JP6907770B2 - Vehicle media reader - Google Patents

Description

The disclosure herein relates to a vehicle media reader.

Patent Document 1 and Patent Document 2 disclose an ETC (registered trademark) on-board unit. The contents of the prior art documents listed as prior art are incorporated by reference as an explanation of the technical elements in this specification.

Japanese Unexamined Patent Publication No. 2012-228904 Japanese Unexamined Patent Publication No. 2011-170549

In Patent Document 1, there is a risk that the circuit board will be flooded by water entering from the front wall side of the ETC on-board unit.

Further, Patent Document 2 has a problem that it becomes difficult to operate because the front wall of the ETC on-board unit is covered with a cover.

Further improvements are required of vehicle media readers in the above aspects, or in other aspects not mentioned.

One object to be disclosed is to propose a vehicle medium reader that suppresses water immersion on a circuit board while ensuring ease of operation.

The vehicle medium reading device disclosed herein is provided so as to be exposed on the case (1) and the front wall (13) of the case, and the storage medium (10) is inserted into the inside of the case (20). ), A circuit board (2) that is placed between the storage medium inserted from the insertion slot and the ceiling wall (15) of the case and electrically connected to the storage medium, and fixed inside the case and inserted. It comprises a flexible sheet (9) located inside the mouth, the front wall has a recess (21) for exposing a portion of the storage medium, and the sheet is inserted into the insertion slot. It is positioned between a part of the sheet that bends over the exposed portion in the recess of the storage medium and the rest of the sheet that hangs in front of the front end face (10a) of the storage medium inserted in the insertion slot. It has a slit (92) that is present.

According to the vehicle medium reader disclosed herein, positioning the flexible sheet inside the insertion slot can reduce the amount of liquid that enters through the insertion slot. By reducing the amount of liquid that enters through the insertion slot, it is possible to prevent the circuit board from being flooded by the liquid that enters through the insertion slot.

The sheet has a slit located between a portion of the sheet that bends over an exposed portion of the recess in the storage medium and the rest of the sheet that hangs in front of the front end face of the storage medium. By providing the slit, even when the storage medium is inserted, it is possible to prevent the sheet from bending due to a part of the storage medium being exposed by the recess. This makes it possible to reduce the amount of liquid that enters through the insertion slot even when the storage medium is inserted.

Since the case is provided so that the insertion slot is exposed on the front wall of the case without being covered with a cover, it is less difficult to operate when inserting and removing the storage medium. As a result, the present invention suppresses water contact on the circuit board while ensuring ease of operation.

The disclosed aspects herein employ different technical means to achieve their respective objectives. The claims and the reference numerals in parentheses described in this section exemplify the correspondence with the parts of the embodiments described later, and are not intended to limit the technical scope. The objectives, features, and effects disclosed herein will be made clearer by reference to the subsequent detailed description and accompanying drawings.

It is an exploded perspective view of the ETC on-board unit which concerns on embodiment. It is a perspective view of the upper case. FIG. 5 is a cross-sectional view taken along the line AA of FIG. FIG. 5 is a cross-sectional view taken along the line AA of FIG. It is a front view of the ETC on-board unit. It is an enlarged view of the upper case. It is a top view of the upper case. FIG. 5 is a cross-sectional view taken along the line BB of FIG. It is a front view of a main body part and a lower case. It is a perspective view of the main body part and the lower case. It is a left side view of the eject button. It is a top view of the eject button. It is a top view of the eject button. It is a perspective view of the ETC on-board unit. It is a perspective view of the main body part. FIG. 5 is a cross-sectional view taken along the line CC of FIG. It is a perspective view of a sheet. FIG. 19 is a cross-sectional view taken along the line HH of FIG. It is a front view of the ETC on-board unit. It is a perspective view of the DD cross section of FIG. FIG. 19 is a cross-sectional view taken along the line EE of FIG. It is a top view of the operation key. It is a top view of the lower case. It is a perspective view of the lower case. FIG. 23 is a cross-sectional view taken along the line FF of FIG. 23. FIG. 2 is a cross-sectional view taken along the line GG of FIG. 23. FIG. 2 is a cross-sectional view taken along the line JJ of FIG. It is a perspective view of the rear discharge part.

A plurality of embodiments will be described with reference to the drawings. In a plurality of embodiments, functionally and / or structurally corresponding parts and / or related parts may be designated with the same reference code or reference codes having a hundreds or more different digits. References can be made to the description of other embodiments for the corresponding and / or associated parts.

(First Embodiment)
Hereinafter, one embodiment will be described with reference to the drawings. FIG. 1 shows a vehicle ETC on-board unit 100 (hereinafter, simply referred to as an ETC on-board unit) as a vehicle medium reading device according to an embodiment.

By attaching the ETC on-board unit 100 to the bracket 4 fixed near the instrument panel by screwing, for example, the ETC on-board unit 100 can be fixed to any part. In this case, in consideration of the insertability of the ETC card 10, it is common to fix the card insertion slot 20 described later so as to be slightly upward. The ETC on-board unit 100 is fixed in a front-up form. Somewhat upward means, for example, an inclination angle of 5 ° to 23 °.

Although the ETC card 10 is used as the storage medium, any storage medium that can be read by the vehicle medium reading device may be used. For example, a storage medium such as an IC card or a CD including the ETC card 10 may be used. The ETC card 10 corresponds to a storage medium.

There is also a built-in ETC on-board unit 100 in which the ETC on-board unit 100 is arranged inside the instrument panel of the vehicle. When arranging the inside of the instrument panel, in consideration of the insertability of the ETC card 10, it is common to arrange the card so that the insertion slot 20 described later is slightly upward.

