JP5117676B2 - Ticket with 2D barcode and its automatic ticket gate - Google Patents

Description

  The present invention relates to a ticket such as a boarding ticket, a boarding ticket, and an admission ticket provided with a two-dimensional barcode, and an automatic ticket gate using the ticket.

  Conventionally, automatic ticket gates installed at airports, stations, event venues, etc. have been provided with a ticket insertion slot, and a ticket has been inserted by inserting a ticket through this insertion slot. The IC card is used as a ticket, and the customer reads the data recorded in the ticket only by holding it over the antenna of the ticket reading unit provided on the surface of the automatic ticket gate while moving with the automatic ticket gate, Automatic ticket gates have been proposed to perform automatic ticket gates (see, for example, Patent Document 1).

Also, as an admission ticket for the event venue, a ticket with a two-dimensional barcode printed on both the front and back sides has also been proposed. This ticket is not used for an automatic ticket gate, but this two-dimensional barcode is printed on the ticket collection stub, and the clerk collects the stub when the customer enters. By reading the dimensional bar code with a reader, attribute information such as sales period, ticket type, and visitor classification is acquired and aggregated (for example, see Patent Document 2).
JP-A-5-20516 JP 2002-279460 A

  By the way, when the ticket used for the automatic ticket checker is a sheet-like ticket printed with a two-dimensional barcode as described in Patent Document 2, the automatic ticket checker reads a barcode that reads the two-dimensional barcode. A reading device may be provided, and the barcode reader may read the two-dimensional barcode by placing or pressing a portion of the barcode reader on which the two-dimensional barcode is printed.

  However, when using a ticket related to the automatic ticket gate, the customer passes the portion of the ticket printed with the two-dimensional barcode on the ticket reader surface of the barcode reader while moving through the automatic ticket gate. Since the ticket is to be applied, the ticket rotates on the ticket reader surface, and the barcode reader may fail to read the two-dimensional barcode.

  This will be described with reference to FIG. 14. The automatic ticket gate 100 is composed of apparatus main bodies 100a and 100b arranged with a passage 103 in between, and these apparatus main bodies 100a and 100b form gates. A solid line AA indicates the position of the entrance of the gate (hereinafter, this straight line is referred to as the entrance line AA), and the customer 101 passes through the gate from the top to the bottom of the drawing. The apparatus main body 100a on the right side with respect to the traveling direction of the gate is provided with a ticket reader surface of a bar code reading apparatus at a predetermined position on the entrance line AA, although not shown. By applying the ticket 102 to the ticket reader surface, a two-dimensional barcode (not shown) of the ticket 102 is read. Here, it is assumed that a flap 104 is provided on the exit side of the gate. The gate is opened when a ticket that can pass through the gate is read, and the gate is closed at other times.

  14 (a), (b), (c), and (d) show a situation in which the customer 101 moves to make a ticket with the automatic ticket checker 100, and FIG. The state of being in front of the line AA, FIG. 7B shows the state immediately before the entrance AA, and FIG. 9C shows the state immediately after entering the gate from the entrance line AA. FIG. 4D shows the state where the inside of the gate is advanced from the entrance line AA.

  In the state shown in FIG. 14A, when the ticket 102 held by the customer 101 in the right hand is applied to the ticket reader surface on the apparatus main body 100a, the right arm is extended forward and the ticket 102 is applied to the apparatus main body. It will be applied in a direction substantially parallel to the longitudinal direction of 100a, and thus substantially perpendicular to the inlet line A-A. If the customer 101 advances and the customer 101 hits the ticket 102 against the ticket reader surface on the apparatus main body 100a in the state shown in FIG. 14B, the direction in which the right arm is extended changes, so the ticket 102 moves to the entrance line AA. It is applied to the ticket reader surface in an inclined direction. If the customer further advances and the customer 101 hits the ticket 102 against the ticket reader surface on the apparatus main body 100a in the state shown in FIG. 14C, the direction in which the right arm is extended changes, and the ticket 102 moves to the entrance line AA. It is applied to the ticket reader surface in a substantially parallel orientation. If the customer further advances and the customer 101 hits the ticket 102 against the ticket reader surface on the apparatus main body 100a in the state shown in FIG. 14 (d), the direction in which the right arm extends is changed to the rear, and the ticket 102 enters the entrance line A−. It is applied to the ticket reader surface in an oblique direction to A.

  Therefore, if the customer keeps the ticket 102 on the ticket reader surface while proceeding from the state shown in FIG. 14A to the state shown in FIG. 14D, the ticket 102 is located at the position of the ticket reader surface. In this case, it will rotate in the clockwise direction. Actually, the ticket 102 is not applied to the ticket reader side for such a long time, but it is still applied for a certain period of time, and the customer 102 moves during that period. Will rotate. The two-dimensional barcode is composed of a pattern in which barcodes representing information are two-dimensionally arranged, and the ticket reader reads the two-dimensional barcode. Reading errors are likely to occur with respect to rotation. Therefore, an automatic ticket gate that reads ticket data by radio waves as described in Patent Document 1 cannot be applied to a ticket printed with a two-dimensional barcode.

  The object of the present invention is to solve such a problem, and even if the customer moves and hits the ticket against the ticket reader surface, the two-dimensional barcode printed on the ticket can be reliably read, and the reading may be lost. It is an object of the present invention to provide a ticket having a two-dimensional bar code and an automatic ticket gate for the ticket which can be prevented.

