JP2016122375A - Card reader - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waterproof card reader configured to prevent liquid from being frozen in a card housing section where the card is housed, even when used in a place at a lower temperature.SOLUTION: A card reader 1 includes a front frame 5 with a slot 4 for a card, a body frame 6 fixed to the front frame 5, and a heating mechanism 9 for heating the body frame 6. The body frame 6 includes a bag-like card housing section 12 for housing a back part of the card, and a partition wall section 13 formed in the shape of a flange, to lead to a front end of the card housing section 12. Between the front frame 5 and the partition wall section 13, an annular seal member is arranged to externally surround a card passage. The heating mechanism 9 includes: a heat transfer member 24 having two contact sections 24a, 24b coming into contact with the card housing section 12 externally from both sides in a thickness direction of the card, and formed of a heat-conductive material; and a heater 25 to be fixed to the heat transfer member 24.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a card reader that reads data recorded on a card and records data on the card.

  2. Description of the Related Art Conventionally, a manual card reader that is used by being mounted on a fueling device of a gas station is known (see, for example, Patent Documents 1 and 2). The card readers described in Patent Documents 1 and 2 include a front frame that is formed with a card insertion slot and is fixed to the operation panel of the fueling device, and a main body frame that is fixed to the front frame. The main body frame includes a card housing portion that is formed in a bag shape and that houses the back side portion of the card, and a bowl-shaped partition wall portion that is formed at the front end of the card housing portion, and the front surface of the partition wall portion is the front frame. It is fixed to. A control board is attached to the outside of the card housing portion.

  Further, in the card readers described in Patent Documents 1 and 2, a ring-shaped seal member is disposed between the front frame and the partition wall. This seal member is arranged so as to surround a portion through which the card passes from the outer peripheral side. Therefore, in this card reader, it is possible to prevent liquid such as water that has entered from the card insertion slot from entering the outside of the card housing portion. That is, in this card reader, it is possible to prevent the liquid from entering the control board placement location outside the card housing, and the card reader can prevent liquid from entering the control board placement location. It has a waterproof function to prevent intrusion.

  Further, the card reader described in Patent Document 2 includes a heater for preventing liquid such as water that has entered from the insertion port from freezing in the card housing portion. This heater is, for example, a semiconductor heater, and is disposed in the vicinity of one outer surface of the card housing portion in the card thickness direction. Moreover, this heater is equipped with the heating wire and the fan motor, for example, and is arrange | positioned in the one outer surface vicinity of the card accommodating part in the width direction of a card | curd.

JP 2011-40029 JP JP-A-8-279240

  In the card reader described in Patent Document 2, since a heater is provided, it is possible to prevent a liquid such as water that has entered from the insertion port from freezing in the card housing portion. On the other hand, in the industry where a card reader is used, there is a demand for a card reader that can prevent the liquid from freezing in the card accommodating portion even when the card reader is used in a lower temperature place. .

  Accordingly, an object of the present invention is to provide a card reader having a waterproof function, which can prevent the liquid from freezing in the card accommodating portion in which the card is accommodated even when used at a lower temperature. To provide a reader.

  In order to solve the above-described problems, a card reader according to the present invention is configured to heat a front frame in which a card insertion slot is formed, a main body frame fixed to the front frame, an annular seal member, and a main body frame. The body frame is located on the back side of the card inserted from the insertion slot.If the card insertion direction side to the insertion slot is the back side and the card removal direction side from the insertion slot is the front side, A bag-shaped card accommodating portion that accommodates the portion, and a partition formed in a bowl shape and connected to the front end of the card accommodating portion, and the seal member is disposed between the front frame and the partition and is a card The heating mechanism has two contact portions that come into contact with the card accommodating portion from both outer sides in the thickness direction of the card accommodated in the card accommodating portion. Heat conduction A heat transfer member formed of a material, characterized by comprising a heater attached to the heat transfer member.

  In the card reader according to the present invention, the main body frame includes a bag-shaped card housing portion that houses the back side portion of the card inserted from the insertion slot, and a partition wall portion that is connected to the front end of the card housing portion. In the present invention, the annular seal member is disposed between the front frame and the partition wall, and is disposed so as to surround the card passage from the outer peripheral side. Therefore, according to the present invention, it is possible to prevent the liquid that has entered from the card insertion slot from entering the outside of the card housing portion. In other words, according to the present invention, it is possible to prevent the liquid that has entered from the card insertion slot from entering the location of the control board or the like outside the card housing portion.

