JP3857491B2 - IC card reader / writer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a so-called IC card reader / writer, and more particularly to an IC card reader / writer having a function of taking an inserted IC card into an apparatus as needed.
[0002]
[Prior art]
So-called IC cards are used in various situations in recent years as cards that can electrically read and write various information. There is an IC card reader / writer for reading information from and writing information to the IC card, and various forms have been proposed (see Japanese Patent Publication No. 4-38031).
[0003]
[Problems to be solved by the invention]
Incidentally, in recent years, with the widespread use of IC cards, it has become necessary for IC card readers / writers to take measures against so-called unauthorized use.
[0004]
That is, as the most reliable measure, the conventional IC card reader / writer is configured so that the IC card is returned to the insertion slot after the IC card is taken in and the signal is exchanged with the IC card. On the other hand, if it is determined that the IC card is illegally used by exchanging signals with the IC card, the IC card is inserted into the apparatus provided with the IC card reader / writer. The function to collect is certain, and such a function is required for the recent IC card reader / writer.
[0005]
Further, for example, in a conventional IC card reader / writer as shown in Japanese Patent Publication No. 4-38031, etc., in order for the IC card to move on a fixed planar portion in the case of the IC card reader / writer, IC cards are easily damaged by sliding, and in recent years, IC card readers / writers are required to be as good as possible with minimal damage due to changes in the aesthetics of IC cards by the users of IC cards. Therefore, it is necessary to devise a technique that does not damage the IC card.
[0006]
The present invention has been made in view of the above circumstances, and provides an IC card reader / writer capable of collecting an IC card into the apparatus without returning it to the insertion side. Another object of the present invention is to provide an IC card reader / writer that can process an IC card without damaging it as much as possible.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an IC card reader / writer according to the present invention has a transport means for transporting an IC card, and the IC card is configured to be transported in a transport path by the transport means. An IC card reader / writer, provided with a contact point for transmitting / receiving a signal to / from the IC card so as to face one surface of the transport path; It has a moving part on which an IC card is placed and moves with the IC card, and a guiding part for guiding the moving part, and the moving part is As the IC card is transported, the IC card is guided to the contact point. As possible When the contact contact portion formed on the IC card is brought into contact with the contact, and after the contact and the contact contact portion are contacted, the IC card is further transported in the direction in which the IC card is inserted. Is gradually separated from the IC card with the movement of the IC card, and is located below the surface on the opposite side of the surface on which the contact is located in the transport path, and further transports only the IC card. As possible guide Is provided with a guiding means No Is.
[0008]
In such a configuration, when the IC card is brought into contact with the contact point by the guide means to enable transmission / reception of a predetermined signal, and then the IC card is discharged from the card discharge port of the IC card reader / writer, The guide means is configured to be separated from the contact point together with the IC card, and thereafter, only the guide means is lowered to the lower surface side of the transport path, so that the IC card can be transported to the card discharge port. Unlike the above, it is possible to provide an IC card reader / writer that does not damage the IC card due to movement of the IC card.
[0009]
In order to achieve the above object, an IC card reader / writer according to the present invention has a transport means for transporting an IC card, and the IC card is transported in a transport path by the transport means. An IC card reader / writer comprising: a slide plate on which the IC card is placed and configured to move together with the IC card; and a connector having a contact for exchanging signals with the IC card. The slide plate guide means for guiding the movement of the slide plate is provided in the vicinity of the slide plate, and the slide plate is in the direction of the insertion slot of the IC card. In the initial state before insertion of the IC card, it is always pulled back to the initial position. On the other hand, a card abutting portion on which the leading portion of the IC card is abutted is provided, and the slide plate guide means moves the slide plate from the initial position toward the insertion direction of the IC card. During the predetermined section, it is gradually raised at a predetermined inclination, and after the first predetermined section, it is gradually lowered toward the IC card insertion direction, and the connector is a first predetermined section of the slide plate means. When the slide plate is fixedly installed at the same inclination as the slide plate in the section, the slide plate advances in the insertion direction of the IC card as the IC card is conveyed, and reaches a predetermined position in the first predetermined section, The contact of the connector comes into contact with the contact contact portion formed on the IC card so that information can be exchanged with the IC card. When the card is further conveyed in the insertion direction of the IC card, the slide plate gradually lowers with the conveyance of the IC card and gradually moves away from the connector, and the card abutting portion is conveyed. It is also preferable that the slide plate is positioned below the road and configured so that the slide plate is pulled back to the initial position after the IC card is ejected from a predetermined position.
[0010]
In such a configuration, the IC card can be moved together with the slide plate by the guide of the slide plate guide means, and the slide plate can be ejected from the card discharge port of the IC card reader / writer. When proceeding to the back of the IC card reader / writer beyond the position, the slide plate is configured so as to be gradually separated from the connector by the slide plate guide means and lowered to the lower surface side of the conveyance path. An IC card can be transported to the card discharge port, and unlike the conventional case, the slide plate also moves together with the IC card. Therefore, an IC card reader / writer that does not damage the IC card due to the movement of the IC card is provided. It can be done.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 6.
[0012]
The members and arrangements described below do not limit the present invention and can be variously modified within the scope of the gist of the present invention.
