JP6176154B2 - Substrate mounting structure of non-contact type IC card reader - Google Patents

Description

  The present invention relates to a substrate mounting structure for mounting an antenna substrate having an antenna coil to a case in a non-contact type IC card reader.

  Conventionally, when a printed circuit board or the like is attached to a case, a structure is known in which the periphery of the substrate is locked by a locking claw provided on the case, thereby holding the substrate in the case (see, for example, Patent Document 1). Similarly, in the non-contact type IC card reader, it is conceivable that the antenna substrate is attached to the case by locking the periphery of the antenna substrate having the antenna coil by the locking claw provided on the case. .

  By the way, it is generally desirable for a non-contact type IC card reader to have a high IC card reading performance, that is, to read an IC card as far as possible from the device with good response. The reading performance of the IC card is greatly influenced by the size of the antenna coil and the distance from the antenna coil to the reading surface of the apparatus. In a general non-contact type IC card reader, the influence of the size of the antenna coil and the distance from the antenna coil to the reading surface of the device on the reading performance of the IC card is about 30 to 50% of the overall performance. large.

JP 2010-287790 A

  However, in the conventional structure that locks the outer periphery of the substrate, the antenna coil must be arranged avoiding the locking claws, and it is difficult to increase the size of the antenna coil. Improve performance improvement.

  In this case, if the case is enlarged, the substrate and the antenna coil can be enlarged accordingly, so that the reading performance of the IC card can be improved. However, when the case is enlarged, it is not preferable to enlarge the case because of problems such as limitation of installation space and inability to ensure compatibility with conventional products.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to attach an antenna substrate having an antenna coil arranged in a coil shape to a case, and to improve the reading performance of an IC card without increasing the size of the case. It is an object of the present invention to provide a substrate mounting structure for a non-contact type IC card reader that can be improved.

  According to the first aspect of the present invention, the attachment mechanism for attaching the antenna substrate to the case is provided inside the antenna coil. According to this, it is not necessary to lock the outer peripheral portion of the antenna substrate by the locking claws provided in the case. That is, the locking claw can be removed from the outer peripheral portion of the antenna substrate. Therefore, it is not necessary to arrange the antenna coil while avoiding the locking claws, and the antenna coil can be arranged up to the outer peripheral side of the antenna substrate. As a result, the antenna coil can be increased in size, and as a result, the reading performance of the IC card of the apparatus can be improved.

  Moreover, according to this, the structure which obstructs arrangement | positioning of an antenna board | substrate with respect to a case like a latching claw can be excluded from the outer part of a case. For this reason, the antenna substrate can be enlarged up to just before the outer shape of the case. Accordingly, it is possible to increase the size of the antenna substrate without increasing the size of the case. As the antenna substrate becomes larger, the antenna coil can be made larger. As a result, the reading performance of the IC card of the apparatus can be improved.

  In the invention according to claim 2, the mounting mechanism includes a first hole and a second hole formed inside the antenna coil, a base provided in the case and passed through the first hole of the substrate, It was set as the structure which has the 1st latching | locking part and 2nd latching | locking part provided in the base part. In this configuration, the first locking portion locks the periphery of the first hole portion on the front surface of the antenna substrate. Thereby, a 1st latching | locking part regulates the movement to the front direction of the said antenna board | substrate with respect to an antenna board | substrate. The second locking portion has a head provided at the tip of the elastically deforming portion entering the second hole portion of the substrate to lock the inner surface of the second hole portion. Thereby, a 2nd latching | locking part controls the movement to the direction parallel to the surface of the said antenna board | substrate with respect to the antenna board | substrate. In this case, the second locking portion having the elastically deforming portion and the head and the second hole locked to the head constitute a so-called snap fit.

  Generally, when a board is attached to a case using a snap fit, the antenna board is moved so as to push the snap fit on the board. At that time, the head of the snap fit receives a force due to the movement of the substrate, converts the force into a direction in which the elastic deformation portion elastically deforms, that is, a direction perpendicular to the movement direction of the substrate, and transmits the force to the elastic deformation portion. To do. As described above, the snap-fit head receives a force from the antenna substrate toward the moving direction of the antenna substrate during attachment. Therefore, it is necessary to secure the rigidity of the snap-fit head by providing a thickness in the moving direction of the antenna substrate.

  However, in the board mounting structure of the non-contact type IC card reader, there are the following problems if the moving direction of the antenna board when the antenna board is attached to the case is set to a direction perpendicular to the surface of the antenna board. That is, in this case, the snap-fit head largely protrudes forward from the front surface of the antenna substrate in a state where the antenna substrate is attached to the case. Then, the snap-fit head gets in the way, making it difficult to shorten the distance from the front surface of the antenna substrate to the IC card reading surface of the device. As a result, it is impeded to improve the reading performance of the IC card by shortening the distance from the antenna coil to the reading surface of the IC card.

