transaction of the card 2 is not performed, the output value of the light receiving element 25 when the light is emitted from the light emitting element 24, and the light emitting element It is preferable to determine whether or not a foreign object has been detected by the foreign object detection mechanism 17 based on a difference from the output value of the light receiving element 25 when no light is emitted from the light source 24. For example, a difference between an output value of the light receiving element 25 when light is emitted from the light emitting element 24 and an output value of the light receiving element 25 when light is not emitted from the light emitting element 24, and a predetermined threshold value are set. In comparison, it is preferable to determine that the foreign object detection mechanism 17 has detected a foreign object when the difference between the output values is equal to or less than the threshold value. In this case, since the influence of external light incident on the light receiving element 25 can be suppressed, it is possible to more appropriately detect that a skimming magnetic head or the like is attached to the recess 11a.

(Main effects of this form)
As described above, in this embodiment, the gate mechanism 6 detects that the card 2 has been ejected by the card transport mechanism to a position where the card reader 1 can be removed from the card reader 1. And a shutter mechanism 15 that prevents the card 2 from being removed when the card 2 is not ejected to the position where the card 2 can be removed when the card 2 is ejected. Therefore, in this embodiment, when a device for phishing is attached to the card reader 1 and the card 2 is not ejected to the position where it can be removed, and the user cannot remove the card 2, the card is removed by the shutter member 22. It is possible to prevent phishing by preventing extraction of 2.

  In this embodiment, the card 2 is prevented from being removed by the shutter member 22 disposed on the front side of the card detection mechanism 14. Therefore, when the card 2 is to be removed, the front end of the card 2 comes into contact with the shutter member 22. Therefore, in this embodiment, even if the shutter mechanism 15 prevents the card 2 from being removed, the surface of the card 2 is not damaged.

  Further, in this embodiment, even if a mechanism for performing phishing is attached to the card reader 1, the card 2 is ejected to the position where it can be removed, and the shutter mechanism can be used when the user can remove the card 2. 15 does not prevent the card from being removed. That is, even if a device for performing phishing is attached to the card reader 1, the shutter mechanism 15 does not prevent the card 2 from being removed in a situation where phishing does not occur. Therefore, in this embodiment, in a situation where phishing does not occur, a situation where the shutter mechanism 15 damages the card 2 cannot occur.

  In this embodiment, the card detection mechanism 14 is disposed inside the protruding portion 11b that protrudes toward the front. Therefore, the position of the front end of the card 2 can be appropriately detected by the card detection mechanism 14. That is, the card detection mechanism 14 can appropriately detect whether or not the card 2 has been ejected to a position where it can be removed. Therefore, in the present embodiment, it is possible to appropriately detect whether or not phishing can occur in the card detection mechanism 14.

  In this embodiment, the card detection mechanism 14 and the shutter mechanism 15 are disposed inside the protruding portion 11 b of the housing 11. Therefore, in this embodiment, it becomes easy to prevent a criminal from destroying the card detection mechanism 14 and the shutter mechanism 15. In particular, in this embodiment, since the housing 11 is formed of an opaque material, a criminal cannot visually confirm the card detection mechanism 14 and the shutter mechanism 15 from the outside of the gate mechanism 6. Therefore, in this embodiment, it becomes easier to prevent a criminal from destroying the card detection mechanism 14 and the shutter mechanism 15.

  In this embodiment, the shutter detection mechanism 16 directly detects a part of the closing portion 22a that closes the insertion / discharge port 5. In particular, in this embodiment, the shutter detection mechanism 16 directly detects a part of the upper end side of the closing portion 22a that moves upward and closes the insertion / discharge port 5. Therefore, it is possible to reliably detect whether or not the closing portion 22a that closes the insertion / discharge port 5 is broken by the criminal by the shutter detection mechanism 16.