[0013]
First, the configuration of the IC card reader / writer according to the embodiment of the present invention will be described with reference to FIGS.
[0014]
1 and 2 mainly show the mechanical configuration of the IC card reader / writer, and a motor control circuit for controlling the operation of the motor 16 and an IC card reading control for communicating with the IC card. The circuit is not shown.
[0015]
First, the housing 1 of the IC card reader / writer has a substantially rectangular parallelepiped shape, and has a longitudinal axis in the direction in which a later-described transport path 5 is formed. A card insertion slot 2 is provided at the end, and a card discharge slot 3 is provided at the other end (see FIG. 2).
[0016]
Inside the housing 1, the space in which the IC card 4 is transported so as to extend from the card insertion port 2 side to the card discharge port 3 and is sandwiched between the slide plate 21 and the connector 27 as described later is a transport path 5. (See FIG. 2). In FIG. 1, the connector 27 does not appear for easy understanding of the drawing.
[0017]
Further, in the vicinity of one side portion inside the housing 1 and in the vicinity of the card insertion slot 2, the first drive pulley 6 and the first driven roller 8 sandwich the conveyance path 5, and The first drive pulley 6 is on the upper side, and the first driven roller 8 (not shown in FIGS. 1 and 2) is on the lower side of the conveyance path 5 so that the outer peripheral surfaces thereof face each other. (See FIGS. 1, 2 and 5).
[0018]
The first drive pulley 6 is pivotally supported at the center by a first drive shaft 10 made of a rod-like member, and both ends of the first drive shaft 10 are respectively formed on the sides of the housing 1. Further, the predetermined portion of the first drive shaft 10 is freely fitted in a worm forming columnar member 18 as will be described later. 18a is loosely fitted (see FIG. 1).
[0019]
The first driven roller 8 is pivotally supported by a first driven shaft (not shown) made of a rod-shaped member at the center thereof, and the first driven shaft is rotatably attached to the housing 1. It has become.
[0020]
On the other hand, in the vicinity of the card discharge port 3 and in the vicinity of the side portion inside the housing 1 where the first drive pulley 6 and the first driven roller 8 are disposed as described above, the transport path 5 is similarly provided. The second drive pulley 7 is disposed on the upper side of the conveyance path 5, and the second driven roller 9 is disposed on the lower side of the conveyance path 5 so that the outer peripheral surfaces thereof face each other.
[0021]
The second drive pulley 7 is pivotally supported at the center by a second drive shaft 11 made of a rod-shaped member, and both ends thereof are freely rotatable on the respective side walls of the housing 1. In this way, it is locked.
[0022]
Similarly, the second driven roller 9 is also supported at the center by a second driven shaft 13 made of a rod-shaped member, and both ends of the second driven shaft 13 are respectively formed in the casing 1. It is loosely fitted in the recessed groove 31 and is held by a leaf spring 32 so as to be rotatable (see FIG. 2).
[0023]
A card transport belt 15 made of a relatively elastic and flexible member such as rubber is stretched between the first drive pulley 6 and the second drive pulley 7. The rotation of the driving pulley 6 is transmitted to the second driving pulley 7.
[0024]
When the IC card 4 is inserted into the IC card reader / writer from the card insertion slot 2, one side of the leading portion thereof is the first drive pulley 6, the card transport belt 15, and the first driven roller 8. It is supposed to be sandwiched between. In this state, the first drive shaft 10 is rotated by the motor 16. For example, in FIG. 2, the first drive shaft 10 is rotated clockwise about the first drive shaft 10 (hereinafter, this rotational state is referred to as “forward rotation” for convenience. ”), The IC card 4 is further transported into the IC card reader / writer by the first drive pulley 6, the card transport belt 15 and the first driven roller 8. It has become.
[0025]
Both ends of the first drive shaft 10 are locked to the respective side walls of the housing 1 so that the first drive shaft 10 can rotate by itself. Further, the first drive shaft 10 according to the embodiment of the present invention includes a loosely fitted portion 10a that is loosely fitted to a worm-forming cylindrical member 18 to be described later, and a portion (the first drive pulley 6 is attached to the front portion). In this example, the diameter of the loosely fitted portion 10a is larger than the diameter of the shaft end locking portion 10b. (See FIGS. 1 and 3).
[0026]
On the other hand, a motor 16 is provided near the other side of the housing 1, and a worm gear 17 for transmitting the rotational force of the motor 16 is provided between the motor 16 and the first drive shaft 10. (See FIG. 1).
[0027]
That is, the worm 17a is attached to the rotating shaft of the motor 16, and the worm wheel 17b formed on the worm-forming column member 18 is screwed to the worm 17a. When the motor 16 is a motor with a speed reduction mechanism, the driving force of the motor may be transmitted to the first drive shaft 10 using a bevel gear instead of the worm gear 17.
[0028]
The columnar member 18 for forming the worm is a columnar member having a diameter larger than that of the play-fit portion 10a of the first drive shaft 10, and the end of the first drive shaft 10 is driven at one end thereof. A loose fitting hole 18a is formed in a cylindrical shape so that the fitting portion 10a can be loosely fitted (see FIG. 3).
