The present invention relates to a fare box to receive coins and bills paid as fares.
Conventionally, a fare box (refer to Japanese Patent 2008-97431A) to receive fares paid by passengers is installed in the public transportation such as a bus or a streetcar. A fare box is provided with a coin acceptor, a bill acceptor, a magnetic card reader, a smart card reader to receive fares in response to various payment methods. Coins received by a coin acceptor and paper bills received by a bill acceptor are stored in a cashbox provided in the fare box.
However, the states of bills inserted into a bill acceptor are various, and, for example, a wrinkled bill may be inserted. Then, there is a risk that the wrinkled bill causes a paper jam on a bill transportation passage in a main body of the fare box. There is also a risk that a bill validator, which is embedded inside a fare box to identify the legitimacy and denomination of bills, stops acceptance of bills by being disabled by a smudge or a trouble inside thereof from properly validating bills, and experiences a jam of a bill due to a malfunction thereof.
When a fare box has stopped properly accepting bills due to jamming of a bill or a mechanical breakdown, a waiting passenger cannot use a bill to pay the fare. A fare box is usually locked in order to prevent passengers and crews from performing illicit acts, and people other than a person having the authority to manage a key for the fare box are not allowed to perform internal maintenance. Therefore, even at the occurrence of jamming of a bill in a fare box, the cover of the fare box cannot be opened to resolve the trouble, and it requires the operation of the bus to be continued in the condition where bills cannot be accepted until the bus is forwarded to a garage after the end of the operation.
Therefore, for example, a technique (refer to Japanese Patent 2002-293468A) employing a bypass passage provided as an alternative pathway inside of a bill transportation unit apart from a normal passage (a bill normal transportation passage) to send bills was devised for transporting a bill to the cashbox through the bypass passage after the occurrence of jamming of a bill in the bill normal transportation passage. Even with the occurrence of jamming of a bill or a breakdown in the bill normal transportation passage, transportation of bills to be accepted later is allowed through the bypass passage by the adoption of this technique, whereby continuously accepting bills without dissolving jamming of the bill or the breakdown is made possible.
In the technique of Japanese Patent 2002-293468A, however, a bill acceptor is shared by the bill normal transportation passage and the bypass passages although these two passages are separately provided. Therefore, when the bill validator is disabled from determining the legitimacy of bills as a result of jamming of a bill or a breakdown in the bill normal transportation passage, a passenger cannot see whether a bill can be received and may hesitate to insert a bill. Further, a passenger may try to insert a bill without knowing that acceptance of bills has been stopped. This requires an extra time for the passenger to board or exit the bus, which brings the risk that the bus may fall behind the schedule. Thus, countermeasures to receive a bill smoothly after the occurrence of jamming of a bill or a breakdown are in demand.
The present invention is intended to provide a fare box which enables a passenger to smoothly pay a fare using a bill without hesitation when a bill transportation passage is disabled due to jamming of a bill or a breakdown.
(A) In one aspect, the present invention provides a fare box comprising a main body, a bill normal receiving opening, a bill normal transportation passage, a bill backup receiving opening, a bill bypass passage, a shutter, and a bill receiving opening switch mechanism. The cashbox is retained in the main body and storing money. The bill normal receiving opening is provided on an outer face of the main body and accepting a bill. The bill normal transportation passage transports the bill accepted at the bill normal receiving opening to the cashbox. The bill backup receiving opening is on an outer face of the main body for accepting a bill. The bill bypass passage that transports the bill accepted at the bill backup receiving opening to the cashbox. The shutter that takes either of two positions selectively, the two positions being a normal position at which the shutter opens the bill normal receiving opening and a bypass position at which the shutter opens the bill backup receiving opening. The bill receiving opening switch mechanism that shifts the position of the shutter to open one of the bill receiving openings.
According to this configuration, not only the bill normal receiving opening but also the bill backup receiving opening are provided as bill receiving openings of the fare box, and either one of these bill receiving openings is selectively opened, or closed by the shutter. Therefore, at the occurrence of jamming of a bill in the bill normal transportation passage, the bill normal receiving opening is closed by the shutter, and the bill backup receiving opening is opened, so that the bill backup receiving opening is used to receive bills. Therefore, even when the bill normal transportation passage is unusable because of a problem such as jamming of a bill having occurred in the bill normal transportation passage, passengers are allowed to continue fare payment with bills. Additionally, when the bill normal transportation passage is unusable, the bill backup receiving opening is opened with the bill normal receiving opening being closed, whereby passengers can immediately notice that the bill normal transportation passage is unusable. This makes it possible to smoothly continue receiving fares paid with bills even when the bill normal transportation passage is unusable.
a) is a left side view;
a) to 5(c) are side views showing functioning of the top lid stopper mechanism.
a) is a perspective view of the electrical components viewed from below, whereas
a) to 10(e) are operational illustrations showing a procedure for setting the cashbox in a cashbox storage.
a) is a perspective view of a state where a shutter is placed at a normal position, whereas
a) is a state illustration of the coin transportation passage switch mechanism when a valve member is placed at a normal position, whereas
a) and 32(b) show states of behavior of components on the side of bill passages, wherein:
a) and 33(b) show states of behavior of components on the side of coin passages, wherein:
c), a right side view;
A fare box according to one embodiment of the present invention is described below in accordance with
<Description of the Fare Box 1>
First, the overall configuration of the fare box 1 is described. As shown in
As shown in
Further, in the upper part of the operation panel 2, the magnetic card reader 5 and the smart card reader 6 are provided in one side in the width direction X of the fare box, whereas the passenger-facing display 7 is provided in the other side. In the fare box 1, the coin return opening 9, through which alien substances, such as a false coin, put into the coin acceptor 4 are ejected, is provided in the front wall 8a of a main body 8. Note that the front wall 8a corresponds to a wall portion of the present invention.
As shown in
As shown in
As shown in
As shown in
As shown in
As shown in
When the bill validating module 14 is inserted from above into a predetermined position of the electrical component storage 13, a pair of bosses (illustration is omitted) projects on the bottom of the electrical component storage 13 is inserted into the pair of acceptors 14b, 14b. While the horizontal movement of the bill validating module 14 is thus restricted, the vertical movement of the bill validating module 14 is restricted by hooking the lock rod 13c to the shaft acceptors 14f and the catchers 14g. The bill validating module 14 is thereby positioned in the electrical component storage 13. At the same time as the bill validating module 14 is thus positioned, the main body side connector 18a and the device side connector 18e are coupled together. When the bill validating module 14 is pulled out from the electrical component storage 13, the catcher 14g is set apart from the lock rod 13c by pulling up the handle 14d and rotating the handle 14d until the handle 14d abuts on a stopper 14h. The main body side connector 18a and the device side connector 18e are separated from each other by further pulling up the handle 14d and thereby lifting the bill validating module 14.
The coin validating module 15 is also provided with a positioning mechanism as in the case of the bill validating module 14. Note that, since the positioning mechanism of the coin validating module 15 is basically the same as that of the bill validating module 14, explanation thereof is not repeated here.
As shown in
When the control module 16 is inserted from above into a predetermined position of the electrical component storage 13, the pair of recesses 16a, 16a on the lower portion thereof accepts the bosses 13d, 13d in the electrical component storage 13, and the horizontal movement of the control module 16 is thereby restricted, whereby the control module 16 is positioned inside the electrical component storage 13. At the same time as the control module 16 is thus positioned, the main body side connectors 18c and the device side connector 18g are coupled together. Then, the control module 16 is fixed by having the fasteners 16b, 16b fastened by the support metal fittings 13e, 13e of the electrical component storage 13. When the control module 16 is pulled out from the electrical component storage 13, an operation for releasing the fasteners 16b is performed, whereby the main body side connector 18c and the device side connector 18g are separated from each other while the control module 16 is pulled upward and lifted up.