  Therefore, the elastic deformation portion of the second locking portion is elastically deformed in the thickness direction of the antenna substrate. Thereby, the moving direction of the antenna substrate when the antenna substrate is attached to the case can be made parallel to the surface of the antenna substrate, and the antenna substrate can be attached to the case by sliding. Therefore, the head of the second locking portion may have a thickness in the direction of movement of the antenna substrate, that is, the direction parallel to the surface of the antenna substrate, and the direction perpendicular to the surface of the antenna substrate, that is, the thickness of the antenna substrate. There is no need to have a thickness in the direction. Therefore, in a state where the antenna substrate is attached to the case, it is possible to prevent the head portion of the second locking portion from greatly protruding from the front surface of the antenna substrate in the direction perpendicular to the front surface. Thereby, the protrusion amount of the head part of the 2nd latching | locking part from the front surface of an antenna board | substrate can be reduced. Therefore, the distance from the front surface of the antenna substrate to the IC card reading surface of the device can be shortened, and as a result, the reading performance of the IC card can be improved.

  In the invention according to claim 3, the antenna substrate has one first hole. The antenna substrate is attached to the case through all the first locking portions in one first hole portion. Here, for example, since the attachment mechanism has at least one first locking portion, a case where a plurality of first locking portions are also assumed. And when a plurality of 1st hole parts are provided corresponding to a plurality of 1st locking parts, an operator sets a corresponding 1st locking part to each of a plurality of 1st hole parts. Need to pass through. Therefore, in this case, it is difficult to determine the aim when the first locking portion is passed through the first hole portion, and the assemblability is deteriorated. Therefore, all the first locking portions are passed through one first hole portion so that the antenna substrate is attached to the case. As a result, the operator only needs to pay attention to one first hole and aim at it, so that the aim at the time of assembly can be easily determined, and the assemblability can be improved.

  In the invention according to claim 4, the second locking portion is also used as the first locking portion. According to this, since it is not necessary to provide a 2nd locking part and a 1st locking part separately, a structure becomes simple. Moreover, since it is not necessary to aim separately about the 1st latching | locking part and the 2nd latching | locking part, an assembly becomes easy. As a result, productivity is improved.

  In the invention according to claim 5, the elastically deforming portion of the second locking portion is provided on the back side of the antenna substrate and presses the antenna substrate from the back side of the antenna substrate toward the front side. Therefore, the antenna substrate can be positioned as far forward as possible, that is, on the IC card reading surface side. Therefore, the distance from the front surface of the antenna substrate to the IC card reading surface can be further shortened, and as a result, the reading performance of the IC card can be further improved.

  In the invention described in claim 6, the case is formed in a rectangular shape in plan view. And the fixing | fixed part for fixing a case to an installation part is provided in the corner | angular part of the case. In general, the case is provided with a fixing portion, and a screw or the like for fixing to the installation portion is passed through the fixing portion. In this case, in order to make the antenna substrate as large as possible with respect to the outer shape of the case, it is necessary to escape the portion that overlaps the fixed portion to form the antenna substrate, or to make a hole in the portion of the antenna substrate that overlaps the fixed portion. There is. In this case, in any case, it is necessary to arrange the antenna coil while avoiding the fixed portion. Therefore, the increase in size of the antenna coil is hindered by the fixing portion.

  Here, generally, the reading position is displayed on the IC reading surface of the apparatus corresponding to the shape of the antenna coil so that the user can visually recognize the reading position of the IC card. For example, if the antenna coil is rectangular, a rectangular reading position is displayed on the IC reading surface of the apparatus. In this case, it is considered that the user normally intends to bring the IC card closer to the displayed reading position while aiming at the center of the rectangle, and aims at the corner of the rectangle with respect to the reading position. It is hard to think of bringing an IC card closer. For this reason, the corner portion of the rectangular antenna coil has a relatively small influence on the reading performance of the IC card compared to other portions. Therefore, by providing the fixed portion at the corner, the influence of the fixed portion provided on the case on the reading performance of the IC card can be suppressed as much as possible.

The perspective view which shows the non-contact-type IC card reader by 1st Embodiment. The perspective view which decomposes | disassembles and shows the structure of a non-contact-type IC card reader Plan view of non-contact type IC card reader It is sectional drawing which follows X4-X4 of FIG. 3, Comprising: The figure which shows the attachment procedure of the antenna board with respect to a case with time FIG. 1 equivalent diagram according to the second embodiment FIG. 2 equivalent diagram according to the second embodiment FIG. 4 equivalent diagram according to the second embodiment FIG. 4 equivalent diagram according to the third embodiment

  Hereinafter, a substrate mounting structure of a non-contact type IC card reader according to a plurality of embodiments will be described with reference to the drawings. In addition, in each embodiment, the same code | symbol is attached | subjected to the substantially same component and description is abbreviate | omitted.

(First embodiment)
First, a first embodiment will be described with reference to FIGS.
A non-contact type IC card reader 10 (hereinafter referred to as “device 10”) shown in FIG. 1 includes a case 20 and an antenna substrate 30. In the following description, in the antenna substrate 30, the surface opposite to the case 20 side is defined as the front surface of the antenna substrate 30, and the surface on the case 20 side is defined as the back surface of the antenna substrate 30. The front side of the antenna substrate 30 is the front side of the device 10, and the back side of the antenna substrate 30 is the rear side of the device 10. The front side of the antenna substrate 30 is the IC card reading surface side.