The automatic ticket gate according to the present invention is an automatic ticket gate provided with a ticket reader unit for reading a two-dimensional barcode printed on a ticket printing surface on a part of the upper surface of the device body. A ticket reader surface of the ticket reader unit for reading the two-dimensional barcode printed on the print surface of the ticket is disposed, and the print surface is held over a part of the ticket reader surface In this case, a guide for regulating the posture of the ticket is provided, and a slope portion is formed such that a part of the upper surface portion including the ticket reader surface is lower than the upper surface portion other than a part of the upper surface portion. and, section recess on the inclined surface portion is formed, said ticket reader surface is disposed on the bottom surface of the recess, the side wall of the recess portion is configured as the guide, provided in the recess The ticket reader surface, is characterized in that it is inclined along the inclined surface of the inclined surface portion.

In the automatic ticket gate according to the present invention, the ticket reader surface is provided on a bottom surface of a hollow portion formed at a corner portion of a side surface portion and a front surface portion of the apparatus main body. .

  According to the ticket according to the present invention, it is easy to confirm the two-dimensional barcode for reading with the automatic ticket checker on the printed surface, and the trouble of the customer when reading the two-dimensional barcode with the automatic ticket checker is reduced. In addition, it can be read reliably.

  Further, according to the automatic ticket gate according to the present invention, even when the ticket gate is moved while the customer is moving, the ticket reading unit does not move the ticket for a sufficient time for reading the two-dimensional barcode of the ticket. It can be held in a stopped state that does not occur, and the two-dimensional barcode of the ticket can be reliably read without obstructing the movement of the customer.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Hereinafter, an automatic ticket gate (boarding gate) installed in an airport will be described as an example.

  FIG. 1 is a block diagram showing an example of a system for boarding an airport aircraft, wherein 10 is a reservation system, 11 is a reservation terminal, 12 is an automatic ticketing machine, 13 is reservation data, 14 is a reservation system host, 15 is a staff terminal, 20 is a router, 30 is a boarding system, 31 is an automatic check-in machine, 32 is a boarding gate (automatic ticket gate), 33 is check-in data, 34 is a boarding system host, and 35 is boarding data.

  In the figure, the airport system for the boarding procedure of the customer has a configuration in which a reservation system 10 installed in an agent or the like and a boarding system 30 installed in the airport are connected via a router 20 by a line. I am doing.

  In the reservation system 10, the reservation terminal 11 accepts a boarding reservation from a customer. The reservation procedure by the reservation terminal 11 can be performed directly at the agency, or by telephone or Web. The reservation accepted by the reservation terminal 11 is stored as reservation data 13 by the reservation system host 14. After the reservation, when the customer operates the automatic ticket issuing machine 12 to request the ticketing of the air ticket, the reservation system 14 collates the data input from the automatic ticket issuing machine 12 with the reservation data 13, and the reservation data 13 is Tickets are issued to existing customers. It should be noted that the clerk operates the clerk terminal 15 to issue an air ticket by the same processing by the reservation system host 14.

  When the customer who has received the air ticket boarded the desired aircraft, he / she performs a predetermined procedure for the boarding system installed at the airport and obtains the air boarding pass. That is, in the boarding system 30, the customer performs a predetermined ticket issuing procedure using the acquired air ticket at the automatic check-in machine 31. Thereby, the automatic check-in machine 31 compares the check-in data 33 such as the reservation data of the reservation system 10 and the data of the customer who has performed the check-in procedure with the data from the automatic check-in machine 31 to make a reservation for boarding. However, if the check-in procedure has not been completed, an air boarding pass is issued to this customer. At the same time, the boarding system host 34 creates and stores check-in data 33 indicating that the check-in procedure has been completed for this customer, and also sends it to the boarding gate 32 and holds it immediately. . The customer who has obtained the air boarding pass goes to the boarding gate 32 in order to board the aircraft. At this time, the boarding gate 32 reads the air boarding pass data and the check-in data held there. 33. If it is determined by this verification that the boarding pass is valid, the customer can pass through the boarding gate (if the passage is prohibited, an alarm is issued. Further, FIG. At the same time, the boarding system host 34 stores data relating to the customer's air boarding pass that has passed through the boarding gate 32 as boarding data 35. By operating the clerk terminal 36 by the clerk, the boarding system host 34 can issue the air boarding pass through the same processing. Also in this case, the check-in data 33 is created and stored, and is sent to the boarding gate 32.

  Note that the airline boarding pass once used at the boarding gate 32 is rejected as used by collation with the boarding data 35.

  In the present invention, a two-dimensional barcode representing desired data is printed on a ticket issued by an automatic check-in machine (airline boarding pass), and the boarding gate 32 displays the two-dimensional barcode. Read.

  The air ticket issued by the automatic ticket issuing machine 12 is also printed with a two-dimensional barcode representing the desired data, and the automatic check-in machine 31 may read the two-dimensional barcode from the air ticket. Good.

  2 is a diagram showing an outline of the system configuration of the automatic check-in machine 31 in FIG. 1, in which 31a is a CPU (Central Processing Unit), 31b is a memory, 31c is a card reader, 31d is a communication unit, and 31e is a display unit. , 31f is a touch panel, and 31g is a printer.

  In this figure, in this automatic check-in machine 31, a CPU 31a controls the operation of each part using a program stored in a memory 31b. Further, the automatic check-in machine 31 is connected to the reservation system host 14 and the boarding system host 34 shown in FIG. The display unit 31e is provided with a touch panel 31f, and the screen of the display unit 31f forms an operation unit. When the customer performs a check-in procedure with the automatic chain machine 31, the customer operates the screen of the display unit 31f and reads the air ticket data with the card reader 31c. Such data is checked by the CPU 31a with the reservation data 13 (FIG. 1) fetched from the communication unit 31d. When the flight ticket data matches the reservation data, the printer 31g is driven to print the boarding pass, and the ticket is issued. Is done.