The power module 17 is also provided with a positioning mechanism as in the case of the control module 16. Note that, since the positioning mechanism of the power module 17 is basically the same as that of the control module 16, explanation thereof is not repeated here.
These electrical components can be attached to and detached from the electrical component storage 13, and can be easily detached by being pulled upward. Additionally, easy attachment of the electrical components is allowed in such a manner that the thus detached electrical components are returned to the predetermined positions in the electrical component storage 13. Additionally, at the time when the electrical components are positioned in electrical component storage 13 by corresponding positioning members (illustration is omitted), the main body side connectors 18a to 18d of the respective electrical components directly face corresponding ones of the device side connectors 18e to 18h, thereby being ready to be coupled thereto. Then, mutually corresponding ones of the connectors are coupled together at the time of storing the electrical components in storage positions.
When each of the electrical components is stored in the electrical component storage 13, the coupling between the corresponding connectors is completed at the same time as the electrical component is put in the storage position as described above. This eliminates the need of coupling devices via a harness as in conventional cases, thereby making it possible to simplify the attachment work.
Additionally, it is easy to individually detach any one of the bill validating module 14, the coin validating module 15, the control module 16 and the power module 17. Therefore, at the occurrence of a trouble such as jamming of a bill or coin, it is possible to take out only the electrical component related to the trouble and perform repair or maintenance work thereon.
As shown in
As shown in
Among these plural cutout portions 159, 159 in this example, each of cutout portions 159a, 159a other than a cutout portion 159b that is the nearest to the base end is formed in a shape which is more linear by denting in a more gently sloping manner, that is, having the upper face thereof more gently sloping with respect to a horizontal plane.
As shown in
Thus, the top lid stopper mechanism 151 enables adjustment of the degree of opening of the top lid 10. Additionally, stepwise adjustment and determination of the degree of opening of the top lid 10 is enabled by the structure for determining the degree of opening by engaging the engaging pin 157 selectively with any one of the plural cutout portions 159, 159 and so on of the stay 152. Further, when being closed, the top lid 10 can be kept from being completely closed with the engaging pin 157 stopped at this cutout portion 159b because the cutout portion 159b located nearest to the base end is formed in a shape sloping in such a manner as to prevent the engaging pin 157 from sliding and passing over the cutout portion 159b.
As shown in
<Description of a Cashbox Door 19 and a Cashbox 20>
Then, the configurations of a cashbox door 19 and a cashbox 20 are described. As shown in
The main body 8 has a cashbox door locking mechanism 23 to lock the cashbox door 19. An engagement plate 24, vertically movable in a height direction Z, is attached to the opening of the cashbox storage 22. A plurality of engagement claws 24a lined up in the height direction Z are formed with spaces therebetween on the engagement plate 24. Additionally, a plurality of engagement projections 25 to be engaged with the engagement claws 24a are formed on an edge of the cashbox door 19. A motor 26 to cause upward and downward movement of the engagement plate 24 is provided above the engagement plate 24.
An infrared communication port 28 is provided on the front wall 8a. The infrared communication port 28 performs infrared communication with a probe 27 used as a key for unlocking the cashbox door 19. The infrared communication port 28 converts an infrared signal received from the probe 27 into an electrical signal, and transmits the electrical signal to a controller 135 (described below) of the control module 16. Additionally, the infrared communication port 28 converts an electrical signal received from the controller 135 into an infrared signal, and transmits the infrared signal to the probe 27. The cashbox door 19 is unlocked on the basis of ID authentication using infrared communication performed between the controller 135 and the probe 27 via the infrared communication port 28.
Between the probe 27 and the infrared communication port 28, a probe hooking mechanism 30 to hang and hook the probe 27 on the infrared communication port 28 is provided. A claw 31 projects on the front end of the probe 27. Additionally, an engagement groove 32 is formed in an upper portion of an edge of the infrared communication port 28. The engagement groove 32 can be engaged with the claw 31 when the probe 27 is in contact with the infrared communication port 28, whereby the probe 27 can be held in a state engaged with the infrared communication port 28 while being in contact therewith.
When the cashbox door 19 is closed, a door detection piece 19a is detected by a sensor (not illustrated), and a signal is sent to the controller 135. The controller 135 actuates the motor 26 on the basis of reception of this signal, and the engagement plate 24 is driven downward by the motor 26. As a result, the engagement claws 24a are caught by the engagement projections 25, whereby the cashbox door 19 is locked. Additionally, in a state where the cashbox door 19 has been locked, ID authentication using the infrared communication between the probe 27 and the infrared communication port 28 is executed when the probe 27 is set in the infrared communication port 28 with the claw 31 of the probe 27 being hung on the engagement groove 32 of the infrared communication port 28. Then, when this ID authentication successfully ends, the engagement plate 24 is driven upward by the motor 26, and the engagement claws 24a are set apart from the engagement projections 25, whereby the cashbox door 19 is unlocked.
As shown in
As shown in
A cylinder lock 40 is on the back side of the cashbox body 33. A key plate 41, which can be inserted into the cylinder lock 40 of the cashbox 20, is on an inner wall of cashbox storage 22. A pair of tabs 43, 43 (only one of which is illustrated in
Inserting the key plate 41 into the key hole (illustration is omitted) of the rotor 44 enables the cylinder lock 40 to be unlocked. At this point, the rotor 44 and the key plate 41 are at rest, and the rotor case 45 and the shaft 38 together with the handle 37 rotates about the axis of the shaft 38 when the handle 37 is turned. The cylinder lock 40 is thus locked or unlocked.
As shown in
Additionally, as shown in
As shown in
When the handle 37 is in the horizontal position, being turned counterclockwise approximately 90 degrees from the state shown in
As shown in
Therefore, the cashbox 20 is set in the fare box 1 with the cashbox lid 36 opened. The cashbox lid 36 and the handle 37 are brought down to a position in the proximity of a side face of the cashbox body 33, which secure the cashbox lid 36 and the handle 37 not to interfere with the cashbox door 19 when the cashbox door 19 is closed. Description of the removing the cash box 20 is omitted, because the procedure of detaching the cashbox 20 is just a reverse sequence of the procedure mentioned above.
As shown in
When the cashbox 20 is set in the cashbox storage 22, the body side communicator 55 transmits a radio wave Scc to the tag 54. The tag 54 operates by using the radio wave Scc as a power supply, and transmits back an ID code Sid to the body side communicator 55. The body side communicator 55 attempts authentication of the cashbox 20 on the basis of the ID code Sid. Since the authentication on the basis of the ID code Sid is similar to ID code authentication technique used conventionally, description of the details thereof is omitted. The fare box 1 is permitted to operate when the ID code Sid is authenticated as a proper ID code. Note that the tag 54 corresponds to a cashbox side communicator of the present invention, and the body side communicator 55 corresponds to a body side communicator of the present invention.
Because the cashbox 20 is authenticated using short range wireless communication, the fare box 1 can confirm whether a proper cashbox has been attached to the fare box 1. Additionally, the cashbox 20 attached to the fare box 1 is identified with the ID code Sid which is unique to each cashbox. Therefore, when the amount of money inside the cashbox 20 is counted after the cashbox 20 is removed from the fare box 1, it is possible to identify, on the basis of the ID code Sid, the fare box 1 to which the cashbox 20 has been attached, and grasp the amount of money received by the fare box 1.
Additionally, unlike conventional fare boxes, the use of short range wireless communication eliminates the need of an electrical contact between the fare box 1 and the cashbox 20, and a battery in the cashbox 20. Therefore, it requires fewer components to be repaired or replaced on a regular basis than the conventional fare boxes.
