TW200422978A - Automatic ticket examine machine turnstile - Google Patents

Abstract

This invention relates to an automatic ticket examine machine for turnstile for preventing a passenger who passes the turnstile with an invalid untouched-type record media. Characterized in a ticket slit 3 provided with a first antenna 11 and a recycle-path 7 provided with a second antenna 12; a first gate 31 for regulates the recycle-path for an untouched-type token 30 which be inserted from ticket slit 3 slitting into a token recycling box 6. According to the information insides the untouched-type token 30 and which information received by the first antenna 1, when the recycled untouched-type token 30 is determined to be leaveable then open the first gate 31 for the untouched-type token 30 could slitting into the recycle-path 7 and also comparing the information which received by second antenna with the information that received by first antenna whether the same or not, if the same, open the second gate 32 and recycling the untouched-token 30 at the same time making the passenger pass.

Description

200422978 Mei, description of invention: The ticket-cut style of the non-stop station car 1 is set at S set 5-some of the affiliated institutions clearly issued the dagger XS eyepiece ’s body media record to contact the non- Take back in preparation for having yes. Special ticket for special machine, cut the mobile recording, touch the non-recorded ticket, cut the ticket from the technical skill of the 1 before the non-operational ban, or implement the enforcement and the read-only method to contact the non-information management When it comes to media, it ’s better to talk about it or the media card to touch it, or not. General coin-generation, touch uhr ticket or cut card to touch self-recovery \ | 彐 二-三 # This is in use. The messenger is used for currency generation, touch high, etc., memory or path 8 ιρτ Xintongyou The built-in limit is to have one to three mouths, and the fixed investment is used to make the original profit to make a ticket. The car is multiplied by the cause, and the general branch is discarded. The problem is that an automatic ticket cutting machine that collects a non-contact recording medium used as a normal passenger ticket at the time of exit to make the non-contact recording medium reusable is described in Patent Document 1 described below. In this automatic ticket cutting machine, the communication section provided on the main body of the automatic ticket cutting machine is used to read the information recorded on the non-contact recording medium, and perform the calculation processing for the appearance based on the read information. Then, as a result of the arithmetic processing, it is determined that the non-contact recording medium is exhausted, that is, it is determined that the non-contact recording medium should be recovered, and when it is determined that the contactless recording medium can be played, the access to the recycling box for recovering the non-contact recording medium is opened. The entrance is opened, and after a non-contact recording medium is detected by the sensor provided inside the entrance, the door is opened to allow passage. According to such an automatic ticket cutting machine ', since the non-contact recording medium is collected at the 200422978 appearance, the non-contact recording medium can be reused and the investment cost can be reduced. [Patent Document 1] _ Japanese Patent Publication No. 2 0 0 0-1 23 2 1 2 (Page 2-3, Fig. 4) [Problems to be Solved by the Invention] However, in Patent Document 1 mentioned above In the recorded automatic ticket cutting machine, after detecting that the non-contact recording medium was put into the entrance with a sensor, the door was opened to allow access, so it should be recovered in the calculation process, and even if the entrance is put into the entrance, it can exit. Non-contact recording media other than non-contact recording media or counterfeit non-contact recording media, such as fake contactless recording media, are detected by a sensor, and the opening door is allowed to pass. Therefore, there is a possibility that the contactless recording medium shields the communication unit to read the recorded information to open the input port, and then the invalid contactless recording medium is inputted to pass the ticket-cutting machine. The present invention is to solve such problems as described above, and an object thereof is to provide an automatic ticket cutting machine which can prevent the improper act of passing a ticket cutting machine by inputting an invalid non-contact recording medium. · [Contents of the invention] [Means for solving the problem] The present invention is a non-contact type that reads information recorded on a non-contact recording medium in a non-contact manner to perform a process of granting or prohibiting access, while recycling the non-contact recording medium. The automatic ticket cutting machine is provided with an input port for inputting the non-contact recording medium, a recovery box for recovering the non-contact recording medium input from the input port, and a recovery path from the input port to the recovery box 200422978. And it is provided with a restriction of the non-contact recording medium from the input port to the first gate of the recovery path, and a restriction of the non-contact recording medium from the recovery path to the second gate of the recovery box to non-. The first reading unit that reads the information of the non-contact recording medium before being put into the recovery path by the contact method, and the second reading that reads the information of the non-contact recording medium that is put into the recovery path by the contact method. unit. A control unit is further provided. When it is determined that the non-contact recording medium is to be recovered and it is possible to enter and exit based on the reading result of the first reading unit, the first gate is opened and it is determined that the second reading unit Whether the read information is consistent with the information read by the first _ reading unit, when it is determined that they are consistent, the second gate is opened and the traffic is permitted. In addition, the so-called "determinable entry and exit" refers to the case where a non-contact recording medium is judged to be available for use when it is recycled, and the non-contact recording medium is judged to be used when it is collected for use when it is admitted. Admission. In this way, only when a non-contact recording medium recorded with the same information as the non-contact recording medium that was judged to be recovered before being put into the recovery path and judged to be accessible can be put into the recovery path through the input port. By opening the second gate, the non-contact recording medium can be collected in a collection box, and at the same time, the passage can be permitted and the user can pass. Therefore, it is determined that the non-contact recording medium other than the non-contact recording medium that is to be recycled and the entry-exitable non-contact recording medium or an ineffective non-contact recording medium such as a fake non-contact recording medium will be recycled even if it is put into the recycling path. At the same time, it does not allow users to pass, so it can prevent the improper behavior of passing the ticket-cutting machine by inputting invalid non-contact recording media. 200422978 In the present invention, the information recorded on the non-contact recording medium includes ticket-cutting information for determining whether or not to enter and exit, and the identification information for individually identifying the non-contact recording medium. The first reading unit reads The ticket-cutting information and identification information of the non-contact recording medium 'may be read by the second reading unit. In this case, the control unit executes the determination of whether to recycle the non-contact recording medium based on the identification information read by the first reading unit, and the determination of whether or not to enter the field is based on the reading of the first reading unit. The obtained ticket-cutting information is executed, and whether the information read by the second reading section is consistent with the information read by the first reading section is determined based on the second reading section. The identification information and the identification information read by the first reading section are executed. In addition, the so-called "determination of whether or not to enter the market" refers to the use case where the non-contact recording medium is recycled at the time of admission is to determine whether to enter the market, and the use case where the non-contact recording medium is recycled at the time of admission is to determine whether to enter the market. In this way, by determining whether the identification information read by the second reading section is consistent with the identification information read by the first reading section, the non-contact recording medium can be individually identified according to the identification information, so it is determined to be recycled and only When the contactless recording medium which is the same as the contactless recording medium judged to enter # is placed in the recycling path through the input port, the contactless recording medium can be recycled to the recycling bin, and allowed to pass for the user to pass. Therefore, it is possible to surely prevent an illegal act of passing a ticket cutter by inputting an invalid non-contact recording medium. In addition, the second reading unit only reads the identification information and performs the determination of whether or not they are consistent based on the identification information. Compared with the case where all the information of the non-contact recording medium is read and all the information is determined to be consistent, If the contact recording medium is put into the recovery path, the time spent on reading and judging can be shortened. This can shorten the entire processing time until the communication is permitted or prohibited. In another embodiment of the present invention, the control unit determines that the non-contact recording medium is to be recovered based on the reading result of the first reading unit, then opens the first gate, and reads the data according to the reading of the second reading unit. If the result is determined, Λ can be played, and when it is determined that the information read by the second reading section is consistent with the information read by the first reading section, the second gate is opened and the traffic is permitted. In this way, the non-contact recording medium recording the same information as the information of the non-contact recording medium determined to be recovered is put into the recovery path from the input port, and only when it is judged to be accessible, the second gate can be opened and the The non-contact recording medium is collected in a recycling box, and at the same time, it is allowed to pass and can be passed by the user. Therefore, even if an invalid non-contact recording medium is put into the recycling path, it is judged that it will not be recycled, and at the same time, it will not be passed by the user. Therefore, it is possible to prevent the improper behavior of the ticket-cutting machine from entering the non-contact recording medium. In the present invention, in the other embodiments described above, the first reading unit may read the identification information of the non-contact recording medium, and the second reading unit may read the ticket-cutting information and Identification information. In this case, the control unit executes a judgment as to whether to recycle the non-contact recording medium based on the identification information read by the first reading unit, and a determination as to whether or not it can enter or exit is based on the ticket-cutting information read by the second reading unit It is executed, and whether the information read by the second reading unit is consistent with the information read by the first reading unit is based on the identification information read by the second reading unit and the first reading. The identification information read by the Ministry. 200422978 In this way, only the identification information is read by the first reading unit ', and the time required for reading can be shortened before the non-contact recording medium is put into the recycling path. Furthermore, the determination of whether the information is consistent based on the identification information alone is used to shorten the overall processing time until the permission or prohibition of communication is compared with the case where all the information of the non-contact recording medium is determined to be consistent. In addition, after the non-contact recording medium is put into the recycling path, the second reading unit reads the ticket-cutting information, and the ticket-cutting information can be read stably in the recycling path. In addition, in the present invention, in addition to the above-mentioned configuration, a return port for returning the non-contact recording medium and a return path branched from the recovery path between the first gate and the second gate to the return port may be provided. And the third gate is used to restrict the non-contact recording medium recovered to the collection box by the second gate to the return path. In this configuration, the control unit determines that the information read by the second reading unit is inconsistent with the information read by the first reading unit, and then opens the third gate and prohibits the second gate from opening. Traffic. In this way, when an invalid non-contact recording medium is put into the return path from the input port, the non-contact recording medium can be returned and the next non-contact recording medium can be directly accepted. Further, in the present invention, the first reading unit has a first antenna for non-contact communication with a non-contact recording medium that is not put into the recovery path, and the first antenna is set to detect non-contact so as to cover the input port. The detection range of the recording medium is better. In this way, there is no need to cover the first contactless recording medium to be recovered. • 10-200422978 antenna, as long as it is directly put into the input port, the first antenna communicates with the non-contact recording medium, because the first reading unit will read the non-contact recording medium. Contact with the information of the recording medium, so the processing of the recovered non-contact recording medium becomes simple, and the convenience of the user can be sought.