In the following description, the configuration of the ETC on-board unit 100 will be described using the front-back, up-down, and left-right directions. These directions are used only for convenience of explanation, and do not limit the use and mounting directions of the ETC on-board unit 100.

The ETC on-board unit 100 includes a case 1 and a main body portion arranged inside the case 1.

(Case)
Case 1 will be described. The case 1 has an upper case 11 and a lower case 12. Case 1 is a flat hexahedron. In many cases, the case 1 is arranged so that the smallest side surface faces the passenger compartment.

As shown in FIG. 1, the lower case 12 mainly has a bottom wall 18 extending in the front-rear and left-right directions, and right side walls 16 and left side walls 17 provided on both left and right sides of the bottom wall 18. The upper side of the lower case 12 is an opening. The main body is covered by the lower case 12 from the lower side of the main body.

The bottom wall 18 has a pair of bracket positioning holes 41, which will be described later. The bracket positioning hole 41 is for attaching the ETC on-board unit 100 to the bracket 4. The bracket 4 has a bracket screw hole 43. The bracket 4 is attached to the bottom wall 18 by fixing the bracket screw hole 43 and the bracket positioning hole 41 with the screw 42.

As shown in FIG. 2, the upper case 11 mainly has a ceiling wall 15, a front wall 13, and a rear wall 14. The ceiling wall 15 is a wall that extends in the front-rear, left-right direction. The front wall 13 has an opening in which the operation key 6 and the eject button 8 are arranged, and an insertion port 20 into which the ETC card 10 is inserted. The insertion port 20 is exposed on the front wall 13. The rear wall 14 has a plurality of gaps for communicating the connection ports of various connectors provided on the circuit board 2 with the outside. The lower side of the upper case 11 is an opening. The main body is covered by the upper case 11 from the upper side of the main body.

The upper case 11 locks the locking claws provided on the upper case 11 to the lower case 12. The upper case 11 is connected to the lower case 12 by being vertically overlapped with the lower case 12. The main body is housed inside the case 1 in which the upper case 11 and the lower case 12 are connected.

(Main body)
Returning to FIG. 1, the main body portion will be described. The main body includes components including a circuit board 2, a card connector 3, a lens 5, an operation key 6, an eject button 8, and a sheet 9. The parts are relatively thin in the vertical direction when assembled, and have a shape that greatly expands in the front-back and left-right directions.

The circuit board 2 has a printed wiring board and a plurality of electronic components electrically connected by the printed wiring. The circuit board 2 has a connection terminal that is electrically connected to the contact portion of the chip of the ETC card 10. The circuit board 2 reads out the information of the ETC card 10 by connecting the connection terminal and the contact portion of the chip. The circuit board 2 is connected to an antenna (not shown) via a connector provided at the rear. The circuit board 2 communicates with an ETC road device (not shown) via an antenna.

The card connector 3 is a substantially rectangular tubular card holder that is slightly larger than the ETC card 10. The ETC card 10 is inserted into the card connector 3. The card connector 3 is arranged between the circuit board 2 and the lower case 12, which will be described later.

The card connector 3 has a space inside for accommodating the ETC card 10. The card connector 3 has an opening 31 in the front for inserting the ETC card 10. The card connector 3 is formed of metal and engineering plastic to protect the ETC card 10. The upper surface of the card connector 3 has an opening. When the card connector 3 is fixed to the circuit board 2, circuit components corresponding to the opening area can be mounted on the back surface of the circuit board 2. An eject button 8 is attached to the side of the card connector 3.

The eject button 8 is an operation component for the user to take out the ETC card 10 housed in the card connector 3. The eject button 8 is inserted into an opening provided in the front wall 13. The head of the eject button 8 is exposed from the opening. The eject button 8 corresponds to a storage medium ejection button.

The operation key 6 is an operation component for the user to operate the function of the main body. The operation key 6 is arranged between the circuit board 2 and the upper case 11. The operation key 6 is inserted into an opening provided in the front wall 13. A part of the operation key 6 is exposed from the opening. The operation key 6 corresponds to an operation unit.

The eject button 8 is displaceably held within a predetermined range by the card connector 3. The operation key 6 is displaceably held within a predetermined range by the case 1.

The lens 5 is a light emitting component that indicates the operating state of the ETC on-board unit 100, whether or not the ETC card 10 is inserted, and the like. The lens 5 is arranged from the circuit board 2 to the front wall 13 in order to transmit the light from the light source mounted on the circuit board 2 to the front wall 13.

(Upper case)
As shown in FIG. 2, the front wall 13 has a recess 21 for exposing a part of the ETC card 10.

FIG. 3 is a cross-sectional view taken along the line AA of FIG. The recess 21 is recessed in the direction from the front wall 13 to the rear wall 14. The recess 21 allows the ETC card 10 to be pushed into the card connector 3 to a position where the contact portion of the chip of the ETC card 10 and the connection terminal of the circuit board 2 come into contact with each other.

FIG. 4 is a cross-sectional view taken along the line AA of FIG. The ETC card 10 inserted from the insertion slot 20 is exposed from the insertion slot 20 only in the recess 21.

As shown in FIG. 5, the recess 21 is provided in the central portion 20c of the insertion port 20 in the width direction. The recess 21 can be provided at an arbitrary position as long as it is a part of the insertion port 20. For example, it may be provided at the end 20a of the insertion port 20 on the right side wall 16 side or the end 20b of the insertion port 20 on the left side wall 17 side. By providing the recess 21 in the central portion 20c, the force applied to the ETC card 10 can be evenly distributed on the left and right when the ETC card 10 is inserted. As a result, it is possible to prevent the ETC card 10 from being damaged by bending.