  The case 20 is made of an insulating synthetic resin or the like. As shown in FIG. 2, the case 20 has an outer wall constituted by a peripheral wall 201. The peripheral wall 201 is formed in a rectangular tube shape that is long in one direction as a whole when viewed from the front side. The case 20 integrally has a plurality of ribs 21 and a base portion 22 inside a peripheral wall 201 formed in a rectangular cylindrical shape. The plurality of ribs 21 extend from the inner surface of the peripheral wall 201 of the case 20, reinforce the case 20, and support the base portion 22. The base 22 is provided at the rectangular central portion of the case 20. The base portion 22 is formed in a so-called U-shape that is open in one direction when viewed from the front side.

  The base portion 22 has one locking portion 23 that also serves as the first locking portion and the second locking portion. Note that a plurality of locking portions 23 may be provided. That is, it is sufficient that at least one first locking portion and second locking portion are provided. The locking portion 23 constitutes a part of the attachment mechanism 11 for attaching the antenna substrate 30 to the case 20. As shown in FIGS. 1 and 4, the locking portion 23 is provided on the front side of the antenna substrate 30 in a state where the antenna substrate 30 is attached to the case 20. The locking part 23 is provided on the side opposite to the opening side of the base part 22, that is, on the closed side of the U-shape. The locking portion 23 extends from the base portion 22 in parallel with the surface of the antenna substrate 30. The locking portion 23 has a portion extending from the base portion 22 as an elastic deformation portion 231. Further, as shown in FIG. 4, the rear surface of the elastic deformation portion 231, that is, the antenna substrate 30 side is a first locking surface 232.

  That is, the elastic deformation portion 231 extends in parallel with the surface of the antenna substrate 30 and is formed in a rectangular plate shape that is long in the longitudinal direction of the case 20. The dimension in the front-rear direction, that is, the thickness dimension of the elastically deformable portion 231 is smaller than the width direction, that is, the width dimension of the case 20. The elastic deformation portion 231 has a base end portion which is a fixed end connected to the base portion 22 and a distal end portion which is a free end. Thereby, the elastic deformation portion 231 can be elastically deformed in the front-rear direction, that is, in the thickness direction of the antenna substrate 30 with the base end portion as a fulcrum.

  Further, the locking portion 23 has a head portion 233. The head 233 is located at the tip of the elastic deformation portion 231 and protrudes toward the antenna substrate 30 side. The head 233 is provided closer to one side with respect to the center in the longitudinal direction of the case 20. As shown in FIG. 4, the surface of the head portion 233 on the base portion 22 side is formed as a surface perpendicular to the rear side surface of the elastic deformation portion 231 and functions as the second locking surface 234. The surface of the head 233 opposite to the second locking surface 234 is formed on a slope 235 that is inclined so as to approach the second locking surface 234 toward the rear side.

  As shown in FIGS. 2 and 3, the case 20 has two fixing portions 24 and 25 and two retaining portions 26 and 27. The fixing portions 24 and 25 are provided at opposite corners of the rectangular corner of the case 20. Through holes 241 and 251 are formed in the fixing portions 24 and 25, respectively. A screw or the like (not shown) is passed through the through holes 241 and 251 from the front side of the case 20 and screwed into an installation portion (not shown). Thereby, the apparatus 10 is fixed to an installation part.

  As shown in FIG. 2, the retaining portions 26 and 27 are provided at the foremost portion of the case 20 and are provided on one side in the longitudinal direction of the case 20. The retaining portion 26 is provided on one of the fixed portions 24, 25, in this case, in the vicinity of the fixed portion 25 side and in the rectangular short side portion of the case 20. The retaining portion 26 is configured to cover the front surface of the corner portion of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20.

  The retaining portion 27 is provided at one corner portion of the case 20 where the fixing portions 24 and 25 do not exist. The retaining portion 27 is configured to cover the front surface of the antenna substrate 30 and two corners of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20. As shown in FIG. 4, the thickness dimensions of the retaining portions 26 and 27 are configured to be equal to the thickness dimension of the elastic deformation portion 231 of the locking portion 23. The front surfaces of the retaining portions 26 and 27 and the front surface of the elastic deformation portion 231 are configured to be substantially on the same plane.

  The antenna substrate 30 is formed of, for example, a printed circuit board, and is formed in a rectangular plate shape that is long in one direction as a whole. As shown in FIGS. 1 and 3, when the antenna substrate 30 is attached to the case 20, the antenna substrate 30 substantially covers the front surface of the case 20. That is, the antenna substrate 30 is enlarged up to the middle of the outer shape of the case 20. Relief portions 301 and 302 that are notched so as to avoid the fixing portions 24 and 25 of the case 20 are formed at corner portions of the antenna substrate 30. Thereby, in a state where the antenna substrate 30 is attached to the case 20, the fixing portions 24 and 25 of the case 20 are exposed forward without overlapping with the antenna substrate 30.