In addition, in the present invention, in addition to the above-mentioned configuration, a first gate detection sensor for detecting the opening and closing of the first gate, a second gate detection sensor for detecting the opening and closing of the second gate, and the like may be provided. A first pass detection sensor for detecting the non-contact recording medium passing through the first gate, and a second pass detection sensor for detecting the non-contact recording medium passing through the second gate. In this configuration, the control unit checks whether the second gate detection sensor has detected that the second gate is closed before the first gate is opened, and when it is confirmed to be closed, the first gate is opened and the first gate is opened. When the detection sensor detects that the non-contact recording medium has passed through the first gate, the first gate is closed, and before the second gate is opened, confirm whether the first gate detection sensor has detected that the first gate is closed. When it is confirmed that the closing is detected, the second gate is opened, and when the second pass detection sensor detects that the non-contact recording medium has passed through the second gate, the second gate is closed. In this way, when it is confirmed that one of the gates is closed, by opening the other's gate, it is determined whether or not the information read by the second reading unit and the information read by the first reading unit are not consistent. To prevent non-contact recording media from entering the recycling bin. In addition, after confirming that the non-contact recording medium has passed through each of the gates, by immediately closing each gate, the determination of whether the information is consistent can prevent the next non-contact recording medium from entering the recovery path and the judgment cannot be performed normally. -11-200422978 In addition, in the present invention, it is preferable that after the i-th gate is opened, if the predetermined time passes, the non-contact recording medium is not detected by the first pass detection sensor and has passed. The first gate closes the first gate. In this way, after the information of the non-contact recording medium is read to the first reading unit ', where the non-contact recording medium is not put into the recovery path from the input port, the next non-contact recording medium can be directly accepted. [Embodiment]

1 to 3 are external views showing an example of the automatic ticket cutting machine of the present invention, FIG. 1 is a plan view of the same automatic ticket cutting machine, and FIG. 2 is a side view of the same automatic ticket cutting machine viewed from the Z direction in FIG. 1 Fig. 3 is a sectional view showing a recovery path near the input port of the same automatic ticket cutting machine. In FIG. 1, 100 and 101 are two automatic ticket cutting machines which are arranged with a passage R interposed therebetween, among which 100 is an automatic ticket cutting machine according to an embodiment of the present invention. In addition, in this example, the automatic ticket gate machines 100 and 101 are non-contact automatic ticket gate machines that read information recorded on a non-contact recording medium in a non-contact manner and execute a process of granting or prohibiting traffic. In the case of a non-contact recording medium, a non-contact card 20 (illustrated in FIG. 3) and a non-contact token 30 (illustrated in FIG. 3) are used. X is the exit direction and γ is the entry direction. Here, the user is required to cover the non-contact card 20 or non-contact token 30 at the boarding station to enter the ticket gate, and the non-contact card 20 to cover the automatic ticket cutter at the next station. The non-contact token 30 system An example is a case where an automatic ticket-cutting machine is used to enter the scene. In this case, the automatic ticket-cutting machine 100 is an automatic ticket-cutting machine that is obscured by a contactless card 20 of a user who is going to play in the X direction and has been put into contactless token 30. On the other hand, the automatic ticket-cutting machine 1 01 is an automatic ticket-cutting machine that is shielded by a contactless card 2 0 or a contactless token 30 of a user who is going to enter the Y direction, but is not input into the contactless token 3 0. In the automatic ticket cutting machine 100, 1 is the body of the automatic ticket cutting machine 100, 2 is a display section for performing various guidance to users who are playing in the X direction, and 3 is an input port for inputting the non-contact token 300. 1 1 is the first antenna (hereinafter referred to as the "i" antenna) in the present invention, and performs non-contact communication with the non-contact card 20 or the non-contact token 30. 4a and 4b are opening and closing doors for permitting or prohibiting passage R, and are opened and closed in conjunction with the doors 4c and 4d of the automatic ticket cutting machine i 〇 Ϊ. Specifically, the doors 4a to 4d are normally opened (the state shown by the solid line) as shown in Fig. 1, and the user who exits in the X direction shields the non-contact card 20 from the automatic ticket cutting machine 1 00, Or put the non-contact token 30 into the input port 3, as described later, when the automatic ticket cutting machine 00 is judged to be available, all the doors 4a to 4d remain open, and when it is judged not to be available, doors 4b and 4b Door 4 d remains open, and doors 4 a and 4 c are closed (not shown by the dotted line sS). In addition, the user who enters in the direction of γ covers the non-contact card 20 or the non-contact token 30 to the automatic ticket cutting machine 1001. As described later, when the automatic ticket cutting machine 1001 determines that it is possible to enter, all the doors 4a to 4d are kept open. When it is determined that entry is not allowed, doors 4a and 4c are kept open, and doors 4b and 4d are closed (the state shown by the dotted line). Figures 2 and 5 show a plurality of user detection sensors arranged on the side of the main body 1 for detecting users passing through the passage R. 6 series recovery box, • 13.200422978 is used to recover the non-contact tokens 30 input from input port 3, 7 is the recovery path from input port 3 to recovery box 6. The non-contact token 3 0 input through the input port 3 passes through the recovery path 7 under its own weight and enters the recovery box 6. In addition, two collection boxes 6 are provided, and the collection path 7 is divided into the collection boxes 6 so as to be divided. The 8-series refund port is used to return the non-contact tokens 30, etc., which have been put into the recovery path 7. The recovery path 7 near the entrance 3 is provided with a second antenna (hereinafter, referred to as a second antenna) 1 2 ′ in the present invention as shown in FIG. 3, which is a non-contact token that is input into the recovery path 7 3 0 (not shown in dotted line) performs contactless communication. In contrast, the aforementioned first antenna H 1 1 performs non-contact communication with the non-contact token 30 (illustrated by a solid line) before being put into the recovery path 7. 1 2 a indicates that the detection range is detected before the second antenna 12 performs communication with the contactless token 30. i〗 a means that the detection range is detected before the first antenna 11 communicates with the contactless token 30 or the contactless card 20. The detection range 1 1 a is set so that the input port 3 is included. 3 1 is the first gate (hereinafter, referred to as the first gate) in the present invention, and is used to restrict the non-contact token 30 from being put into the recovery path 7 through the input port 3. · 3 2 is the second gate in the present invention (hereinafter referred to as the second gate), which is used to restrict the non-contact tokens 30 that are put into the recovery path 7 to be recovered to the recovery box 6. 3 3 series In the invention, the third gate (hereinafter, referred to as the third gate) is used to restrict the non-contact token 30 which is restricted to be recovered to the recovery box 6 by the second gate 32 and enter the return path 9. In addition, the return path 9 is between the first gate 31 and the second gate 32, and the recovery path 7 leads to the return gate 8. The three above-mentioned smell doors 31 to 33 are all closed in the third figure -14-200422978, and slide to open in a direction perpendicular to the paper surface to pass the non-contact token 30.