Additionally, as for a positional relation between the tag 54 and the body side communicator 55, these components are required only to be close enough to each other and are not required to precisely correspond to each other. Further, it is unlikely to have a trouble in authentication even when dirt adheres to the surfaces of the cashbox 20 and the cashbox storage 22. Therefore, it reduces failures in the authentication of the cashbox.
The tag 54 can be wirelessly written into from the body side communicator 55. The body side communicator 55 writes data into the tag 54 in accordance with a command from the controller 135 (described below) of the control module 16 of the fare box 1. The controller 135 processes monetary data contained in the cashbox 20 based on the monetary data acquired by the bill validating module 14 and the coin validating module 15. Upon detecting the unlocking of the cashbox door locking mechanism 23 by an operation of the probe 27, the controller 135 transmits to the body side communicator 55 a command for writing the amount data. The body side communicator 55 writes the monetary data into the tag 54 via wireless communication. This enables the cashbox 20 to have not only the ID information but also the monetary data.
Note that a flag is set in the tag 54 when the monetary data is written into the tag 54.
Once the cashbox 20 is removed from the fare box 1, until this flag is cleared, operation of the fare box 1 is suspended on the basis of recognition of the flag even if the cashbox 20 is attached again to the fare box 1. An illicit action on the cashbox 20, such as attaching the cashbox 20 again after illicitly taking out money from the cashbox 20, is thereby prevented. Incidentally, the flag set in the tag 54 is reset by using a radio communication unit mounted in a cash collection machine to wirelessly clear the flag, for example, when money in the cashbox 20 is collected by the cash collection machine (illustration is omitted) at the branch.
<Description of the Bill Receiving Opening Switch Mechanism 56>
Next, the configuration of the bill receiving opening switch mechanism 56 is described. As shown in
As shown in
As shown in
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As shown in
As shown in
<Description of the Bill Validating Module 14>
Next, the configuration of the bill validating module 14 is described. In the bill validating module 14, a bill validator 70 to identify a bill received from the bill normal receiving opening 3a is provided in an upper portion of a module body 14a as shown in
As shown in
The outer support framework 74 comprises a pair of transportation belts 76, 76 to draw bills into the inside in the bill normal transportation passage 73. The transportation belts 76, 76 are stretched on plural sets of transportation rollers 78, 78 lined up vertically along the support framework 74. The inner support framework 75 comprises a pair of feed rollers 79, 79, which draws bills into the depths in cooperation with the transportation rollers 78a which are located at the center of the sets of transportation rollers. The feed rollers 79, 79 are attached to the support framework 75 via a pair of support pieces 80, 80 which supports the feed rollers 79, 79 in such a manner as to allow the feed rollers 79, 79 to swing. The feed rollers 79, 79 are spaced from the bill validating sensor 72 of the bill validator 70 by a distance larger than the length of each bill. At positions in the lower part of the module body 14a that face the trans-portation belts 76, 76, two sets of transportation rollers 82, 82 are provided in such a manner as to vertically line up. Further, the transportation belts 81, 81 are provided in such a manner as to be stretched on the transportation rollers 82, 82.
The bill normal transportation passage 73 comprises plural sets of bill jamming detection sensors 83 in such a manner as to be sandwiched between the bill jamming detection sensors 83 in each of the sets, each of the sets being a pair of optical sensors to detect jamming of a bill in the bill normal transportation passage 73.
A bill bypass entrance 71b having an upward opening and receive a bill inserted into the bill backup receiving opening 3b is provided in the front upper part of the bill validating module 14. A bill bypass passage 84 through which a bill received by the bill bypass entrance 71b passes when being transported to the cashbox 20 is disposed near the front in the inside of the bill validating module 14. The bill bypass entrance 71b comprises a bill transportation unit 84a to transport to the cashbox 20 a bill inserted into the bill backup receiving opening 3b.
As shown in
As shown in
As shown in
The module body 14a comprises a motor 92 to serve as a drive source for the transportation belts 76, 81 and 88. The motor 92 is linked to each of the transportation rollers 78, 82 and 89 by a mechanical-power transmission 92a such as gears, pulleys or belts, and transmits mechanical power to each of the transportation belts. More specifically, the motor 92 is linked by a group of gears 163 and a belt 164 to a drive gear 165 joined to an axial end of the transportation rollers 78, 78. Further, the drive gear 165 is meshed with a driven gear 166 joined to an axial end of the transportation rollers 82, 82.
In this embodiment, the bill normal receiving opening 3a and the bill backup receiving opening 3b are prepared in a bill acceptor 3, and either of these openings is selectively opened by the shutter 57 of the bill receiving opening switch mechanism 56. This makes it possible to, at the occurrence of jamming of a bill in the bill normal transportation passage 73, continue receiving bills by causing the shutter 57 rotate to the bypass position from the normal position at which the shutter 57 has been located so far, and thereby bringing the bill backup receiving opening 3b, instead of the bill normal receiving opening 3a, into operation. Additionally, at this time, the bill normal receiving opening 3a is closed by the shutter 57, whereby it can be immediately understood that the bill backup receiving opening 3b must be used. Therefore, it is also made possible to smoothly continue receiving bills after the occurrence of jamming of a bill.
As shown in
In this embodiment, the structure of the bill receiving opening switch mechanism 56 can be simplified because the bill receiving opening switch mechanism 56 is manually operated.
When the shutter 57 is set at the bypass position by the bill receiving opening switch mechanism 56, the shutter 57 is locked by the locking mechanism 67. Therefore, after the bill bypass passage 84 is put into operation, it is impossible to return the shutter 57 to the normal position by operating the bill receiving opening switch lever 59. This makes it possible to reduce a risk of having a bill inserted in the bill normal transportation passage 73 at the occurrence of jamming of a bill therein.
The locking mechanism 67 of the bill receiving opening switch mechanism 56 is arranged inside the top lid 10, which makes it impossible to return the shutter 57 located at the bypass position to the normal position unless the top lid 10 is opened by unlocking the cylinder lock 12 of the top lid 10. This prevents unauthorized and illicit use of the locking mechanism 67.
The linkage mechanism 62 of the bill receiving opening switch mechanism 56 is arranged along the inner face of the sidewall 10a of the top lid 10. Therefore, a large space is left inside the top lid 10 for constituting members of the bill receiving opening switch mechanism 56.
The bill bypass entrance 71b is provided with the bill determination sensors 93, and bills are received by the bill bypass passage 84 only when these bill determination sensors 93 have determined an inserted object to be a bill. This prevents pieces of paper and magnetic cards that are narrower than bills from being taken into the bill bypass passages 84.
The bill bypass passage 84 is arranged along the front wall 8a of the main body 8, the bill bypass passage 84 is located near an inside surface of the main body 8. This enlarges the electrical component storage 13 in the main body 8. Additionally, the cashbox 20 is arranged under the bill bypass passage 84, whereby, when a bill is transported to the cashbox 20 from the bill bypass passages 84, the bill can be transported to the cashbox 20 through a simple route sending a bill downward from above. This makes it less likely to have the bill bypass passages 84 jammed with a bill.
<Description of a Coin Transportation Passage Switch Mechanism 95>
Next, the configuration of a coin transportation passage switch mechanism 95 is described. As shown in
The coin transportation passage switch lever 96 is stored in the lever case 98 having a door 97. The coin transportation passage switch lever 96 is operated by being moved along the height direction Z.
As shown in
A support shaft 101 extending in the depth direction is fixedly attached to an end of the valve member 99, and the support shaft 101 is inserted through a pair of long holes 102, 102 formed so as to penetrate the seat 100. Each of the long holes 102 is a laterally long hole. The support shaft 101 can slide in the direction X by being guided by the long holes 102.
