JP2012198601A - Non-contact storage medium recovery unit, and gate device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress deterioration in processing efficiency and suppress decline in operability of a user by appropriately recovering a non-contact storage medium.SOLUTION: An automatic ticket gate 1 includes a reader/writer 5, a control unit 7, and a recovery selector 4. The reader/writer 5 is formed with a communication area continuing over an insertion slot 2A where a wireless token 100 is inserted, and the interior of an upper medium passage 2B where the wireless token 100 passes through, and communicates with the wireless token 100 located within the communication area. The control unit 7 acquires at the insertion slot 2A, identification information from the wireless token 100, and after that, acquires at the interior of the upper medium passage 2B, identification information again from the wireless token 100. The control unit 7 determines whether both the identification information items are identical or not. When the control unit 7 determines that the identification information of the wireless token 100 in the interior of the upper medium passage 2B is not identical with the identification information acquired at the insertion slot 2A, the recovery selector 4 processes the wireless token 100 as an inappropriate medium.

Description

  The present invention relates to a non-contact storage medium recovery unit that recovers a non-contact storage medium that performs wireless communication, and a gate device including the non-contact storage medium recovery unit.

  In conventional station service systems, a large number of passengers undergo ticket gate processing during morning and evening rush hours, so an automatic ticket gate with high magnetic ticket transport capability is required. Such automatic ticket gates are very expensive and require labor and labor for maintenance work. Therefore, the use of a coin-like wireless token instead of a magnetic ticket is being sought for the purpose of saving labor in maintenance work and simplifying the transport mechanism.

  Since wireless tokens are expensive, it is desirable to collect and reuse them after use. For this purpose, it is necessary to determine whether or not the wireless token that has been subjected to the ticket check process should be collected by the automatic ticket checker, and to collect the wireless token that has been determined to be collected in the housing. In such an automatic ticket gate, it is desirable to reliably collect used wireless tokens, but there is a risk that coins other than the wireless token may be inserted into the automatic ticket gate after the wireless token ticket gate processing. . In order to prevent this, it is necessary to confirm whether or not the wireless token collected in the housing is used for the ticket gate processing (see, for example, Patent Documents 1 and 2).

JP 2004-220116 A JP 2004-151936 A

  Patent Document 1 provides a first reader / writer that communicates with a wireless token outside the housing and a second reader / writer that communicates with the wireless token inside the housing for collection, and the two wireless devices use the same wireless token. The wireless token is collected when the identification information is detected, and the wireless token is returned when the same identification information cannot be detected (including the case where communication cannot be performed within the housing). The communication areas of the two reader / writers are formed so as not to overlap to prevent interference. For this reason, the first reader / writer is affected by variations in the communication characteristics of the wireless token, the difference between the magnetic field in the communication area formed by the first reader / writer, and the magnetic field in the communication area formed by the second reader / writer. Even when a wireless token communicated outside the housing, when it was taken into the housing, communication with the second reader / writer could not be made, and this wireless token was sometimes not collected and returned. When the wireless token is returned, the user performs the ticket gate process again using the returned wireless token. Therefore, there is a problem that the operability of the user is lowered and the efficiency of the ticket gate processing is lowered.

  Patent Document 2 has a configuration in which a communication area is formed on each of the outside and inside of the housing with a single reader / writer. Similarly to Patent Document 1, a communication area that communicates with a wireless token outside the housing The configuration is such that the communication area that communicates with the wireless token in the housing does not overlap. Therefore, even in the case of Patent Document 2, even when a wireless token communicated outside the casing, when the wireless token is taken into the casing, the wireless token may not be collected and returned without being collected.

  Accordingly, an object of the present invention is to provide a non-contact storage medium recovery unit and a gate device that suppress a decrease in processing efficiency and suppress a decrease in user operability by appropriately recovering a non-contact storage medium. It is to provide.

The non-contact storage medium recovery unit recovers the non-contact storage medium input to the input port to the recovery unit. The input port and the recovery unit are connected by a recovery path. The non-contact storage medium input to the input port is recovered by the recovery unit through this recovery path. The first opening / closing part opens and closes a first restricting member that restricts passage of the non-contact storage medium in the collecting path connecting the input port and the collecting part. For example, the length from the inlet to the first regulating member is 1/5 to 1/2 of the length in the charging direction of the non-contact medium at the inlet.
In addition, the communication unit forms a wireless communication area with the non-contact storage medium across the insertion port side and the collection unit side with the first regulating member interposed therebetween. Therefore, the communication unit is connected to the non-contact storage medium that is inserted from the insertion port and received by the first restriction member, and the communication with the non-contact storage medium that has passed the restriction position by the first restriction member is 1. In one communication area.