[0029]
That is, a worm 17a is attached to the motor 16, and a worm wheel 17b formed on the worm-forming column member 18 is screwed to the worm 17a.
[0030]
Further, on the end face of the worm forming columnar member 18 on the side where the loose fitting hole 18a is formed, the worm side locking projections 19a and 19b are respectively separated in the axial direction by approximately 180 degrees in the circumferential direction. It is a projecting one (see FIG. 3). In the embodiment of the present invention, a part of the worm-forming columnar member 18 extends in the axial direction to form the worm-side locking projections 19a and 19b, respectively. The worm-forming columnar member 18 may be provided separately from the worm-forming columnar member 18.
[0031]
Further, from the other end of the worm-forming column member 18, that is, from the end opposite to the side where the worm side locking projections 19a and 19b are provided, the shaft end locking portion of the first drive shaft 10 is provided. 10b can be penetrated, and the end thereof is locked to the other side wall of the housing 1 as described above.
[0032]
On the other hand, two drive shaft side locking projections 20a and 20b are projected outwardly on the outer peripheral surface of the to-be-fitted portion 10a of the first drive shaft 10 at a distance of 180 degrees in the circumferential direction ( (See FIG. 3). The positions of the drive shaft side locking projections 20a, 20b in the axial direction of the first drive shaft 10 are such that the loosely fitted portion 10a is loosely fitted in the loose fit hole 18a of the worm forming columnar member 18, and In the state where both ends of the first drive shaft 10 are locked to the housing 1 (in other words, in use), the worm-forming column member 18 in which the two worm side locking projections 19a and 19b are formed. It is set to be located in the vicinity of the end face. Therefore, in use, the two drive shaft side locking projections 20a and 20b and the two worm side locking projections 19a and 19b are arranged in the circumferential direction of the first drive shaft 10 (or the worm forming columnar member 18). In the circumferential direction), and the first drive shaft 10 is rotatable between the two worm side locking projections 19a and 19b (see FIG. 4). In other words, the first drive shaft 10 is rotatable in the range of the angle θ formed by the two worm side locking projections 19a and 19b in the circumferential direction.
[0033]
In this configuration example, two worm side locking projections 19a and 19b and two drive shaft side locking projections 20a and 20b are provided. However, it is not always necessary to provide two, one by one. The configuration may be provided.
[0034]
The slide plate 21 is formed in a rectangular shape in its outer shape (outer shape that appears when the IC card reader / writer is viewed from the direction shown in FIG. 1), in the vicinity of the card insertion slot 2, and The side edge portion is provided so as to be parallel to the card conveying belt 15 and to be positioned immediately below the conveying path 5 (see FIGS. 1 and 2), and a slide plate guide 25a, which will be described later, By 25b, it can move along the longitudinal axis direction of the transport path 5 (direction in which the card transport belt 15 is stretched).
[0035]
Further, the slide plate 21 according to the embodiment of the present invention has a shape (a shape appearing in FIG. 2) viewed from the side surface as described below. That is, as shown in FIG. 2, the surface opposite to the surface facing the conveyance path 5 is formed as a flat surface, while the surface side facing the conveyance path 5 is a tip portion from almost the center. A first inclined portion 21a having a slight inclination toward the side (card discharge port 3 side) and a second inclination having a larger inclination than the first inclined portion 21a from the vicinity of the center to the rear end side (card insertion port 2 side). The two portions with the inclined portion 21b are formed. The inclination of the first inclined part 21a is extremely smaller than that of the second inclined part 21b. Note that the preferred magnitude of the inclination of the second inclined portion 21b will be clarified in the description of the operation described later.
[0036]
Further, one end of a return spring 22 as an initial position return means formed in a coil shape is locked to the slide plate 21, and the other end of the return spring 22 is closer to the card insertion slot 2 side. It is latched at an appropriate part. Therefore, when the operation of the IC card reader / writer is stopped, the slide plate 21 receives the return force of the return spring 22 and is positioned at a predetermined position, that is, an initial position. . In the embodiment of the present invention, one end of the return spring 22 is locked to an appropriate portion on the lower surface of the slide plate 21 (the surface opposite to the surface facing the conveyance path 5). (See FIG. 2).
[0037]
In the embodiment of the present invention, the initial position return means is realized by the return spring 22. However, the initial position return means does not necessarily have to be a spring, and other members can be used as long as they have the same effect. Etc. may be realized. For example, the initial position return means can be realized by configuring the slide plate 12 to return to the initial position when necessary via a motor and an appropriate mechanism for converting the rotational force of the motor into linear reciprocating motion. Good.
[0038]
In addition, at the leading portion of the slide plate 21 (the portion opposite to the card insertion slot 2 side), the card contact portions 23a and 23b formed in a rectangular shape are transported to the side edge portion of the slide plate 21. 5 so as to protrude upward (see FIGS. 1 and 2). The card abutting portions 23a and 23b are configured such that when the IC card 4 is inserted into the IC card reader / writer, the leading portion of the IC card 4 is just abutted.
[0039]
Furthermore, on both sides of the slide plate 21 (in the direction along the conveyance path 5, in other words, in the side along the direction in which the card conveying belt 15 is stretched) Slide plate protrusions 24a to 24d are provided so as to protrude sideways at the respective side edge portions in the vicinity of the end portion (portion in the vicinity of the end portion on the card insertion slot 2 side) (see FIGS. 1 and 2).