  3 is a diagram showing an outline of the system configuration of the boarding gate 32 in FIG. 1, wherein 32a is a control unit, 32b is a 2DBC (two-dimensional barcode) reader as boarding medium related equipment, and 32c is a user I / F. , 32d is a display (display unit) as a user I / F, 32e is a communication unit as a host I / F related device, and 32f is a flap as a stationary device (corresponding to the flap 104 in FIG. 14). The flap drive unit 32g is a human detection sensor in a stationary device.

  In this figure, in this boarding gate 32, the control part 32a controls operation | movement of each part. Further, the boarding gate 32 is connected to the reservation system host 14 and the boarding system host 34 shown in FIG. 1 by the communication unit 32e. The 2DBC reader 32b reads the two-dimensional barcode printed on the ticket issued by the automatic check-in machine 31, and the read two-dimensional barcode is taken from the communication unit 32e by the control unit 32a. The customer is able to pass through the boarding gate 32 if the ticket is valid and matched with the reservation data 13 (FIG. 1) and the check-in data 33 (FIG. 1). If these data do not match, the speaker 32c and the display 32d are operated to generate an alarm. Further, when the flap 104 (FIG. 14) is provided at the boarding gate 32, it is not a legitimate ticket as described above, and if the alarm is issued from the speaker 32c or the display 32d, or the customer does not check the ticket. When entering the passage of the boarding gate, the human detection sensor 32g detects this, and based on the detection result, the control unit 32a operates the flap drive unit 32f to close the flap 104.

  FIG. 4 is a diagram showing an embodiment of a ticket according to the present invention (here, an aircraft boarding pass) printed and issued by a printer 31g (FIG. 2) of an automatic check-in machine 31 (FIG. 1). 40a to 40c are tickets, 41 is ticket information, 41a is a ticket name (ticket name), and 42 is a two-dimensional barcode. The tickets 40a and 40b shown in FIGS. 4A and 4B are embodiments of the ticket according to the present invention, and the ticket 40c shown in FIG. 4C is shown for comparison with these tickets 40a and 40b. Is.

  A ticket 40a shown in FIG. 4A is a horizontally long ticket when the ticket information 41 printed thereon is normally read, and a ticket name 41a such as “aircraft boarding ticket” on the left side of the ticket 40a. Is printed, and a two-dimensional barcode 42 representing the ticket information 41 is printed at the center thereof.

  The ticket 40b shown in FIG. 4B is a vertically long ticket when the ticket information 41 printed thereon is normally read, and a ticket name 41b such as “aircraft boarding ticket” on the left side of the ticket 40b. Is printed, and a two-dimensional barcode 42 representing the ticket information 41 is printed on the right side of the ticket name 41a.

  A ticket 40c shown in FIG. 4C is a horizontally long ticket when the ticket information 41 printed on the ticket 40 is normally read, and a ticket name 41a such as “aircraft boarding ticket” on the left side of the ticket 40c. Is printed, and a two-dimensional barcode 42 representing the ticket information 41 is printed in the lower right corner.

  Hereinafter, the surface on which the ticket information 41 and the two-dimensional barcode 42 of the tickets 40a to 40c are printed is referred to as a printing surface.

  FIG. 5 is a diagram showing a main part of the first embodiment of the automatic ticket gate according to the present invention as the boarding gate 32 in FIG. 1, and shows a portion corresponding to the apparatus main body 100a of the automatic ticket gate 100 in FIG. FIG. 5A is a perspective view, FIG. 5B is a side view, and FIG. 5C is a view showing a ticket reading state. 40 is a ticket (generic name for tickets 40a and 40b shown in FIG. 4), 50 is an apparatus main body, 51 is an upper surface portion, 51a is a flat surface portion, 51b is a slope portion, 52 is a passage side surface portion, 53 is a front surface portion, Reference numeral 54 denotes a back surface portion, 55 denotes a recess portion, 56 denotes a guide, 57 denotes a ticket leader surface, and 58 denotes a passage.

  5 (a) and 5 (b), an arrow B indicates the traveling direction of the customer in the passage 58 corresponding to the passage 103 in FIG. 14, and the apparatus main body 50 has the passage-side side portion 52 as the passage. It faces 58 and is installed along this arrow B. The upper surface 51 of the apparatus main body 50 is a slope portion in which the front side (that is, the front surface 53 side of the apparatus main body 50) is inclined toward the front side with respect to the surface of the passage 58 when viewed from the traveling direction of the passage 58 (arrow B). The other part forms a flat part 51 a parallel to the surface of the passage 58.

  A recess 55 is formed in the front left corner of the slope 51b (that is, the corner on the side where the front side 53 and the passage side surface 52 are in contact), and is parallel to the slope 51b of the recess 55. A ticket reader surface 57 is provided on the bottom surface inclined in the direction. The recess 55 has a side on the front side 53 side and a side on the side of the passage side 52 on the left hand as viewed from the front side 53 in the direction of arrow B from the front side 53 side of the apparatus main body 50. These sides are on the same plane as the bottom surface of the recessed portion 55. Further, a side parallel to the side opposite to the passage side surface portion 52 of the recess 55 and a side parallel to this on the back surface 54 side form a step portion of the recess 55, and these step portions are recessed. The guide 56 is a guide 56 that restricts the posture of the ticket 40 that is inserted into the section 55 and has the printing surface directed to the ticket reader surface 57 and prevents movement such as rotation.

  When the two-dimensional barcode 42 printed on the tickets 40a and 40b (that is, the ticket 40) shown in FIG. 4A or FIG. 4B is read in the first embodiment having such a configuration. For example, as shown in FIG. 14 (a), when the customer 101 is moving in the direction of arrow B toward the entrance of the passage 58 of the apparatus main body 50, the customer 101 holds it in the right hand as shown in FIG. 5 (c). The printed ticket 40 is turned upside down (that is, the printed surface of the ticket 40 is faced down) and inserted into the recess 55, and the printed surface is brought close to or in contact with the ticket reader surface 57, so The dimension barcode 42 is read.