  Moreover, in this invention, the heat-transfer member to which a heater is attached is provided with two contact parts which contact a card accommodating part from the both outer sides of the thickness direction of a card | curd. Therefore, in this invention, it becomes possible to heat a card | curd accommodating part from the both sides of the thickness direction of a card | curd evenly. Therefore, according to the present invention, even when the card reader is used at a lower temperature, it is possible to prevent the liquid from freezing in the card housing portion.

  Moreover, in this invention, since the heat-transfer member is provided with two contact parts which contact a card accommodating part from the both outer sides of the thickness direction of a card | curd, the heater attached to a heat-transfer member is one, However, it becomes possible to heat the card accommodating portion from both sides in the thickness direction of the card without any spots. Therefore, in the present invention, the cost of the card reader can be reduced as compared with the case where the heating mechanism includes two heaters arranged on both sides in the thickness direction of the card.

  In the present invention, the card reader preferably includes a rigid board for control, and the rigid board preferably covers the contact portion from the outside in the thickness direction of the card. If comprised in this way, it will become possible to suppress that the warm air around the card accommodating part warmed by the contact part escapes from the circumference | surroundings of a card accommodating part using a rigid board | substrate. Therefore, it is possible to effectively heat the card housing portion, and as a result, it is possible to effectively prevent the liquid from freezing in the card housing portion. In addition, since it is possible to suppress the escape of warm air around the card housing portion heated by the contact portion, it is possible to shorten the time during which the heater is on, and as a result, The power consumption of the heater can be reduced. Also, with this configuration, it is possible to suppress the escape of warm air around the card housing portion using the control rigid board, so the warm air around the card housing portion escapes. Compared with the case where a member for suppressing the movement is provided separately, the configuration of the card reader can be simplified.

  In the present invention, it is preferable that the rigid substrate covers the entire contact portion. If comprised in this way, it will become possible to suppress effectively that the warm air around the card | curd accommodating part warmed by the contact part escapes. Therefore, it becomes possible to heat a card | curd accommodating part more effectively, As a result, it becomes possible to prevent the freezing of the liquid in a card | curd accommodating part more effectively. In addition, it is possible to effectively suppress the escape of warm air around the card housing portion heated by the contact portion, so that the time during which the heater is on can be further shortened. As a result, the power consumption of the heater can be further reduced.

  In the present invention, the card reader includes, for example, a cover member that covers a contact portion that contacts the card housing portion from one side in the thickness direction of the card, and the rigid board is provided from the other side in the card thickness direction. It covers the contact part that touches. In this case, it is possible to suppress the escape of warm air around the card housing portion heated by the contact portion on both sides in the card thickness direction. Therefore, it becomes possible to heat a card | curd accommodating part more effectively, As a result, it becomes possible to prevent the freezing of the liquid in a card | curd accommodating part more effectively. Moreover, since it becomes possible to suppress the warm air around the card accommodating portion heated by the contact portion from escaping on both sides in the card thickness direction, the time during which the heater is on is further shortened. As a result, the power consumption of the heater can be further reduced.

  In the present invention, when the direction perpendicular to the card insertion direction and the card thickness direction is the card width direction, the card housing portion is formed with a wall portion that covers the contact portion from the outside in the card width direction. Preferably it is. If comprised in this way, it will become possible to suppress that the warm air around the card accommodating part warmed by the contact part escapes using a wall part. Therefore, it is possible to effectively heat the card housing portion, and as a result, it is possible to effectively prevent the liquid from freezing in the card housing portion. In addition, since it is possible to suppress the escape of warm air around the card housing portion heated by the contact portion, it is possible to shorten the time during which the heater is on, and as a result, The power consumption of the heater can be reduced.

  In the present invention, the heat transfer member is formed, for example, by bending a flat plate of an aluminum alloy into a substantially square groove shape.

  In the present invention, the heat transfer member is formed with a heat transfer member side engagement portion for positioning the heat transfer member with respect to the card storage portion, and the card storage portion is engaged with the heat transfer member side engagement portion. It is preferable that the accommodating part side engaging part to be formed is formed. If comprised in this way, attachment of the heat-transfer member to a card accommodating part will become easy.