As shown in FIG. 6, the upper case 11 has an entry port 22. The entry port 22 is provided above the insertion port 20. The entry port 22 allows water transmitted to the surface of the instrument panel to enter the inside of the case 1. The entrance 22 allows the water flowing toward the recess 21 to enter the inside of the case 1 before the water flowing toward the recess 21 reaches the insertion port 20. The entrance 22 has a communication hole 22a that communicates with the inside of the case 1 in the vertical direction of the upper case 11.

The upper surface of the communication hole 22a has a substantially rectangular shape. The left-right side surface of the communication hole 22a is formed with an inclination toward the central portion 20c from the upper surface to the lower surface of the communication hole 22a. The communication hole 22a is formed so as to extend toward the bottom wall 18 side from the eaves portion 24a described later.

The communication hole 22a has a partition portion 22b that partitions the communication hole 22a at predetermined intervals in the left-right direction. A plurality of partition portions 22b are provided in the communication holes 22a. The partition portion 22b has a triangular shape in which an inclination is formed on both the left and right sides toward the lower surface with the upper surface of the communication hole 22a as the base point. By providing the partition portion 22b, it is possible to reduce the possibility that the entrance 22 will be damaged even if a force is applied to the front wall 13 in the front-rear direction.

As shown in FIG. 7, the entrance 22 is provided at one end of the ceiling wall 15 on the front wall 13 side.

Returning to FIG. 5, the entrance 22 is formed so as to extend in the left-right direction of the upper case 11. The entry port 22 is formed so that the length of the entry port in the left-right direction is longer than the length of the recess 21 in the left-right direction.

The entrance 22 is provided at the corner between the front wall 13 and the ceiling wall 15 in order to allow the water transmitted to the instrument panel surface and the water scattered on the front wall 13 to enter the inside of the case 1.

The entrance 22 is an opening parallel to the ceiling wall 15. The entrance 22 points upward. The entrance 22 extends along the front wall 13. The entrance 22 is positioned so as to project from the ceiling wall 15 to the front wall 13. The entrance 22 is a slightly receiving port.

(Internal structure)
FIG. 8 is a cross-sectional view taken along the line BB of FIG. The main body has a guide portion 23. The guide portion 23 is arranged below the entrance 22. The guide portion 23 has a vertical wall portion 24 and an inclined portion 25. The vertical wall portion 24 is provided between the entrance 22 and the edge 26 on the front wall 13 side of the circuit board 2. The inclined portion 25 is formed so as to allow water to flow toward the side wall of the case 1.

As shown in FIG. 9, the guide unit 23 has an operation key 6 and a lens 5. An inclined portion 25 and a vertical wall portion 24 are formed by the operation key 6 and the lens 5. The guide portion 23 in which the operation key 6 and the lens 5 are connected is assembled to the case 1 and tightened from the front-back and left-right directions of the case 1. By tightening the guide portion 23 by the case 1, it is possible to make it difficult to create a gap between the operation key 6 and the lens 5.

The lens 5 has an exposed portion 51 that is vertically exposed on the front wall 13 in order to transmit the light from the light source to the front wall 13. The lens 5 has two exposed portions 51.

Returning to FIG. 8, the vertical wall portion 24 has an eaves portion 24a in order to prevent the water that has entered from the entry port 22 from splashing inside the upper case 11 and scattering to the circuit board 2 side. .. The eaves portion 24a is provided on the upper portion of the vertical wall portion 24. The eaves portion 24a extends from the upper portion of the vertical wall portion 24 to the wall that partitions the communication hole 22a. As described above, the communication hole 22a is formed so as to extend toward the bottom wall 18 side from the eaves portion 24a.

As shown in FIG. 10, the vertical wall portion 24 has left and right vertical wall portions 24b parallel to the side wall of the case 1 at both ends of the eaves portion 24a in the left-right direction. The eaves portion 24a and the left and right vertical wall portions 24b are provided between the two exposed portions 51.

Returning to FIG. 9, the length of the vertical wall portion 24 in the left-right direction is longer than the length of the inclined portion 25 in the left-right direction. The left-right end of the vertical wall portion 24 extends to the vicinity of the left-right end of the circuit board 2. The vicinity of the left-right end of the circuit board 2 indicates a region on the side wall side of the central region where a plurality of electronic components that function as the ETC on-board unit 100 of the circuit board 2 are present.

The inclined portion 25 is inclined so that the water introduced from the entry port 22 flows to the side wall of the case 1.

The card connector 3 is arranged between the guide portion 23 and the bottom wall 18. The water flowed by the inclined portion 25 passes through the upper surface of the card connector 3 and flows to the side wall of the case 1.

A space is provided between the vertical wall portion 24, the eaves portion 24a, the left and right vertical wall portions 24b, and the front wall 13. If the amount of water entering from the entry port 22 is large, water may collect in the space. By collecting water in the space, it becomes easy to flow a certain amount of water to the side wall of the case 1. By flowing a certain amount of water on the side wall of the case 1, the momentum of the water can be suppressed. By suppressing the momentum of water, water can be easily discharged from the liquid discharge unit 121, which will be described later.

In order for the guide portion 23 to allow the water flowing to the side wall of the case 1 to flow to the lower case 12, cavities are provided on the extensions of both ends of the guide portion 23. The cavity has a right cavity 27a existing on the extension of the end portion 23a of the guide portion 23 on the right side wall 16 side and a left cavity 27b existing on the extension of the end portion 23b of the guide portion 23 on the left side wall 17 side. ..

The right cavity 27a is partitioned by a side surface 33 of the card connector 3 on the right side wall 16 side, a front wall 13, a vertical wall portion 24, and a right side wall 16. As a result, the water flows to the lower case 12 while suppressing the water flowing to the right side wall 16 from being applied to the circuit board 2.