  In the following, in order to read the two-dimensional barcode 42 in this way, bringing the print surface of the ticket 40 close to or in contact with the ticket reader surface 57 is referred to as “holding over the ticket reader surface 57”.

  Thus, even when the two-dimensional barcode 42 of the ticket 40 is being read, the customer is moving in the direction of the arrow B in the path 58, whereby the ticket 40 in the recess 55 is transferred to the ticket reader surface 57. As shown in FIG. 5C, the side of the ticket 40 hits the guide 56 of the recess 55, and this prevents movement of the ticket 40 such as rotation. . The customer pulls out the ticket 40 from the depression 55 along with the movement, but the ticket 40 is sufficient to read the two-dimensional barcode 42 of the ticket 40 until that time (this is a short time). During the period, movement such as rotation is blocked by the guide 56 and stopped, so that the two-dimensional barcode 42 printed on the ticket 40 is read in a stable state. As described above, the ticket 40 can be held in a stopped state in which the ticket 40 does not rotate or move for a time sufficient for the ticket reader unit to read the two-dimensional barcode from the ticket 40. Therefore, the two-dimensional barcode 42 of the ticket 40 can be reliably read without obstructing the movement of the customer.

  Further, since the bottom surface of the hollow portion 55 is inclined as described above, and the ticket reader surface 57 provided on the bottom surface is also inclined accordingly, the customer can also access the passage 58 of the apparatus main body 50. When the ticket 40 is inserted into the hollow portion 55 from the front side before entering, and the printed surface is held over the ticket reader surface 57, the bottom surface of the hollow portion 55 or the ticket reader surface 57 is the same plane as the flat portion 51a of the upper surface portion 51. Compared to the case of forming the upper plane, there is no difficulty in extending the right arm, and the print surface of the ticket 40 can be held over the ticket reader surface 57 in an easy posture.

  6 is a diagram showing a schematic configuration of a specific example of the ticket reader unit (corresponding to the ticket reader unit 32C in FIG. 3) in the apparatus main body 50 in FIG. 5, in which 55a is a bottom surface of the recess 55 in FIG. 59 is a CCD (Charge Coupled Device) camera, 60a and 60b are light sources, 61 is a transparent plate, and 62 is an opening, and parts corresponding to those in FIG.

  In the figure, an opening 62 is provided in a part of the bottom surface 55a of the recess 55 (FIG. 5), and a transparent plate 61 is attached to the opening 62 so as to close the opening 62 to form a window. The surface of the transparent plate 61 forms a ticket reader surface 57 shown in FIG. The transparent plate 61 is illuminated by light sources 60a and 60b provided inside the apparatus main body 50, and the CCD camera 59 disposed facing the transparent plate 61 inside the apparatus main body 50 is always a transparent plate. The 61 side is imaged.

  Therefore, when the printed surface of the ticket 40 is placed over the bottom surface 55a of the recess 55 including the surface of the transparent plate 61, the two-dimensional barcode 42 (FIG. 4) on the printed surface is read by the CCD camera 59.

  FIG. 7 is a diagram showing a main part of a second embodiment of the automatic ticket gate according to the present invention as the boarding gate 32 in FIG. 1, and shows a portion corresponding to the apparatus main body 100a of the automatic ticket gate 100 in FIG. FIG. 7A is a perspective view, FIG. 7B is a side view, and FIG. 7C is a view showing a ticket reading state. The parts corresponding to those in FIG.

  7 (a) and 7 (b), the apparatus main body 50 is installed so that the passage-side side surface portion 52 faces the passage 58 and is along the arrow B, as shown in FIG. This is the same as the embodiment. The upper surface portion 51 of the apparatus main body 50 forms a surface parallel to the surface of the passage 58 as a whole. A recess 55 is formed at the front left corner of the upper surface 51 (that is, the corner formed by the passage side surface 52 and the front surface 53), and a bottom surface 55a parallel to the upper surface 51 of the recess 55 is formed. 6 is provided with a ticket reader surface 57 of the ticket reader shown in FIG. The depression 55 has a step 56 formed by two adjacent sides, and forms a guide 56 that restricts the posture of the ticket 40 applied to the ticket reader surface 57 and prevents movement such as rotation thereof. The remaining two sides, that is, the side along the passage-side side surface portion 52 and the side along the front surface portion 53 are open, that is, are flush with the bottom surface 55a of the recess 55.

  Here, one guide 56 is inclined toward the back surface 54 side at a predetermined angle (for example, 45 °) with respect to the side of the recess 55 on the side surface 52 side, and the other guide 56 is inclined. Is inclined by 90 ° toward the front surface 53 with respect to the one guide 56. That is, the dent portion 55 is formed such that the dent portion 55 in the first embodiment shown in FIG. 5 is rotated approximately 45 ° counterclockwise via an axis perpendicular thereto. The ticket reader surface 57 is arranged so that the sides thereof are parallel to the guide 56.

  In the second embodiment having such a configuration, when reading the two-dimensional barcode 42 with the tickets 40a and 40b (that is, the ticket 40) shown in FIG. 4A or FIG. 4B, for example, As shown in FIG. 14B, when the customer 101 almost reaches the entrance of the passage 58 of the apparatus body 50, as shown in FIG. 7C, the ticket 40 held in the right hand is turned over, that is, By inserting the printed surface into the depression 55 with the printed surface facing down and applying the printed surface to the ticket reader surface 57, the two-dimensional barcode 42 on the printed surface is read.