  As described above, according to the present invention, in a card reader having a waterproof function, even when the card reader is used in a lower temperature place, it is possible to prevent the liquid from freezing in the card accommodating portion in which the card is accommodated. Is possible.

It is a perspective view of the card reader concerning an embodiment of the invention. It is a perspective view which shows the card reader shown in FIG. 1 from another direction. It is a disassembled perspective view of the state which removed the heating mechanism from the card reader shown in FIG. It is a disassembled perspective view of the state which removed the heating mechanism from the card reader shown in FIG. It is a perspective view which shows the card reader shown in FIG. 1 from another direction. FIG. 2 is a perspective view of a front end side portion of the card reader with the front frame shown in FIG. 1 removed.

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

(Overall 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 perspective view showing the card reader 1 shown in FIG. 1 from another direction. FIG. 3 is an exploded perspective view of the card reader 1 shown in FIG. 1 with the heating mechanism 9 removed. FIG. 4 is an exploded perspective view of the card reader 1 shown in FIG. 2 with the heating mechanism 9 removed. FIG. 5 is a perspective view showing the card reader 1 shown in FIG. 1 from another direction. FIG. 6 is a perspective view of the front end side portion of the card reader 1 with the front frame 5 shown in FIG. 1 removed.

  The card reader 1 according to the present embodiment is a manual card reader in which a user manually operates the card 2 to read data recorded on the card 2 or record data on the card 2. Specifically, the card reader 1 reads a magnetic data recorded on the card 2 when the card 2 is inserted into the card reader 1 or when the card 2 is pulled out from the card reader 1. It is a leader. The card reader 1 is used by being attached to a host device such as an unmanned or self-service gasoline station refueling device, for example.

  The card reader 1 includes a magnetic head 3 (see FIG. 6) that reads the magnetic data recorded on the card 2 in contact with the card 2, a front frame 5 in which the insertion slot 4 of the card 2 is formed, and a front frame 5 And a main body frame 6 to be fixed. Further, the card reader 1 includes a control rigid board 7 for controlling the card reader 1, an annular seal member 8 (see FIG. 6), and a heating mechanism 9 for heating the main body frame 6. I have.

  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. The card 2 may be a PET (polyethylene terephthalate) card having a thickness of about 0.18 to 0.36 mm, or may be a paper card having a predetermined thickness.

  In this embodiment, the manually operated card 2 moves in the X direction shown in FIG. Specifically, the card 2 is inserted in the X1 direction, and the card 2 is extracted in the X2 direction. That is, the X1 direction is the insertion direction of the card reader 1, and the X2 direction is the extraction direction of the card reader 1. Further, the Y direction in FIG. 1 or the like orthogonal to the X direction is the thickness direction of the card 2 inserted in the card reader 1, and the Z direction in FIG. This is the width direction (short width direction) of the card 2 inserted into the reader 1. In the following description, the X direction is the front-rear direction, the Y direction is the left-right direction, and the Z direction is the up-down direction. Also, the X1 direction side is the “back (back)” 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, and the Z1 direction side is “up” The “side” and the Z2 direction side are the “lower” side.

  The main body frame 6 includes a bag-shaped card accommodating portion 12 that accommodates the back side portion of the card 2 inserted from the insertion port 4, a partition portion 13 that is formed in a bowl shape and is connected to the front end of the card accommodating portion 12, A head placement portion 14 (see FIG. 6) where the magnetic head 3 is placed and a card guide portion 15 (see FIG. 6) for guiding the card 2 inserted from the insertion slot 4 are provided. The main body frame 6 is composed of a first frame and a second frame that are divided into two in the left-right direction, and the first frame and the second frame are joined and fixed to each other.

  The card accommodating portion 12 is formed so that the shape when viewed from the left-right direction is substantially rectangular. Moreover, the card accommodating part 12 is formed in the flat shape thin in the left-right direction. The card accommodating portion 12 constitutes a back end side portion of the main body frame 6. The card accommodating portion 12 is formed in a bag shape having an opening only on the front surface, and a sealed accommodating space for the card 2 is formed inside the card accommodating portion 12. In other words, the card accommodating portion 12 is formed in a box shape in which only the insertion port 4 is opened, and the card passing path through which the card 2 passes is a bag path on the back side.