The left cavity 27b is partitioned by a side surface 34 of the card connector 3 on the left side wall 17, a front wall 13, a vertical wall portion 24, and a left side wall 17.

The eject button 8 is arranged on the extension of the end portion 23b. That is, the eject button 8 is arranged in the left cavity 27b. Therefore, the vertical wall portion 24 for partitioning the left cavity 27b has a smaller region covering the circuit board 2 only in the region where the eject button 8 is arranged than the vertical wall portion 24 for partitioning the right cavity 27a.

As shown in FIG. 11, the eject button 8 has an operation transmission unit 81 that transmits a user's operation to the card connector 3, and a light emitting unit 82 that emits light on the operation surface of the eject button 8. The eject button 8 is a button extending in the front-rear direction from the front wall 13. The rear portion of the eject button 8 is provided at the lower portion of the circuit board 2. The eject button 8 is configured to extend from the rear portion of the eject button 8 to the front wall 13 side of the edge 26. The light emitting unit 82 is positioned so as to project from the rear portion of the operation transmission unit 81 to the operation surface of the operation transmission unit 81 operated by the user. The operation transmission unit 81 corresponds to a button operation unit.

As shown in FIG. 12, the eject button 8 has an intersection 83 that intersects an extension line extending in the left-right direction from the end surface 23c. The intersection 83 penetrates from the top to the bottom. The end face 23c is an end face provided on the end portion 23b of the inclined portion 25.

As shown in FIG. 13, the intersection 83 is partitioned by a vertical wall portion for discharge 84a, a vertical wall portion 84b for discharge, and a vertical wall portion 84c for discharge. The discharge vertical wall portion 84a is a vertical wall provided on the edge 26 side. The discharge vertical wall portion 84b is a vertical wall provided on the back side of the operation surface of the eject button 8. The discharge vertical wall portion 84c is a vertical wall provided on the end face 23c side.

The intersection 83 is not provided with a vertical wall portion for discharge on the left side wall 17 side. The water flowing to the left side wall 17 is flooded on the discharge vertical wall portion provided on the left side wall 17 side. Water that has been applied to the vertical wall portion for discharge may invade the circuit board 2 side by traveling along the vertical wall portion for discharge. The intersection 83 does not provide a vertical discharge wall portion on the left side wall 17 side, thereby reducing the intrusion of water into the circuit board 2 side. The water that has flowed to the left side wall 17 side flows to the lower case 12 while avoiding being applied to the circuit board 2.

Returning to FIG. 11, the discharge vertical wall portion 84a is arranged at the lower part of the circuit board 2 and behind the edge 26. The discharge vertical wall portion 84a can reduce the intrusion of water into the lower surface side of the circuit board 2.

As shown in FIG. 14, the eject button 8 is arranged in the opening provided in the front wall 13. There is a button gap 85 between the eject button 8 and the opening. Therefore, there is a possibility that the water transmitted to the instrument panel surface and the water scattered on the front wall 13 may enter the inside of the case 1 through the button gap 85.

As shown in FIG. 15, the water that has entered the inside of the case 1 through the button gap 85 passes through the intersection 83 and flows to the lower case 12. When flowing to the lower case 12, the discharge vertical wall portion 84a can prevent water from entering the lower part of the circuit board 2. Therefore, it is possible to suppress the intrusion of water into the circuit board 2 even when the intrusion of water from the button gap 85.

(Sheet)
FIG. 16 is a cross-sectional view taken along the line CC of FIG. The sheet 9 is fixed to the inner surface of the upper case 11 so as to cover the insertion port 20. The sheet 9 has flexibility, and for example, a chemical fiber such as felt or a resin such as vinyl is used. An adhesive member 91 is provided at one end of the sheet 9 in order to fix it inside the upper case 11. The adhesive member is, for example, a double-sided tape or a bond. The ETC on-board unit 100 may be fixed so that the insertion port 20 faces upward. It is preferable that the seat 9 has flexibility so that the seat 9 does not bend under gravity even if the installation angle of the ETC on-board unit 100 changes. Further, when inserting and removing the ETC card 10, it is preferable that the sheet 9 has flexibility so that the resistance of the sheet 9 is not easily felt so that the insertability does not deteriorate.

The sheet 9 bends with the adhesive portion as a base point. When the ETC card 10 is not inserted, the insertion slot 20 is covered with the sheet 9. The sheet 9 can reduce the amount of water flowing from the instrument panel surface and water scattered on the front wall 13 from entering the inside of the case 1 from the insertion port 20.

The front wall 13 is inclined from the lower end 20d of the insertion port 20 toward the bottom wall 18 side and the side opposite to the rear wall 14. The water that comes into contact with the sheet 9 travels along the inclination of the front wall 13 and flows to the outside of the case 1.

By providing the sheet 9, it is possible to prevent light from entering the opening 31 of the card connector 3. As a result, it is possible to prevent the appearance of the ETC on-board unit 100 from being deteriorated due to the reflection of light on the metal of the card connector 3 and the engineering plastic.

By providing the sheet 9, it is possible to prevent dust and dirt from entering the inside of the case 1 from the insertion port 20.

As shown in FIG. 17, the sheet 9 is fixed to the inner side surface along the recess 21. The sheet 9 has a curved portion 9a and a straight portion 9b. The curved portion 9a has a curved shape along the concave portion 21. The curved portion 9a covers the central portion 20c. The straight portion 9b covers the end portion 20a and the end portion 20b.