  Thus, even when the two-dimensional barcode 42 of the ticket 40 is being read, the customer is moving toward the passage 58, whereby the ticket 40 in the recess 55 is perpendicular to the ticket reader surface 57. Although it tries to move such as rotating around the axis, as shown in FIG. 7C, the side of the ticket 40 hits the guide 56 of the recessed portion 55, thereby preventing the movement of the ticket 40 such as rotation. Is done. The customer pulls out the ticket 40 from the depression 55 along with the movement, but the ticket 40 is stopped by the guide 56 from being stopped by the guide 56, although it is a short period of time. The two-dimensional barcode 42 printed on the ticket 40 is read in a stable state. In this way, the ticket 40 can be held in a stopped state without movement such as rotation for a time sufficient for the ticket reader to read the two-dimensional barcode from the ticket 40. Therefore, as in the first embodiment, the two-dimensional barcode 42 of the ticket 40 can be reliably read without hindering the movement of the customer.

  When the customer passes near the entrance to the passage 58 of the apparatus main body 50, the right hand of the customer 101 is inclined with respect to the longitudinal direction (arrow B direction) of the passage, as is apparent from FIG. And growing. However, since one of the guides 56 in the apparatus main body 50 is substantially parallel to the inclination of the right arm, the customer puts the ticket 40 held in the right hand into the hollow portion 55 in the same direction and puts it on the ticket reader surface 57. It is possible to apply it, and it is possible to apply the ticket 40 to the ticket reader surface 57 with an easy posture without stretching the right arm.

  FIG. 8 is a diagram showing a main part of a third embodiment of the automatic ticket gate according to the present invention as the boarding gate 32 in FIG. 1, and shows a portion corresponding to the apparatus main body 100a of the automatic ticket gate 100 in FIG. 8A is a perspective view, FIG. 8B is a side view, and FIG. 8C is a view showing a ticket reading state. The parts corresponding to those in FIG.

  8 (a) and 8 (b), the fact that the apparatus main body 50 is installed so that the passage side surface portion 52 is along the traveling direction of the customer (arrow B) in the passage 58 is shown in FIG. This is the same as the first embodiment. The upper surface portion 51 of the apparatus main body 50 forms a surface parallel to the surface of the passage 58 as a whole. A depression 55 is formed along the side of the upper surface portion 51 on the side of the passage side 52, and as the passage 58 moves in the traveling direction indicated by the arrow B, that is, deeper toward the back portion 54, A bottom surface 55 a of the recess portion 55 is inclined from the upper surface portion 51. A ticket reader surface 57 of the ticket reader shown in FIG. 6 is provided on the bottom surface 55a. In the hollow portion 55, a side parallel to the side on the back surface portion 54 side and a side parallel to the side opposite to the passage-side side surface portion 53 connected to the side form a stepped portion, and these are the ticket reader surface 57. A guide 56 that restricts the posture of the ticket 40 applied to the surface and prevents its movement such as rotation is formed, the side on the side of the passage side 53 is opened, and is flush with the bottom surface 55 a of the recess 55. is there. A ticket reader surface 57 is provided along these guides 56.

  In the case of reading the two-dimensional barcode 42 with the tickets 40a and 40b (that is, the ticket 40) shown in FIG. 4A or 4B in the third embodiment having such a configuration, for example, As shown in FIG. 14 (c), when the customer 101 enters the passage 58 of the apparatus main body 50 from the entrance, as shown in FIG. 8 (c), the ticket 40 held in the right hand is turned over, that is, By inserting the printed surface into the depression 55 with the printed surface facing down and applying the printed surface to the ticket reader surface 57, the two-dimensional barcode 42 on the printed surface is read.

  Thus, even when the two-dimensional barcode 42 of the ticket 40 is being read, the customer is moving toward the passage 58, whereby the ticket 40 in the recess 55 is perpendicular to the ticket reader surface 57. Although it tries to move such as rotating around the axis, as shown in FIG. 7C, the side of the ticket 40 hits the guide 56 of the recessed portion 55, thereby preventing the movement of the ticket 40 such as rotation. Is done. The customer pulls out the ticket 40 from the depression 55 along with the movement, but the ticket 40 is stopped by the guide 56 from being stopped by the guide 56, although it is a short period of time. The two-dimensional barcode 42 printed on the ticket 40 is read in a stable state. In this way, the ticket 40 can be held in a stopped state without movement such as rotation for a time sufficient for the ticket reader to read the two-dimensional barcode from the ticket 40. Similar to the previous embodiment, the two-dimensional barcode 42 of the ticket 40 can be reliably read without hindering the movement of the customer.

  Further, when the customer passes near the entrance of the passage 58 in the apparatus main body 50, as is clear from FIG. 14 (c), the right arm of the customer 101 is in the longitudinal direction of the passage (direction of arrow B). Stretched in a nearly vertical direction. However, since one of the guides 56 in the apparatus main body 50 is substantially parallel to the direction in which the right hand extends, the customer puts the ticket 40 held in the right hand into the recess 55 in the same direction, and the ticket reader surface 57 Therefore, it is possible to apply the ticket 40 to the ticket reader surface 57 in an easy posture.

  FIG. 9 is a diagram showing a main part of a fourth embodiment of the automatic ticket gate according to the present invention as the boarding gate 32 in FIG. 1, and shows a part corresponding to the apparatus main body 100a of the automatic ticket gate 100 in FIG. FIG. 9A is a perspective view, FIG. 9B is a side view, and FIG. 9C is a view showing a ticket reading state. Reference numeral 63 denotes a ticket reader part, 64 denotes a notch part, 64a denotes a bottom surface of the notch part 64, 65 denotes a projecting part, and 65a denotes a lower end surface of the projecting part 65. Therefore, duplicate explanations are omitted.