  On the lower end side of the right side surface of the card accommodating portion 12, a wall portion 12a protruding toward the right side is formed. The wall part 12a is formed in the substantially rectangular flat plate shape orthogonal to an up-down direction. Further, a wall portion 12 b that protrudes toward the right side is formed on the upper end side and the far end side of the right side surface of the card storage portion 12. The wall portion 12b is formed in a block shape. The height of the wall portion 12a (height in the left-right direction) and the height of the wall portion 12b (height in the left-right direction) are substantially equal.

  The partition wall portion 13 is formed in a bowl shape extending from the front end of the card housing portion 12 to the outer peripheral side. On the center side of the partition wall portion 13, a card passage path through which the card 2 passes toward the card housing portion 12 is formed so as to penetrate in the front-rear direction. Insertion holes 13a through which screws 18 for fixing the main body frame 6 to the front frame 5 are inserted are formed at four locations on the upper end side and the lower end side of the partition wall 13 (see FIG. 6). The partition wall 13 is formed with a passage hole through which a lead wire drawn from the magnetic head 3 passes. The passage hole is filled with a sealing material such as silicon.

  As shown in FIG. 6, a seal placement portion 19 in which the seal member 8 is placed is formed on the front surface of the partition wall portion 13. The seal arrangement part 19 is formed in a flat plate shape protruding from the front surface of the partition wall part 13. A seal placement groove in which the seal member 8 is placed is formed on the outer peripheral surface of the seal placement portion 19. The seal placement groove is formed in an annular shape that is recessed from the outer peripheral surface of the seal placement portion 19 toward the inside in the radial direction of the seal placement portion 19. The seal member 8 arranged in the seal arrangement part 19 is arranged on the inner side in the radial direction than the insertion hole 13a. The seal member 8 is made of rubber or the like.

  The head placement portion 14 and the card guide portion 15 are formed so as to protrude forward from the seal placement portion 19. The head placement portion 14 and the card guide portion 15 are formed in a state where a predetermined interval is provided in the vertical direction. In this embodiment, the head arrangement part 14 is arranged on the upper side, and the card guide part 15 is arranged on the lower side. Two magnetic heads 3 facing each other in the left-right direction may be arranged in the head arrangement portion 14 (see FIG. 6), or the card 2 inserted from the insertion port 4 is contacted from the left side or the right side. One magnetic head 3 may be disposed.

  The front frame 5 is formed so as to be connected to the front surface portion 5a constituting the front surface of the card reader 1, the flange-shaped flange portion 5b connected to the rear end of the front surface portion 5a, and the rear surface of the flange portion 5b. And a substantially cylindrical tube portion 5c that protrudes from 5b toward the back side. In the front frame 5, there is no opening other than the front side of the front surface portion 5a and the rear end of the cylindrical portion 5c. In this embodiment, the card reader 1 is attached to the host device in a state where the front surface of the flange portion 5b is in contact with the rear surface of the front panel (not shown) of the host device on which the card reader 1 is mounted. Note that a seal member (not shown) is disposed between the front panel of the host device and the flange portion 5b so that liquid such as water does not enter the back side of the front panel. This seal member is disposed along the outer periphery of the flange portion 5b.

  The front surface portion 5a includes a first front surface portion 5d that covers the front end side portion of the head placement portion 14 from the left and right sides and the upper side, and a second front surface portion 5e that covers the front end side portion of the card guide portion 15 from the left and right sides and the lower side. It is configured. The insertion port 4 is formed on the front surface of the front surface portion 5a. The flange portion 5b is formed to extend in the vertical direction and the horizontal direction, and is formed in a substantially rectangular frame shape that is long in the vertical direction. On the inner peripheral side of the cylindrical portion 5c, a back end side portion of the head placement portion 14, a back end side portion of the card guide portion 15, and a seal placement portion 19 are disposed. Screw engaging portions 5f with which the screws 18 are engaged are formed at four locations on the upper end side and the lower end side of the outer peripheral surface of the cylindrical portion 5c. The screw engaging portion 5f is formed in a substantially cylindrical shape, and a female screw is formed on the inner peripheral surface thereof.

  In this embodiment, the main body frame 6 is fixed to the front frame 5 in a state where the outer portion of the front surface of the partition wall portion 13 in the radial direction with respect to the seal placement portion 19 and the inner end of the cylindrical portion 5c are in contact. . The front frame 5 covers the head placement portion 14, the card guide portion 15, and the seal placement portion 19. Further, as described above, the seal member 8 is arranged in the seal arrangement groove of the seal arrangement portion 19, and the seal arrangement portion 19 is arranged on the inner peripheral side of the cylindrical portion 5c.