41 is the first gate detection sensor (hereinafter referred to as the first gate detection sensor) in the present invention, and is used to detect the opening and closing of the first gate 31. 42 is the second gate detection sensor (hereinafter referred to as the second gate detection sensor) in the present invention, and is used to detect the opening and closing of the second gate 32. These gate detection sensors 41, 42 are composed of miniature optical sensors. When each of the gates 3, 32 is closed, it is turned OFF, and when it is opened, it is turned ON.

5 1 is the first pass detection sensor (hereinafter, referred to as the first pass detection sensor) in the present invention for detecting the non-contact token 30 0 passing through the first gate 3 1.5. 2 is the present invention The second passing detection sensor (hereinafter, referred to as the second passing detection sensor) is used to detect that the non-contact token 30 passes through the second gate 32. These passing detection sensors 5 1 and 5 2 are composed of diffuse reflection type micro optical sensors, and detect the non-contact tokens 30 when the non-contact tokens 30 pass through the recovery path 7 before reaching their respective ones. It becomes ON state ', and returns to 0FF state after the contactless tokens 30 have crossed their respective fronts. That is, a switching signal from the ON state to the OFF state is used to detect that the contactless token 30 passes through each of the gates 31, 32. Next, in the automatic ticket cutting machine 101 shown in FIG. 1, 102 is the main body of the automatic ticket cutting machine 100, 103 is a display section for performing various guidance to a user who enters in the direction of γ, and 104 is an antenna for admission. The contactless communication is performed with the contactless card 20 or the contactless token 30. 4c and 4d are opening / closing doors', which are used to permit or prohibit passage R, as described above, to open and close in conjunction with the doors 4a, 4b of the automatic ticket cutting machine 100. In addition, this automatic ticket cutting machine 1 01 does not perform the recovery of non-contact tokens 30 at the time of admission, so it has not been provided with a non-contact token 30 input port 3 and a recycling box 6, And recycling path 7 and so on. The non-contact card 20 system for shielding the two automatic ticket machines 100 and 101 is made of plastic or the like. As shown in FIG. 3, a circuit device 20a is formed inside the main body. The circuit device 20a includes an antenna, a memory, and the like, as described later. This non-contact card 20 is a regular ticket or multiple ticket or prepaid card issued by the window of the station or issued by the automatic issuing machine, which is a repeated use of travel media. In addition, as a medium for repeated use, in addition to the contactless card 20, there are also contactless recording media using a watch shape, or a mobile phone with a contactless card function. On the one hand, the non-contact token 30 that covers the automatic ticket cutting machine 101 and is put into the automatic ticket cutting machine 100 is the same as the non-contact card 20. The main body is formed of plastic or the like, and the circuit device 30a is formed inside the main body. The circuit device 30a is provided with an antenna, a memory, and the like as described later. This non-contact token 30 is issued by an automatic ticket vending machine, and is used as a ride-on media that is limited to one pass, such as a normal ride ticket, and is returned by entering the automatic ticket-cut machine at the time of exit. In the third figure, the non-contact token 30 has a circular shape, and it may be replaced with, for example, an octagonal or a six-corner non-contact token. Fig. 4 is a block diagram showing the electrical configuration of the automatic ticket cutter 100, the contactless card 20, and the contactless token 30 described above. In the automatic ticket cutting machine 100, 10 is a CPU that controls each part of the automatic ticket cutting machine 100, and constitutes a control section in the present invention. This CPU10 is provided with a judgment section 10a based on information recorded on the contactless card 20 or • 16-200422978 contactless token 30 to perform several determinations described below, and the two gates 3 1, 3 described above. 2 Timer 1 Ob for measuring time after turning on. 1 3 is a communication unit for performing communication with a higher-level computer provided at a station office in a station. 14 is a memory composed of ROM and RAM, ROM is a program for recording the operation program of the CPU 10, and so on, and RAM is a record for riding information. 2 is the aforementioned display section. The 15 is a sound output unit composed of a speaker and the like, and performs various guidance to the user using sound. The 16-door control unit is used to control the driving of a motor (not shown) to open and close the aforementioned doors 4a to 4d. The motors for opening and closing the doors 4a and 4b are installed in the automatic ticket cutting machine 100, and the motors for opening and closing the doors 4c and 4d are installed in the automatic ticket cutting machine 101. The CPU 10 uses the door control unit 16 to open and close the doors 4a to 4d. 17 is a power supply unit for supplying power to each part of the automatic ticket cutting machine 100. 2 1 is the first antenna control unit, which controls the antenna 1 1 so that the aforementioned antenna 11 is used to send or receive information to the contactless card 20 or the contactless token 30. 1 2 2 is the second antenna The control unit controls the aforementioned second antenna 12 to send or receive information on the non-contact token 30. This antenna 12 is controlled. In addition, the antenna control unit 21 and the second antenna control unit 2 2 read the information of the contactless card 20 or the contactless token 30 through the antennas i and 12 respectively controlled by the antennas, and have information on the contactless card. The reading and writing function of writing information by 20 or non-contact tokens 30. The antenna control unit 21 and the first antenna n constitute the first reading unit in the present invention, and the second antenna control unit 22 and the second antenna 12 constitute the second reading unit in the present invention. 3 丨 a is the first gate control unit for controlling the solenoid (solenoid (not shown)) to open and close the above-mentioned first gate 3-17.200422978. A is the second gate control unit for Control the drive of the solenoid (not shown) to open and close the second gate 3 2. 3 3 a is the third gate control unit for controlling the drive of the solenoid (not shown) to open and close the third gate 3 3, using these gate control sections 3 1 a,