  As shown in FIG. 3, the antenna substrate 30 has an antenna coil 31. The antenna coil 31 is a coiled antenna disposed on the front surface of the antenna substrate 30 by printed wiring. The antenna coil 31 is arranged in an octagon shape that is flat in the longitudinal direction of the antenna substrate 30 along the escape portions 301 and 302 while avoiding the retaining portions 26 and 27. The outermost wiring of the antenna coil 31 is disposed just before the outer peripheral edge of the antenna substrate 30.

  As shown in FIG. 2, the antenna substrate 30 has one first hole portion 32 and one second hole portion 33. The first hole portion 32 and the second hole portion 33 constitute a part of the attachment mechanism 11 for attaching the antenna substrate 30 to the case 20. The first hole 32 and the second hole 33 are inside the antenna coil 31 and are formed through the antenna substrate 30 in the thickness direction. The first hole portion 32 is formed in a convex shape that protrudes in one direction in the longitudinal direction of the antenna substrate 30, in this case, opposite to the retaining portion 27. The first hole portion 32 is formed in a shape that allows the base portion 22 and the locking portion 23 of the case 20 to be inserted and removed. When the antenna substrate 30 is attached, the base 22 is passed through the first hole 32 of the antenna substrate 30.

  The second hole 33 is provided on the convex tip side of the first hole 32, and is formed away from the first hole 32. The second hole 33 is provided on the side opposite to the retaining portions 26 and 27 with respect to the center of the antenna substrate 30 in the longitudinal direction. The 2nd hole 33 is formed so that the head 233 provided in the latching | locking part 23 of case 20 can be inserted. In this case, the locking portion 23 as the second locking portion constitutes a so-called snap fit together with the second hole portion 33.

  As shown in FIG. 4, the apparatus 10 includes a control board 15 and a cover 16. The end of the antenna coil 31 is connected to a control circuit (not shown) provided on the control board 15 by a connector (not shown). The control circuit performs transmission / reception of information and processing of the information without contact with the IC card via the antenna coil 31. The cover 16 is provided at the rear part of the case 20 and covers the rear part of the case 20.

Next, a method for attaching the antenna substrate 30 to the case 20 will be described.
First, the operator moves the antenna substrate 30 in a direction approaching the case 20 from the front of the case 20. At that time, the operator arranges the antenna substrate 30 at the front end portion of the case 20 so as to pass the base portion 22 and the locking portion 23 of the case 20 through the first hole portion 32 of the antenna substrate 30. In addition, when there are a plurality of locking portions 23, all the locking portions 23 are passed through one first hole portion 32. As a result, the antenna substrate 30 is placed on the front end of the peripheral wall 201 and the front end of the rib 21 in the case 20 as shown in FIG. Thereafter, the operator slides and moves the antenna substrate 30 to one side in the longitudinal direction of the case 20, in this case, the retaining portions 26 and 27.

  When the antenna substrate 30 is slid, the inclined surface 235 of the head portion 233 of the locking portion 23 comes into contact with the periphery of the first hole portion 32 of the antenna substrate 30. Thereby, the head 233 receives a force due to the movement of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20. The head 233 converts the force in the surface direction accompanying the movement of the antenna substrate 30 received by the inclined surface 235 into a direction perpendicular to the surface direction, that is, a direction in which the elastic deformation portion 231 elastically deforms, in this case, forward. This is transmitted to the elastic deformation portion 231. Then, the elastically deforming portion 231 is elastically deformed in the direction away from the case 20, that is, in the thickness direction of the antenna substrate 30 with the base end portion as a fulcrum, that is, the head 233 is moved to the front of the antenna substrate 30. Get on. When the antenna substrate 30 is further slid, the head portion 233 gets over the antenna substrate 30 between the first hole portion 32 and the second hole portion 33, and the elastic deformation of the elastic deformation portion 231 is returned to the second position. Enter the hole 33. Thereby, the movement of the antenna substrate 30 is restricted by the locking portion 23 and is attached to the case 20.

  That is, in a state where the antenna substrate 30 is attached to the case 20, the first locking surface 232 of the elastic deformation portion 231 surrounds the first hole portion 32 of the antenna substrate 30 as shown in FIG. Lock. In this case, the first locking surface 232 presses the antenna substrate 30 to the back side, that is, rearward by the elastic force of the elastic deformation portion 231. Accordingly, the locking portion 23 restricts the forward movement of the antenna substrate 30 in the direction away from the case 20 and perpendicular to the surface of the antenna substrate 30 in this case. In this case, the locking part 23 functions as a first locking part.

  Further, in a state where the antenna substrate 30 is attached to the case 20, the second locking surface 234 of the head 233 locks the inner side surface of the second hole portion 33 of the antenna substrate 30. Therefore, the locking portion 23 restricts movement of the antenna substrate 30 in a direction away from the case 20 and in a direction parallel to the surface of the antenna substrate 30, in this case, movement toward the fixed portion 24. In this case, the locking part 23 functions as a second locking part.