[0040]
The slide plate protrusions 24a to 24d are loosely fitted in plate guide grooves 26a to 26d as plate guide engaging portions of the slide plate guides 25a and 25b provided in the immediate vicinity of both sides of the slide plate 21. It has become.
[0041]
In other words, the slide plate guides 25 a and 25 b are provided in the vertical direction inside the housing 1 in the direction orthogonal to the conveyance path 5 in the vicinity of both sides of the slide plate 21. In the embodiment of the present invention, a recess 1a is formed in a part of the housing 1, and both side surfaces of the recess 1a (surfaces in the direction in which the card transport belt 15 is stretched) are slide plates. Guides 25a and 25b (see FIG. 1).
[0042]
The slide plate guides 25a and 25b are formed with plate guide grooves 26a to 26d having a predetermined shape (details will be described later) (FIG. 2 shows one plate guide groove 26a and 26c. ) That is, the plate guide grooves 26a and 26b as the first plate guide engaging portions are located at portions of the slide plate guides 25a and 25b from the card discharge port 3, and the plate guide groove 26a is connected to the slide plate guide 25a and the plate guide. The grooves 26b are provided so as to face the slide plate guide 26b, respectively. Further, the plate guide grooves 26c and 26d as the second plate guide engaging portions are located at portions of the slide plate guides 25a and 25b from the card insertion slot 2, and the plate guide groove 26c is formed on the slide plate guide 25a and the plate guide. The grooves 26d are provided so as to face the slide plate guide 26b, respectively.
[0043]
The two plate guide grooves 26a and 26b have the same shape, and are directed from the card insertion port 2 side toward the card discharge port 3 (in other words, in the insertion direction of the IC card 4). It is formed in the shape of immediately preceding over a first predetermined length so as to approach the conveying path 5 with a predetermined inclination (in other words, gradually rise with a predetermined inclination). (First predetermined section), and then formed horizontally for a certain length (second predetermined section). Further, a portion following the second predetermined section is predetermined with a predetermined inclination in the downward direction. Is formed in a straight line (third predetermined section) (see FIG. 2). That is, the third predetermined section is formed so as to gradually descend with a predetermined inclination.
[0044]
The two plate guide grooves 26c and 26d have the same shape, and are directed from the card insertion port 2 side toward the card discharge port 3 (in other words, in the insertion direction of the IC card 4). It is formed in the shape of immediately preceding over a first predetermined length so as to approach the conveying path 5 with a predetermined inclination (in other words, gradually rise with a predetermined inclination). (First predetermined section), a portion following the first predetermined section is formed in a horizontal and linear shape (see FIG. 2). The inclination of the plate guide grooves 26c and 26d in the first predetermined section is set to be the same as or substantially the same as the inclination of the previous plate guide grooves 26a and 26b in the first predetermined section.
[0045]
Accordingly, the slide plate 21 is guided by the slide plate protrusions 24a to 24d being loosely fitted in the plate guide grooves 26a to 26d, and therefore, from the initial position toward the card discharge port 3, during the first predetermined section, As it goes to the card discharge port 3, it gradually rises (in other words, moves toward the transport path 5). In this configuration example, the second predetermined predetermined point is just from the end point of the first predetermined interval. As will be described later, when the IC card 4 is placed on the slide plate 21, the contact 27a provided on the connector 27 is formed on the IC card 4, as will be described later. It just contacts the contact portion (not shown).
[0046]
The second predetermined section is set to be relatively short, and when the third predetermined section is entered past this section, the portion of the slide plate 21 in which the first inclined portion 21a is formed is preferably a card. As it goes toward the discharge port 3 (in other words, as it goes in the direction of insertion of the IC card 4), it gradually descends from its leading portion, and eventually the card contact portions 23a and 23b are moved along the transport path 5. It can be lowered until it is located on the lower surface side.
[0047]
The slide plate guides 25a and 25b may be formed integrally with the housing 1 as in the embodiment of the present invention, or may be provided separately from each other. May be provided so as to be orthogonal to the bottom of the housing 1.
[0048]
At a position facing the slide plate 21 across the transport path 5, the connector 27 has a contact 27a provided on the connector 27 having the same inclination as the inclination of the first predetermined section of the plate guide grooves 26a to 26d. It is fixed at an appropriate position of the housing 1 so as to be (see FIG. 1).
[0049]
The connector 27 is formed in a substantially rectangular shape when viewed from the upper surface side (as shown in FIG. 1 when the IC reader / writer is viewed from the upper surface side). In other words, a plurality of contacts 27a made of a conductive member are provided on the side facing the transport path 5, and signals are exchanged between the IC card 4 and the IC card 4 (not shown) via the contacts 27a. Signals can be exchanged with this circuit (see FIG. 2).
