JP3744269B2 - Card reader - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card reader for recording and / or reproducing data on a card.
[0002]
[Prior art]
In recent years, a magnetic recording layer capable of magnetic recording on part of cards such as membership cards, ID cards, credit cards, cash cards, IC cards, prepaid cards, and leuco dyes that can print / erase print data by heat treatment In addition, a card having an IC chip inside the card and capable of recording / erasing information in the IC chip by a digital or analog signal from the outside is becoming widespread. There is a need for a card reader that records information or reproduces information from a card.
[0003]
A conventional card reader will be described below with reference to the drawings.
[0004]
FIG. 5 is a side view of a main part of a conventional card reader for recording and reproducing information on a card having a magnetic recording layer or a heat-sensitive recording layer.
[0005]
In FIG. 5, 40 is a card reader, 41 is a frame of the card reader 40, 42 is a conveyance path formed in the frame 41, 42a is a side wall of the conveyance path 42 and guides a card conveyed in the conveyance path 42. A guider 43 communicates with the conveyance path 42 and a card insertion slot formed on the front side of the card insertion slot 43. 44a, 44b, and 44c are conveyance rollers that are rotatably supported at the bottom of the conveyance path 42 in the frame 41. 45a, 45b, 45c are driven rollers rotatably supported on the upper portion of the conveying path 42 in the frame 41 so as to face the conveying rollers 44a, 44b, 44c, and 46 is provided via a rotational power transmission means such as a gear or a belt. A drive motor 47 that rotationally drives the transport rollers 44a, 44b, and 44c, 47 is disposed under the transport path 42 and magnetically transfers data to a card transported in the transport path 42. A magnetic head for recording and reproduction, 47a is a pressure roller disposed above the magnetic head 47 and presses the card conveyed in the conveyance path 42 against the magnetic head 47, and 48 is disposed above the conveyance path 42 and is conveyed. An erasing head for erasing the print data printed on the card conveyed in the inside 42, a thermal head 49 disposed on the upper part of the conveying path 42 and printing the printing data on the card conveyed in the conveying path 42, Reference numerals 48a and 49a denote erasing heads 48 and a platen roller rotatably supported at the lower part of the thermal head 49, and 50 supports the erasing head 48 and the thermal head 49 and the erasing head 48 and the thermal head 49 to the platen rollers 48a and 49a. It is a head support that presses and urges.
[0006]
The card inserted into the transport path 42 from the card insertion slot 43 is transported from the front to the back in the transport path 42 by the rotation of the transport rollers 44a, 44b, and 44c. Information is magnetically recorded on the magnetic recording layer of the card conveyed in the conveying path 42 by the magnetic head 47, and magnetic data recorded on the magnetic recording layer of the card is reproduced by the magnetic head 47. Print data is thermally printed on the thermal recording layer of the card conveyed in the conveyance path 42 by the thermal head 49, and the print data printed on the thermal recording layer of the card is erased by the erasing head 48.
[0007]
FIG. 6 is a side view of a main part of a conventional card reader for recording and reproducing information on a card having an IC chip inside.
[0008]
In FIG. 6, 60 is an IC reader unit, 61 is a frame of the IC reader unit 60, 62 is a card insertion groove formed in the frame 61, and 63 is opened in the front side surface of the frame 61 and communicates with the card insertion groove 62. A card insertion slot 64 is disposed at the upper portion of the card insertion groove 62 and is electrically connected to the electrode terminal of the IC of the card inserted into the card insertion groove 62, and 65 projects to the lower surface of the IC contact section 64. It is a contact terminal that comes into contact with the electrode terminal of the IC of the card that is provided and inserted into the card insertion groove 62.
[0009]
When a card is inserted into the card insertion groove 62 from the card insertion slot 63, the contact terminal 65 slides on the upper surface of the card, and when the card is inserted to the innermost part of the card insertion groove 62, the contact terminal 65 is Contact the electrode terminal of the IC on the top of the card. As a result, information can be recorded or reproduced on the IC of the card.
[0010]
[Problems to be solved by the invention]
However, the conventional card reader has the following problems.