  9 (a) and 9 (b), the apparatus main body 50 is installed along the customer's traveling direction (arrow B) in the passage 58, as in the first embodiment shown in FIG. is there. The upper surface portion 51 of the apparatus main body 50 forms a surface parallel to the surface of the passage 58 as a whole, but the ticket reader portion 63 protrudes upward from the upper surface portion 51 on the front surface portion 53 side of the upper surface portion 51. Is formed. A notch portion 64 having a bottom surface 64a substantially parallel to the top surface portion 51 is provided on the front left corner portion of the ticket reader portion 63, that is, a corner portion side including the passage-side side surface 52 and the front surface portion 53. In addition, a projecting portion 65 projecting downward from the upper surface of the ticket reader portion 63 is provided so that the lower end surface 65a faces the bottom surface 64a. A ticket reader shown in FIG. 6 is provided on the protruding portion 65, and a ticket reader surface 57 is provided on the lower end surface 65a thereof.

  Between the lower end surface 65a of the protruding portion 65 and the bottom surface 64a of the notch portion 64, the ticket 40 has its printed surface upward, that is, the ticket reader surface 57 side of the lower end surface 65a of the protruding portion 65. As a result, the two-dimensional Harcode 42 of the ticket 40 is read by the ticket reader.

  Here, the notch portion 64 has its sides on the passage side surface 52 side and the front surface portion 53 side open, and these sides are on the same plane as the bottom surface 64a, but the side parallel to this on the back surface portion 54a side. And sides parallel to the opposite side of the passage side surface 52 (however, these sides do not necessarily have to be parallel to the back surface portion 54 and the passage side surface 52, and the guide 56 shown in FIG. As shown in FIG. 7, the inclined wall may be a wall of the notch 64, and the wall 66 serves as a guide 66 that restricts the posture of the ticket 40 inserted into the notch 64 and prevents movement such as rotation. ing.

  In the fourth embodiment having such a configuration, when the two-dimensional barcode 42 is read by the tickets 40a and 40b (that is, the ticket 40) shown in FIG. As shown in FIG. 14A, when the customer 101 enters the passage 58 of the apparatus main body 50 from the entrance, the bottom surface of the notch 64 with the ticket 40 held in the right hand facing upward. 64a and the lower end surface 65a of the projecting portion 65, and the printed surface is held over the ticket reader surface 57 provided on the lower end surface 65a of the projecting portion 65, whereby the two-dimensional barcode 42 on this printed surface is obtained. Read.

  Thus, even when the two-dimensional bar code 42 of the ticket 40 is being read, the customer is moving toward the passage 58, whereby the ticket 40 inserted into the notch 64 is placed on the ticket reader surface 57. A movement such as rotation about a vertical axis is attempted, but the side of the ticket 40 hits the guide 56 of the notch 64, thereby preventing movement such as rotation of the ticket 40. The two-dimensional barcode 42 of the ticket 40 can be reliably read without hindering the movement, and the same effect as in the previous embodiment can be obtained.

  In the fourth embodiment, the ticket 40 can be inserted between the bottom surface 64a of the notch portion 64 and the lower end surface 65a of the protruding portion 65 while looking at the printing surface of the ticket 40. There is also an effect that there is no need to change it.

  In the fourth embodiment, the ticket reader 63 is provided at the front corner of the apparatus main body 50. However, if the position is in the direction along the passage 58, that is, the passage side surface 52 of the notch 64 is provided. There is no particular limitation as long as the side on the side and the side on the front surface 53 side are open and the side on the passage side surface 52 is along the passage side surface 52.

  Incidentally, as the format of the print information of the ticket 40, the format shown in FIG. Of these, the most standard one is written in order from the top with the ticket information 41 written in horizontal order as in the ticket 40c shown in FIG. 4C, and in particular, the name (ticket surface) of this ticket such as “air boarding pass”. 41a is described on the upper left of the ticket 40c so that the ticket information 41 is easy to see for the customer, and a two-dimensional barcode 42 which is additional information unrelated to the ticket information 41 for the customer to confirm. Is printed in the lower right corner. Here, the ticket 40c is a horizontally long ticket, but the same applies to a vertically long ticket.

  However, when using the ticket 40c having such a format, the customer usually checks the ticket information of the ticket 40c by grasping the lower right corner of the ticket 40c, and proceeds to the automatic ticket checker to check the ticket. In this case, the two-dimensional barcode 42 printed on the ticket 40c is hidden by the fingertip that holds the ticket 40c, and the two-dimensional barcode 42 cannot be recognized. For this reason, in the case of the automatic ticket gate shown in FIG. 9, even if the ticket 40 c is inserted between the lower end surface 65 a of the protruding portion 65 and the bottom surface 64 a of the notch portion 64, the two-dimensional bar code 42 remains on the ticket reader surface 57. The customer may be confused if it is not read and cannot be read, and even when used in the automatic ticket gate shown in FIGS. If the fingertip is turned upside down, the same thing as above will occur and the two-dimensional bar code 42 will not be read. In order for this to be read, it must be turned upside down as well as upside down. Rather, it takes time to handle.

  On the other hand, as shown in FIG. 4A, the description format of the ticket information 41 is the same as that of the ticket 40c shown in FIG. 4C, but a book in which a two-dimensional barcode 42 is printed in the center. The ticket 40a according to the embodiment of the invention is in a state where the customer can always see (confirm) the two-dimensional barcode 42 no matter where the end of the ticket 40a is grasped, and the printed surface can be seen. 9 can be used in the automatic ticket gate shown in FIGS. 5, 7 and 8 as well as being turned upside down. Therefore, handling time can be reduced. The ticket 40a may be a vertically long ticket with the ticket information 41 viewed normally.