  The determination unit determines whether to collect the non-contact medium in the collection unit through communication between the communication unit and the non-contact storage medium. The first opening / closing unit opens the first regulating member when the determination unit determines to collect the non-contact medium in the collection unit.

  Since the communication unit communicates with the non-contact storage medium in the same wireless communication area after opening the first restricting member, the wireless communication with the non-contact storage medium is not interrupted. Therefore, it is possible to prevent a situation in which collection of the non-contact storage medium determined by the determination unit to be recovered by the recovery unit is stopped due to communication failure and returned, and a reduction in processing efficiency is suppressed, and the user's Reduction in operability can be suppressed.

  In addition, after the determination unit determines that the non-contact storage medium is exchanged after determining that the non-contact storage medium is to be collected, the non-contact with the communication unit after the first opening / closing unit opens the first restriction member If communication with the medium is interrupted, it may be determined that the recovery of the non-contact storage medium to the recovery unit is to be stopped. In this case, the medium that has passed through the first regulating member (exchanged medium) may be guided to the return port instead of the collection unit.

  Further, the passage detection unit is configured to close the first restriction member when detecting that the non-contact storage medium thrown into the insertion port has passed the restriction position by the first restriction member in the collection path. May be.

  According to this invention, since the collection of the non-contact storage medium can be performed properly, it is possible to suppress a reduction in processing efficiency related to the collection and to suppress a decrease in user operability.

It is principal part sectional drawing along the ticket gate path | route of the automatic ticket gate provided with the non-contact storage medium collection | recovery unit which concerns on the 1st Embodiment of this invention. It is principal part sectional drawing perpendicular | vertical to the ticket gate path | route of the non-contact storage medium collection | recovery unit of FIG. It is a figure explaining the state transition of each part by control by the control part with which the automatic ticket gate of FIG. 1 is provided. It is a figure explaining the state transition of each part by control by the control part with which the automatic ticket gate of FIG. 1 is provided. It is a figure explaining the state transition of each part by control by the control part with which the automatic ticket gate of FIG. 1 is provided. It is a figure explaining the state transition of each part by control by the control part with which the automatic ticket gate of FIG. 1 is provided.

  Embodiments of the present invention will be described below.

  FIG. 1 is a cross-sectional view along a ticket gate passage showing a schematic configuration of a main part of an automatic ticket gate 1 including a non-contact storage medium recovery unit according to the present embodiment. FIG. 2 is a cross-sectional view (cross-sectional view in the width direction of the ticket gate) perpendicular to the ticket gate having the same configuration. In these drawings, the periphery of the mechanism for collecting the wireless token 100 in the automatic ticket gate 1 is shown.

  In the following description, the wireless token 100 is assumed to be a coin having an RFID IC chip 101 and having a diameter of about 30 mm and a thickness of about 2 mm. The IC chip 101 stores medium information including identification information in a memory. The medium information is used for traffic determination in the ticket gate process, and the identification information is used for determining whether or not the wireless token 100 should be collected. The wireless token 100 corresponds to the non-contact storage medium referred to in the present invention.

  The automatic ticket gate 1 includes a housing 2, a shutter 3, a collection selector 4, a reader / writer 5, photoelectric sensors 6 </ b> A, 6 </ b> B, 6 </ b> C, and a control unit 7.

  The housing 2 includes an input port 2A, an upper medium path 2B, a lower medium path 2C, and a side medium path 2D.

  The insertion port 2A is an opening provided on the upper surface of the housing into which the wireless token 100 is inserted. It is preferable that the length of the insertion slot 2A in the direction along the ticket gate passage is more than 1 time and less than 2 times the diameter of the wireless token 100, and is 50 mm here. Further, it is preferable that the width in the direction perpendicular to the ticket gate passage is more than 1 and less than 2 times the thickness of the wireless token 100, and is 3 mm here. By setting the insertion port 2 </ b> A to such a size, it is possible to prevent another medium from being inserted at the same time as the wireless token 100.