[0050]
The flat surface 1b on the motor 16 side adjacent to the previous recess 1a has a rectangular shape at a position corresponding to the position where the IC card 4 passes from the vicinity of the card insertion slot 2 to the vicinity of the card discharge slot 3. First to fourth card sensor light transmitting holes 28a to 28d that are relatively small are formed (see FIG. 1). For example, so-called photocouplers (not shown) are disposed above and below the first to fourth card sensor light transmission holes 28a to 28d, respectively. That is, the photocoupler is composed of a light emitting element and a light receiving element (not shown), and light from the light emitting element (not shown) passes through the first to fourth card sensor light transmitting holes 28a to 28a. Light is received by the light receiving element constituting the photocoupler via 28d, and the light from the light emitting element is blocked by the IC card 4 passing through the place where the photocoupler is provided. The passage of the IC card 4 can be detected by the change in the output signal of the element. The presence or absence of passage of the IC card 4 by this photocoupler is made by a motor control circuit (not shown) used for driving control of the motor 16 as will be described later, and the motor 16 is based on the detection result. The drive control is performed. In addition, although this motor control circuit is accommodated in the housing | casing 1, for example, the illustration is abbreviate | omitted in FIG.1 and FIG.2.
[0051]
Next, the operation in the above configuration will be described with reference to FIGS. 2, 5, and 6. FIG.
[0052]
First, the user inserts the IC card 4 into the IC card reader / writer through the card insertion slot 2, and the insertion is provided above and below the first card sensor light transmission hole 28a (in the direction of the paper surface in FIG. 1). Is detected by a photocoupler (not shown), the motor control circuit (not shown) starts driving the motor 16, and the motor 16 has a portion facing the conveying path 5 of the card conveying belt 15 Referring to FIG. 2, in the direction sent from the card insertion port 2 side to the card discharge port 3 side (in other words, the direction in which the first drive shaft 10 is rotated clockwise in FIG. 2). The motor 16 is driven to rotate (hereinafter, the rotation state of the motor 16 is referred to as “normal rotation state”). When the motor 16 is in the forward rotation state, the first drive shaft 10 starts to rotate in the clockwise direction, and at the same time, the portion facing the transport path 5 of the card transport belt 15 is from the card insertion slot 2 side to the card. It will begin to move in the direction of the discharge port 3.
[0053]
Then, the user further inserts the IC card 4, and the side of the IC card 4 on the card transport belt 15 side is connected to the first drive pulley 6, the card transport belt 15, and the first driven roller 8. If they are put in between, the IC card 4 starts to move in the direction of the card discharge port 3 due to the conveying force, and the leading portion of the IC card 4 comes into contact with the card contact portions 23a and 23b. After the contact, the slide plate 21 together with the IC card 4 is moved in the direction of the card outlet 3.
[0054]
That is, since the slide plate 21 is provided with slide plate protrusions 24a to 24d loosely fitted in the plate guide grooves 26a to 26d, the slide plate 21 moves along with the movement of the IC card 4 and the plate guide grooves 26a to 26d. It will move by the guidance of. Since the plate guide grooves 26a to 26d are inclined in the reverse direction toward the transport path 5 in the first predetermined section as described above, the slide plate 21 is directed toward the card outlet 3 Gradually moves upward in the direction of the conveyance path 5, and along with the rise, a part of the slide plate guide 21 gradually moves from the leading side of the slide plate 21 (card contact portions 23a, 23b), that is, One inclined portion 21a appears on the upper side of the conveyance path 5 (the side on which the connector 27 is located) (see FIG. 5A).
[0055]
Then, the conveyance of the IC card 4 proceeds, and when the slide plate protrusions 24a and 24b are located almost near the end point of the first predetermined section of the plate guide grooves 26a and 26b, the contact 27a provided on the connector 27 is connected to the slide plate 21. It is just in contact with a contact contact portion (not shown) formed on the IC card 4 (see FIG. 5B). At the same time, at this position, the tip portion of the IC card 4 (the portion that contacts the card contact portions 23a and 23b of the slide plate 21) is above and below the third card sensor light transmission hole 28c (the front and back direction in FIG. 1). ) Is detected by a photocoupler (not shown), and the drive of the motor 16 is temporarily stopped by a motor control circuit (not shown) according to the detection result.
[0056]
When driving of the motor 16 is stopped, an IC card reading control circuit (not shown) provided outside starts communication processing with the IC card 4 via the contact 27a, and various data are exchanged between them. At the same time, it is determined whether or not the IC card 4 is of a so-called unauthorized use (see FIG. 5B).
[0057]
At this position, the second inclined portion 21b of the slide plate 21 has only a portion close to the first inclined portion 21a that appears on the upper side of the conveying path 5, and most of the second inclined portion 21b is located on the lower side of the conveying path 5. (Refer to FIG. 5B).
[0058]
If it is determined by the unauthorized use or not, the motor control circuit (not shown) corrects the motor 16 by a control signal from the IC card reading control circuit (not shown). It will be in a rolling state.
[0059]
As a result, the IC card 4 receives a conveying force in the direction of the card discharge port 3 by the card conveying belt 15, so that the slide plate 21 is also moved in the direction of the card discharge port 3 together with the IC card 4.