  The outer peripheral end portion of the seal member 8 protrudes more outward than the outer peripheral surface of the seal arrangement portion 19, and the inner end surface portion of the inner peripheral surface of the cylindrical portion 5 c is the seal member arranged in the seal arrangement portion 19. 8 is crushed from the outer peripheral side. Thus, the seal member 8 is disposed between the cylindrical portion 5 c and the seal arrangement portion 19. That is, the seal member 8 is disposed between the front frame 5 and the partition wall 13 in the radial direction of the seal member 8 formed in an annular shape. Further, the seal member 8 is arranged so as to surround the card passage formed in the partition wall portion 13 from the outer peripheral side.

  The rigid substrate 7 is formed in a rectangular flat plate shape. Various wiring patterns and various electronic components are mounted on the rigid substrate 7. The rigid substrate 7 is fixed to the right side surface of the card housing portion 12. Specifically, a columnar substrate fixing protrusion 12c protruding toward the right side is formed on the right side surface of the card housing portion 12, and the rigid substrate 7 is formed on the front end surface (right end surface) of the substrate fixing protrusion 12c. It is fixed. Therefore, a gap is formed between the right side surface of the card housing portion 12 and the rigid board 7. In addition, the rigid board 7 is fixed to the right side surface of the card housing portion 12 so that the thickness direction thereof matches the left-right direction. The height of the substrate fixing protrusion 12c (height in the left-right direction) is substantially equal to the height of the walls 12a, 12b (height in the left-right direction), and the rigid substrate 7 is made of the walls 12a, 12b. It is arranged on the right side of the right end face. The wall portion 12a functions to protect the rigid substrate 7 from the right side.

  The size of the rigid board 7 when viewed from the left-right direction is smaller than the size of the card housing portion 12 when viewed from the left-right direction. When viewed from the left-right direction, the rigid substrate 7 covers almost the entire right side surface of the card housing portion 12 excluding the lower end portion of the card housing portion 12. The rigid substrate 7 also covers the wall portion 12b. The wall portion 12a is disposed below the lower end surface of the rigid substrate 7 fixed to the substrate fixing protrusion 12c, and when viewed from the left-right direction, the lower end surface of the rigid substrate 7 and the wall portion 12a. A gap is formed between them.

(Configuration of heating mechanism)
The heating mechanism 9 includes a heat transfer member 24 formed of a heat conductive material and a heater 25 attached to the heat transfer member 24. The heat transfer member 24 is formed of an aluminum alloy. The heat transfer member 24 is formed by bending a flat plate of an aluminum alloy into a substantially square groove shape (more specifically, a substantially square groove shape). The heat transfer member 24 includes a contact portion 24a that contacts the left side surface of the card storage portion 12, a contact portion 24b that contacts the right side surface of the card storage portion 12, a back end of the contact portion 24a, and a back end of the contact portion 24b. It is comprised from the connection part 24c which connects. That is, the heat transfer member 24 includes two contact portions 24 a and 24 b that come into contact with the card housing portion 12 from both outer sides in the left-right direction, and is attached to the card housing portion 12.

  The contact portion 24a is disposed so that the thickness direction thereof matches the left-right direction. The contact portion 24a is formed so that the shape when viewed from the left-right direction is substantially rectangular. The vertical width of the contact portion 24 a is substantially equal to the vertical width of the card housing portion 12. The width in the front-rear direction of the contact portion 24 a is narrower than the width in the front-rear direction of the card accommodating portion 12. The contact portion 24 a is in contact with the back end side portion of the left side surface of the card housing portion 12.

  As shown in FIG. 3, embossed portions 24d for positioning the heat transfer member 24 with respect to the card accommodating portion 12 are formed on the upper and lower ends on the front end side of the contact portion 24a. The embossed portion 24d is formed so as to slightly protrude toward the right side. The card accommodating portion 12 has an engagement hole 12d with which the embossed portion 24d is engaged. The embossed portion 24d of this embodiment is a heat transfer member side engaging portion, and the engaging hole 12d is a housing portion side engaging portion.