  The shutter 3 is provided in the vicinity of the insertion port 2 </ b> A so as to be freely opened and closed. Normally, the shutter 3 is closed and is temporarily opened only when the wireless token 100 is collected. The shutter 3 corresponds to the first regulating member referred to in the present invention. The shutter 3 is suitable if the distance from the insertion slot 2A is in the range of 1/5 to 1/2 of the diameter of the wireless token 100, and is 15 mm here. The shutter 3 is set to such a position. When the wireless token 100 is subjected to the ticket gate process, a part of the wireless token 100 is inserted into the area from the insertion slot 2A to the shutter 3, and the ticket gate process by wireless communication is performed in that state. At this time, if it is determined that the wireless token 100 should be collected, the shutter 3 is temporarily opened and the wireless token 100 is inserted into the housing.

  The upper medium path 2B communicates with the input port 2A and is provided vertically from the input port 2A. The lower medium path 2C communicates with the upper medium path 2B and is provided vertically from the upper medium path 2B. The lower medium path 2C is connected to a collection box (not shown) for collecting the wireless token 100. The side medium path 2D is a branch path in the present embodiment, communicates with the side of the lower end of the upper medium path 2B, and is provided obliquely downward from there. The side medium path 2D is connected to a return port (not shown) for returning the wireless token 100 or the like. A path from the input port 2A to the recovery box via the upper medium path 2B and the lower medium path 2C corresponds to the recovery path referred to in the present invention. Further, the collection box corresponds to the collection unit referred to in the present invention.

  These upper medium path 2B, lower medium path 2C, and side medium path 2D are suitable if the width in the plane along the ticket gate path is more than 1 and less than 2 times the diameter of the wireless token 100. Here, it is 40 mm. Thereby, the wireless token 100 passing through each medium path can be reliably detected by the photoelectric sensors 6A to 6C described later. Further, it is preferable that the side medium path 2D is inclined obliquely downward from the upper medium path 2B. Here, the side medium path 2D is inclined by about 120 degrees with respect to the vertical upward direction. By configuring the side medium path 2D as described above, the wireless token 100 can be smoothly passed through the side medium path 2D.

  The collection selector 4 corresponds to the second restricting member referred to in the present invention. The recovery selector 4 closes one of the lower medium path 2C or the side medium path 2D and opens the other with the vicinity of the position serving as the boundary between the upper medium path 2B, the lower medium path 2C, and the side medium path 2D as a fulcrum. It is provided so as to be swingable. Usually, the recovery selector 4 is in a state in which the lower medium path 2C is opened, the side medium path 2D is closed and the wireless token 100 is recovered (hereinafter referred to as a recovery state), and only when an unsuitable medium is detected. The lower medium path 2C is closed, the side medium path 2D is opened, and the wireless token 100 is returned (hereinafter referred to as a return state).

  The collection selector 4 is configured such that the distance of the fulcrum from the shutter 3 exceeds one time the diameter of the wireless token 100 and is configured to swing to an angle of less than 90 degrees with respect to the vertical upward direction. Is preferred. By setting the collection selector 4 in such a configuration, the wireless token 100 can be smoothly guided to the side medium path 2D. Here, a fulcrum of the collection selector 4 is provided at a position 45 mm from the shutter 3, and the collection selector 4 is configured to swing to an angle of about 60 degrees with respect to the vertical upward direction.

  The reader / writer 5 corresponds to the communication unit referred to in the present invention. The reader / writer 5 performs wireless communication with the wireless token 100, reads medium information including identification information from the IC chip 101 of the wireless token 100, and writes information for updating the medium information on the IC chip 101. The reader / writer 5 is disposed at a position facing the upper medium path 2B, and forms a continuous communication area from the outside near the inlet 2A to the entire upper medium path 2B. Therefore, the automatic ticket gate 1 can communicate with the wireless token 100 located in the vicinity of the insertion slot 2A and the wireless token 100 passing through the upper medium path 2B.

  The photoelectric sensors 6A to 6C detect the medium that passes through the facing positions. Therefore, the medium position can be grasped from the output signals of the photoelectric sensors 6A to 6C, and each unit can be operated at an appropriate timing based on the output signals of the photoelectric sensors 6A to 6C. The photoelectric sensor 6A is provided below the shutter 3 in the upper medium path 2B, here at a position about 15 mm below. The photoelectric sensor 6A corresponds to the passage detection unit referred to in the present invention. The photoelectric sensor 6B is provided below the collection selector 4 in the lower medium path 2C, here, at a position about 15 mm below the fulcrum of the collection selector 4. The photoelectric sensor 6C is provided at the side of the collection selector 4 in the side medium path 2D, here, at a position about 15 mm from the boundary with the upper medium path 2B.