[0011]
(1) In a card reader that records and reproduces information with respect to a card having an IC chip inside, the IC contact portion 64 is fixed to the upper part of the card insertion groove 62, so that the connection terminal of the IC of the card is worn. In this case, the contact between the connection terminal of the IC of the card and the contact terminal 65 of the IC contact portion 64 becomes poor, and an error is likely to occur when information is recorded on or reproduced from the IC of the card.
[0012]
(2) In a card reader that records and reproduces information with respect to a card having an IC chip inside, the contact terminal 65 of the IC contact portion 64 scratches the upper surface of the card, scratches the card, and the appearance of the card In addition, the connection terminal of the card IC is scratched, and an error is likely to occur when information is recorded on or reproduced from the card IC.
[0013]
(3) A magnetic recording layer capable of magnetic recording on a part of the card, a leuco dye-based thermal recording layer capable of printing / erasing print data by heat treatment, etc., and an IC chip inside the card. When recording information on a card capable of recording / erasing information in the IC chip by an external digital or analog signal, when recording / reproducing magnetic recording on / from the magnetic recording layer of the card, or When printing and erasing print data on the heat-sensitive recording layer, a card reader that records and reproduces information on the magnetic recording layer or the card having the heat-sensitive recording layer as shown in FIG. 5 is used. When recording and reproducing information with respect to the IC of the card, it is necessary to use a card reader that records and reproduces information with respect to the card having the IC chip inside as shown in FIG. It is not possible for recording and reproducing information to over de rapidly.
[0014]
(4) A card reader for recording and reproducing information on a card having a magnetic recording layer or a heat-sensitive recording layer as shown in FIG. 5, and a card having an IC chip inside as shown in FIG. On the other hand, a card reader that records and reproduces information must be used side by side, so a large installation space is required, and wiring for connecting to other information devices is complicated and lacks convenience. .
[0015]
  SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and is for recording and reproducing information on a card IC.Bad connection,Prevents card scraping by contact terminalsCanIt is an object of the present invention to provide a card reader that can quickly record and reproduce information on a card and can be configured compactly.
[0016]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention provides a card conveyance path through which a card is conveyed, a conveyance roller disposed along the conveyance path to convey a card in the conveyance path, and a card in the conveyance path. For recording and / or reproducing data recorded on a card in a conveyance pathWhen,Printing means for recording print data on a cardWhen,Image erasing means for erasing print data recorded on a cardWhen,An IC reader unit that is connected to the transport path and records and / or reproduces information with respect to the IC inside the card.PreparedA card reader, the IC reader unit includes a card insertion groove into which a card is inserted;Moves in the direction along the card insertion groove while resisting the elastic force acting in the opposite direction under pressure from the card, and temporarily stops at a predetermined position for recording and / or reproduction under the action of the elastic force, and thereafter A slider that returns to its original state by elastic force, an IC contact portion that is rotatably disposed on the slider and that contacts the electrode terminals of the IC on the card surface and records and / or reproduces information, and a slider as the slider moves The IC contact portion moving mechanism that rotates the IC contact portion by the pin and the lifting guide to bring it closer to the card surface, and a cam that abuts against the protrusion provided on the slider and restricts the movement of the slider. A side surface for moving in the direction along the card insertion groove and a concave groove portion for temporarily stopping the slider at a predetermined position for recording and / or reproduction are provided.Consists of composition.