3 2 a, 3 3 a to open and close 3 gates 3 1, 3 2, 3 3. 4 1 is the aforementioned first gate detection sensor, 4 2 is the aforementioned second gate detection sensor, 5 1 is the aforementioned first 1 pass detection sensor, 5 2 is the aforementioned second pass detection sensor. In addition to the above, the automatic ticket cutting machine 100 is also provided with the aforementioned user detection sensor 5 and the like, and the illustration is omitted in the fourth figure. The non-contact cards 20 and 20b control the CPU of each unit, and 20c is a memory unit composed of ROM and RAM. The ROM of the memory 20c records the operation programs of the CPU2 Ob and the like, and the RAM records the ticket-cutting information used to pass the ticket-cutting machine, or the identification information used to individually identify the non-contact card 20 and so on. Note that the ticket-cutting information refers to, for example, information indicating a boarding zone, a station, a start-up date, and a period of use when the contactless card 20 is used as a regular ticket. The CPU 10 of the automatic ticket cutting machine 100 uses the judgment unit 10a to determine whether or not it is possible to appear based on the ticket cutting information. The identification information refers to information such as a media code indicating the type of the non-contact recording medium, an ID code indicating the execution of the photographing of the non-contact card 20. The CPU 100 of the automatic ticket cutting machine 100 uses the judging unit 10a to "identify the non-contact recording medium as a non-contact card by the media code of the identification information", for example, it is considered to be used as a regular ticket, and it is judged that it is not collected. media. 2 0 d is an antenna for communicating with the first antenna 11 of the automatic ticket cutter 100 or the antennas 104 -18-200422978 of the automatic ticket cutter 101. 20e is the antenna control unit, which controls this antenna to send or receive information to the automatic ticket cutters 100 and 101. The aforementioned CPU 20b may be omitted. The non-contact tokens 30, 30b are used to control the CPU of each unit, and 30c is a memory composed of and RAM. The ROM of Billion Body 30c contains the operation program of CPU30b, etc., and the RAM is used to record the ticket-cutting information of the machine, or the information used to individually identify the non-contact token 30, and so on. In addition, the so-called ticket-cutting information indicates information such as the bus station, the day of the golden bus, and so on. Based on the information, the CPU 10 of the automatic ticket cutting machine 100 uses the judging unit 10 a to determine whether or not to enter the game. The so-called information refers to information such as a media code indicating the type of the non-contact recording medium, and an ID code indicating that the contactless token 30 is photographed. The CPU 10 of the automaton 100 uses the determination unit 10a to identify the non-contact recording medium as a non-contact token and use it as a normal multiplication by the identification information code, and determines that this is a medium to be recovered. In addition, the CPU 100 is the profit determination unit 10a, and judges whether the identification information read by the giant antenna control unit 21 is read by the second day manufacturing unit 22 from the ID code of the identification information as described later. Of identifying information is consistent. 30d is the antenna with the automatic ticket cutting list antenna 1 1, 12 or with the automatic ticket cutting machine antenna 10 104 antenna. 30 e is the antenna control unit, which controls this antenna 30 d to send or receive information to the ticket machines 100, 101. In addition, the front CPU 30b may be omitted. Figures 5 to 7 are explanatory diagrams of the operation of the automatic ticket cutting machine 100 in which a non-contact token is put into the automatic ticket cutting machine 100. In the following, using the 5th and 20th days, the ROM records the ticket-cutting identification amount, and the ticket-cutting identification is used to cut the ticket. The media ticket is used to judge the 1st line control I 100. Communication 30: 6 Figure 19- 200422978 to explain the automatic The operation sequence of the ticket cutting machine 100 will be described with reference to FIG. 7. Initially, when a user played in the X direction through the passage R (picture 1), if the non-contact recording medium he held was a non-contact token 30, the user would input the non-contact token 30 into the self-ticket machine. The input port 3 of 100 is close to the automatic ticket cutting machine 1000. At this time, the doors 4a to 4d of the automatic ticket cutters 100 and 101 shown in Fig. 1 are opened. Then, the user brings the non-contact token 30 close to the input port 3. The non-contact token 30 is shown in Fig. 5 (a). After entering the detection range of the first antenna 1 1 a, the first antenna 1 1 The system started to communicate with the antenna 3 0 of the contactless generation 30. Based on this interactive communication, the first antenna control 21 reads the ticket-cutting information and identification information recorded in the memory 30c of the contactless token 30 (seventh Figure T1). In addition, the read information is stored in the random access memory 14. The first antenna control unit 21 reads the ticket-cutting information and identification information of the non-contact token 30, and the CPU 10 uses the identification information read by the first line control unit 21 according to the first line control unit 21. To determine whether to recycle the non-contact recording media. Here, after the non-contact recording medium is identified as non-token by the identification information, it is judged to be recovered. Then, based on the ticket-cutting information read by the first antenna control unit, it is determined whether or not the user can be present. Then, when it is judged that the amount of information is normal and can be played, the first gate 3 1 is opened (Figure 7 T 2). Accordingly, the first gate detection sensor 41 is changed from the 0 F F state to the ON state, and the non-contact token 30 is shown in FIG. 5 (b), and the input 3 is put into the recovery path 7. In addition, when the CPU 10 determines that it is possible to play, the 1 antenna control unit 2 1 sends information about the play (for example, the contactless token Baidi sports all, the 11 coins are funded by Zi Tian Ji 2 1 and the gold is P No. 30 -20- 200422978 was exhausted as a normal ticket, etc.) The body of the non-contact token 30 was written 3 0 c 〇 On the one hand, the decision on whether or not to enter the game is judged to be forbidden due to insufficient amount of money As shown in Figure 5 (C), the CPU 1 0 series is maintained in a closed state. Therefore, even if the non-contact token 30 is input into the port 3, the non-contact token 3 0 becomes the self-input port 3 It is slightly exposed and prevented from being put into the recovery path 7. In addition, the CPU 100 closes the door 4a of the ticket machine 100a and the door 4c of the automatic ticket cutter 1001 (seventh T2 1). As a result, the user is banned from passing and becomes unable to pass in the direction of playing in the X direction. After a while, the closed door 4ί was opened again in order to prepare for the next user using C P U 1 0 (Figure T22). As shown in Figure 5 (b), after the non-contact token 30 is put into recycling, this non-contact token 30 passes through the gate according to its own weight, so the first pass detection sensor 5 1 series During the detection of the non-contact token 30, the OFF state is changed to the ON state (T3 in FIG. 7). In addition, the non-coin 30 is entered into the detection range 1 2a of the second antenna 12, and the second antenna starts to communicate with the antenna 3 0 d of the non-contact token 30. Based on this, the second antenna control unit 22 2 Read the identification information recorded in the non-contact token memory 30c (T4 in FIG. 7). In addition, the read information is stored in the random access memory 14. Then, as shown in FIG. 6 (c, when the non-contact token 30 has completely passed the first gate 3, the first over-detection sensor 51 is returned to the state without detecting the non-contact token 30 (the seventh (T 5 in the figure), after receiving the first f-memory through detection, etc., the first one puts into the semi-moving cut road R ι, 4 c, the first U to 7 3 1, and then touches the 12-series interworking. 30 to 1) Figure 1 Switching of the signal of the 51--21-200422978 of the OFF device, c PU 1 0 closes the first gate 3 (τ 6 in Figure 7). Accordingly, the first gate detection sensor 41 returns to the 0 F F state from the 0 N state. In addition, the non-contact token 30 passing through the first gate 31 is stopped at the second gate 32 and stopped, and is prevented from entering the recovery box 6. After the second antenna control unit 22 reads the identification information of the non-contact token 3 0, the CPU 10 uses the determination unit 10a to determine whether the identification information read by the second antenna control unit 22 is the same as the first antenna. The identification information read by the control section 21 is consistent. Here, the same non-contact token 30 that is the same as the non-contact token 30 that reads the identification information by the first antenna control unit 21 will be judged to be the same if it is put into the recovery path 7, and the second Gate 3 2 (T7 in Figure 7). Accordingly, the second gate detection sensor 42 is changed from the OFF state to the ON state. Also, as shown in Fig. 6 (e), the non-contact token 30 is passed through the second gate 32 by its own weight, and the second pass detection sensor 5 2 is used to detect the non-contact token 30 and its status is 0FF. Turns on (T8 in Figure 7). Then, after the non-contact token 30 has completely passed the second gate 32, the second pass detection sensor 5 2 series becomes non-detection of the non-contact token 30 and returns to the OFF state (T9 in FIG. 7). Secondly, by switching the signal from the detection sensor 52, the CPU 10 closes the second gate 3 2 (T1 0 in FIG. 7). Accordingly, the second gate detection sensor 42 returns from the ON state to the OFF state. After closing the second gate 32, the CPU 10 keeps all the gates 4a to 4d of the automatic ticket gate 100 and 101 in advance (T101 in FIG. 7). As a result, the user is permitted to pass, and can enter the X direction through the passage R. Thereafter, the non-contact token 30 is recovered to the collection box 6 as 30z shown by the dotted line in FIG. 6 (e). Then, -22- 200422978 the recovered non-contact token 30 was passed through the station and the information recorded in the memory ^ 3 0 c was rewritten, and then it was loaded into the automatic ticket machine and reused.

On the one hand, the non-contact tokens or fake contactless tokens other than the non-contact tokens 30 that read the identification information by the i-th antenna control unit 21 are put into the recovery path 7, and when the second antenna control is determined, When the identification information read by the unit 22 does not match the identification information read by the first antenna control unit 21, the CPU 1 0 does not open the second gate 3 2 and opens the third gate 3 3 (T in FIG. 7 7 1). Accordingly, other non-contact tokens and the like are shown in Fig. 6 (f) 'and pass through the third gate 33 according to their own weight to enter the return path 9 as shown by the dotted line 3 Oy is returned to the return port 8. In addition, other non-contact tokens and the like pass through the third gate 33, which is not detected by a sensor (not shown). When the sensor receives a detection signal, the CPU 10 closes the third gate 33 ( (T72 in Fig. 7). As soon as the third gate 33 is opened, the CPU 10 closes the door 4a of the automatic ticket cutting machine 100 and the door 4c of the automatic ticket cutting machine 100 (T71 i in FIG. 7). As a result, the user is prohibited from passing and cannot enter the stadium in the X direction in the past. After a while, the closed doors 4a and 4c are opened again by the CPU 10 for the next user (T712 in Fig. 7). The operation of the automatic ticket cutting machine 100 described above is performed when the user who is going to play in the X direction through the passage R holds the non-contact token 30. Relatively, the operation of a case where a user who is going to play in the χ direction holds a non-contact card 20 will be described below. Initially, in order for the contactless card 20 to shield the i-th antenna i 丨 of the automatic ticket cutting machine 100, the user walked close to the automatic ticket cutting machine i 〇 〇. -23- 200422978 At this time, all the doors 4 a to 4 d of the automatic ticket cutting machines 100, 101 are opened. Then the user masks the non-contact card 20, and when the non-contact card 20 enters the detection range 11a of the first antenna 11, the first antenna 11 series starts to communicate with the antenna 20d of the non-contact card 20. In this interactive communication, the j-th antenna control unit 21 reads the ticket-cutting information and the identification information recorded in the memory 20c of the non-contact card 20. After the first antenna control unit 21 reads the ticket-cutting information and identification information of the non-contact card 20, the CPU 10 uses the determination unit i0a to determine whether to recycle based on the identification information read by the first antenna control unit 21. Contactless recording media. Here, when the non-contact I recorded medium is identified as a non-contact card by the identification information, it is judged that it will not be collected. Then, based on the ticket-cutting information read by the first antenna control unit 21, it is determined whether or not the user can appear. Then, when the boarding zone is normal and it is determined to be available, the first gate 3 i is kept closed in advance, and all the gates 4a to 4d of the automatic ticket gates 100 and 101 are kept open in advance. As a result, the user is allowed to pass and can enter the field in the X direction through the passage r. In addition, when the CPU 10 determines that it is possible to play, the first! The antenna control unit 21 writes the information about the appearance (for example, when the contactless card 20 is used as a promissory note ′ is the time% information on the appearance day) into the memory 20 c of the contactless card 2 0. On the other hand, when the boarding zone is not normal and it is determined that it is not possible to enter the stadium, the first gate 31 is kept closed, and the door 4a of the automatic ticket gate 100 and the door 4c of the automatic ticket gate 101 are closed. As a result, the user is prohibited from passing and cannot enter the field in the X direction through the passage R. Next, in Fig. 1, the operation when the user enters the Y direction through the passage R will be described below. Initially, the user used a contactless -24- 200422978 card 20 or contactless token 30 to shield the entrance antenna 104 of the automatic ticket gate 101 and approached the automatic ticket gate 101. At this time, the automatic ticket cutting machine 100,