  In this embodiment, when the card 2 is not taken into the card reader 1, the solenoid 23 periodically drives the shutter member 22 to perform the opening / closing operation of the insertion / discharge port 5. Therefore, when the card 2 is not taken into the card reader 1, it can be periodically confirmed by the shutter detection mechanism 16 whether or not the closing portion 22 a that closes the insertion / discharge port 5 is broken. Therefore, when the card 2 is inserted into the card reader 1, it is possible to reliably detect whether or not the closing portion 22a is broken. As a result, in this embodiment, as described above, when the closing portion 22a is broken, phishing can be prevented by stopping the subsequent card 2 taking-in.

  In this embodiment, when viewed from the front-rear direction, the shutter member 7 that can close the entire area of the card transport path is disposed on the back side of the gate mechanism 6. Therefore, even when the shutter member 22 is disposed on the protruding portion 11b and the closing portion 22a closes a part on the left end side of the insertion / exit port 5, the shutter member 7 closes the card transport path. It is possible to protect various configurations inside the card reader 1 such as the magnetic head 3 and to prevent dust from entering the inside of the card reader 1. Even if the shutter member 22 is destroyed, the shutter member 7 can prevent the card 2 from being inserted into the card reader 1.

  In this embodiment, the outer shape of the housing 11 is formed in a substantially semi-cylindrical shape that swells toward the front. Therefore, it is difficult for a criminal to attach a device for performing phishing to the gate mechanism 6. Therefore, in this embodiment, it is possible to effectively prevent phishing.

  In this embodiment, when light is emitted from the light source 27, the side surface of the recess 11a shines. Therefore, for example, if the side surface of the recess 11a blinks when the card 2 is ejected, the user can easily determine where the card 2 is ejected even if the front end portion of the ejected card 2 stops at the recess 11a. I can grasp it.

(Other embodiments)
The above-described embodiments and modifications are examples of preferred embodiments of the present invention, but are not limited thereto, and various modifications can be made without departing from the scope of the present invention.

  In the embodiment described above, the card removal preventing mechanism that prevents the card 2 from being removed when the card 2 at the time of ejection is not ejected to the position where it can be removed is provided with the shutter member 22 disposed on the front side of the card detection mechanism 14. The shutter mechanism 15 is provided. In addition to this, for example, the card removal prevention mechanism may be configured to hold the back end side of the card 2 inside the main body portion 8 and prevent removal of the card 2. For example, the card withdrawal prevention mechanism may be configured in the same manner as the withdrawal prevention lock mechanism described in Patent Document 1 described above. Further, for example, the card removal preventing mechanism may be configured by a drive source such as a pin that pierces the card 2 and a solenoid that drives the pin. Even if a device for performing phishing is attached to the card reader 1, if the card 2 is ejected to the position where it can be removed and the user can remove the card 2, the card removal prevention mechanism removes the card 2. In these cases, even if a device for performing phishing is attached to the card reader 1, it is possible to prevent the card 2 from being damaged in a situation where phishing does not occur.

  In the embodiment described above, the recess 11a is formed at substantially the same position as the position of the magnetic head 3 in the left-right direction. In addition to this, for example, the position of the recess 11a in the left-right direction may be shifted from the position where the magnetic head 3 is disposed. Further, in the above-described form, the recess 11a is formed so that the shape when viewed from the vertical direction is substantially U-shaped, but the recess 11a has a substantially rectangular shape when viewed from the vertical direction, etc. It may be formed to have a polygonal shape.

  In the embodiment described above, the housing 11 is formed with two projecting portions 11b and 11c that project from the back end of the recess 11a toward the front. In addition to this, for example, one protrusion may be formed in the housing 11. That is, the housing 11 may be formed so that the shape when viewed in the vertical direction is substantially L-shaped or substantially T-shaped. For example, the housing 11 may have the protrusion 11b and the protrusion 11c not formed. In addition, three or more protrusions may be formed on the housing 11.

  In the embodiment described above, the outer shape of the housing 11 is formed in a substantially semi-cylindrical shape that swells toward the front. In addition to this, for example, the outer shape of the housing 11 may be formed in a substantially rectangular parallelepiped shape.