[0060]
As the slide plate 21 moves, the slide plate protrusions 24a and 24b are guided to a third predetermined section that is descending at a predetermined inclination through a second predetermined section that is formed horizontally by a small length. Therefore, the IC card 4 is separated from the contact point 27a, and the slide plate 21 starts to gradually descend mainly at the front half (the side where the first inclined portion 21a is formed). On the other hand, when the movement of the slide plate 21 is resumed, the slide plate protrusions 24c and 24d are guided to the horizontally formed portions following the first predetermined section of the plate guide grooves 26c and 26d. In the portion on the side where the second inclined portion 21b is formed, the relative position with respect to the transport path 5 is maintained almost constant even when the slide plate 21 moves.
[0061]
As the movement of the IC card 4 and the slide plate 21 proceeds, the card contact portions 23a and 23b are positioned on the lower surface side of the transport path 5 (see FIG. 6A). Thereby, the conveying force by the card conveying belt 15 via the IC card 4 is not transmitted to the slide plate 21 and the movement of the slide plate 21 is stopped, while only the IC card 4 is still in the direction of the card discharge port 3. It will be conveyed to. Since the IC card 4 is positioned on the upper surface side, the slide plate 21 is still in a state where it cannot return to the initial position by the return force of the return spring 22 at this time.
[0062]
When the IC card 4 has been transported and its rear end portion (the end on the card insertion slot 2 side) has slipped out of the space between the first drive pulley 6 and the card transport belt 15 and the first driven roller 8, it is just The leading portion of the IC card 4 is sandwiched between the second drive pulley 7 and the card conveying belt 15 and the second driven roller 9, and the IC card 4 is further conveyed thereby. Finally, the card is discharged from the card discharge port 3 to the outside of the IC card reader (in the apparatus in which the IC card reader is incorporated) (see FIG. 6B).
[0063]
In this case, the motor 16 passes through the rear end portion of the IC card 4 by a photocoupler (not shown) provided above and below the fourth card sensor light transmission hole 28d (the front and back direction in FIG. 1). Is detected, the drive is stopped by a motor control circuit (not shown).
[0064]
When the IC card 4 is discharged, there is no IC card 4 that obstructs the return of the slide plate 21 to the initial position, and the slide plate 21 is pulled back to the initial position by the return spring 22 ( (See FIG. 6B).
[0065]
In the case of sending the IC card 4 to the card discharge port 3, in the above example, photocouplers (not shown) provided above and below the fourth card sensor light transmission hole 28d (front and back in FIG. 1). ), The driving of the motor 16 is stopped by detecting the passage of the rear end of the IC card 4 (the end on the card insertion slot 2 side), but such a configuration is not necessarily required. Absent. For example, the IC card 4 is controlled so as not to drive the motor 16 in the forward rotation direction for a time sufficient for the IC card 4 to pass between the second driving pulley 7 and the card conveying belt 15 and the second driven roller 9. May be performed.
[0066]
On the other hand, the conveyance of the IC card 4 is temporarily stopped by a photocoupler (not shown) provided above and below the third card sensor light transmission hole 28c (in the front and back direction in FIG. 1). When communication with the card 4 is performed and it is determined that the IC card 4 is not of a so-called unauthorized use, after the necessary communication is performed, the IC card 4 is again connected as described below. It will be returned to the user from the card insertion slot 2.
[0067]
First, when it is determined that the IC card 4 is not illegally used by an IC card reading control circuit (not shown) and communication with the necessary IC card 4 is completed, the IC card reading control circuit performs a motor control circuit (not shown). A predetermined signal for starting the motor drive is output. The motor 16 is driven (reversed) by the motor control circuit in the direction in which the IC card 4 is conveyed toward the card insertion slot 2. That is, the motor 16 is driven so that the portion of the card transport belt 15 facing the transport path 5 is sent in the direction of the card insertion slot 2 in FIG. 2, and the IC card 4 is thereby returned to the card insertion slot 2. Will be. Then, by a photocoupler (not shown) provided above and below the second card sensor light transmission hole 28b (the front and back direction in FIG. 1), the front end portion of the IC card 4 (the end on the card discharge port 3 side). Is detected by a motor control circuit (not shown).
[0068]
Here, even if the IC card 4 is transported to the card insertion slot 2, a part of the side portion of the IC card 4 on the card transport belt 15 side is connected to the first drive pulley 6 and the card transport belt 15. Since the IC card 4 is sandwiched between the one driven roller 8 and the IC card 4, the IC card 4 does not jump out.
[0069]
After the motor 16 stops, the user can grasp and pull out the IC card 4 that is partially exposed to the outside from the card insertion slot 2. As described above, this is because a part of the first drive shaft 10 is loosely fitted in the loose fitting hole 18a formed in the worm forming columnar member 18, and a predetermined range of rotation in the circumferential direction is achieved. A part of the side of the IC card 4 on the side of the card conveying belt 15 is between the first driving pulley 6 and the card conveying belt 15 and the first driven roller 8. This is because the first drive pulley 6 can be rotated together with the first drive shaft 10 in the sandwiched state, and thereby the card transport belt 15 can also be moved.