  The control unit 7 controls each unit based on the output of the reader / writer 5 and the outputs of the photoelectric sensors 6A to 6C. Specifically, the reader / writer 5 uses the medium information acquired from the wireless token 100 to perform the ticket checking process and the collection determination, and at the operation timing based on the outputs of the reader / writer 5 and the photoelectric sensors 6A to 6C, The selector 4 is operated. The control unit 7 corresponds to the determination unit, the first opening / closing unit, and the second opening / closing unit referred to in the present invention.

Below, control of the control part 7 is demonstrated.
First, control when the wireless token 100 is not collected will be described.

FIG. 3 is a diagram for explaining the transition of the operation state of each unit under the control of the control unit 7 in this case.
Normally, the control unit 7 closes the shutter 3 provided in the vicinity of the insertion port 2A, sets the collection selector 4 in the collection state, and causes the reader / writer 5 to periodically transmit a polling radio wave.

  In this state, when the wireless token 100 gripped by the user approaches the vicinity of the insertion slot 2A, the wireless token 100 is powered by a polling radio wave and activated to transmit the identification information wirelessly. When the reader / writer 5 receives the identification information, the control unit 7 recognizes that the wireless token 100 is located in the vicinity of the insertion slot 2A, causes the reader / writer 5 to read the medium information from the wireless token 100, and the identification. It is determined whether or not the information wireless token 100 is to be collected. Here, since the wireless token 100 is not to be collected, the control unit 7 causes the shutter 3 to maintain the closed state based on the determination.

  The control unit 7 writes predetermined ticket gate information when the wireless token 100 is not collected from the reader / writer 5 to the wireless token 100. Then, based on the medium information read from the wireless token 100, ticket gate processing such as traffic determination is performed.

  Thereafter, the user takes away the wireless token 100 from the vicinity of the insertion slot 2A, and the ticket gate process for the user is completed.

  In this case, the shutter 3 is normally closed at the insertion port 2A, and the shutter 3 is temporarily opened when the wireless token 100 is collected, but conversely, the shutter 3 is normally opened. In addition, when it is determined that the wireless token 100 should not be collected, the shutter 3 may be temporarily closed. In that case, since the wireless token 100 located in the communication area of the reader / writer 5 is taken away by the user, the communication between the reader / writer 5 and the wireless token 100 is interrupted. Open it.

  Next, the control of the control unit 7 when collecting the wireless token 100 will be described.

  FIG. 4 is a diagram for explaining the transition of the operation state of each unit under the control of the control unit 7 in this case.

  Normally, the control unit 7 closes the shutter 3 provided in the vicinity of the insertion port 2A, sets the recovery selector 4 in a recovery state in which the lower medium path 2C is opened, and causes the reader / writer 5 to periodically transmit a polling radio wave. .

  In this state, when the wireless token 100 gripped by the user approaches the vicinity of the insertion slot 2A, the wireless token 100 is powered by a polling radio wave and activated to transmit the identification information wirelessly. When the reader / writer 5 receives the identification information, the reader / writer 5 reads the medium information from the wireless token 100, and determines whether or not the wireless token 100 of the identification information is to be collected. Here, since the wireless token 100 is to be collected, the control unit 7 shifts the shutter 3 from the closed state to the open state based on the determination.

  The control unit 7 writes predetermined ticket gate information for collecting the wireless token 100 from the reader / writer 5 to the wireless token 100. Then, based on the medium information read from the wireless token 100, ticket gate processing such as traffic determination is performed.

  As a result, the wireless token 100 is inserted from the insertion port 2A, passes through the shutter 3, and reaches the upper medium path 2B. The controller 7 detects from the output of the photoelectric sensor 6A that the wireless token 100 has passed through the shutter 3 and has reached the upper medium path 2B, and closes the shutter 3. At the same time, the reader / writer 5 is shifted to a state in which polling radio waves are periodically transmitted.

  Then, the wireless token 100 located in the upper medium path 2B wirelessly transmits the identification information, and the identification information is received by the reader / writer 5. The control unit 7 determines whether the identification information received by the reader / writer 5 is the same as the identification information received in the first wireless communication, and detects that the identification information is the same. In this way, even if the wireless token 100 moves, its presence can be captured. Thereafter, the control unit 7 maintains the recovery selector 4 as it is in the recovery state in which the lower medium path 2C is opened, whereby the wireless token 100 can be guided and recovered to the lower medium path 2C.