  In the antenna substrate 30, the retaining portion 27 of the case 20 latches two sides of one corner portion of the two corner portions on the distal end side in the sliding direction at the time of attachment. Accordingly, the retaining portion 27 restricts further movement of the antenna substrate 30 in the direction of the surface, in this case, toward the fixing portion 25 and movement in a direction rotating in parallel to the surface of the antenna substrate 30. Further, the retaining portions 26 and 27 of the case 20 cover the corners of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20. Accordingly, the retaining portions 26 and 27 restrict the movement in the direction away from the case 20 and in the direction perpendicular to the surface of the antenna substrate 30 in this case.

  The operator can remove the antenna substrate 30 from the case 20 by performing a procedure reverse to the above-described attachment procedure. That is, when removing the antenna substrate 30 from the case 20, the operator first elastically deforms the elastic deformation portion 231 forward and removes the head portion 233 from the second hole portion 33 of the antenna substrate 30. Thereby, the locking by the second locking surface 234 of the head 233 is released, and the antenna substrate 30 can be slid. Then, the operator slides the antenna substrate 30 toward the fixing portion 24 and then passes the base portion 22 and the locking portion 23 through the first hole portion 32 to remove the antenna substrate 30 from the case 20.

  In the first embodiment described above, the apparatus 10 has the locking portion 23 provided in the case 20 and the first hole portion 32 provided in the antenna substrate 30 as the attachment mechanism 11 for attaching the antenna substrate 30 to the case 20. And a second hole 33. The attachment mechanism 11 is provided inside the antenna coil 31. According to this, it is not necessary to provide a structure such as a locking claw for locking the antenna substrate 30 on the outer peripheral portion of the antenna substrate 30. Therefore, it is not necessary to arrange the antenna coil 31 while avoiding a structure such as a locking claw provided on the outer peripheral portion of the antenna substrate 30, and the antenna coil 31 can be arranged up to the immediate outer peripheral side of the antenna substrate 30. . As a result, the antenna coil 31 is enlarged without changing the size of the case 20, and as a result, the reading performance of the IC card of the device 10 can be improved.

  The outer periphery of the case 20 is not provided with a structure such as a locking claw that obstructs the arrangement of the antenna substrate 30. Therefore, the antenna substrate 30 can be enlarged up to just before the outer periphery of the case 20. Therefore, the antenna substrate 30 can be enlarged without increasing the size of the case 20. As a result, the antenna coil 31 can be increased in size as the antenna substrate 30 is increased in size, and as a result, the IC card reading performance of the device 10 can be improved.

  The attachment mechanism 11 includes a first hole portion 32 and a second hole portion 33 provided inside the antenna coil 31 in the antenna substrate 30, and a first locking portion and a second locking portion provided in the case 20. And a locking portion 23 that is also used. The first locking surface 232 of the locking portion 23 locks the periphery of the first hole portion 32 on the front surface of the antenna substrate 30. Thereby, the latching | locking part 23 controls the movement to the thickness direction of the said antenna board | substrate 30 with respect to the antenna board | substrate 30 as a 1st latching | locking part. The head portion 233 of the locking portion 23 enters the second hole portion 33 of the antenna substrate 30 and locks the inner side surface of the second hole portion 33. Thereby, the latching | locking part 23 regulates the movement to the antenna substrate 30 in the direction parallel to the surface of the said antenna board | substrate 30 as a 2nd latching | locking part. That is, the locking part 23 regulates the movement in the thickness direction of the antenna substrate 30 as the first locking part, and regulates the movement in the direction parallel to the surface of the antenna board 30 as the second locking part, The antenna substrate 30 can be more securely attached to the case 20 in a holding state.

  The case 20 restricts the forward movement of the antenna substrate 30 at the three points of the first locking surface 232 of the locking portion 23 and the retaining portions 26 and 27. Therefore, the antenna substrate 30 can be held more reliably as compared with the case where the antenna substrate 30 is locked at one point of the first locking surface 232. Here, the distance from the retaining portions 26 and 27 to the first locking surface 232 is short, and the distance from the first locking surface 232 to the end of the antenna substrate 30 opposite to the retaining portions 26 and 27 is long. In this case, the end of the antenna substrate 30 opposite to the retaining portions 26 and 27 may be lifted with the first locking surface 232 as a fulcrum. Therefore, in the present embodiment, the first locking surface 232 is provided closer to the side opposite to the retaining portions 26 and 27 than the center with respect to the longitudinal direction of the antenna substrate 30. That is, the distance between the first locking surface 232 of the locking portion 23 and the retaining portions 26 and 27 is secured as large as possible. As a result, it is possible to prevent as much as possible that the end of the antenna substrate 30 opposite to the retaining portions 26 and 27 from the first locking surface 232 is lifted.