  Further, the ticket 40b shown in FIG. 4B has the same format of the ticket information 41 as the ticket 40c shown in FIG. 4C, but the ticket 40b shown in FIG. 4C has a two-dimensional barcode 42 printed in the upper left corner. The name (ticket name) 41a is printed on the right side. Normally, when the customer holds the ticket in his / her hand, he / she can read the ticket name normally and grasps the lower right corner of the ticket, and a two-dimensional barcode 42 is printed next to the ticket name 41a. In the case of the ticket 40b, when the ticket name 41a is confirmed, the two-dimensional barcode 42 adjacent thereto can be confirmed at the same time. Thus, the ticket 40b is easy for the customer to confirm the two-dimensional barcode 42.

  When the two-dimensional bar code 42 is confirmed in this way, the ticket can be used in the automatic ticket gate shown in FIG. 9 while being grasped at that time, and FIGS. When using it for the automatic ticket gate shown in Fig. 8, the customer can be aware that there is no need to perform operations such as flipping the front and back and flipping the other upside down, saving time during use. Is.

  By the way, when the ticket 40a having the two-dimensional barcode printed at the center as shown in FIG. 4A is used in the automatic ticket gate of the previous embodiment, the two-dimensional barcode is at the center. Although it is not particularly exceptional, there is a feeling that the ticket 40a must be inserted deeply into the recess 55 in which the ticket gate is inserted, which may give the customer a slightly uncomfortable feeling. Actually, the automatic ticket gate shown in FIGS. 5 and 7 to 9 was subjected to an experiment in which a plurality of people used the tickets 40a and 40b shown in FIGS. 4A and 4B (this experiment). The ticket 40b is relatively smoother in the ticket 40b, and the ticket gate error rate is lower. In particular, when the ticket gate shown in FIG. 4B was used to check the ticket using the automatic ticket gate shown in FIG. 8, a better experimental result was obtained compared to other experimental results. From this, it was found that the ticket 40b shown in FIG. 4B and the automatic ticket gate shown in FIG. 8 are compatible.

  However, the ticket 40a shown in FIG. 4 (a) can also be used for the automatic ticket gates of the above-described embodiments, and the effect of reducing the labor required for ticket gates as described above can be obtained. Next, an embodiment of an automatic ticket gate that is particularly compatible with the ticket 40a will be described.

  FIG. 10 is a diagram showing a main part of a fifth embodiment of the automatic ticket gate according to the present invention as the boarding gate 32 in FIG. 1 which is particularly compatible with such a ticket 40a, and is an apparatus of the automatic ticket gate 100 in FIG. A portion corresponding to the main body 100a is shown, in which (a) is a perspective view and (b) is a side view. Reference numeral 67 denotes a ticket reader unit, and parts corresponding to those in the previous drawings are given the same reference numerals and redundant description is omitted.

  10A, the front left side corner portion of the upper surface portion 51 of the apparatus main body 50 (that is, the corner portion formed by the passage side surface portion 52 and the front surface portion 53) protrudes from the upper surface portion 51 and is shown in FIG. A ticket reader portion 67 is provided, and an upper surface portion thereof is a ticket reader surface 57. Therefore, as shown in FIG. 10B, the ticket reader unit 67 reads the two-dimensional barcode on the printed surface of the ticket 40 by holding the printed surface of the ticket 40 over the ticket reader surface 57.

  Here, when the print surface of the ticket 40 is held over the ticket reader surface 57, one of the corners of the ticket 40 can be grasped and the print surface can be held over the ticket reader surface 57. And holding it as it is with your thumb and pressing it with the palm of your hand against the ticket reader surface 57 in some cases. In such a case, rather than pressing the corners or sides of the ticket 40, pressing the center portion provides a sense of incongruity and a sense of stability, as shown in FIG. The two-dimensional barcode 42 is printed at the center as in the ticket 40a shown in FIG. 4A, rather than the two-dimensional barcode 42 printed at the corners or sides as in the ticket 40b shown. The one that is present is more preferable.

  In the fifth embodiment, since the ticket reader portion 67 protrudes from the upper surface portion 51, when the ticket 40a is pressed against the ticket reader surface 57 of the ticket reader portion 67, the ticket reader surface 57 is touched. The two-dimensional barcode 42 printed at the center can be easily aligned with the ticket reader surface 57.

  Note that the ticket reader unit 67 does not necessarily protrude from the upper surface part 51, and the ticket reader surface 57 of the ticket reader unit is the upper surface of the apparatus main body 50 as in the automatic ticket gate shown as the sixth embodiment in FIG. 11. It may be on the same plane as the part 51.

  Further, it goes without saying that the ticket 40b shown in FIG. 4B can also be used in the embodiments shown in FIGS.

  For example, when a ticket is created by printing on a sheet by the printer 31g of the automatic check-in machine 31 shown in FIG. 2, roll paper, cut paper, or the like is used as the sheet. Since cut paper or the like is almost flat, there is no particular problem. However, when roll paper is used, there is a slight warp caused by being wound around the roll paper. In view of the manufacturing cost of the ticket, etc., it is desired to make the sheet used as the basis of the ticket thinner. However, the roll paper becomes more warped as it becomes thinner.

  When printing on such roll paper, the surface on the roll side in a state of being wound around a roll (hereinafter, this surface is referred to as the back surface, and the surface on the opposite side to the opposite roll) On the front side). Thus, in the case of a ticket created by printing on the back side of the roll paper, if such a ticket is warped, it will be warped as if it was wound on a roll, and this ticket is placed with the back side facing down. When placed on a flat surface, the back side surface on which the ticket is printed is separated from the flat surface. Therefore, when the ticket shown in FIG. 4 has the ticket information 41 and the two-dimensional barcode 42 printed on the back side, the printing surface of the ticket 40 is shown in FIG. 5 and FIG. 7 to FIG. Even if it is held over 50 ticket reader surfaces 57, the two-dimensional barcode 42 is separated from the ticket reader surface 57, and the CCD camera 59 (FIG. 6) of the ticket reader portion is in good focus. In some cases, the code cannot be read.