The seat 100 comprises a fixed shaft 106 parallel to the support shaft 101. The fixed shaft 106 is inserted through a long hole 107 in the valve member 99, and the fixed shaft 106 can slide in the direction X by following the longitudinal direction of the long hole 107.
Therefore, the valve member 99 is allowed to slide in the direction X with the support shaft 101 guided by the long holes 102, 102 and the fixed shaft 106 guided by the long hole 107.
A coin guiding part 103, which forms a coin transportation passage combined with the valve member 99, is provided at a position facing the valve member 99. A gap between the valve member 99 and the coin guiding part 103 forms a normal coin entrance 104a into which coins are put at normal times. In the valve member 99, a backup coin entrance 104b is penetratingly formed as a backup to be used when the normal coin entrance 104a is unusable. The valve member 99 has a slope 105 on the top surface thereof for the purpose of making it easy for a coin thereon to slide down into the backup coin entrance 104b. A pair of biasing members 108, 108 to constantly bias the valve member 99 in such a direction that the valve member 99 is drawn near to the coin guiding part 103 is provided across the support shaft 101 and the fixed shaft 106. Each of the biasing members 108 is a coil spring.
A lever 109 to position the valve member 99 is joined to the fixed shaft 106 in such a manner as to be rotatable about the fixed shaft 106. The fixed shaft 106 is provided with a return biasing member 110 to constantly bias the lever 109 in such a direction that the lever 109 is raised (counterclockwise from the viewpoint of
As shown in
As shown in
As shown in
The module body 15a is provided with coin passage switch detection sensor 118 to detect the position of the valve member 99. The coin passage switch detection sensor 118 is a photo-coupler. The coin passage switch detection sensor 118 detects a projecting piece 99a of the valve member 99 and outputs an ON signal when the valve member 99 is at the normal position. On the other hand, when valve member 99 is placed at the bypass position, the coin passage switch detection sensor 118 does not detect the projecting piece 99a and outputs an OFF signal.
As shown in
<Description of the Coin Validating Module 15>
Next, the configuration of the coin validating module 15 is described. As shown in
The coin singulator 15b comprises a pair of rollers 121 and 122 to adjust a flow of coins. The pair of rollers 121 and 122 is composed of a fixed roller 121, the position of which is fixed, and a movable roller 122 capable of making reciprocating movement of moving away from and closer to the fixed roller 121. The rollers 121, 122 constitute a coin normal transportation passage 123 through which coins having entered in from the normal coin entrance 104a pass.
A motor 124 to function as a drive source for rotating the rollers 121 and 122, and a motor 125 to function as a drive source for moving the movable roller 122 away from and closer to the roller 121 are attached to the back side of module body 15a. The fixed roller 121 comprises: a flow-adjusting roller 126 which rotates in such a direction as to return coins that have dropped from the normal coin entrance 104a upward; and a feed roller 127 which feeds coins one by one that have passed over the flow-adjusting roller 126. The movable roller 122 also comprises the flow-adjusting roller 126 and the feed roller 127 likewise.
A coin validator 128 to identify coins that have passed through the feed rollers 127, 127 is provided under the feed rollers 127, 127. The coin validator 128 has a coin passing hole 128a at the center of the top face thereof, and validates the kinds of coins when coins pass through this coin passing hole 128a one by one. The coin validator 128 also validates whether each received coin is a true coin. Although any one of various coin validators can be used as the coin validator 128, Currenza f2 manufactured by a German company called NATIONAL REJECTORS, INC., GmbH is used in the present embodiment.
As shown in
Additionally, as shown in
At normal times, as shown in
Additionally, the coin normal transportation passage 123 of the coin validating module 15 comprises plural coin jamming detection sensors 134 to detect occurrence of jamming of a coin in the coin normal transportation passage 123. Each of the coin jamming detection sensors 134 is an optical sensor, and is attached to the fixed roller 121.
When the coin jamming detection sensors 134 have detected occurrence of jamming of coins between the rollers 121 and 122, the coin validating module 15 drives the motor 125 to move the movable roller 122 away from the fixed roller 121 as shown in
At the occurrence of jamming of coins in the coin normal transportation passage 123, it is possible to switch coin transportation passages from the coin normal transportation passage 123 to the coin bypass passages 120 by use of the valve member 99 of the coin transportation passage switch mechanism 95. Therefore, it is made possible to continue receiving coins even after the occurrence of jamming of a coin in the coin normal transportation passage 123. Additionally, after the switching of coin transportation passages, the coin acceptor 4 is still used the same as before the switching, whereby, even when a lot of coins are cast into the coin acceptor 4, the coin acceptor 4 sequentially receives the coins without causing jamming and therefore can deal with the switching.
In this embodiment, the structure of the coin transportation passage switch mechanism 95 can be simplified because the coin transportation passage switch mechanism 95 is manually operated.
After the coin bypass passage 120 is put into operation with the valve member 99 moved to the bypass position by the coin transportation passage switch mechanism 95, the valve member 99 is maintained at the bypass position by the locking mechanism 117, whereby it is impossible to return the valve member 99 to the normal position only by operating the coin transportation passage switch lever 96. This makes it possible to reduce a risk of having a coin inserted in the coin normal transportation passage 123 at the occurrence of jamming of coins therein.
The locking mechanism 117 of the coin transportation passage switch mechanism 95 is arranged inside the top lid 10. Therefore, the valve member 99 located at the bypass position cannot be returned to the normal position unless the top lid 10 is opened by unlocking the cylinder lock 12 of the top lid 10. This prevents unauthorized unlocking of the locking mechanism 117.
The coin transportation passage switch mechanism 95 comprises the linkage mechanism 62 arranged along the inner face of the sidewall 10a of the top lid 10. This makes it possible to use an unused space inside the top lid 10 effectively for arranging members constituting the bill receiving opening switch mechanism 56.
Thus, passengers are allowed to smoothly pay the fares not only because bills can be received by the bill bypass passage 84 even at the occurrence of jamming of a bill, but also because coins can be received by the coin bypass passages 120 even at the occurrence of jamming of coins.
<Description of Downstream Passages for Money and the Surroundings Thereof>
As shown in
Inside the frame wall 168, two boards 169 and 170 arranged facing each other constitute the bill feeding lower passage 171, which is a bill passage under the bill validating module 14. Guide sections 169a and 170a for bills are formed in the upper ends of the two boards 169 and 170 by being bent in such directions as to further separate from each other. Additionally, the two boards 169 and 170 are arranged tilting by predetermined angles to the vertical direction of the main body 8. The bill feeding lower passage 171 thereby assumes a bent shape, and a bill passage from the bill validating module 14 to the cashbox 20 appears substantially U-shaped in a cross-sectional view. Therefore, when the bill feeding lower passage 171 is viewed from above, it is impossible for the line of sight to linearly reach an exit thereof, and the inside of cashbox 20 is less likely to be viewed.
A pair of bill transportation rollers 172, 172 to transport a bill downward in the bill feeding lower passage 171 is provided to the bill feeding lower passage mechanism 167 so as to be rotatable. At positions facing the bill transportation rollers 172, 172, a pair of driven rollers 176, 176 to catch a bill in cooperation with the bill transportation rollers 172, 172 in the interstice therebetween and to guide fed bills are provided so as to be rotatable.