[0017]
  With this configuration, information can be recorded and reproduced on the card IC.Bad connection,Prevents card scraping by contact terminalsCanIt is possible to provide a card reader that can quickly record and reproduce information on a card and can be configured compactly.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
  In order to achieve the above object, a card reader according to claim 1 of the present invention includes a card transport path through which a card is transported, and a transport that is disposed along the transport path and transports a card in the transport path. Data recording / reproducing means for recording data on a roller and a card in the conveyance path and / or reproducing data recorded on a card in the conveyance pathWhen,Printing means for recording print data on a cardWhen,Image erasing means for erasing print data recorded on a cardWhen,An IC reader unit that is connected to the transport path and records and / or reproduces information with respect to the IC inside the card.PreparedA card reader, the IC reader unit includes a card insertion groove into which a card is inserted;Moves in the direction along the card insertion groove while resisting the elastic force acting in the opposite direction under pressure from the card, and temporarily stops at a predetermined position for recording and / or reproduction under the action of the elastic force, and thereafter A slider that returns to its original state by elastic force, an IC contact portion that is rotatably disposed on the slider and that contacts the electrode terminals of the IC on the card surface and records and / or reproduces information, and a slider as the slider moves The IC contact portion moving mechanism that rotates the IC contact portion by the pin and the lifting guide to bring it closer to the card surface, and a cam that abuts against the protrusion provided on the slider and restricts the movement of the slider. A side surface for moving in the direction along the card insertion groove and a concave groove portion for temporarily stopping the slider at a predetermined position for recording and / or reproduction are provided.It is a configuration.
[0019]
With this configuration, the following effects can be obtained.
[0020]
(1) The IC reader unit is connected to the transport path, and the card transported in the card transport path can be directly removed from the IC reader unit by these transport rollers. Data can be recorded and / or reproduced, and / or print data can be printed and / or erased, and at the same time, information can be recorded and reproduced on the IC unit in the card. Accordingly, the connection between the magnetic card reader / writer and the IC reader / writer is not required, and the installation and connection of the device is facilitated, and a compact configuration can be achieved, and the time for processing the card is shortened.
[0021]
  (2) Data recording / reproducing meansWhenPrinting means,Image erasing means,IC reader unitTheBy integrating, parts can be reduced, and the product cost required for manufacturing can be reduced.
[0022]
  (3) Data recording / reproducing meansWhenPrinting means,Image erasing means,IC reader unitTheBy integrating, each of these devices can be driven using the same power source, and the power consumption during standby can be halved.
[0023]
Here, as the data recording / reproducing means, a magnetic head, an optical head, at least one electrode in contact with an electrode disposed on the surface of the IC card, or the like is used.
[0024]
As the printing means, a thermal head, an ink jet head or the like is preferably used. When the card print data recording part is constituted by a rewrite layer, a thermal head is used as the data recording / reproducing means, and when the card print data recording part is constituted by a write-once type. In this case, a thermal head, an ink jet head or the like is used as a data recording / reproducing means.
[0025]
As the image erasing means, a heating resistor (a heater having a heating element provided on a substrate and a protective film such as glass or silica provided so as to cover the heating element) is preferably used.
[0028]
  (4) IC contact part moving mechanismClose to the card surfaceBecause of the pressing, even when the IC connection terminal of the card is worn, the IC contact portion can be surely brought into contact with the connection terminal of the card IC, and information can be recorded and reproduced on the card IC. Connection failure in the contact terminal is prevented.
[0029]
  (5) Since the contact terminal contacts only the electrode terminal of the card IC without sliding on the card, the card is prevented from being scratched by the contact terminal for recording and reproducing information with respect to the card IC. .Information can be recorded and / or reproduced without contact.
[0030]
  (6) Since the IC contact portion is rotatably arranged and the IC contact portion contacts the electrode terminal of the IC of the card in conjunction with the slider, the IC contact portion moving mechanism can be manufactured inexpensively and easily.Here, as the IC contact portion moving mechanism, a spring that rotates and urges the IC contact portion in a direction to retract the IC contact portion from the card insertion groove and a sliding portion that guides the IC contact portion in the direction of the card insertion groove as the slider moves. An IC contact part moving mechanism or the like composed of
[0031]
  (7) A cam that abuts against the protrusion provided on the slider and restricts the movement of the slider is provided. The cam has a side surface for moving the slider along the card insertion groove, and the slider is recorded and / or reproduced. Therefore, by providing the concave groove portion for temporarily stopping at a predetermined position, the protrusion portion of the slider moves along the side surface of the cam and the concave groove portion, and the movement of the slider can be restricted. In addition, the IC electrode terminal and the IC contact portion come into contact with each other, and the position of the slider when data is read / written is regulated by the cam, so that an electrical component such as a sensor for regulating the position becomes unnecessary. It is done.