Returning to FIG. 16, the upper case 11 has an under-seat entry port 95 for allowing water to enter the lower case 12. The under-seat entry port 95 is provided at a position facing the free end 94, which is the other end opposite to the fixed end 93, which is one end where the seat 9 is fixed, and at a position where the straight portion 9b exists. The edge of the under-seat entry port 95 on the front wall 13 side is provided on the front wall 13 side of the free end 94. By providing the under-seat entry port 95, the water that has entered the inside of the case 1 through the gap between the free end 94 and the upper case 11 is flowed to the lower case 12.

The flow direction of the water entering the insertion port 20 is rectified by the sheet 9. The force of the water entering the insertion port 20 is weakened by the sheet 9. The water that has entered the entry port 95 under the seat easily flows to the lower case 12 along the inner surface of the upper case 11.

As shown in FIG. 17, the sheet 9 has a slit 92 formed corresponding to the recess 21. The slit 92 divides the boundary between the curved portion 9a and the straight portion 9b. The slits 92 are provided at two positions at the boundary between the curved portion 9a and the straight portion 9b.

The slit 92 is positioned between a part of the sheet 9 and the rest of the sheet 9. FIG. 18 is a sectional view taken along the line HH of FIG. As shown in FIG. 18, a part of the sheet 9 is a portion that bends on an exposed portion in the recess of the ETC card 10 inserted into the insertion slot 20. A part of the sheet 9 is, for example, a curved portion 9a. The curved portion 9a is located on the rear wall 14 side of the end face 10a when the ETC card 10 is inserted into the insertion slot 20. When the ETC card 10 is inserted into the insertion slot 20, the curved portion 9a is in a state of bending toward the rear wall 14 of the upper case 11 on the upper surface of the ETC card 10. The curved portion 9a bends in contact with the upper surface of the ETC card 10 due to the force acting to return from the state of bending on the upper surface of the ETC card 10 to the state in which the ETC card 10 is not inserted.

As shown in FIG. 19, the remaining portion of the sheet 9 is a portion that hangs down in front of the front end surface 10a of the ETC card 10 inserted in the insertion slot 20. The remaining portion of the sheet 9 is, for example, a straight portion 9b. The straight portion 9b is located in front of the end face 10a when the ETC card 10 is inserted into the insertion slot 20. As a result, it is possible to reduce the intrusion of water from the end portion 20a and the end portion 20b into the inside of the case 1.

When the slit 92 is not provided, when the ETC card 10 is inserted into the insertion slot 20, the curved portion 9a of the sheet 9 is in a bent state. When the curved portion 9a is bent, the straight portion 9b connected to the curved portion 9a is also in a bent state. The straight portion 9b is in a state of being bent in the direction of the rear wall 14 of the upper case 11 on the upper surface of the ETC card 10. The amount of bending of the sheet 9 is different between the curved portion 9a and the straight portion 9b. The slits 92 are positioned along the longitudinal direction of the sheet 9 to partition a plurality of portions that may have different amounts of deflection. The plurality of portions where the amount of bending may differ are, for example, between the curved portion 9a and the straight portion 9b. By positioning the slit 92 between the curved portion 9a and the straight portion 9b, which may have different amounts of deflection, the connection between the curved portion 9a and the straight portion 9b is cut off. As a result, it is possible to suppress the spread of the deflection between the curved portion 9a and the straight portion 9b.

By providing the slit 92, the straight line portion 9b exists on the front side of the end face 10a regardless of whether or not the ETC card 10 is inserted. The straight portion 9b can reduce the intrusion of water from the insertion port 20 into the inside of the case 1.

The curved portion 9a covers the central portion 20c when the ETC card 10 is not inserted. The curved portion 9a can reduce the intrusion of water from the insertion port 20 into the inside of the case 1.

When the ETC card 10 is inserted, water may travel on the upper surface of the ETC card 10 and enter the inside of the case 1. A slit 92 is provided at the boundary between the curved portion 9a and the straight portion 9b to create a slit gap. Water may enter the inside of the case 1 through the slit gap.

Regarding the curved portion 9a, when the ETC card 10 is inserted, there is a risk of water entering. Regarding the slit gap, there is a risk of water intrusion regardless of whether or not the ETC card 10 is inserted.

By providing the entrance 22 above the curved portion 9a, water is introduced into the case 1 from the entrance 22 before the water enters from the curved portion 9a. As a result, the intrusion of water from the curved portion 9a can be reduced.

(control key)
FIG. 20 is a perspective view of the DD cross section of FIG. The operation key 6 is arranged in an opening provided in the front wall 13. There is an operation key gap 61 between the operation key 6 and the opening. Therefore, there is a possibility that the water transmitted to the surface of the instrument panel and the water scattered on the front wall 13 may enter the inside of the case 1 through the operation key gap 61.

The operation key 6 has an input unit 62, an operation operation unit 63, and an operation key cavity 64. The operation surface of the input unit 62 operated by the user is exposed from the front wall 13. The operation operation unit 63 is provided between the circuit board 2 and the ceiling wall 15 of the upper case 11. The operation operation unit 63 operates in response to the input unit 62. The operation key cavity 64 is located on an extension of the end of the guide portion 23. The vertical wall portion 24 extends from the input portion 62 to a position where it intersects with an extension line extending in the front-rear direction.

The input unit 62, the operation operating unit 63, and the vertical wall unit 24 are integrally molded.

The water that has entered the inside of the case 1 from the operation key gap 61 passes through the operation key cavity 64 and flows to the lower case 12. The vertical wall portion 24 can reduce the intrusion of water into the circuit board 2 side.

FIG. 21 is a cross-sectional view taken along the line EE of FIG. The operation operation unit 63 has a spring portion 63a, a push portion 63b, and a transmission portion 63c.