A roller gear 173 to integrally rotate with the bill transportation rollers 172, 172 is attached to an axial end of these rollers. A coupling gear 174 to transmit rotation of the driven gear 166 (refer to
The coupling 175 is made of a plate and supported by an end of the bill transportation rollers 172, and is rotatable about the shaft of the bill transportation roller 172. A biasing member 177 to constantly bias the coupling 175 upward (a direction indicated by the arrow R in
When the bill validating module 14 is set in the electrical component storage 13, the driven gear 166 of the bill validating module 14 is pushed from above against the small-diameter gear 174a of the coupling gear 174, so that the coupling gear 174 meshes with the driven gear 166. Therefore, when the driven gear 166 rotates along with rotation of the motor 92 of the bill validating module 14, the coupling gear 174 is driven to rotate. Thus, the roller gear 173 meshing with the coupling gear 174 rotates, and the bill transportation rollers 172, 172 rotate to transport a bill downward.
As shown in
The coin feeding lower passage 178 is provided with plural coin jamming detection sensors 182 to detect an abnormal accumulation of coins has occurred in the coin feeding lower passage 181. For each of the coin jamming detection sensors 182, a photo-coupler is used, for example. The coin jamming detection sensors 182 are arranged in parallel lines. When coins have accumulated in the coin feeding lower passage 181, the detection sensors 182 detect the presence of coins, and notify the controller 135 of the occurrence of an unusual event. If the cashbox 20 is set in the main body 8 with an entrance of the coin compartment 35 being blocked up by a plate or the like, coins would be dammed up and pile up outside the entrance of the coin compartment 35. Then, there would be a risk that these coins thus dammed up and being outside the cashbox 20 might be stolen when the cashbox 20 is detached from the fare box 1. The coin jamming detection sensors 182 of this embodiment detect whether coins have accumulated in the coin feeding lower passage 181, and notify the controller 135 thereof, thereby making it possible to discover such an illicit act as blocking up the entrance of the cashbox 20.
As shown in
The reason for making the box upper part 183 and the box lower part 184 separable is to enable maintenance on the cashbox door locking mechanism 23 in the box lower part 184 by making the box upper part 183 removable from the box lower part 184. It is possible to integrally assemble the box upper part 183 and the box lower part 184 by means of fasteners 185 attached to the four corners inside the main body 8. As each of the fasteners 185, a screw is used for example.
<Description of the Electrical Configuration of the Fare Box 1>
Next, the electrical configuration of the fare box 1 is described. As shown in
When jamming of a bill has been detected by the bill jamming detection sensors 83 and 94, the controller 135 notifies a driver (an operator) of the jamming of a bill through indication of the display interface 136. Additionally, when jamming of a coin has been detected by the coin jamming detection sensor 134, the controller 135 notifies the driver of jamming of a coin through indication of the display interface 136 when it is impossible to clear the jamming of a coin even by operating the movable rollers 122.
The bill receiving opening switch detection sensor 65 and the coin passage switch detection sensor 118 are also connected to the control module 16. When an ON signal is input to the controller 135 from the bill receiving opening switch detection sensor 65, the controller 135 executes, via the display interface 136, notification indicating that the shutter 57 has been shifted to the bypass position from the normal position.
Further, when an ON signal is input to the controller 135 from the coin passage switch detection sensor 118, the controller 135 executes, via the display interface 136, notification indicating that the valve member 99 has been shifted to the bypass position from the normal position.
<Description of the Operation of the Fare Box 1>
Next, behavior of this fare box 1 in question is described using
First, a case where the fare is paid in bill is described. At normal times, the bill receiving opening switch lever 59 is raised, and the shutter 57 is placed at the normal position, as shown in
Bills inserted into the bill normal receiving opening 3a are transported to the cashbox 20 through the bill normal transportation passage 73 after the kinds thereof are identified by the bill validator 70.
A case where the bill normal transportation passage 73 is jammed with a bill is described. When the bill jamming detection sensor 83 has detected jamming of a bill, the controller 135 notifies the driver thereof by indicating on the display interface 136 that jamming of a bill has occurred. The driver thereby recognizes that jamming of a bill has occurred in the bill normal transportation passage 73.
Upon recognizing that jamming of a bill has occurred, the driver operates the bill receiving opening switch lever 59 by flipping the lever downward as shown in
The shutter 57 connecting with the bill receiving opening switch lever 59 through the linkage mechanism 62 rotates about the shaft 58, thereby being shifted to the bypass position from the normal position. Therefore, as shown in
Next, a case where the fare is paid in coin is described. As shown in
Here, a case where the coin normal transportation passage 123 is jammed with a coin is described. On the basis of detection of the jamming from the coin jamming detection sensors 134, the controller 135 moves the movable roller 122 away from the fixed roller 121. The coin normal transportation passage 123 is enlarged in width, and the stuck coin drops, whereby the jamming is cleared. However, there may be a case where jamming of a coin cannot be cleared even when the movable roller 122 is moved away from the fixed roller 121. At this time, the controller 135 notifies a driver of the jamming of a coin via a display interface 136 on the basis of detection from the coin jamming detection sensor 134. The driver thereby recognizes the jamming of a coin in the coin normal transportation passage 123.
Upon recognizing that jamming of a coin has occurred, the driver knocks the coin transportation passage switch lever 96 downward as shown in
As a result, as shown in
In this embodiment, as described above, the fare box 1 is provided with two entrances for bills, which are the bill normal receiving opening 3a and the bill backup receiving opening 3b, and either of the bill normal receiving opening 3a and the bill backup receiving opening 3b can be selectively opened by the shutter 57. Therefore, at normal times, the shutter 57 is placed at the normal position, and the bill normal receiving opening 3a is put into operation. At the occurrence of jamming of a bill in the bill normal transportation passage 73, the shutter 57 is rotated to the bypass position by operating the bill receiving opening switch lever 59, whereby the bill backup receiving opening 3b is opened in place of the bill normal receiving opening 3a.
After the occurrence of jamming of a bill in the bill normal transportation passage 73, it is possible to store bills in the cashbox 20 through the bill bypass passages 84. Therefore, it is possible to continue receiving bills despite the occurrence of jamming of a bill in the bill normal transportation passage 73. Further, when the bill backup receiving opening 3b is put into operation, the bill normal receiving opening 3a is closed by the shutter 57, passengers immediately recognize that the bill backup receiving opening 3b should be used. Therefore, when the bill normal transportation passage 73 has become unusable at the occurrence of jamming of a bill in the bill normal transportation passage 73 or at the occurrence of a failure in the bill validator 70, it is possible to smoothly continue receiving bills.
Additionally, the coin acceptor 4 is provided with the valve member 99, and either of the normal coin entrance 104a and the backup coin entrance 104b is selectively put into operation by the valve member 99. Therefore, despite the occurrence of jamming of a coin in the coin normal transportation passage 123, the use of the backup coin entrance 104b makes it possible to continue receiving coins. Further, the same coin acceptor 4 is shared by both of the normal coin entrance 104a and the backup coin entrance 104b, which eliminates the need of providing plural acceptors.
Next, a fare box 150 according to another embodiment of the present invention is described in accordance with
In the fare box 150, the top face of the top lid 10 is entirely formed of a smooth sloping surface, and has a simple structure. The bill acceptor 3 has a recess corresponding to the widths of bills, and the shutter 57 is thereby less conspicuous, whereby a bill receiving opening usable by passengers can be easily recognized regardless of which of the bill normal receiving opening 3a and the bill backup receiving opening 3b is used.
The present invention is not limited to the configurations of the above embodiments, and various changes or improvements can be made thereto without departing from the spirit and the scope of the present invention. For example, the above embodiments may be changed in the following manners.
As shown in
The shutter 57 is not limited to one functioning by rotating about a shaft, and may be one functioning to selectively open any one of plural bill receiving openings by sliding to change the position thereof.
The fare box 1 may further comprise: an input device through which an operator such as a driver inputs the amount of money received by the cashbox 20 through bypass passages (the bill bypass passages 84 and the coin bypass passages 120); and a memory device to store the amount of money input through the input device. In this case, the monetary data received while each of the bypass passages is used can be stored in the fare box 1.