The doors 1a to 4d of 1 〇 are all opened. Then, the user shields the contactless card 20 or the contactless token 30. When these enter the detection range of the antenna 104, the antenna 104 starts to connect with the antenna 20 of the contactless card 20d. Or the non-contact token 3 0 antenna 3 0 d interactive communication, according to this interactive communication, the internal circuit (not shown) set in the automatic ticket cutting machine 1 0 1 reads the non-contact card 2 0 or the non-contact token 3 0 ticket information. Next, based on the read ticket-cutting information, it is determined whether the user can enter the venue. When it is determined that admission is possible, all the doors 4 a to 4 d of the automatic ticket-cutting machines 100 and 101 are kept open in advance. As a result, the user is permitted to pass and becomes accessible in the Y direction through the passage R. In addition, when it is determined that admission is possible, information about admission (such as the time of admission) is written into the memory 20c of the non-contact card 20 or the memory 3 Oc of the non-contact token 30. On the other hand, when it is determined that entry is not allowed, the door 4b of the automatic ticket cutting machine 100 and the door 4d of the automatic ticket cutting machine 101 are closed. As a result, the user is prohibited from entering and cannot enter the market in the Y direction through the passage R. Figures 8 and 9 show the operation flow of the automatic ticket cutting machine 100, and show the sequence executed by C P U 100. In Fig. 8, initially, the C P U 1 0 series opened the doors 4a to 4d (Fig. 1) of the automatic ticket machines 100 and 101 and waited for the machine. In this state, when the non-contact card 20 is used by the user to cover the first antenna 11 or the non-contact token 30 is approached to the input port 3, the first antenna 1 i is performed by the antenna of the non-contact recording medium. Interactive communication. Based on this, the CPU 10 determines that there is interactive communication with the first antenna (step S1: YES), -25- 200422978

According to the first antenna control section 21, the ticket-cutting information and identification information of the non-contact recording medium are read (step S2). Next, the determination section 10a determines whether or not the non-contact recording medium is recovered based on the identification information read by the first antenna control section 21 (step S3). Here, if the non-contact recording medium that communicates with the first antenna 11 is a non-contact card 20, the non-contact recording medium is identified by the identification information as a non-contact card, and it is judged that it will not be recovered (step S3: ΝΟ) . Then, based on the ticket-cutting information read by the first antenna control section 21, it is determined whether or not it is possible to play (step S4a). Here, when the ticket-cutting information of the contactless card 20 is normal and judged to be available (step S4a: YES), all the gates 4 a to 4 d of the automatic ticket-cutting machines 1 00 and 101 are kept open, and the use is permitted. Pass by. Then, in order to accept the next non-contact recording medium, the system returns to step S 1 '. The first antenna 11 1 waits for interactive communication with the next non-contact recording medium. On the one hand, when the ticket-cutting information of the non-contact card 20 is normal and it is determined that it is not possible to go out (step S4a: NO), the door 4a of the automatic ticket-cutting machine 100 and the door 4c of the automatic ticket-cutting machine 1 0 1 are closed (step S 5 ), Users are prohibited from passing. Next, in order to accept the next non-contact recording medium, the system returns to step S 1 '. The first antenna 11 1 waits for interactive communication with the next non-contact recording medium. When returning to step S1, the closed doors 4a and 4c are opened in advance (in the following processing, the closed doors 4a and 4c are similarly opened before returning to step S1). In step S3, if the non-contact recording medium that is in interactive communication with the first antenna 1 丨 is the non-contact token 30, the non-contact recording medium is identified by the identification information as the non-contact token, and it is determined to be recovered (step S 3 ·· YES). Next, -26- 200422978 determines whether or not he can enter the field based on the ticket-cutting information read by the first antenna control unit 21 (step S 4b). Here, when the ticket-cutting information of the non-contact token 30 is normal and judged to be unavailable (step S 4b: Ν Ο), the door 4a of the automatic ticket-cutting machine 10a and the automatic ticket-cutting machine 1101 are closed. The gate 4c (step S5) prohibits the user from passing. Next, in order to accept the next non-contact recording medium, the system returns to step S1. The first antenna 1 1 is waiting for interactive communication with the next non-contact recording medium. On the other hand, if the ticket-cutting information of the non-contact token 30 is normal and it is determined that the ticket can be played (step S4b: YES), it is confirmed whether the second gate detection sensor 42 is OFF (step S6). Next, when it is confirmed that the second gate detection sensor 42 is OFF (step S6: YES), it is determined that the second gate 32 is being closed and the first gate 3 丨 is opened (step S7). Accordingly, the non-contact token 30 is put into the recovery path 7 through the input port 3. After the first gate 31 is opened, it is determined whether the first pass detection sensor 51 has changed from the 0 N state to the 0 F F state (step S 8). At this time, after the non-contact token 30 is put into the recovery path 7 through the input port 3, the non-contact token 30 passes through the first gate 31 according to its own weight, and after that, the first pass detection sensor · 5 The 1 system will then return to the 0FF state after changing from the 0FF state to the ON state. In this case, it is determined that the ON state has been changed to the ONF state (step S 8: YES), and the system is closed! The gate 31 (step S9). On the one hand, in step S8, when the non-contact token 3 0 has not been put into the recovery path 7 from the input port 3, the first detection sensor 5 1 system maintains a 0FF state, so it is judged in this case that the The 〇N state becomes the FF state (step S8: NO). 'The reference is used to measure the time after the gate 3! Opened -27- 200422978

The interval timer lob determines whether a predetermined time has elapsed after the first gate 31 was opened (step S 1 0). If the predetermined time has not elapsed (step s 1 0: NO), it is determined again whether the first pass detection sensor 51 has changed from the ο N state to the OFF state (step S8). Then, 'the first pass detection sensor 51 has not changed from the ON state to the < 0FF state (step S8: NO), and after a predetermined time has passed (step S10: YES), the non-contact token 30 is determined It is put in and the 1st gate 3 1 is closed (step S 1 1). The door 4a of the automatic ticket cutter 100 and the door 4c of the automatic ticket cutter 101 are closed (step S12), and the user is prohibited from passing through. After that, in order to accept the next non-contact recording medium, the system returns to step S1. On the first day, the line 11 is waiting for a message to interact with the next non-contact recording medium. When the contactless token 30 passes through the first gate 31 and the first gate 31 is closed (step S 9), it is determined whether there is an interactive communication between the second antenna 12 and the contactless token 30 (see FIG. 9). Step S 1 3). Here, after a foreign object other than the non-contact token is put into the recovery path 7, the second antenna 12 cannot communicate with the foreign object interactively. Therefore, in this case, it is determined that the second antenna is not communicating with the second antenna (step S 1 3: Ν) 〇), and the third gate 3 3 is opened (step S 1 6), and the foreign matter is returned to the return port 8 via the return path 9. Then, the door 4a of the automatic ticket cutting machine 100 and the door 4c of the automatic ticket cutting machine 101 are closed (step S17). The user is prohibited from passing. After that, in order to accept the next non-contact recording medium, it returns to step S1 in FIG. 8 and the first antenna 11 is waiting for interactive communication with the next non-contact recording medium. In step S 1 3, when the non-contact token 30 is put into the recovery path 7, and the second antenna 12 and the antenna 3 0d of the non-contact token 3 are performing interactive communication, -28- 200422978 determines that it is the same as the second one. The antenna has interactive communication (step S 1 3: YES). The identification information of the non-contact token 30 is read by the second antenna control unit 22 (step S 1 4). Then, using the determination section 10a, it is determined whether the identification information read by the second antenna control section 22 is consistent with the identification information read by the first antenna control section 21 (step S 1 5). Here, in step S2, the first antenna control unit 21 reads non-contact tokens other than the non-contact tokens 30, or fake contactless tokens, etc., after the identification information is input into the recovery path 7. Since the identification information read by the second antenna control unit 22 and the identification information read by the first antenna control unit 21 are not consistent, in this case, it is determined that they are not consistent (step S 1 5: NO). Next, the third gate 3 3 is opened (step S 1 6), and other non-contact tokens and the like are returned to the refund port 8 via the refund path 9, and the gate 4 a of the automatic ticket cutter 100 and the automatic ticket cutter 101 The door 4c is closed (step S17), and the user is prohibited from passing. After that, in order to accept the next non-contact recording medium, it returns to step S1 in FIG. 8 and the first antenna 11 waits for interactive communication with the next non-contact recording medium. On the one hand, in step S 1 5, after the contactless token 30 which is the same as the contactless token 3 0 read by the first antenna control unit 21 in step S 2 is put into the recovery path 7, The identification information read by the second antenna control unit 22 is the same as the identification information read by the first antenna control unit 21, so in this case, it is determined that the identification information is the same (step s 丨 5: YES) . Then, it is confirmed whether or not the first gate detection sensor 4i is in the 0FF state (step S18). After it is confirmed that the first gate detection sensor 41 is in the 0FF state (step S18: YES), it is determined whether the first gate 3i is 1 To close -29-200422978, the second gate 3 2 is opened (step S 1 9). Accordingly, the non-contact token 30 is passed through the second gate 32.