  Thus, before and after opening the shutter 3, the reader / writer 5 communicates with the wireless token 100 in the same wireless communication area, so that wireless communication with the wireless token 100 is not interrupted. Therefore, it is possible to prevent a situation in which collection of the wireless token 100 is stopped and returned due to a communication failure with the wireless token 100. As a result, a decrease in processing efficiency related to the collection of the wireless token 100 can be suppressed, and a decrease in user operability can be suppressed.

  Next, the control of the control unit 7 when returning the inappropriate wireless token 100 to the user or the like will be described.

FIG. 5 is a diagram for explaining the transition of the operation state of each unit under the control of the control unit 7.
Normally, the control unit 7 closes the shutter 3 provided in the vicinity of the insertion port 2A, sets the recovery selector 4 in a recovery state in which the lower medium path 2C is opened, and causes the reader / writer 5 to periodically transmit a polling radio wave. .

  In this state, when the wireless token 100 gripped by the user approaches the vicinity of the insertion slot 2A, the wireless token 100 is powered by a polling radio wave and activated to transmit the identification information wirelessly. When the reader / writer 5 receives the identification information, the reader / writer 5 reads the medium information from the wireless token 100, and determines whether or not the wireless token 100 of the identification information is to be collected. Here, since the wireless token 100 is to be collected, the control unit 7 shifts the shutter 3 from the closed state to the open state based on the determination.

  The control unit 7 writes predetermined ticket gate information for collecting the wireless token 100 from the reader / writer 5 to the wireless token 100. Then, based on the medium information read from the wireless token 100, ticket gate processing such as traffic determination is performed.

  At this time, if another wireless token 100 or a medium (such as a coin) other than the wireless token 100 is inserted from the insertion slot 2A by a malicious user of unauthorized use through a very quick operation, the inappropriate The wireless token 100 or the like passes through the shutter 3 and reaches the upper medium path 2B. The control unit 7 detects from the output of the photoelectric sensor 6A that the inappropriate wireless token 100 has passed through the shutter 3 and has reached the upper medium path 2B, and closes the shutter 3. At the same time, the reader / writer 5 is shifted to a state in which polling radio waves are periodically transmitted.

  Thus, the inappropriate wireless token 100 located in the upper medium path 2B wirelessly transmits the identification information, and the reader / writer 5 receives the identification information. Further, when the inserted medium is not the wireless token 100, communication with the reader / writer 5 is not possible. The control unit 7 determines whether or not the identification information received by the reader / writer 5 is the same as the identification information received in the first wireless communication, and detects that the identification information is not the same. Even when the reader / writer 5 cannot communicate, it detects that the identification information is not the same. Therefore, the control unit 7 drives the recovery selector 4 to shift to the return state. As a result, the wireless token 100 or the like can be guided to the side medium path 2D and returned to the user or the like, and a ticket gate process can be performed when the wireless token 100 is illegally used for the user.

  Next, the control of the control unit 7 when the wireless token 100 is returned to the user or the like due to the occurrence of communication failure will be described.

FIG. 6 is a diagram for explaining the transition of the operation state of each unit under the control of the control unit 7.
Normally, the control unit 7 closes the shutter 3 provided in the vicinity of the insertion port 2A, sets the collection selector 4 in the collection state, and causes the reader / writer 5 to periodically transmit a polling radio wave.

  In this state, when the wireless token 100 gripped by the user approaches the vicinity of the insertion slot 2A, the wireless token 100 is powered by a polling radio wave and activated to transmit the identification information wirelessly. When the reader / writer 5 receives the identification information, the reader / writer 5 reads the medium information from the wireless token 100, and determines whether or not the wireless token 100 of the identification information is to be collected. Here, since the wireless token 100 is to be collected, the control unit 7 shifts the shutter 3 from the closed state to the open state based on the determination.

  The control unit 7 writes predetermined ticket gate information for collecting the wireless token 100 from the reader / writer 5 to the wireless token 100. Then, based on the medium information read from the wireless token 100, ticket gate processing such as traffic determination is performed.