[0070]
When the IC card 4 is returned to the card insertion slot 2, in the above-described example, photocouplers (not shown) provided above and below the second card sensor light transmission hole 28b (the front and back direction in FIG. 1). ) Is used to control the driving of the motor 16 by detecting the passage of the front end of the IC card 4 (the end on the card discharge port 3 side), but such a configuration is not necessarily required. . For example, since it is determined that the IC card 4 is not improperly used and necessary communication with the IC card 4 is determined to be completed, the motor 16 is not driven in the reverse direction for a predetermined time. Control may be performed. That is, here, the predetermined time is a time suitable for the IC card 4 to be returned to the card insertion slot 2, and is determined in advance by simulation, experiment, or the like in consideration of the rotational speed of the motor 16. In this case, in order to prevent the IC card 4 from popping out, near the card discharge port 3, for example, from the front side to the back side of the IC card 4, or from one side to the other side of the IC card 4. It is preferable to provide a member such as a leaf spring for pressing the IC card 4.
[0071]
In the above example, the first and second drive pulleys 6 and 7, the first and second driven rollers 8 and 9, and the card transport belt 15 are used to transport the IC card 4. This is not necessarily the case. For example, instead of the first and second drive pulleys 6 and 7, rollers (not shown) made of a relatively elastic member such as rubber are used as the first drive roller and the second drive roller, respectively. In addition, as indicated by a two-dot chain line in FIG. 1, one end of each of the first and second drive shafts 10 and 11 is extended to the outside of the housing 1, and pulleys 29a and 29b are provided at the ends thereof. In addition, the driving belt 30 may be stretched around the pulleys 29a and 29b.
[0072]
In this case, the distance between the first driving roller and the first driven roller 8 and the second driving roller and the second driven roller 9 is the same as the distance between the first driving roller and the first driven roller 8. It is preferable to set the leading portion of the IC card 4 so as to be sandwiched between the second driving roller and the second driven roller 9 when the rear end portion of the IC card 4 passes between them.
[0073]
In the embodiment of the invention described above, the guide means is realized by the slide plate protrusions 24a to 24d formed on the slide plate 21 and the slide plate guides 25a and 25b, and the slide plate 21 moves the moving part to the slide plate protrusion 24a. The guide portions are realized by ˜24d and the plate guide grooves 26a˜26d, respectively. Further, the slide plate guide means is realized by the slide plate protrusions 24a to 24d formed on the slide plate 21 and the slide plate guides 25a and 25b.
[0074]
【The invention's effect】
As described above, according to the present invention, the portion where the back side of the IC card is located can be moved in the IC card reader / writer, and can be lowered to the lower surface side of the transport path as necessary. Since it is configured, the back side of the IC card is not damaged, and when it is necessary to collect the IC card, the IC card can be transported to the card discharge port, and the IC card is reliably collected. There is an effect that it is possible.
[Brief description of the drawings]
FIG. 1 is a plan view of an IC card reader / writer according to an embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of an IC card reader / writer according to an embodiment of the present invention.
FIG. 3 is an exploded perspective view showing a state in which a worm is attached to a first drive shaft.
FIG. 4 is an explanatory diagram illustrating a state of rotation of a first drive shaft.
FIGS. 5A and 5B are schematic diagrams for explaining a state of transporting an IC card, in which FIG. 5A is a schematic diagram showing a state when an IC card is inserted, and FIG. 5B is a schematic diagram showing a position of a communication state; FIG.
6A and 6B are schematic diagrams for explaining the state of transport of an IC card, where FIG. 6A is a schematic diagram showing a case where the IC card is collected from the card discharge port, and FIG. 6B is an IC card. It is a schematic diagram which shows the state when is discharged | emitted from a card | curd discharge port.
[Explanation of symbols]
2 ... Card insertion slot
3 ... Card outlet
5 ... Conveying path
21… Slide plate
23a, 23b ... Card contact part
25a, 25b ... Slide plate guide
26a-26d ... Plate guide groove
27… Connector
27a… Contact

Claims (7)

An IC card reader / writer comprising transport means for transporting an IC card, wherein the IC card is configured to be transported in the transport path by the transport means;
A contact point for transmitting and receiving signals to and from the IC card is provided so as to face one surface of the transport path,
A moving unit that moves with the IC card by placing the IC card; and a guiding unit that guides the moving unit. The moving unit is configured to move the IC card along with the conveyance of the IC card by the guiding unit. The IC card can be guided to the contact, and a contact contact portion formed on the IC card is brought into contact with the contact, and after the contact and the contact contact portion are brought into contact, the IC card is conveyed by the conveying means. When the IC card is further transported in the direction in which the IC card is inserted, the IC card is gradually separated from the IC card as the IC card moves, and is moved to the lower side of the surface opposite to the surface on the side where the contacts are located. located, the I C card writer you characterized in that guided comprising guide means so as to allow further transportation of the IC card only is provided. In the initial state before insertion of the IC card, while the moving part is maintained at the initial position,
After the moving unit is located below the surface of the transport path opposite to the surface on which the contact is located, the IC card is further transported and separated from the moving unit, and then the moving unit is moved to the initial position. IC card reader-writer according to claim 1, wherein the return initial position means formed by arrangement to return to the position wherein the thus provided. An IC card reader / writer comprising transport means for transporting an IC card, wherein the IC card is configured to be transported in the transport path by the transport means;
A slide plate on which the IC card is placed and configured to move together with the IC card;
A contact point for exchanging signals with the IC card is provided so as to face each other across the conveyance path;
Slide plate guide means for guiding the movement of the slide plate is provided in the vicinity of the slide plate, and the slide plate is always subjected to a return force by an initial position return means in the direction of the IC card insertion slot, In the initial state before insertion of the IC card, a card abutting portion on which the leading portion of the IC card is abutted is provided while being pulled back to the initial position,
The slide plate guide means gradually raises the slide plate at a predetermined inclination during a first predetermined section from the initial position toward the insertion direction of the IC card, and after the first predetermined section. , Gradually descend as you go in the IC card insertion direction,
The contact is fixedly installed at the same inclination as the inclination of the slide plate in the first predetermined section of the slide plate means;
When the slide plate advances in the insertion direction of the IC card as the IC card is transported and reaches a predetermined position in the first predetermined section, the contact comes into contact with a contact contact portion formed on the IC card. It is possible to exchange information with the IC card.