[0032]
  Claim2The invention described in2. The card reader according to claim 1, wherein the slider is provided in an freely rotating manner on the slider and includes an IC contact portion for recording and / or reproducing information by contacting an electrode terminal of the IC on the card surface. And an IC contact portion that is mounted with a coiled antenna and wirelessly records and / or reproduces information between the antenna and the antenna in the card.It is a configuration.
[0033]
  With this configuration, information can be recorded and / or reproduced without contact.
[0034]
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0035]
(Embodiment 1)
FIG. 1 is a side view of a main part of a card reader according to Embodiment 1 of the present invention.
[0036]
In FIG. 1, 1 is a card reader, 2 is a frame of the card reader 1, 3 is a card insertion slot formed on the front side of the frame 2, and 4 is a front end portion formed from the front to the rear inside the frame 2. Is a card transport path that communicates with the card insertion slot 3, 5 is a guider that is disposed above and below the card transport path 4 and guides the card transported in the card transport path 4, and 6 a, 6 b, and 6 c are cards in the frame 2. Conveying rollers 7 a, 7 b, and 7 c that are arranged in the lower part of the conveying path 4 and contact the lower surface of the card inserted into the card conveying path 4 to convey the card are arranged on the upper part of the card conveying path 4 in the frame 2. A driven roller that contacts the transport rollers 6a, 6b, and 6c, 8 is a drive motor that generates power to rotationally drive the transport rollers 6a, 6b, and 6c, and 9 is a card transport that is disposed below the card transport path 4 in the frame 2. 4 is a magnetic head for applying a magnetic field to a card conveyed in 4 and performing magnetic recording and reproduction. 10 is a print head disposed on the upper side of the card conveyance path 4 in the frame 2 and printing on the upper surface of the card. An erasing head 12 disposed at the upper part of the card transport path 4 for erasing print data printed on the upper surface of the card, and an IC reader unit disposed at the rear end of the card transport path 4 at the rear of the frame 2.
[0037]
The transport rollers 6a, 6b, and 6c are driven by the rotational power of the drive motor 8 through rotational power transmission means such as gears and belts.
[0038]
2 is a cross-sectional view of the main part of the IC reader unit of FIG. 1, and FIG. 3 (a) is a diagram showing a state in which the card inserted into the IC reader unit is in contact with the card stopper, and FIG. FIG. 3 is a diagram illustrating a state where a card inserted into the IC reader unit is pressing the slider, FIG. 3C is a diagram illustrating a state where the slider is at the back, and FIG. 4A is a diagram illustrating the IC reader unit. FIG. 4B is a diagram illustrating a state in which the contact terminal of the IC contact portion is in contact with the upper surface of the card inserted in FIG. 4B, and FIG. 4B is a diagram illustrating a state in which the slider comes back again. It is a figure showing the state at the time of removal of the card inserted in the IC reader unit.
[0039]
2 to 4, 12 is an IC reader unit, 13 is a casing of the IC reader unit 12, 14 is a card transport path, 15 is a card insertion opening that opens in the front side surface of the casing 13 and communicates with the card transport path 14, 16 Is a slider slidably disposed inside the casing 13, 19 is an electrode portion moving port formed in the upper surface of the front portion of the slider 16, 20 is an upper protrusion portion protruding from the upper surface of the rear portion of the slider 16, 21 Is a pivot part pivotally supported on the upper projection part 20, 21a is a pivot axis pivotally supporting the pivot part 21 on the upper projection part 20, 21b is a guide pin provided on the pivot part 21, 21 c is a guide for raising and lowering the rotating part 21, 22 is an IC contact part protruding from the lower surface of the rotating part 21 and arranged to be freely inserted into and removed from the electrode part moving port 19, and 23 is a lower surface of the IC contact part 22. Card transport path protruding from 4 is a contact terminal that comes into contact with the contact terminal of the IC of the card that is fed into the card 4, and a card stopper 24 that is arranged perpendicularly to the rear part of the slider 16 and that comes into contact with the leading end of the card that is fed into the transport path 14, Reference numeral 25 denotes a lower protrusion projecting from the lower surface of the slider 16; 26, a cam that is pivotally supported on the lower surface of the casing 13 to restrict the movement of the slider 16, 26a is a rotating shaft of the cam 26, and 26b is a cam A groove portion 30 is formed in the shape of a concave groove on the lower surface of 26, and 30 is a card.