The valve member 99 is not limited to one hidden inside the top lid 10 and may be exposed outside the top lid 10.
The bill receiving opening switch mechanism 56 and the coin transportation passage switch mechanism 95 are not limited to those in the above embodiments, and may be changed as appropriate. The bill validating module 14 and the coin validating module 15 also may be changed.
The bill receiving opening switch mechanism 56 and the coin transportation passage switch mechanism 95 are not limited to those to be manually operated, and may be those to be operated electrically or by a mechanical force.
The shutter 57 is not limited to one hidden inside the top lid 10 and may be exposed outside the top lid 10.
The shutter may be detected at the two positions not only by using the bill receiving opening switch detection sensor 65 to detect when the shutter 57 is located at the bypass position, but also by having sensors to detect when the shutter 57 is located at the normal position.
The locking mechanisms 67 and 117 may include release mechanisms thereof outside the main body 8, and unlocking thereof without opening the top lid 10 may be allowed.
The structure for storing electrical components such as the bill validating module 14, the coin validating module 15, the control module 16, and the power module 17 may be changed as appropriate. For example, partition plates may be provided in the electrical component storage 13, and each module may be positioned thereby being stored. Additionally, instead of a lid that opens upward, the electrical component storage 13 may be openable and closable by a door provided on the front side or a lateral side of the main body 8, and the electrical components may be put in and out sideways.
A method for the authentication for unlocking the cashbox door locking mechanism 23 is not limited to the infrared communication system employing the probe 27, and may be a system with a keyboard for manually inputting a secret code. Alternatively, a wireless communication with an IC tag or an authentication with a magnetic card may be used, or plural ones of these methods may be used in combination.
A method for the authentication of the cashbox 20 is not limited to an authentication method using short range wireless communication, and other methods may be adopted. Another wireless communication means such as infrared communication may be used, or communication may be established by connecting the cashbox and the fare box to each other via electrical contacts.
The sensors and actuators mounted on the fare box 1 are not limited to those described in the embodiments, and may be changed as appropriate.
The top lid 10 is not limited to one having the hinge 11 on the front side and having the cylinder lock 12 on the back side, and may have the hinge in the back side or either one of the lateral sides and have the cylinder lock 12 in the front side or the other lateral side. In a case where the hinge is provided in the back side or a lateral side, maintenance from the front side is facilitated.
In the following section, the technical ideas observed in the embodiments are described.
(A) In one aspect, the present invention provides a fare box comprising a main body, a bill normal receiving opening, a bill normal transportation passage, a bill backup receiving opening, a bill bypass passage, a shutter, and a bill receiving opening switch mechanism. The cashbox is retained in the main body and storing money. The bill normal receiving opening is provided on an outer face of the main body and accepting a bill. The bill normal transportation passage transports the bill accepted at the bill normal receiving opening to the cashbox. The bill backup receiving opening is on an outer face of the main body for accepting a bill. The bill bypass passage that transports the bill accepted at the bill backup receiving opening to the cashbox. The shutter that takes either of two positions selectively, the two positions being a normal position at which the shutter opens the bill normal receiving opening and a bypass position at which the shutter opens the bill backup receiving opening. The bill receiving opening switch mechanism that shifts the position of the shutter to open one of the bill receiving openings.
According to this configuration, not only the bill normal receiving opening but also the bill backup receiving opening are provided as bill receiving openings of the fare box, and either one of these bill receiving openings is selectively opened, or closed by the shutter. Therefore, at the occurrence of jamming of a bill in the bill normal transportation passage, the bill normal receiving opening is closed by the shutter, and the bill backup receiving opening is opened, so that the bill backup receiving opening is used to receive bills. Therefore, even when the bill normal transportation passage is unusable because of a problem such as jamming of a bill having occurred in the bill normal transportation passage, passengers are allowed to continue fare payment with bills. Additionally, when the bill normal transportation passage is unusable, the bill backup receiving opening is opened with the bill normal receiving opening being closed, whereby passengers can immediately notice that the bill normal transportation passage is unusable. This makes it possible to smoothly continue receiving fares paid with bills even when the bill normal transportation passage is unusable.
(B) In another aspect, the bill receiving opening switch mechanism further comprises: a switch controller which is provided outside the main body, and by use of which the shutter is manually shifted from the normal position to the bypass position; and a switch transmission mechanism which actuates the shutter in accordance with an operation at the switch controller. According to this configuration, the mechanism for shifting the position of the shutter can be simplified because the position of the shutter is manually shifted.
(C) In still another aspect, the bill receiving opening switch mechanism further comprises a locking mechanism which maintains the shutter at the bypass position by engaging with the shutter when the shutter is positioned at the bypass position at which the shutter opens the bill backup receiving opening. According to this configuration, the shutter is maintained at the bypass position by the locking mechanism when taking the bypass position. Thus, it is impossible to shift the shutter to the normal position after the shutter shifted to the bypass position for putting the bill bypass passages into operation. It is therefore possible to make less likely a situation in which a passenger inserts a bill into the bill normal transportation passage jammed with a bill.
(D) In still another aspect, while the main body comprises a lockable lid, the bill receiving opening switch mechanism further comprising an engagement release mechanism provided inside the main body in such a manner as to be capable of accepting a release operation when the lid is opened, and release the engagement of the locking mechanism when accepting the release operation. According to this configuration, releasing the engagement of the locking mechanism requires that the engagement release mechanism be operated with the lid opened. Therefore, the lid should be unlocked first to manipulate the release mechanism and release the locking mechanism from the engagement when the lid has been locked. This makes it possible to prevent a person, who does not have the authority to unlock the lid, from unlocking the locking mechanism illicitly.
(E) In still another aspect, the switch transmission mechanism is a linkage mechanism, which is arranged along an inner face of a sidewall of the main body and actuates the shutter by transmitting an operating force from the switch controller to the shutter. According to this configuration, this linkage mechanism is provided in the bill receiving opening switch mechanism, and is arranged at a marginal portion of the main body along an inner face of a sidewall of the main body. It is thereby possible to make the switching transmission mechanism less likely to interfere with other mechanisms and devices stored in the main body, and to arrange mechanisms and devices therein more densely, whereby upsizing of the fare box can be prevented.
(F) In another aspect, the fare box further comprises a bill transportation device, an inserted-object detector and a bill determination section. The bill transportation device is provided to the bill bypass passage and capable of transporting an inserted object inserted into the bill backup receiving opening to the cashbox. The inserted-object detector is provided to the bill backup receiving opening, and detects whether the inserted object inserted into the bill backup receiving opening is an alien substance.
The bill determination section determines, on the basis of the detection result of the inserted-object detector, whether the inserted object is a bill, and controls the bill transportation device so as to cause the bill transportation device to transport only the inserted objects that have been determined to be bills to the cashbox. According to this configuration, whether an inserted object put in the bill backup receiving opening is an alien substance is detected, and receiving bills is executed only when the inserted object is determined to be a bill. It thereby reduces the risk that a magnetic card or other tickets, different in size from bills, are mistakenly taken in the main body.
(G) In still another aspect, while the bill bypass passage is vertically arranged on a wall of the main body, the cashbox is arranged under the bill bypass passage. According to this configuration, the bill bypass passage is set along a direction running vertically along the wall of the main body, so that the bill bypass passage is positioned in a marginal portion of the inside of the main body. Therefore, a large storage space inside the main body can be secured. Additionally, the cashbox is placed under the bill bypass passage, whereby, when being transported to the cashbox via the bill bypass passage, bills can be transported to the cashbox through a simple route where bills are transported downward from above. It is thereby possible to makes the bill bypass passage less likely to be jammed with a bill.