When the IC card is further conveyed in the insertion direction of the IC card, the slide plate gradually descends with the conveyance of the IC card and gradually moves away from the contact point, and the card contact portion is conveyed. An IC card reader / writer, wherein the IC card reader / writer is located below the path, and is configured such that after the IC card is ejected from a predetermined position, the slide plate is pulled back to the initial position. An IC card reader / writer comprising transport means for transporting an IC card, wherein the IC card is configured to be transported in the transport path by the transport means;
A slide plate on which the IC card is placed and configured to move together with the IC card;
A contact point for exchanging signals with the IC card is provided so as to face each other across the conveyance path;
Near the side of the slide plate, there is provided a slide plate guide for guiding the movement of the slide plate along the longitudinal axis direction of the transport path,
The slide plate is always subjected to a return force by the initial position return means in the direction of the IC card insertion slot, and is pulled back to the initial position in the initial state before the insertion of the IC card, while the leading portion of the IC card. Is provided with a card abutting portion on which the card abuts, a side edge portion of the slide plate near the end of the card abutting portion, and a card abutting portion of the slide plate. On the side edge portion in the vicinity of the end portion on the opposite side to the other side, there are provided slide plate protrusions that are formed to protrude in the direction of the slide plate guide,
The slide plate guide includes a first plate guide engaging portion that engages a slide plate protrusion provided on a side edge portion of the slide plate on the side where the card contact portion is provided, and the slide plate A second plate guide engaging portion to which a slide plate protrusion provided on a side edge portion opposite to the side on which the card contact portion is provided is engaged,
The first plate guide engaging portion is a predetermined portion of a portion of the slide plate on the side where the card contact portion is provided during a first predetermined interval from the initial position toward the IC card insertion direction. It is formed so that it gradually rises with an inclination of, and after the first predetermined section, it gradually drops as it goes in the insertion direction of the IC card,
The second plate guide engaging portion has a portion of the slide plate on the side opposite to the side where the card abutting portion is provided in the first predetermined section from the initial position toward the insertion direction of the IC card. In the meantime, the IC card is gradually raised at a predetermined inclination, and after the first predetermined section, the IC card is formed to be maintained in a substantially horizontal state,
The contact is fixed with the same inclination as the inclination of the slide plate in the first predetermined section of the first plate guide engaging portion,
When the slide plate advances in the insertion direction of the IC card as the IC card is transported and reaches a predetermined position in the first predetermined section, the contact comes into contact with a contact contact portion formed on the IC card. It is possible to exchange information with the IC card.
When the IC card is further conveyed in the insertion direction of the IC card, the portion of the slide plate on the side where the card contact portion is provided is separated from the contact while gradually descending. The card contact portion is located below the transport path, and the slide plate is configured to be pulled back to the initial position after the IC card is ejected from a predetermined position. IC card reader / writer. In the vicinity of the IC card insertion position, the conveying means is provided with the first driving pulley and the first driven roller being pivotally supported across the conveying path,
In the vicinity of the discharge position of the IC card, a second drive pulley and a second driven roller are pivotally provided across the transport path, respectively.
A card transport belt is stretched over the first drive pulley and the second drive pulley,
Claim 2, claim 3 or claim 4 IC card reader-writer according, wherein the first drive pulley is provided rotatably by a motor. A drive shaft is attached to the center of the first drive pulley, and the rotation of the motor is transmitted through the worm gear at the end of the drive shaft opposite to the first drive pulley. 6. The IC card reader / writer according to claim 5, wherein: The worm constituting the worm gear is formed on the outer peripheral surface of a worm-forming cylindrical member having a diameter larger than that of the drive shaft, and the loosely-fitted in which the drive shaft is loosely fitted at the axial center of the worm-forming cylindrical member. A hole is formed, and the drive shaft is loosely fitted;
At least one worm side locking projection is provided in the axial direction of the drive shaft at a predetermined interval in the circumferential direction of the column member for worm formation,
In the state where at least one drive shaft side locking projection is spaced from the outer peripheral surface of the drive shaft at a predetermined interval in the circumferential direction, and the end of the drive shaft is loosely fitted in the loose fitting hole, The worm side locking projection is projected at an appropriate position in the axial direction of the drive shaft so as to be located in the vicinity of the end surface of the worm-forming columnar member.
7. The IC card reader / writer according to claim 6, wherein the drive shaft is configured to be rotatable within a range of a predetermined angle.

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