After the second gate 32 is opened, it is determined whether the second pass detection sensor 5 2 has changed from the ON state to the OFF state (step S 2 0). At this time, when the non-contact token 30 passes through the second gate 32 according to its own weight, the second passing detection sensor 5 2 will then return to the OFF state after the 0FF state becomes the ON state, so in this case It is determined that the ON state has become the 0FF state (step S 1 0: YES), and the second gate 3 2 is closed (step S 2 1). After that, all the gates 4 a to 4 d of the automatic ticket-cutting machines 100 and 10 are kept open to allow the user to pass, and in order to accept the next non-contact recording medium, return to step S 1 in FIG. 8, The first antenna 1 1 is waiting for interactive communication with the next contactless recording medium. The non-contact token 30 passing through the second gate 32 is recovered to the recovery box 6 through the recovery path 7.

On the other hand, in step S20, when the non-contact token 30 fails to pass the second gate 32 according to its own weight, the second pass detection sensor 52 maintains the OFF state. Therefore, in this case, it is determined that the ON state has not changed to 0. In the FF state (step S20: NO), and referring to the timer 1 Ob that measures the time after the second gate 32 is opened, it is determined whether a predetermined time has elapsed after the second gate 32 is opened (step S2 2). At this time, if the predetermined time has not elapsed (step S22: NO), it is determined again whether the second pass detection sensor 52 has changed from the ON state to the OFF state (Step S20). Then, the second pass detection sensor 52 is maintained from the ON state to the OFF state (step S20: NO), and after a predetermined time has passed (step S22: YES), it is determined that a non-contact token has occurred in the recovery path 7 30 is blocked, etc., -30-200422978 closes the second gate 32 to handle the abnormality (step s 2 3), and opens the third gate 33 (step S24). Then, the door 4a of the automatic ticket cutting machine 100 and the door 4c of the automatic ticket cutting machine 101 are closed (step S25), and the user is prohibited from passing. After that, if the third gate 3 3 is opened, if the non-contact token 30 can be returned to the return port 8, the process returns to step S1 in FIG. 8 to accept the next non-contact recording medium, and the first antenna 1 1 is waiting. Interact with the next contactless recording medium. On the one hand, if the non-contact token 30 cannot be returned to the refund port 8, the communication unit 13 is used to notify a computer located above the station office to notify the occurrence of an abnormality in the recovery path 7. Then, the station service department confirmed this notification 'After processing the abnormality in the recovery path 7, it returns to step S1 in FIG. 8 to accept the next non-contact recording medium, and the first antenna η is waiting to interact with the next non-contact recording medium. Communication. According to the above sequence, before putting into the recovery path 7, it is determined that the non-contact tokens to be recovered and recorded with the same identification information as the non-contact tokens 30 determined to be playable, that is, only in the When the non-contact token 30 which is the same as the non-contact token 30 before the investment is put into the recovery path 7 through the input port 3, the second gate 32 is opened and the non-contact token 30 can be recovered to the recovery box 6, At the same time, permitting is allowed for users. Therefore, even if the contactless tokens other than the contactless tokens that are judged to be recovered and available for play are not in contact with the counterfeit contactless tokens or counterfeit contactless tokens, they are not recycled. , And does not allow users to pass, so it can prevent the improper behavior of the ticket-cutting machine through the invalid contactless token investment. Also, the “second antenna control unit 22” only reads the identification information, and performs a judgment based on the identification information-31-200422978, and reads all the information of the non-contact token 30 to determine whether or not In the same case, after contacting the token 30 and putting it into the recovery path 7, the time spent on reading and the time spent on judgment can be reduced, and the overall processing until the ultimatum is approved or prohibited time. When it is determined that the identification information read by the second antenna control unit 22 does not match the identification information read by the first antenna control unit 21, the second gate 32 is not opened and the third gate 33 is opened. When the information is inconsistent and invalid contactless tokens are thrown into the recovery path 7 from the input port 3, the invalid contactless tokens can be returned _ and the next contactless recording medium can be directly accepted. After confirming that one of the gates 3 1 and 3 2 is closed with the gate detection sensors 4 1 and 42, the other gates 3 1 and 3 2 are opened, and reading by the second antenna control unit 22 is not performed. The determination of whether the identification information is consistent with the identification information read by the first antenna control section 21 can prevent the non-contact token 30 from entering the recycling box 6. In addition, by detecting the sensors 5 1 and 5 2 to confirm that the non-contact token 30 has passed through each of the gates 3 1 and 3 2 and then each of the gates 3 1 and 3 2 is closed to prevent the identification information from being In a consistent judgment, the next non-contact token 30 enters the recovery path 7 so that the judgment cannot be performed normally. In addition, after the first gate 31 is opened, if the non-contact token 3 is not detected by the first passing detection sensor 51 in the predetermined period of time, the first gate 31 is passed, and the first gate 31 is closed. Gate 31 1. After the information of the non-contact token 3 0 is read by the first antenna control unit 21, the non-contact token 3 0 has not been placed in the recovery path 7 of the entrance-32-200422978 entrance 3, which can be directly Accept the next contactless recording medium.