  The locking portion 23 as the second locking portion has an elastic deformation portion 231 that extends in parallel with the surface of the antenna substrate 30 and can be elastically deformed in the thickness direction of the antenna substrate 30. Thereby, the moving direction of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20 can be made parallel to the surface of the antenna substrate 30, and the antenna substrate 30 can be attached to the case 20 by sliding. it can. Therefore, the head 233 constituting the second locking portion may be thick in the moving direction of the antenna substrate 30, that is, in the surface direction, and thick in the direction perpendicular to the surface of the antenna substrate 30, that is, in the front-rear direction. There is no need to let Therefore, it is possible to prevent the head portion 233 from projecting greatly forward from the front surface of the antenna substrate 30 in a state where the antenna substrate 30 is attached to the case 20. Thereby, the protrusion amount of the head 233 from the front surface of the antenna substrate 30 can be reduced. Therefore, the distance from the front surface of the antenna substrate 30 to the IC card reading surface of the device 10 can be shortened, and as a result, the reading performance of the IC card can be improved.

The antenna substrate 30 has one first hole portion 32 and is configured to be attached to the case through all the locking portions 23 in the first hole portion 32. As a result, the operator only needs to pay attention to one first hole portion 32 and set the target, so that the target at the time of assembly can be easily set and the assemblability can be improved.
Moreover, the latching | locking part 23 serves as the 2nd latching | locking part and the 1st latching | locking part. According to this, the 1st latching | locking part which controls the movement to the front with respect to the antenna board | substrate 30 and the 2nd latching | locking part which regulates the movement to the direction parallel to the surface of the said antenna board | substrate 30 are each provided separately. There is no need, and therefore the configuration is simple. In addition, since the first locking portion and the second locking portion are locked, respectively, it is not necessary to individually set the target, so that assembly is facilitated. As a result, productivity is improved.

  The case 20 is formed in a rectangular shape in plan view. And the fixing | fixed part 24 and 25 for fixing the case 20 to an installation part is provided in the corner | angular part of the case 20. As shown in FIG. That is, the fixing portions 24 and 25 are provided at rectangular corners that have a relatively small influence on the reading performance of the IC card in the rectangular antenna coil as compared with other portions. Thereby, the influence which the fixing | fixed parts 24 and 25 provided in case 20 have on the reading performance of an IC card can be suppressed as much as possible.

(Second Embodiment)
Next, a second embodiment will be described with reference to FIGS.
In 2nd Embodiment, the specific structure of the attachment mechanism 12 for attaching the antenna board | substrate 30 to the case 20 differs from the attachment mechanism 11 of the said 1st Embodiment. That is, in the first embodiment, the locking portion 23 serves as both the first locking portion and the second locking portion. On the other hand, in the second embodiment, the first locking portion 42 and the second locking portion 43 are configured separately.
That is, in the second embodiment, the case 20 is replaced with the base portion 22 and the locking portion 23 of the first embodiment, the base portion 41, the two first locking portions 42, and the second locking portion 43. have. The pedestal portion 41 is supported by the rib 21 in the central portion of the case 20. The two first locking portions 42 are arranged side by side in the short direction of the case 20. The first locking portion 42 is on the front side of the base portion 41 and extends toward the side opposite to the retaining portion 27 of the case 20. The rear surface of the first locking portion 42, that is, the surface on the antenna substrate 30 side functions as the first locking surface 421.

  The second locking portion 43 is a so-called snap fit, and is provided between the two first locking portions 42. The 2nd latching | locking part 43 is comprised from the elastic deformation part 431 and the head 432 as shown in FIG. The elastic deformation portion 431 is a front portion of the base portion 41 and is located behind the first locking portion 42 by the thickness of the antenna substrate 30 and extends to the side opposite to the retaining portion 27 of the case 20. Yes. In this case, the first locking surface 421 of the first locking portion 42 and the surface of the elastic deformation portion 431 on the antenna substrate 30 side, that is, the front surface, are separated by the thickness of the antenna substrate 30. Similar to the elastic deformation portion 231 of the first embodiment, the elastic deformation portion 431 is formed in a thin rectangular plate shape in the front-rear direction, the base end portion is a fixed end connected to the base portion 41, and the distal end portion is free. It is the end. Therefore, the elastic deformation portion 431 can also be elastically deformed in the front-rear direction, that is, in the thickness direction of the antenna substrate 30.

  The head portion 432 is provided at the distal end portion of the elastic deformation portion 431. The head 432 is configured symmetrically with the head 233 of the first embodiment in the front-rear direction. That is, as shown in FIG. 7, the surface of the head portion 432 on the base portion 41 side is formed as a surface perpendicular to the front surface of the elastic deformation portion 431 and functions as the second locking surface 433. The surface of the head portion 432 opposite to the second locking surface 433 is formed on a slope 434 that is inclined so as to approach the second locking surface 433 toward the front side.