[0040]
The slider 16 is urged forward (in the direction of the card insertion slot 15) by a spring (not shown).
[0041]
When the card is fed into the IC reader unit, the card hits the card stopper 24 of the slider 16, and the card is further pushed in, the slider 16 slides in the casing 13 along with the card. Here, when the slider 16 is slid in, the rotating portion 21 similarly moves to the rear, so that the guide pin 21b of the rotating portion 21 descends in the lifting guide 21c toward the card. The rotation unit 21 moves toward the card with the rotation shaft 21a of the rotation unit 21 as an axis, and the contact terminal 23 contacts the IC terminal portion of the card. Further, in order to regulate the sliding position of the slider 16, an IC contact part moving mechanism in which the lower protrusion 25 of the slider 16 moves along the concave groove 26 b of the cam 26 is configured.
[0042]
The operation of the card reader according to the first embodiment configured as described above will be described below.
[0043]
When the card 30 is inserted into the card transport path 4 from the card insertion slot 3, it is detected by a sensor or the like (not shown) that the card 30 is inserted, and the drive motor 8 is activated to start the transport rollers 6a, 6b, By rotating 6c, the card 30 is conveyed along the card conveying path 4 while being sandwiched between the conveying roller 6a and the driven roller 7a, the conveying roller 6b and the driven roller 7b, and the conveying roller 6c and the driven roller 7c. At this time, if the card 30 is a card capable of magnetic recording, the magnetic data recorded on the card 30 is recorded or reproduced by the magnetic head 9. If the card 30 is a card that can print or erase print data, the print data is printed by the print head 10 or the print data is erased by the erase head 11.
[0044]
Since operations for recording and reproducing magnetic data and printing and erasing of print data are the same as those of a conventional card reader, description thereof will be omitted.
[0045]
When the card 30 is an IC card, the card 30 is conveyed backward in the card conveyance path 4 by the conveyance roller 6 c and inserted into the card conveyance path 14 from the card insertion port 15.
[0046]
When the card 30 is inserted into the card transport path 14, first, as shown in FIG. 3A, the card tip of the card 30 comes into contact with the card stopper 24.
[0047]
Further, when the card 30 is conveyed rearward by the conveying roller 6c, the tip of the card 30 presses the card stopper 24, so that the slider 16 moves backward of the casing 13 against the elastic force of a spring (not shown). It slides (see FIGS. 3B, 3C, and 4A). When the slider 16 moves rearward, the rotating portion 21 rotates downward as the guide pin 21b moves in the lifting guide 21c. As a result, the IC contact portion 22 passes through the electrode portion moving port 19 and its lower surface protrudes from above the card conveyance path 14 into the card conveyance path 14, and the contact terminal 23 contacts the electrode terminal of the IC in the card 30. The IC in the IC 30 and the IC reader unit 12 are electrically connected, and recording and erasure to the IC in the card 30 are performed as shown in FIG.
[0048]
At this time, the lower protrusion 25 contacts the front side surface of the cam 26 and presses the cam 26. As a result, the pin of the cam 26 moves outside the cam 26 while the projection 25 rotates the cam 26 as shown in FIG.
[0049]
Next, when the slider 16 moves to the position of FIG. 3C, the cam 26 rotates, the projection 25 enters the concave groove 26b of the cam 26, and when the slider 16 is returned by the elastic force of the spring, FIG. As shown in (a), the cam 26 rotates, and the pin is locked and stopped at the position of the concave groove portion 26b of the cam 26. At this time, recording and erasure to the IC in the card 30 are performed.