In addition, after the second gate 32 is opened, if the predetermined time has passed, if the non-contact token 3 is not detected according to the second pass detection sensor 5 2, the second gate 32 has passed, and the second gate 3 is closed. 2. In the case where the non-contact token 30 is blocked in the recovery path 7 or the like, the second gate 32 blocks the recovery path 7, so that the abnormality in the recovery path 7 can be correctly dealt with. In addition, by opening the third gate 33, the non-contact token 30, which is abnormal, can be returned to the refund port 8 and the next non-contact recording medium can be directly received. Furthermore, by setting the detection range 11a of the first antenna 11 to detect the non-contact recording medium to include the input port 3, it is possible to directly input the input port without covering the first antenna 11 with the non-contact token 30. 3. The first antenna 1 1 performs communication with the contactless token 30. Because the first antenna control unit 2 1 reads the information of the contactless token 30, the processing of the contactless token 30 becomes simpler. Convenience of exploitable users. The example given in the above embodiment is a case in which it is determined whether the contactless token 30 can be played before the contactless token 30 is put into the recovery path 7. However, the present invention is not limited to this, and the contactless After the token 30 is put into the recovery path 7, a determination is made as to whether or not it can be played. Figures 10 and 11 show the operation flow of the automatic ticket cutting machine 100 in this case. In the figure, the same steps as those in Figures 8 and 9 are given the same reference numerals. In FIG. 10, cpu 10 is after the first antenna 11 performs interactive communication with the antenna of the non-contact recording medium. 'It is determined that there is a parent interworking with the first antenna (step S 1 · YES)' its non-contact recording The identification information of the media is read by the first antenna control unit 21 -33- 200422978 (step S 2 a). Next, the determination unit 10a is used to determine whether to collect the non-contact recording medium based on the identification information read by the first antenna control unit 21 (step S3a). Here, if the non-contact recording medium that is in interactive communication with the first antenna 11 is the non-contact card 20, the non-contact recording medium is identified by the identification information as the non-contact card, and it is determined that it will not be recycled (step S3a: ΝΟ) . When it is determined in this way, the ticket-cutting information of the non-contact card 20 is read by the first antenna control section 21 (step S 3 b), and based on the read ticket-cutting information, it is determined whether or not it is possible to play (step S3c). Here, when the ticket-cutting information of the non-contact card 20 is abnormal and it is determined that it is impossible to enter the venue (step S3c: NO), the door 4a of the automatic ticket-cutting machine 100 and the door 4c of the automatic ticket-cutting machine 1 〇1 (step S 3 d), users are prohibited from passing. Then, in order to accept the next non-contact recording medium, the process returns to step S1, and the first antenna 11 is waiting for interactive communication with the next non-contact recording medium. On the one hand, in step S3c, when the ticket-cutting information of the non-contact card 20 is normal and it is determined that the ticket can be played (step S3c: YES), all the gates 4a to 4d of the automatic ticket-cutting machines 100 and 101 are kept open and permitted to be used Pass by. In order to accept the next non-contact recording medium, the receiver returns to step S 1, and the φ first antenna 11 1 waits for interactive communication with the next non-contact recording medium. In step S 3 a, if and the first! The contactless recording medium for the interactive communication of the antenna 11 is the contactless token 30, and the identification information identifies the contactless recording medium as the contactless token 30 and judges to recover it (step S3a: YES). After this judgment, 'the second gate detection sensor 4 2 system confirms whether it is 0FF state (step S 6)' After confirming that it is 0 FF state (step S 6: YES), open the first gate 31 (step S7 ). Accordingly, the non-contact token 30 was invested in the recovery path 7 from -34- 200422978. Thereafter, the processes from step S 8 to step S 1 3 are performed in the same manner as described in FIGS. 8 and 9. In step S 1 3 of FIG. 11, when the second antenna 12 performs the interactive communication with the antenna 30 0 d of the non-contact token 30, it is determined that there is interactive communication with the second antenna (step S13: YES). The ticket-cutting information and identification information of the contact token 30 are read by the second antenna control section 22 (step S 1 4 a). Then, based on the ticket-cutting information read by the second antenna control unit 22, it is determined whether or not it is possible to play (step S 1 4b). Here, when the ticket-cutting information of the non-contact token 30 is abnormal and it is determined that it cannot be played (step S 1 4b: NO), the third gate 3 3 is opened (step S 1 6), and the non-contact token 30 is passed The refund path 9 is returned to the refund port 8, the door 4a of the automatic ticket cutter 100 and the door 4c of the automatic ticket cutter 101 are closed (step S 1 7), and the user is prohibited from passing. After that, in order to accept the next non-contact recording medium, it returns to step S1 in FIG. 10, and the first antenna 11 is waiting for communication with the next non-contact recording medium. On the one hand, in step S 1 4b, when the ticket-cutting information of the non-contact token 30 is normal and it is determined that the ticket can be played (step S 14b: YES), it is determined whether the identification information read by the second antenna control section 22 is It is consistent with the identification information read by the first antenna control unit 21 (step S 1 5). In addition, the determination of the consistency of the identification information (step S 1 5) may be performed before the determination of whether or not to play (step S 1 4b). Here, when it is determined that the identification information is inconsistent (step S 1 5: NO), the third gate 3 3 is opened (step S 16), and the non-contact tokens and the like that have been invested are returned to the refund port 8, and the automatic ticket cutter 100 is closed. The door 4a and the door 4c of the automatic ticket cutter 101 (step S 1 7) are prohibited from passing by the user. -35- 200422978

At step S 1 5 ', it is determined that the identification information is consistent (step s5 to YES), and it is confirmed whether the first gate detection sensor 4 is in a 0FF state (step s8), and when the first alarm detection is sensed When the device 41 is confirmed to be in the OFF state (step S! 8: YES) 'Open the second gate 3 2 (step S 1 9). Accordingly, the non-contact token 30 is recovered to the collection box 6 through the second gate 32. Thereafter, the processes from step s 2 0 to step s 2 1 are performed in the same manner as the procedure described in FIG. 9. Then, after step S21 is performed, all the doors 4a to 4d of the automatic ticket cutting machines 100 and 101 are opened, and the user is allowed to pass. In addition, the processes of steps S22 to S25 are also performed in the same order as described in FIG. 9 when the non-contact token 3 determined to be recovered is injected into the recovery path 7 through the input port 3 and only If it is determined to be available, the second gate 32 can be opened and the non-contact token 30 can be recovered to the collection box 6, and at the same time it can be allowed to pass for the user to pass. Therefore, even if invalid non-contact tokens are put in the recovery path 7, they will not be recovered, and users will not be allowed to pass through it. In addition, by reading only the identification information with the first antenna control unit 21, the time required for reading can be shortened before the non-contact token 30 is put into the recovery path 7. Furthermore, the determination of whether the information is consistent based on the identification information alone can shorten the overall processing time until the permission or prohibition of communication is compared with the case where all the information of the non-contact token 30 is consistent. In addition, after the non-contact token 30 is put into the recovery path 7, the second antenna control unit 22 reads the ticket-cutting information, and can read the ticket-cutting information stably in the recovery path 7. In the above embodiment, the information of the non-contact token 3 0 read by the second antenna control-36- 200422978 manufacturing unit 22 according to the identification information and the non-contact read by the first antenna control unit 21 are executed. It is determined whether the information of the token 30 is consistent (step S 1 5), but the present invention is not limited to this. In addition, the ticket-cutting information of the non-contact token 30, or all the information recorded in the non-contact token 30, is read to the first antenna control unit 21 and simultaneously to the second antenna control unit 2 2. Judgment is possible based on whether the information read by the two is consistent. That is, before and after the investment in the recycling path 7 is read, the information of the non-contact token is read. If the non-contact token of the information read before the investment and the information read after the investment can be determined, It is sufficient to contact whether the tokens are the same. Also, in the above embodiment, the non-contact token 30 is used as an example of the case where the ordinary travel ticket is used only once as a travel media, but the present invention is not limited to this. Alternatively, the non-contact token 30 may be used as a ride-on medium that is used repeatedly, such as a multiple ticket. In this case, the determination of whether to recover the non-contact token 30 (step S 3 in FIG. 8 or step S 3 a in FIG. 10) is performed based on the identification information and the ticket-cutting information. For example, when the non-contact token 30 is used as a reciprocal ticket, when the number of valid times included in the ticket-cutting information is other than 0, it is determined that the non-contact token 30 is not recovered, and when the number of valid times becomes zero, It is also ok to collect 30 contactless tokens. In the above embodiment, the first reading section and the second reading section in the present invention are configured by the antennas 11 and 12 and the antenna control sections 2 1 and 2 2 having a reading and writing function. Examples are shown, but the present invention is not limited to this. With the configuration of the first reading unit and the second reading unit, it can also be executed with a non-contact recording medium using communication methods such as wireless communication of radio waves, optical communication, electromagnetic coupling, and electromagnetic induction-37-200422978. Contactless communication consists of reading information from a contactless recording medium. Moreover, in the above-mentioned embodiment, the examples are that the doors 4a and 4b of the automatic ticket cutting machine 1000 and the doors 4c and 4d of the automatic ticket cutting machine 101 are normally opened and the user is permitted to pass, but the present invention is not limited to Restricted to this, the doors 4a to 4d may be normally closed to prohibit users from passing through. In this case, the gates 4b and 4d which are positioned rearward with respect to the exit direction X are, for example, by providing a sensor for detecting the approach of the user, and setting the user to bring the non-contact recording medium close to the first antenna 1 It can be turned on before 1. In addition, the gates 4a and 4c located in the front with respect to the playing direction X are in the order shown in Figs. 8 and 9, and it is determined that step S4a in Fig. 8 is available (step S4a: YES), It is also possible to close and open the second gate 32 in step S21 in FIG. 9. In the order shown in FIGS. 10 and 11, after it is determined that the player can be played in step S3c in FIG. 10 (step S3 c: YES), the second gate 32 may be closed and then opened after step S 2 1 in FIG. 11. Moreover, in the above-mentioned embodiment, the example is applied to the automatic ticket-cutting machine of the present invention which is provided with a door-type automatic ticket-cutting machine having an opening and closing door for permitting or prohibiting a user from passing, but the present invention is not limited to this. By. In addition, for example, a revolving automatic ticket cutter equipped with a revolving door that is rotatable when traffic is permitted and locked without turning when the traffic is prohibited can also be applied. Furthermore, the example given in the above embodiment is a case where the non-contact token 30 is collected at the exit of the station, but the present invention is not limited to only such a user. For example, in the case of a single fee for the entire section, -38- 200422978 can be considered when the non-contact token 30 is recovered and admission is allowed at the entrance of the station, so it can also be used in this case. Be applicable. In addition, in this case, it is not based on the ticket-cutting information of the non-contact token 30 to determine whether to enter the market but to determine whether to enter the market. [Effects of the Invention] According to the present invention, even if the recycling path is put into use, the non-contact recording medium other than the non-contact recording medium that is judged to be recycled before being put into the recycling path and is determined to be accessible is not recycled. At the same time, it will not allow the passage and let the user pass through, so it is possible to prevent the improper behavior of passing the ticket-cutting machine by inputting invalid non-contact recording media. [Brief Description of the Drawings] [Figure 1] An exemplary plan view showing an automatic ticket cutting machine of the present invention. * [Figure 2] A side view of the same automatic ticket cutter when viewed in the Z direction in Figure 1. < [Fig. 3] A sectional view showing a recovery path and a diameter near the input port of the same automatic ticket cutting machine. ^ [Figure 4] A block diagram showing the electrical configuration of the same automatic ticket cutter and non-contact recording medium. [Fig. 5] The operation state diagram of the same automatic ticket cutter. Lu [Figure 6] illustrates the operation state diagram of the same automatic ticket cutting machine. [Figure 7] The operation timing chart of the same automatic ticket cutter. [Figure 8] shows the operation flow of the same automatic ticket cutting machine. [Figure 9] shows the operation flow of the same automatic ticket cutting machine. [No. 0] shows the flow of other embodiments. [Figure 11] shows the flow of another embodiment. [Symbol description] -39- 200422978 3 ... input port 4 a ~ 4 d ... door 6 ... recovery box 7 ... recovery path 8 ... return port 9 ... return path 10 ... CPU l0a ... judgment unit 1 Ob ... timer 1 1 ... 1st antenna 1 1 a ... detection range 12 ... 2nd antenna 2 0 ... contactless card 21 ... 1st antenna control unit 22 ... 2nd antenna control unit 30 ... contactless token 3 1 ... the first alarm gate 32 ... the second gate 3 3 ... the third gate 41 ... the first gate detection sensor 42 ... the second gate detection sensor 5 1 ... the first pass detection sensor 52 ... the second Pass the detection sensor 100 ..... Automatic ticket cutter-40