The spring portion 63a is made of resin. The spring portion 63a is elastically deformed by the input from the input portion 62. The spring portion 63a is arranged between the input portion 62 and the vertical wall portion 24. The spring portion 63a has a tapered shape so that the portion closer to the vertical wall portion 24 becomes thicker. The spring portion 63a is inclined so that the input portion 62 and the surface of the vertical wall portion 24 below the operation surface of the input portion 62 are connected to each other. The water that has entered the inside of the case 1 from the operation key gap 61 is transmitted to the spring portion 63a and flows to the lower case 12.

The transmission unit 63c is configured to extend in the front-rear direction from the input unit 62. The transmission unit 63c transmits the pressing force in the direction orthogonal to the operation surface of the input unit 62 to the pressing unit 63b.

The push portion 63b is arranged between the tact switch 65 provided on the upper surface of the circuit board 2 and the transmission portion 63c existing on the upper portion of the tact switch 65. The push portion 63b is connected to the transmission portion 63c.

The spring portion 63a elastically deforms when the input portion 62 receives a pressing force in a direction orthogonal to the operation surface of the input portion 62 in response to a user operation. The pushing pressure is transmitted to the pushing portion 63b by the transmitting portion 63c with the contact point between the vertical wall portion 24 and the end surface 28 of the circuit board 2 as a base point. The push portion 63b is displaced in a direction orthogonal to the upper surface of the circuit board 2. The movable portion of the tact switch 65 is pushed by the push portion 63b by displacing the push portion 63b in a direction orthogonal to the upper surface of the circuit board 2.

The spring portion 63a is restored from the elastically deformed state when the input portion 62 is no longer subjected to the pressing force. The push portion 63b returns to its original position and separates from the movable portion of the tact switch 65.

As shown in FIG. 22, the transmission portion 63c passes outside from the left-right end portion of the vertical wall portion 24 and is connected to the push portion 63b. The transmission unit 63c has a left side transmission unit 63ca and a right side transmission unit 63cc so that the pressing force in the direction orthogonal to the operation surface of the input unit 62 can be easily transmitted to the pressing unit 63b. The left transmission portion 63ca connects the input portion 62 and the push portion 63b from the left wall 17 side of the vertical wall portion 24. The right transmission portion 63cc connects the input portion 62 and the push portion 63b from the right side wall 16 side of the vertical wall portion 24.

The right transmission unit 63cc has a shorter connection distance between the input unit 62 and the push unit 63b than the left transmission unit 63ca. Since the distance from the input portion 62 to the pushing portion 63b is short, the pushing pressure is easily transmitted to the pushing portion 63b. By providing a plurality of members for transmitting the pressing force, such as the right side transmitting portion 63cc and the left side transmitting portion 63ca, the pressing force can be easily transmitted to the pressing portion 63b. This makes it possible for the user to easily operate the operation key 6.

(Lower case)
As shown in FIG. 23, the lower case 12 has a liquid discharge portion 121. The liquid discharge portion 121 is provided on the bottom wall 18. The liquid discharge unit 121 discharges the water that has entered the inside of the case 1 to the outside of the case 1. The liquid discharge unit 121 has a front discharge unit 121a and a rear discharge unit 121b provided apart from each other in the front-rear direction of the lower case 12.

The rear discharge portion 121b extends to the center in the left-right direction. The front discharge portion 121a is formed so as to extend in the left-right direction from the rear discharge portion 121b.

The lower case 12 has bracket positioning holes 41 provided between the front discharge portion 121a and the rear discharge portion 121b and on the left and right side walls of the lower case 12.

The lower case 12 has a left and right partition wall portion 122 and a central partition wall portion 123.

The left and right partition wall portions 122 are provided on the bottom wall 18 and between the bracket positioning hole 41 and the rear discharge portion 121b. The left and right partition wall portions 122 are partitions that extend in the direction from the left and right side walls to the rear discharge portion 121b. The left and right partition wall portions 122 are provided on the right side wall 16 and the left side wall 17.

The central partition wall portion 123 is provided between the left and right partition wall portions 122 and the rear discharge portion 121b, and between the left and right partition wall portions 122 existing on the left and right side walls. The central partition wall portion 123 has an end portion 123a on the right side wall 16 side and an end portion 123b on the left side wall 17 side.

The end portion 123a is located on the right side wall 16 side of the end portion 122a extending toward the central partition wall portion 123 side of the left and right partition wall portions 122 arranged on the right side wall portion 16 side. The end portion 123b is located on the left side wall 17 side of the end portion 122b extending toward the central partition wall portion 123 side of the left and right partition wall portions 122 arranged on the left side wall portion 17 side. The left and right partition wall portions 122 and the central partition wall portion 123 are provided so as to form a maze structure. The maze structure prevents dust and dirt from moving to the center of the lower case even if dust and dirt enter the inside of the case 1 from the rear discharge portion 121b.

The end portion 123a and the end portion 123b are located behind the front edge 121c of the rear discharge portion 121b. The rear surface 123d of the central partition wall portion 123 is located in front of the edge 121c.

As shown in FIG. 24, the central partition wall portion 123 is inclined from the central portion of the front surface 123c toward the end portion 123a and the end portion 123b.

FIG. 25 is a cross-sectional view taken along the line FF of FIG. 23. The left and right partition wall portions 122 have left and right partition eaves portions 124. The left and right partition eaves 124 are provided at the upper ends of the left and right partition wall 122. The left and right partition eaves 124 extend from the upper end of the left and right partition wall 122 toward the front wall 13. The left and right partition eaves 124 prevent water flowing from the front wall 13 to the rear wall 14 from passing over the left and right partition wall 122. The water flowing from the front wall 13 to the rear wall 14 flows to the rear wall 14 while being prevented from passing over the left and right partition wall portions 122 by the left and right partition eaves portions 124.