  As shown in FIG. 6, the antenna substrate 30 of the second embodiment has a first hole portion 51 and a second hole portion 52 in place of the first hole portion 32 and the second hole portion 33 of the first embodiment. Have one by one. The first hole 51 and the second hole 52 are provided inside the antenna coil 31. The first hole 51 corresponds to the first locking portion 42 and is formed through the antenna substrate 30 in a rectangular shape in the thickness direction. The first hole 51 is configured such that the first locking portion 42 can be inserted. The second hole 52 corresponds to the second locking portion 43 and is formed through the antenna substrate 30 in a rectangular shape in the thickness direction. The second hole portion 52 is configured such that the head portion 432 of the second locking portion 43 can be inserted.

  When the antenna substrate 30 is attached to the case 20, all the first locking portions 42, in this case, the two first locking portions 42 are passed through one first hole portion 51. Then, as shown in FIG. 7A, the antenna substrate 30 is slid and attached to the case 20 as in the first embodiment. At that time, the head 432 of the second locking portion 43 receives the force due to the sliding movement from the antenna substrate 30 and elastically deforms the elastic deformation portion 431 backward. As a result, the head 432 rides on the rear surface of the antenna substrate 30. When the antenna substrate 30 is further slid, the head 432 enters the second hole 52 as shown in FIG. As a result, the antenna substrate 30 is attached to the case 20.

  As shown in FIG. 7B, in a state where the antenna substrate 30 is attached to the case 20, the first locking surface 421 of the first locking portion 42 is around the first hole portion 51 of the antenna substrate 30. In this case, the front surface of the antenna substrate 30 is locked. Accordingly, the first locking portion 42 restricts the forward movement of the antenna substrate 30 in the direction away from the case 20 and perpendicular to the surface of the antenna substrate.

  In a state where the antenna substrate 30 is attached to the case 20, the second locking surface 433 of the head portion 432 locks the inner surface of the second hole portion 52 of the antenna substrate 30. Therefore, the second locking portion 43 restricts movement in the direction away from the case 20 and parallel to the surface of the antenna substrate 30 with respect to the antenna substrate 30, in this case, movement toward the fixed portion 24. In this case, the second locking portion 43 presses the antenna substrate 30 forward by the elastic force of the elastic deformation portion 431.

According to the second embodiment described above, the same operational effects as those of the first embodiment can be obtained.
Further, in a state where the antenna substrate 30 is attached to the case 20, the second locking portion 43 presses the antenna substrate 30 forward by the elastic force of the elastic deformation portion 431. Therefore, the antenna substrate 30 can be positioned as far forward as possible, that is, on the IC card reading surface side. Therefore, the distance from the front surface of the antenna substrate 30 to the IC card reading surface of the device 10 can be further shortened, and as a result, the reading performance of the IC card can be further improved.

(Third embodiment)
Next, a third embodiment will be described with reference to FIG.
In the third embodiment, the apparatus 10 includes third locking portions 61 and 62 and a third hole 71 as the attachment mechanism 13. The third locking portions 61 and 62 are provided inside the antenna coil 31 and in the case 20. The third hole 71 is inside the antenna coil 31 and is formed through the antenna substrate 30 in a rectangular shape. The third locking portions 61 and 62 are so-called snap fits, and are provided so as to protrude from the center portion of the case 20 to the front of the case 20. The third locking portions 61 and 62 are formed symmetrically with respect to the longitudinal center of the case 20. The third locking portions 61 and 62 have elastic deformation portions 611 and 621 extending forward, and head portions 612 and 622 provided at the distal end portions of the elastic deformation portions 611 and 621. The heads 612 and 622 have third locking surfaces 613 and 623 and slopes 614 and 624, respectively. In this case, the heads 612 and 623 are formed thick in the thickness direction of the antenna substrate 30, that is, in the front-rear direction.

  Further, the case 20 has a retaining portion 28 instead of the retaining portion 27 in each of the above embodiments. The retaining portion 28 is configured to cover two corners of the antenna substrate 30 and not to cover the front surface of the antenna substrate 30 when the antenna substrate 30 is attached to the case 20.

  When the antenna substrate 30 is attached to the case 20, the antenna substrate 30 is moved from the front of the case 20 toward the case 20 as shown in FIG. Then, the elastically deforming portions 611 and 621 of the third locking portions 61 and 62 are elastically deformed in directions approaching each other by receiving the force of movement from the antenna substrate 30, and the head portions 612 and 622 are in the third hole portion 71. Passed through. Thereafter, the elastic deformation of the elastic deformation portions 611 and 621 is restored, and the third locking surfaces 613 and 623 of the head portions 612 and 622 lock the front surface of the antenna substrate 30 around the third hole portion 71. Thereby, the 3rd latching | locking parts 61 and 62 restrict | limit the movement to the front of the antenna board | substrate 30. FIG.