Claims (1)

200422978 Scope of patent application: 1 · An automatic ticket cutting machine is a non-contact method that reads information recorded on a non-contact recording medium in a non-contact manner to perform a process of granting or prohibiting traffic, and at the same time recycling the non-contact recording medium. Type automatic ticket cutting machine, which has an input port for inputting non-contact recording media; a recovery box for recovering non-contact recording media input through the input port; a recovery path leading from the input port to the recovery box The first gate 'restricts the non-contact recording medium from being put into the recovery path from the input port; the second gate restricts the non-contact recording medium being put into the recovery path from being collected in the recovery box; the first reading section, Reading the information of the non-contact recording medium before being put into the recycling path in a non-contact manner; the second reading section reading the information of the non-contact recording medium being put into the recycling path in a non-contact manner; and controlling According to the reading result of the first reading unit, when it is determined that the non-contact recording medium is to be recycled and it is determined that the non-contact recording medium can be accessed, it is opened A first shutter, and determines whether or not the information by the second reading section is consistent with information read by the first reading section read, when it is determined to be consistent, i.e. the second shutter door opening and granted access. 2. If the automatic ticket cutting machine in item 1 of the scope of patent application, the information recorded on the non-contact recording medium contains ticket-cutting information that is used to determine whether to enter or leave the venue, and identification information used to individually identify the non-contact recording medium. The first reading unit reads the ticket-cutting information and the 200422978 identification information of the non-contact recording medium, the second reading unit reads the identification information of the non-contact recording medium, and the control unit reads according to the i-th The identification information read by the Ministry will perform the determination of whether to retrieve the non-contact recording medium, and the determination of whether it can enter or exit is based on the ticket-cutting information read by the first reader, and the second reader The determination whether the read information is consistent with the information read by the first reading section is based on the identification information read by the second reading section and the identification read by the first reading section. Information. 3—An automatic ticket cutting machine is a non-contact automatic ticket cutting machine that reads the information recorded in the non-contact recording medium in a non-contact manner to perform the process of granting or prohibiting traffic, and at the same time recycling the non-contact recording medium. It is characterized by having: an input port for inputting the non-contact recording medium; a recovery box for recovering the non-contact recording medium input from the input port; a recovery path from the input port to the recovery box; a first gate, restriction The non-contact recording medium is put into the recycling path from the input port; the second gate restricts the non-contact recording medium put into the recycling path from being collected in the recycling box; the first reading section reads in a non-contact manner Fetch the information of the non-contact recording medium before being put into the recycling path; the second reading part reads the information of the non-contact recording medium put into the recycling path in a non-contact manner; and the control part, based on the first When reading the reading result of the reading section, when it is determined that the non-contact recording medium is to be recycled and it is determined to be accessible, the first gate is opened and the second reading is determined Whether the information read by the Ministry is consistent with the information read by the first reading -42-200422978. When it is judged that they are consistent, the second gate is opened and the traffic is permitted. A contact method to read information of a non-contact recording medium before being put into the recovery path; a second reading section 'reading information of a non-contact recording medium put into the recovery path in a non-contact way; and a control section' According to the reading result of the first reading section, when it is determined that the non-contact recording medium is to be recycled and it is determined to be accessible, the first gate is opened, and according to the reading result of the second reading section, it is determined that it is possible Enter the field and judge the information read by the second reading section and the first! When the information read by the reading section is consistent, the second gate is opened and traffic is permitted. 4 · If the automatic ticket-cutting machine in item 3 of the scope of patent application, the information recorded on the non-contact recording medium contains the ticket-cutting information useful for determining whether to enter or leave the venue, and the identification information used to individually identify the non-contact recording medium, The first reading unit reads the identification information of the non-contact recording medium, the second reading unit reads the ticket-cutting information and the identification information of the non-contact recording medium, and the control unit reads according to the first reading The identification information read by the Ministry will perform the determination of whether to recycle the non-contact recording medium, and the determination of whether or not to enter the field will be performed based on the ticket-cutting information read by the second reading department, which will be executed by the second reading department. The determination of whether the read information is consistent with the information read by the first reading section is based on the identification information read by the second reading section and the identification information read by the first reading section. carried out. 5. If there is an automatic ticket cutting machine in any one of the scope of claims 1 to 4 of the scope of patent application, which includes a refund opening for returning the non-contact recording medium, the gate of the 1st-43-200422978 and the 2nd Between the gates, the return path divided by the recovery path to the return port, and the third gate are used to restrict the non-contact recording medium that is restricted to be recovered by the second gate to the recovery box from entering the return path. The control unit, when it is determined that the information read by the second reading unit is consistent with the information read by the first reading unit, does not open the second gate but opens the third gate and prohibits traffic. 6. The automatic ticket cutting machine according to any one of the items 1 to 4 of the scope of patent application, wherein the first reading unit has the first contactless communication with a non-contact recording medium that has not been put into the recovery path. 1 antenna, and the detection range of the first antenna for detecting the non-contact recording medium is set to include the input port. 7 · If there is an automatic ticket cutting machine in any one of the items 1 to 4 of the scope of patent application, which is provided with a first gate detection sensor for detecting the opening and closing of the first gate, and for detecting the second A second gate detection sensor for opening and closing the gate, a first pass detection sensor for detecting the non-contact recording medium passing through the first gate, and a second pass for detecting the non-contact recording medium passing through the second gate. Detection sensor, φ The control unit, before opening the first gate, confirms whether the second gate detection sensor detects that the second gate is closed, and when it is confirmed that it is detected as closed, the first gate is opened Gate, when the first pass detection sensor is used to detect the non-contact recording medium passing through the first gate, the first gate is closed, and before the second gate is opened, it is confirmed whether the first gate detection sensor detects The first gate is closed. When it is confirmed that the first gate is closed, the second gate is opened, and when the non-contact recording medium is detected to pass the second gate by the second pass detection sensor, the second gate is closed. Gate. -44-200422978 8. If the automatic ticket-cutting machine of item 7 of the scope of patent application, wherein the control unit is after the first gate is opened, if the non-contact recording medium has not passed the first pass test within a predetermined period of time. The sensor detects that the first gate has passed, and closes the first gate. • 45-