  The contact portion 24b is arranged so that the thickness direction thereof matches the left-right direction. The contact portion 24b is formed so that its shape when viewed from the left-right direction is substantially U-shaped. That is, the contact portion 24b is formed with a slit-like cutout portion 24e for preventing interference between the substrate fixing protrusion 12c and the contact portion 24b. The notch 24e is formed in a predetermined range from the front end surface of the contact portion 24b toward the back side. The vertical width of the contact portion 24 b is narrower than the vertical width of the card housing portion 12. The width of the contact portion 24b in the front-rear direction is narrower than the width of the card storage portion 12 in the front-rear direction. In this embodiment, the width of the contact portion 24b in the front-rear direction is substantially equal to the width of the contact portion 24a in the front-rear direction.

  The contact portion 24 b is in contact with the back end side portion of the right side surface of the card housing portion 12. Further, the contact portion 24 b is in contact with the lower end portion of the right side surface of the card storage portion 12. Moreover, the contact part 24b is arrange | positioned between the wall part 12a and the wall part 12b, and is covered by the wall part 12a from the lower side in the up-down direction, and is covered by the wall part 12b from the upper side. That is, the contact portion 24 b is covered with the wall portions 12 a and 12 b from the outside in the width direction of the card 2. Specifically, the contact portion 24 b is covered with the wall portions 12 a and 12 b from both outer sides in the width direction of the card 2.

  In this embodiment, most of the contact portion 24b excluding a part of the back end side portion is covered with the wall portion 12a from the lower side. Further, the inner end portion of the contact portion 24b is covered with the wall portion 12b from the upper side. In the present embodiment, the lower end surface of the contact portion 24b is in contact with the upper surface of the wall portion 12a. Alternatively, in the vertical direction, the lower end surface of the contact portion 24b is disposed in the vicinity of the upper surface of the wall portion 12a, and a slight gap is formed between the lower end surface of the contact portion 24b and the upper surface of the wall portion 12a. Yes. Moreover, the upper end surface of the contact part 24b is contacting the lower surface of the wall part 12b. Alternatively, in the vertical direction, the upper end surface of the contact portion 24b is disposed in the vicinity of the lower surface of the wall portion 12b, and a slight gap is formed between the upper end surface of the contact portion 24b and the lower surface of the wall portion 12b. Yes.

  In addition, as described above, the rigid board 7 is fixed to the right side surface of the card accommodating portion 12 via a gap, and the contact portion 24b is covered with the rigid board 7 from the right side. That is, the contact portion 24 b is covered with the rigid substrate 7 from the outside in the thickness direction of the card 2, and the contact portion 24 b that contacts the card housing portion 12 from the right side is covered with the rigid substrate 7. In this embodiment, the upper half of the contact portion 24 b is covered with the rigid substrate 7. Thus, in this embodiment, the contact portion 24b is covered with the rigid substrate 7 from the right side and is covered with the wall portions 12a and 12b from the upper and lower sides, and is formed by the rigid substrate 7 and the wall portions 12a and 12b. It is arranged in the space to be.

  The vertical width of the connecting portion 24c is equal to the vertical width of the contact portion 24b. The heat transfer member 24 is attached to the card housing part 12 from the back side of the card housing part 12. In a state where the heat transfer member 24 is attached to the card housing part 12, a gap is formed between the front surface of the connection part 24 c and the back end surface of the card housing part 12. Note that the front end side portion of the contact portion 24b is bent toward the right side so that the heat transfer member 24 can be easily attached to the card accommodating portion 12, and is opened to the right side toward the near side. It is inclined.

  The heater 25 is a resin heater formed in a substantially rectangular flat plate shape. The heater 25 is electrically connected to a host device on which the card reader 1 is mounted, and power is supplied to the heater 25 from the host device. The heater 25 includes a thermostat 26 that detects the temperature of the heater 25 and controls on / off of the heater 25. The thermostat 26 of this embodiment is a mechanical thermostat. The heater 25 is attached to the left surface of the contact portion 24a. The thermostat 26 is attached to the left surface of the heater 25. The size of the heater 25 is substantially equal to the size of the contact portion 24a. The heater 25 may be a heater other than a resin heater. The thermostat 26 may be an electronic thermostat.

(Main effects of this form)
As described above, in the present embodiment, the main body frame 6 includes the bag-shaped card housing portion 12 in which the back side portion of the card 2 is housed, and the partition wall portion 13 connected to the front end of the card housing portion 12. Yes. Further, in this embodiment, the annular sealing member 8 is disposed between the front frame 5 and the partition wall 13 and is disposed so as to surround the card passage formed in the partition wall 13 from the outer peripheral side. Has been. Therefore, in this embodiment, it becomes possible to prevent liquid such as water that has entered from the insertion port 4 from entering the location of the rigid substrate 7 outside the card housing portion 12.