(H) In still another aspect, the fare box further comprises a coin acceptor, a coin normal transportation passage, a coin bypass passage and a coin transportation passage switch mechanism. The coin acceptor opens through an outer face of the main body, and receives plural coins. The coin normal transportation passage is provided inside the main body, and transports coins received from the coin acceptor to the cashbox. The coin bypass passage is provided inside the main body, and transports coins received from the coin acceptor to the cashbox. The coin transportation passage switch mechanism comprises a valve member. The valve member is provided in the back side of the coin acceptor so as to be able to slide in a direction intersecting a direction along which coins fall, and selectively opens either of the coin normal transportation passage and the coin bypass passage. The coin transportation passage switch mechanism sets one of the passages to be taken by coins received at the coin acceptor, by the valve member. According to this configuration, it is possible to switch passages for transporting coins from the coin normal transportation passage to the coin bypass passages by use of the coin transportation passage switch mechanism when the coin normal transportation passage has jammed with a coin. Therefore, despite the occurrence of jamming of a coin in the coin normal transportation passage, passengers can continue fare payment with coins. Further, even after passages for transporting coins have been thus switched, the same coin acceptor is used. Therefore, despite that jamming of a coin has occurred and the passage is switched to the coin bypass passage, passengers can pay fares by casting coins into the same coin acceptor as usual.
Incidentally, various techniques devised so far are available for continuous intake of coins by switching passages to the coin bypass passage when the coin normal transportation passage has become jammed with a coin. However, adoption of some structure involves a risk of making a mechanism larger and upsizing a fare box. Examples of such a structure are: one in which switch to the coin bypass passage is implemented by moving the coin acceptor; and one in which switch to the coin bypass passage is implemented by moving devices inside the coin validator. Further, in a case where a coin acceptor has a large opening to receive plural coins, a larger mechanism is also required for adopting a structure where plural coin acceptors are provided and switched by a shutter. In contrast, according to the coin opening switch mechanism of this configuration, internal passages are switched by moving the valve member, and one coin acceptor is shared by the coin normal transportation passage and the coin bypass passages. This makes it possible to prevent upsizing of the fare box.
(I) In still another aspect, the present invention provides a fare box for receiving and storing money paid as fares, which comprises a main body, a coin validating module, a coin normal transportation passage, a bill normal receiving opening, a bill validating module, a bill normal transportation passage, a bill backup receiving opening, a bill bypass passage, a bill receiving opening switch mechanism, a control module, a power module; and electrical component connectors. The main body has an electrical component storage provided inside, and comprises a lockable lid in an upper portion thereof. The electrical component storage opens upward when the lid is opened. The coin validating module comprises a coin validator and a device side connector, and is detachably stored in the electrical component storage. The coin validator determines whether a coin received from the coin acceptor is a true coin, and identifies the denomination thereof. The device side connector is provided in a downward-facing manner. The coin normal transportation passage transports coins determined by the coin validator to be true to a cashbox. The bill normal receiving opening opens on an outer face of the main body, and receives a bill. The bill validating module comprises a bill validator and a device side connector, and is detachably stored in the electrical component storage. The bill validator determines whether a received bill is a true bill, and identifies the denomination thereof. The device side connector is provided in a downward-facing manner. The bill normal transportation passage transports bills determined by the bill validator to be true to the cashbox. The bill backup receiving opening opens on an outer face of the main body, and receives a bill. The bill bypass passage is provided inside the main body, and transports the bill received from the bill backup receiving opening to the cashbox. The bill receiving opening switch mechanism comprises a shutter, a switch controller, a linkage mechanism, a locking mechanism, and an engagement release mechanism. The shutter is capable of selectively opening either of the bill normal receiving opening and the bill backup receiving opening by selectively taking either of two positions. The two positions are a normal position at which the shutter opens the bill normal receiving opening and a bypass position at which the shutter opens the bill backup receiving opening. The switch controller is provided outside the main body and used for manually shifting the shutter from the normal position to the bypass position. The linkage mechanism is arranged along an inner face of a sidewall of the main body and actuates the shutter by transmitting an operating force from the switch controller to the shutter. The locking mechanism maintains the shutter at the bypass position by engaging with the shutter when the shutter is positioned at the bypass position. The engagement release mechanism is provided in the electrical component storage and releases the locking mechanism from the engagement when accepting a release operation. The control module comprises a device side connector provided in a downward-facing manner, is detachably stored in the electrical component storage and processes collection information on received bills and coins on the basis of the validating results of the coin validator and the bill validator. The power module comprises a device side connector provided in a downward-facing manner, is detachably stored in the electrical component storage and supplies power at least to the coin validator, the bill validator and the control module. The electrical component connector comprises main body side connectors provided in an upward facing-manner at positions that allow the respective device side connectors to be connected to the main body side connectors when the coin validator, the bill validator, the control module and the power module are inserted from above and stored in predetermined positions. According to this configuration, the bill bypass passage and the linkage mechanism for switching the bill passages are arranged in a marginal portion of the inside of the main body. In addition, electrical components stored in the electrical component storage, which are the coin validating module, the bill validating module, the control module and the power module, are vertically attachable and detachable. It makes the electrical components less likely to interfere with the bill bypass passage and the bill receiving opening switch mechanism. Additionally, this configuration enables effective utilization of the limited space and prevents upsizing of the fare box. Further, when the electrical components such as the coin validator are stored in the electrical component storage of the fare box, each of the device side connectors and the main body side connector are connected with each other by being positioned by positioning members. This enables to omit harness connection between the corresponding connectors, and simplifies connecting the connectors together when the electrical components are attached.
(J) In still another aspect, while the cashbox is attachable to and detachable from the main body, the fare box further comprises a cashbox side communicator, a body side communicator, and a cashbox authentication processor. Being provided to the cashbox, the cashbox side communicator receives a radio wave, operates by using the electric power of the radio wave as a power supply, and transmits an ID code unique to the cashbox. Being provided to the main body, the body side communicator transmits the radio wave and receives the ID code. The cashbox authentication processor authenticates the cashbox on the basis of the received ID code. According to this con-figuration, the cashbox is authenticated by the processor when the cashbox is mounted on the fare box. This enables confirmation as to whether a proper cashbox has been mounted on the fare box. Additionally, a cashbox attached to the fare box is identified with an ID code. This makes it possible to manage cashboxes in such a manner that, when money in the inside of a cashbox is counted after the cashbox is detached from a fare box, the fare box on which the cashbox has been mounted and the contents of the cashbox are associated with each other.
(K) The shutter has a rotating shaft and a shutter mounted on the rotating shaft and rotatable about the rotating shaft. The bill normal receiving opening is positioned in one side in the direction along which the shutter rotates, whereas the bill backup receiving opening is positioned in the other side thereof across the rotating shaft of the shutter. Either of the bill normal receiving opening and the bill backup receiving opening is selectively opened by having the position of the shutter shifted by the rotation of the shutter. According to this configuration, a fare box can be downsized because a space necessary for shifting the position of the shutter is small. It is thereby possible to reduce a risk that, in a case where the bill bypass passage is provided, the fare box is upsized due to members constituting the bill bypass passage.
(L) In still another aspect, inserted-object detector to detect whether any inserted object, such as a bill, has been inserted into the bill normal receiving opening is provided to the bill normal receiving opening. When the inserted-object detector detects the inserted-object, a bill validating module is driven on the basis of control from a controller. According to this configuration, the bill validating module is stopped when not in use, whereby power can be saved. This prevent a risk of wasting electric power by having the bill validating module driven even in a situation not requiring the bill validating module to be in use, such as when the bill bypass passage is in use.