FIG. 26 is a cross-sectional view taken along the line GG of FIG. The central partition wall portion 123 has a central partition eaves portion 125. The central partition eaves portion 125 is provided at the upper end of the central partition wall portion 123. The central partition eaves portion 125 extends toward the upper end of the central partition wall portion 123 toward the front wall 13. The central partition eaves 125 prevents water flowing from the front wall 13 to the rear wall 14 from passing over the central partition wall 123. The water flowing from the front wall 13 to the rear wall 14 flows to the rear wall 14 by the central partition eaves portion 125 while avoiding overcoming the central partition wall portion 123.

FIG. 27 is a cross-sectional view taken along the line JJ of FIG. The front discharge portion 121a has a through hole 126 that is oblique in the direction from the front to the rear of the lower case 12. The through hole 126 is inclined from the top to the bottom as it goes from the front to the rear. The positions of the entrance and the exit of the through hole 126 are offset in the front-rear direction. This makes it possible to reduce dust and dirt that enter from the outside.

When the through hole 126 is inclined, water is discharged to the outside of the case 1 along the inclination of the through hole 126. As a result, water can be efficiently discharged.

As shown in FIG. 28, the rear discharge portion 121b has a discharge hole 127 for discharging water to the outside and a deflection member 128 for deflecting the penetrating direction of the discharge hole 127. The discharge hole 127 is formed so as to penetrate the bottom wall 18 in the vertical direction.

The deflection member 128 has a deflection wall 128a and a deflection vertical wall portion 128b. The deflection wall 128a is located above the discharge hole 127. The deflection wall 128a is positioned so as to face the through direction of the discharge hole 127. The deflection wall 128a is a wall having a size substantially equal to the size of the front, back, left, and right of the discharge hole 127.

The deflecting vertical wall portion 128b is provided parallel to the rear wall 14 of the case 1. The deflection vertical wall portion 128b connects the deflection wall 128a and the bottom wall 18 of the lower case 12. The discharge hole 127 discharges the water flowing from the left-right direction to the outside of the case 1 by the deflection wall 128a and the deflection vertical wall portion 128b.

If the deflection wall 128a is smaller than the front, rear, left, and right sizes of the discharge hole 127, there is a possibility that the intrusion direction of dust and dust entering from the discharge hole 127 into the lower case 12 is not deflected. There is a risk that dust or dust will invade the lower case 12 without being deflected. Therefore, it is desirable that the deflection wall 128a has a size substantially equal to the size of the front / rear / left / right of the discharge hole 127 or a size larger than the size of the front / rear / left / right of the discharge hole 127 so that the intrusion direction can be deflected.

According to the embodiment described above, by providing the entry port 22 for allowing water to enter the inside of the case 1 above the insertion port 20, the amount of water entering from the insertion port 20 can be reduced. By reducing the amount of water entering through the insertion port 20, it is possible to prevent the circuit board 2 from being exposed to water by the water entering through the insertion port 20.

A guide portion 23 is arranged below the entrance 22. The guide portion 23 has a vertical wall portion 24 and an inclined portion 25. The vertical wall portion 24 is provided between the entrance 22 and the edge 26. The inclined portion 25 is formed so as to allow water to flow toward the side wall of the case 1. The vertical wall portion 24 prevents the water that has entered from the entry port 22 from entering the circuit board 2 side.

The inclined portion 25 is inclined in the direction toward the side wall of the case 1. The left-right end of the vertical wall portion 24 extends to the vicinity of the left-right end of the circuit board 2. The vertical wall portion 24 and the inclined portion 25 allow the water that has entered from the entry port 22 to flow toward the side wall of the case 1 while avoiding being applied to the circuit board 2. The water flowing toward the side wall of the case 1 passes through the cavities provided on the extensions of both ends of the guide portion 23 and flows to the lower case 12. The water flowing to the lower case 12 is discharged to the outside of the case by the liquid discharge unit 121.

Since the insertion port 20 is provided on the front wall 13 so as to be exposed, it is less likely that the operation becomes difficult when inserting and removing the storage medium.

As a result, the present invention prevents the circuit board 2 from being exposed to water while ensuring ease of operation.

Further, according to the present embodiment, by providing the entrance 22 above the curved portion 9a, water is introduced into the case 1 from the entrance 22 before the water enters the curved portion 9a. As a result, the intrusion of water from the curved portion 9a can be reduced.

Further, according to the present embodiment, the sheet 9 is provided inside the insertion port 20. When the ETC card 10 is not inserted, it is possible to reduce the amount of water flowing from the instrument panel surface and water scattered on the front wall 13 from entering the inside of the case 1 from the insertion port 20.

Further, according to the present embodiment, the sheet 9 is provided with the slit 92. The straight portion 9b can reduce the intrusion of water from the insertion port 20 into the inside of the case 1 regardless of whether or not the ETC card 10 is inserted.

Further, according to the present embodiment, the vertical wall portion 24 extends from the input portion 62 to a position intersecting the extension line extending in the front-rear direction. When water enters the inside of the case 1 through the operation key gap 61, it is possible to reduce the intrusion of water into the circuit board 2 side.