  In this embodiment, the heat transfer member 24 includes two contact portions 24a and 24b that contact the card housing portion 12 from both outer sides in the left-right direction. Therefore, in this embodiment, it becomes possible to heat the card accommodating portion 12 from the left and right sides without any spots. Therefore, in this embodiment, even when the card reader 1 is used in a place where the temperature is lower, it is possible to prevent the liquid in the card housing portion 12 from freezing.

  In particular, in this embodiment, the contact portion 24b that contacts the card housing portion 12 from the right side is covered by the wall portions 12a and 12b from both the upper and lower sides and is covered by the rigid substrate 7 from the right side. Therefore, in this embodiment, the warm air around the card housing portion 12 warmed by the contact portion 24b is prevented from escaping from around the card housing portion 12 using the wall portions 12a and 12b and the rigid substrate 7. It becomes possible. Therefore, in this embodiment, it is possible to effectively heat the card housing portion 12, and as a result, it is possible to effectively prevent the liquid in the card housing portion 12 from freezing.

  Further, in this embodiment, it is possible to suppress the escape of warm air around the card accommodating portion 12 heated by the contact portion 24b using the wall portions 12a and 12b and the rigid substrate 7, It becomes possible to reduce the number of times the thermostat 26 is turned on and off. Therefore, in this embodiment, it is possible to extend the life of the mechanical thermostat 26. Further, the time during which the heater 25 is on can be shortened, and as a result, the power consumption of the heater 25 can be reduced.

  Further, in this embodiment, since the control rigid board 7 can be used to suppress the escape of warm air around the card accommodating part 12 heated by the contact part 24b, the rigid board 7 can be suppressed. In addition, the configuration of the card reader 1 can be simplified as compared with a case where a member for suppressing the escape of warm air around the card housing portion 12 is provided separately. .

  In the present embodiment, the heat transfer member 24 includes two contact portions 24a and 24b that come into contact with the card housing portion 12 from both outer sides in the left-right direction, so that the heater 25 attached to the heat transfer member 24 is one. Even if it is individual, it becomes possible to heat the card | curd accommodating part 12 from the both sides of the left-right direction evenly. Therefore, in this embodiment, the cost of the card reader 1 can be reduced as compared with the case where the heating mechanism 9 includes two heaters 25 arranged on both sides in the left-right direction.

  In this embodiment, the heat transfer member 24 is formed with an embossed portion 24d for positioning the heat transfer member 24 with respect to the card accommodating portion 12, and the card accommodating portion 12 has an engagement hole 12d with which the embossed portion 24d engages. Is formed. Therefore, in this embodiment, the heat transfer member 24 can be easily attached to the card housing portion 12.

(Other embodiments)
The above-described embodiment is an example of a preferred embodiment of the present invention, but is not limited to this, and various modifications can be made without departing from the scope of the present invention.

  In the embodiment described above, the rigid substrate 7 covers approximately half of the upper side of the contact portion 24b. However, the rigid substrate 7 may cover the entire contact portion 24b. In this case, the rigid board 7 can effectively suppress the escape of warm air around the card accommodating portion 12 heated by the contact portion 24b. Therefore, it becomes possible to heat the card accommodating part 12 effectively, and as a result, it becomes possible to prevent the liquid in the card accommodating part 12 from freezing more effectively.

  In the embodiment described above, when a control rigid board is provided in addition to the rigid board 7, the contact portion 24a may be covered with the rigid board. Moreover, in the form mentioned above, the card reader 1 may be provided with a cover member made of resin or the like that covers the contact portion 24a. In this case, in addition to being able to suppress the escape of warm air around the card housing portion 12 heated by the contact portion 24b, the card housing portion 12 warmed by the contact portion 24a. It becomes possible to suppress the warm air around the escape. That is, it is possible to suppress the warm air around the card accommodating portion 12 warmed by the contact portions 24a and 24b from escaping on both the left and right sides. Therefore, it becomes possible to heat the card accommodating part 12 more effectively, and as a result, it becomes possible to prevent the liquid in the card accommodating part 12 from freezing more effectively. In addition, in order to prevent the liquid freezing in the card accommodating part 12 more effectively, you may make the thickness of the card accommodating part 12 thin.