(M) In still another aspect, the bill validating module to identify the denomination of received bills and transport the bills, the coin validating module to identify the denomination of received coins and transport the coins, the control module to control behavior of the fare box, and the power module to control a power supply of the fare box are arranged so as to line up in a direction along a horizontal plane in the main body. According to this configuration, electrical components do not vertically overlap each other. This makes it possible to independently and individually put each of the electrical components into and out from the electrical component storage, whereby provides excellent workability in performing maintenance on the electrical components. Because the interference between the electrical components is negligible according to this configuration, it eliminates the need of taking out electrical components not needed to be repaired or cleaned in performing maintenance on the fare box, and the need of paying attention to the sequence of the electrical components in storing the electrical components in the main body.
(N) In still another aspect, the fare box further comprises a bill receiving opening switch detection sensor and a display unit. The bill receiving opening switch detection sensor detects which position the shutter is placed at, the normal position or the bypass position. When the detection result of the bill receiving opening switch detection sensor indicates that the shutter is positioned at the bypass position, the display unit indicates to passengers that the bill bypass passage is in use. According to this configuration, not only the open state of the bill backup receiving opening with the shutter positioned at the bypass position, but also the indication of the display unit, can prompt passengers to insert bills into the bill backup receiving opening. This reduces the risk that the use of the bill bypass passage brings discomfort to passengers because the fare box behaves differently from usual.
(O) In still another aspect, the valve member comprises a coin passage switch controller provided outside the main body and used for manually shifting the valve member from the normal position to the bypass position, and the valve member takes either of two positions, which are a normal position at which the valve member opens the normal transportation passage, and a bypass position at which the valve member opens the bypass passage. According to this configuration, a structure for shifting the position of the valve member can be simplified because the position of the valve member is manually shifted.
(P) In still another aspect, the fare box comprises a valve member locking mechanism to maintain the valve member at the bypass position by engaging therewith when the valve member takes the bypass position at which the valve member opens the bypass passage. According to this configuration, it is impossible to return the valve member to the normal position after the coin bypass passage is put into operation with the valve member positioned at the bypass position. Therefore, it makes less likely that a passenger puts a coin into the coin normal transportation passage already jammed with a coin.
(Q) In still another aspect, the valve member locking mechanism comprises a release mechanism provided inside the main body and releases the locking mechanism from the engagement when accepting a release operation with the lid opened. According to this configuration, people other than a person in charge, who has the authority to unlock the lid and handle the devices inside, are not permitted to release the valve member locking mechanism from the engagement. This makes it possible to prevent unauthorized release of the valve member locking mechanism. This prevents the return of the valve member to the normal position even though jamming of a coin has not been cleared due to the arbitrary release of the valve member locking mechanism by a passenger or a driver.
(R) In still another aspect, the fare box comprises a coin transportation passage switch linkage mechanism to transmit an operating force from the coin passage switch controller to the valve member and thereby actuate the valve member, and this linkage mechanism is arranged along an inner face of a sidewall of the main body. According to this configuration, it is possible to utilize an otherwise vacant space in the main body effectively in arranging members constituting the coin transportation passage switch mechanism in. This prevents a problem that such inclusion of plural coin passages requires a larger space in the main body than inclusion of only one coin passage and, without upsizing the main body, brings difficulty in arranging internal members.
(S) In still another aspect, the coin validating module, the bill validating module, the control module and the power module, which are electrical components stored in the electrical component storage, are provided with fasteners used for detachably fixing the respective electrical components to the main body. Specific examples of the fastener include a quick release fastener and a ball lock pin. For example, a quick release fastener can be cited as one of these fasteners that can be fastened to electrical components in such a manner as to prevent the fasteners from falling off. While including a tubular support which supports a pin so that the pin can slide in the axial direction thereof (in a direction along which the pin is taken out and inserted), a quick release fastener has a structure for keeping the pin engaged with the support without falling off the support. Once the support is attached to an electrical component, the quick release fastener does not fall off the electrical component. At the same time, since the pin can slide axially, the electrical component can be fixed to the main body.
This makes it possible to prevent the fastener from falling off the electrical component. Particularly, in a case where the electrical components are vertically attached to and detached from the main body in the case of the above fare box 1, a fastener may drop on a relay board or enter the cashbox when the fastener falls off at the time of maintenance or the like. Such falling off accompanies a risk of resulting in mechanical interference of the fastener with a mechanism in the fare box or in an electrical short circuit and thereby causing a breakdown of the fare box. In contrast, prevention of falling off of the fastener reduces the risk of casing such a breakdown. Additionally, work of assembling, repair, maintenance or the like can be facilitated because there is no risk that a fastener falls off in attaching and detaching electrical components.
(T) In still another aspect, the fare box comprises a lid-stopper mechanism which supports the lid while keeping the lid open. This configuration makes it possible to hold the lid while keeping the lid open, whereby convenience at the time of maintenance or the like is enhanced. Here, the lid-stopper mechanism may allow stepwise setting of the degree of opening of the lid, or alternatively, may allow the lid to halt before being completely closed in the middle of closing the lid.
(U) In still another aspect, the fare box further comprises a cashbox side communicator, a body side communicator, and a cashbox authentication processor, whereas data on fares can be written from the body side communicator into a memory of the cashbox side communicator. Being provided to the cashbox detachably stored in the main body, the cashbox side communicator receives a radio wave, operates by using the radio wave as a power supply, and transmits an ID code unique to the cashbox. Being provided to the main body, the body side communicator transmits the radio wave and receives the ID code. The cashbox authentication processor authenticates the cashbox on the basis of the received ID code. According to this con-figuration, it is possible to store not only ID information but also the data on fares in the memory of the cashbox side communicator.
(V) In still another aspect, the fare box comprises a bill validating module and a bill feeding lower passage. The bill validating module identifies a bill inserted as a fare. The bill feeding lower passage functions as a passage used for feeding, to the cashbox, a bill discharged from the bill validating module. The bill feeding passage has a curving portion. According to this configuration, it makes it difficult for a person to peep into the bill feeding lower passage to see the inside of the cashbox located at the end of the passage.
(W) In still another aspect, the fare box comprises a coin validating module, a coin feeding lower passage, and coin illicit-jamming detector. The coin validating module identifies a coin casted as a fare. The coin feeding lower passage functions as a passage used for feeding, to the cashbox, a coin discharged from the coin validating module.
The coin illicit-jamming detector detects when a coin is stuck in the coin feeding passage. According to this configuration, it is possible to detect when a coin is stuck outside the entrance of the cashbox, and an illicit act of stealing coins therefore is highly effectively prevented.
(X) In still another aspect, the main body is separable into a box upper part and a box lower part, and it is possible to integrally assemble these box upper part and box lower part together by use of plural fasteners. The box upper part comprises a cover and an operator authentication section. The cover conceals at least one of the fasteners. Only when a person is confirmed to have the authority to operate the fastener that is covered by the cover, the operator authentication section permits the person to operate the fastener. According to this configuration, it is possible to prevent the box upper part and the box lower part from being separated by a person who does not have the authority to separate these parts, whereby security is improved. Note that the operator authentication section may take the form of a cylinder lock, which otherwise may be changed to, for example, electronic authentication of the operator ID using encrypted radio communication as appropriate.
Number | Date | Country | Kind |
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2011-011283 | Jan 2011 | JP | national |
2011-246842 | Nov 2011 | JP | national |
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Entry |
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Sheidt & Bachmann USA, Inc., VARE-point, the next generation of mobile fare collection, catalogue, Sep. 2008, 6 pages, Scheidt & Bachman USA, Inc., Burlington, MA USA. |
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Number | Date | Country | |
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20140197008 A1 | Jul 2014 | US |
Number | Date | Country | |
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Parent | 13979882 | US | |
Child | 14159165 | US |