Further, the operation key 6 has a vertical wall portion 24, an input unit 62, and an operation operation unit 63. The spring portion 63a is arranged between the input portion 62 and the vertical wall portion 24. The spring portion 63a elastically deforms when the input portion 62 receives a pressing force in a direction orthogonal to the operation surface of the input portion 62 in response to a user operation. The pushing pressure is transmitted to the pushing portion 63b by the transmitting portion 63c with the contact point between the vertical wall portion 24 and the end surface 28 of the circuit board 2 as a base point. The push portion 63b is displaced in a direction orthogonal to the upper surface of the circuit board 2. The movable portion of the tact switch 65 is pushed by the push portion 63b by displacing the push portion 63b in a direction orthogonal to the upper surface of the circuit board 2. As a result, since the operation key 6 has the vertical wall portion 24, the operation of pressing the movable portion of the tact switch 65, which is the conventional behavior of the operation key 6, while taking measures against water damage to the circuit board 2 by the vertical wall portion 24. Can be obtained.

(Other embodiments)
The disclosure herein is not limited to the illustrated embodiments. The disclosure includes exemplary embodiments and modifications by those skilled in the art based on them. For example, disclosure is not limited to the parts and / or element combinations shown in the embodiments. Disclosure can be carried out in various combinations. The disclosure can have additional parts that can be added to the embodiment. Disclosures include those in which the parts and / or elements of the embodiment are omitted. Disclosures include the replacement or combination of parts and / or elements between one embodiment and another. The technical scope disclosed is not limited to the description of the embodiments. Some technical scopes disclosed are indicated by the claims description and should be understood to include all modifications within the meaning and scope equivalent to the claims statement.

In the above embodiment, the entrance 22 is provided at the corner between the front wall 13 and the ceiling wall 15. Instead of this, the entrance 22 may be provided anywhere as long as it is on the front wall 13 side of the guide portion 23. For example, the entrance 22 may be provided on the rear wall 14 side 5 mm from the corner.

In the above embodiment, the slits 92 are provided at two positions at the boundary between the curved portion 9a and the straight portion 9b of the sheet 9. Instead of this, when the ETC card 10 is inserted into the insertion slot 20, any sheet 9 located on the front wall 13 side of the end surface 10a may be provided. As the slit 92 is provided at a position closer to the end surface 10a, the area where the sheet 9 can cover the ETC card 10 increases when the ETC card 10 is inserted into the insertion slot 20, so that water enters the insertion slot 20. It can be made difficult to make.

In the above embodiment, the slits 92 are provided at two positions at the boundary between the curved portion 9a and the straight portion 9b. Instead of this, only one of them may be used. Further, a plurality of slits 92 may be provided.

1: Case, 10: Storage medium, 10a: End face, 121: Liquid discharge part, 121a: Front discharge part, 121b: Rear discharge part, 13: Front wall, 14: Rear wall, 15: Ceiling wall, 18: Bottom wall , 2: Circuit board, 20: Insertion port, 21: Concave part, 22: Entrance port, 23: Guide part, 23a, 23b: End part, 23c: End face, 24: Vertical wall part, 25: Inclined part, 26: Edge , 27a, 27b: Cavity, 5: Lens, 6: Operation part, 62: Input part, 63: Operation operation part, 8: Storage medium ejection button, 81: Button operation part, 83: Crossing part, 84a, 84b, 84c : Vertical wall for discharge, 9: Sheet, 92: Slit, 93: Fixed end, 94: Free end, 95: Under-seat entry port, 9a: Curved part, 9b: Straight part.

Claims (8)

Case (1) and
An insertion port (20) provided so as to be exposed on the front wall (13) of the case and into which the storage medium (10) is inserted into the case.
A circuit board (2) arranged between the storage medium inserted through the insertion slot and the ceiling wall (15) of the case and electrically connected to the storage medium.
A flexible sheet (9) fixed inside the case and positioned inside the insertion slot is provided.
The front wall has a recess (21) for exposing a part of the storage medium.
The sheet includes a part of the sheet that bends on an exposed portion of the recess of the storage medium inserted into the insertion slot and a front end surface (10a) of the storage medium inserted into the insertion slot. ), A vehicle medium reader having a slit (92) positioned between the seat and the rest of the sheet. The vehicle medium reading device according to claim 1, wherein the slit is positioned so as to partition a plurality of portions having different amounts of deflection along the longitudinal direction of the seat. The vehicle medium reading according to claim 2, wherein the slit is positioned between a plurality of the portions arranged along the longitudinal direction of the seat, and suppresses the spread of deflection between the plurality of the portions. Device. The sheet is
A curved portion (9a) having a curved shape along the concave portion,
It has straight portions (9b) that form a linear shape along both ends of the insertion slot.
The vehicle medium reading device according to any one of claims 1 to 3, wherein the slit defines a boundary between the curved portion and the straight portion. The case is
An under-seat entry port (95) provided at the lower end of the sheet to allow liquid to enter the inside of the case.
The vehicle medium reading device according to any one of claims 1 to 4, further comprising a liquid discharging unit (121) for discharging the liquid inside the case to the outside of the case. It further has an operation unit (6) that can be operated from the front wall.
The operation unit
A vertical wall portion (24) arranged between the insertion port and the front wall side edge (26) of the circuit board, and
An input portion (62) exposed from the opening provided in the front wall, and
It has an operation operating unit (63) provided between the circuit board and the ceiling wall of the case and operating in response to the input unit.
The vehicle medium reading device according to any one of claims 1 to 5, wherein the vertical wall portion extends from the input portion to a position where it intersects with an extension line extending in the front-rear direction. The vehicle medium reading device according to claim 6, wherein the operating unit has cavities (27a, 27b) located between the input unit and the vertical wall portion. The liquid discharge part is
A front discharge portion (121a) provided on the bottom wall (18) of the case and draining the liquid that has entered the inside of the case to the outside.
The vehicle according to claim 5, further comprising a rear discharge portion (121b) provided on the bottom wall behind the front discharge portion and draining the liquid that has entered the inside of the case to the outside. Media reader.

Images