  In the embodiment described above, two wall portions 12 a and 12 b are formed in the card housing portion 12. In addition to this, for example, only the wall portion 12a may be formed in the card accommodating portion 12, or only the wall portion 12b may be formed. Further, the wall portion 12 a and the wall portion 12 b may not be formed in the card accommodating portion 12. Further, in the embodiment described above, the contact portion 24b is covered with the rigid substrate 7 from the right side, but the contact portion 24b may not be covered with the rigid substrate 7.

  In the embodiment described above, the heat transfer member 24 is formed with the embossed portion 24d as the heat transfer member side engaging portion, and the card accommodating portion 12 is formed with the engaging hole 12d as the accommodating portion side engaging portion. In addition to this, for example, a protrusion as an accommodating portion side engaging portion is formed in the card accommodating portion 12, and an engaging hole engaging with the protrusion is formed in the heat transfer member 24 as an engaging portion on the heat transfer member. Also good. Moreover, in the form mentioned above, although the heat-transfer member 24 is formed with the aluminum alloy, the heat-transfer member 24 may be formed with heat conductive materials other than an aluminum alloy.

  In the embodiment described above, the seal member 8 is disposed between the front frame 5 and the partition wall 13 in the radial direction of the annular seal member 8. In addition to this, for example, like the card reader described in Patent Document 2, the seal member 8 may be disposed between the front frame 5 and the partition wall 13 in the front-rear direction. In the embodiment described above, the IC chip may be built in the card 2, and the external connection terminal of the IC chip may be formed on the surface of the card 2. In this case, an IC contact block that contacts the external connection terminal is arranged in the card housing portion 12. In the embodiment described above, the card reader 1 is a manual card reader. However, the card reader 1 may be a card transport type card reader having a card transport mechanism for automatically transporting the card 2.

DESCRIPTION OF SYMBOLS 1 Card reader 2 Card 4 Insertion slot 5 Front frame 6 Main body frame 7 Rigid board 8 Sealing member 9 Heating mechanism 12 Card accommodating part 12a, 12b Wall part 12d Engagement hole (accommodating part side engaging part)
13 Partition part 24 Heat transfer member 24a, 24b Contact part 24d Embossed part (heat transfer member side engaging part)
25 Heater X1 Card insertion direction X2 Card removal direction Y Card thickness direction Z Card width direction

Claims (7)

A front frame in which a card insertion slot is formed, a main body frame fixed to the front frame, a seal member formed in an annular shape, and a heating mechanism for heating the main body frame,
When the insertion direction side of the card to the insertion port is the back side, and the removal direction side of the card from the insertion port is the front side,
The main body frame includes a bag-like card accommodating portion that accommodates a back side portion of the card inserted from the insertion port, and a partition that is formed in a bowl shape and is connected to the front end of the card accommodating portion,
The seal member is disposed between the front frame and the partition wall so as to surround the card passage path through which the card passes from the outer peripheral side,
The heating mechanism has two contact portions that come into contact with the card accommodating portion from both outer sides in the thickness direction of the card accommodated in the card accommodating portion, and is formed of a heat conductive material. A card reader comprising: a heater attached to the heat transfer member. It has a rigid board for control,
The card reader according to claim 1, wherein the rigid board covers the contact portion from the outside in the thickness direction of the card.   The card reader according to claim 2, wherein the rigid substrate covers the entire contact portion. A cover member that covers the contact portion that contacts the card housing portion from one side in the thickness direction of the card;
4. The card reader according to claim 2, wherein the rigid substrate covers the contact portion that contacts the card housing portion from the other side in the thickness direction of the card. When the direction perpendicular to the insertion direction of the card and the thickness direction of the card is the width direction of the card,
The card reader according to any one of claims 1 to 4, wherein a wall portion that covers the contact portion from the outside in the width direction of the card is formed in the card accommodation portion.   The card reader according to claim 1, wherein the heat transfer member is formed by bending a flat plate of an aluminum alloy into a substantially square groove shape. The heat transfer member is formed with a heat transfer member side engaging portion for positioning the heat transfer member with respect to the card housing portion,
The card reader according to any one of claims 1 to 6, wherein an accommodating portion side engaging portion that engages with the heat transfer member side engaging portion is formed in the card accommodating portion.

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