  The ticket 40 according to the present invention solves such a problem, which will be described with reference to FIG.

  FIG. 12A is a diagram showing a main part of the manufacturing process of the ticket 40 in the printer 31g shown in FIG. 2, wherein 70 is roll paper, 71 is roll paper roll, 72 is printing section, and 73 is for conveyance. Laura.

  In FIG. 5A, a roll paper 70 is wound around a roll paper roll 71, and the roll paper 70 is drawn out and conveyed by conveyance rollers 73a and 73. A printing unit 72 is provided between the transport rolls 73a and 73b, and the ticket information 41 and the two-dimensional barcode 42 shown in FIG. The printed roll paper 70 is cut in units of tickets by a cutter (not shown) to obtain a ticket 40 shown in FIG. This is discharged from the printer 31g and provided to the customer.

  By the way, the printing unit 72 is arranged on the front side of the roll paper 70 to be conveyed (the side opposite to the roll paper roll 71 when the roll paper 70 is wound around the roll paper roll 71). Has been. Thus, in the ticket 40, when it is warped, as shown in FIG. 12 (b), it is shown in FIG. 4 on the surface 43 on the front side of the warp (the surface protruding by the cylindrical warp). As described above, the ticket information 41 and the two-dimensional barcode 42 are printed.

  When the two-dimensional bar code 42 is read by holding the print surface of the ticket 40 over the ticket reader surface 57 of the automatic ticket gate shown in FIGS. 5, 7, 8, 10, and 11, as shown in FIG. Thus, the warp front side surface 43 is on the lower side so as to be on the ticket reader surface 57 side, but the warp front side surface 43 protrudes toward the ticket reader surface 57 side. The printed surface of the ticket 40 can be easily held over the ticket reader surface 57. For this reason, the customer can read the two-dimensional barcode 42 satisfactorily by merely placing the ticket 40 on the ticket reader surface 57 without intentionally consciously. In the automatic ticket gate shown in FIG. 9 as well, the ticket 40 is inserted between the lower end surface 65a of the projecting portion 65 and the bottom surface 64a of the notch portion 64 with the warp front side surface 43 facing upward. Thus, the printed surface of the ticket 40 is easily read well by the ticket reader surface 57 of the lower end surface 65a.

  In the above embodiment, the boarding gate at the airport is used as an example. However, the present invention is not limited to this, and it may be an automatic ticket gate for ticketing a ticket at a station or event venue. Nor.

It is a block diagram which shows an example of the system for boarding the aircraft of an airport. It is a figure which shows the outline of the system configuration | structure of the automatic check-in machine in FIG. It is a figure which shows the outline of the system configuration | structure of the boarding gate in FIG. It is a figure which shows embodiment of the ticket by this invention. It is a figure which shows the principal part of 1st Embodiment of the automatic ticket gate by this invention. It is a figure which shows schematic structure of one specific example of the ticket reader in FIG. It is a figure which shows the principal part of 2nd Embodiment of the automatic ticket gate by this invention. It is a figure which shows the principal part of 3rd Embodiment of the automatic ticket gate by this invention. It is a figure which shows the principal part of 4th Embodiment of the automatic ticket gate by this invention. It is a figure which shows the principal part of 5th Embodiment of the automatic ticket gate by this invention. It is a figure which shows the principal part of 6th Embodiment of the automatic ticket gate by this invention. FIG. 3 is a diagram illustrating a main part of a manufacturing process of a ticket from roll paper in the printer illustrated in FIG. 2. It is a figure which shows the use condition of the ticket manufactured at the manufacturing process shown in FIG. It is a figure which shows the mode of a ticket gate with an automatic ticket gate.

Explanation of symbols

40, 40a-40c Ticket 41 Ticket information 41a Ticket name (ticket name)
42 Two-dimensional bar code 43 Front side surface 50 Device body 51 Upper surface portion 51a Flat surface portion 51b Slope portion 52 Passage side surface portion 53 Front surface portion 54 Back surface portion 55 Depression portion 55a Bottom surface 56 Guide 57 Ticket reader surface 58 Passage 59 CCD camera 60a, 60b Light source 61 Transparent plate 62 Opening portion 63 Ticket reader portion 64 Notch portion 64a Bottom surface 65 Projection portion 65a Lower end surface 66 Guide 67 Ticket reader portion 70 Roll paper 71 Roll paper roll 72 Printing portion

Claims (2)

In the automatic ticket gate equipped with a ticket reader unit for reading the two-dimensional barcode printed on the printing surface of the ticket in the apparatus body,
A ticket reader surface of the ticket reader unit for reading a two-dimensional barcode printed on the printing surface of the ticket is disposed on a part of the upper surface of the apparatus main body,
A part of the ticket reader surface is provided with a guide for regulating the posture of the ticket when the printing surface is held over the ticket reader surface,
Forming a slope portion so that a part of the upper surface portion including the ticket reader surface is lower than the upper surface portion other than a part of the upper surface portion;
A depression is formed in the slope, the ticket reader surface is disposed on the bottom of the depression, and the side wall of the depression is configured as the guide.
The automatic ticket checker characterized in that the ticket reader surface provided in the hollow portion is inclined so as to follow the slope of the slope portion . In the automatic ticket gate according to claim 1,
The automatic ticket checker, wherein the ticket reader surface is provided on a bottom surface of a recess formed in a corner portion formed by a side surface portion and a front surface portion of the apparatus main body.

Images