[0050]
Further, as shown in FIG. 4B, when the slider 16 is moved again to the rearmost position of the casing against the elastic force of the spring 30 again, the protrusion 25 locks the concave groove 26b of the cam 26. At the same time, the cam 26 rotates.
[0051]
Next, as shown in FIG. 4C, the slider 16 is returned by the elastic force of the spring, and at the same time, the protrusion 25 moves in a direction to pass through the groove 26b of the cam 26, and the card 30 is removed from the card conveyance path. escape.
[0052]
As described above, according to the present embodiment, the IC reader unit 12 is provided at the rear end portion of the card reader 1, and the cards conveyed in the card conveyance path 4 by the conveyance rollers 6a, 6b, 6c are conveyed. Since the mechanism can be directly removed from the IC reader unit 12, the card reader 1 can record and reproduce magnetic data on the card, and print and erase the print data. It is possible to record and reproduce information on the. Accordingly, it is not necessary to connect the magnetic card reader / writer and the IC reader / writer, and it is possible to easily install the device, the time for processing the card is shortened, and the waiting time is shortened for the person who uses the card. can do.
[0053]
Further, since the contact terminal 23 contacts only the electrode terminal of the IC of the card 30 without sliding on the card 30, the contact terminal 23 is prevented from being scratched on the card 30.
[0054]
In addition, since the contact terminal 23 is always in contact with the electrode terminal of the IC on the card 30 at a predetermined position, errors during recording and reproduction with the IC in the card 30 are prevented.
[0055]
Further, since the IC contact portion 22 and the cam 26 are arranged facing the top and bottom of the card transport path 14, the IC reader unit 12 can be made compact, and the IC reader unit 12 can be configured by a simple and inexpensive mechanism. Can be configured.
[0056]
  In the first embodiment,,Although the IC reader unit 12 is a contact type, the IC reader unit 12 is not limited to the contact type.As another formA non-contact type may be used. For example, the card 30 has a configuration including a non-contact type IC card (an IC mounted inside the card 30 and an IC mounted inside the card 30 and an antenna (coil or capacitor) for transmitting and receiving data wirelessly. The IC contact portion 22 includes a coiled antenna or a component that generates electrostatic capacitance, and a configuration that allows wireless communication without contact with the card 30 is used.
[0057]
【The invention's effect】
As described above, according to the card reader of the present invention, the following advantageous effects can be obtained.
[0058]
According to the card reader of claim 1,
(1) To provide a card reader that requires no connection between a magnetic card reader / writer and an IC reader / writer, facilitates device installation / connection, can be configured compactly, and has a short card processing time. it can.
[0059]
  (2) Data recording / reproducing meansWhenPrinting means,Image erasing means,IC reader unitTheBy integrating, it is possible to provide a card reader capable of reducing the number of components and reducing the product cost required for manufacturing.
[0060]
  (3) Data recording / reproducing meansWhenPrinting means,Image erasing means,IC reader unitTheBy integrating, each of these devices can be driven using the same power source, and a card reader capable of halving the power consumption during standby can be provided.
[0061]
  (4) IC contact part moving mechanismClose to the card surfaceBecause of the pressing, even when the IC connection terminal of the card is worn, the IC contact portion can be surely brought into contact with the connection terminal of the card IC, and information can be recorded and reproduced on the card IC. It is possible to provide a card reader that can prevent a connection failure in a contact terminal.
[0062]
  (5) Since the contact terminal contacts only the electrode terminal of the card IC without sliding on the card, it prevents the card from being scratched by the contact terminal for recording and reproducing information on the card IC. The card reader which can do can be provided.Information can be recorded and / or reproduced without contact.
[0063]
  (6) The IC contact part is rotatably arranged, and the IC contact part contacts the electrode terminal of the card IC in conjunction with the slider.For,A card reader that is inexpensive and can be easily manufactured and has excellent productivity can be provided.