  In the third embodiment, the third locking portions 61 and 62 and the third hole portion 71 are provided inside the antenna coil 31 as the attachment mechanism 13 for attaching the antenna substrate 30 to the case 20. According to this, since it is not necessary to lock the outer peripheral portion of the antenna substrate 30 with the locking claws or the like as in the above embodiments, the antenna coil 31 can be enlarged up to just before the outer shape of the antenna substrate 30. . Moreover, according to this, similarly to each said embodiment, it is not necessary to provide structures, such as a latching claw which interferes with arrangement | positioning of the antenna board | substrate 30, in the outer peripheral part of the case 20. FIG. Therefore, the size of the antenna substrate 30 can be increased to just before the outer shape of the case 20. Therefore, the antenna substrate 30 can be enlarged without increasing the size of the case 20. And the antenna coil 31 can be enlarged with the enlargement of the antenna substrate 30.

  That is, according to the third embodiment, at least the size of the antenna coil 31 due to the absence of the locking claws on the outer peripheral portion of the antenna substrate 30 and the absence of the locking claws on the outer peripheral portion of the case 20 are eliminated. The antenna coil 31 can be increased in size as the antenna substrate 30 is increased in size. As a result, the IC card reading performance can be improved.

(Other embodiments)
The present invention described above is not limited to the above-described embodiments, and can be applied to various embodiments without departing from the scope of the invention.

For example, the case 20 and the antenna substrate 30 may be square in plan view.
The number of turns of the antenna coil 31 can be appropriately changed according to the IC card to be read.

  In the drawings, 10 is a non-contact type IC card reader, 11, 12 and 13 are mounting mechanisms, 20 is a case, 21 is a rib, 22 is a base, and 23 is a locking part (first locking part, second locking part). Stop part), 231 is an elastic deformation part, 233 is a head part, 24 and 25 are fixing parts, 30 is an antenna substrate, 31 is an antenna coil, 32 is a first hole part, 33 is a second hole part, and 42 is a first part. An engaging part, 43 is a second engaging part, 431 is an elastic deformation part, 432 is a head part, 51 is a first hole part, and 52 is a second hole part.

Claims (6)

An antenna substrate having an antenna coil arranged in a coil;
A case for supporting the antenna substrate;
An attachment mechanism provided inside the antenna coil for attaching the antenna substrate to the case;
Equipped with a,
The attachment mechanism is
A first hole and a second hole formed through the antenna coil in the thickness direction of the antenna substrate;
A base part supported by a rib extending from the inner side surface of the peripheral wall of the case and passed through the first hole part;
An elastic deformation portion that extends in parallel with the surface of the antenna substrate from the base portion and can be elastically deformed in the thickness direction of the antenna substrate, and protrudes toward the antenna substrate side at the distal end portion of the elastic deformation portion. A second locking portion including a head portion that locks the inner surface of the second hole portion by entering the portion;
Have
The antenna substrate is slid into the first hole through the second locking portion in parallel with the surface of the antenna substrate, and the head is pressed against the antenna substrate along with the sliding so that the elastic deformation portion is By elastically deforming and sliding further, the head enters the second hole portion, the elastic deformation of the elastic deformation portion is returned, and the head locks the inner surface of the second hole portion. A substrate mounting structure for a non-contact type IC card reader attached to a case . An antenna substrate having an antenna coil arranged in a coil;
A case for supporting the antenna substrate;
An attachment mechanism provided inside the antenna coil for attaching the antenna substrate to the case;
With
The attachment mechanism is
A first hole and a second hole formed through the antenna coil in the thickness direction of the antenna substrate;
A base part supported by a rib extending from the inner side surface of the peripheral wall of the case and passed through the first hole part;
At least one first locking portion provided on the front surface side of the antenna substrate, extending from the base portion in parallel with the surface of the antenna substrate and locking the periphery of the first hole portion on the front surface of the antenna substrate; ,
An elastic deformation portion that extends in parallel with the surface of the antenna substrate from the base portion and can be elastically deformed in the thickness direction of the antenna substrate, and protrudes toward the antenna substrate side at the distal end portion of the elastic deformation portion. A second locking portion including a head portion that locks the inner surface of the second hole portion by entering the portion;
Have
The antenna substrate is slid into the first hole portion through the first locking portion in parallel with the surface of the antenna substrate, and the first locking portion surrounds the first hole portion on the front surface of the antenna substrate. In addition to locking, the head is pressed against the antenna substrate along with the sliding, the elastic deformation portion is elastically deformed and further slid, and the head enters the second hole portion, and the elastic deformation portion of the elastic deformation portion board mounting structure of the elastic deformation is returned by the head to lock the inner surface of the second hole portion, that is attached to the case the non-contact type IC card reader.   The non-contact type IC card reader according to claim 2, wherein the antenna substrate has one first hole portion and is attached to the case through all the first locking portions in the first hole portion. Board mounting structure.   4. The substrate mounting structure for a non-contact type IC card reading device according to claim 2, wherein the second locking portion is also used as the first locking portion.   4. The non-contact type IC card reading device according to claim 2, wherein the second locking portion is provided on a back side of the antenna substrate and presses the antenna substrate from the back side to the front side of the antenna substrate. Board mounting structure. The case is formed in a rectangular shape in plan view,
The board mounting structure for a non-contact type IC card reading device according to any one of claims 1 to 5, wherein a fixing portion for fixing the case to the installation portion is provided at a corner portion of the case.

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