  In the form mentioned above, the shutter detection mechanism 16 detects that the closing part 22a has closed the insertion discharge port 5 by detecting a part of closing part 22a. In addition, for example, the shutter detection mechanism 16 indirectly detects that the closing portion 22a closes the insertion / discharge port 5 by detecting a predetermined portion of the shutter member 22 other than the closing portion 22a. Also good. The shutter detection mechanism 16 may indirectly detect that the closing portion 22a closes the insertion / discharge port 5 by detecting the plunger of the solenoid 23 or a predetermined member connected to the plunger.

  In the embodiment described above, the sensor 21 is an optical sensor having a light emitting element and a light receiving element. In addition, for example, the sensor 21 may be a mechanical sensor including a contact and a contact lever that contacts the contact. Further, the card detection mechanism 14 may be a mechanical detection mechanism having a contact lever that directly contacts the end portion in the width direction of the card 2, or the end portion in the width direction of the card 2 is directly connected to the light emitting element. It may be an optical detection mechanism arranged so as to block between the light receiving element and the light receiving element.

  In the embodiment described above, the card 2 is a magnetic card having a magnetic stripe, but the card 2 may not be a magnetic card. In the above-described embodiment, the gate mechanism 6 includes the foreign object detection mechanism 17 and the light emission mechanism 18, but the gate mechanism 6 may not include the foreign object detection mechanism 17 and / or the light emission mechanism 18.

1 card reader 2 card 4 transport roller (part of card transport mechanism)
5 Insertion / Exhaust Port 6 Gate Mechanism 7 Shutter Member (Second Shutter Member)
11a Concave part 11b, 11c Projection part 14 Card detection mechanism 15 Shutter mechanism (card removal prevention mechanism)
16 Shutter detection mechanism 18 Light emission mechanism 22 Shutter member 22a Closure part 23 Solenoid (shutter drive source)
X card transport direction X1 card insertion direction X2 card ejection direction

Claims (10)

In a card reader equipped with a card transport mechanism that takes in and discharges a card,
An insertion / discharge port through which the card is inserted and discharged, and a gate mechanism disposed at an end of the card reader in the card discharge direction;
The gate mechanism is formed with a protruding portion that protrudes in the card discharge direction,
The gate mechanism includes a card detection mechanism for detecting that the card has been ejected by the card transport mechanism to a removable position where a user of the card reader can remove the card, and when the card is ejected. A card removal prevention mechanism that prevents the card from being removed when the card has not been ejected to the position where it can be removed;
The card reader is characterized in that the card detection mechanism is disposed inside the protruding portion. Two protrusions are formed on the gate mechanism,
The said card detection mechanism detects that the said card | curd was discharged | emitted to the said detachable position where the said card | curd can be extracted in the recessed part formed between two said protrusion parts. 1. The card reader according to 1.   The card removal preventing mechanism is a shutter mechanism that is disposed closer to the card discharge direction than the card detection mechanism and includes a shutter member that opens and closes the insertion / discharge port and a shutter drive source that drives the shutter member. The card reader according to claim 1 or 2, characterized in that:   The card reader according to claim 3, wherein the shutter mechanism is disposed inside the protruding portion. The shutter member includes a closing portion for closing the insertion discharge port,
The gate mechanism includes a shutter detection mechanism for detecting that the closing portion closes the insertion / discharge port,
The card reader according to claim 3 or 4, wherein the shutter detection mechanism directly detects a part of the closing portion.   6. The card according to claim 5, wherein the shutter driving source periodically drives the shutter member to open and close the insertion / ejection port when the card is not taken into the card reader. leader. A card transport path through which the card is transported is formed inside, and includes a second shutter member disposed closer to the card insertion direction than the gate mechanism,
The card reader according to claim 4, wherein the second shutter member is capable of closing the entire area of the card transport path when viewed from the card transport direction.   The card reader according to claim 1, wherein the protrusion is made of an opaque material.   3. The card reader according to claim 2, wherein an outer shape of the gate mechanism is formed in a substantially semi-cylindrical shape that swells in the card discharge direction.   The card reader according to claim 2, wherein the gate mechanism includes a light emitting mechanism for illuminating a side surface of the recess.

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