[0064]
  (7) A cam that abuts against the protrusion provided on the slider and restricts the movement of the slider is provided. The cam has a side surface for moving the slider along the card insertion groove, and the slider is recorded and / or reproduced. For this reason, since the groove portion for temporarily stopping at a predetermined position is provided, the projecting portion of the slider moves along the side surface of the cam and the groove portion, thereby restricting the movement of the slider. The position of the slider when the IC contact portion comes into contact and data is read / written is regulated by the cam, and electrical parts such as a sensor for regulating the position become unnecessary.
[Brief description of the drawings]
FIG. 1 is a side view of a main part of a card reader according to Embodiment 1 of the present invention.
FIG. 2 is a cross-sectional view of the main part of the IC reader unit of FIG.
FIG. 3A is a diagram illustrating a state in which a card inserted into an IC reader unit is in contact with a card stopper.
(B) The figure showing the state in which the card inserted in the IC reader unit is pushing the slider
(C) The figure which represents the state which the slider came to the back part again
4A is a diagram illustrating a state in which a contact terminal of an IC contact portion is in contact with an upper surface of a card inserted in an IC reader unit. FIG.
(B) A diagram showing a state where the slider has come to the back again.
(C) The figure showing the state at the time of removal of the card inserted in the IC reader unit
FIG. 5 is a side view of a main part of a conventional card reader for recording and reproducing information on a card having a magnetic recording layer or a heat-sensitive recording layer.
FIG. 6 is a side view of a main part of a conventional card reader that records and reproduces information on a card having an IC chip inside.
[Explanation of symbols]
1 Card reader
2 frames
3 Card slot
4 card transport path
5 Guider
6a, 6b, 6c Conveying roller
7a, 7b, 7c driven roller
8 Drive motor
9 Magnetic head
10 Print head
11 Erase head
12 IC reader unit
13 Casing
14 Card transport path
15 Card insertion slot
16 Slider
19 Electrode port
20 Upper protrusion
21 Rotating part
21a Rotating shaft
21b Guide pin
21c Lifting guide
22 IC contact area
23 Contact terminal
24 Card stopper
25 Lower protrusion
26 cams
26a Rotating shaft
26b concave groove
30 cards
40 Card reader
41 frames
42 Transport path
42a Guider
43 Card slot
44a, 44b, 44c Conveying roller
45a, 45b, 45c Followed roller
46 Drive motor
47 Magnetic head
47a Pressing roller
48 Erase head
49 Thermal Head
48a, 49a Platen roller
50 Head support
60 IC reader unit
61 frames
62 Card insertion slot
63 Card insertion slot
64 IC contact
65 Contact terminal

Claims (2)

A card transport path through which a card is transported, a transport roller disposed along the transport path and transporting a card in the transport path, and recording and / or transporting data to the card in the transport path a data reproducing means for reproducing the data recorded on the card in the road, and printing means for printing the print data to the card, the image erasing means for erasing the printing data recorded on the card, the transport path A card reader provided with an IC reader unit that records and / or reproduces information with respect to an IC inside the card, the IC reader unit including a card insertion groove into which the card is inserted, and the card Moves in a direction along the card insertion groove while resisting the elastic force acting in the reverse direction, and receives a predetermined position for recording and / or reproduction under the action of the elastic force. And a slider which is temporarily stopped by the elastic force and then returned to its original state by the elastic force, and an IC which is rotatably arranged on the slider and records and / or reproduces information by contacting the electrode terminal of the IC on the card surface. A contact portion, an IC contact portion moving mechanism for rotating the IC contact portion by a pin of the slider and a raising / lowering guide as the slider moves, and bringing the IC contact portion closer to the card surface; A cam for restricting the movement of the slider is provided, and the cam has a side surface for moving the slider in a direction along the card insertion groove, and the slider is temporarily stopped at a predetermined position for recording and / or reproduction. A card reader, characterized in that a concave groove is provided . 2. The card reader according to claim 1, wherein the card reader includes an IC contact portion that is rotatably arranged on the slider and records and / or reproduces information by contacting an electrode terminal of the IC on the card surface. An IC contact portion that is rotatably disposed on the slider, has a coiled antenna, and wirelessly records and / or reproduces information between the antenna and the antenna in the card. Card reader characterized by .

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