  As a result, the wireless token 100 is inserted from the insertion port 2A, passes through the shutter 3, and reaches the upper medium path 2B. The controller 7 detects from the output of the photoelectric sensor 6A that the wireless token 100 has passed through the shutter 3 and has reached the upper medium path 2B, and closes the shutter 3. At the same time, the reader / writer 5 is shifted to a state in which polling radio waves are periodically transmitted.

  At this time, in the wireless communication with the wireless token 100, if communication failure such as data writing abnormality or polling detection abnormality occurs in a very rare case, the identification information is obtained from the wireless token 100 located in the upper medium path 2B. Can not receive. Therefore, if the control unit 7 cannot receive the identification information within a predetermined time, the control unit 7 drives the collection selector 4 to shift the collection selector 4 to the return state. Thus, the wireless token 100 can be guided to the side medium path 2D and returned to the user or the like. Therefore, even when a communication failure of the radio token 100 that occurs very rarely occurs, it is possible to perform an appropriate ticket gate process for the user.

By operating each unit as described above, the automatic ticket checker 1 can perform identification confirmation of the wireless token 100 by acquiring the identification information multiple times with a time difference in one communication. For this reason, the wireless token can be collected or returned with a simple configuration using only one reader / writer 5. In addition, since communication is not interrupted during the acquisition of the identification information twice, the time required for starting the wireless token can be shortened, and the wireless token ticket gate processing can be performed efficiently.
Furthermore, interference and setting restrictions in the communication area can be suppressed, and it becomes easy to secure the token operability for the user by making the communication area ideal.
In addition, since it is difficult for the wireless token 100 to be returned, it is possible to configure the automatic ticket checker so that the wireless token is returned to the attendant instead of returning the wireless token to the user.

  In the above description, a coin-shaped wireless token has been described as an example, but the present invention can also be applied to various wireless tokens such as a card. The present invention can also be applied to gate devices such as other entrance / exit management devices for station service systems.

DESCRIPTION OF SYMBOLS 1 ... Automatic ticket gate 2 ... Housing 2A ... Loading port 2B ... Upper medium path 2C ... Lower medium path 2D ... Side part medium path 3 ... Shutter 4 ... Collection selector 5 ... Reader / writer 6A, 6B, 6C ... Photoelectric sensor 7 ... Control unit 100: wireless token

Claims (7)

In the non-contact storage medium recovery unit that recovers the non-contact storage medium input to the input port to the recovery unit,
A first opening / closing part for opening / closing a first restricting member for restricting passage of the non-contact storage medium in a collecting path connecting the input port and the collecting part;
A communication unit that forms a wireless communication area with the non-contact storage medium across the input port side and the collection unit side across the first regulating member;
A determination unit that determines whether to collect the non-contact storage medium in the collection unit by communication between the communication unit and the non-contact storage medium;
The first opening / closing unit opens the first regulating member when the determination unit determines to collect the non-contact storage medium in the collection unit.   When the communication between the communication unit and the non-contact storage medium is interrupted after the first opening / closing unit has opened the first restricting member, the determination unit is directed to the collection unit of the non-contact storage medium. The non-contact storage medium recovery unit according to claim 1, wherein it is determined to stop the recovery of the storage medium. A second opening / closing portion that is disposed closer to the collection portion than the first restriction member and opens / closes a second restriction member that restricts passage of the non-contact storage medium to the collection portion in the collection path; ,
3. The non-contact storage according to claim 2, wherein the second opening / closing unit closes the second restricting member when the determination unit determines to stop collecting the non-contact storage medium into the collection unit. 4. Media recovery unit.   4. The non-contact storage medium recovery unit according to claim 3, wherein the second opening / closing part guides the non-contact storage medium to the recovery part or a return port by opening / closing the second restriction member. In the recovery path, the non-contact storage medium thrown into the inlet is provided with a passage detection unit that detects that the regulation position by the first regulation member has passed,
The first opening / closing part closes the first restriction member when the passage detection part detects that the non-contact storage medium has passed a restriction position by the first restriction member. The non-contact storage medium collection | recovery unit in any one of 1-4.   The length from the insertion port to the first regulating member is 1/5 to 1/2 of the length of the non-contact storage medium in the insertion port in the insertion direction. A non-contact storage medium recovery unit according to 1. A non-contact storage medium recovery unit according to any one of claims 1 to 6,
A gate device that determines whether or not a user can pass through a passage based on medium information acquired by the communication unit through communication with the non-contact storage medium.

Images